diff --git a/package.json b/package.json index a7f28f7..628f5b2 100644 --- a/package.json +++ b/package.json @@ -8,7 +8,6 @@ "lint": "vue-cli-service lint" }, "dependencies": { - "@easydarwin/easywasmplayer": "^4.0.10", "axios": "0.24.0", "core-js": "^3.8.3", "dayjs": "^1.11.9", diff --git a/public/easyplayer/EasyWasmPlayer.js b/public/easyplayer/EasyWasmPlayer.js new file mode 100644 index 0000000..e7675f0 --- /dev/null +++ b/public/easyplayer/EasyWasmPlayer.js @@ -0,0 +1,28042 @@ +!function (A, M) { + "object" == typeof exports && "object" == typeof module ? module.exports = M() : "function" == typeof define && define.amd ? define([], M) : "object" == typeof exports ? exports.WasmPlayer = M() : A.WasmPlayer = M() +} +(this, function () { + return g = {}, + I.m = t = [function (A, M, t) { + "use strict"; + var g = t(6), + t = t.n(g), + g = function () { + function t() {} + return t.e = function (A, M) { + A && !t.FORCE_GLOBAL_TAG || (A = t.GLOBAL_TAG); + M = "[" + A + "] > " + M; + t.ENABLE_CALLBACK && t.emitter.emit("log", "error", M), + t.ENABLE_ERROR && (console.error || console.warn) + }, + t.i = function (A, M) { + A && !t.FORCE_GLOBAL_TAG || (A = t.GLOBAL_TAG); + M = "[" + A + "] > " + M; + t.ENABLE_CALLBACK && t.emitter.emit("log", "info", M), + t.ENABLE_INFO && console.info + }, + t.w = function (A, M) { + A && !t.FORCE_GLOBAL_TAG || (A = t.GLOBAL_TAG); + M = "[" + A + "] > " + M; + t.ENABLE_CALLBACK && t.emitter.emit("log", "warn", M), + t.ENABLE_WARN && console.warn + }, + t.d = function (A, M) { + A && !t.FORCE_GLOBAL_TAG || (A = t.GLOBAL_TAG); + M = "[" + A + "] > " + M; + t.ENABLE_CALLBACK && t.emitter.emit("log", "debug", M), + t.ENABLE_DEBUG && console.debug + }, + t.v = function (A, M) { + A && !t.FORCE_GLOBAL_TAG || (A = t.GLOBAL_TAG); + M = "[" + A + "] > " + M; + t.ENABLE_CALLBACK && t.emitter.emit("log", "verbose", M) + }, + t + } + (); + g.GLOBAL_TAG = "EasyPlayer.js", + g.FORCE_GLOBAL_TAG = !1, + g.ENABLE_ERROR = !0, + g.ENABLE_INFO = !0, + g.ENABLE_WARN = !0, + g.ENABLE_DEBUG = !0, + g.ENABLE_VERBOSE = !0, + g.ENABLE_CALLBACK = !1, + g.emitter = new t.a, + M.a = g + }, function (A, M, t) { + "use strict"; + t.d(M, "E", function () { + return g + }), + t.d(M, "C", function () { + return I + }), + t.d(M, "D", function () { + return e + }), + t.d(M, "v", function () { + return i + }), + t.d(M, "l", function () { + return T + }), + t.d(M, "p", function () { + return E + }), + t.d(M, "x", function () { + return N + }), + t.d(M, "u", function () { + return n + }), + t.d(M, "k", function () { + return D + }), + t.d(M, "r", function () { + return C + }), + t.d(M, "s", function () { + return r + }), + t.d(M, "m", function () { + return c + }), + t.d(M, "B", function () { + return o + }), + t.d(M, "w", function () { + return B + }), + t.d(M, "z", function () { + return Q + }), + t.d(M, "A", function () { + return a + }), + t.d(M, "t", function () { + return h + }), + t.d(M, "q", function () { + return s + }), + t.d(M, "o", function () { + return y + }), + t.d(M, "y", function () { + return w + }), + t.d(M, "n", function () { + return j + }), + t.d(M, "b", function () { + return L + }), + t.d(M, "a", function () { + return d + }), + t.d(M, "f", function () { + return x + }), + t.d(M, "i", function () { + return S + }), + t.d(M, "d", function () { + return z + }), + t.d(M, "h", function () { + return l + }), + t.d(M, "c", function () { + return U + }), + t.d(M, "j", function () { + return f + }), + t.d(M, "e", function () { + return O + }), + t.d(M, "g", function () { + return m + }); 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+ g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + function e(A, M, t) { + return M && I(A.prototype, M), + t && I(A, t), + A + } + t.d(M, "d", function () { + return i + }), + t.d(M, "a", function () { + return T + }), + t.d(M, "b", function () { + return E + }), + t.d(M, "c", function () { + return N + }); + var i = function () { + function A(A) { + this._message = A + } + return A.prototype.toString = function () { + return this.name + ": " + this.message + }, + e(A, [{ + key: "name", + get: function () { + return "RuntimeException" + } + }, { + key: "message", + get: function () { + return this._message + } + } + ]), + A + } + (), + T = function (M) { + function A(A) { + return M.call(this, A) || this + } + return g(A, M), + e(A, [{ + key: "name", + get: function () { + return "IllegalStateException" + } + } + ]), + A + } + (i), + E = function (M) { + function A(A) { + return M.call(this, A) || this + } + return g(A, M), + e(A, [{ + key: "name", + get: function () { + return "InvalidArgumentException" + } + } + ]), + A + } + (i), + N = function (M) { + function A(A) { + return M.call(this, A) || this + } + return g(A, M), + e(A, [{ + key: "name", + get: function () { + return "NotImplementedException" + } + } + ]), + A + } + (i) + }, function (A, M) { + "function" == typeof Object.create ? A.exports = function (A, M) { + M && (A.super_ = M, A.prototype = Object.create(M.prototype, { + constructor: { + value: A, + enumerable: !1, + writable: !0, + configurable: !0 + } + })) + } + : A.exports = function (A, M) { + var t; + M && (A.super_ = M, (t = function () {}).prototype = M.prototype, A.prototype = new t, A.prototype.constructor = A) + } + }, function (A, M, t) { + /*! safe-buffer. MIT License. Feross Aboukhadijeh */ + var g = t(9), + I = g.Buffer; + function e(A, M) { + for (var t in A) + M[t] = A[t] + } + function i(A, M, t) { + return I(A, M, t) + } + I.from && I.alloc && I.allocUnsafe && I.allocUnsafeSlow ? A.exports = g : (e(g, M), M.Buffer = i), + i.prototype = Object.create(I.prototype), + e(I, i), + i.from = function (A, M, t) { + if ("number" == typeof A) + throw new TypeError("Argument must not be a number"); + return I(A, M, t) + }, + i.alloc = function (A, M, t) { + if ("number" != typeof A) + throw new TypeError("Argument must be a number"); + A = I(A); + return void 0 !== M ? "string" == typeof t ? A.fill(M, t) : A.fill(M) : A.fill(0), + A + }, + i.allocUnsafe = function (A) { + if ("number" != typeof A) + throw new TypeError("Argument must be a number"); + return I(A) + }, + i.allocUnsafeSlow = function (A) { + if ("number" != typeof A) + throw new TypeError("Argument must be a number"); + return g.SlowBuffer(A) + } + }, function (A, M, t) { + "use strict"; + M.a = { + OK: "OK", + FORMAT_ERROR: "FormatError", + FORMAT_UNSUPPORTED: "FormatUnsupported", + CODEC_UNSUPPORTED: "CodecUnsupported" + } + }, function (A, M, t) { + "use strict"; + var g, + I = "object" == typeof Reflect ? Reflect : null, + E = I && "function" == typeof I.apply ? I.apply : function (A, M, t) { + return Function.prototype.apply.call(A, M, t) + }; + g = I && "function" == typeof I.ownKeys ? I.ownKeys : Object.getOwnPropertySymbols ? function (A) { + return Object.getOwnPropertyNames(A).concat(Object.getOwnPropertySymbols(A)) + } + : function (A) { + return Object.getOwnPropertyNames(A) + }; + var e = Number.isNaN || function (A) { + return A != A + }; + function i() { + i.init.call(this) + } + A.exports = i, + A.exports.once = function (I, e) { + return new Promise(function (A, M) { + function t() { + void 0 !== g && I.removeListener("error", g), + A([].slice.call(arguments)) + } + var g; + "error" !== e && (g = function (A) { + I.removeListener(e, t), + M(A) + }, I.once("error", g)), + I.once(e, t) + }) + }, + (i.EventEmitter = i).prototype._events = void 0, + i.prototype._eventsCount = 0, + i.prototype._maxListeners = void 0; + var T = 10; + function N(A) { + if ("function" != typeof A) + throw new TypeError('The "listener" argument must be of type Function. Received type ' + typeof A) + } + function n(A) { + return void 0 === A._maxListeners ? i.defaultMaxListeners : A._maxListeners + } + function D(A, M, t, g) { + var I, + e; + return N(t), + void 0 === (I = A._events) ? (I = A._events = Object.create(null), A._eventsCount = 0) : (void 0 !== I.newListener && (A.emit("newListener", M, t.listener || t), I = A._events), e = I[M]), + void 0 === e ? (e = I[M] = t, ++A._eventsCount) : ("function" == typeof e ? e = I[M] = g ? [t, e] : [e, t] : g ? e.unshift(t) : e.push(t), 0 < (t = n(A)) && e.length > t && !e.warned && (e.warned = !0, (t = new Error("Possible EventEmitter memory leak detected. " + e.length + " " + String(M) + " listeners added. Use emitter.setMaxListeners() to increase limit")).name = "MaxListenersExceededWarning", t.emitter = A, t.type = M, t.count = e.length, console && console.warn)), + A + } + function C(A, M, t) { + A = { + fired: !1, + wrapFn: void 0, + target: A, + type: M, + listener: t + }, + M = function () { + if (!this.fired) + return this.target.removeListener(this.type, this.wrapFn), this.fired = !0, 0 === arguments.length ? this.listener.call(this.target) : this.listener.apply(this.target, arguments) + } + .bind(A); + return M.listener = t, + A.wrapFn = M + } + function r(A, M, t) { + A = A._events; + if (void 0 === A) + return []; + M = A[M]; + return void 0 === M ? [] : "function" == typeof M ? t ? [M.listener || M] : [M] : t ? function (A) { + for (var M = new Array(A.length), t = 0; t < M.length; ++t) + M[t] = A[t].listener || A[t]; + return M + } + (M) : o(M, M.length) + } + function c(A) { + var M = this._events; + if (void 0 !== M) { + A = M[A]; + if ("function" == typeof A) + return 1; + if (void 0 !== A) + return A.length + } + return 0 + } + function o(A, M) { + for (var t = new Array(M), g = 0; g < M; ++g) + t[g] = A[g]; + return t + } + Object.defineProperty(i, "defaultMaxListeners", { + enumerable: !0, + get: function () { + return T + }, + set: function (A) { + if ("number" != typeof A || A < 0 || e(A)) + throw new RangeError('The value of "defaultMaxListeners" is out of range. It must be a non-negative number. Received ' + A + "."); + T = A + } + }), + i.init = function () { + void 0 !== this._events && this._events !== Object.getPrototypeOf(this)._events || (this._events = Object.create(null), this._eventsCount = 0), + this._maxListeners = this._maxListeners || void 0 + }, + i.prototype.setMaxListeners = function (A) { + if ("number" != typeof A || A < 0 || e(A)) + throw new RangeError('The value of "n" is out of range. It must be a non-negative number. Received ' + A + "."); + return this._maxListeners = A, + this + }, + i.prototype.getMaxListeners = function () { + return n(this) + }, + i.prototype.emit = function (A) { + for (var M = [], t = 1; t < arguments.length; t++) + M.push(arguments[t]); + var g, + I = "error" === A, + e = this._events; + if (void 0 !== e) + I = I && void 0 === e.error; + else if (!I) + return !1; + if (I) { + if (0 < M.length && (g = M[0]), g instanceof Error) + throw g; + I = new Error("Unhandled error." + (g ? " (" + g.message + ")" : "")); + throw I.context = g, + I + } + A = e[A]; + if (void 0 === A) + return !1; + if ("function" == typeof A) + E(A, this, M); + else + for (var i = A.length, T = o(A, i), t = 0; t < i; ++t) + E(T[t], this, M); + return !0 + }, + i.prototype.addListener = function (A, M) { + return D(this, A, M, !1) + }, + i.prototype.on = i.prototype.addListener, + i.prototype.prependListener = function (A, M) { + return D(this, A, M, !0) + }, + i.prototype.once = function (A, M) { + return N(M), + this.on(A, C(this, A, M)), + this + }, + i.prototype.prependOnceListener = function (A, M) { + return N(M), + this.prependListener(A, C(this, A, M)), + this + }, + i.prototype.removeListener = function (A, M) { + var t, + g, + I, + e, + i; + if (N(M), void 0 === (g = this._events)) + return this; + if (void 0 === (t = g[A])) + return this; + if (t === M || t.listener === M) + 0 == --this._eventsCount ? this._events = Object.create(null) : (delete g[A], g.removeListener && this.emit("removeListener", A, t.listener || M)); + else if ("function" != typeof t) { + for (I = -1, e = t.length - 1; 0 <= e; e--) + if (t[e] === M || t[e].listener === M) { + i = t[e].listener, + I = e; + break + } + if (I < 0) + return this; + 0 === I ? t.shift() : function (A, M) { + for (; M + 1 < A.length; M++) + A[M] = A[M + 1]; + A.pop() + } + (t, I), + 1 === t.length && (g[A] = t[0]), + void 0 !== g.removeListener && this.emit("removeListener", A, i || M) + } + return this + }, + i.prototype.off = i.prototype.removeListener, + i.prototype.removeAllListeners = function (A) { + var M, + t = this._events; + if (void 0 === t) + return this; + if (void 0 === t.removeListener) + return 0 === arguments.length ? (this._events = Object.create(null), this._eventsCount = 0) : void 0 !== t[A] && (0 == --this._eventsCount ? this._events = Object.create(null) : delete t[A]), this; + if (0 === arguments.length) { + for (var g, I = Object.keys(t), e = 0; e < I.length; ++e) + "removeListener" !== (g = I[e]) && this.removeAllListeners(g); + return this.removeAllListeners("removeListener"), + this._events = Object.create(null), + this._eventsCount = 0, + this + } + if ("function" == typeof(M = t[A])) + this.removeListener(A, M); + else if (void 0 !== M) + for (e = M.length - 1; 0 <= e; e--) + this.removeListener(A, M[e]); + return this + }, + i.prototype.listeners = function (A) { + return r(this, A, !0) + }, + i.prototype.rawListeners = function (A) { + return r(this, A, !1) + }, + i.listenerCount = function (A, M) { + return "function" == typeof A.listenerCount ? A.listenerCount(M) : c.call(A, M) + }, + i.prototype.listenerCount = c, + i.prototype.eventNames = function () { + return 0 < this._eventsCount ? g(this._events) : [] + } + }, function (A, M, j) { + (function (A) { + !function (A, M) { + "use strict"; + function o(A, M) { + if (!A) + throw new Error(M || "Assertion failed") + } + function t(A, M) { + A.super_ = M; + function t() {} + t.prototype = M.prototype, + A.prototype = new t, + A.prototype.constructor = A + } + function B(A, M, t) { + if (B.isBN(A)) + return A; + this.negative = 0, + this.words = null, + this.length = 0, + (this.red = null) !== A && ("le" !== M && "be" !== M || (t = M, M = 10), this._init(A || 0, M || 10, t || "be")) + } + var g; + "object" == typeof A ? A.exports = B : M.BN = B, + (B.BN = B).wordSize = 26; + try { + g = j(165).Buffer + } catch (A) {} + function i(A, M, t) { + for (var g = 0, I = Math.min(A.length, t), e = M; e < I; e++) { + var i = A.charCodeAt(e) - 48; + g <<= 4, + g |= 49 <= i && i <= 54 ? i - 49 + 10 : 17 <= i && i <= 22 ? i - 17 + 10 : 15 & i + } + return g + } + function D(A, M, t, g) { + for (var I = 0, e = Math.min(A.length, t), i = M; i < e; i++) { + var T = A.charCodeAt(i) - 48; + I *= g, + I += 49 <= T ? T - 49 + 10 : 17 <= T ? T - 17 + 10 : T + } + return I + } + B.isBN = function (A) { + return A instanceof B || null !== A && "object" == typeof A && A.constructor.wordSize === B.wordSize && Array.isArray(A.words) + }, + B.max = function (A, M) { + return 0 < A.cmp(M) ? A : M + }, + B.min = function (A, M) { + return A.cmp(M) < 0 ? A : M + }, + B.prototype._init = function (A, M, t) { + if ("number" == typeof A) + return this._initNumber(A, M, t); + if ("object" == typeof A) + return this._initArray(A, M, t); + "hex" === M && (M = 16), + o(M === (0 | M) && 2 <= M && M <= 36); + var g = 0; + "-" === (A = A.toString().replace(/\s+/g, ""))[0] && g++, + 16 === M ? this._parseHex(A, g) : this._parseBase(A, M, g), + "-" === A[0] && (this.negative = 1), + this.strip(), + "le" === t && this._initArray(this.toArray(), M, t) + }, + B.prototype._initNumber = function (A, M, t) { + A < 0 && (this.negative = 1, A = -A), + A < 67108864 ? (this.words = [67108863 & A], this.length = 1) : A < 4503599627370496 ? (this.words = [67108863 & A, A / 67108864 & 67108863], this.length = 2) : (o(A < 9007199254740992), this.words = [67108863 & A, A / 67108864 & 67108863, 1], this.length = 3), + "le" === t && this._initArray(this.toArray(), M, t) + }, + B.prototype._initArray = function (A, M, t) { + if (o("number" == typeof A.length), A.length <= 0) + return this.words = [0], this.length = 1, this; + this.length = Math.ceil(A.length / 3), + this.words = new Array(this.length); + for (var g, I, e = 0; e < this.length; e++) + this.words[e] = 0; + var i = 0; + if ("be" === t) + for (e = A.length - 1, g = 0; 0 <= e; e -= 3) + I = A[e] | A[e - 1] << 8 | A[e - 2] << 16, this.words[g] |= I << i & 67108863, this.words[g + 1] = I >>> 26 - i & 67108863, 26 <= (i += 24) && (i -= 26, g++); + else if ("le" === t) + for (g = e = 0; e < A.length; e += 3) + I = A[e] | A[e + 1] << 8 | A[e + 2] << 16, this.words[g] |= I << i & 67108863, this.words[g + 1] = I >>> 26 - i & 67108863, 26 <= (i += 24) && (i -= 26, g++); + return this.strip() + }, + B.prototype._parseHex = function (A, M) { + this.length = Math.ceil((A.length - M) / 6), + this.words = new Array(this.length); + for (var t, g = 0; g < this.length; g++) + this.words[g] = 0; + for (var I = 0, g = A.length - 6, e = 0; M <= g; g -= 6) + t = i(A, g, g + 6), this.words[e] |= t << I & 67108863, this.words[e + 1] |= t >>> 26 - I & 4194303, 26 <= (I += 24) && (I -= 26, e++); + g + 6 !== M && (t = i(A, M, g + 6), this.words[e] |= t << I & 67108863, this.words[e + 1] |= t >>> 26 - I & 4194303), + this.strip() + }, + B.prototype._parseBase = function (A, M, t) { + this.words = [0]; + for (var g = 0, I = this.length = 1; I <= 67108863; I *= M) + g++; + g--, + I = I / M | 0; + for (var e = A.length - t, i = e % g, T = Math.min(e, e - i) + t, E = 0, N = t; N < T; N += g) + E = D(A, N, N + g, M), this.imuln(I), this.words[0] + E < 67108864 ? this.words[0] += E : this._iaddn(E); + if (0 != i) { + for (var n = 1, E = D(A, N, A.length, M), N = 0; N < i; N++) + n *= M; + this.imuln(n), + this.words[0] + E < 67108864 ? this.words[0] += E : this._iaddn(E) + } + }, + B.prototype.copy = function (A) { + A.words = new Array(this.length); + for (var M = 0; M < this.length; M++) + A.words[M] = this.words[M]; + A.length = this.length, + A.negative = this.negative, + A.red = this.red + }, + B.prototype.clone = function () { + var A = new B(null); + return this.copy(A), + A + }, + B.prototype._expand = function (A) { + for (; this.length < A; ) + this.words[this.length++] = 0; + return this + }, + B.prototype.strip = function () { + for (; 1 < this.length && 0 === this.words[this.length - 1]; ) + this.length--; + return this._normSign() + }, + B.prototype._normSign = function () { + return 1 === this.length && 0 === this.words[0] && (this.negative = 0), + this + }, + B.prototype.inspect = function () { + return (this.red ? "" + }; + var C = ["", "0", "00", "000", "0000", "00000", "000000", "0000000", "00000000", "000000000", "0000000000", "00000000000", "000000000000", "0000000000000", "00000000000000", "000000000000000", "0000000000000000", "00000000000000000", "000000000000000000", "0000000000000000000", "00000000000000000000", "000000000000000000000", "0000000000000000000000", "00000000000000000000000", "000000000000000000000000", "0000000000000000000000000"], + r = [0, 0, 25, 16, 12, 11, 10, 9, 8, 8, 7, 7, 7, 7, 6, 6, 6, 6, 6, 6, 6, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5], + c = [0, 0, 33554432, 43046721, 16777216, 48828125, 60466176, 40353607, 16777216, 43046721, 1e7, 19487171, 35831808, 62748517, 7529536, 11390625, 16777216, 24137569, 34012224, 47045881, 64e6, 4084101, 5153632, 6436343, 7962624, 9765625, 11881376, 14348907, 17210368, 20511149, 243e5, 28629151, 33554432, 39135393, 45435424, 52521875, 60466176]; + function I(A, M, t) { + t.negative = M.negative ^ A.negative; + var g = A.length + M.length | 0, + g = (t.length = g) - 1 | 0, + I = 67108863 & (D = (0 | A.words[0]) * (0 | M.words[0])), + e = D / 67108864 | 0; + t.words[0] = I; + for (var i = 1; i < g; i++) { + for (var T = e >>> 26, E = 67108863 & e, N = Math.min(i, M.length - 1), n = Math.max(0, i - A.length + 1); n <= N; n++) { + var D, + C = i - n | 0; + T += (D = (0 | A.words[C]) * (0 | M.words[n]) + E) / 67108864 | 0, + E = 67108863 & D + } + t.words[i] = 0 | E, + e = 0 | T + } + return 0 !== e ? t.words[i] = 0 | e : t.length--, + t.strip() + } + B.prototype.toString = function (A, M) { + if (M = 0 | M || 1, 16 === (A = A || 10) || "hex" === A) { + T = ""; + for (var t = 0, g = 0, I = 0; I < this.length; I++) { + var e = this.words[I], + i = (16777215 & (e << t | g)).toString(16), + T = 0 !== (g = e >>> 24 - t & 16777215) || I !== this.length - 1 ? C[6 - i.length] + i + T : i + T; + 26 <= (t += 2) && (t -= 26, I--) + } + for (0 !== g && (T = g.toString(16) + T); T.length % M != 0; ) + T = "0" + T; + return 0 !== this.negative && (T = "-" + T), + T + } + if (A === (0 | A) && 2 <= A && A <= 36) { + var E = r[A], + N = c[A]; + for (T = "", (n = this.clone()).negative = 0; !n.isZero(); ) { + var n, + D = n.modn(N).toString(A); + T = (n = n.idivn(N)).isZero() ? D + T : C[E - D.length] + D + T + } + for (this.isZero() && (T = "0" + T); T.length % M != 0; ) + T = "0" + T; + return 0 !== this.negative && (T = "-" + T), + T + } + o(!1, "Base should be between 2 and 36") + }, + B.prototype.toNumber = function () { + var A = this.words[0]; + return 2 === this.length ? A += 67108864 * this.words[1] : 3 === this.length && 1 === this.words[2] ? A += 4503599627370496 + 67108864 * this.words[1] : 2 < this.length && o(!1, "Number can only safely store up to 53 bits"), + 0 !== this.negative ? -A : A + }, + B.prototype.toJSON = function () { + return this.toString(16) + }, + B.prototype.toBuffer = function (A, M) { + return o(void 0 !== g), + this.toArrayLike(g, A, M) + }, + B.prototype.toArray = function (A, M) { + return this.toArrayLike(Array, A, M) + }, + B.prototype.toArrayLike = function (A, M, t) { + var g = this.byteLength(), + I = t || Math.max(1, g); + o(g <= I, "byte array longer than desired length"), + o(0 < I, "Requested array length <= 0"), + this.strip(); + var e, + i, + M = "le" === M, + T = new A(I), + E = this.clone(); + if (M) { + for (i = 0; !E.isZero(); i++) + e = E.andln(255), E.iushrn(8), T[i] = e; + for (; i < I; i++) + T[i] = 0 + } else { + for (i = 0; i < I - g; i++) + T[i] = 0; + for (i = 0; !E.isZero(); i++) + e = E.andln(255), E.iushrn(8), T[I - i - 1] = e + } + return T + }, + Math.clz32 ? B.prototype._countBits = function (A) { + return 32 - Math.clz32(A) + } + : B.prototype._countBits = function (A) { + var M = A, + A = 0; + return 4096 <= M && (A += 13, M >>>= 13), + 64 <= M && (A += 7, M >>>= 7), + 8 <= M && (A += 4, M >>>= 4), + 2 <= M && (A += 2, M >>>= 2), + A + M + }, + B.prototype._zeroBits = function (A) { + if (0 === A) + return 26; + var M = A, + A = 0; + return 0 == (8191 & M) && (A += 13, M >>>= 13), + 0 == (127 & M) && (A += 7, M >>>= 7), + 0 == (15 & M) && (A += 4, M >>>= 4), + 0 == (3 & M) && (A += 2, M >>>= 2), + 0 == (1 & M) && A++, + A + }, + B.prototype.bitLength = function () { + var A = this.words[this.length - 1], + A = this._countBits(A); + return 26 * (this.length - 1) + A + }, + B.prototype.zeroBits = function () { + if (this.isZero()) + return 0; + for (var A = 0, M = 0; M < this.length; M++) { + var t = this._zeroBits(this.words[M]); + if (A += t, 26 !== t) + break + } + return A + }, + B.prototype.byteLength = function () { + return Math.ceil(this.bitLength() / 8) + }, + B.prototype.toTwos = function (A) { + return 0 !== this.negative ? this.abs().inotn(A).iaddn(1) : this.clone() + }, + B.prototype.fromTwos = function (A) { + return this.testn(A - 1) ? this.notn(A).iaddn(1).ineg() : this.clone() + }, + B.prototype.isNeg = function () { + return 0 !== this.negative + }, + B.prototype.neg = function () { + return this.clone().ineg() + }, + B.prototype.ineg = function () { + return this.isZero() || (this.negative ^= 1), + this + }, + B.prototype.iuor = function (A) { + for (; this.length < A.length; ) + this.words[this.length++] = 0; + for (var M = 0; M < A.length; M++) + this.words[M] = this.words[M] | A.words[M]; + return this.strip() + }, + B.prototype.ior = function (A) { + return o(0 == (this.negative | A.negative)), + this.iuor(A) + }, + B.prototype.or = function (A) { + return this.length > A.length ? this.clone().ior(A) : A.clone().ior(this) + }, + B.prototype.uor = function (A) { + return this.length > A.length ? this.clone().iuor(A) : A.clone().iuor(this) + }, + B.prototype.iuand = function (A) { + for (var M = this.length > A.length ? A : this, t = 0; t < M.length; t++) + this.words[t] = this.words[t] & A.words[t]; + return this.length = M.length, + this.strip() + }, + B.prototype.iand = function (A) { + return o(0 == (this.negative | A.negative)), + this.iuand(A) + }, + B.prototype.and = function (A) { + return this.length > A.length ? this.clone().iand(A) : A.clone().iand(this) + }, + B.prototype.uand = function (A) { + return this.length > A.length ? this.clone().iuand(A) : A.clone().iuand(this) + }, + B.prototype.iuxor = function (A) { + for (var M, t = this.length > A.length ? (M = this, A) : (M = A, this), g = 0; g < t.length; g++) + this.words[g] = M.words[g] ^ t.words[g]; + if (this !== M) + for (; g < M.length; g++) + this.words[g] = M.words[g]; + return this.length = M.length, + this.strip() + }, + B.prototype.ixor = function (A) { + return o(0 == (this.negative | A.negative)), + this.iuxor(A) + }, + B.prototype.xor = function (A) { + return this.length > A.length ? this.clone().ixor(A) : A.clone().ixor(this) + }, + B.prototype.uxor = function (A) { + return this.length > A.length ? this.clone().iuxor(A) : A.clone().iuxor(this) + }, + B.prototype.inotn = function (A) { + o("number" == typeof A && 0 <= A); + var M = 0 | Math.ceil(A / 26), + A = A % 26; + this._expand(M), + 0 < A && M--; + for (var t = 0; t < M; t++) + this.words[t] = 67108863 & ~this.words[t]; + return 0 < A && (this.words[t] = ~this.words[t] & 67108863 >> 26 - A), + this.strip() + }, + B.prototype.notn = function (A) { + return this.clone().inotn(A) + }, + B.prototype.setn = function (A, M) { + o("number" == typeof A && 0 <= A); + var t = A / 26 | 0, + A = A % 26; + return this._expand(1 + t), + this.words[t] = M ? this.words[t] | 1 << A : this.words[t] & ~(1 << A), + this.strip() + }, + B.prototype.iadd = function (A) { + var M, + t, + g; + if (0 !== this.negative && 0 === A.negative) + return this.negative = 0, M = this.isub(A), this.negative ^= 1, this._normSign(); + if (0 === this.negative && 0 !== A.negative) + return A.negative = 0, M = this.isub(A), A.negative = 1, M._normSign(); + g = this.length > A.length ? (t = this, A) : (t = A, this); + for (var I = 0, e = 0; e < g.length; e++) + M = (0 | t.words[e]) + (0 | g.words[e]) + I, this.words[e] = 67108863 & M, I = M >>> 26; + for (; 0 !== I && e < t.length; e++) + M = (0 | t.words[e]) + I, this.words[e] = 67108863 & M, I = M >>> 26; + if (this.length = t.length, 0 !== I) + this.words[this.length] = I, this.length++; + else if (t !== this) + for (; e < t.length; e++) + this.words[e] = t.words[e]; + return this + }, + B.prototype.add = function (A) { + var M; + return 0 !== A.negative && 0 === this.negative ? (A.negative = 0, M = this.sub(A), A.negative ^= 1, M) : 0 === A.negative && 0 !== this.negative ? (this.negative = 0, M = A.sub(this), this.negative = 1, M) : this.length > A.length ? this.clone().iadd(A) : A.clone().iadd(this) + }, + B.prototype.isub = function (A) { + if (0 !== A.negative) { + A.negative = 0; + var M = this.iadd(A); + return A.negative = 1, + M._normSign() + } + if (0 !== this.negative) + return this.negative = 0, this.iadd(A), this.negative = 1, this._normSign(); + var t, + g, + I = this.cmp(A); + if (0 === I) + return this.negative = 0, this.length = 1, this.words[0] = 0, this; + g = 0 < I ? (t = this, A) : (t = A, this); + for (var e = 0, i = 0; i < g.length; i++) + e = (M = (0 | t.words[i]) - (0 | g.words[i]) + e) >> 26, this.words[i] = 67108863 & M; + for (; 0 !== e && i < t.length; i++) + e = (M = (0 | t.words[i]) + e) >> 26, this.words[i] = 67108863 & M; + if (0 === e && i < t.length && t !== this) + for (; i < t.length; i++) + this.words[i] = t.words[i]; + return this.length = Math.max(this.length, i), + t !== this && (this.negative = 1), + this.strip() + }, + B.prototype.sub = function (A) { + return this.clone().isub(A) + }; + var e = function (A, M, t) { + var g = A.words, + I = M.words, + e = t.words, + i = 0 | g[0], + T = 8191 & i, + E = i >>> 13, + N = 0 | g[1], + n = 8191 & N, + D = N >>> 13, + C = 0 | g[2], + r = 8191 & C, + c = C >>> 13, + o = 0 | g[3], + B = 8191 & o, + Q = o >>> 13, + a = 0 | g[4], + h = 8191 & a, + s = a >>> 13, + y = 0 | g[5], + w = 8191 & y, + j = y >>> 13, + L = 0 | g[6], + d = 8191 & L, + x = L >>> 13, + Y = 0 | g[7], + u = 8191 & Y, + S = Y >>> 13, + z = 0 | g[8], + l = 8191 & z, + U = z >>> 13, + f = 0 | g[9], + O = 8191 & f, + m = f >>> 13, + F = 0 | I[0], + R = 8191 & F, + k = F >>> 13, + p = 0 | I[1], + b = 8191 & p, + G = p >>> 13, + J = 0 | I[2], + H = 8191 & J, + X = J >>> 13, + v = 0 | I[3], + V = 8191 & v, + W = v >>> 13, + P = 0 | I[4], + Z = 8191 & P, + K = P >>> 13, + q = 0 | I[5], + _ = 8191 & q, + $ = q >>> 13, + i = 0 | I[6], + N = 8191 & i, + C = i >>> 13, + o = 0 | I[7], + a = 8191 & o, + y = o >>> 13, + L = 0 | I[8], + Y = 8191 & L, + z = L >>> 13, + g = 0 | I[9], + f = 8191 & g, + F = g >>> 13; + t.negative = A.negative ^ M.negative, + t.length = 19; + var v = (0 + Math.imul(T, R) | 0) + ((8191 & (J = Math.imul(T, k) + Math.imul(E, R) | 0)) << 13) | 0, + AA = (Math.imul(E, k) + (J >>> 13) | 0) + (v >>> 26) | 0; + v &= 67108863, + p = Math.imul(n, R), + J = Math.imul(n, k) + Math.imul(D, R) | 0, + P = Math.imul(D, k); + q = (AA + (p + Math.imul(T, b) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, G) | 0) + Math.imul(E, b) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, G) | 0) + (J >>> 13) | 0) + (q >>> 26) | 0, + q &= 67108863, + p = Math.imul(r, R), + J = Math.imul(r, k) + Math.imul(c, R) | 0, + P = Math.imul(c, k), + p = p + Math.imul(n, b) | 0, + J = (J + Math.imul(n, G) | 0) + Math.imul(D, b) | 0, + P = P + Math.imul(D, G) | 0; + i = (AA + (p + Math.imul(T, H) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, X) | 0) + Math.imul(E, H) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, X) | 0) + (J >>> 13) | 0) + (i >>> 26) | 0, + i &= 67108863, + p = Math.imul(B, R), + J = Math.imul(B, k) + Math.imul(Q, R) | 0, + P = Math.imul(Q, k), + p = p + Math.imul(r, b) | 0, + J = (J + Math.imul(r, G) | 0) + Math.imul(c, b) | 0, + P = P + Math.imul(c, G) | 0, + p = p + Math.imul(n, H) | 0, + J = (J + Math.imul(n, X) | 0) + Math.imul(D, H) | 0, + P = P + Math.imul(D, X) | 0; + o = (AA + (p + Math.imul(T, V) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, W) | 0) + Math.imul(E, V) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, W) | 0) + (J >>> 13) | 0) + (o >>> 26) | 0, + o &= 67108863, + p = Math.imul(h, R), + J = Math.imul(h, k) + Math.imul(s, R) | 0, + P = Math.imul(s, k), + p = p + Math.imul(B, b) | 0, + J = (J + Math.imul(B, G) | 0) + Math.imul(Q, b) | 0, + P = P + Math.imul(Q, G) | 0, + p = p + Math.imul(r, H) | 0, + J = (J + Math.imul(r, X) | 0) + Math.imul(c, H) | 0, + P = P + Math.imul(c, X) | 0, + p = p + Math.imul(n, V) | 0, + J = (J + Math.imul(n, W) | 0) + Math.imul(D, V) | 0, + P = P + Math.imul(D, W) | 0; + L = (AA + (p + Math.imul(T, Z) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, K) | 0) + Math.imul(E, Z) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, K) | 0) + (J >>> 13) | 0) + (L >>> 26) | 0, + L &= 67108863, + p = Math.imul(w, R), + J = Math.imul(w, k) + Math.imul(j, R) | 0, + P = Math.imul(j, k), + p = p + Math.imul(h, b) | 0, + J = (J + Math.imul(h, G) | 0) + Math.imul(s, b) | 0, + P = P + Math.imul(s, G) | 0, + p = p + Math.imul(B, H) | 0, + J = (J + Math.imul(B, X) | 0) + Math.imul(Q, H) | 0, + P = P + Math.imul(Q, X) | 0, + p = p + Math.imul(r, V) | 0, + J = (J + Math.imul(r, W) | 0) + Math.imul(c, V) | 0, + P = P + Math.imul(c, W) | 0, + p = p + Math.imul(n, Z) | 0, + J = (J + Math.imul(n, K) | 0) + Math.imul(D, Z) | 0, + P = P + Math.imul(D, K) | 0; + I = (AA + (p + Math.imul(T, _) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, $) | 0) + Math.imul(E, _) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, $) | 0) + (J >>> 13) | 0) + (I >>> 26) | 0, + I &= 67108863, + p = Math.imul(d, R), + J = Math.imul(d, k) + Math.imul(x, R) | 0, + P = Math.imul(x, k), + p = p + Math.imul(w, b) | 0, + J = (J + Math.imul(w, G) | 0) + Math.imul(j, b) | 0, + P = P + Math.imul(j, G) | 0, + p = p + Math.imul(h, H) | 0, + J = (J + Math.imul(h, X) | 0) + Math.imul(s, H) | 0, + P = P + Math.imul(s, X) | 0, + p = p + Math.imul(B, V) | 0, + J = (J + Math.imul(B, W) | 0) + Math.imul(Q, V) | 0, + P = P + Math.imul(Q, W) | 0, + p = p + Math.imul(r, Z) | 0, + J = (J + Math.imul(r, K) | 0) + Math.imul(c, Z) | 0, + P = P + Math.imul(c, K) | 0, + p = p + Math.imul(n, _) | 0, + J = (J + Math.imul(n, $) | 0) + Math.imul(D, _) | 0, + P = P + Math.imul(D, $) | 0; + g = (AA + (p + Math.imul(T, N) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, C) | 0) + Math.imul(E, N) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, C) | 0) + (J >>> 13) | 0) + (g >>> 26) | 0, + g &= 67108863, + p = Math.imul(u, R), + J = Math.imul(u, k) + Math.imul(S, R) | 0, + P = Math.imul(S, k), + p = p + Math.imul(d, b) | 0, + J = (J + Math.imul(d, G) | 0) + Math.imul(x, b) | 0, + P = P + Math.imul(x, G) | 0, + p = p + Math.imul(w, H) | 0, + J = (J + Math.imul(w, X) | 0) + Math.imul(j, H) | 0, + P = P + Math.imul(j, X) | 0, + p = p + Math.imul(h, V) | 0, + J = (J + Math.imul(h, W) | 0) + Math.imul(s, V) | 0, + P = P + Math.imul(s, W) | 0, + p = p + Math.imul(B, Z) | 0, + J = (J + Math.imul(B, K) | 0) + Math.imul(Q, Z) | 0, + P = P + Math.imul(Q, K) | 0, + p = p + Math.imul(r, _) | 0, + J = (J + Math.imul(r, $) | 0) + Math.imul(c, _) | 0, + P = P + Math.imul(c, $) | 0, + p = p + Math.imul(n, N) | 0, + J = (J + Math.imul(n, C) | 0) + Math.imul(D, N) | 0, + P = P + Math.imul(D, C) | 0; + A = (AA + (p + Math.imul(T, a) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, y) | 0) + Math.imul(E, a) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, y) | 0) + (J >>> 13) | 0) + (A >>> 26) | 0, + A &= 67108863, + p = Math.imul(l, R), + J = Math.imul(l, k) + Math.imul(U, R) | 0, + P = Math.imul(U, k), + p = p + Math.imul(u, b) | 0, + J = (J + Math.imul(u, G) | 0) + Math.imul(S, b) | 0, + P = P + Math.imul(S, G) | 0, + p = p + Math.imul(d, H) | 0, + J = (J + Math.imul(d, X) | 0) + Math.imul(x, H) | 0, + P = P + Math.imul(x, X) | 0, + p = p + Math.imul(w, V) | 0, + J = (J + Math.imul(w, W) | 0) + Math.imul(j, V) | 0, + P = P + Math.imul(j, W) | 0, + p = p + Math.imul(h, Z) | 0, + J = (J + Math.imul(h, K) | 0) + Math.imul(s, Z) | 0, + P = P + Math.imul(s, K) | 0, + p = p + Math.imul(B, _) | 0, + J = (J + Math.imul(B, $) | 0) + Math.imul(Q, _) | 0, + P = P + Math.imul(Q, $) | 0, + p = p + Math.imul(r, N) | 0, + J = (J + Math.imul(r, C) | 0) + Math.imul(c, N) | 0, + P = P + Math.imul(c, C) | 0, + p = p + Math.imul(n, a) | 0, + J = (J + Math.imul(n, y) | 0) + Math.imul(D, a) | 0, + P = P + Math.imul(D, y) | 0; + M = (AA + (p + Math.imul(T, Y) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, z) | 0) + Math.imul(E, Y) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, z) | 0) + (J >>> 13) | 0) + (M >>> 26) | 0, + M &= 67108863, + p = Math.imul(O, R), + J = Math.imul(O, k) + Math.imul(m, R) | 0, + P = Math.imul(m, k), + p = p + Math.imul(l, b) | 0, + J = (J + Math.imul(l, G) | 0) + Math.imul(U, b) | 0, + P = P + Math.imul(U, G) | 0, + p = p + Math.imul(u, H) | 0, + J = (J + Math.imul(u, X) | 0) + Math.imul(S, H) | 0, + P = P + Math.imul(S, X) | 0, + p = p + Math.imul(d, V) | 0, + J = (J + Math.imul(d, W) | 0) + Math.imul(x, V) | 0, + P = P + Math.imul(x, W) | 0, + p = p + Math.imul(w, Z) | 0, + J = (J + Math.imul(w, K) | 0) + Math.imul(j, Z) | 0, + P = P + Math.imul(j, K) | 0, + p = p + Math.imul(h, _) | 0, + J = (J + Math.imul(h, $) | 0) + Math.imul(s, _) | 0, + P = P + Math.imul(s, $) | 0, + p = p + Math.imul(B, N) | 0, + J = (J + Math.imul(B, C) | 0) + Math.imul(Q, N) | 0, + P = P + Math.imul(Q, C) | 0, + p = p + Math.imul(r, a) | 0, + J = (J + Math.imul(r, y) | 0) + Math.imul(c, a) | 0, + P = P + Math.imul(c, y) | 0, + p = p + Math.imul(n, Y) | 0, + J = (J + Math.imul(n, z) | 0) + Math.imul(D, Y) | 0, + P = P + Math.imul(D, z) | 0; + T = (AA + (p + Math.imul(T, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, F) | 0) + Math.imul(E, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, F) | 0) + (J >>> 13) | 0) + (T >>> 26) | 0, + T &= 67108863, + p = Math.imul(O, b), + J = Math.imul(O, G) + Math.imul(m, b) | 0, + P = Math.imul(m, G), + p = p + Math.imul(l, H) | 0, + J = (J + Math.imul(l, X) | 0) + Math.imul(U, H) | 0, + P = P + Math.imul(U, X) | 0, + p = p + Math.imul(u, V) | 0, + J = (J + Math.imul(u, W) | 0) + Math.imul(S, V) | 0, + P = P + Math.imul(S, W) | 0, + p = p + Math.imul(d, Z) | 0, + J = (J + Math.imul(d, K) | 0) + Math.imul(x, Z) | 0, + P = P + Math.imul(x, K) | 0, + p = p + Math.imul(w, _) | 0, + J = (J + Math.imul(w, $) | 0) + Math.imul(j, _) | 0, + P = P + Math.imul(j, $) | 0, + p = p + Math.imul(h, N) | 0, + J = (J + Math.imul(h, C) | 0) + Math.imul(s, N) | 0, + P = P + Math.imul(s, C) | 0, + p = p + Math.imul(B, a) | 0, + J = (J + Math.imul(B, y) | 0) + Math.imul(Q, a) | 0, + P = P + Math.imul(Q, y) | 0, + p = p + Math.imul(r, Y) | 0, + J = (J + Math.imul(r, z) | 0) + Math.imul(c, Y) | 0, + P = P + Math.imul(c, z) | 0; + n = (AA + (p + Math.imul(n, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(n, F) | 0) + Math.imul(D, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(D, F) | 0) + (J >>> 13) | 0) + (n >>> 26) | 0, + n &= 67108863, + p = Math.imul(O, H), + J = Math.imul(O, X) + Math.imul(m, H) | 0, + P = Math.imul(m, X), + p = p + Math.imul(l, V) | 0, + J = (J + Math.imul(l, W) | 0) + Math.imul(U, V) | 0, + P = P + Math.imul(U, W) | 0, + p = p + Math.imul(u, Z) | 0, + J = (J + Math.imul(u, K) | 0) + Math.imul(S, Z) | 0, + P = P + Math.imul(S, K) | 0, + p = p + Math.imul(d, _) | 0, + J = (J + Math.imul(d, $) | 0) + Math.imul(x, _) | 0, + P = P + Math.imul(x, $) | 0, + p = p + Math.imul(w, N) | 0, + J = (J + Math.imul(w, C) | 0) + Math.imul(j, N) | 0, + P = P + Math.imul(j, C) | 0, + p = p + Math.imul(h, a) | 0, + J = (J + Math.imul(h, y) | 0) + Math.imul(s, a) | 0, + P = P + Math.imul(s, y) | 0, + p = p + Math.imul(B, Y) | 0, + J = (J + Math.imul(B, z) | 0) + Math.imul(Q, Y) | 0, + P = P + Math.imul(Q, z) | 0; + r = (AA + (p + Math.imul(r, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(r, F) | 0) + Math.imul(c, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(c, F) | 0) + (J >>> 13) | 0) + (r >>> 26) | 0, + r &= 67108863, + p = Math.imul(O, V), + J = Math.imul(O, W) + Math.imul(m, V) | 0, + P = Math.imul(m, W), + p = p + Math.imul(l, Z) | 0, + J = (J + Math.imul(l, K) | 0) + Math.imul(U, Z) | 0, + P = P + Math.imul(U, K) | 0, + p = p + Math.imul(u, _) | 0, + J = (J + Math.imul(u, $) | 0) + Math.imul(S, _) | 0, + P = P + Math.imul(S, $) | 0, + p = p + Math.imul(d, N) | 0, + J = (J + Math.imul(d, C) | 0) + Math.imul(x, N) | 0, + P = P + Math.imul(x, C) | 0, + p = p + Math.imul(w, a) | 0, + J = (J + Math.imul(w, y) | 0) + Math.imul(j, a) | 0, + P = P + Math.imul(j, y) | 0, + p = p + Math.imul(h, Y) | 0, + J = (J + Math.imul(h, z) | 0) + Math.imul(s, Y) | 0, + P = P + Math.imul(s, z) | 0; + B = (AA + (p + Math.imul(B, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(B, F) | 0) + Math.imul(Q, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(Q, F) | 0) + (J >>> 13) | 0) + (B >>> 26) | 0, + B &= 67108863, + p = Math.imul(O, Z), + J = Math.imul(O, K) + Math.imul(m, Z) | 0, + P = Math.imul(m, K), + p = p + Math.imul(l, _) | 0, + J = (J + Math.imul(l, $) | 0) + Math.imul(U, _) | 0, + P = P + Math.imul(U, $) | 0, + p = p + Math.imul(u, N) | 0, + J = (J + Math.imul(u, C) | 0) + Math.imul(S, N) | 0, + P = P + Math.imul(S, C) | 0, + p = p + Math.imul(d, a) | 0, + J = (J + Math.imul(d, y) | 0) + Math.imul(x, a) | 0, + P = P + Math.imul(x, y) | 0, + p = p + Math.imul(w, Y) | 0, + J = (J + Math.imul(w, z) | 0) + Math.imul(j, Y) | 0, + P = P + Math.imul(j, z) | 0; + h = (AA + (p + Math.imul(h, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(h, F) | 0) + Math.imul(s, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(s, F) | 0) + (J >>> 13) | 0) + (h >>> 26) | 0, + h &= 67108863, + p = Math.imul(O, _), + J = Math.imul(O, $) + Math.imul(m, _) | 0, + P = Math.imul(m, $), + p = p + Math.imul(l, N) | 0, + J = (J + Math.imul(l, C) | 0) + Math.imul(U, N) | 0, + P = P + Math.imul(U, C) | 0, + p = p + Math.imul(u, a) | 0, + J = (J + Math.imul(u, y) | 0) + Math.imul(S, a) | 0, + P = P + Math.imul(S, y) | 0, + p = p + Math.imul(d, Y) | 0, + J = (J + Math.imul(d, z) | 0) + Math.imul(x, Y) | 0, + P = P + Math.imul(x, z) | 0; + w = (AA + (p + Math.imul(w, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(w, F) | 0) + Math.imul(j, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(j, F) | 0) + (J >>> 13) | 0) + (w >>> 26) | 0, + w &= 67108863, + p = Math.imul(O, N), + J = Math.imul(O, C) + Math.imul(m, N) | 0, + P = Math.imul(m, C), + p = p + Math.imul(l, a) | 0, + J = (J + Math.imul(l, y) | 0) + Math.imul(U, a) | 0, + P = P + Math.imul(U, y) | 0, + p = p + Math.imul(u, Y) | 0, + J = (J + Math.imul(u, z) | 0) + Math.imul(S, Y) | 0, + P = P + Math.imul(S, z) | 0; + d = (AA + (p + Math.imul(d, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(d, F) | 0) + Math.imul(x, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(x, F) | 0) + (J >>> 13) | 0) + (d >>> 26) | 0, + d &= 67108863, + p = Math.imul(O, a), + J = Math.imul(O, y) + Math.imul(m, a) | 0, + P = Math.imul(m, y), + p = p + Math.imul(l, Y) | 0, + J = (J + Math.imul(l, z) | 0) + Math.imul(U, Y) | 0, + P = P + Math.imul(U, z) | 0; + u = (AA + (p + Math.imul(u, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(u, F) | 0) + Math.imul(S, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(S, F) | 0) + (J >>> 13) | 0) + (u >>> 26) | 0, + u &= 67108863, + p = Math.imul(O, Y), + J = Math.imul(O, z) + Math.imul(m, Y) | 0, + P = Math.imul(m, z); + l = (AA + (p + Math.imul(l, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(l, F) | 0) + Math.imul(U, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(U, F) | 0) + (J >>> 13) | 0) + (l >>> 26) | 0, + l &= 67108863; + f = (AA + Math.imul(O, f) | 0) + ((8191 & (J = Math.imul(O, F) + Math.imul(m, f) | 0)) << 13) | 0; + return AA = (Math.imul(m, F) + (J >>> 13) | 0) + (f >>> 26) | 0, + f &= 67108863, + e[0] = v, + e[1] = q, + e[2] = i, + e[3] = o, + e[4] = L, + e[5] = I, + e[6] = g, + e[7] = A, + e[8] = M, + e[9] = T, + e[10] = n, + e[11] = r, + e[12] = B, + e[13] = h, + e[14] = w, + e[15] = d, + e[16] = u, + e[17] = l, + e[18] = f, + 0 != AA && (e[19] = AA, t.length++), + t + }; + function T(A, M, t) { + return (new E).mulp(A, M, t) + } + function E(A, M) { + this.x = A, + this.y = M + } + Math.imul || (e = I), + B.prototype.mulTo = function (A, M) { + var t = this.length + A.length, + M = (10 === this.length && 10 === A.length ? e : t < 63 ? I : t < 1024 ? function (A, M, t) { + t.negative = M.negative ^ A.negative, + t.length = A.length + M.length; + for (var g = 0, I = 0, e = 0; e < t.length - 1; e++) { + for (var i = I, I = 0, T = 67108863 & g, E = Math.min(e, M.length - 1), N = Math.max(0, e - A.length + 1); N <= E; N++) { + var n = e - N, + D = (0 | A.words[n]) * (0 | M.words[N]), + n = 67108863 & D, + T = 67108863 & (n = n + T | 0); + I += (i = (i = i + (D / 67108864 | 0) | 0) + (n >>> 26) | 0) >>> 26, + i &= 67108863 + } + t.words[e] = T, + g = i, + i = I + } + return 0 !== g ? t.words[e] = g : t.length--, + t.strip() + } + : T)(this, A, M); + return M + }, + E.prototype.makeRBT = function (A) { + for (var M = new Array(A), t = B.prototype._countBits(A) - 1, g = 0; g < A; g++) + M[g] = this.revBin(g, t, A); + return M + }, + E.prototype.revBin = function (A, M, t) { + if (0 === A || A === t - 1) + return A; + for (var g = 0, I = 0; I < M; I++) + g |= (1 & A) << M - I - 1, A >>= 1; + return g + }, + E.prototype.permute = function (A, M, t, g, I, e) { + for (var i = 0; i < e; i++) + g[i] = M[A[i]], I[i] = t[A[i]] + }, + E.prototype.transform = function (A, M, t, g, I, e) { + this.permute(e, A, M, t, g, I); + for (var i = 1; i < I; i <<= 1) + for (var T = i << 1, E = Math.cos(2 * Math.PI / T), N = Math.sin(2 * Math.PI / T), n = 0; n < I; n += T) + for (var D = E, C = N, r = 0; r < i; r++) { + var c = t[n + r], + o = g[n + r], + B = D * (a = t[n + r + i]) - C * (Q = g[n + r + i]), + Q = D * Q + C * a, + a = B; + t[n + r] = c + a, + g[n + r] = o + Q, + t[n + r + i] = c - a, + g[n + r + i] = o - Q, + r !== T && (B = E * D - N * C, C = E * C + N * D, D = B) + } + }, + E.prototype.guessLen13b = function (A, M) { + for (var A = 1 & (g = 1 | Math.max(M, A)), t = 0, g = g / 2 | 0; g; g >>>= 1) + t++; + return 1 << t + 1 + A + }, + E.prototype.conjugate = function (A, M, t) { + if (!(t <= 1)) + for (var g = 0; g < t / 2; g++) { + var I = A[g]; + A[g] = A[t - g - 1], + A[t - g - 1] = I, + I = M[g], + M[g] = -M[t - g - 1], + M[t - g - 1] = -I + } + }, + E.prototype.normalize13b = function (A, M) { + for (var t = 0, g = 0; g < M / 2; g++) { + var I = 8192 * Math.round(A[2 * g + 1] / M) + Math.round(A[2 * g] / M) + t; + A[g] = 67108863 & I, + t = I < 67108864 ? 0 : I / 67108864 | 0 + } + return A + }, + E.prototype.convert13b = function (A, M, t, g) { + for (var I = 0, e = 0; e < M; e++) + I += 0 | A[e], t[2 * e] = 8191 & I, I >>>= 13, t[2 * e + 1] = 8191 & I, I >>>= 13; + for (e = 2 * M; e < g; ++e) + t[e] = 0; + o(0 === I), + o(0 == (-8192 & I)) + }, + E.prototype.stub = function (A) { + for (var M = new Array(A), t = 0; t < A; t++) + M[t] = 0; + return M + }, + E.prototype.mulp = function (A, M, t) { + var g = 2 * this.guessLen13b(A.length, M.length), + I = this.makeRBT(g), + e = this.stub(g), + i = new Array(g), + T = new Array(g), + E = new Array(g), + N = new Array(g), + n = new Array(g), + D = new Array(g), + C = t.words; + C.length = g, + this.convert13b(A.words, A.length, i, g), + this.convert13b(M.words, M.length, N, g), + this.transform(i, e, T, E, g, I), + this.transform(N, e, n, D, g, I); + for (var r = 0; r < g; r++) { + var c = T[r] * n[r] - E[r] * D[r]; + E[r] = T[r] * D[r] + E[r] * n[r], + T[r] = c + } + return this.conjugate(T, E, g), + this.transform(T, E, C, e, g, I), + this.conjugate(C, e, g), + this.normalize13b(C, g), + t.negative = A.negative ^ M.negative, + t.length = A.length + M.length, + t.strip() + }, + B.prototype.mul = function (A) { + var M = new B(null); + return M.words = new Array(this.length + A.length), + this.mulTo(A, M) + }, + B.prototype.mulf = function (A) { + var M = new B(null); + return M.words = new Array(this.length + A.length), + T(this, A, M) + }, + B.prototype.imul = function (A) { + return this.clone().mulTo(A, this) + }, + B.prototype.imuln = function (A) { + o("number" == typeof A), + o(A < 67108864); + for (var M = 0, t = 0; t < this.length; t++) { + var g = (0 | this.words[t]) * A, + I = (67108863 & g) + (67108863 & M); + M >>= 26, + M += g / 67108864 | 0, + M += I >>> 26, + this.words[t] = 67108863 & I + } + return 0 !== M && (this.words[t] = M, this.length++), + this + }, + B.prototype.muln = function (A) { + return this.clone().imuln(A) + }, + B.prototype.sqr = function () { + return this.mul(this) + }, + B.prototype.isqr = function () { + return this.imul(this.clone()) + }, + B.prototype.pow = function (A) { + var M = function (A) { + for (var M = new Array(A.bitLength()), t = 0; t < M.length; t++) { + var g = t / 26 | 0, + I = t % 26; + M[t] = (A.words[g] & 1 << I) >>> I + } + return M + } + (A); + if (0 === M.length) + return new B(1); + for (var t = this, g = 0; g < M.length && 0 === M[g]; g++, t = t.sqr()); + if (++g < M.length) + for (var I = t.sqr(); g < M.length; g++, I = I.sqr()) + 0 !== M[g] && (t = t.mul(I)); + return t + }, + B.prototype.iushln = function (A) { + o("number" == typeof A && 0 <= A); + var M = A % 26, + t = (A - M) / 26, + g = 67108863 >>> 26 - M << 26 - M; + if (0 != M) { + for (var I = 0, e = 0; e < this.length; e++) { + var i = this.words[e] & g, + T = (0 | this.words[e]) - i << M; + this.words[e] = T | I, + I = i >>> 26 - M + } + I && (this.words[e] = I, this.length++) + } + if (0 != t) { + for (e = this.length - 1; 0 <= e; e--) + this.words[e + t] = this.words[e]; + for (e = 0; e < t; e++) + this.words[e] = 0; + this.length += t + } + return this.strip() + }, + B.prototype.ishln = function (A) { + return o(0 === this.negative), + this.iushln(A) + }, + B.prototype.iushrn = function (A, M, t) { + var g; + o("number" == typeof A && 0 <= A), + g = M ? (M - M % 26) / 26 : 0; + var I = A % 26, + e = Math.min((A - I) / 26, this.length), + i = 67108863 ^ 67108863 >>> I << I, + T = t; + if (g -= e, g = Math.max(0, g), T) { + for (var E = 0; E < e; E++) + T.words[E] = this.words[E]; + T.length = e + } + if (0 !== e) + if (this.length > e) + for (this.length -= e, E = 0; E < this.length; E++) + this.words[E] = this.words[E + e]; + else + this.words[0] = 0, this.length = 1; + for (var N = 0, E = this.length - 1; 0 <= E && (0 !== N || g <= E); E--) { + var n = 0 | this.words[E]; + this.words[E] = N << 26 - I | n >>> I, + N = n & i + } + return T && 0 !== N && (T.words[T.length++] = N), + 0 === this.length && (this.words[0] = 0, this.length = 1), + this.strip() + }, + B.prototype.ishrn = function (A, M, t) { + return o(0 === this.negative), + this.iushrn(A, M, t) + }, + B.prototype.shln = function (A) { + return this.clone().ishln(A) + }, + B.prototype.ushln = function (A) { + return this.clone().iushln(A) + }, + B.prototype.shrn = function (A) { + return this.clone().ishrn(A) + }, + B.prototype.ushrn = function (A) { + return this.clone().iushrn(A) + }, + B.prototype.testn = function (A) { + o("number" == typeof A && 0 <= A); + var M = A % 26, + A = (A - M) / 26, + M = 1 << M; + return !(this.length <= A) && !!(this.words[A] & M) + }, + B.prototype.imaskn = function (A) { + o("number" == typeof A && 0 <= A); + var M = A % 26, + A = (A - M) / 26; + return o(0 === this.negative, "imaskn works only with positive numbers"), + this.length <= A ? this : (0 != M && A++, this.length = Math.min(A, this.length), 0 != M && (M = 67108863 ^ 67108863 >>> M << M, this.words[this.length - 1] &= M), this.strip()) + }, + B.prototype.maskn = function (A) { + return this.clone().imaskn(A) + }, + B.prototype.iaddn = function (A) { + return o("number" == typeof A), + o(A < 67108864), + A < 0 ? this.isubn(-A) : 0 !== this.negative ? (1 === this.length && (0 | this.words[0]) < A ? (this.words[0] = A - (0 | this.words[0]), this.negative = 0) : (this.negative = 0, this.isubn(A), this.negative = 1), this) : this._iaddn(A) + }, + B.prototype._iaddn = function (A) { + this.words[0] += A; + for (var M = 0; M < this.length && 67108864 <= this.words[M]; M++) + this.words[M] -= 67108864, M === this.length - 1 ? this.words[M + 1] = 1 : this.words[M + 1]++; + return this.length = Math.max(this.length, M + 1), + this + }, + B.prototype.isubn = function (A) { + if (o("number" == typeof A), o(A < 67108864), A < 0) + return this.iaddn(-A); + if (0 !== this.negative) + return this.negative = 0, this.iaddn(A), this.negative = 1, this; + if (this.words[0] -= A, 1 === this.length && this.words[0] < 0) + this.words[0] = -this.words[0], this.negative = 1; + else + for (var M = 0; M < this.length && this.words[M] < 0; M++) + this.words[M] += 67108864, --this.words[M + 1]; + return this.strip() + }, + B.prototype.addn = function (A) { + return this.clone().iaddn(A) + }, + B.prototype.subn = function (A) { + return this.clone().isubn(A) + }, + B.prototype.iabs = function () { + return this.negative = 0, + this + }, + B.prototype.abs = function () { + return this.clone().iabs() + }, + B.prototype._ishlnsubmul = function (A, M, t) { + var g, + I = A.length + t; + this._expand(I); + for (var e = 0, i = 0; i < A.length; i++) { + g = (0 | this.words[i + t]) + e; + var T = (0 | A.words[i]) * M, + e = ((g -= 67108863 & T) >> 26) - (T / 67108864 | 0); + this.words[i + t] = 67108863 & g + } + for (; i < this.length - t; i++) + e = (g = (0 | this.words[i + t]) + e) >> 26, this.words[i + t] = 67108863 & g; + if (0 === e) + return this.strip(); + for (o(-1 === e), i = e = 0; i < this.length; i++) + e = (g = - (0 | this.words[i]) + e) >> 26, this.words[i] = 67108863 & g; + return this.negative = 1, + this.strip() + }, + B.prototype._wordDiv = function (A, M) { + var t = this.length - A.length, + g = this.clone(), + I = A, + e = 0 | I.words[I.length - 1]; + 0 != (t = 26 - this._countBits(e)) && (I = I.ushln(t), g.iushln(t), e = 0 | I.words[I.length - 1]); + var i, + T = g.length - I.length; + if ("mod" !== M) { + (i = new B(null)).length = 1 + T, + i.words = new Array(i.length); + for (var E = 0; E < i.length; E++) + i.words[E] = 0 + } + A = g.clone()._ishlnsubmul(I, 1, T); + 0 === A.negative && (g = A, i && (i.words[T] = 1)); + for (var N = T - 1; 0 <= N; N--) { + var n = 67108864 * (0 | g.words[I.length + N]) + (0 | g.words[I.length + N - 1]), + n = Math.min(n / e | 0, 67108863); + for (g._ishlnsubmul(I, n, N); 0 !== g.negative; ) + n--, g.negative = 0, g._ishlnsubmul(I, 1, N), g.isZero() || (g.negative ^= 1); + i && (i.words[N] = n) + } + return i && i.strip(), + g.strip(), + "div" !== M && 0 != t && g.iushrn(t), { + div: i || null, + mod: g + } + }, + B.prototype.divmod = function (A, M, t) { + return o(!A.isZero()), + this.isZero() ? { + div: new B(0), + mod: new B(0) + } + : 0 !== this.negative && 0 === A.negative ? (e = this.neg().divmod(A, M), "mod" !== M && (g = e.div.neg()), "div" !== M && (I = e.mod.neg(), t && 0 !== I.negative && I.iadd(A)), { + div: g, + mod: I + }) : 0 === this.negative && 0 !== A.negative ? (e = this.divmod(A.neg(), M), "mod" !== M && (g = e.div.neg()), { + div: g, + mod: e.mod + }) : 0 != (this.negative & A.negative) ? (e = this.neg().divmod(A.neg(), M), "div" !== M && (I = e.mod.neg(), t && 0 !== I.negative && I.isub(A)), { + div: e.div, + mod: I + }) : A.length > this.length || this.cmp(A) < 0 ? { + div: new B(0), + mod: this + } + : 1 === A.length ? "div" === M ? { + div: this.divn(A.words[0]), + mod: null + } + : "mod" === M ? { + div: null, + mod: new B(this.modn(A.words[0])) + } + : { + div: this.divn(A.words[0]), + mod: new B(this.modn(A.words[0])) + } + : this._wordDiv(A, M); + var g, + I, + e + }, + B.prototype.div = function (A) { + return this.divmod(A, "div", !1).div + }, + B.prototype.mod = function (A) { + return this.divmod(A, "mod", !1).mod + }, + B.prototype.umod = function (A) { + return this.divmod(A, "mod", !0).mod + }, + B.prototype.divRound = function (A) { + var M = this.divmod(A); + if (M.mod.isZero()) + return M.div; + var t = 0 !== M.div.negative ? M.mod.isub(A) : M.mod, + g = A.ushrn(1), + A = A.andln(1), + g = t.cmp(g); + return g < 0 || 1 === A && 0 === g ? M.div : 0 !== M.div.negative ? M.div.isubn(1) : M.div.iaddn(1) + }, + B.prototype.modn = function (A) { + o(A <= 67108863); + for (var M = (1 << 26) % A, t = 0, g = this.length - 1; 0 <= g; g--) + t = (M * t + (0 | this.words[g])) % A; + return t + }, + B.prototype.idivn = function (A) { + o(A <= 67108863); + for (var M = 0, t = this.length - 1; 0 <= t; t--) { + var g = (0 | this.words[t]) + 67108864 * M; + this.words[t] = g / A | 0, + M = g % A + } + return this.strip() + }, + B.prototype.divn = function (A) { + return this.clone().idivn(A) + }, + B.prototype.egcd = function (A) { + o(0 === A.negative), + o(!A.isZero()); + for (var M = this, t = A.clone(), M = 0 !== M.negative ? M.umod(A) : M.clone(), g = new B(1), I = new B(0), e = new B(0), i = new B(1), T = 0; M.isEven() && t.isEven(); ) + M.iushrn(1), t.iushrn(1), ++T; + for (var E = t.clone(), N = M.clone(); !M.isZero(); ) { + for (var n = 0, D = 1; 0 == (M.words[0] & D) && n < 26; ++n, D <<= 1); + if (0 < n) + for (M.iushrn(n); 0 < n--; ) + (g.isOdd() || I.isOdd()) && (g.iadd(E), I.isub(N)), g.iushrn(1), I.iushrn(1); + for (var C = 0, r = 1; 0 == (t.words[0] & r) && C < 26; ++C, r <<= 1); + if (0 < C) + for (t.iushrn(C); 0 < C--; ) + (e.isOdd() || i.isOdd()) && (e.iadd(E), i.isub(N)), e.iushrn(1), i.iushrn(1); + 0 <= M.cmp(t) ? (M.isub(t), g.isub(e), I.isub(i)) : (t.isub(M), e.isub(g), i.isub(I)) + } + return { + a: e, + b: i, + gcd: t.iushln(T) + } + }, + B.prototype._invmp = function (A) { + o(0 === A.negative), + o(!A.isZero()); + for (var M, t = this, g = A.clone(), t = 0 !== t.negative ? t.umod(A) : t.clone(), I = new B(1), e = new B(0), i = g.clone(); 0 < t.cmpn(1) && 0 < g.cmpn(1); ) { + for (var T = 0, E = 1; 0 == (t.words[0] & E) && T < 26; ++T, E <<= 1); + if (0 < T) + for (t.iushrn(T); 0 < T--; ) + I.isOdd() && I.iadd(i), I.iushrn(1); + for (var N = 0, n = 1; 0 == (g.words[0] & n) && N < 26; ++N, n <<= 1); + if (0 < N) + for (g.iushrn(N); 0 < N--; ) + e.isOdd() && e.iadd(i), e.iushrn(1); + 0 <= t.cmp(g) ? (t.isub(g), I.isub(e)) : (g.isub(t), e.isub(I)) + } + return (M = 0 === t.cmpn(1) ? I : e).cmpn(0) < 0 && M.iadd(A), + M + }, + B.prototype.gcd = function (A) { + if (this.isZero()) + return A.abs(); + if (A.isZero()) + return this.abs(); + var M = this.clone(), + t = A.clone(); + M.negative = 0; + for (var g = t.negative = 0; M.isEven() && t.isEven(); g++) + M.iushrn(1), t.iushrn(1); + for (; ; ) { + for (; M.isEven(); ) + M.iushrn(1); + for (; t.isEven(); ) + t.iushrn(1); + var I = M.cmp(t); + if (I < 0) + var e = M, M = t, t = e; + else if (0 === I || 0 === t.cmpn(1)) + break; + M.isub(t) + } + return t.iushln(g) + }, + B.prototype.invm = function (A) { + return this.egcd(A).a.umod(A) + }, + B.prototype.isEven = function () { + return 0 == (1 & this.words[0]) + }, + B.prototype.isOdd = function () { + return 1 == (1 & this.words[0]) + }, + B.prototype.andln = function (A) { + return this.words[0] & A + }, + B.prototype.bincn = function (A) { + o("number" == typeof A); + var M = A % 26, + A = (A - M) / 26, + M = 1 << M; + if (this.length <= A) + return this._expand(1 + A), this.words[A] |= M, this; + for (var t = M, g = A; 0 !== t && g < this.length; g++) { + var I = 0 | this.words[g], + t = (I += t) >>> 26; + I &= 67108863, + this.words[g] = I + } + return 0 !== t && (this.words[g] = t, this.length++), + this + }, + B.prototype.isZero = function () { + return 1 === this.length && 0 === this.words[0] + }, + B.prototype.cmpn = function (A) { + var M = A < 0; + return 0 === this.negative || M ? 0 === this.negative && M ? 1 : (this.strip(), A = 1 < this.length ? 1 : (M && (A = -A), o(A <= 67108863, "Number is too big"), (M = 0 | this.words[0]) === A ? 0 : M < A ? -1 : 1), 0 !== this.negative ? 0 | -A : A) : -1 + }, + B.prototype.cmp = function (A) { + if (0 !== this.negative && 0 === A.negative) + return -1; + if (0 === this.negative && 0 !== A.negative) + return 1; + A = this.ucmp(A); + return 0 !== this.negative ? 0 | -A : A + }, + B.prototype.ucmp = function (A) { + if (this.length > A.length) + return 1; + if (this.length < A.length) + return -1; + for (var M = 0, t = this.length - 1; 0 <= t; t--) { + var g = 0 | this.words[t], + I = 0 | A.words[t]; + if (g != I) { + g < I ? M = -1 : I < g && (M = 1); + break + } + } + return M + }, + B.prototype.gtn = function (A) { + return 1 === this.cmpn(A) + }, + B.prototype.gt = function (A) { + return 1 === this.cmp(A) + }, + B.prototype.gten = function (A) { + return 0 <= this.cmpn(A) + }, + B.prototype.gte = function (A) { + return 0 <= this.cmp(A) + }, + B.prototype.ltn = function (A) { + return -1 === this.cmpn(A) + }, + B.prototype.lt = function (A) { + return -1 === this.cmp(A) + }, + B.prototype.lten = function (A) { + return this.cmpn(A) <= 0 + }, + B.prototype.lte = function (A) { + return this.cmp(A) <= 0 + }, + B.prototype.eqn = function (A) { + return 0 === this.cmpn(A) + }, + B.prototype.eq = function (A) { + return 0 === this.cmp(A) + }, + B.red = function (A) { + return new y(A) + }, + B.prototype.toRed = function (A) { + return o(!this.red, "Already a number in reduction context"), + o(0 === this.negative, "red works only with positives"), + A.convertTo(this)._forceRed(A) + }, + B.prototype.fromRed = function () { + return o(this.red, "fromRed works only with numbers in reduction context"), + this.red.convertFrom(this) + }, + B.prototype._forceRed = function (A) { + return this.red = A, + this + }, + B.prototype.forceRed = function (A) { + return o(!this.red, "Already a number in reduction context"), + this._forceRed(A) + }, + B.prototype.redAdd = function (A) { + return o(this.red, "redAdd works only with red numbers"), + this.red.add(this, A) + }, + B.prototype.redIAdd = function (A) { + return o(this.red, "redIAdd works only with red numbers"), + this.red.iadd(this, A) + }, + B.prototype.redSub = function (A) { + return o(this.red, "redSub works only with red numbers"), + this.red.sub(this, A) + }, + B.prototype.redISub = function (A) { + return o(this.red, "redISub works only with red numbers"), + this.red.isub(this, A) + }, + B.prototype.redShl = function (A) { + return o(this.red, "redShl works only with red numbers"), + this.red.shl(this, A) + }, + B.prototype.redMul = function (A) { + return o(this.red, "redMul works only with red numbers"), + this.red._verify2(this, A), + this.red.mul(this, A) + }, + B.prototype.redIMul = function (A) { + return o(this.red, "redMul works only with red numbers"), + this.red._verify2(this, A), + this.red.imul(this, A) + }, + B.prototype.redSqr = function () { + return o(this.red, "redSqr works only with red numbers"), + this.red._verify1(this), + this.red.sqr(this) + }, + B.prototype.redISqr = function () { + return o(this.red, "redISqr works only with red numbers"), + this.red._verify1(this), + this.red.isqr(this) + }, + B.prototype.redSqrt = function () { + return o(this.red, "redSqrt works only with red numbers"), + this.red._verify1(this), + this.red.sqrt(this) + }, + B.prototype.redInvm = function () { + return o(this.red, "redInvm works only with red numbers"), + this.red._verify1(this), + this.red.invm(this) + }, + B.prototype.redNeg = function () { + return o(this.red, "redNeg works only with red numbers"), + this.red._verify1(this), + this.red.neg(this) + }, + B.prototype.redPow = function (A) { + return o(this.red && !A.red, "redPow(normalNum)"), + this.red._verify1(this), + this.red.pow(this, A) + }; + var N = { + k256: null, + p224: null, + p192: null, + p25519: null + }; + function n(A, M) { + this.name = A, + this.p = new B(M, 16), + this.n = this.p.bitLength(), + this.k = new B(1).iushln(this.n).isub(this.p), + this.tmp = this._tmp() + } + function Q() { + n.call(this, "k256", "ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f") + } + function a() { + n.call(this, "p224", "ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001") + } + function h() { + n.call(this, "p192", "ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff") + } + function s() { + n.call(this, "25519", "7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed") + } + function y(A) { + var M; + "string" == typeof A ? (M = B._prime(A), this.m = M.p, this.prime = M) : (o(A.gtn(1), "modulus must be greater than 1"), this.m = A, this.prime = null) + } + function w(A) { + y.call(this, A), + this.shift = this.m.bitLength(), + this.shift % 26 != 0 && (this.shift += 26 - this.shift % 26), + this.r = new B(1).iushln(this.shift), + this.r2 = this.imod(this.r.sqr()), + this.rinv = this.r._invmp(this.m), + this.minv = this.rinv.mul(this.r).isubn(1).div(this.m), + this.minv = this.minv.umod(this.r), + this.minv = this.r.sub(this.minv) + } + n.prototype._tmp = function () { + var A = new B(null); + return A.words = new Array(Math.ceil(this.n / 13)), + A + }, + n.prototype.ireduce = function (A) { + for (var M, t = A; this.split(t, this.tmp), M = (t = (t = this.imulK(t)).iadd(this.tmp)).bitLength(), M > this.n; ); + A = M < this.n ? -1 : t.ucmp(this.p); + return 0 === A ? (t.words[0] = 0, t.length = 1) : 0 < A ? t.isub(this.p) : void 0 !== t.strip ? t.strip() : t._strip(), + t + }, + n.prototype.split = function (A, M) { + A.iushrn(this.n, 0, M) + }, + n.prototype.imulK = function (A) { + return A.imul(this.k) + }, + t(Q, n), + Q.prototype.split = function (A, M) { + for (var t = Math.min(A.length, 9), g = 0; g < t; g++) + M.words[g] = A.words[g]; + if (M.length = t, A.length <= 9) + return A.words[0] = 0, void(A.length = 1); + var I = A.words[9]; + for (M.words[M.length++] = 4194303 & I, g = 10; g < A.length; g++) { + var e = 0 | A.words[g]; + A.words[g - 10] = (4194303 & e) << 4 | I >>> 22, + I = e + } + I >>>= 22, + 0 === (A.words[g - 10] = I) && 10 < A.length ? A.length -= 10 : A.length -= 9 + }, + Q.prototype.imulK = function (A) { + A.words[A.length] = 0, + A.words[A.length + 1] = 0, + A.length += 2; + for (var M = 0, t = 0; t < A.length; t++) { + var g = 0 | A.words[t]; + M += 977 * g, + A.words[t] = 67108863 & M, + M = 64 * g + (M / 67108864 | 0) + } + return 0 === A.words[A.length - 1] && (A.length--, 0 === A.words[A.length - 1] && A.length--), + A + }, + t(a, n), + t(h, n), + t(s, n), + s.prototype.imulK = function (A) { + for (var M = 0, t = 0; t < A.length; t++) { + var g = 19 * (0 | A.words[t]) + M, + I = 67108863 & g; + g >>>= 26, + A.words[t] = I, + M = g + } + return 0 !== M && (A.words[A.length++] = M), + A + }, + B._prime = function (A) { + if (N[A]) + return N[A]; + var M; + if ("k256" === A) + M = new Q; + else if ("p224" === A) + M = new a; + else if ("p192" === A) + M = new h; + else { + if ("p25519" !== A) + throw new Error("Unknown prime " + A); + M = new s + } + return N[A] = M + }, + y.prototype._verify1 = function (A) { + o(0 === A.negative, "red works only with positives"), + o(A.red, "red works only with red numbers") + }, + y.prototype._verify2 = function (A, M) { + o(0 == (A.negative | M.negative), "red works only with positives"), + o(A.red && A.red === M.red, "red works only with red numbers") + }, + y.prototype.imod = function (A) { + return (this.prime ? this.prime.ireduce(A) : A.umod(this.m))._forceRed(this) + }, + y.prototype.neg = function (A) { + return A.isZero() ? A.clone() : this.m.sub(A)._forceRed(this) + }, + y.prototype.add = function (A, M) { + this._verify2(A, M); + M = A.add(M); + return 0 <= M.cmp(this.m) && M.isub(this.m), + M._forceRed(this) + }, + y.prototype.iadd = function (A, M) { + this._verify2(A, M); + M = A.iadd(M); + return 0 <= M.cmp(this.m) && M.isub(this.m), + M + }, + y.prototype.sub = function (A, M) { + this._verify2(A, M); + M = A.sub(M); + return M.cmpn(0) < 0 && M.iadd(this.m), + M._forceRed(this) + }, + y.prototype.isub = function (A, M) { + this._verify2(A, M); + M = A.isub(M); + return M.cmpn(0) < 0 && M.iadd(this.m), + M + }, + y.prototype.shl = function (A, M) { + return this._verify1(A), + this.imod(A.ushln(M)) + }, + y.prototype.imul = function (A, M) { + return this._verify2(A, M), + this.imod(A.imul(M)) + }, + y.prototype.mul = function (A, M) { + return this._verify2(A, M), + this.imod(A.mul(M)) + }, + y.prototype.isqr = function (A) { + return this.imul(A, A.clone()) + }, + y.prototype.sqr = function (A) { + return this.mul(A, A) + }, + y.prototype.sqrt = function (A) { + if (A.isZero()) + return A.clone(); + var M = this.m.andln(3); + if (o(M % 2 == 1), 3 === M) { + M = this.m.add(new B(1)).iushrn(2); + return this.pow(A, M) + } + for (var t = this.m.subn(1), g = 0; !t.isZero() && 0 === t.andln(1); ) + g++, t.iushrn(1); + o(!t.isZero()); + for (var I = new B(1).toRed(this), e = I.redNeg(), i = this.m.subn(1).iushrn(1), T = new B(2 * (T = this.m.bitLength()) * T).toRed(this); 0 !== this.pow(T, i).cmp(e); ) + T.redIAdd(e); + for (var E = this.pow(T, t), N = this.pow(A, t.addn(1).iushrn(1)), n = this.pow(A, t), D = g; 0 !== n.cmp(I); ) { + for (var C = n, r = 0; 0 !== C.cmp(I); r++) + C = C.redSqr(); + o(r < D); + var c = this.pow(E, new B(1).iushln(D - r - 1)), + N = N.redMul(c), + E = c.redSqr(), + n = n.redMul(E), + D = r + } + return N + }, + y.prototype.invm = function (A) { + A = A._invmp(this.m); + return 0 !== A.negative ? (A.negative = 0, this.imod(A).redNeg()) : this.imod(A) + }, + y.prototype.pow = function (A, M) { + if (M.isZero()) + return new B(1).toRed(this); + if (0 === M.cmpn(1)) + return A.clone(); + var t = new Array(16); + t[0] = new B(1).toRed(this), + t[1] = A; + for (var g = 2; g < t.length; g++) + t[g] = this.mul(t[g - 1], A); + var I = t[0], + e = 0, + i = 0, + T = M.bitLength() % 26; + for (0 === T && (T = 26), g = M.length - 1; 0 <= g; g--) { + for (var E = M.words[g], N = T - 1; 0 <= N; N--) { + var n = E >> N & 1; + I !== t[0] && (I = this.sqr(I)), + 0 != n || 0 !== e ? (e <<= 1, e |= n, (4 === ++i || 0 === g && 0 === N) && (I = this.mul(I, t[e]), e = i = 0)) : i = 0 + } + T = 26 + } + return I + }, + y.prototype.convertTo = function (A) { + var M = A.umod(this.m); + return M === A ? M.clone() : M + }, + y.prototype.convertFrom = function (A) { + A = A.clone(); + return A.red = null, + A + }, + B.mont = function (A) { + return new w(A) + }, + t(w, y), + w.prototype.convertTo = function (A) { + return this.imod(A.ushln(this.shift)) + }, + w.prototype.convertFrom = function (A) { + A = this.imod(A.mul(this.rinv)); + return A.red = null, + A + }, + w.prototype.imul = function (A, M) { + if (A.isZero() || M.isZero()) + return A.words[0] = 0, A.length = 1, A; + A = A.imul(M), + M = A.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m), + A = A.isub(M).iushrn(this.shift), + M = A; + return 0 <= A.cmp(this.m) ? M = A.isub(this.m) : A.cmpn(0) < 0 && (M = A.iadd(this.m)), + M._forceRed(this) + }, + w.prototype.mul = function (A, M) { + if (A.isZero() || M.isZero()) + return new B(0)._forceRed(this); + A = A.mul(M), + M = A.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m), + A = A.isub(M).iushrn(this.shift), + M = A; + return 0 <= A.cmp(this.m) ? M = A.isub(this.m) : A.cmpn(0) < 0 && (M = A.iadd(this.m)), + M._forceRed(this) + }, + w.prototype.invm = function (A) { + return this.imod(A._invmp(this.m).mul(this.r2))._forceRed(this) + } + } + (A, this) + }).call(this, j(93)(A)) + }, function (A, M) { + var t, + g, + A = A.exports = {}; + function I() { + throw new Error("setTimeout has not been defined") + } + function e() { + throw new Error("clearTimeout has not been defined") + } + function i(M) { + if (t === setTimeout) + return setTimeout(M, 0); + if ((t === I || !t) && setTimeout) + return t = setTimeout, setTimeout(M, 0); + try { + return t(M, 0) + } catch (A) { + try { + return t.call(null, M, 0) + } catch (A) { + return t.call(this, M, 0) + } + } + } + !function () { + try { + t = "function" == typeof setTimeout ? setTimeout : I + } catch (A) { + t = I + } + try { + g = "function" == typeof clearTimeout ? clearTimeout : e + } catch (A) { + g = e + } + } + (); + var T, + E = [], + N = !1, + n = -1; + function D() { + N && T && (N = !1, T.length ? E = T.concat(E) : n = -1, E.length && C()) + } + function C() { + if (!N) { + var A = i(D); + N = !0; + for (var M = E.length; M; ) { + for (T = E, E = []; ++n < M; ) + T && T[n].run(); + n = -1, + M = E.length + } + T = null, + N = !1, + function (M) { + if (g === clearTimeout) + return clearTimeout(M); + if ((g === e || !g) && clearTimeout) + return g = clearTimeout, clearTimeout(M); + try { + g(M) + } catch (A) { + try { + return g.call(null, M) + } catch (A) { + return g.call(this, M) + } + } + } + (A) + } + } + function r(A, M) { + this.fun = A, + this.array = M + } + function c() {} + A.nextTick = function (A) { + var M = new Array(arguments.length - 1); + if (1 < arguments.length) + for (var t = 1; t < arguments.length; t++) + M[t - 1] = arguments[t]; + E.push(new r(A, M)), + 1 !== E.length || N || i(C) + }, + r.prototype.run = function () { + this.fun.apply(null, this.array) + }, + A.title = "browser", + A.browser = !0, + A.env = {}, + A.argv = [], + A.version = "", + A.versions = {}, + A.on = c, + A.addListener = c, + A.once = c, + A.off = c, + A.removeListener = c, + A.removeAllListeners = c, + A.emit = c, + A.prependListener = c, + A.prependOnceListener = c, + A.listeners = function (A) { + return [] + }, + A.binding = function (A) { + throw new Error("process.binding is not supported") + }, + A.cwd = function () { + return "/" + }, + A.chdir = function (A) { + throw new Error("process.chdir is not supported") + }, + A.umask = function () { + return 0 + } + }, function (A, U, f) { + "use strict"; + (function (A) { + /*! + * The buffer module from node.js, for the browser. + * + * @author Feross Aboukhadijeh + * @license MIT + */ + var T = f(111), + e = f(112), + i = f(60); + function t() { + return D.TYPED_ARRAY_SUPPORT ? 2147483647 : 1073741823 + } + function I(A, M) { + if (t() < M) + throw new RangeError("Invalid typed array length"); + return D.TYPED_ARRAY_SUPPORT ? (A = new Uint8Array(M)).__proto__ = D.prototype : (null === A && (A = new D(M)), A.length = M), + A + } + function D(A, M, t) { + if (!(D.TYPED_ARRAY_SUPPORT || this instanceof D)) + return new D(A, M, t); + if ("number" != typeof A) + return g(this, A, M, t); + if ("string" == typeof M) + throw new Error("If encoding is specified then the first argument must be a string"); + return N(this, A) + } + function g(A, M, t, g) { + if ("number" == typeof M) + throw new TypeError('"value" argument must not be a number'); + return "undefined" != typeof ArrayBuffer && M instanceof ArrayBuffer ? function (A, M, t, g) { + if (M.byteLength, t < 0 || M.byteLength < t) + throw new RangeError("'offset' is out of bounds"); + if (M.byteLength < t + (g || 0)) + throw new RangeError("'length' is out of bounds"); + M = void 0 === t && void 0 === g ? new Uint8Array(M) : void 0 === g ? new Uint8Array(M, t) : new Uint8Array(M, t, g); + D.TYPED_ARRAY_SUPPORT ? (A = M).__proto__ = D.prototype : A = n(A, M); + return A + } + (A, M, t, g) : "string" == typeof M ? function (A, M, t) { + "string" == typeof t && "" !== t || (t = "utf8"); + if (!D.isEncoding(t)) + throw new TypeError('"encoding" must be a valid string encoding'); + var g = 0 | r(M, t), + t = (A = I(A, g)).write(M, t); + t !== g && (A = A.slice(0, t)); + return A + } + (A, M, t) : function (A, M) { + if (D.isBuffer(M)) { + var t = 0 | C(M.length); + return 0 === (A = I(A, t)).length ? A : (M.copy(A, 0, 0, t), A) + } + if (M) { + if ("undefined" != typeof ArrayBuffer && M.buffer instanceof ArrayBuffer || "length" in M) + return "number" != typeof M.length || function (A) { + return A != A + } + (M.length) ? I(A, 0) : n(A, M); + if ("Buffer" === M.type && i(M.data)) + return n(A, M.data) + } + throw new TypeError("First argument must be a string, Buffer, ArrayBuffer, Array, or array-like object.") + } + (A, M) + } + function E(A) { + if ("number" != typeof A) + throw new TypeError('"size" argument must be a number'); + if (A < 0) + throw new RangeError('"size" argument must not be negative') + } + function N(A, M) { + if (E(M), A = I(A, M < 0 ? 0 : 0 | C(M)), !D.TYPED_ARRAY_SUPPORT) + for (var t = 0; t < M; ++t) + A[t] = 0; + return A + } + function n(A, M) { + var t = M.length < 0 ? 0 : 0 | C(M.length); + A = I(A, t); + for (var g = 0; g < t; g += 1) + A[g] = 255 & M[g]; + return A + } + function C(A) { + if (A >= t()) + throw new RangeError("Attempt to allocate Buffer larger than maximum size: 0x" + t().toString(16) + " bytes"); + return 0 | A + } + function r(A, M) { + if (D.isBuffer(A)) + return A.length; + if ("undefined" != typeof ArrayBuffer && "function" == typeof ArrayBuffer.isView && (ArrayBuffer.isView(A) || A instanceof ArrayBuffer)) + return A.byteLength; + "string" != typeof A && (A = "" + A); + var t = A.length; + if (0 === t) + return 0; + for (var g = !1; ; ) + switch (M) { + case "ascii": + case "latin1": + case "binary": + return t; + case "utf8": + case "utf-8": + case void 0: + return S(A).length; + case "ucs2": + case "ucs-2": + case "utf16le": + case "utf-16le": + return 2 * t; + case "hex": + return t >>> 1; + case "base64": + return z(A).length; + default: + if (g) + return S(A).length; + M = ("" + M).toLowerCase(), + g = !0 + } + } + function M(A, M, t) { + var g, + I, + e, + i = !1; + if ((void 0 === M || M < 0) && (M = 0), M > this.length) + return ""; + if ((void 0 === t || t > this.length) && (t = this.length), t <= 0) + return ""; + if ((t >>>= 0) <= (M >>>= 0)) + return ""; + for (A = A || "utf8"; ; ) + switch (A) { + case "hex": + return function (A, M, t) { + var g = A.length; + (!M || M < 0) && (M = 0); + (!t || t < 0 || g < t) && (t = g); + for (var I = "", e = M; e < t; ++e) + I += function (A) { + return A < 16 ? "0" + A.toString(16) : A.toString(16) + } + (A[e]); + return I + } + (this, M, t); + case "utf8": + case "utf-8": + return h(this, M, t); + case "ascii": + return function (A, M, t) { + var g = ""; + t = Math.min(A.length, t); + for (var I = M; I < t; ++I) + g += String.fromCharCode(127 & A[I]); + return g + } + (this, M, t); + case "latin1": + case "binary": + return function (A, M, t) { + var g = ""; + t = Math.min(A.length, t); + for (var I = M; I < t; ++I) + g += String.fromCharCode(A[I]); + return g + } + (this, M, t); + case "base64": + return g = this, + e = t, + 0 === (I = M) && e === g.length ? T.fromByteArray(g) : T.fromByteArray(g.slice(I, e)); + case "ucs2": + case "ucs-2": + case "utf16le": + case "utf-16le": + return function (A, M, t) { + for (var g = A.slice(M, t), I = "", e = 0; e < g.length; e += 2) + I += String.fromCharCode(g[e] + 256 * g[e + 1]); + return I + } + (this, M, t); + default: + if (i) + throw new TypeError("Unknown encoding: " + A); + A = (A + "").toLowerCase(), + i = !0 + } + } + function c(A, M, t) { + var g = A[M]; + A[M] = A[t], + A[t] = g + } + function o(A, M, t, g, I) { + if (0 === A.length) + return -1; + if ("string" == typeof t ? (g = t, t = 0) : 2147483647 < t ? t = 2147483647 : t < -2147483648 && (t = -2147483648), t = +t, isNaN(t) && (t = I ? 0 : A.length - 1), t < 0 && (t = A.length + t), t >= A.length) { + if (I) + return -1; + t = A.length - 1 + } else if (t < 0) { + if (!I) + return -1; + t = 0 + } + if ("string" == typeof M && (M = D.from(M, g)), D.isBuffer(M)) + return 0 === M.length ? -1 : B(A, M, t, g, I); + if ("number" == typeof M) + return M &= 255, D.TYPED_ARRAY_SUPPORT && "function" == typeof Uint8Array.prototype.indexOf ? (I ? Uint8Array.prototype.indexOf : Uint8Array.prototype.lastIndexOf).call(A, M, t) : B(A, [M], t, g, I); + throw new TypeError("val must be string, number or Buffer") + } + function B(A, M, t, g, I) { + var e = 1, + i = A.length, + T = M.length; + if (void 0 !== g && ("ucs2" === (g = String(g).toLowerCase()) || "ucs-2" === g || "utf16le" === g || "utf-16le" === g)) { + if (A.length < 2 || M.length < 2) + return -1; + i /= e = 2, + T /= 2, + t /= 2 + } + function E(A, M) { + return 1 === e ? A[M] : A.readUInt16BE(M * e) + } + if (I) + for (var N = -1, n = t; n < i; n++) + if (E(A, n) === E(M, -1 === N ? 0 : n - N)) { + if (-1 === N && (N = n), n - N + 1 === T) + return N * e + } else - 1 !== N && (n -= n - N), N = -1; + else + for (i < t + T && (t = i - T), n = t; 0 <= n; n--) { + for (var D = !0, C = 0; C < T; C++) + if (E(A, n + C) !== E(M, C)) { + D = !1; + break + } + if (D) + return n + } + return -1 + } + function Q(A, M, t, g) { + return l(function (A) { + for (var M = [], t = 0; t < A.length; ++t) + M.push(255 & A.charCodeAt(t)); + return M + } + (M), A, t, g) + } + function a(A, M, t, g) { + return l(function (A, M) { + for (var t, g, I = [], e = 0; e < A.length && !((M -= 2) < 0); ++e) + g = A.charCodeAt(e), t = g >> 8, g = g % 256, I.push(g), I.push(t); + return I + } + (M, A.length - t), A, t, g) + } + function h(A, M, t) { + t = Math.min(A.length, t); + for (var g = [], I = M; I < t; ) { + var e, + i, + T, + E, + N = A[I], + n = null, + D = 239 < N ? 4 : 223 < N ? 3 : 191 < N ? 2 : 1; + if (I + D <= t) + switch (D) { + case 1: + N < 128 && (n = N); + break; + case 2: + 128 == (192 & (e = A[I + 1])) && 127 < (E = (31 & N) << 6 | 63 & e) && (n = E); + break; + case 3: + e = A[I + 1], + i = A[I + 2], + 128 == (192 & e) && 128 == (192 & i) && 2047 < (E = (15 & N) << 12 | (63 & e) << 6 | 63 & i) && (E < 55296 || 57343 < E) && (n = E); + break; + case 4: + e = A[I + 1], + i = A[I + 2], + T = A[I + 3], + 128 == (192 & e) && 128 == (192 & i) && 128 == (192 & T) && 65535 < (E = (15 & N) << 18 | (63 & e) << 12 | (63 & i) << 6 | 63 & T) && E < 1114112 && (n = E) + } + null === n ? (n = 65533, D = 1) : 65535 < n && (n -= 65536, g.push(n >>> 10 & 1023 | 55296), n = 56320 | 1023 & n), + g.push(n), + I += D + } + return function (A) { + var M = A.length; + if (M <= s) + return String.fromCharCode.apply(String, A); + var t = "", + g = 0; + for (; g < M; ) + t += String.fromCharCode.apply(String, A.slice(g, g += s)); + return t + } + (g) + } + U.Buffer = D, + U.SlowBuffer = function (A) { + +A != A && (A = 0); + return D.alloc(+A) + }, + U.INSPECT_MAX_BYTES = 50, + D.TYPED_ARRAY_SUPPORT = void 0 !== A.TYPED_ARRAY_SUPPORT ? A.TYPED_ARRAY_SUPPORT : function () { + try { + var A = new Uint8Array(1); + return A.__proto__ = { + __proto__: Uint8Array.prototype, + foo: function () { + return 42 + } + }, + 42 === A.foo() && "function" == typeof A.subarray && 0 === A.subarray(1, 1).byteLength + } catch (A) { + return !1 + } + } + (), + U.kMaxLength = t(), + D.poolSize = 8192, + D._augment = function (A) { + return A.__proto__ = D.prototype, + A + }, + D.from = function (A, M, t) { + return g(null, A, M, t) + }, + D.TYPED_ARRAY_SUPPORT && (D.prototype.__proto__ = Uint8Array.prototype, D.__proto__ = Uint8Array, "undefined" != typeof Symbol && Symbol.species && D[Symbol.species] === D && Object.defineProperty(D, Symbol.species, { + value: null, + configurable: !0 + })), + D.alloc = function (A, M, t) { + return g = null, + M = M, + t = t, + E(A = A), + !(A <= 0) && void 0 !== M ? "string" == typeof t ? I(g, A).fill(M, t) : I(g, A).fill(M) : I(g, A); + var g + }, + D.allocUnsafe = function (A) { + return N(null, A) + }, + D.allocUnsafeSlow = function (A) { + return N(null, A) + }, + D.isBuffer = function (A) { + return !(null == A || !A._isBuffer) + }, + D.compare = function (A, M) { + if (!D.isBuffer(A) || !D.isBuffer(M)) + throw new TypeError("Arguments must be Buffers"); + if (A === M) + return 0; + for (var t = A.length, g = M.length, I = 0, e = Math.min(t, g); I < e; ++I) + if (A[I] !== M[I]) { + t = A[I], + g = M[I]; + break + } + return t < g ? -1 : g < t ? 1 : 0 + }, + D.isEncoding = function (A) { + switch (String(A).toLowerCase()) { + case "hex": + case "utf8": + case "utf-8": + case "ascii": + case "latin1": + case "binary": + case "base64": + case "ucs2": + case "ucs-2": + case "utf16le": + case "utf-16le": + return !0; + default: + return !1 + } + }, + D.concat = function (A, M) { + if (!i(A)) + throw new TypeError('"list" argument must be an Array of Buffers'); + if (0 === A.length) + return D.alloc(0); + if (void 0 === M) + for (I = M = 0; I < A.length; ++I) + M += A[I].length; + for (var t = D.allocUnsafe(M), g = 0, I = 0; I < A.length; ++I) { + var e = A[I]; + if (!D.isBuffer(e)) + throw new TypeError('"list" argument must be an Array of Buffers'); + e.copy(t, g), + g += e.length + } + return t + }, + D.byteLength = r, + D.prototype._isBuffer = !0, + D.prototype.swap16 = function () { + var A = this.length; + if (A % 2 != 0) + throw new RangeError("Buffer size must be a multiple of 16-bits"); + for (var M = 0; M < A; M += 2) + c(this, M, M + 1); + return this + }, + D.prototype.swap32 = function () { + var A = this.length; + if (A % 4 != 0) + throw new RangeError("Buffer size must be a multiple of 32-bits"); + for (var M = 0; M < A; M += 4) + c(this, M, M + 3), c(this, M + 1, M + 2); + return this + }, + D.prototype.swap64 = function () { + var A = this.length; + if (A % 8 != 0) + throw new RangeError("Buffer size must be a multiple of 64-bits"); + for (var M = 0; M < A; M += 8) + c(this, M, M + 7), c(this, M + 1, M + 6), c(this, M + 2, M + 5), c(this, M + 3, M + 4); + return this + }, + D.prototype.toString = function () { + var A = 0 | this.length; + return 0 == A ? "" : 0 === arguments.length ? h(this, 0, A) : M.apply(this, arguments) + }, + D.prototype.equals = function (A) { + if (!D.isBuffer(A)) + throw new TypeError("Argument must be a Buffer"); + return this === A || 0 === D.compare(this, A) + }, + D.prototype.inspect = function () { + var A = "", + M = U.INSPECT_MAX_BYTES; + return 0 < this.length && (A = this.toString("hex", 0, M).match(/.{2}/g).join(" "), this.length > M && (A += " ... ")), + "" + }, + D.prototype.compare = function (A, M, t, g, I) { + if (!D.isBuffer(A)) + throw new TypeError("Argument must be a Buffer"); + if (void 0 === M && (M = 0), void 0 === t && (t = A ? A.length : 0), void 0 === g && (g = 0), void 0 === I && (I = this.length), M < 0 || t > A.length || g < 0 || I > this.length) + throw new RangeError("out of range index"); + if (I <= g && t <= M) + return 0; + if (I <= g) + return -1; + if (t <= M) + return 1; + if (this === A) + return 0; + for (var e = (I >>>= 0) - (g >>>= 0), i = (t >>>= 0) - (M >>>= 0), T = Math.min(e, i), E = this.slice(g, I), N = A.slice(M, t), n = 0; n < T; ++n) + if (E[n] !== N[n]) { + e = E[n], + i = N[n]; + break + } + return e < i ? -1 : i < e ? 1 : 0 + }, + D.prototype.includes = function (A, M, t) { + return -1 !== this.indexOf(A, M, t) + }, + D.prototype.indexOf = function (A, M, t) { + return o(this, A, M, t, !0) + }, + D.prototype.lastIndexOf = function (A, M, t) { + return o(this, A, M, t, !1) + }, + D.prototype.write = function (A, M, t, g) { + if (void 0 === M) + g = "utf8", t = this.length, M = 0; + else if (void 0 === t && "string" == typeof M) + g = M, t = this.length, M = 0; + else { + if (!isFinite(M)) + throw new Error("Buffer.write(string, encoding, offset[, length]) is no longer supported"); + M |= 0, + isFinite(t) ? (t |= 0, void 0 === g && (g = "utf8")) : (g = t, t = void 0) + } + var I = this.length - M; + if ((void 0 === t || I < t) && (t = I), 0 < A.length && (t < 0 || M < 0) || M > this.length) + throw new RangeError("Attempt to write outside buffer bounds"); + g = g || "utf8"; + for (var e, i, T, E = !1; ; ) + switch (g) { + case "hex": + return function (A, M, t, g) { + t = Number(t) || 0; + var I = A.length - t; + if ((!g || I < (g = Number(g))) && (g = I), (I = M.length) % 2 != 0) + throw new TypeError("Invalid hex string"); + I / 2 < g && (g = I / 2); + for (var e = 0; e < g; ++e) { + var i = parseInt(M.substr(2 * e, 2), 16); + if (isNaN(i)) + return e; + A[t + e] = i + } + return e + } + (this, A, M, t); + case "utf8": + case "utf-8": + return i = M, + T = t, + l(S(A, (e = this).length - i), e, i, T); + case "ascii": + return Q(this, A, M, t); + case "latin1": + case "binary": + return Q(this, A, M, t); + case "base64": + return e = this, + i = M, + T = t, + l(z(A), e, i, T); + case "ucs2": + case "ucs-2": + case "utf16le": + case "utf-16le": + return a(this, A, M, t); + default: + if (E) + throw new TypeError("Unknown encoding: " + g); + g = ("" + g).toLowerCase(), + E = !0 + } + }, + D.prototype.toJSON = function () { + return { + type: "Buffer", + data: Array.prototype.slice.call(this._arr || this, 0) + } + }; + var s = 4096; + function y(A, M, t) { + if (A % 1 != 0 || A < 0) + throw new RangeError("offset is not uint"); + if (t < A + M) + throw new RangeError("Trying to access beyond buffer length") + } + function w(A, M, t, g, I, e) { + if (!D.isBuffer(A)) + throw new TypeError('"buffer" argument must be a Buffer instance'); + if (I < M || M < e) + throw new RangeError('"value" argument is out of bounds'); + if (t + g > A.length) + throw new RangeError("Index out of range") + } + function j(A, M, t, g) { + M < 0 && (M = 65535 + M + 1); + for (var I = 0, e = Math.min(A.length - t, 2); I < e; ++I) + A[t + I] = (M & 255 << 8 * (g ? I : 1 - I)) >>> 8 * (g ? I : 1 - I) + } + function L(A, M, t, g) { + M < 0 && (M = 4294967295 + M + 1); + for (var I = 0, e = Math.min(A.length - t, 4); I < e; ++I) + A[t + I] = M >>> 8 * (g ? I : 3 - I) & 255 + } + function d(A, M, t, g) { + if (t + g > A.length) + throw new RangeError("Index out of range"); + if (t < 0) + throw new RangeError("Index out of range") + } + function x(A, M, t, g, I) { + return I || d(A, 0, t, 4), + e.write(A, M, t, g, 23, 4), + t + 4 + } + function Y(A, M, t, g, I) { + return I || d(A, 0, t, 8), + e.write(A, M, t, g, 52, 8), + t + 8 + } + D.prototype.slice = function (A, M) { + var t = this.length; + if ((A = ~~A) < 0 ? (A += t) < 0 && (A = 0) : t < A && (A = t), (M = void 0 === M ? t : ~~M) < 0 ? (M += t) < 0 && (M = 0) : t < M && (M = t), M < A && (M = A), D.TYPED_ARRAY_SUPPORT) + (I = this.subarray(A, M)).__proto__ = D.prototype; + else + for (var g = M - A, I = new D(g, void 0), e = 0; e < g; ++e) + I[e] = this[e + A]; + return I + }, + D.prototype.readUIntLE = function (A, M, t) { + A |= 0, + M |= 0, + t || y(A, M, this.length); + for (var g = this[A], I = 1, e = 0; ++e < M && (I *= 256); ) + g += this[A + e] * I; + return g + }, + D.prototype.readUIntBE = function (A, M, t) { + A |= 0, + M |= 0, + t || y(A, M, this.length); + for (var g = this[A + --M], I = 1; 0 < M && (I *= 256); ) + g += this[A + --M] * I; + return g + }, + D.prototype.readUInt8 = function (A, M) { + return M || y(A, 1, this.length), + this[A] + }, + D.prototype.readUInt16LE = function (A, M) { + return M || y(A, 2, this.length), + this[A] | this[A + 1] << 8 + }, + D.prototype.readUInt16BE = function (A, M) { + return M || y(A, 2, this.length), + this[A] << 8 | this[A + 1] + }, + D.prototype.readUInt32LE = function (A, M) { + return M || y(A, 4, this.length), + (this[A] | this[A + 1] << 8 | this[A + 2] << 16) + 16777216 * this[A + 3] + }, + D.prototype.readUInt32BE = function (A, M) { + return M || y(A, 4, this.length), + 16777216 * this[A] + (this[A + 1] << 16 | this[A + 2] << 8 | this[A + 3]) + }, + D.prototype.readIntLE = function (A, M, t) { + A |= 0, + M |= 0, + t || y(A, M, this.length); + for (var g = this[A], I = 1, e = 0; ++e < M && (I *= 256); ) + g += this[A + e] * I; + return (I *= 128) <= g && (g -= Math.pow(2, 8 * M)), + g + }, + D.prototype.readIntBE = function (A, M, t) { + A |= 0, + M |= 0, + t || y(A, M, this.length); + for (var g = M, I = 1, e = this[A + --g]; 0 < g && (I *= 256); ) + e += this[A + --g] * I; + return (I *= 128) <= e && (e -= Math.pow(2, 8 * M)), + e + }, + D.prototype.readInt8 = function (A, M) { + return M || y(A, 1, this.length), + 128 & this[A] ? -1 * (255 - this[A] + 1) : this[A] + }, + D.prototype.readInt16LE = function (A, M) { + M || y(A, 2, this.length); + A = this[A] | this[A + 1] << 8; + return 32768 & A ? 4294901760 | A : A + }, + D.prototype.readInt16BE = function (A, M) { + M || y(A, 2, this.length); + A = this[A + 1] | this[A] << 8; + return 32768 & A ? 4294901760 | A : A + }, + D.prototype.readInt32LE = function (A, M) { + return M || y(A, 4, this.length), + this[A] | this[A + 1] << 8 | this[A + 2] << 16 | this[A + 3] << 24 + }, + D.prototype.readInt32BE = function (A, M) { + return M || y(A, 4, this.length), + this[A] << 24 | this[A + 1] << 16 | this[A + 2] << 8 | this[A + 3] + }, + D.prototype.readFloatLE = function (A, M) { + return M || y(A, 4, this.length), + e.read(this, A, !0, 23, 4) + }, + D.prototype.readFloatBE = function (A, M) { + return M || y(A, 4, this.length), + e.read(this, A, !1, 23, 4) + }, + D.prototype.readDoubleLE = function (A, M) { + return M || y(A, 8, this.length), + e.read(this, A, !0, 52, 8) + }, + D.prototype.readDoubleBE = function (A, M) { + return M || y(A, 8, this.length), + e.read(this, A, !1, 52, 8) + }, + D.prototype.writeUIntLE = function (A, M, t, g) { + A = +A, + M |= 0, + t |= 0, + g || w(this, A, M, t, Math.pow(2, 8 * t) - 1, 0); + var I = 1, + e = 0; + for (this[M] = 255 & A; ++e < t && (I *= 256); ) + this[M + e] = A / I & 255; + return M + t + }, + D.prototype.writeUIntBE = function (A, M, t, g) { + A = +A, + M |= 0, + t |= 0, + g || w(this, A, M, t, Math.pow(2, 8 * t) - 1, 0); + var I = t - 1, + e = 1; + for (this[M + I] = 255 & A; 0 <= --I && (e *= 256); ) + this[M + I] = A / e & 255; + return M + t + }, + D.prototype.writeUInt8 = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 1, 255, 0), + D.TYPED_ARRAY_SUPPORT || (A = Math.floor(A)), + this[M] = 255 & A, + M + 1 + }, + D.prototype.writeUInt16LE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 2, 65535, 0), + D.TYPED_ARRAY_SUPPORT ? (this[M] = 255 & A, this[M + 1] = A >>> 8) : j(this, A, M, !0), + M + 2 + }, + D.prototype.writeUInt16BE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 2, 65535, 0), + D.TYPED_ARRAY_SUPPORT ? (this[M] = A >>> 8, this[M + 1] = 255 & A) : j(this, A, M, !1), + M + 2 + }, + D.prototype.writeUInt32LE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 4, 4294967295, 0), + D.TYPED_ARRAY_SUPPORT ? (this[M + 3] = A >>> 24, this[M + 2] = A >>> 16, this[M + 1] = A >>> 8, this[M] = 255 & A) : L(this, A, M, !0), + M + 4 + }, + D.prototype.writeUInt32BE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 4, 4294967295, 0), + D.TYPED_ARRAY_SUPPORT ? (this[M] = A >>> 24, this[M + 1] = A >>> 16, this[M + 2] = A >>> 8, this[M + 3] = 255 & A) : L(this, A, M, !1), + M + 4 + }, + D.prototype.writeIntLE = function (A, M, t, g) { + A = +A, + M |= 0, + g || w(this, A, M, t, (g = Math.pow(2, 8 * t - 1)) - 1, -g); + var I = 0, + e = 1, + i = 0; + for (this[M] = 255 & A; ++I < t && (e *= 256); ) + A < 0 && 0 === i && 0 !== this[M + I - 1] && (i = 1), this[M + I] = (A / e >> 0) - i & 255; + return M + t + }, + D.prototype.writeIntBE = function (A, M, t, g) { + A = +A, + M |= 0, + g || w(this, A, M, t, (g = Math.pow(2, 8 * t - 1)) - 1, -g); + var I = t - 1, + e = 1, + i = 0; + for (this[M + I] = 255 & A; 0 <= --I && (e *= 256); ) + A < 0 && 0 === i && 0 !== this[M + I + 1] && (i = 1), this[M + I] = (A / e >> 0) - i & 255; + return M + t + }, + D.prototype.writeInt8 = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 1, 127, -128), + D.TYPED_ARRAY_SUPPORT || (A = Math.floor(A)), + A < 0 && (A = 255 + A + 1), + this[M] = 255 & A, + M + 1 + }, + D.prototype.writeInt16LE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 2, 32767, -32768), + D.TYPED_ARRAY_SUPPORT ? (this[M] = 255 & A, this[M + 1] = A >>> 8) : j(this, A, M, !0), + M + 2 + }, + D.prototype.writeInt16BE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 2, 32767, -32768), + D.TYPED_ARRAY_SUPPORT ? (this[M] = A >>> 8, this[M + 1] = 255 & A) : j(this, A, M, !1), + M + 2 + }, + D.prototype.writeInt32LE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 4, 2147483647, -2147483648), + D.TYPED_ARRAY_SUPPORT ? (this[M] = 255 & A, this[M + 1] = A >>> 8, this[M + 2] = A >>> 16, this[M + 3] = A >>> 24) : L(this, A, M, !0), + M + 4 + }, + D.prototype.writeInt32BE = function (A, M, t) { + return A = +A, + M |= 0, + t || w(this, A, M, 4, 2147483647, -2147483648), + A < 0 && (A = 4294967295 + A + 1), + D.TYPED_ARRAY_SUPPORT ? (this[M] = A >>> 24, this[M + 1] = A >>> 16, this[M + 2] = A >>> 8, this[M + 3] = 255 & A) : L(this, A, M, !1), + M + 4 + }, + D.prototype.writeFloatLE = function (A, M, t) { + return x(this, A, M, !0, t) + }, + D.prototype.writeFloatBE = function (A, M, t) { + return x(this, A, M, !1, t) + }, + D.prototype.writeDoubleLE = function (A, M, t) { + return Y(this, A, M, !0, t) + }, + D.prototype.writeDoubleBE = function (A, M, t) { + return Y(this, A, M, !1, t) + }, + D.prototype.copy = function (A, M, t, g) { + if (t = t || 0, g || 0 === g || (g = this.length), M >= A.length && (M = A.length), M = M || 0, 0 < g && g < t && (g = t), g === t) + return 0; + if (0 === A.length || 0 === this.length) + return 0; + if (M < 0) + throw new RangeError("targetStart out of bounds"); + if (t < 0 || t >= this.length) + throw new RangeError("sourceStart out of bounds"); + if (g < 0) + throw new RangeError("sourceEnd out of bounds"); + g > this.length && (g = this.length), + A.length - M < g - t && (g = A.length - M + t); + var I, + e = g - t; + if (this === A && t < M && M < g) + for (I = e - 1; 0 <= I; --I) + A[I + M] = this[I + t]; + else if (e < 1e3 || !D.TYPED_ARRAY_SUPPORT) + for (I = 0; I < e; ++I) + A[I + M] = this[I + t]; + else + Uint8Array.prototype.set.call(A, this.subarray(t, t + e), M); + return e + }, + D.prototype.fill = function (A, M, t, g) { + if ("string" == typeof A) { + var I; + if ("string" == typeof M ? (g = M, M = 0, t = this.length) : "string" == typeof t && (g = t, t = this.length), 1 !== A.length || (I = A.charCodeAt(0)) < 256 && (A = I), void 0 !== g && "string" != typeof g) + throw new TypeError("encoding must be a string"); + if ("string" == typeof g && !D.isEncoding(g)) + throw new TypeError("Unknown encoding: " + g) + } else + "number" == typeof A && (A &= 255); + if (M < 0 || this.length < M || this.length < t) + throw new RangeError("Out of range index"); + if (t <= M) + return this; + if (M >>>= 0, t = void 0 === t ? this.length : t >>> 0, "number" == typeof(A = A || 0)) + for (T = M; T < t; ++T) + this[T] = A; + else + for (var e = D.isBuffer(A) ? A : S(new D(A, g).toString()), i = e.length, T = 0; T < t - M; ++T) + this[T + M] = e[T % i]; + return this + }; + var u = /[^+\/0-9A-Za-z-_]/g; + function S(A, M) { + var t; + M = M || 1 / 0; + for (var g = A.length, I = null, e = [], i = 0; i < g; ++i) { + if (55295 < (t = A.charCodeAt(i)) && t < 57344) { + if (!I) { + if (56319 < t) { + -1 < (M -= 3) && e.push(239, 191, 189); + continue + } + if (i + 1 === g) { + -1 < (M -= 3) && e.push(239, 191, 189); + continue + } + I = t; + continue + } + if (t < 56320) { + -1 < (M -= 3) && e.push(239, 191, 189), + I = t; + continue + } + t = 65536 + (I - 55296 << 10 | t - 56320) + } else + I && -1 < (M -= 3) && e.push(239, 191, 189); + if (I = null, t < 128) { + if (--M < 0) + break; + e.push(t) + } else if (t < 2048) { + if ((M -= 2) < 0) + break; + e.push(t >> 6 | 192, 63 & t | 128) + } else if (t < 65536) { + if ((M -= 3) < 0) + break; + e.push(t >> 12 | 224, t >> 6 & 63 | 128, 63 & t | 128) + } else { + if (!(t < 1114112)) + throw new Error("Invalid code point"); + if ((M -= 4) < 0) + break; + e.push(t >> 18 | 240, t >> 12 & 63 | 128, t >> 6 & 63 | 128, 63 & t | 128) + } + } + return e + } + function z(A) { + return T.toByteArray(function (A) { + var M; + if ((A = ((M = A).trim ? M.trim() : M.replace(/^\s+|\s+$/g, "")).replace(u, "")).length < 2) + return ""; + for (; A.length % 4 != 0; ) + A += "="; + return A + } + (A)) + } + function l(A, M, t, g) { + for (var I = 0; I < g && !(I + t >= M.length || I >= A.length); ++I) + M[I + t] = A[I]; + return I + } + }).call(this, f(10)) + }, function (A, M) { + var t = function () { + return this + } + (); + try { + t = t || new Function("return this")() + } catch (A) { + "object" == typeof window && (t = window) + } + A.exports = t + }, function (A, M) { + function t(A, M) { + if (!A) + throw new Error(M || "Assertion failed") + } + (A.exports = t).equal = function (A, M, t) { + if (A != M) + throw new Error(t || "Assertion failed: " + A + " != " + M) + } + }, function (A, M, t) { + "use strict"; + var g = M, + I = t(7), + M = t(11), + t = t(95); + g.assert = M, + g.toArray = t.toArray, + g.zero2 = t.zero2, + g.toHex = t.toHex, + g.encode = t.encode, + g.getNAF = function (A, M, t) { + var g = new Array(Math.max(A.bitLength(), t) + 1); + g.fill(0); + for (var I = 1 << M + 1, e = A.clone(), i = 0; i < g.length; i++) { + var T, + E = e.andln(I - 1); + e.isOdd() ? (T = (I >> 1) - 1 < E ? (I >> 1) - E : E, e.isubn(T)) : T = 0, + g[i] = T, + e.iushrn(1) + } + return g + }, + g.getJSF = function (A, M) { + var t = [[], []]; + A = A.clone(), + M = M.clone(); + for (var g = 0, I = 0; 0 < A.cmpn(-g) || 0 < M.cmpn(-I); ) { + var e, + i, + T = A.andln(3) + g & 3, + E = M.andln(3) + I & 3; + 3 === T && (T = -1), + 3 === E && (E = -1), + e = 0 == (1 & T) ? 0 : 3 !== (i = A.andln(7) + g & 7) && 5 !== i || 2 !== E ? T : -T, + t[0].push(e), + E = 0 == (1 & E) ? 0 : 3 !== (i = M.andln(7) + I & 7) && 5 !== i || 2 !== T ? E : -E, + t[1].push(E), + 2 * g === e + 1 && (g = 1 - g), + 2 * I === E + 1 && (I = 1 - I), + A.iushrn(1), + M.iushrn(1) + } + return t + }, + g.cachedProperty = function (A, M, t) { + var g = "_" + M; + A.prototype[M] = function () { + return void 0 !== this[g] ? this[g] : this[g] = t.call(this) + } + }, + g.parseBytes = function (A) { + return "string" == typeof A ? g.toArray(A, "hex") : A + }, + g.intFromLE = function (A) { + return new I(A, "hex", "le") + } + }, function (A, M, t) { + "use strict"; + var g = function () { + function A() { + this.mimeType = null, + this.duration = null, + this.hasAudio = null, + this.hasVideo = null, + this.audioCodec = null, + this.videoCodec = null, + this.audioDataRate = null, + this.videoDataRate = null, + this.audioSampleRate = null, + this.audioChannelCount = null, + this.width = null, + this.height = null, + this.fps = null, + this.profile = null, + this.level = null, + this.refFrames = null, + this.chromaFormat = null, + this.sarNum = null, + this.sarDen = null, + this.metadata = null, + this.segments = null, + this.segmentCount = null, + this.hasKeyframesIndex = null, + this.keyframesIndex = null + } + var M = A.prototype; + return M.isComplete = function () { + var A = !1 === this.hasAudio || !0 === this.hasAudio && null != this.audioCodec && null != this.audioSampleRate && null != this.audioChannelCount, + M = !1 === this.hasVideo || !0 === this.hasVideo && null != this.videoCodec && null != this.width && null != this.height && null != this.fps && null != this.profile && null != this.level && null != this.refFrames && null != this.chromaFormat && null != this.sarNum && null != this.sarDen; + return null != this.mimeType && null != this.duration && null != this.metadata && null != this.hasKeyframesIndex && A && M + }, + M.isSeekable = function () { + return !0 === this.hasKeyframesIndex + }, + M.getNearestKeyframe = function (A) { + if (null == this.keyframesIndex) + return null; + var M = this.keyframesIndex, + A = this._search(M.times, A); + return { + index: A, + milliseconds: M.times[A], + fileposition: M.filepositions[A] + } + }, + M._search = function (A, M) { + var t, + g = 0, + I = A.length - 1, + e = 0, + i = I; + for (M < A[0] && (g = 0, e = i + 1); e <= i; ) { + if ((t = e + Math.floor((i - e) / 2)) === I || M >= A[t] && M < A[t + 1]) { + g = t; + break + } + A[t] < M ? e = t + 1 : i = t - 1 + } + return g + }, + A + } + (); + M.a = g + }, function (A, M, t) { + "use strict"; + var E = t(11), + t = t(3); + function e(A) { + return (A >>> 24 | A >>> 8 & 65280 | A << 8 & 16711680 | (255 & A) << 24) >>> 0 + } + function g(A) { + return 1 === A.length ? "0" + A : A + } + function i(A) { + return 7 === A.length ? "0" + A : 6 === A.length ? "00" + A : 5 === A.length ? "000" + A : 4 === A.length ? "0000" + A : 3 === A.length ? "00000" + A : 2 === A.length ? "000000" + A : 1 === A.length ? "0000000" + A : A + } + M.inherits = t, + M.toArray = function (A, M) { + if (Array.isArray(A)) + return A.slice(); + if (!A) + return []; + var t, + g, + I = []; + if ("string" == typeof A) + if (M) { + if ("hex" === M) + for ((A = A.replace(/[^a-z0-9]+/gi, "")).length % 2 != 0 && (A = "0" + A), i = 0; i < A.length; i += 2) + I.push(parseInt(A[i] + A[i + 1], 16)) + } else + for (var e = 0, i = 0; i < A.length; i++) { + var T = A.charCodeAt(i); + T < 128 ? I[e++] = T : T < 2048 ? (I[e++] = T >> 6 | 192, I[e++] = 63 & T | 128) : (g = i, 55296 != (64512 & (t = A).charCodeAt(g)) || g < 0 || g + 1 >= t.length || 56320 != (64512 & t.charCodeAt(g + 1)) ? I[e++] = T >> 12 | 224 : (T = 65536 + ((1023 & T) << 10) + (1023 & A.charCodeAt(++i)), I[e++] = T >> 18 | 240, I[e++] = T >> 12 & 63 | 128), I[e++] = T >> 6 & 63 | 128, I[e++] = 63 & T | 128) + } + else + for (i = 0; i < A.length; i++) + I[i] = 0 | A[i]; + return I + }, + M.toHex = function (A) { + for (var M = "", t = 0; t < A.length; t++) + M += g(A[t].toString(16)); + return M + }, + M.htonl = e, + M.toHex32 = function (A, M) { + for (var t = "", g = 0; g < A.length; g++) { + var I = A[g]; + "little" === M && (I = e(I)), + t += i(I.toString(16)) + } + return t + }, + M.zero2 = g, + M.zero8 = i, + M.join32 = function (A, M, t, g) { + E((t -= M) % 4 == 0); + for (var I = new Array(t / 4), e = 0, i = M; e < I.length; e++, i += 4) { + var T = "big" === g ? A[i] << 24 | A[i + 1] << 16 | A[i + 2] << 8 | A[i + 3] : A[i + 3] << 24 | A[i + 2] << 16 | A[i + 1] << 8 | A[i]; + I[e] = T >>> 0 + } + return I + }, + M.split32 = function (A, M) { + for (var t = new Array(4 * A.length), g = 0, I = 0; g < A.length; g++, I += 4) { + var e = A[g]; + "big" === M ? (t[I] = e >>> 24, t[I + 1] = e >>> 16 & 255, t[I + 2] = e >>> 8 & 255, t[I + 3] = 255 & e) : (t[I + 3] = e >>> 24, t[I + 2] = e >>> 16 & 255, t[I + 1] = e >>> 8 & 255, t[I] = 255 & e) + } + return t + }, + M.rotr32 = function (A, M) { + return A >>> M | A << 32 - M + }, + M.rotl32 = function (A, M) { + return A << M | A >>> 32 - M + }, + M.sum32 = function (A, M) { + return A + M >>> 0 + }, + M.sum32_3 = function (A, M, t) { + return A + M + t >>> 0 + }, + M.sum32_4 = function (A, M, t, g) { + return A + M + t + g >>> 0 + }, + M.sum32_5 = function (A, M, t, g, I) { + return A + M + t + g + I >>> 0 + }, + M.sum64 = function (A, M, t, g) { + var I = A[M], + e = g + A[M + 1] >>> 0, + I = (e < g ? 1 : 0) + t + I; + A[M] = I >>> 0, + A[M + 1] = e + }, + M.sum64_hi = function (A, M, t, g) { + return (M + g >>> 0 < M ? 1 : 0) + A + t >>> 0 + }, + M.sum64_lo = function (A, M, t, g) { + return M + g >>> 0 + }, + M.sum64_4_hi = function (A, M, t, g, I, e, i, T) { + var E = 0, + N = M; + return E += (N = N + g >>> 0) < M ? 1 : 0, + E += (N = N + e >>> 0) < e ? 1 : 0, + A + t + I + i + (E += (N = N + T >>> 0) < T ? 1 : 0) >>> 0 + }, + M.sum64_4_lo = function (A, M, t, g, I, e, i, T) { + return M + g + e + T >>> 0 + }, + M.sum64_5_hi = function (A, M, t, g, I, e, i, T, E, N) { + var n = 0, + D = M; + return n += (D = D + g >>> 0) < M ? 1 : 0, + n += (D = D + e >>> 0) < e ? 1 : 0, + n += (D = D + T >>> 0) < T ? 1 : 0, + A + t + I + i + E + (n += (D = D + N >>> 0) < N ? 1 : 0) >>> 0 + }, + M.sum64_5_lo = function (A, M, t, g, I, e, i, T, E, N) { + return M + g + e + T + N >>> 0 + }, + M.rotr64_hi = function (A, M, t) { + return (M << 32 - t | A >>> t) >>> 0 + }, + M.rotr64_lo = function (A, M, t) { + return (A << 32 - t | M >>> t) >>> 0 + }, + M.shr64_hi = function (A, M, t) { + return A >>> t + }, + M.shr64_lo = function (A, M, t) { + return (A << 32 - t | M >>> t) >>> 0 + } + }, function (A, M, t) { + var g = t(4).Buffer, + I = t(135).Transform, + e = t(24).StringDecoder; + function i(A) { + I.call(this), + this.hashMode = "string" == typeof A, + this.hashMode ? this[A] = this._finalOrDigest : this.final = this._finalOrDigest, + this._final && (this.__final = this._final, this._final = null), + this._decoder = null, + this._encoding = null + } + t(3)(i, I), + i.prototype.update = function (A, M, t) { + "string" == typeof A && (A = g.from(A, M)); + A = this._update(A); + return this.hashMode ? this : (t && (A = this._toString(A, t)), A) + }, + i.prototype.setAutoPadding = function () {}, + i.prototype.getAuthTag = function () { + throw new Error("trying to get auth tag in unsupported state") + }, + i.prototype.setAuthTag = function () { + throw new Error("trying to set auth tag in unsupported state") + }, + i.prototype.setAAD = function () { + throw new Error("trying to set aad in unsupported state") + }, + i.prototype._transform = function (A, M, t) { + var g; + try { + this.hashMode ? this._update(A) : this.push(this._update(A)) + } catch (A) { + g = A + } + finally { + t(g) + } + }, + i.prototype._flush = function (A) { + var M; + try { + this.push(this.__final()) + } catch (A) { + M = A + } + A(M) + }, + i.prototype._finalOrDigest = function (A) { + var M = this.__final() || g.alloc(0); + return A && (M = this._toString(M, A, !0)), + M + }, + i.prototype._toString = function (A, M, t) { + if (this._decoder || (this._decoder = new e(M), this._encoding = M), this._encoding !== M) + throw new Error("can't switch encodings"); + A = this._decoder.write(A); + return t && (A += this._decoder.end()), + A + }, + A.exports = i + }, function (A, M, t) { + "use strict"; + var g = t(31), + I = Object.keys || function (A) { + var M, + t = []; + for (M in A) + t.push(M); + return t + }; + A.exports = n; + A = Object.create(t(25)); + A.inherits = t(3); + var e = t(73), + i = t(43); + A.inherits(n, e); + for (var T = I(i.prototype), E = 0; E < T.length; E++) { + var N = T[E]; + n.prototype[N] || (n.prototype[N] = i.prototype[N]) + } + function n(A) { + if (!(this instanceof n)) + return new n(A); + e.call(this, A), + i.call(this, A), + A && !1 === A.readable && (this.readable = !1), + A && !1 === A.writable && (this.writable = !1), + this.allowHalfOpen = !0, + A && !1 === A.allowHalfOpen && (this.allowHalfOpen = !1), + this.once("end", D) + } + function D() { + this.allowHalfOpen || this._writableState.ended || g.nextTick(C, this) + } + function C(A) { + A.end() + } + Object.defineProperty(n.prototype, "writableHighWaterMark", { + enumerable: !1, + get: function () { + return this._writableState.highWaterMark + } + }), + Object.defineProperty(n.prototype, "destroyed", { + get: function () { + return void 0 !== this._readableState && void 0 !== this._writableState && (this._readableState.destroyed && this._writableState.destroyed) + }, + set: function (A) { + void 0 !== this._readableState && void 0 !== this._writableState && (this._readableState.destroyed = A, this._writableState.destroyed = A) + } + }), + n.prototype._destroy = function (A, M) { + this.push(null), + this.end(), + g.nextTick(M, A) + } + }, function (A, M, D) { + function e(t) { + var g = {}; + function I(A) { + if (g[A]) + return g[A].exports; + var M = g[A] = { + i: A, + l: !1, + exports: {} + }; + return t[A].call(M.exports, M, M.exports, I), + M.l = !0, + M.exports + } + I.m = t, + I.c = g, + I.i = function (A) { + return A + }, + I.d = function (A, M, t) { + I.o(A, M) || Object.defineProperty(A, M, { + configurable: !1, + enumerable: !0, + get: t + }) + }, + I.r = function (A) { + Object.defineProperty(A, "__esModule", { + value: !0 + }) + }, + I.n = function (A) { + var M = A && A.__esModule ? function () { + return A.default + } + : function () { + return A + }; + return I.d(M, "a", M), + M + }, + I.o = function (A, M) { + return Object.prototype.hasOwnProperty.call(A, M) + }, + I.p = "/", + I.oe = function (A) { + throw A + }; + var A = I(I.s = ENTRY_MODULE); + return A.default || A + } + var C = "[\\.|\\-|\\+|\\w|/|@]+", + r = "\\(\\s*(/\\*.*?\\*/)?\\s*.*?(" + C + ").*?\\)"; + function c(A) { + return (A + "").replace(/[.?*+^$[\]\\(){}|-]/g, "\\$&") + } + function o(A, M, t) { + var g = {}; + g[t] = []; + var I = M.toString(), + M = I.match(/^function\s?\w*\(\w+,\s*\w+,\s*(\w+)\)/); + if (!M) + return g; + for (var e, M = M[1], i = new RegExp("(\\\\n|\\W)" + c(M) + r, "g"); e = i.exec(I); ) + "dll-reference" !== e[3] && g[t].push(e[3]); + for (i = new RegExp("\\(" + c(M) + '\\("(dll-reference\\s(' + C + '))"\\)\\)' + r, "g"); e = i.exec(I); ) + A[e[2]] || (g[t].push(e[1]), A[e[2]] = D(e[1]).m), g[e[2]] = g[e[2]] || [], g[e[2]].push(e[4]); + for (var T, E = Object.keys(g), N = 0; N < E.length; N++) + for (var n = 0; n < g[E[N]].length; n++) + T = g[E[N]][n], isNaN(+T) || (g[E[N]][n] = +g[E[N]][n]); + return g + } + function i(A, M) { + for (var t = { + main: [M] + }, g = { + main: [] + }, I = { + main: {} + }; function (t) { + return Object.keys(t).reduce(function (A, M) { + return A || 0 < t[M].length + }, !1) + } + (t); ) + for (var e = Object.keys(t), i = 0; i < e.length; i++) { + var T = e[i], + E = t[T].pop(); + if (I[T] = I[T] || {}, !I[T][E] && A[T][E]) { + I[T][E] = !0, + g[T] = g[T] || [], + g[T].push(E); + for (var N = o(A, A[T][E], T), n = Object.keys(N), D = 0; D < n.length; D++) + t[n[D]] = t[n[D]] || [], t[n[D]] = t[n[D]].concat(N[n[D]]) + } + } + return g + } + A.exports = function (A, M) { + M = M || {}; + var t = { + main: D.m + }, + g = M.all ? { + main: Object.keys(t.main) + } + : i(t, A), + I = ""; + Object.keys(g).filter(function (A) { + return "main" !== A + }).forEach(function (M) { + for (var A = 0; g[M][A]; ) + A++; + g[M].push(A), + t[M][A] = "(function(module, exports, __webpack_require__) { module.exports = __webpack_require__; })", + I = I + "var " + M + " = (" + e.toString().replace("ENTRY_MODULE", JSON.stringify(A)) + ")({" + g[M].map(function (A) { + return JSON.stringify(A) + ": " + t[M][A].toString() + }).join(",") + "});\n" + }), + I = I + "new ((" + e.toString().replace("ENTRY_MODULE", JSON.stringify(A)) + ")({" + g.main.map(function (A) { + return JSON.stringify(A) + ": " + t.main[A].toString() + }).join(",") + "}))(self);"; + A = new window.Blob([I], { + type: "text/javascript" + }); + if (M.bare) + return A; + M = (window.URL || window.webkitURL || window.mozURL || window.msURL).createObjectURL(A), + A = new window.Worker(M); + return A.objectURL = M, + A + } + }, function (M, A, t) { + "use strict"; + (function (A, I) { + var e = t(4).Buffer, + i = A.crypto || A.msCrypto; + i && i.getRandomValues ? M.exports = function (A, M) { + if (4294967295 < A) + throw new RangeError("requested too many random bytes"); + var t = e.allocUnsafe(A); + if (0 < A) + if (65536 < A) + for (var g = 0; g < A; g += 65536) + i.getRandomValues(t.slice(g, g + 65536)); + else + i.getRandomValues(t); + return "function" != typeof M ? t : I.nextTick(function () { + M(null, t) + }) + } + : M.exports = function () { + throw new Error("Secure random number generation is not supported by this browser.\nUse Chrome, Firefox or Internet Explorer 11") + } + }).call(this, t(10), t(8)) + }, function (A, M, t) { + "use strict"; + var g = {}; + function I(A, I, M) { + var t = function (g) { + var A, + M; + function t(A, M, t) { + return g.call(this, (A = A, M = M, t = t, "string" == typeof I ? I : I(A, M, t))) || this + } + return M = g, + (A = t).prototype = Object.create(M.prototype), + (A.prototype.constructor = A).__proto__ = M, + t + } + (M = M || Error); + t.prototype.name = M.name, + t.prototype.code = A, + g[A] = t + } + function E(A, M) { + if (Array.isArray(A)) { + var t = A.length; + return A = A.map(function (A) { + return String(A) + }), + 2 < t ? "one of ".concat(M, " ").concat(A.slice(0, t - 1).join(", "), ", or ") + A[t - 1] : 2 === t ? "one of ".concat(M, " ").concat(A[0], " or ").concat(A[1]) : "of ".concat(M, " ").concat(A[0]) + } + return "of ".concat(M, " ").concat(String(A)) + } + I("ERR_INVALID_OPT_VALUE", function (A, M) { + return 'The value "' + M + '" is invalid for option "' + A + '"' + }, TypeError), + I("ERR_INVALID_ARG_TYPE", function (A, M, t) { + var g, + I, + e, + i, + T; + return "string" == typeof M && (i = "not ", M.substr(!e || e < 0 ? 0 : +e, i.length) === i) ? (g = "must not be", M = M.replace(/^not /, "")) : g = "must be", + e = A, + i = " argument", + (void 0 === T || T > e.length) && (T = e.length), + M = e.substring(T - i.length, T) === i ? "The ".concat(A, " ").concat(g, " ").concat(E(M, "type")) : ("number" != typeof I && (I = 0), I = (I + (T = ".").length > (i = A).length ? void 0 : -1 !== i.indexOf(T, I)) ? "property" : "argument", 'The "'.concat(A, '" ').concat(I, " ").concat(g, " ").concat(E(M, "type"))), + M += ". Received type ".concat(typeof t) + }, TypeError), + I("ERR_STREAM_PUSH_AFTER_EOF", "stream.push() after EOF"), + I("ERR_METHOD_NOT_IMPLEMENTED", function (A) { + return "The " + A + " method is not implemented" + }), + I("ERR_STREAM_PREMATURE_CLOSE", "Premature close"), + I("ERR_STREAM_DESTROYED", function (A) { + return "Cannot call " + A + " after a stream was destroyed" + }), + I("ERR_MULTIPLE_CALLBACK", "Callback called multiple times"), + I("ERR_STREAM_CANNOT_PIPE", "Cannot pipe, not readable"), + I("ERR_STREAM_WRITE_AFTER_END", "write after end"), + I("ERR_STREAM_NULL_VALUES", "May not write null values to stream", TypeError), + I("ERR_UNKNOWN_ENCODING", function (A) { + return "Unknown encoding: " + A + }, TypeError), + I("ERR_STREAM_UNSHIFT_AFTER_END_EVENT", "stream.unshift() after end event"), + A.exports.codes = g + }, function (n, A, D) { + "use strict"; + (function (A) { + var M = Object.keys || function (A) { + var M, + t = []; + for (M in A) + t.push(M); + return t + }; + n.exports = T; + var t = D(64), + g = D(68); + D(3)(T, t); + for (var I = M(g.prototype), e = 0; e < I.length; e++) { + var i = I[e]; + T.prototype[i] || (T.prototype[i] = g.prototype[i]) + } + function T(A) { + if (!(this instanceof T)) + return new T(A); + t.call(this, A), + g.call(this, A), + this.allowHalfOpen = !0, + A && (!1 === A.readable && (this.readable = !1), !1 === A.writable && (this.writable = !1), !1 === A.allowHalfOpen && (this.allowHalfOpen = !1, this.once("end", E))) + } + function E() { + this._writableState.ended || A.nextTick(N, this) + } + function N(A) { + A.end() + } + Object.defineProperty(T.prototype, "writableHighWaterMark", { + enumerable: !1, + get: function () { + return this._writableState.highWaterMark + } + }), + Object.defineProperty(T.prototype, "writableBuffer", { + enumerable: !1, + get: function () { + return this._writableState && this._writableState.getBuffer() + } + }), + Object.defineProperty(T.prototype, "writableLength", { + enumerable: !1, + get: function () { + return this._writableState.length + } + }), + Object.defineProperty(T.prototype, "destroyed", { + enumerable: !1, + get: function () { + return void 0 !== this._readableState && void 0 !== this._writableState && (this._readableState.destroyed && this._writableState.destroyed) + }, + set: function (A) { + void 0 !== this._readableState && void 0 !== this._writableState && (this._readableState.destroyed = A, this._writableState.destroyed = A) + } + }) + }).call(this, D(8)) + }, function (A, M, t) { + var n = t(4).Buffer; + function g(A, M) { + this._block = n.alloc(A), + this._finalSize = M, + this._blockSize = A, + this._len = 0 + } + g.prototype.update = function (A, M) { + "string" == typeof A && (M = M || "utf8", A = n.from(A, M)); + for (var t = this._block, g = this._blockSize, I = A.length, e = this._len, i = 0; i < I; ) { + for (var T = e % g, E = Math.min(I - i, g - T), N = 0; N < E; N++) + t[T + N] = A[i + N]; + i += E, + (e += E) % g == 0 && this._update(t) + } + return this._len += I, + this + }, + g.prototype.digest = function (A) { + var M = this._len % this._blockSize; + this._block[M] = 128, + this._block.fill(0, 1 + M), + M >= this._finalSize && (this._update(this._block), this._block.fill(0)); + M = 8 * this._len; + M <= 4294967295 ? this._block.writeUInt32BE(M, this._blockSize - 4) : (M = (M - (t = (4294967295 & M) >>> 0)) / 4294967296, this._block.writeUInt32BE(M, this._blockSize - 8), this._block.writeUInt32BE(t, this._blockSize - 4)), + this._update(this._block); + var t = this._hash(); + return A ? t.toString(A) : t + }, + g.prototype._update = function () { + throw new Error("_update must be implemented by subclass") + }, + A.exports = g + }, function (A, M, t) { + "use strict"; + /*! @name @videojs/vhs-utils @version 1.3.0 @license MIT */ + var g = function () { + function A() { + this.listeners = {} + } + var M = A.prototype; + return M.on = function (A, M) { + this.listeners[A] || (this.listeners[A] = []), + this.listeners[A].push(M) + }, + M.off = function (A, M) { + if (!this.listeners[A]) + return !1; + M = this.listeners[A].indexOf(M); + return this.listeners[A] = this.listeners[A].slice(0), + this.listeners[A].splice(M, 1), + -1 < M + }, + M.trigger = function (A) { + var M = this.listeners[A]; + if (M) + if (2 === arguments.length) + for (var t = M.length, g = 0; g < t; ++g) + M[g].call(this, arguments[1]); + else + for (var I = Array.prototype.slice.call(arguments, 1), e = M.length, i = 0; i < e; ++i) + M[i].apply(this, I) + }, + M.dispose = function () { + this.listeners = {} + }, + M.pipe = function (M) { + this.on("data", function (A) { + M.push(A) + }) + }, + A + } + (); + A.exports = g + }, function (A, M, t) { + "use strict"; + var g = t(3), + I = t(37), + e = t(39), + i = t(40), + T = t(15); + function E(A) { + T.call(this, "digest"), + this._hash = A + } + g(E, T), + E.prototype._update = function (A) { + this._hash.update(A) + }, + E.prototype._final = function () { + return this._hash.digest() + }, + A.exports = function (A) { + return "md5" === (A = A.toLowerCase()) ? new I : "rmd160" === A || "ripemd160" === A ? new e : new E(i(A)) + } + }, function (A, M, t) { + "use strict"; + var g = t(4).Buffer, + I = g.isEncoding || function (A) { + switch ((A = "" + A) && A.toLowerCase()) { + case "hex": + case "utf8": + case "utf-8": + case "ascii": + case "binary": + case "base64": + case "ucs2": + case "ucs-2": + case "utf16le": + case "utf-16le": + case "raw": + return !0; + default: + return !1 + } + }; + function e(A) { + var M = function (A) { + if (!A) + return "utf8"; + for (var M; ; ) + switch (A) { + case "utf8": + case "utf-8": + return "utf8"; + case "ucs2": + case "ucs-2": + case "utf16le": + case "utf-16le": + return "utf16le"; + case "latin1": + case "binary": + return "latin1"; + case "base64": + case "ascii": + case "hex": + return A; + default: + if (M) + return; + A = ("" + A).toLowerCase(), + M = !0 + } + } + (A); + if ("string" != typeof M && (g.isEncoding === I || !I(A))) + throw new Error("Unknown encoding: " + A); + return M || A + } + function i(A) { + var M; + switch (this.encoding = e(A), this.encoding) { + case "utf16le": + this.text = N, + this.end = n, + M = 4; + break; + case "utf8": + this.fillLast = E, + M = 4; + break; + case "base64": + this.text = D, + this.end = C, + M = 3; + break; + default: + return this.write = r, + void(this.end = c) + } + this.lastNeed = 0, + this.lastTotal = 0, + this.lastChar = g.allocUnsafe(M) + } + function T(A) { + return A <= 127 ? 0 : A >> 5 == 6 ? 2 : A >> 4 == 14 ? 3 : A >> 3 == 30 ? 4 : A >> 6 == 2 ? -1 : -2 + } + function E(A) { + var M, + t, + g = this.lastTotal - this.lastNeed, + M = (M = this, 128 != (192 & (t = A)[0]) ? (M.lastNeed = 0, "�") : 1 < M.lastNeed && 1 < t.length ? 128 != (192 & t[1]) ? (M.lastNeed = 1, "�") : 2 < M.lastNeed && 2 < t.length && 128 != (192 & t[2]) ? (M.lastNeed = 2, "�") : void 0 : void 0); + return void 0 !== M ? M : this.lastNeed <= A.length ? (A.copy(this.lastChar, g, 0, this.lastNeed), this.lastChar.toString(this.encoding, 0, this.lastTotal)) : (A.copy(this.lastChar, g, 0, A.length), void(this.lastNeed -= A.length)) + } + function N(A, M) { + if ((A.length - M) % 2 != 0) + return this.lastNeed = 1, this.lastTotal = 2, this.lastChar[0] = A[A.length - 1], A.toString("utf16le", M, A.length - 1); + var t = A.toString("utf16le", M); + if (t) { + M = t.charCodeAt(t.length - 1); + if (55296 <= M && M <= 56319) + return this.lastNeed = 2, this.lastTotal = 4, this.lastChar[0] = A[A.length - 2], this.lastChar[1] = A[A.length - 1], t.slice(0, -1) + } + return t + } + function n(A) { + var M = A && A.length ? this.write(A) : ""; + if (this.lastNeed) { + A = this.lastTotal - this.lastNeed; + return M + this.lastChar.toString("utf16le", 0, A) + } + return M + } + function D(A, M) { + var t = (A.length - M) % 3; + return 0 == t ? A.toString("base64", M) : (this.lastNeed = 3 - t, this.lastTotal = 3, 1 == t ? this.lastChar[0] = A[A.length - 1] : (this.lastChar[0] = A[A.length - 2], this.lastChar[1] = A[A.length - 1]), A.toString("base64", M, A.length - t)) + } + function C(A) { + A = A && A.length ? this.write(A) : ""; + return this.lastNeed ? A + this.lastChar.toString("base64", 0, 3 - this.lastNeed) : A + } + function r(A) { + return A.toString(this.encoding) + } + function c(A) { + return A && A.length ? this.write(A) : "" + } + (M.StringDecoder = i).prototype.write = function (A) { + if (0 === A.length) + return ""; + var M, + t; + if (this.lastNeed) { + if (void 0 === (M = this.fillLast(A))) + return ""; + t = this.lastNeed, + this.lastNeed = 0 + } else + t = 0; + return t < A.length ? M ? M + this.text(A, t) : this.text(A, t) : M || "" + }, + i.prototype.end = function (A) { + A = A && A.length ? this.write(A) : ""; + return this.lastNeed ? A + "�" : A + }, + i.prototype.text = function (A, M) { + var t = function (A, M, t) { + var g = M.length - 1; + if (g < t) + return 0; + var I = T(M[g]); + if (0 <= I) + return 0 < I && (A.lastNeed = I - 1), I; + if (--g < t || -2 === I) + return 0; + if (0 <= (I = T(M[g]))) + return 0 < I && (A.lastNeed = I - 2), I; + if (--g < t || -2 === I) + return 0; + if (0 <= (I = T(M[g]))) + return 0 < I && (2 === I ? I = 0 : A.lastNeed = I - 3), I; + return 0 + } + (this, A, M); + if (!this.lastNeed) + return A.toString("utf8", M); + this.lastTotal = t; + t = A.length - (t - this.lastNeed); + return A.copy(this.lastChar, 0, t), + A.toString("utf8", M, t) + }, + i.prototype.fillLast = function (A) { + if (this.lastNeed <= A.length) + return A.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, this.lastNeed), this.lastChar.toString(this.encoding, 0, this.lastTotal); + A.copy(this.lastChar, this.lastTotal - this.lastNeed, 0, A.length), + this.lastNeed -= A.length + } + }, function (A, t, M) { + (function (A) { + function M(A) { + return Object.prototype.toString.call(A) + } + t.isArray = function (A) { + return Array.isArray ? Array.isArray(A) : "[object Array]" === M(A) + }, + t.isBoolean = function (A) { + return "boolean" == typeof A + }, + t.isNull = function (A) { + return null === A + }, + t.isNullOrUndefined = function (A) { + return null == A + }, + t.isNumber = function (A) { + return "number" == typeof A + }, + t.isString = function (A) { + return "string" == typeof A + }, + t.isSymbol = function (A) { + return "symbol" == typeof A + }, + t.isUndefined = function (A) { + return void 0 === A + }, + t.isRegExp = function (A) { + return "[object RegExp]" === M(A) + }, + t.isObject = function (A) { + return "object" == typeof A && null !== A + }, + t.isDate = function (A) { + return "[object Date]" === M(A) + }, + t.isError = function (A) { + return "[object Error]" === M(A) || A instanceof Error + }, + t.isFunction = function (A) { + return "function" == typeof A + }, + t.isPrimitive = function (A) { + return null === A || "boolean" == typeof A || "number" == typeof A || "string" == typeof A || "symbol" == typeof A || void 0 === A + }, + t.isBuffer = A.isBuffer + }).call(this, M(9).Buffer) + }, function (A, M, t) { + (function (e) { + A.exports = function (A, M) { + for (var t = Math.min(A.length, M.length), g = new e(t), I = 0; I < t; ++I) + g[I] = A[I] ^ M[I]; + return g + } + }).call(this, t(9).Buffer) + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(11); + function e() { + this.pending = null, + this.pendingTotal = 0, + this.blockSize = this.constructor.blockSize, + this.outSize = this.constructor.outSize, + this.hmacStrength = this.constructor.hmacStrength, + this.padLength = this.constructor.padLength / 8, + this.endian = "big", + this._delta8 = this.blockSize / 8, + this._delta32 = this.blockSize / 32 + } + (M.BlockHash = e).prototype.update = function (A, M) { + if (A = g.toArray(A, M), this.pending ? this.pending = this.pending.concat(A) : this.pending = A, this.pendingTotal += A.length, this.pending.length >= this._delta8) { + M = (A = this.pending).length % this._delta8; + this.pending = A.slice(A.length - M, A.length), + 0 === this.pending.length && (this.pending = null), + A = g.join32(A, 0, A.length - M, this.endian); + for (var t = 0; t < A.length; t += this._delta32) + this._update(A, t, t + this._delta32) + } + return this + }, + e.prototype.digest = function (A) { + return this.update(this._pad()), + I(null === this.pending), + this._digest(A) + }, + e.prototype._pad = function () { + var A = this.pendingTotal, + M = this._delta8, + t = M - (A + this.padLength) % M, + g = new Array(t + this.padLength); + g[0] = 128; + for (var I = 1; I < t; I++) + g[I] = 0; + if (A <<= 3, "big" === this.endian) { + for (var e = 8; e < this.padLength; e++) + g[I++] = 0; + g[I++] = 0, + g[I++] = 0, + g[I++] = 0, + g[I++] = 0, + g[I++] = A >>> 24 & 255, + g[I++] = A >>> 16 & 255, + g[I++] = A >>> 8 & 255, + g[I++] = 255 & A + } else + for (g[I++] = 255 & A, g[I++] = A >>> 8 & 255, g[I++] = A >>> 16 & 255, g[I++] = A >>> 24 & 255, g[I++] = 0, g[I++] = 0, g[I++] = 0, g[I++] = 0, e = 8; e < this.padLength; e++) + g[I++] = 0; + return g + } + }, function (A, M, t) { + "use strict"; + var g = t(3), + I = t(55).Reporter, + e = t(53).Buffer; + function i(A, M) { + I.call(this, M), + e.isBuffer(A) ? (this.base = A, this.offset = 0, this.length = A.length) : this.error("Input not Buffer") + } + function T(A, M) { + if (Array.isArray(A)) + this.length = 0, this.value = A.map(function (A) { + return T.isEncoderBuffer(A) || (A = new T(A, M)), + this.length += A.length, + A + }, this); + else if ("number" == typeof A) { + if (!(0 <= A && A <= 255)) + return M.error("non-byte EncoderBuffer value"); + this.value = A, + this.length = 1 + } else if ("string" == typeof A) + this.value = A, this.length = e.byteLength(A); + else { + if (!e.isBuffer(A)) + return M.error("Unsupported type: " + typeof A); + this.value = A, + this.length = A.length + } + } + g(i, I), + (M.DecoderBuffer = i).isDecoderBuffer = function (A) { + return A instanceof i || "object" == typeof A && e.isBuffer(A.base) && "DecoderBuffer" === A.constructor.name && "number" == typeof A.offset && "number" == typeof A.length && "function" == typeof A.save && "function" == typeof A.restore && "function" == typeof A.isEmpty && "function" == typeof A.readUInt8 && "function" == typeof A.skip && "function" == typeof A.raw + }, + i.prototype.save = function () { + return { + offset: this.offset, + reporter: I.prototype.save.call(this) + } + }, + i.prototype.restore = function (A) { + var M = new i(this.base); + return M.offset = A.offset, + M.length = this.offset, + this.offset = A.offset, + I.prototype.restore.call(this, A.reporter), + M + }, + i.prototype.isEmpty = function () { + return this.offset === this.length + }, + i.prototype.readUInt8 = function (A) { + return this.offset + 1 <= this.length ? this.base.readUInt8(this.offset++, !0) : this.error(A || "DecoderBuffer overrun") + }, + i.prototype.skip = function (A, M) { + if (!(this.offset + A <= this.length)) + return this.error(M || "DecoderBuffer overrun"); + M = new i(this.base); + return M._reporterState = this._reporterState, + M.offset = this.offset, + M.length = this.offset + A, + this.offset += A, + M + }, + i.prototype.raw = function (A) { + return this.base.slice((A || this).offset, this.length) + }, + (M.EncoderBuffer = T).isEncoderBuffer = function (A) { + return A instanceof T || "object" == typeof A && "EncoderBuffer" === A.constructor.name && "number" == typeof A.length && "function" == typeof A.join + }, + T.prototype.join = function (M, t) { + return M = M || e.alloc(this.length), + t = t || 0, + 0 === this.length || (Array.isArray(this.value) ? this.value.forEach(function (A) { + A.join(M, t), + t += A.length + }) : ("number" == typeof this.value ? M[t] = this.value : "string" == typeof this.value ? M.write(this.value, t) : e.isBuffer(this.value) && this.value.copy(M, t), t += this.length)), + M + } + }, function (A, M, t) { + "use strict"; + var g = function () { + function A() { + this.stopFlag = !1, + this.bufferSourcePtr = null + } + var M = A.prototype; + return M.destroy = function () { + this.interval && clearInterval(this.interval), + this.samples = null, + this.audioCtx.close(), + this.audioCtx = null + }, + M.init = function (A) { + this.option = Object.assign({}, { + encoding: "16bitInt", + channels: 1, + sampleRate: 8e3, + flushingTime: 1e3 + }, A), + this.samples = new Float32Array, + this.flush = this.flush.bind(this), + this.interval = setInterval(this.flush, this.option.flushingTime), + this.maxValue = this.getMaxValue(), + this.typedArray = this.getTypedArray(), + this.createContext() + }, + M.getMaxValue = function () { + var A = { + "8bitInt": 128, + "16bitInt": 32768, + "32bitInt": 2147483648, + "32bitFloat": 1 + }; + return A[this.option.encoding] || A["16bitInt"] + }, + M.getTypedArray = function () { + var A = { + "8bitInt": Int8Array, + "16bitInt": Int16Array, + "32bitInt": Int32Array, + "32bitFloat": Float32Array + }; + return A[this.option.encoding] || A["16bitInt"] + }, + M.createContext = function () { + this.audioCtx = new(window.AudioContext || window.webkitAudioContext), + this.gainNode = this.audioCtx.createGain(), + this.gainNode.gain.value = 1, + this.gainNode.connect(this.audioCtx.destination), + this.startTime = this.audioCtx.currentTime + }, + M.isTypedArray = function (A) { + return A.byteLength && A.buffer && A.buffer.constructor == ArrayBuffer + }, + M.feed = function (A) { + var M; + this.isTypedArray(A) && (A = this.getFormatedValue(A), (M = new Float32Array(this.samples.length + A.length)).set(this.samples, 0), M.set(A, this.samples.length), this.samples = M) + }, + M.getFormatedValue = function (A) { + for (var A = new this.typedArray(A.buffer), M = new Float32Array(A.length), t = 0; t < A.length; t++) + M[t] = A[t] / this.maxValue; + return M + }, + M.volume = function (A) { + this.gainNode.gain.value = A + }, + M.flush = function () { + if (null != this.samples && this.samples.length) { + for (var A, M, t, g, I = this.audioCtx.createBufferSource(), e = this.samples.length / this.option.channels, i = this.audioCtx.createBuffer(this.option.channels, e, this.option.sampleRate), T = 0; T < this.option.channels; T++) + for (A = i.getChannelData(T), M = T, g = 50, t = 0; t < e; t++) + A[t] = this.samples[M], t < 50 && (A[t] = A[t] * t / 50), e - 51 <= t && (A[t] = A[t] * g-- / 50), M += this.option.channels; + this.startTime < this.audioCtx.currentTime && (this.startTime = this.audioCtx.currentTime), + I.buffer = i, + I.connect(this.gainNode), + I.start(this.startTime), + this.startTime += i.duration, + this.samples = new Float32Array + } + }, + M.getTimestamp = function () { + return this.audioCtx ? this.audioCtx.currentTime : 0 + }, + M.play = function (A) { + if (null != this.audioCtx) + if ("running" === this.audioCtx.state) { + if (this.isTypedArray(A) && (A = this.getFormatedValue(A)).length) { + this.stopFlag = !1; + var M, + t, + g, + I, + e, + i, + T = this.audioCtx.createBufferSource(), + E = A.length / this.option.channels; + try { + M = this.audioCtx.createBuffer(this.option.channels, E, this.option.sampleRate) + } catch (A) {} + for (g = 0; g < this.option.channels; g++) + for (t = M.getChannelData(g), I = g, i = 50, e = 0; e < E; e++) + t[e] = A[I], e < 50 && (t[e] = t[e] * e / 50), E - 51 <= e && (t[e] = t[e] * i-- / 50), I += this.option.channels; + this.startTime < this.audioCtx.currentTime && (this.startTime = this.audioCtx.currentTime), + T.buffer = M, + T.connect(this.gainNode), + T.start(this.startTime), + this.startTime += M.duration, + this.bufferSourcePtr = T + } + } else + this.audioCtx.resume() + }, + M.clearAudioBuffer = function () { + this.stopFlag = !0, + this.bufferSourcePtr && this.bufferSourcePtr.stop(0) + }, + M.pause = function () { + null != this.audioCtx && "running" === this.audioCtx.state && this.audioCtx.suspend() + }, + M.resume = function () { + null != this.audioCtx && "suspended" === this.audioCtx.state && this.audioCtx.resume() + }, + A + } + (); + M.a = g + }, function (A, M, t) { + "use strict"; + var g = t(2), + z = function () { + function A(A) { + this.TAG = "ExpGolomb", + this._buffer = A, + this._buffer_index = 0, + this._total_bytes = A.byteLength, + this._total_bits = 8 * A.byteLength, + this._current_word = 0, + this._current_word_bits_left = 0 + } + var M = A.prototype; + return M.destroy = function () { + this._buffer = null + }, + M._fillCurrentWord = function () { + var A = this._total_bytes - this._buffer_index; + if (A <= 0) + throw new g.a("ExpGolomb: _fillCurrentWord() but no bytes available"); + var M = Math.min(4, A), + A = new Uint8Array(4); + A.set(this._buffer.subarray(this._buffer_index, this._buffer_index + M)), + this._current_word = new DataView(A.buffer).getUint32(0, !1), + this._buffer_index += M, + this._current_word_bits_left = 8 * M + }, + M.readBits = function (A) { + if (32 < A) + throw new g.b("ExpGolomb: readBits() bits exceeded max 32bits!"); + if (A <= this._current_word_bits_left) { + var M = this._current_word >>> 32 - A; + return this._current_word <<= A, + this._current_word_bits_left -= A, + M + } + var t = this._current_word_bits_left ? this._current_word : 0; + t >>>= 32 - this._current_word_bits_left; + M = A - this._current_word_bits_left; + this._fillCurrentWord(); + A = Math.min(M, this._current_word_bits_left), + M = this._current_word >>> 32 - A; + return this._current_word <<= A, + this._current_word_bits_left -= A, + t = t << A | M + }, + M.readBool = function () { + return 1 === this.readBits(1) + }, + M.readByte = function () { + return this.readBits(8) + }, + M._skipLeadingZero = function () { + for (var A = 0; A < this._current_word_bits_left; A++) + if (0 != (this._current_word & 2147483648 >>> A)) + return this._current_word <<= A, this._current_word_bits_left -= A, A; + return this._fillCurrentWord(), + A + this._skipLeadingZero() + }, + M.readUEG = function () { + var A = this._skipLeadingZero(); + return this.readBits(A + 1) - 1 + }, + M.readSEG = function () { + var A = this.readUEG(); + return 1 & A ? A + 1 >>> 1 : -1 * (A >>> 1) + }, + A + } + (), + t = function () { + function S() {} + return S._ebsp2rbsp = function (A) { + for (var M = A, t = M.byteLength, g = new Uint8Array(t), I = 0, e = 0; e < t; e++) + 2 <= e && 3 === M[e] && 0 === M[e - 1] && 0 === M[e - 2] || (g[I] = M[e], I++); + return new Uint8Array(g.buffer, 0, I) + }, + S.parseSPS = function (A) { + var M = S._ebsp2rbsp(A), + t = new z(M); + t.readByte(); + var g = t.readByte(); + t.readByte(); + var I = t.readByte(); + t.readUEG(); + var e = S.getProfileString(g), + i = S.getLevelString(I), + T = 1, + E = 420, + N = 8; + if ((100 === g || 110 === g || 122 === g || 244 === g || 44 === g || 83 === g || 86 === g || 118 === g || 128 === g || 138 === g || 144 === g) && (3 === (T = t.readUEG()) && t.readBits(1), T <= 3 && (E = [0, 420, 422, 444][T]), N = t.readUEG() + 8, t.readUEG(), t.readBits(1), t.readBool())) + for (var n = 3 !== T ? 8 : 12, D = 0; D < n; D++) + t.readBool() && S._skipScalingList(t, D < 6 ? 16 : 64); + t.readUEG(); + var C = t.readUEG(); + if (0 === C) + t.readUEG(); + else if (1 === C) { + t.readBits(1), + t.readSEG(), + t.readSEG(); + for (var r = t.readUEG(), c = 0; c < r; c++) + t.readSEG() + } + var o = t.readUEG(); + t.readBits(1); + var B = t.readUEG(), + Q = t.readUEG(), + a = t.readBits(1); + 0 === a && t.readBits(1), + t.readBits(1); + var h = 0, + s = 0, + y = 0, + w = 0; + t.readBool() && (h = t.readUEG(), s = t.readUEG(), y = t.readUEG(), w = t.readUEG()); + var j = 1, + L = 1, + d = 0, + A = !0, + M = 0, + C = 0; + t.readBool() && (t.readBool() && (0 < (x = t.readByte()) && x < 16 ? (j = [1, 12, 10, 16, 40, 24, 20, 32, 80, 18, 15, 64, 160, 4, 3, 2][x - 1], L = [1, 11, 11, 11, 33, 11, 11, 11, 33, 11, 11, 33, 99, 3, 2, 1][x - 1]) : 255 === x && (j = t.readByte() << 8 | t.readByte(), L = t.readByte() << 8 | t.readByte())), t.readBool() && t.readBool(), t.readBool() && (t.readBits(4), t.readBool() && t.readBits(24)), t.readBool() && (t.readUEG(), t.readUEG()), t.readBool() && (u = t.readBits(32), Y = t.readBits(32), A = t.readBool(), d = (M = Y) / (C = 2 * u))); + var x = 1; + 1 === j && 1 === L || (x = j / L); + var Y = 0, + u = 0; + u = 0 === T ? (Y = 1, 2 - a) : (Y = 3 === T ? 1 : 2, (1 === T ? 2 : 1) * (2 - a)); + B = 16 * (B + 1), + a = 16 * (Q + 1) * (2 - a); + B -= (h + s) * Y, + a -= (y + w) * u; + x = Math.ceil(B * x); + return t.destroy(), + t = null, { + avc_profile: g, + profile_string: e, + avc_level: I, + level_string: i, + bit_depth: N, + ref_frames: o, + chroma_format: E, + chroma_format_string: S.getChromaFormatString(E), + frame_rate: { + fixed: A, + fps: d, + fps_den: C, + fps_num: M + }, + sar_ratio: { + width: j, + height: L + }, + codec_size: { + width: B, + height: a + }, + present_size: { + width: x, + height: a + } + } + }, + S._skipScalingList = function (A, M) { + for (var t = 8, g = 8, I = 0; I < M; I++) + 0 !== g && (g = (t + A.readSEG() + 256) % 256), t = 0 === g ? t : g + }, + S.getProfileString = function (A) { + switch (A) { + case 66: + return "Baseline"; + case 77: + return "Main"; + case 88: + return "Extended"; + case 100: + return "High"; + case 110: + return "High10"; + case 122: + return "High422"; + case 244: + return "High444"; + default: + return "Unknown" + } + }, + S.getLevelString = function (A) { + return (A / 10).toFixed(1) + }, + S.getChromaFormatString = function (A) { + switch (A) { + case 420: + return "4:2:0"; + case 422: + return "4:2:2"; + case 444: + return "4:4:4"; + default: + return "Unknown" + } + }, + S + } + (); + M.a = t + }, function (A, M, t) { + "use strict"; + (function (T) { + void 0 === T || !T.version || 0 === T.version.indexOf("v0.") || 0 === T.version.indexOf("v1.") && 0 !== T.version.indexOf("v1.8.") ? A.exports = { + nextTick: function (A, M, t, g) { + if ("function" != typeof A) + throw new TypeError('"callback" argument must be a function'); + var I, + e, + i = arguments.length; + switch (i) { + case 0: + case 1: + return T.nextTick(A); + case 2: + return T.nextTick(function () { + A.call(null, M) + }); + case 3: + return T.nextTick(function () { + A.call(null, M, t) + }); + case 4: + return T.nextTick(function () { + A.call(null, M, t, g) + }); + default: + for (I = new Array(i - 1), e = 0; e < I.length; ) + I[e++] = arguments[e]; + return T.nextTick(function () { + A.apply(null, I) + }) + } + } + } + : A.exports = T + }).call(this, t(8)) + }, function (A, M, t) { + var I = t(4).Buffer; + function g(A) { + I.isBuffer(A) || (A = I.from(A)); + for (var M = A.length / 4 | 0, t = new Array(M), g = 0; g < M; g++) + t[g] = A.readUInt32BE(4 * g); + return t + } + function e(A) { + for (; 0 < A.length; A++) + A[0] = 0 + } + function i(A, M, t, g, I) { + for (var e, i, T, E, N = t[0], n = t[1], D = t[2], C = t[3], r = A[0] ^ M[0], c = A[1] ^ M[1], o = A[2] ^ M[2], B = A[3] ^ M[3], Q = 4, a = 1; a < I; a++) + e = N[r >>> 24] ^ n[c >>> 16 & 255] ^ D[o >>> 8 & 255] ^ C[255 & B] ^ M[Q++], i = N[c >>> 24] ^ n[o >>> 16 & 255] ^ D[B >>> 8 & 255] ^ C[255 & r] ^ M[Q++], T = N[o >>> 24] ^ n[B >>> 16 & 255] ^ D[r >>> 8 & 255] ^ C[255 & c] ^ M[Q++], E = N[B >>> 24] ^ n[r >>> 16 & 255] ^ D[c >>> 8 & 255] ^ C[255 & o] ^ M[Q++], r = e, c = i, o = T, B = E; + return e = (g[r >>> 24] << 24 | g[c >>> 16 & 255] << 16 | g[o >>> 8 & 255] << 8 | g[255 & B]) ^ M[Q++], + i = (g[c >>> 24] << 24 | g[o >>> 16 & 255] << 16 | g[B >>> 8 & 255] << 8 | g[255 & r]) ^ M[Q++], + T = (g[o >>> 24] << 24 | g[B >>> 16 & 255] << 16 | g[r >>> 8 & 255] << 8 | g[255 & c]) ^ M[Q++], + E = (g[B >>> 24] << 24 | g[r >>> 16 & 255] << 16 | g[c >>> 8 & 255] << 8 | g[255 & o]) ^ M[Q++], + [e >>>= 0, i >>>= 0, T >>>= 0, E >>>= 0] + } + var D = [0, 1, 2, 4, 8, 16, 32, 64, 128, 27, 54], + C = function () { + for (var A = new Array(256), M = 0; M < 256; M++) + A[M] = M < 128 ? M << 1 : M << 1 ^ 283; + for (var t = [], g = [], I = [[], [], [], []], e = [[], [], [], []], i = 0, T = 0, E = 0; E < 256; ++E) { + var N = (N = T ^ T << 1 ^ T << 2 ^ T << 3 ^ T << 4) >>> 8 ^ 255 & N ^ 99, + n = A[g[t[i] = N] = i], + D = A[n], + C = A[D], + r = 257 * A[N] ^ 16843008 * N; + I[0][i] = r << 24 | r >>> 8, + I[1][i] = r << 16 | r >>> 16, + I[2][i] = r << 8 | r >>> 24, + I[3][i] = r, + r = 16843009 * C ^ 65537 * D ^ 257 * n ^ 16843008 * i, + e[0][N] = r << 24 | r >>> 8, + e[1][N] = r << 16 | r >>> 16, + e[2][N] = r << 8 | r >>> 24, + e[3][N] = r, + 0 === i ? i = T = 1 : (i = n ^ A[A[A[C ^ n]]], T ^= A[A[T]]) + } + return { + SBOX: t, + INV_SBOX: g, + SUB_MIX: I, + INV_SUB_MIX: e + } + } + (); + function T(A) { + this._key = g(A), + this._reset() + } + T.blockSize = 16, + T.keySize = 32, + T.prototype.blockSize = T.blockSize, + T.prototype.keySize = T.keySize, + T.prototype._reset = function () { + for (var A = this._key, M = A.length, t = M + 6, g = 4 * (t + 1), I = [], e = 0; e < M; e++) + I[e] = A[e]; + for (e = M; e < g; e++) { + var i = I[e - 1]; + e % M == 0 ? (i = i << 8 | i >>> 24, i = C.SBOX[i >>> 24] << 24 | C.SBOX[i >>> 16 & 255] << 16 | C.SBOX[i >>> 8 & 255] << 8 | C.SBOX[255 & i], i ^= D[e / M | 0] << 24) : 6 < M && e % M == 4 && (i = C.SBOX[i >>> 24] << 24 | C.SBOX[i >>> 16 & 255] << 16 | C.SBOX[i >>> 8 & 255] << 8 | C.SBOX[255 & i]), + I[e] = I[e - M] ^ i + } + for (var T = [], E = 0; E < g; E++) { + var N = g - E, + n = I[N - (E % 4 ? 0 : 4)]; + T[E] = E < 4 || N <= 4 ? n : C.INV_SUB_MIX[0][C.SBOX[n >>> 24]] ^ C.INV_SUB_MIX[1][C.SBOX[n >>> 16 & 255]] ^ C.INV_SUB_MIX[2][C.SBOX[n >>> 8 & 255]] ^ C.INV_SUB_MIX[3][C.SBOX[255 & n]] + } + this._nRounds = t, + this._keySchedule = I, + this._invKeySchedule = T + }, + T.prototype.encryptBlockRaw = function (A) { + return i(A = g(A), this._keySchedule, C.SUB_MIX, C.SBOX, this._nRounds) + }, + T.prototype.encryptBlock = function (A) { + var M = this.encryptBlockRaw(A), + A = I.allocUnsafe(16); + return A.writeUInt32BE(M[0], 0), + A.writeUInt32BE(M[1], 4), + A.writeUInt32BE(M[2], 8), + A.writeUInt32BE(M[3], 12), + A + }, + T.prototype.decryptBlock = function (A) { + var M = (A = g(A))[1]; + A[1] = A[3], + A[3] = M; + M = i(A, this._invKeySchedule, C.INV_SUB_MIX, C.INV_SBOX, this._nRounds), + A = I.allocUnsafe(16); + return A.writeUInt32BE(M[0], 0), + A.writeUInt32BE(M[3], 4), + A.writeUInt32BE(M[2], 8), + A.writeUInt32BE(M[1], 12), + A + }, + T.prototype.scrub = function () { + e(this._keySchedule), + e(this._invKeySchedule), + e(this._key) + }, + A.exports.AES = T + }, function (A, M, t) { + var D = t(4).Buffer, + C = t(37); + A.exports = function (A, M, t, g) { + if (D.isBuffer(A) || (A = D.from(A, "binary")), M && (D.isBuffer(M) || (M = D.from(M, "binary")), 8 !== M.length)) + throw new RangeError("salt should be Buffer with 8 byte length"); + for (var I = t / 8, e = D.alloc(I), i = D.alloc(g || 0), T = D.alloc(0); 0 < I || 0 < g; ) { + var E = new C; + E.update(T), + E.update(A), + M && E.update(M), + T = E.digest(); + var N, + n = 0; + 0 < I && (N = e.length - I, n = Math.min(I, T.length), T.copy(e, N, 0, n), I -= n), + n < T.length && 0 < g && (E = i.length - g, N = Math.min(g, T.length - n), T.copy(i, E, n, n + N), g -= N) + } + return T.fill(0), { + key: e, + iv: i + } + } + }, function (A, M, t) { + "use strict"; + var g = t(7), + I = t(12), + d = I.getNAF, + x = I.getJSF, + n = I.assert; + function e(A, M) { + this.type = A, + this.p = new g(M.p, 16), + this.red = M.prime ? g.red(M.prime) : g.mont(this.p), + this.zero = new g(0).toRed(this.red), + this.one = new g(1).toRed(this.red), + this.two = new g(2).toRed(this.red), + this.n = M.n && new g(M.n, 16), + this.g = M.g && this.pointFromJSON(M.g, M.gRed), + this._wnafT1 = new Array(4), + this._wnafT2 = new Array(4), + this._wnafT3 = new Array(4), + this._wnafT4 = new Array(4), + this._bitLength = this.n ? this.n.bitLength() : 0; + M = this.n && this.p.div(this.n); + !M || 0 < M.cmpn(100) ? this.redN = null : (this._maxwellTrick = !0, this.redN = this.n.toRed(this.red)) + } + function i(A, M) { + this.curve = A, + this.type = M, + this.precomputed = null + } + (A.exports = e).prototype.point = function () { + throw new Error("Not implemented") + }, + e.prototype.validate = function () { + throw new Error("Not implemented") + }, + e.prototype._fixedNafMul = function (A, M) { + n(A.precomputed); + var t = A._getDoubles(), + g = d(M, 1, this._bitLength), + A = (1 << t.step + 1) - (t.step % 2 == 0 ? 2 : 1); + A /= 3; + for (var I = [], e = 0; e < g.length; e += t.step) { + for (var i = 0, M = e + t.step - 1; e <= M; M--) + i = (i << 1) + g[M]; + I.push(i) + } + for (var T = this.jpoint(null, null, null), E = this.jpoint(null, null, null), N = A; 0 < N; N--) { + for (e = 0; e < I.length; e++) + (i = I[e]) === N ? E = E.mixedAdd(t.points[e]) : i === -N && (E = E.mixedAdd(t.points[e].neg())); + T = T.add(E) + } + return T.toP() + }, + e.prototype._wnafMul = function (A, M) { + for (var t = A._getNAFPoints(4), g = t.wnd, I = t.points, e = d(M, g, this._bitLength), i = this.jpoint(null, null, null), T = e.length - 1; 0 <= T; T--) { + for (M = 0; 0 <= T && 0 === e[T]; T--) + M++; + if (0 <= T && M++, i = i.dblp(M), T < 0) + break; + var E = e[T]; + n(0 !== E), + i = "affine" === A.type ? 0 < E ? i.mixedAdd(I[E - 1 >> 1]) : i.mixedAdd(I[-E - 1 >> 1].neg()) : 0 < E ? i.add(I[E - 1 >> 1]) : i.add(I[-E - 1 >> 1].neg()) + } + return "affine" === A.type ? i.toP() : i + }, + e.prototype._wnafMulAdd = function (A, M, t, g, I) { + for (var e = this._wnafT1, i = this._wnafT2, T = this._wnafT3, E = 0, N = 0; N < g; N++) { + var n = (j = M[N])._getNAFPoints(A); + e[N] = n.wnd, + i[N] = n.points + } + for (N = g - 1; 1 <= N; N -= 2) { + var D = N - 1, + C = N; + if (1 === e[D] && 1 === e[C]) { + var r = [M[D], null, null, M[C]]; + 0 === M[D].y.cmp(M[C].y) ? (r[1] = M[D].add(M[C]), r[2] = M[D].toJ().mixedAdd(M[C].neg())) : 0 === M[D].y.cmp(M[C].y.redNeg()) ? (r[1] = M[D].toJ().mixedAdd(M[C]), r[2] = M[D].add(M[C].neg())) : (r[1] = M[D].toJ().mixedAdd(M[C]), r[2] = M[D].toJ().mixedAdd(M[C].neg())); + var c = [-3, -1, -5, -7, 0, 7, 5, 1, 3], + o = x(t[D], t[C]), + E = Math.max(o[0].length, E); + T[D] = new Array(E), + T[C] = new Array(E); + for (var B = 0; B < E; B++) { + var Q = 0 | o[0][B], + a = 0 | o[1][B]; + T[D][B] = c[3 * (1 + Q) + (1 + a)], + T[C][B] = 0, + i[D] = r + } + } else + T[D] = d(t[D], e[D], this._bitLength), T[C] = d(t[C], e[C], this._bitLength), E = Math.max(T[D].length, E), E = Math.max(T[C].length, E) + } + for (var h = this.jpoint(null, null, null), s = this._wnafT4, N = E; 0 <= N; N--) { + for (var y = 0; 0 <= N; ) { + for (var w = !0, B = 0; B < g; B++) + s[B] = 0 | T[B][N], 0 !== s[B] && (w = !1); + if (!w) + break; + y++, + N-- + } + if (0 <= N && y++, h = h.dblp(y), N < 0) + break; + for (B = 0; B < g; B++) { + var j, + L = s[B]; + 0 !== L && (0 < L ? j = i[B][L - 1 >> 1] : L < 0 && (j = i[B][-L - 1 >> 1].neg()), h = "affine" === j.type ? h.mixedAdd(j) : h.add(j)) + } + } + for (N = 0; N < g; N++) + i[N] = null; + return I ? h : h.toP() + }, + (e.BasePoint = i).prototype.eq = function () { + throw new Error("Not implemented") + }, + i.prototype.validate = function () { + return this.curve.validate(this) + }, + e.prototype.decodePoint = function (A, M) { + A = I.toArray(A, M); + M = this.p.byteLength(); + if ((4 === A[0] || 6 === A[0] || 7 === A[0]) && A.length - 1 == 2 * M) + return 6 === A[0] ? n(A[A.length - 1] % 2 == 0) : 7 === A[0] && n(A[A.length - 1] % 2 == 1), this.point(A.slice(1, 1 + M), A.slice(1 + M, 1 + 2 * M)); + if ((2 === A[0] || 3 === A[0]) && A.length - 1 === M) + return this.pointFromX(A.slice(1, 1 + M), 3 === A[0]); + throw new Error("Unknown point format") + }, + i.prototype.encodeCompressed = function (A) { + return this.encode(A, !0) + }, + i.prototype._encode = function (A) { + var M = this.curve.p.byteLength(), + t = this.getX().toArray("be", M); + return A ? [this.getY().isEven() ? 2 : 3].concat(t) : [4].concat(t, this.getY().toArray("be", M)) + }, + i.prototype.encode = function (A, M) { + return I.encode(this._encode(M), A) + }, + i.prototype.precompute = function (A) { + if (this.precomputed) + return this; + var M = { + doubles: null, + naf: null, + beta: null + }; + return M.naf = this._getNAFPoints(8), + M.doubles = this._getDoubles(4, A), + M.beta = this._getBeta(), + this.precomputed = M, + this + }, + i.prototype._hasDoubles = function (A) { + if (!this.precomputed) + return !1; + var M = this.precomputed.doubles; + return !!M && M.points.length >= Math.ceil((A.bitLength() + 1) / M.step) + }, + i.prototype._getDoubles = function (A, M) { + if (this.precomputed && this.precomputed.doubles) + return this.precomputed.doubles; + for (var t = [this], g = this, I = 0; I < M; I += A) { + for (var e = 0; e < A; e++) + g = g.dbl(); + t.push(g) + } + return { + step: A, + points: t + } + }, + i.prototype._getNAFPoints = function (A) { + if (this.precomputed && this.precomputed.naf) + return this.precomputed.naf; + for (var M = [this], t = (1 << A) - 1, g = 1 == t ? null : this.dbl(), I = 1; I < t; I++) + M[I] = M[I - 1].add(g); + return { + wnd: A, + points: M + } + }, + i.prototype._getBeta = function () { + return null + }, + i.prototype.dblp = function (A) { + for (var M = this, t = 0; t < A; t++) + M = M.dbl(); + return M + } + }, function (A, M, t) { + var r = t(190), + c = t(197), + o = t(198), + B = t(45), + Q = t(80), + a = t(4).Buffer; + function g(A) { + var M; + "object" != typeof A || a.isBuffer(A) || (M = A.passphrase, A = A.key), + "string" == typeof A && (A = a.from(A)); + var t, + g, + I, + e, + i, + T, + E, + N, + n, + A = o(A, M), + D = A.tag, + C = A.data; + switch (D) { + case "CERTIFICATE": + g = r.certificate.decode(C, "der").tbsCertificate.subjectPublicKeyInfo; + case "PUBLIC KEY": + switch (t = (g = g || r.PublicKey.decode(C, "der")).algorithm.algorithm.join(".")) { + case "1.2.840.113549.1.1.1": + return r.RSAPublicKey.decode(g.subjectPublicKey.data, "der"); + case "1.2.840.10045.2.1": + return g.subjectPrivateKey = g.subjectPublicKey, { + type: "ec", + data: g + }; + case "1.2.840.10040.4.1": + return g.algorithm.params.pub_key = r.DSAparam.decode(g.subjectPublicKey.data, "der"), { + type: "dsa", + data: g.algorithm.params + }; + default: + throw new Error("unknown key id " + t) + } + case "ENCRYPTED PRIVATE KEY": + C = r.EncryptedPrivateKey.decode(C, "der"), + e = M, + i = (I = C).algorithm.decrypt.kde.kdeparams.salt, + T = parseInt(I.algorithm.decrypt.kde.kdeparams.iters.toString(), 10), + E = c[I.algorithm.decrypt.cipher.algo.join(".")], + N = I.algorithm.decrypt.cipher.iv, + n = I.subjectPrivateKey, + I = parseInt(E.split("-")[1], 10) / 8, + I = Q.pbkdf2Sync(e, i, T, I, "sha1"), + I = B.createDecipheriv(E, I, N), + (N = []).push(I.update(n)), + N.push(I.final()), + C = a.concat(N); + case "PRIVATE KEY": + switch (t = (g = r.PrivateKey.decode(C, "der")).algorithm.algorithm.join(".")) { + case "1.2.840.113549.1.1.1": + return r.RSAPrivateKey.decode(g.subjectPrivateKey, "der"); + case "1.2.840.10045.2.1": + return { + curve: g.algorithm.curve, + privateKey: r.ECPrivateKey.decode(g.subjectPrivateKey, "der").privateKey + }; + case "1.2.840.10040.4.1": + return g.algorithm.params.priv_key = r.DSAparam.decode(g.subjectPrivateKey, "der"), { + type: "dsa", + params: g.algorithm.params + }; + default: + throw new Error("unknown key id " + t) + } + case "RSA PUBLIC KEY": + return r.RSAPublicKey.decode(C, "der"); + case "RSA PRIVATE KEY": + return r.RSAPrivateKey.decode(C, "der"); + case "DSA PRIVATE KEY": + return { + type: "dsa", + params: r.DSAPrivateKey.decode(C, "der") + }; + case "EC PRIVATE KEY": + return { + curve: (C = r.ECPrivateKey.decode(C, "der")).parameters.value, + privateKey: C.privateKey + }; + default: + throw new Error("unknown key type " + D) + } + } + (A.exports = g).signature = r.signature + }, function (A, M, t) { + "use strict"; + var d = t(0); + function T(A, M, t) { + var g = A; + if (M + t < g.length) { + for (; t--; ) + if (128 != (192 & g[++M])) + return; + return 1 + } + } + var g, + I = function (A) { + for (var M = [], t = A, g = 0, I = A.length; g < I; ) + if (t[g] < 128) + M.push(String.fromCharCode(t[g])), ++g; + else { + if (!(t[g] < 192)) + if (t[g] < 224) { + if (T(t, g, 1)) { + var e = (31 & t[g]) << 6 | 63 & t[g + 1]; + if (128 <= e) { + M.push(String.fromCharCode(65535 & e)), + g += 2; + continue + } + } + } else if (t[g] < 240) { + if (T(t, g, 2)) { + var i = (15 & t[g]) << 12 | (63 & t[g + 1]) << 6 | 63 & t[g + 2]; + if (2048 <= i && 55296 != (63488 & i)) { + M.push(String.fromCharCode(65535 & i)), + g += 3; + continue + } + } + } else if (t[g] < 248 && T(t, g, 3)) { + i = (7 & t[g]) << 18 | (63 & t[g + 1]) << 12 | (63 & t[g + 2]) << 6 | 63 & t[g + 3]; + if (65536 < i && i < 1114112) { + i -= 65536, + M.push(String.fromCharCode(i >>> 10 | 55296)), + M.push(String.fromCharCode(1023 & i | 56320)), + g += 4; + continue + } + } + M.push(String.fromCharCode(65533)), + ++g + } + return M.join("") + }, + a = t(2), + h = (g = new ArrayBuffer(2), new DataView(g).setInt16(0, 256, !0), 256 === new Int16Array(g)[0]), + e = function () { + function Q() {} + return Q.parseScriptData = function (A, M, t) { + var g = {}; + try { + var I = Q.parseValue(A, M, t); + if (t - I.size < 1) + return g; + var e = Q.parseValue(A, M + I.size, t - I.size); + g[I.data] = e.data + } catch (A) { + d.a.e("AMF", A.toString()) + } + return g + }, + Q.parseObject = function (A, M, t) { + if (t < 3) + throw new a.a("Data not enough when parse ScriptDataObject"); + var g = Q.parseString(A, M, t), + M = Q.parseValue(A, M + g.size, t - g.size), + t = M.objectEnd; + return { + data: { + name: g.data, + value: M.data + }, + size: g.size + M.size, + objectEnd: t + } + }, + Q.parseVariable = function (A, M, t) { + return Q.parseObject(A, M, t) + }, + Q.parseString = function (A, M, t) { + if (t < 2) + throw new a.a("Data not enough when parse String"); + t = new DataView(A, M, t).getUint16(0, !h), + M = 0 < t ? I(new Uint8Array(A, M + 2, t)) : ""; + return { + data: M, + size: 2 + t + } + }, + Q.parseLongString = function (A, M, t) { + if (t < 4) + throw new a.a("Data not enough when parse LongString"); + t = new DataView(A, M, t).getUint32(0, !h), + M = 0 < t ? I(new Uint8Array(A, M + 4, t)) : ""; + return { + data: M, + size: 4 + t + } + }, + Q.parseDate = function (A, M, t) { + if (t < 10) + throw new a.a("Data size invalid when parse Date"); + M = new DataView(A, M, t), + t = M.getFloat64(0, !h); + return t += 60 * M.getInt16(8, !h) * 1e3, { + data: new Date(t), + size: 10 + } + }, + Q.parseValue = function (A, M, t) { + if (t < 1) + throw new a.a("Data not enough when parse Value"); + var g = new DataView(A, M, t), + I = 1, + e = g.getUint8(0), + i = !1; + try { + switch (e) { + case 0: + T = g.getFloat64(1, !h), + I += 8; + break; + case 1: + var T = !!g.getUint8(1); + I += 1; + break; + case 2: + var E = Q.parseString(A, M + 1, t - 1); + T = E.data, + I += E.size; + break; + case 3: + T = {}; + var N = 0; + for (9 == (16777215 & g.getUint32(t - 4, !h)) && (N = 3); I < t - 4; ) { + var n = Q.parseObject(A, M + I, t - I - N); + if (n.objectEnd) + break; + T[n.data.name] = n.data.value, + I += n.size + } + I <= t - 3 && 9 == (16777215 & g.getUint32(I - 1, !h)) && (I += 3); + break; + case 8: + T = {}, + I += 4; + var D = 0; + for (9 == (16777215 & g.getUint32(t - 4, !h)) && (D = 3); I < t - 8; ) { + var C = Q.parseVariable(A, M + I, t - I - D); + if (C.objectEnd) + break; + T[C.data.name] = C.data.value, + I += C.size + } + I <= t - 3 && 9 == (16777215 & g.getUint32(I - 1, !h)) && (I += 3); + break; + case 9: + I = 1, + i = !(T = void 0); + break; + case 10: + T = []; + var r = g.getUint32(1, !h); + I += 4; + for (var c = 0; c < r; c++) { + var o = Q.parseValue(A, M + I, t - I); + T.push(o.data), + I += o.size + } + break; + case 11: + var B = Q.parseDate(A, M + 1, t - 1); + T = B.data, + I += B.size; + break; + case 12: + B = Q.parseString(A, M + 1, t - 1); + T = B.data, + I += B.size; + break; + default: + I = t + } + } catch (A) { + d.a.e("AMF", A.toString()) + } + return { + data: T, + size: I, + objectEnd: i + } + }, + Q + } + (), + j = t(30), + L = t(5), + i = t(13), + n = t(1); + function E(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + t = function () { + function D(A, M, t, g) { + this.TAG = "FLVDemuxer", + this._config = M, + this._onError = null, + this._onMediaInfo = null, + this._onMetaDataArrived = null, + this._onScriptDataArrived = null, + this._onTrackMetadata = null, + this._onDataAvailable = null, + this._dataOffset = A.dataOffset, + this._firstParse = !0, + this._dispatch = !1, + this._hasAudio = A.hasAudioTrack, + this._hasVideo = A.hasVideoTrack, + this._hasAudioFlagOverrided = !1, + this._hasVideoFlagOverrided = !1, + this._audioInitialMetadataDispatched = !1, + this._videoInitialMetadataDispatched = !1, + this._mediaInfo = new i.a, + this._mediaInfo.hasAudio = this._hasAudio, + this._mediaInfo.hasVideo = this._hasVideo, + this._metadata = null, + this._audioMetadata = null, + this._videoMetadata = null, + this._naluLengthSize = 4, + this._timestampBase = 0, + this._timescale = 1e3, + this._duration = 0, + this._durationOverrided = !1, + this._referenceFrameRate = { + fixed: !0, + fps: 23.976, + fps_num: 23976, + fps_den: 1e3 + }, + this._flvSoundRateTable = [5500, 11025, 22050, 44100, 48e3], + this._mpegSamplingRates = [96e3, 88200, 64e3, 48e3, 44100, 32e3, 24e3, 22050, 16e3, 12e3, 11025, 8e3, 7350], + this._mpegAudioV10SampleRateTable = [44100, 48e3, 32e3, 0], + this._mpegAudioV20SampleRateTable = [22050, 24e3, 16e3, 0], + this._mpegAudioV25SampleRateTable = [11025, 12e3, 8e3, 0], + this._mpegAudioL1BitRateTable = [0, 32, 64, 96, 128, 160, 192, 224, 256, 288, 320, 352, 384, 416, 448, -1], + this._mpegAudioL2BitRateTable = [0, 32, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, 384, -1], + this._mpegAudioL3BitRateTable = [0, 32, 40, 48, 56, 64, 80, 96, 112, 128, 160, 192, 224, 256, 320, -1], + this._videoTrack = { + type: "video", + id: 1, + sequenceNumber: 0, + samples: [], + length: 0 + }, + this._audioTrack = { + type: "audio", + id: 2, + sequenceNumber: 0, + samples: [], + length: 0 + }, + this._littleEndian = (A = new ArrayBuffer(2), new DataView(A).setInt16(0, 256, !0), 256 === new Int16Array(A)[0]), + this.videoCodecId = 0, + this.audioCodecId = 0, + this._AVC_SPS = null, + this._AVC_PPS = null, + this._HEVC_VPS = null, + this._HEVC_SPS = null, + this._HEVC_PPS = null, + this._StartCode = [0, 0, 0, 1], + this._SampleRate = 8e3, + this._ChannelNum = 1, + this._pause = !1, + this._callbackInitFlag = !1, + this._callbackMediaDataFunc = t, + this._callbackMediaDataUserPtr = g, + this._debugProcCount = 0, + this._DebugBuf = null, + this._DebugBufPos = 0, + this._alreadyAudioNotSupported = !1 + } + var A, + M, + t = D.prototype; + return t.destroy = function () { + this._mediaInfo = null, + this._metadata = null, + this._audioMetadata = null, + this._videoMetadata = null, + this._videoTrack = null, + this._audioTrack = null, + this._onError = null, + this._onMediaInfo = null, + this._onMetaDataArrived = null, + this._onScriptDataArrived = null, + this._onTrackMetadata = null, + this._onDataAvailable = null + }, + D.probe = function (A) { + var M = new Uint8Array(A), + t = { + match: !1 + }; + if (70 !== M[0] || 76 !== M[1] || 86 !== M[2] || 1 !== M[3]) + return t; + var g = (4 & M[4]) >>> 2 != 0, + I = 0 != (1 & M[4]), + M = (A = M)[M = 5] << 24 | A[M + 1] << 16 | A[M + 2] << 8 | A[M + 3]; + return M < 9 ? t : { + match: !0, + consumed: M, + dataOffset: M, + hasAudioTrack: g, + hasVideoTrack: I + } + }, + t.bindDataSource = function (A) { + return A.onDataArrival = this.parseChunks.bind(this), + this + }, + t.resetMediaInfo = function () { + this._mediaInfo = new i.a + }, + t.pause = function () { + this._pause = !0 + }, + t.resume = function () { + this._pause = !1 + }, + t._onDataAvailableToSoftwareDecodeVideo = function (A, M) { + var t = M.samples, + g = -1; + for (1 < t.length && (g = 0); t.length; ) { + for (var I = t.shift(), e = 0, i = 0; i < I.units.length; i++) + e += I.units[i].data.length; + for (var T = 0, E = new Uint8Array(e); I.units.length; ) { + var N = I.units.shift(); + 27 == A && (N.data[0] = 0, N.data[1] = 0, N.data[2] = 0, N.data[3] = 1), + E.set(N.data, T), + T += N.data.length + } + this._callbackMediaDataFunc && (0 <= g && g++, this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !0, 1, A, I.isKeyframe, E, e, I.sts, 0, 0)) + } + }, + t._onDataAvailableToSoftwareDecodeAudio = function (A, M) { + var t = M.samples, + g = -1; + for (1 < t.length && (g = 0); t.length; ) { + var I = t.shift(); + this._callbackMediaDataFunc && (0 <= g && g++, this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !0, 2, A, 0, I.unit, I.length, this._SampleRate, this._ChannelNum, 44100 <= this._SampleRate ? 32 : 16)) + } + }, + t._isInitialMetadataDispatched = function () { + return this._hasAudio && this._hasVideo ? this._audioInitialMetadataDispatched && this._videoInitialMetadataDispatched : this._hasAudio && !this._hasVideo ? this._audioInitialMetadataDispatched : !(this._hasAudio || !this._hasVideo) && this._videoInitialMetadataDispatched + }, + t.parseChunks = function (A, M) { + if (null !== A) { + if (!(this._onError && this._onMediaInfo && this._onTrackMetadata && this._onDataAvailable)) + throw new a.a("Flv: onError & onMediaInfo & onTrackMetadata & onDataAvailable callback must be specified"); + var t = 0, + g = this._littleEndian; + if (0 === M) { + if (!(13 < A.byteLength)) + return 0; + t = D.probe(A).dataOffset + } + for (this._firstParse && (this._firstParse = !1, M + t !== this._dataOffset && d.a.w(this.TAG, "First time parsing but chunk byteStart invalid!"), 0 !== new DataView(A, t).getUint32(0, !g) && d.a.w(this.TAG, "PrevTagSize0 !== 0 !!!"), t += 4); t < A.byteLength; ) { + this._dispatch = !0; + var I = new DataView(A, t); + if (t + 11 + 4 > A.byteLength) + break; + var e = I.getUint8(0), + i = 16777215 & I.getUint32(0, !g); + if (t + 11 + i + 4 > A.byteLength) + break; + if (8 === e || 9 === e || 18 === e) { + var T = I.getUint8(4), + E = I.getUint8(5), + N = I.getUint8(6) | E << 8 | T << 16 | I.getUint8(7) << 24; + 0 != (16777215 & I.getUint32(7, !g)) && d.a.w(this.TAG, "Meet tag which has StreamID != 0!"); + var n = t + 11; + if (!this._pause) + switch (e) { + case 8: + this.audioCodecId = this._parseAudioData(A, n, i, N); + break; + case 9: + this.videoCodecId = this._parseVideoData(A, n, i, N, M + t); + break; + case 18: + this._parseScriptData(A, n, i) + } + I = I.getUint32(11 + i, !g); + I !== 11 + i && d.a.w(this.TAG, "Invalid PrevTagSize " + I), + t += 11 + i + 4 + } else + d.a.w(this.TAG, "Unsupported tag type " + e + ", skipped"), t += 11 + i + 4 + } + return this._isInitialMetadataDispatched() ? this._dispatch && (this._audioTrack.length || this._videoTrack.length) && (7 == this.videoCodecId ? "auto" === this._config.decodeType || "hard" === this._config.decodeType ? (this._callbackInitFlag || (this._callbackInitFlag = !0, this._callbackMediaDataFunc && 0 < this._videoTrack.length && this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !1, 1, 0, 0, null, 0, 0, 0, 0)), this._callbackMediaDataFunc && 0 < this._videoTrack.length && this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !1, 1, 0, 0, null, 0, this._videoTrack.samples[0].sts, 0, 0), this._onDataAvailable(this._audioTrack, this._videoTrack)) : (0 < this._videoTrack.samples.length && this._onDataAvailableToSoftwareDecodeVideo(27, this._videoTrack), 0 < this._audioTrack.samples.length && this._onDataAvailableToSoftwareDecodeAudio(10 == this.audioCodecId ? 86018 : 0, this._audioTrack)) : 12 == this.videoCodecId && (0 < this._videoTrack.samples.length && this._onDataAvailableToSoftwareDecodeVideo(173, this._videoTrack), 0 < this._audioTrack.samples.length && this._onDataAvailableToSoftwareDecodeAudio(10 == this.audioCodecId ? 86018 : 0, this._audioTrack))) : (this._debugProcCount++, 60 <= this._debugProcCount && (this._debugProcCount = 0, this._hasAudio = !1, this._mediaInfo.hasAudio = !1)), + t + } + }, + t._parseScriptData = function (A, M, t) { + M = e.parseScriptData(A, M, t); + if (M.hasOwnProperty("onMetaData")) { + if (null == M.onMetaData || "object" != typeof M.onMetaData) + return void d.a.w(this.TAG, "Invalid onMetaData structure!"); + this._metadata && d.a.w(this.TAG, "Found another onMetaData tag!"), + this._metadata = M; + var g, + I, + t = this._metadata.onMetaData; + this._onMetaDataArrived && this._onMetaDataArrived(Object.assign({}, t)), + "boolean" == typeof t.hasAudio && !1 === this._hasAudioFlagOverrided && (this._hasAudio = t.hasAudio, this._mediaInfo.hasAudio = this._hasAudio), + "boolean" == typeof t.hasVideo && !1 === this._hasVideoFlagOverrided && (this._hasVideo = t.hasVideo, this._mediaInfo.hasVideo = this._hasVideo), + "number" == typeof t.audiodatarate && (this._mediaInfo.audioDataRate = t.audiodatarate), + "number" == typeof t.videodatarate && (this._mediaInfo.videoDataRate = t.videodatarate), + "number" == typeof t.width && (this._mediaInfo.width = t.width), + "number" == typeof t.height && (this._mediaInfo.height = t.height), + "number" == typeof t.duration ? this._durationOverrided || (g = Math.floor(t.duration * this._timescale), this._duration = g, this._mediaInfo.duration = g) : this._mediaInfo.duration = 0, + "number" != typeof t.framerate || 0 < (g = Math.floor(1e3 * t.framerate)) && (I = g / 1e3, this._referenceFrameRate.fixed = !0, this._referenceFrameRate.fps = I, this._referenceFrameRate.fps_num = g, this._referenceFrameRate.fps_den = 1e3, this._mediaInfo.fps = I), + "object" == typeof t.keyframes ? (this._mediaInfo.hasKeyframesIndex = !0, I = t.keyframes, this._mediaInfo.keyframesIndex = this._parseKeyframesIndex(I), t.keyframes = null) : this._mediaInfo.hasKeyframesIndex = !1, + this._dispatch = !1, + this._mediaInfo.metadata = t, + d.a.v(this.TAG, "Parsed onMetaData"), + this._mediaInfo.isComplete() && this._onMediaInfo(this._mediaInfo) + } + 0 < Object.keys(M).length && this._onScriptDataArrived && this._onScriptDataArrived(Object.assign({}, M)) + }, + t._parseKeyframesIndex = function (A) { + for (var M = [], t = [], g = 1; g < A.times.length; g++) { + var I = this._timestampBase + Math.floor(1e3 * A.times[g]); + M.push(I), + t.push(A.filepositions[g]) + } + return { + times: M, + filepositions: t + } + }, + t._parseAudioData = function (A, M, t, g) { + if (t <= 1) + return d.a.w(this.TAG, "Flv: Invalid audio packet, missing SoundData payload!"), 0; + if (!0 === this._hasAudioFlagOverrided && !1 === this._hasAudio) + return 0; + this._littleEndian; + var I = new DataView(A, M, t).getUint8(0), + e = I >>> 4; + if (2 != e && 10 != e) + return this._alreadyAudioNotSupported || (this._alreadyAudioNotSupported = !0, this._onError(L.a.CODEC_UNSUPPORTED, "Flv: Unsupported audio codec idx: " + e)), 0; + var i = 0, + T = (12 & I) >>> 2; + if (!(0 <= T && T <= 4)) + return this._onError(L.a.FORMAT_ERROR, "Flv: Invalid audio sample rate idx: " + T), 0; + i = this._flvSoundRateTable[T]; + var E = 1 & I, + T = this._audioMetadata, + I = this._audioTrack; + if (T || (!1 === this._hasAudio && !1 === this._hasAudioFlagOverrided && (this._hasAudio = !0, this._mediaInfo.hasAudio = !0), (T = this._audioMetadata = {}).type = "audio", T.id = I.id, T.timescale = this._timescale, T.duration = this._duration, T.audioSampleRate = i, T.channelCount = 0 == E ? 1 : 2), 10 == e) { + var N = this._parseAACAudioData(A, M + 1, t - 1); + if (null == N) + return 0; + 0 === N.packetType ? (T.config && d.a.w(this.TAG, "Found another AudioSpecificConfig!"), E = N.data, T.audioSampleRate = E.samplingRate, T.channelCount = E.channelCount, T.codec = E.codec, T.originalCodec = E.originalCodec, T.config = E.config, T.refSampleDuration = 1024 / T.audioSampleRate * T.timescale, d.a.v(this.TAG, "Parsed AudioSpecificConfig"), this._SampleRate = E.samplingRate, this._ChannelNum = E.channelCount, this._isInitialMetadataDispatched() ? this._dispatch && (this._audioTrack.length || this._videoTrack.length) && this._onDataAvailable(this._audioTrack, this._videoTrack) : this._audioInitialMetadataDispatched = !0, this._dispatch = !1, this._onTrackMetadata("audio", T), (E = this._mediaInfo).audioCodec = T.originalCodec, E.audioSampleRate = T.audioSampleRate, E.audioChannelCount = T.channelCount, E.hasVideo ? null != E.videoCodec && (E.mimeType = 'video/x-flv; codecs="' + E.videoCodec + "," + E.audioCodec + '"') : E.mimeType = 'video/x-flv; codecs="' + E.audioCodec + '"', E.isComplete() && this._onMediaInfo(E)) : 1 === N.packetType ? (n = this._timestampBase + g, n = { + unit: N.data, + length: N.data.byteLength, + dts: n, + pts: n + }, I.samples.push(n), I.length += N.data.length) : d.a.e(this.TAG, "Flv: Unsupported AAC data type " + N.packetType) + } else if (2 == e) { + if (!T.codec) { + var n = this._parseMP3AudioData(A, M + 1, t - 1, !0); + if (null == n) + return 0; + T.audioSampleRate = n.samplingRate, + T.channelCount = n.channelCount, + T.codec = n.codec, + T.originalCodec = n.originalCodec, + T.refSampleDuration = 1152 / T.audioSampleRate * T.timescale, + d.a.v(this.TAG, "Parsed MPEG Audio Frame Header"), + this._audioInitialMetadataDispatched = !0, + this._onTrackMetadata("audio", T); + N = this._mediaInfo; + N.audioCodec = T.codec, + N.audioSampleRate = T.audioSampleRate, + N.audioChannelCount = T.channelCount, + N.audioDataRate = n.bitRate, + N.hasVideo ? null != N.videoCodec && (N.mimeType = 'video/x-flv; codecs="' + N.videoCodec + "," + N.audioCodec + '"') : N.mimeType = 'video/x-flv; codecs="' + N.audioCodec + '"', + N.isComplete() && this._onMediaInfo(N) + } + t = this._parseMP3AudioData(A, M + 1, t - 1, !1); + if (null == t) + return 0; + g = this._timestampBase + g, + g = { + unit: t, + length: t.byteLength, + dts: g, + pts: g + }; + I.samples.push(g), + I.length += t.length + } + return e + }, + t._parseAACAudioData = function (A, M, t) { + if (!(t <= 1)) { + var g = {}, + I = new Uint8Array(A, M, t); + return g.packetType = I[0], + 0 === I[0] ? g.data = this._parseAACAudioSpecificConfig(A, M + 1, t - 1) : g.data = I.subarray(1), + g + } + d.a.w(this.TAG, "Flv: Invalid AAC packet, missing AACPacketType or/and Data!") + }, + t._parseAACAudioSpecificConfig = function (A, M, t) { + var g, + I = new Uint8Array(A, M, t), + e = null, + i = 0, + T = 0, + A = null, + i = g = I[0] >>> 3; + if ((T = (7 & I[0]) << 1 | I[1] >>> 7) < 0 || T >= this._mpegSamplingRates.length) + this._onError(L.a.FORMAT_ERROR, "Flv: AAC invalid sampling frequency index!"); + else { + M = this._mpegSamplingRates[T], + t = (120 & I[1]) >>> 3; + if (!(t < 0 || 8 <= t)) { + 5 === i && (A = (7 & I[1]) << 1 | I[2] >>> 7, I[2]); + I = self.navigator.userAgent.toLowerCase(); + return -1 !== I.indexOf("firefox") ? A = 6 <= T ? (i = 5, e = new Array(4), T - 3) : (i = 2, e = new Array(2), T) : -1 !== I.indexOf("android") ? (i = 2, e = new Array(2), A = T) : (i = 5, A = T, e = new Array(4), 6 <= T ? A = T - 3 : 1 == t && (i = 2, e = new Array(2), A = T)), + e[0] = i << 3, + e[0] |= (15 & T) >>> 1, + e[1] = (15 & T) << 7, + e[1] |= (15 & t) << 3, + 5 === i && (e[1] |= (15 & A) >>> 1, e[2] = (1 & A) << 7, e[2] |= 8, e[3] = 0), { + config: e, + samplingRate: M, + channelCount: t, + codec: "mp4a.40." + i, + originalCodec: "mp4a.40." + g + } + } + this._onError(L.a.FORMAT_ERROR, "Flv: AAC invalid channel configuration") + } + }, + t._parseMP3AudioData = function (A, M, t, g) { + if (!(t < 4)) { + this._littleEndian; + var I = new Uint8Array(A, M, t), + A = null; + if (g) { + if (255 !== I[0]) + return; + var M = I[1] >>> 3 & 3, + t = (6 & I[1]) >> 1, + e = (240 & I[2]) >>> 4, + i = (12 & I[2]) >>> 2, + g = 3 != (I[3] >>> 6 & 3) ? 2 : 1, + T = 0, + E = 0; + switch (M) { + case 0: + T = this._mpegAudioV25SampleRateTable[i]; + break; + case 2: + T = this._mpegAudioV20SampleRateTable[i]; + break; + case 3: + T = this._mpegAudioV10SampleRateTable[i] + } + switch (t) { + case 1: + e < this._mpegAudioL3BitRateTable.length && (E = this._mpegAudioL3BitRateTable[e]); + break; + case 2: + e < this._mpegAudioL2BitRateTable.length && (E = this._mpegAudioL2BitRateTable[e]); + break; + case 3: + e < this._mpegAudioL1BitRateTable.length && (E = this._mpegAudioL1BitRateTable[e]) + } + A = { + bitRate: E, + samplingRate: T, + channelCount: g, + codec: "mp3", + originalCodec: "mp3" + } + } else + A = I; + return A + } + d.a.w(this.TAG, "Flv: Invalid MP3 packet, header missing!") + }, + t._parseVideoData = function (A, M, t, g, I) { + if (t <= 1) + d.a.w(this.TAG, "Flv: Invalid video packet, missing VideoData payload!"); + else if (!0 !== this._hasVideoFlagOverrided || !1 !== this._hasVideo) { + var e = new Uint8Array(A, M, t)[0], + i = (240 & e) >>> 4, + e = 15 & e; + if (7 == e || 12 == e) + return this._parseAVCAndHEVCVideoPacket(e, A, M + 1, t - 1, g, I, i), e; + this._onError(L.a.CODEC_UNSUPPORTED, "Flv: Unsupported codec in video frame: " + e) + } + }, + t._parseAVCAndHEVCVideoPacket = function (A, M, t, g, I, e, i) { + var T, + E, + N; + g < 4 ? d.a.w(this.TAG, "Flv: Invalid AVC packet, missing AVCPacketType or/and CompositionTime") : (N = this._littleEndian, E = (T = new DataView(M, t, g)).getUint8(0), N = (16777215 & T.getUint32(0, !N)) << 8 >> 8, 0 === E ? 7 == A ? (n.h("H264"), this._parseAVCDecoderConfigurationRecord(M, t + 4, g - 4)) : (n.h("H265"), this._parseHEVCDecoderConfigurationRecord(M, t + 4, g - 4)) : 1 === E ? 7 == A ? this._parseAVCVideoData(M, t + 4, g - 4, I, e, i, N) : this._parseHEVCVideoData(M, t + 4, g - 4, I, e, i, N) : 2 === E || this._onError(L.a.FORMAT_ERROR, "Flv: Invalid video packet type " + E)) + }, + t._parseAVCDecoderConfigurationRecord = function (A, M, t) { + if (t < 7) + d.a.w(this.TAG, "Flv: Invalid AVCDecoderConfigurationRecord, lack of data!"); + else { + var g = this._videoMetadata, + I = this._videoTrack, + e = this._littleEndian, + i = new DataView(A, M, t); + g ? void 0 !== g.avcc && d.a.w(this.TAG, "Found another AVCDecoderConfigurationRecord!") : (!1 === this._hasVideo && !1 === this._hasVideoFlagOverrided && (this._hasVideo = !0, this._mediaInfo.hasVideo = !0), (g = this._videoMetadata = {}).type = "video", g.id = I.id, g.timescale = this._timescale, g.duration = this._duration); + var T = i.getUint8(0), + I = i.getUint8(1); + i.getUint8(2), + i.getUint8(3); + if (1 === T && 0 !== I) + if (this._naluLengthSize = 1 + (3 & i.getUint8(4)), 3 === this._naluLengthSize || 4 === this._naluLengthSize) { + var E = 31 & i.getUint8(5); + if (0 != E) { + 1 < E && d.a.w(this.TAG, "Flv: Strange AVCDecoderConfigurationRecord: SPS Count = " + E); + for (var N = 6, n = 0; n < E; n++) { + var D = i.getUint16(N, !e); + if (N += 2, 0 !== D) { + var C = new Uint8Array(A, M + N, D); + this._AVC_SPS = new Uint8Array(D + 4), + N += D, + this._AVC_SPS.set(this._StartCode, 0), + this._AVC_SPS.set(C, 4); + var r = j.a.parseSPS(C); + if (0 === n) { + g.codecWidth = r.codec_size.width, + g.codecHeight = r.codec_size.height, + g.presentWidth = r.present_size.width, + g.presentHeight = r.present_size.height, + g.profile = r.profile_string, + g.level = r.level_string, + g.bitDepth = r.bit_depth, + g.chromaFormat = r.chroma_format, + g.sarRatio = r.sar_ratio, + g.frameRate = r.frame_rate, + !1 !== r.frame_rate.fixed && 0 !== r.frame_rate.fps_num && 0 !== r.frame_rate.fps_den || (g.frameRate = this._referenceFrameRate); + var c = g.frameRate.fps_den, + D = g.frameRate.fps_num; + g.refSampleDuration = g.timescale * (c / D); + for (var o = C.subarray(1, 4), B = "avc1.", Q = 0; Q < 3; Q++) { + var a = o[Q].toString(16); + a.length < 2 && (a = "0" + a), + B += a + } + g.codec = B; + C = this._mediaInfo; + C.width = g.codecWidth, + C.height = g.codecHeight, + C.fps = g.frameRate.fps, + C.profile = g.profile, + C.level = g.level, + C.refFrames = r.ref_frames, + C.chromaFormat = r.chroma_format_string, + C.sarNum = g.sarRatio.width, + C.sarDen = g.sarRatio.height, + C.videoCodec = B, + C.hasAudio ? null != C.audioCodec && (C.mimeType = 'video/x-flv; codecs="' + C.videoCodec + "," + C.audioCodec + '"') : C.mimeType = 'video/x-flv; codecs="' + C.videoCodec + '"', + C.isComplete() && this._onMediaInfo(C) + } + } + } + var h = i.getUint8(N); + if (0 !== h) { + 1 < h && d.a.w(this.TAG, "Flv: Strange AVCDecoderConfigurationRecord: PPS Count = " + h), + N++; + for (var s = 0; s < h; s++) { + var y, + w = i.getUint16(N, !e); + N += 2, + 0 !== w && (y = new Uint8Array(A, M + N, w), this._AVC_PPS = new Uint8Array(w + 4), this._AVC_PPS.set(this._StartCode, 0), this._AVC_PPS.set(y, 4), N += w) + } + g.avcc = new Uint8Array(t), + g.avcc.set(new Uint8Array(A, M, t), 0), + d.a.v(this.TAG, "Parsed AVCDecoderConfigurationRecord"), + this._isInitialMetadataDispatched() ? this._dispatch && (this._audioTrack.length || this._videoTrack.length) && this._onDataAvailable(this._audioTrack, this._videoTrack) : this._videoInitialMetadataDispatched = !0, + this._dispatch = !1, + this._onTrackMetadata("video", g), + d.a.i(this.TAG, "Video resolution: " + g.codecWidth + " x " + g.codecHeight) + } else + this._onError(L.a.FORMAT_ERROR, "Flv: Invalid AVCDecoderConfigurationRecord: No PPS") + } else + this._onError(L.a.FORMAT_ERROR, "Flv: Invalid AVCDecoderConfigurationRecord: No SPS") + } else + this._onError(L.a.FORMAT_ERROR, "Flv: Strange NaluLengthSizeMinusOne: " + (this._naluLengthSize - 1)); + else + this._onError(L.a.FORMAT_ERROR, "Flv: Invalid AVCDecoderConfigurationRecord") + } + }, + t._parseAVCVideoData = function (A, M, t, g, I, e, i) { + var T = this._littleEndian, + E = new DataView(A, M, t), + N = [], + n = 0, + D = 0, + C = this._naluLengthSize, + r = this._timestampBase + g, + c = 1 === e, + o = !0; + for (7 == this.videoCodecId && ("auto" !== this._config.decodeType && "hard" !== this._config.decodeType || (o = !1)); D < t; ) { + if (t <= D + 4) { + d.a.w(this.TAG, "Malformed Nalu near timestamp " + r + ", offset = " + D + ", dataSize = " + t); + break + } + var B = E.getUint32(D, !T); + if (3 === C && (B >>>= 8), t - C < B) + return void d.a.w(this.TAG, "Malformed Nalus near timestamp " + r + ", NaluSize > DataSize!"); + var Q = 31 & E.getUint8(D + C); + if (5 == Q) { + var a, + h, + c = !0; + N.length < 1 && this._AVC_SPS && 0 < this._AVC_SPS.length && (o ? (h = { + type: 7, + data: this._AVC_SPS + }, N.push(h), n += h.data.length, a = { + type: 8, + data: this._AVC_PPS + }, N.push(a), n += a.data.length) : (a = (h = this._AVC_SPS.subarray(0, this._AVC_SPS.length)).length - 4, h[0] = a >> 24, h[1] = a >> 16, h[2] = a >> 8, h[3] = 255 & a, a = { + type: 7, + data: h + }, N.push(a), n += a.data.length, a = (h = this._AVC_PPS.subarray(0, this._AVC_PPS.length)).length - 4, h[0] = a >> 24, h[1] = a >> 16, h[2] = a >> 8, h[3] = 255 & a, h = { + type: 8, + data: h + }, N.push(h), n += h.data.length)) + } else if (6 == Q) + if (N.length < 1) + if (5 == (31 & E.getUint8(D + C + 1))) { + for (var s = 0, y = 0, w = 0; w < 10; w++) { + var j = 255 & E.getUint8(D + C + 1 + 1 + y); + if (y++, s += j, 255 != j) + break + } + 16 < s && (L = new Uint8Array(A, M + D + C + 1 + y + 16 + 1, s - 16 - y + 1), new TextDecoder("utf-8").decode(L)) + } + var L = new Uint8Array(A, M + D, C + B), + Q = { + type: Q, + data: L + }; + N.push(Q), + n += L.byteLength, + D += C + B + } + N.length && (e = this._videoTrack, g = { + units: N, + length: n, + isKeyframe: c, + dts: r, + cts: i, + pts: r + i, + sts: g + }, c && (g.fileposition = I), e.samples.push(g), e.length += n) + }, + t._parseHEVCDecoderConfigurationRecord = function (A, M, t) { + if (t < 7) + d.a.w(this.TAG, "Flv: Invalid AVCDecoderConfigurationRecord, lack of data!"); + else { + var g = this._videoMetadata, + I = this._videoTrack, + e = this._littleEndian, + i = new DataView(A, M, t); + g ? void 0 !== g.avcc && d.a.w(this.TAG, "Found another AVCDecoderConfigurationRecord!") : (!1 === this._hasVideo && !1 === this._hasVideoFlagOverrided && (this._hasVideo = !0, this._mediaInfo.hasVideo = !0), (g = this._videoMetadata = {}).type = "video", g.id = I.id, g.timescale = this._timescale, g.duration = this._duration); + var T = i.getUint8(0), + t = i.getUint8(1), + I = i.getUint8(2), + g = i.getUint8(3); + if (0 !== T || 0 !== t || 0 !== I || 1 !== g) { + var E = 22, + N = i.getUint8(E); + E += 1; + for (var n = 0; n < N; n++) { + var D = i.getUint8(E); + E += 1; + i.getUint16(E, !e); + E += 2; + var C, + r = i.getUint16(E, !e); + E += 2, + 32 === D ? (C = new Uint8Array(A, M + E, r), this._HEVC_VPS = new Uint8Array(r + 4), this._HEVC_VPS.set(this._StartCode, 0), this._HEVC_VPS.set(C, 4)) : 33 === D ? (C = new Uint8Array(A, M + E, r), this._HEVC_SPS = new Uint8Array(r + 4), this._HEVC_SPS.set(this._StartCode, 0), this._HEVC_SPS.set(C, 4)) : 34 === D && (D = new Uint8Array(A, M + E, r), this._HEVC_PPS = new Uint8Array(r + 4), this._HEVC_PPS.set(this._StartCode, 0), this._HEVC_PPS.set(D, 4)), + E += r + } + } + this._isInitialMetadataDispatched() ? this._dispatch && (this._audioTrack.length || this._videoTrack.length) && this._onDataAvailable(this._audioTrack, this._videoTrack) : this._videoInitialMetadataDispatched = !0, + this._dispatch = !1 + } + }, + t._makeH265Header = function (A) { + var M = 2; + switch (A) { + case 78: + case 80: + M = 1; + break; + case 64: + case 66: + case 32: + case 34: + case 36: + case 38: + case 40: + case 42: + M = 1 + } + return M + }, + t._parseHEVCVideoData = function (A, M, t, g, I, e, i) { + for (var T = this._littleEndian, E = new DataView(A, M, t), N = this._timestampBase + g, n = 1 === e, D = [], C = 0, r = 0; r < t; ) { + if (t <= r + 4) { + d.a.w(this.TAG, "Malformed Nalu near timestamp " + N + ", offset = " + r + ", dataSize = " + t); + break + } + var c = E.getUint8(r), + o = E.getUint8(r + 1), + B = E.getUint8(r + 2), + Q = E.getUint8(r + 3); + if (0 !== c || 0 !== o || 0 !== B || 1 !== Q) { + o = E.getUint32(r, !T); + r += 4; + B = E.getUint8(r); + if (r += 1, t - 4 < o) + return void d.a.w(this.TAG, "Malformed Nalus near timestamp " + N + ", NaluSize > DataSize!"); + if (t < o + r - 1) + break; + var a, + h, + Q = E.getUint8(r - 1), + B = this._makeH265Header(Q); + 32 !== Q && 34 !== Q && 36 !== Q && 38 !== Q && 40 !== Q && 42 !== Q || D.length < 1 && (this._HEVC_VPS && (a = { + type: 5, + data: this._HEVC_VPS + }, D.push(a), C += this._HEVC_VPS.length), this._HEVC_SPS && (a = { + type: 6, + data: this._HEVC_SPS + }, D.push(a), C += this._HEVC_SPS.length), this._HEVC_PPS && (h = { + type: 7, + data: this._HEVC_PPS + }, D.push(h), C += this._HEVC_PPS.length)), + 1 === B && this._HEVC_VPS && this._HEVC_VPS[0], + 0 <= M + r - 1 - 4 && 0 < o && ((h = new Uint8Array(A, M + r - 1 - 4, o + 4))[0] = 0, h[1] = 0, h[2] = 0, h[3] = 1, B = { + type: 5, + data: h + }, D.push(B), C += h.length), + r += o - 1 + } + } + this._DebugBuf && (this._DebugBufPos < 1048576 ? (this._DebugBuf.set(data2, this._DebugBufPos), this._DebugBufPos += data2.length) : this._DebugBufPos = 0), + D.length && (e = this._videoTrack, g = { + units: D, + length: C, + isKeyframe: n, + dts: N, + cts: i, + pts: N + i, + sts: g + }, n && (g.fileposition = I), e.samples.push(g), e.length += C) + }, + A = D, + (t = [{ + key: "onTrackMetadata", + get: function () { + return this._onTrackMetadata + }, + set: function (A) { + this._onTrackMetadata = A + } + }, { + key: "onMediaInfo", + get: function () { + return this._onMediaInfo + }, + set: function (A) { + this._onMediaInfo = A + } + }, { + key: "onMetaDataArrived", + get: function () { + return this._onMetaDataArrived + }, + set: function (A) { + this._onMetaDataArrived = A + } + }, { + key: "onScriptDataArrived", + get: function () { + return this._onScriptDataArrived + }, + set: function (A) { + this._onScriptDataArrived = A + } + }, { + key: "onError", + get: function () { + return this._onError + }, + set: function (A) { + this._onError = A + } + }, { + key: "onDataAvailable", + get: function () { + return this._onDataAvailable + }, + set: function (A) { + this._onDataAvailable = A + } + }, { + key: "timestampBase", + get: function () { + return this._timestampBase + }, + set: function (A) { + this._timestampBase = A + } + }, { + key: "overridedDuration", + get: function () { + return this._duration + }, + set: function (A) { + this._durationOverrided = !0, + this._duration = A, + this._mediaInfo.duration = A + } + }, { + key: "overridedHasAudio", + set: function (A) { + this._hasAudioFlagOverrided = !0, + this._hasAudio = A, + this._mediaInfo.hasAudio = A + } + }, { + key: "overridedHasVideo", + set: function (A) { + this._hasVideoFlagOverrided = !0, + this._hasVideo = A, + this._mediaInfo.hasVideo = A + } + } + ]) && E(A.prototype, t), + M && E(A, M), + D + } + (), + M.a = t + }, function (A, M, t) { + "use strict"; + var g = t(3), + I = t(62), + e = t(4).Buffer, + i = new Array(16); + function T() { + I.call(this, 64), + this._a = 1732584193, + this._b = 4023233417, + this._c = 2562383102, + this._d = 271733878 + } + function E(A, M) { + return A << M | A >>> 32 - M + } + function N(A, M, t, g, I, e, i) { + return E(A + (M & t | ~M & g) + I + e | 0, i) + M | 0 + } + function n(A, M, t, g, I, e, i) { + return E(A + (M & g | t & ~g) + I + e | 0, i) + M | 0 + } + function D(A, M, t, g, I, e, i) { + return E(A + (M ^ t ^ g) + I + e | 0, i) + M | 0 + } + function C(A, M, t, g, I, e, i) { + return E(A + (t ^ (M | ~g)) + I + e | 0, i) + M | 0 + } + g(T, I), + T.prototype._update = function () { + for (var A = i, M = 0; M < 16; ++M) + A[M] = this._block.readInt32LE(4 * M); + var t = N(t = this._a, e = this._b, I = this._c, g = this._d, A[0], 3614090360, 7), + g = N(g, t, e, I, A[1], 3905402710, 12), + I = N(I, g, t, e, A[2], 606105819, 17), + e = N(e, I, g, t, A[3], 3250441966, 22); + t = N(t, e, I, g, A[4], 4118548399, 7), + g = N(g, t, e, I, A[5], 1200080426, 12), + I = N(I, g, t, e, A[6], 2821735955, 17), + e = N(e, I, g, t, A[7], 4249261313, 22), + t = N(t, e, I, g, A[8], 1770035416, 7), + g = N(g, t, e, I, A[9], 2336552879, 12), + I = N(I, g, t, e, A[10], 4294925233, 17), + e = N(e, I, g, t, A[11], 2304563134, 22), + t = N(t, e, I, g, A[12], 1804603682, 7), + g = N(g, t, e, I, A[13], 4254626195, 12), + I = N(I, g, t, e, A[14], 2792965006, 17), + t = n(t, e = N(e, I, g, t, A[15], 1236535329, 22), I, g, A[1], 4129170786, 5), + g = n(g, t, e, I, A[6], 3225465664, 9), + I = n(I, g, t, e, A[11], 643717713, 14), + e = n(e, I, g, t, A[0], 3921069994, 20), + t = n(t, e, I, g, A[5], 3593408605, 5), + g = n(g, t, e, I, A[10], 38016083, 9), + I = n(I, g, t, e, A[15], 3634488961, 14), + e = n(e, I, g, t, A[4], 3889429448, 20), + t = n(t, e, I, g, A[9], 568446438, 5), + g = n(g, t, e, I, A[14], 3275163606, 9), + I = n(I, g, t, e, A[3], 4107603335, 14), + e = n(e, I, g, t, A[8], 1163531501, 20), + t = n(t, e, I, g, A[13], 2850285829, 5), + g = n(g, t, e, I, A[2], 4243563512, 9), + I = n(I, g, t, e, A[7], 1735328473, 14), + t = D(t, e = n(e, I, g, t, A[12], 2368359562, 20), I, g, A[5], 4294588738, 4), + g = D(g, t, e, I, A[8], 2272392833, 11), + I = D(I, g, t, e, A[11], 1839030562, 16), + e = D(e, I, g, t, A[14], 4259657740, 23), + t = D(t, e, I, g, A[1], 2763975236, 4), + g = D(g, t, e, I, A[4], 1272893353, 11), + I = D(I, g, t, e, A[7], 4139469664, 16), + e = D(e, I, g, t, A[10], 3200236656, 23), + t = D(t, e, I, g, A[13], 681279174, 4), + g = D(g, t, e, I, A[0], 3936430074, 11), + I = D(I, g, t, e, A[3], 3572445317, 16), + e = D(e, I, g, t, A[6], 76029189, 23), + t = D(t, e, I, g, A[9], 3654602809, 4), + g = D(g, t, e, I, A[12], 3873151461, 11), + I = D(I, g, t, e, A[15], 530742520, 16), + t = C(t, e = D(e, I, g, t, A[2], 3299628645, 23), I, g, A[0], 4096336452, 6), + g = C(g, t, e, I, A[7], 1126891415, 10), + I = C(I, g, t, e, A[14], 2878612391, 15), + e = C(e, I, g, t, A[5], 4237533241, 21), + t = C(t, e, I, g, A[12], 1700485571, 6), + g = C(g, t, e, I, A[3], 2399980690, 10), + I = C(I, g, t, e, A[10], 4293915773, 15), + e = C(e, I, g, t, A[1], 2240044497, 21), + t = C(t, e, I, g, A[8], 1873313359, 6), + g = C(g, t, e, I, A[15], 4264355552, 10), + I = C(I, g, t, e, A[6], 2734768916, 15), + e = C(e, I, g, t, A[13], 1309151649, 21), + t = C(t, e, I, g, A[4], 4149444226, 6), + g = C(g, t, e, I, A[11], 3174756917, 10), + I = C(I, g, t, e, A[2], 718787259, 15), + e = C(e, I, g, t, A[9], 3951481745, 21), + this._a = this._a + t | 0, + this._b = this._b + e | 0, + this._c = this._c + I | 0, + this._d = this._d + g | 0 + }, + T.prototype._digest = function () { + this._block[this._blockOffset++] = 128, + 56 < this._blockOffset && (this._block.fill(0, this._blockOffset, 64), this._update(), this._blockOffset = 0), + this._block.fill(0, this._blockOffset, 56), + this._block.writeUInt32LE(this._length[0], 56), + this._block.writeUInt32LE(this._length[1], 60), + this._update(); + var A = e.allocUnsafe(16); + return A.writeInt32LE(this._a, 0), + A.writeInt32LE(this._b, 4), + A.writeInt32LE(this._c, 8), + A.writeInt32LE(this._d, 12), + A + }, + A.exports = T + }, function (A, M, t) { + "use strict"; + var Q = t(19).codes.ERR_STREAM_PREMATURE_CLOSE; + function a() {} + A.exports = function A(M, t, g) { + if ("function" == typeof t) + return A(M, null, t); + var I, + e; + I = g || a, + e = !1, + g = function () { + if (!e) { + e = !0; + for (var A = arguments.length, M = new Array(A), t = 0; t < A; t++) + M[t] = arguments[t]; + I.apply(this, M) + } + }; + function i() { + M.writable || o() + } + function T() { + B = !(C = !1), + r || g.call(M) + } + function E(A) { + g.call(M, A) + } + function N() { + var A; + return C && !B ? 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(e = Function.prototype[Symbol.hasInstance], Object.defineProperty(N, Symbol.hasInstance, { + value: function (A) { + return !!e.call(this, A) || this === N && (A && A._writableState instanceof E) + } + })) : e = function (A) { + return A instanceof this + }, + N.prototype.pipe = function () { + this.emit("error", new Error("Cannot pipe, not readable")) + }, + N.prototype.write = function (A, M, t) { + var g, + I, + e, + i, + T, + E, + N = this._writableState, + n = !1, + D = !N.objectMode && (I = A, r.isBuffer(I) || I instanceof c); + return D && !r.isBuffer(A) && (e = A, A = r.from(e)), + "function" == typeof M && (t = M, M = null), + M = D ? "buffer" : M || N.defaultEncoding, + "function" != typeof t && (t = o), + N.ended ? (i = this, T = t, E = new Error("write after end"), i.emit("error", E), C.nextTick(T, E)) : (D || (g = this, I = N, e = t, T = !(i = !0), null === (E = A) ? T = new TypeError("May not write null values to stream") : "string" == typeof E || void 0 === E || I.objectMode || (T = new TypeError("Invalid non-string/buffer chunk")), T && (g.emit("error", T), C.nextTick(e, T), i = !1), i)) && (N.pendingcb++, n = function (A, M, t, g, I, e) { + t || (E = function (A, M, t) { + A.objectMode || !1 === A.decodeStrings || "string" != typeof M || (M = r.from(M, t)); + return M + } + (M, g, I), g !== E && (t = !0, I = "buffer", g = E)); + var i = M.objectMode ? 1 : g.length; + M.length += i; + var T = M.length < M.highWaterMark; + T || (M.needDrain = !0); { + var E; + M.writing || M.corked ? (E = M.lastBufferedRequest, M.lastBufferedRequest = { + chunk: g, + encoding: I, + isBuf: t, + callback: e, + next: null + }, E ? E.next = M.lastBufferedRequest : M.bufferedRequest = M.lastBufferedRequest, M.bufferedRequestCount += 1) : B(A, M, !1, i, g, I, e) + } + return T + } + (this, N, D, A, M, t)), + n + }, + N.prototype.cork = function () { + this._writableState.corked++ + }, + N.prototype.uncork = function () { + var A = this._writableState; + A.corked && (A.corked--, A.writing || A.corked || A.finished || A.bufferProcessing || !A.bufferedRequest || Q(this, A)) + }, + N.prototype.setDefaultEncoding = function (A) { + if ("string" == typeof A && (A = A.toLowerCase()), !(-1 < ["hex", "utf8", "utf-8", "ascii", "binary", "base64", "ucs2", "ucs-2", "utf16le", "utf-16le", "raw"].indexOf((A + "").toLowerCase()))) + throw new TypeError("Unknown encoding: " + A); + return this._writableState.defaultEncoding = A, + this + }, + Object.defineProperty(N.prototype, "writableHighWaterMark", { + enumerable: !1, + get: function () { + return this._writableState.highWaterMark + } + }), + N.prototype._write = function (A, M, t) { + t(new Error("_write() is not implemented")) + }, + N.prototype._writev = null, + N.prototype.end = function (A, M, t) { + var g = this._writableState; + "function" == typeof A ? (t = A, M = A = null) : "function" == typeof M && (t = M, M = null), + null != A && this.write(A, M), + g.corked && (g.corked = 1, this.uncork()), + g.ending || g.finished || (M = this, t = t, (g = g).ending = !0, s(M, g), t && (g.finished ? C.nextTick(t) : M.once("finish", t)), g.ended = !0, M.writable = !1) + }, + Object.defineProperty(N.prototype, "destroyed", { + get: function () { + return void 0 !== this._writableState && this._writableState.destroyed + }, + set: function (A) { + this._writableState && (this._writableState.destroyed = A) + } + }), + N.prototype.destroy = t.destroy, + N.prototype._undestroy = t.undestroy, + N.prototype._destroy = function (A, M) { + this.end(), + M(A) + } + }).call(this, w(8), w(139).setImmediate, w(10)) + }, function (A, M, t) { + "use strict"; + var g = t(11); + function I(A) { + this.options = A, + this.type = this.options.type, + this.blockSize = 8, + this._init(), + this.buffer = new Array(this.blockSize), + this.bufferOff = 0 + } + (A.exports = I).prototype._init = function () {}, + I.prototype.update = function (A) { + return 0 === A.length ? [] : "decrypt" === this.type ? this._updateDecrypt(A) : this._updateEncrypt(A) + }, + I.prototype._buffer = function (A, M) { + for (var t = Math.min(this.buffer.length - this.bufferOff, A.length - M), g = 0; g < t; g++) + this.buffer[this.bufferOff + g] = A[M + g]; + return this.bufferOff += t, + t + }, + I.prototype._flushBuffer = function (A, M) { + return this._update(this.buffer, 0, A, M), + this.bufferOff = 0, + this.blockSize + }, + I.prototype._updateEncrypt = function (A) { + var M = 0, + t = 0, + g = (this.bufferOff + A.length) / this.blockSize | 0, + I = new Array(g * this.blockSize); + 0 !== this.bufferOff && (M += this._buffer(A, M), this.bufferOff === this.buffer.length && (t += this._flushBuffer(I, t))); + for (var e = A.length - (A.length - M) % this.blockSize; M < e; M += this.blockSize) + this._update(A, M, I, t), t += this.blockSize; + for (; M < A.length; M++, this.bufferOff++) + this.buffer[this.bufferOff] = A[M]; + return I + }, + I.prototype._updateDecrypt = function (A) { + for (var M = 0, t = 0, g = Math.ceil((this.bufferOff + A.length) / this.blockSize) - 1, I = new Array(g * this.blockSize); 0 < g; g--) + M += this._buffer(A, M), t += this._flushBuffer(I, t); + return M += this._buffer(A, M), + I + }, + I.prototype.final = function (A) { + var M; + return A && (M = this.update(A)), + A = "encrypt" === this.type ? this._finalEncrypt() : this._finalDecrypt(), + M ? M.concat(A) : A + }, + I.prototype._pad = function (A, M) { + if (0 === M) + return !1; + for (; M < A.length; ) + A[M++] = 0; + return !0 + }, + I.prototype._finalEncrypt = function () { + if (!this._pad(this.buffer, this.bufferOff)) + return []; + var A = new Array(this.blockSize); + return this._update(this.buffer, 0, A, 0), + A + }, + I.prototype._unpad = function (A) { + return A + }, + I.prototype._finalDecrypt = function () { + g.equal(this.bufferOff, this.blockSize, "Not enough data to decrypt"); + var A = new Array(this.blockSize); + return this._flushBuffer(A, 0), + this._unpad(A) + } + }, function (A, M, t) { + var g = t(154), + I = t(162), + e = t(89); + M.createCipher = M.Cipher = g.createCipher, + M.createCipheriv = M.Cipheriv = g.createCipheriv, + M.createDecipher = M.Decipher = I.createDecipher, + M.createDecipheriv = M.Decipheriv = I.createDecipheriv, + M.listCiphers = M.getCiphers = function () { + return Object.keys(e) + } + }, function (A, M, t) { + var g, + I = { + ECB: t(155), + CBC: t(156), + CFB: t(157), + CFB8: t(158), + CFB1: t(159), + OFB: t(160), + CTR: t(87), + GCM: t(87) + }, + e = t(89); + for (g in e) + e[g].module = I[e[g].mode]; + A.exports = e + }, function (A, M, t) { + var g; + function I(A) { + this.rand = A + } + if (A.exports = function (A) { + return (g = g || new I(null)).generate(A) + }, (A.exports.Rand = I).prototype.generate = function (A) { + return this._rand(A) + }, I.prototype._rand = function (A) { + if (this.rand.getBytes) + return this.rand.getBytes(A); + for (var M = new Uint8Array(A), t = 0; t < M.length; t++) + M[t] = this.rand.getByte(); + return M + }, "object" == typeof self)self.crypto && self.crypto.getRandomValues ? I.prototype._rand = function (A) { + A = new Uint8Array(A); + return self.crypto.getRandomValues(A), + A + } + : self.msCrypto && self.msCrypto.getRandomValues ? I.prototype._rand = function (A) { + A = new Uint8Array(A); + return self.msCrypto.getRandomValues(A), + A + } + : "object" == typeof window && (I.prototype._rand = function () { + throw new Error("Not implemented yet") + }); + else + try { + var e = t(166); + if ("function" != typeof e.randomBytes) + throw new Error("Not supported"); + I.prototype._rand = function (A) { + return e.randomBytes(A) + } + } catch (A) {} + }, function (M, A, t) { + (function (E) { + var N = t(49), + g = t(18); + function n(A) { + for (var M, t = A.modulus.byteLength(); M = new N(g(t)), 0 <= M.cmp(A.modulus) || !M.umod(A.prime1) || !M.umod(A.prime2); ); + return M + } + function A(A, M) { + var t = { + blinder: (i = n(T = M)).toRed(N.mont(T.modulus)).redPow(new N(T.publicExponent)).fromRed(), + unblinder: i.invm(T.modulus) + }, + g = M.modulus.byteLength(), + I = new N(A).mul(t.blinder).umod(M.modulus), + e = I.toRed(N.mont(M.prime1)), + i = I.toRed(N.mont(M.prime2)), + T = M.coefficient, + A = M.prime1, + I = M.prime2, + e = e.redPow(M.exponent1).fromRed(), + i = i.redPow(M.exponent2).fromRed(), + I = e.isub(i).imul(T).umod(A).imul(I); + return i.iadd(I).imul(t.unblinder).umod(M.modulus).toArrayLike(E, "be", g) + } + A.getr = n, + M.exports = A + }).call(this, t(9).Buffer) + }, function (A, M, d) { + (function (A) { + !function (A, M) { + "use strict"; + function o(A, M) { + if (!A) + throw new Error(M || "Assertion failed") + } + function t(A, M) { + A.super_ = M; + function t() {} + t.prototype = M.prototype, + A.prototype = new t, + A.prototype.constructor = A + } + function B(A, M, t) { + if (B.isBN(A)) + return A; + this.negative = 0, + this.words = null, + this.length = 0, + (this.red = null) !== A && ("le" !== M && "be" !== M || (t = M, M = 10), this._init(A || 0, M || 10, t || "be")) + } + var g; + "object" == typeof A ? A.exports = B : M.BN = B, + (B.BN = B).wordSize = 26; + try { + g = d(171).Buffer + } catch (A) {} + function i(A, M, t) { + for (var g = 0, I = Math.min(A.length, t), e = 0, i = M; i < I; i++) { + var T = A.charCodeAt(i) - 48; + g <<= 4, + g |= T = 49 <= T && T <= 54 ? T - 49 + 10 : 17 <= T && T <= 22 ? T - 17 + 10 : T, + e |= T + } + return o(!(240 & e), "Invalid character in " + A), + g + } + function D(A, M, t, g) { + for (var I = 0, e = 0, i = Math.min(A.length, t), T = M; T < i; T++) { + var E = A.charCodeAt(T) - 48; + I *= g, + e = 49 <= E ? E - 49 + 10 : 17 <= E ? E - 17 + 10 : E, + o(0 <= E && e < g, "Invalid character"), + I += e + } + return I + } + function I(A, M) { + A.words = M.words, + A.length = M.length, + A.negative = M.negative, + A.red = M.red + } + if (B.isBN = function (A) { + return A instanceof B || null !== A && "object" == typeof A && A.constructor.wordSize === B.wordSize && Array.isArray(A.words) + }, B.max = function (A, M) { + return 0 < A.cmp(M) ? A : M + }, B.min = function (A, M) { + return A.cmp(M) < 0 ? A : M + }, B.prototype._init = function (A, M, t) { + if ("number" == typeof A) + return this._initNumber(A, M, t); + if ("object" == typeof A) + return this._initArray(A, M, t); + "hex" === M && (M = 16), + o(M === (0 | M) && 2 <= M && M <= 36); + var g = 0; + "-" === (A = A.toString().replace(/\s+/g, ""))[0] && g++, + 16 === M ? this._parseHex(A, g) : this._parseBase(A, M, g), + "-" === A[0] && (this.negative = 1), + this._strip(), + "le" === t && this._initArray(this.toArray(), M, t) + }, B.prototype._initNumber = function (A, M, t) { + A < 0 && (this.negative = 1, A = -A), + A < 67108864 ? (this.words = [67108863 & A], this.length = 1) : A < 4503599627370496 ? (this.words = [67108863 & A, A / 67108864 & 67108863], this.length = 2) : (o(A < 9007199254740992), this.words = [67108863 & A, A / 67108864 & 67108863, 1], this.length = 3), + "le" === t && this._initArray(this.toArray(), M, t) + }, B.prototype._initArray = function (A, M, t) { + if (o("number" == typeof A.length), A.length <= 0) + return this.words = [0], this.length = 1, this; + this.length = Math.ceil(A.length / 3), + this.words = new Array(this.length); + for (var g, I, e = 0; e < this.length; e++) + this.words[e] = 0; + var i = 0; + if ("be" === t) + for (e = A.length - 1, g = 0; 0 <= e; e -= 3) + I = A[e] | A[e - 1] << 8 | A[e - 2] << 16, this.words[g] |= I << i & 67108863, this.words[g + 1] = I >>> 26 - i & 67108863, 26 <= (i += 24) && (i -= 26, g++); + else if ("le" === t) + for (g = e = 0; e < A.length; e += 3) + I = A[e] | A[e + 1] << 8 | A[e + 2] << 16, this.words[g] |= I << i & 67108863, this.words[g + 1] = I >>> 26 - i & 67108863, 26 <= (i += 24) && (i -= 26, g++); + return this._strip() + }, B.prototype._parseHex = function (A, M) { + this.length = Math.ceil((A.length - M) / 6), + this.words = new Array(this.length); + for (var t, g = 0; g < this.length; g++) + this.words[g] = 0; + for (var I = 0, g = A.length - 6, e = 0; M <= g; g -= 6) + t = i(A, g, g + 6), this.words[e] |= t << I & 67108863, this.words[e + 1] |= t >>> 26 - I & 4194303, 26 <= (I += 24) && (I -= 26, e++); + g + 6 !== M && (t = i(A, M, g + 6), this.words[e] |= t << I & 67108863, this.words[e + 1] |= t >>> 26 - I & 4194303), + this._strip() + }, B.prototype._parseBase = function (A, M, t) { + this.words = [0]; + for (var g = 0, I = this.length = 1; I <= 67108863; I *= M) + g++; + g--, + I = I / M | 0; + for (var e = A.length - t, i = e % g, T = Math.min(e, e - i) + t, E = 0, N = t; N < T; N += g) + E = D(A, N, N + g, M), this.imuln(I), this.words[0] + E < 67108864 ? this.words[0] += E : this._iaddn(E); + if (0 != i) { + for (var n = 1, E = D(A, N, A.length, M), N = 0; N < i; N++) + n *= M; + this.imuln(n), + this.words[0] + E < 67108864 ? this.words[0] += E : this._iaddn(E) + } + }, B.prototype.copy = function (A) { + A.words = new Array(this.length); + for (var M = 0; M < this.length; M++) + A.words[M] = this.words[M]; + A.length = this.length, + A.negative = this.negative, + A.red = this.red + }, B.prototype._move = function (A) { + I(A, this) + }, B.prototype.clone = function () { + var A = new B(null); + return this.copy(A), + A + }, B.prototype._expand = function (A) { + for (; this.length < A; ) + this.words[this.length++] = 0; + return this + }, B.prototype._strip = function () { + for (; 1 < this.length && 0 === this.words[this.length - 1]; ) + this.length--; + return this._normSign() + }, B.prototype._normSign = function () { + return 1 === this.length && 0 === this.words[0] && (this.negative = 0), + this + }, "undefined" != typeof Symbol && "function" == typeof Symbol.for)try { + B.prototype[Symbol.for("nodejs.util.inspect.custom")] = e + } catch (A) { + B.prototype.inspect = e + } + else + B.prototype.inspect = e; + function e() { + return (this.red ? "" + } + var C = ["", "0", "00", "000", "0000", "00000", "000000", "0000000", "00000000", "000000000", "0000000000", "00000000000", "000000000000", "0000000000000", "00000000000000", "000000000000000", "0000000000000000", "00000000000000000", "000000000000000000", "0000000000000000000", "00000000000000000000", "000000000000000000000", "0000000000000000000000", "00000000000000000000000", "000000000000000000000000", "0000000000000000000000000"], + r = [0, 0, 25, 16, 12, 11, 10, 9, 8, 8, 7, 7, 7, 7, 6, 6, 6, 6, 6, 6, 6, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5], + c = [0, 0, 33554432, 43046721, 16777216, 48828125, 60466176, 40353607, 16777216, 43046721, 1e7, 19487171, 35831808, 62748517, 7529536, 11390625, 16777216, 24137569, 34012224, 47045881, 64e6, 4084101, 5153632, 6436343, 7962624, 9765625, 11881376, 14348907, 17210368, 20511149, 243e5, 28629151, 33554432, 39135393, 45435424, 52521875, 60466176]; + function T(A, M, t) { + t.negative = M.negative ^ A.negative; + var g = A.length + M.length | 0, + g = (t.length = g) - 1 | 0, + I = 67108863 & (D = (0 | A.words[0]) * (0 | M.words[0])), + e = D / 67108864 | 0; + t.words[0] = I; + for (var i = 1; i < g; i++) { + for (var T = e >>> 26, E = 67108863 & e, N = Math.min(i, M.length - 1), n = Math.max(0, i - A.length + 1); n <= N; n++) { + var D, + C = i - n | 0; + T += (D = (0 | A.words[C]) * (0 | M.words[n]) + E) / 67108864 | 0, + E = 67108863 & D + } + t.words[i] = 0 | E, + e = 0 | T + } + return 0 !== e ? t.words[i] = 0 | e : t.length--, + t._strip() + } + B.prototype.toString = function (A, M) { + if (M = 0 | M || 1, 16 === (A = A || 10) || "hex" === A) { + T = ""; + for (var t = 0, g = 0, I = 0; I < this.length; I++) { + var e = this.words[I], + i = (16777215 & (e << t | g)).toString(16), + T = 0 !== (g = e >>> 24 - t & 16777215) || I !== this.length - 1 ? C[6 - i.length] + i + T : i + T; + 26 <= (t += 2) && (t -= 26, I--) + } + for (0 !== g && (T = g.toString(16) + T); T.length % M != 0; ) + T = "0" + T; + return 0 !== this.negative && (T = "-" + T), + T + } + if (A === (0 | A) && 2 <= A && A <= 36) { + var E = r[A], + N = c[A]; + for (T = "", (n = this.clone()).negative = 0; !n.isZero(); ) { + var n, + D = n.modrn(N).toString(A); + T = (n = n.idivn(N)).isZero() ? D + T : C[E - D.length] + D + T + } + for (this.isZero() && (T = "0" + T); T.length % M != 0; ) + T = "0" + T; + return 0 !== this.negative && (T = "-" + T), + T + } + o(!1, "Base should be between 2 and 36") + }, + B.prototype.toNumber = function () { + var A = this.words[0]; + return 2 === this.length ? A += 67108864 * this.words[1] : 3 === this.length && 1 === this.words[2] ? A += 4503599627370496 + 67108864 * this.words[1] : 2 < this.length && o(!1, "Number can only safely store up to 53 bits"), + 0 !== this.negative ? -A : A + }, + B.prototype.toJSON = function () { + return this.toString(16, 2) + }, + g && (B.prototype.toBuffer = function (A, M) { + return this.toArrayLike(g, A, M) + }), + B.prototype.toArray = function (A, M) { + return this.toArrayLike(Array, A, M) + }, + B.prototype.toArrayLike = function (A, M, t) { + this._strip(); + var g = this.byteLength(), + t = t || Math.max(1, g); + o(g <= t, "byte array longer than desired length"), + o(0 < t, "Requested array length <= 0"); + t = t, + t = (A = A).allocUnsafe ? A.allocUnsafe(t) : new A(t); + return this["_toArrayLike" + ("le" === M ? "LE" : "BE")](t, g), + t + }, + B.prototype._toArrayLikeLE = function (A, M) { + for (var t = 0, g = 0, I = 0, e = 0; I < this.length; I++) { + var i = this.words[I] << e | g; + A[t++] = 255 & i, + t < A.length && (A[t++] = i >> 8 & 255), + t < A.length && (A[t++] = i >> 16 & 255), + 6 === e ? (t < A.length && (A[t++] = i >> 24 & 255), e = g = 0) : (g = i >>> 24, e += 2) + } + if (t < A.length) + for (A[t++] = g; t < A.length; ) + A[t++] = 0 + }, + B.prototype._toArrayLikeBE = function (A, M) { + for (var t = A.length - 1, g = 0, I = 0, e = 0; I < this.length; I++) { + var i = this.words[I] << e | g; + A[t--] = 255 & i, + 0 <= t && (A[t--] = i >> 8 & 255), + 0 <= t && (A[t--] = i >> 16 & 255), + 6 === e ? (0 <= t && (A[t--] = i >> 24 & 255), e = g = 0) : (g = i >>> 24, e += 2) + } + if (0 <= t) + for (A[t--] = g; 0 <= t; ) + A[t--] = 0 + }, + Math.clz32 ? B.prototype._countBits = function (A) { + return 32 - Math.clz32(A) + } + : B.prototype._countBits = function (A) { + var M = A, + A = 0; + return 4096 <= M && (A += 13, M >>>= 13), + 64 <= M && (A += 7, M >>>= 7), + 8 <= M && (A += 4, M >>>= 4), + 2 <= M && (A += 2, M >>>= 2), + A + M + }, + B.prototype._zeroBits = function (A) { + if (0 === A) + return 26; + var M = A, + A = 0; + return 0 == (8191 & M) && (A += 13, M >>>= 13), + 0 == (127 & M) && (A += 7, M >>>= 7), + 0 == (15 & M) && (A += 4, M >>>= 4), + 0 == (3 & M) && (A += 2, M >>>= 2), + 0 == (1 & M) && A++, + A + }, + B.prototype.bitLength = function () { + var A = this.words[this.length - 1], + A = this._countBits(A); + return 26 * (this.length - 1) + A + }, + B.prototype.zeroBits = function () { + if (this.isZero()) + return 0; + for (var A = 0, M = 0; M < this.length; M++) { + var t = this._zeroBits(this.words[M]); + if (A += t, 26 !== t) + break + } + return A + }, + B.prototype.byteLength = function () { + return Math.ceil(this.bitLength() / 8) + }, + B.prototype.toTwos = function (A) { + return 0 !== this.negative ? this.abs().inotn(A).iaddn(1) : this.clone() + }, + B.prototype.fromTwos = function (A) { + return this.testn(A - 1) ? this.notn(A).iaddn(1).ineg() : this.clone() + }, + B.prototype.isNeg = function () { + return 0 !== this.negative + }, + B.prototype.neg = function () { + return this.clone().ineg() + }, + B.prototype.ineg = function () { + return this.isZero() || (this.negative ^= 1), + this + }, + B.prototype.iuor = function (A) { + for (; this.length < A.length; ) + this.words[this.length++] = 0; + for (var M = 0; M < A.length; M++) + this.words[M] = this.words[M] | A.words[M]; + return this._strip() + }, + B.prototype.ior = function (A) { + return o(0 == (this.negative | A.negative)), + this.iuor(A) + }, + B.prototype.or = function (A) { + return this.length > A.length ? this.clone().ior(A) : A.clone().ior(this) + }, + B.prototype.uor = function (A) { + return this.length > A.length ? this.clone().iuor(A) : A.clone().iuor(this) + }, + B.prototype.iuand = function (A) { + for (var M = this.length > A.length ? A : this, t = 0; t < M.length; t++) + this.words[t] = this.words[t] & A.words[t]; + return this.length = M.length, + this._strip() + }, + B.prototype.iand = function (A) { + return o(0 == (this.negative | A.negative)), + this.iuand(A) + }, + B.prototype.and = function (A) { + return this.length > A.length ? this.clone().iand(A) : A.clone().iand(this) + }, + B.prototype.uand = function (A) { + return this.length > A.length ? this.clone().iuand(A) : A.clone().iuand(this) + }, + B.prototype.iuxor = function (A) { + for (var M, t = this.length > A.length ? (M = this, A) : (M = A, this), g = 0; g < t.length; g++) + this.words[g] = M.words[g] ^ t.words[g]; + if (this !== M) + for (; g < M.length; g++) + this.words[g] = M.words[g]; + return this.length = M.length, + this._strip() + }, + B.prototype.ixor = function (A) { + return o(0 == (this.negative | A.negative)), + this.iuxor(A) + }, + B.prototype.xor = function (A) { + return this.length > A.length ? this.clone().ixor(A) : A.clone().ixor(this) + }, + B.prototype.uxor = function (A) { + return this.length > A.length ? this.clone().iuxor(A) : A.clone().iuxor(this) + }, + B.prototype.inotn = function (A) { + o("number" == typeof A && 0 <= A); + var M = 0 | Math.ceil(A / 26), + A = A % 26; + this._expand(M), + 0 < A && M--; + for (var t = 0; t < M; t++) + this.words[t] = 67108863 & ~this.words[t]; + return 0 < A && (this.words[t] = ~this.words[t] & 67108863 >> 26 - A), + this._strip() + }, + B.prototype.notn = function (A) { + return this.clone().inotn(A) + }, + B.prototype.setn = function (A, M) { + o("number" == typeof A && 0 <= A); + var t = A / 26 | 0, + A = A % 26; + return this._expand(1 + t), + this.words[t] = M ? this.words[t] | 1 << A : this.words[t] & ~(1 << A), + this._strip() + }, + B.prototype.iadd = function (A) { + var M, + t, + g; + if (0 !== this.negative && 0 === A.negative) + return this.negative = 0, M = this.isub(A), this.negative ^= 1, this._normSign(); + if (0 === this.negative && 0 !== A.negative) + return A.negative = 0, M = this.isub(A), A.negative = 1, M._normSign(); + g = this.length > A.length ? (t = this, A) : (t = A, this); + for (var I = 0, e = 0; e < g.length; e++) + M = (0 | t.words[e]) + (0 | g.words[e]) + I, this.words[e] = 67108863 & M, I = M >>> 26; + for (; 0 !== I && e < t.length; e++) + M = (0 | t.words[e]) + I, this.words[e] = 67108863 & M, I = M >>> 26; + if (this.length = t.length, 0 !== I) + this.words[this.length] = I, this.length++; + else if (t !== this) + for (; e < t.length; e++) + this.words[e] = t.words[e]; + return this + }, + B.prototype.add = function (A) { + var M; + return 0 !== A.negative && 0 === this.negative ? (A.negative = 0, M = this.sub(A), A.negative ^= 1, M) : 0 === A.negative && 0 !== this.negative ? (this.negative = 0, M = A.sub(this), this.negative = 1, M) : this.length > A.length ? this.clone().iadd(A) : A.clone().iadd(this) + }, + B.prototype.isub = function (A) { + if (0 !== A.negative) { + A.negative = 0; + var M = this.iadd(A); + return A.negative = 1, + M._normSign() + } + if (0 !== this.negative) + return this.negative = 0, this.iadd(A), this.negative = 1, this._normSign(); + var t, + g, + I = this.cmp(A); + if (0 === I) + return this.negative = 0, this.length = 1, this.words[0] = 0, this; + g = 0 < I ? (t = this, A) : (t = A, this); + for (var e = 0, i = 0; i < g.length; i++) + e = (M = (0 | t.words[i]) - (0 | g.words[i]) + e) >> 26, this.words[i] = 67108863 & M; + for (; 0 !== e && i < t.length; i++) + e = (M = (0 | t.words[i]) + e) >> 26, this.words[i] = 67108863 & M; + if (0 === e && i < t.length && t !== this) + for (; i < t.length; i++) + this.words[i] = t.words[i]; + return this.length = Math.max(this.length, i), + t !== this && (this.negative = 1), + this._strip() + }, + B.prototype.sub = function (A) { + return this.clone().isub(A) + }; + var E = function (A, M, t) { + var g = A.words, + I = M.words, + e = t.words, + i = 0 | g[0], + T = 8191 & i, + E = i >>> 13, + N = 0 | g[1], + n = 8191 & N, + D = N >>> 13, + C = 0 | g[2], + r = 8191 & C, + c = C >>> 13, + o = 0 | g[3], + B = 8191 & o, + Q = o >>> 13, + a = 0 | g[4], + h = 8191 & a, + s = a >>> 13, + y = 0 | g[5], + w = 8191 & y, + j = y >>> 13, + L = 0 | g[6], + d = 8191 & L, + x = L >>> 13, + Y = 0 | g[7], + u = 8191 & Y, + S = Y >>> 13, + z = 0 | g[8], + l = 8191 & z, + U = z >>> 13, + f = 0 | g[9], + O = 8191 & f, + m = f >>> 13, + F = 0 | I[0], + R = 8191 & F, + k = F >>> 13, + p = 0 | I[1], + b = 8191 & p, + G = p >>> 13, + J = 0 | I[2], + H = 8191 & J, + X = J >>> 13, + v = 0 | I[3], + V = 8191 & v, + W = v >>> 13, + P = 0 | I[4], + Z = 8191 & P, + K = P >>> 13, + q = 0 | I[5], + _ = 8191 & q, + $ = q >>> 13, + i = 0 | I[6], + N = 8191 & i, + C = i >>> 13, + o = 0 | I[7], + a = 8191 & o, + y = o >>> 13, + L = 0 | I[8], + Y = 8191 & L, + z = L >>> 13, + g = 0 | I[9], + f = 8191 & g, + F = g >>> 13; + t.negative = A.negative ^ M.negative, + t.length = 19; + var v = (0 + Math.imul(T, R) | 0) + ((8191 & (J = Math.imul(T, k) + Math.imul(E, R) | 0)) << 13) | 0, + AA = (Math.imul(E, k) + (J >>> 13) | 0) + (v >>> 26) | 0; + v &= 67108863, + p = Math.imul(n, R), + J = Math.imul(n, k) + Math.imul(D, R) | 0, + P = Math.imul(D, k); + q = (AA + (p + Math.imul(T, b) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, G) | 0) + Math.imul(E, b) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, G) | 0) + (J >>> 13) | 0) + (q >>> 26) | 0, + q &= 67108863, + p = Math.imul(r, R), + J = Math.imul(r, k) + Math.imul(c, R) | 0, + P = Math.imul(c, k), + p = p + Math.imul(n, b) | 0, + J = (J + Math.imul(n, G) | 0) + Math.imul(D, b) | 0, + P = P + Math.imul(D, G) | 0; + i = (AA + (p + Math.imul(T, H) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, X) | 0) + Math.imul(E, H) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, X) | 0) + (J >>> 13) | 0) + (i >>> 26) | 0, + i &= 67108863, + p = Math.imul(B, R), + J = Math.imul(B, k) + Math.imul(Q, R) | 0, + P = Math.imul(Q, k), + p = p + Math.imul(r, b) | 0, + J = (J + Math.imul(r, G) | 0) + Math.imul(c, b) | 0, + P = P + Math.imul(c, G) | 0, + p = p + Math.imul(n, H) | 0, + J = (J + Math.imul(n, X) | 0) + Math.imul(D, H) | 0, + P = P + Math.imul(D, X) | 0; + o = (AA + (p + Math.imul(T, V) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, W) | 0) + Math.imul(E, V) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, W) | 0) + (J >>> 13) | 0) + (o >>> 26) | 0, + o &= 67108863, + p = Math.imul(h, R), + J = Math.imul(h, k) + Math.imul(s, R) | 0, + P = Math.imul(s, k), + p = p + Math.imul(B, b) | 0, + J = (J + Math.imul(B, G) | 0) + Math.imul(Q, b) | 0, + P = P + Math.imul(Q, G) | 0, + p = p + Math.imul(r, H) | 0, + J = (J + Math.imul(r, X) | 0) + Math.imul(c, H) | 0, + P = P + Math.imul(c, X) | 0, + p = p + Math.imul(n, V) | 0, + J = (J + Math.imul(n, W) | 0) + Math.imul(D, V) | 0, + P = P + Math.imul(D, W) | 0; + L = (AA + (p + Math.imul(T, Z) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, K) | 0) + Math.imul(E, Z) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, K) | 0) + (J >>> 13) | 0) + (L >>> 26) | 0, + L &= 67108863, + p = Math.imul(w, R), + J = Math.imul(w, k) + Math.imul(j, R) | 0, + P = Math.imul(j, k), + p = p + Math.imul(h, b) | 0, + J = (J + Math.imul(h, G) | 0) + Math.imul(s, b) | 0, + P = P + Math.imul(s, G) | 0, + p = p + Math.imul(B, H) | 0, + J = (J + Math.imul(B, X) | 0) + Math.imul(Q, H) | 0, + P = P + Math.imul(Q, X) | 0, + p = p + Math.imul(r, V) | 0, + J = (J + Math.imul(r, W) | 0) + Math.imul(c, V) | 0, + P = P + Math.imul(c, W) | 0, + p = p + Math.imul(n, Z) | 0, + J = (J + Math.imul(n, K) | 0) + Math.imul(D, Z) | 0, + P = P + Math.imul(D, K) | 0; + I = (AA + (p + Math.imul(T, _) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, $) | 0) + Math.imul(E, _) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, $) | 0) + (J >>> 13) | 0) + (I >>> 26) | 0, + I &= 67108863, + p = Math.imul(d, R), + J = Math.imul(d, k) + Math.imul(x, R) | 0, + P = Math.imul(x, k), + p = p + Math.imul(w, b) | 0, + J = (J + Math.imul(w, G) | 0) + Math.imul(j, b) | 0, + P = P + Math.imul(j, G) | 0, + p = p + Math.imul(h, H) | 0, + J = (J + Math.imul(h, X) | 0) + Math.imul(s, H) | 0, + P = P + Math.imul(s, X) | 0, + p = p + Math.imul(B, V) | 0, + J = (J + Math.imul(B, W) | 0) + Math.imul(Q, V) | 0, + P = P + Math.imul(Q, W) | 0, + p = p + Math.imul(r, Z) | 0, + J = (J + Math.imul(r, K) | 0) + Math.imul(c, Z) | 0, + P = P + Math.imul(c, K) | 0, + p = p + Math.imul(n, _) | 0, + J = (J + Math.imul(n, $) | 0) + Math.imul(D, _) | 0, + P = P + Math.imul(D, $) | 0; + g = (AA + (p + Math.imul(T, N) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, C) | 0) + Math.imul(E, N) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, C) | 0) + (J >>> 13) | 0) + (g >>> 26) | 0, + g &= 67108863, + p = Math.imul(u, R), + J = Math.imul(u, k) + Math.imul(S, R) | 0, + P = Math.imul(S, k), + p = p + Math.imul(d, b) | 0, + J = (J + Math.imul(d, G) | 0) + Math.imul(x, b) | 0, + P = P + Math.imul(x, G) | 0, + p = p + Math.imul(w, H) | 0, + J = (J + Math.imul(w, X) | 0) + Math.imul(j, H) | 0, + P = P + Math.imul(j, X) | 0, + p = p + Math.imul(h, V) | 0, + J = (J + Math.imul(h, W) | 0) + Math.imul(s, V) | 0, + P = P + Math.imul(s, W) | 0, + p = p + Math.imul(B, Z) | 0, + J = (J + Math.imul(B, K) | 0) + Math.imul(Q, Z) | 0, + P = P + Math.imul(Q, K) | 0, + p = p + Math.imul(r, _) | 0, + J = (J + Math.imul(r, $) | 0) + Math.imul(c, _) | 0, + P = P + Math.imul(c, $) | 0, + p = p + Math.imul(n, N) | 0, + J = (J + Math.imul(n, C) | 0) + Math.imul(D, N) | 0, + P = P + Math.imul(D, C) | 0; + A = (AA + (p + Math.imul(T, a) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, y) | 0) + Math.imul(E, a) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, y) | 0) + (J >>> 13) | 0) + (A >>> 26) | 0, + A &= 67108863, + p = Math.imul(l, R), + J = Math.imul(l, k) + Math.imul(U, R) | 0, + P = Math.imul(U, k), + p = p + Math.imul(u, b) | 0, + J = (J + Math.imul(u, G) | 0) + Math.imul(S, b) | 0, + P = P + Math.imul(S, G) | 0, + p = p + Math.imul(d, H) | 0, + J = (J + Math.imul(d, X) | 0) + Math.imul(x, H) | 0, + P = P + Math.imul(x, X) | 0, + p = p + Math.imul(w, V) | 0, + J = (J + Math.imul(w, W) | 0) + Math.imul(j, V) | 0, + P = P + Math.imul(j, W) | 0, + p = p + Math.imul(h, Z) | 0, + J = (J + Math.imul(h, K) | 0) + Math.imul(s, Z) | 0, + P = P + Math.imul(s, K) | 0, + p = p + Math.imul(B, _) | 0, + J = (J + Math.imul(B, $) | 0) + Math.imul(Q, _) | 0, + P = P + Math.imul(Q, $) | 0, + p = p + Math.imul(r, N) | 0, + J = (J + Math.imul(r, C) | 0) + Math.imul(c, N) | 0, + P = P + Math.imul(c, C) | 0, + p = p + Math.imul(n, a) | 0, + J = (J + Math.imul(n, y) | 0) + Math.imul(D, a) | 0, + P = P + Math.imul(D, y) | 0; + M = (AA + (p + Math.imul(T, Y) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, z) | 0) + Math.imul(E, Y) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, z) | 0) + (J >>> 13) | 0) + (M >>> 26) | 0, + M &= 67108863, + p = Math.imul(O, R), + J = Math.imul(O, k) + Math.imul(m, R) | 0, + P = Math.imul(m, k), + p = p + Math.imul(l, b) | 0, + J = (J + Math.imul(l, G) | 0) + Math.imul(U, b) | 0, + P = P + Math.imul(U, G) | 0, + p = p + Math.imul(u, H) | 0, + J = (J + Math.imul(u, X) | 0) + Math.imul(S, H) | 0, + P = P + Math.imul(S, X) | 0, + p = p + Math.imul(d, V) | 0, + J = (J + Math.imul(d, W) | 0) + Math.imul(x, V) | 0, + P = P + Math.imul(x, W) | 0, + p = p + Math.imul(w, Z) | 0, + J = (J + Math.imul(w, K) | 0) + Math.imul(j, Z) | 0, + P = P + Math.imul(j, K) | 0, + p = p + Math.imul(h, _) | 0, + J = (J + Math.imul(h, $) | 0) + Math.imul(s, _) | 0, + P = P + Math.imul(s, $) | 0, + p = p + Math.imul(B, N) | 0, + J = (J + Math.imul(B, C) | 0) + Math.imul(Q, N) | 0, + P = P + Math.imul(Q, C) | 0, + p = p + Math.imul(r, a) | 0, + J = (J + Math.imul(r, y) | 0) + Math.imul(c, a) | 0, + P = P + Math.imul(c, y) | 0, + p = p + Math.imul(n, Y) | 0, + J = (J + Math.imul(n, z) | 0) + Math.imul(D, Y) | 0, + P = P + Math.imul(D, z) | 0; + T = (AA + (p + Math.imul(T, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(T, F) | 0) + Math.imul(E, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(E, F) | 0) + (J >>> 13) | 0) + (T >>> 26) | 0, + T &= 67108863, + p = Math.imul(O, b), + J = Math.imul(O, G) + Math.imul(m, b) | 0, + P = Math.imul(m, G), + p = p + Math.imul(l, H) | 0, + J = (J + Math.imul(l, X) | 0) + Math.imul(U, H) | 0, + P = P + Math.imul(U, X) | 0, + p = p + Math.imul(u, V) | 0, + J = (J + Math.imul(u, W) | 0) + Math.imul(S, V) | 0, + P = P + Math.imul(S, W) | 0, + p = p + Math.imul(d, Z) | 0, + J = (J + Math.imul(d, K) | 0) + Math.imul(x, Z) | 0, + P = P + Math.imul(x, K) | 0, + p = p + Math.imul(w, _) | 0, + J = (J + Math.imul(w, $) | 0) + Math.imul(j, _) | 0, + P = P + Math.imul(j, $) | 0, + p = p + Math.imul(h, N) | 0, + J = (J + Math.imul(h, C) | 0) + Math.imul(s, N) | 0, + P = P + Math.imul(s, C) | 0, + p = p + Math.imul(B, a) | 0, + J = (J + Math.imul(B, y) | 0) + Math.imul(Q, a) | 0, + P = P + Math.imul(Q, y) | 0, + p = p + Math.imul(r, Y) | 0, + J = (J + Math.imul(r, z) | 0) + Math.imul(c, Y) | 0, + P = P + Math.imul(c, z) | 0; + n = (AA + (p + Math.imul(n, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(n, F) | 0) + Math.imul(D, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(D, F) | 0) + (J >>> 13) | 0) + (n >>> 26) | 0, + n &= 67108863, + p = Math.imul(O, H), + J = Math.imul(O, X) + Math.imul(m, H) | 0, + P = Math.imul(m, X), + p = p + Math.imul(l, V) | 0, + J = (J + Math.imul(l, W) | 0) + Math.imul(U, V) | 0, + P = P + Math.imul(U, W) | 0, + p = p + Math.imul(u, Z) | 0, + J = (J + Math.imul(u, K) | 0) + Math.imul(S, Z) | 0, + P = P + Math.imul(S, K) | 0, + p = p + Math.imul(d, _) | 0, + J = (J + Math.imul(d, $) | 0) + Math.imul(x, _) | 0, + P = P + Math.imul(x, $) | 0, + p = p + Math.imul(w, N) | 0, + J = (J + Math.imul(w, C) | 0) + Math.imul(j, N) | 0, + P = P + Math.imul(j, C) | 0, + p = p + Math.imul(h, a) | 0, + J = (J + Math.imul(h, y) | 0) + Math.imul(s, a) | 0, + P = P + Math.imul(s, y) | 0, + p = p + Math.imul(B, Y) | 0, + J = (J + Math.imul(B, z) | 0) + Math.imul(Q, Y) | 0, + P = P + Math.imul(Q, z) | 0; + r = (AA + (p + Math.imul(r, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(r, F) | 0) + Math.imul(c, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(c, F) | 0) + (J >>> 13) | 0) + (r >>> 26) | 0, + r &= 67108863, + p = Math.imul(O, V), + J = Math.imul(O, W) + Math.imul(m, V) | 0, + P = Math.imul(m, W), + p = p + Math.imul(l, Z) | 0, + J = (J + Math.imul(l, K) | 0) + Math.imul(U, Z) | 0, + P = P + Math.imul(U, K) | 0, + p = p + Math.imul(u, _) | 0, + J = (J + Math.imul(u, $) | 0) + Math.imul(S, _) | 0, + P = P + Math.imul(S, $) | 0, + p = p + Math.imul(d, N) | 0, + J = (J + Math.imul(d, C) | 0) + Math.imul(x, N) | 0, + P = P + Math.imul(x, C) | 0, + p = p + Math.imul(w, a) | 0, + J = (J + Math.imul(w, y) | 0) + Math.imul(j, a) | 0, + P = P + Math.imul(j, y) | 0, + p = p + Math.imul(h, Y) | 0, + J = (J + Math.imul(h, z) | 0) + Math.imul(s, Y) | 0, + P = P + Math.imul(s, z) | 0; + B = (AA + (p + Math.imul(B, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(B, F) | 0) + Math.imul(Q, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(Q, F) | 0) + (J >>> 13) | 0) + (B >>> 26) | 0, + B &= 67108863, + p = Math.imul(O, Z), + J = Math.imul(O, K) + Math.imul(m, Z) | 0, + P = Math.imul(m, K), + p = p + Math.imul(l, _) | 0, + J = (J + Math.imul(l, $) | 0) + Math.imul(U, _) | 0, + P = P + Math.imul(U, $) | 0, + p = p + Math.imul(u, N) | 0, + J = (J + Math.imul(u, C) | 0) + Math.imul(S, N) | 0, + P = P + Math.imul(S, C) | 0, + p = p + Math.imul(d, a) | 0, + J = (J + Math.imul(d, y) | 0) + Math.imul(x, a) | 0, + P = P + Math.imul(x, y) | 0, + p = p + Math.imul(w, Y) | 0, + J = (J + Math.imul(w, z) | 0) + Math.imul(j, Y) | 0, + P = P + Math.imul(j, z) | 0; + h = (AA + (p + Math.imul(h, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(h, F) | 0) + Math.imul(s, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(s, F) | 0) + (J >>> 13) | 0) + (h >>> 26) | 0, + h &= 67108863, + p = Math.imul(O, _), + J = Math.imul(O, $) + Math.imul(m, _) | 0, + P = Math.imul(m, $), + p = p + Math.imul(l, N) | 0, + J = (J + Math.imul(l, C) | 0) + Math.imul(U, N) | 0, + P = P + Math.imul(U, C) | 0, + p = p + Math.imul(u, a) | 0, + J = (J + Math.imul(u, y) | 0) + Math.imul(S, a) | 0, + P = P + Math.imul(S, y) | 0, + p = p + Math.imul(d, Y) | 0, + J = (J + Math.imul(d, z) | 0) + Math.imul(x, Y) | 0, + P = P + Math.imul(x, z) | 0; + w = (AA + (p + Math.imul(w, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(w, F) | 0) + Math.imul(j, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(j, F) | 0) + (J >>> 13) | 0) + (w >>> 26) | 0, + w &= 67108863, + p = Math.imul(O, N), + J = Math.imul(O, C) + Math.imul(m, N) | 0, + P = Math.imul(m, C), + p = p + Math.imul(l, a) | 0, + J = (J + Math.imul(l, y) | 0) + Math.imul(U, a) | 0, + P = P + Math.imul(U, y) | 0, + p = p + Math.imul(u, Y) | 0, + J = (J + Math.imul(u, z) | 0) + Math.imul(S, Y) | 0, + P = P + Math.imul(S, z) | 0; + d = (AA + (p + Math.imul(d, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(d, F) | 0) + Math.imul(x, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(x, F) | 0) + (J >>> 13) | 0) + (d >>> 26) | 0, + d &= 67108863, + p = Math.imul(O, a), + J = Math.imul(O, y) + Math.imul(m, a) | 0, + P = Math.imul(m, y), + p = p + Math.imul(l, Y) | 0, + J = (J + Math.imul(l, z) | 0) + Math.imul(U, Y) | 0, + P = P + Math.imul(U, z) | 0; + u = (AA + (p + Math.imul(u, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(u, F) | 0) + Math.imul(S, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(S, F) | 0) + (J >>> 13) | 0) + (u >>> 26) | 0, + u &= 67108863, + p = Math.imul(O, Y), + J = Math.imul(O, z) + Math.imul(m, Y) | 0, + P = Math.imul(m, z); + l = (AA + (p + Math.imul(l, f) | 0) | 0) + ((8191 & (J = (J + Math.imul(l, F) | 0) + Math.imul(U, f) | 0)) << 13) | 0; + AA = ((P + Math.imul(U, F) | 0) + (J >>> 13) | 0) + (l >>> 26) | 0, + l &= 67108863; + f = (AA + Math.imul(O, f) | 0) + ((8191 & (J = Math.imul(O, F) + Math.imul(m, f) | 0)) << 13) | 0; + return AA = (Math.imul(m, F) + (J >>> 13) | 0) + (f >>> 26) | 0, + f &= 67108863, + e[0] = v, + e[1] = q, + e[2] = i, + e[3] = o, + e[4] = L, + e[5] = I, + e[6] = g, + e[7] = A, + e[8] = M, + e[9] = T, + e[10] = n, + e[11] = r, + e[12] = B, + e[13] = h, + e[14] = w, + e[15] = d, + e[16] = u, + e[17] = l, + e[18] = f, + 0 != AA && (e[19] = AA, t.length++), + t + }; + function N(A, M, t) { + t.negative = M.negative ^ A.negative, + t.length = A.length + M.length; + for (var g = 0, I = 0, e = 0; e < t.length - 1; e++) { + for (var i = I, I = 0, T = 67108863 & g, E = Math.min(e, M.length - 1), N = Math.max(0, e - A.length + 1); N <= E; N++) { + var n = e - N, + D = (0 | A.words[n]) * (0 | M.words[N]), + n = 67108863 & D, + T = 67108863 & (n = n + T | 0); + I += (i = (i = i + (D / 67108864 | 0) | 0) + (n >>> 26) | 0) >>> 26, + i &= 67108863 + } + t.words[e] = T, + g = i, + i = I + } + return 0 !== g ? t.words[e] = g : t.length--, + t._strip() + } + function n(A, M, t) { + return N(A, M, t) + } + Math.imul || (E = T), + B.prototype.mulTo = function (A, M) { + var t = this.length + A.length, + M = (10 === this.length && 10 === A.length ? E : t < 63 ? T : t < 1024 ? N : n)(this, A, M); + return M + }, + B.prototype.mul = function (A) { + var M = new B(null); + return M.words = new Array(this.length + A.length), + this.mulTo(A, M) + }, + B.prototype.mulf = function (A) { + var M = new B(null); + return M.words = new Array(this.length + A.length), + n(this, A, M) + }, + B.prototype.imul = function (A) { + return this.clone().mulTo(A, this) + }, + B.prototype.imuln = function (A) { + var M = A < 0; + M && (A = -A), + o("number" == typeof A), + o(A < 67108864); + for (var t = 0, g = 0; g < this.length; g++) { + var I = (0 | this.words[g]) * A, + e = (67108863 & I) + (67108863 & t); + t >>= 26, + t += I / 67108864 | 0, + t += e >>> 26, + this.words[g] = 67108863 & e + } + return 0 !== t && (this.words[g] = t, this.length++), + M ? this.ineg() : this + }, + B.prototype.muln = function (A) { + return this.clone().imuln(A) + }, + B.prototype.sqr = function () { + return this.mul(this) + }, + B.prototype.isqr = function () { + return this.imul(this.clone()) + }, + B.prototype.pow = function (A) { + var M = function (A) { + for (var M = new Array(A.bitLength()), t = 0; t < M.length; t++) { + var g = t / 26 | 0, + I = t % 26; + M[t] = A.words[g] >>> I & 1 + } + return M + } + (A); + if (0 === M.length) + return new B(1); + for (var t = this, g = 0; g < M.length && 0 === M[g]; g++, t = t.sqr()); + if (++g < M.length) + for (var I = t.sqr(); g < M.length; g++, I = I.sqr()) + 0 !== M[g] && (t = t.mul(I)); + return t + }, + B.prototype.iushln = function (A) { + o("number" == typeof A && 0 <= A); + var M = A % 26, + t = (A - M) / 26, + g = 67108863 >>> 26 - M << 26 - M; + if (0 != M) { + for (var I = 0, e = 0; e < this.length; e++) { + var i = this.words[e] & g, + T = (0 | this.words[e]) - i << M; + this.words[e] = T | I, + I = i >>> 26 - M + } + I && (this.words[e] = I, this.length++) + } + if (0 != t) { + for (e = this.length - 1; 0 <= e; e--) + this.words[e + t] = this.words[e]; + for (e = 0; e < t; e++) + this.words[e] = 0; + this.length += t + } + return this._strip() + }, + B.prototype.ishln = function (A) { + return o(0 === this.negative), + this.iushln(A) + }, + B.prototype.iushrn = function (A, M, t) { + var g; + o("number" == typeof A && 0 <= A), + g = M ? (M - M % 26) / 26 : 0; + var I = A % 26, + e = Math.min((A - I) / 26, this.length), + i = 67108863 ^ 67108863 >>> I << I, + T = t; + if (g -= e, g = Math.max(0, g), T) { + for (var E = 0; E < e; E++) + T.words[E] = this.words[E]; + T.length = e + } + if (0 !== e) + if (this.length > e) + for (this.length -= e, E = 0; E < this.length; E++) + this.words[E] = this.words[E + e]; + else + this.words[0] = 0, this.length = 1; + for (var N = 0, E = this.length - 1; 0 <= E && (0 !== N || g <= E); E--) { + var n = 0 | this.words[E]; + this.words[E] = N << 26 - I | n >>> I, + N = n & i + } + return T && 0 !== N && (T.words[T.length++] = N), + 0 === this.length && (this.words[0] = 0, this.length = 1), + this._strip() + }, + B.prototype.ishrn = function (A, M, t) { + return o(0 === this.negative), + this.iushrn(A, M, t) + }, + B.prototype.shln = function (A) { + return this.clone().ishln(A) + }, + B.prototype.ushln = function (A) { + return this.clone().iushln(A) + }, + B.prototype.shrn = function (A) { + return this.clone().ishrn(A) + }, + B.prototype.ushrn = function (A) { + return this.clone().iushrn(A) + }, + B.prototype.testn = function (A) { + o("number" == typeof A && 0 <= A); + var M = A % 26, + A = (A - M) / 26, + M = 1 << M; + return !(this.length <= A) && !!(this.words[A] & M) + }, + B.prototype.imaskn = function (A) { + o("number" == typeof A && 0 <= A); + var M = A % 26, + A = (A - M) / 26; + return o(0 === this.negative, "imaskn works only with positive numbers"), + this.length <= A ? this : (0 != M && A++, this.length = Math.min(A, this.length), 0 != M && (M = 67108863 ^ 67108863 >>> M << M, this.words[this.length - 1] &= M), this._strip()) + }, + B.prototype.maskn = function (A) { + return this.clone().imaskn(A) + }, + B.prototype.iaddn = function (A) { + return o("number" == typeof A), + o(A < 67108864), + A < 0 ? this.isubn(-A) : 0 !== this.negative ? (1 === this.length && (0 | this.words[0]) <= A ? (this.words[0] = A - (0 | this.words[0]), this.negative = 0) : (this.negative = 0, this.isubn(A), this.negative = 1), this) : this._iaddn(A) + }, + B.prototype._iaddn = function (A) { + this.words[0] += A; + for (var M = 0; M < this.length && 67108864 <= this.words[M]; M++) + this.words[M] -= 67108864, M === this.length - 1 ? this.words[M + 1] = 1 : this.words[M + 1]++; + return this.length = Math.max(this.length, M + 1), + this + }, + B.prototype.isubn = function (A) { + if (o("number" == typeof A), o(A < 67108864), A < 0) + return this.iaddn(-A); + if (0 !== this.negative) + return this.negative = 0, this.iaddn(A), this.negative = 1, this; + if (this.words[0] -= A, 1 === this.length && this.words[0] < 0) + this.words[0] = -this.words[0], this.negative = 1; + else + for (var M = 0; M < this.length && this.words[M] < 0; M++) + this.words[M] += 67108864, --this.words[M + 1]; + return this._strip() + }, + B.prototype.addn = function (A) { + return this.clone().iaddn(A) + }, + B.prototype.subn = function (A) { + return this.clone().isubn(A) + }, + B.prototype.iabs = function () { + return this.negative = 0, + this + }, + B.prototype.abs = function () { + return this.clone().iabs() + }, + B.prototype._ishlnsubmul = function (A, M, t) { + var g, + I = A.length + t; + this._expand(I); + for (var e = 0, i = 0; i < A.length; i++) { + g = (0 | this.words[i + t]) + e; + var T = (0 | A.words[i]) * M, + e = ((g -= 67108863 & T) >> 26) - (T / 67108864 | 0); + this.words[i + t] = 67108863 & g + } + for (; i < this.length - t; i++) + e = (g = (0 | this.words[i + t]) + e) >> 26, this.words[i + t] = 67108863 & g; + if (0 === e) + return this._strip(); + for (o(-1 === e), i = e = 0; i < this.length; i++) + e = (g = - (0 | this.words[i]) + e) >> 26, this.words[i] = 67108863 & g; + return this.negative = 1, + this._strip() + }, + B.prototype._wordDiv = function (A, M) { + var t = this.length - A.length, + g = this.clone(), + I = A, + e = 0 | I.words[I.length - 1]; + 0 != (t = 26 - this._countBits(e)) && (I = I.ushln(t), g.iushln(t), e = 0 | I.words[I.length - 1]); + var i, + T = g.length - I.length; + if ("mod" !== M) { + (i = new B(null)).length = 1 + T, + i.words = new Array(i.length); + for (var E = 0; E < i.length; E++) + i.words[E] = 0 + } + A = g.clone()._ishlnsubmul(I, 1, T); + 0 === A.negative && (g = A, i && (i.words[T] = 1)); + for (var N = T - 1; 0 <= N; N--) { + var n = 67108864 * (0 | g.words[I.length + N]) + (0 | g.words[I.length + N - 1]), + n = Math.min(n / e | 0, 67108863); + for (g._ishlnsubmul(I, n, N); 0 !== g.negative; ) + n--, g.negative = 0, g._ishlnsubmul(I, 1, N), g.isZero() || (g.negative ^= 1); + i && (i.words[N] = n) + } + return i && i._strip(), + g._strip(), + "div" !== M && 0 != t && g.iushrn(t), { + div: i || null, + mod: g + } + }, + B.prototype.divmod = function (A, M, t) { + return o(!A.isZero()), + this.isZero() ? { + div: new B(0), + mod: new B(0) + } + : 0 !== this.negative && 0 === A.negative ? (e = this.neg().divmod(A, M), "mod" !== M && (g = e.div.neg()), "div" !== M && (I = e.mod.neg(), t && 0 !== I.negative && I.iadd(A)), { + div: g, + mod: I + }) : 0 === this.negative && 0 !== A.negative ? (e = this.divmod(A.neg(), M), "mod" !== M && (g = e.div.neg()), { + div: g, + mod: e.mod + }) : 0 != (this.negative & A.negative) ? (e = this.neg().divmod(A.neg(), M), "div" !== M && (I = e.mod.neg(), t && 0 !== I.negative && I.isub(A)), { + div: e.div, + mod: I + }) : A.length > this.length || this.cmp(A) < 0 ? { + div: new B(0), + mod: this + } + : 1 === A.length ? "div" === M ? { + div: this.divn(A.words[0]), + mod: null + } + : "mod" === M ? { + div: null, + mod: new B(this.modrn(A.words[0])) + } + : { + div: this.divn(A.words[0]), + mod: new B(this.modrn(A.words[0])) + } + : this._wordDiv(A, M); + var g, + I, + e + }, + B.prototype.div = function (A) { + return this.divmod(A, "div", !1).div + }, + B.prototype.mod = function (A) { + return this.divmod(A, "mod", !1).mod + }, + B.prototype.umod = function (A) { + return this.divmod(A, "mod", !0).mod + }, + B.prototype.divRound = function (A) { + var M = this.divmod(A); + if (M.mod.isZero()) + return M.div; + var t = 0 !== M.div.negative ? M.mod.isub(A) : M.mod, + g = A.ushrn(1), + A = A.andln(1), + g = t.cmp(g); + return g < 0 || 1 === A && 0 === g ? M.div : 0 !== M.div.negative ? M.div.isubn(1) : M.div.iaddn(1) + }, + B.prototype.modrn = function (A) { + var M = A < 0; + M && (A = -A), + o(A <= 67108863); + for (var t = (1 << 26) % A, g = 0, I = this.length - 1; 0 <= I; I--) + g = (t * g + (0 | this.words[I])) % A; + return M ? -g : g + }, + B.prototype.modn = function (A) { + return this.modrn(A) + }, + B.prototype.idivn = function (A) { + var M = A < 0; + M && (A = -A), + o(A <= 67108863); + for (var t = 0, g = this.length - 1; 0 <= g; g--) { + var I = (0 | this.words[g]) + 67108864 * t; + this.words[g] = I / A | 0, + t = I % A + } + return this._strip(), + M ? this.ineg() : this + }, + B.prototype.divn = function (A) { + return this.clone().idivn(A) + }, + B.prototype.egcd = function (A) { + o(0 === A.negative), + o(!A.isZero()); + for (var M = this, t = A.clone(), M = 0 !== M.negative ? M.umod(A) : M.clone(), g = new B(1), I = new B(0), e = new B(0), i = new B(1), T = 0; M.isEven() && t.isEven(); ) + M.iushrn(1), t.iushrn(1), ++T; + for (var E = t.clone(), N = M.clone(); !M.isZero(); ) { + for (var n = 0, D = 1; 0 == (M.words[0] & D) && n < 26; ++n, D <<= 1); + if (0 < n) + for (M.iushrn(n); 0 < n--; ) + (g.isOdd() || I.isOdd()) && (g.iadd(E), I.isub(N)), g.iushrn(1), I.iushrn(1); + for (var C = 0, r = 1; 0 == (t.words[0] & r) && C < 26; ++C, r <<= 1); + if (0 < C) + for (t.iushrn(C); 0 < C--; ) + (e.isOdd() || i.isOdd()) && (e.iadd(E), i.isub(N)), e.iushrn(1), i.iushrn(1); + 0 <= M.cmp(t) ? (M.isub(t), g.isub(e), I.isub(i)) : (t.isub(M), e.isub(g), i.isub(I)) + } + return { + a: e, + b: i, + gcd: t.iushln(T) + } + }, + B.prototype._invmp = function (A) { + o(0 === A.negative), + o(!A.isZero()); + for (var M, t = this, g = A.clone(), t = 0 !== t.negative ? t.umod(A) : t.clone(), I = new B(1), e = new B(0), i = g.clone(); 0 < t.cmpn(1) && 0 < g.cmpn(1); ) { + for (var T = 0, E = 1; 0 == (t.words[0] & E) && T < 26; ++T, E <<= 1); + if (0 < T) + for (t.iushrn(T); 0 < T--; ) + I.isOdd() && I.iadd(i), I.iushrn(1); + for (var N = 0, n = 1; 0 == (g.words[0] & n) && N < 26; ++N, n <<= 1); + if (0 < N) + for (g.iushrn(N); 0 < N--; ) + e.isOdd() && e.iadd(i), e.iushrn(1); + 0 <= t.cmp(g) ? (t.isub(g), I.isub(e)) : (g.isub(t), e.isub(I)) + } + return (M = 0 === t.cmpn(1) ? I : e).cmpn(0) < 0 && M.iadd(A), + M + }, + B.prototype.gcd = function (A) { + if (this.isZero()) + return A.abs(); + if (A.isZero()) + return this.abs(); + var M = this.clone(), + t = A.clone(); + M.negative = 0; + for (var g = t.negative = 0; M.isEven() && t.isEven(); g++) + M.iushrn(1), t.iushrn(1); + for (; ; ) { + for (; M.isEven(); ) + M.iushrn(1); + for (; t.isEven(); ) + t.iushrn(1); + var I = M.cmp(t); + if (I < 0) + var e = M, M = t, t = e; + else if (0 === I || 0 === t.cmpn(1)) + break; + M.isub(t) + } + return t.iushln(g) + }, + B.prototype.invm = function (A) { + return this.egcd(A).a.umod(A) + }, + B.prototype.isEven = function () { + return 0 == (1 & this.words[0]) + }, + B.prototype.isOdd = function () { + return 1 == (1 & this.words[0]) + }, + B.prototype.andln = function (A) { + return this.words[0] & A + }, + B.prototype.bincn = function (A) { + o("number" == typeof A); + var M = A % 26, + A = (A - M) / 26, + M = 1 << M; + if (this.length <= A) + return this._expand(1 + A), this.words[A] |= M, this; + for (var t = M, g = A; 0 !== t && g < this.length; g++) { + var I = 0 | this.words[g], + t = (I += t) >>> 26; + I &= 67108863, + this.words[g] = I + } + return 0 !== t && (this.words[g] = t, this.length++), + this + }, + B.prototype.isZero = function () { + return 1 === this.length && 0 === this.words[0] + }, + B.prototype.cmpn = function (A) { + var M = A < 0; + return 0 === this.negative || M ? 0 === this.negative && M ? 1 : (this._strip(), A = 1 < this.length ? 1 : (M && (A = -A), o(A <= 67108863, "Number is too big"), (M = 0 | this.words[0]) === A ? 0 : M < A ? -1 : 1), 0 !== this.negative ? 0 | -A : A) : -1 + }, + B.prototype.cmp = function (A) { + if (0 !== this.negative && 0 === A.negative) + return -1; + if (0 === this.negative && 0 !== A.negative) + return 1; + A = this.ucmp(A); + return 0 !== this.negative ? 0 | -A : A + }, + B.prototype.ucmp = function (A) { + if (this.length > A.length) + return 1; + if (this.length < A.length) + return -1; + for (var M = 0, t = this.length - 1; 0 <= t; t--) { + var g = 0 | this.words[t], + I = 0 | A.words[t]; + if (g != I) { + g < I ? M = -1 : I < g && (M = 1); + break + } + } + return M + }, + B.prototype.gtn = function (A) { + return 1 === this.cmpn(A) + }, + B.prototype.gt = function (A) { + return 1 === this.cmp(A) + }, + B.prototype.gten = function (A) { + return 0 <= this.cmpn(A) + }, + B.prototype.gte = function (A) { + return 0 <= this.cmp(A) + }, + B.prototype.ltn = function (A) { + return -1 === this.cmpn(A) + }, + B.prototype.lt = function (A) { + return -1 === this.cmp(A) + }, + B.prototype.lten = function (A) { + return this.cmpn(A) <= 0 + }, + B.prototype.lte = function (A) { + return this.cmp(A) <= 0 + }, + B.prototype.eqn = function (A) { + return 0 === this.cmpn(A) + }, + B.prototype.eq = function (A) { + return 0 === this.cmp(A) + }, + B.red = function (A) { + return new j(A) + }, + B.prototype.toRed = function (A) { + return o(!this.red, "Already a number in reduction context"), + o(0 === this.negative, "red works only with positives"), + A.convertTo(this)._forceRed(A) + }, + B.prototype.fromRed = function () { + return o(this.red, "fromRed works only with numbers in reduction context"), + this.red.convertFrom(this) + }, + B.prototype._forceRed = function (A) { + return this.red = A, + this + }, + B.prototype.forceRed = function (A) { + return o(!this.red, "Already a number in reduction context"), + this._forceRed(A) + }, + B.prototype.redAdd = function (A) { + return o(this.red, "redAdd works only with red numbers"), + this.red.add(this, A) + }, + B.prototype.redIAdd = function (A) { + return o(this.red, "redIAdd works only with red numbers"), + this.red.iadd(this, A) + }, + B.prototype.redSub = function (A) { + return o(this.red, "redSub works only with red numbers"), + this.red.sub(this, A) + }, + B.prototype.redISub = function (A) { + return o(this.red, "redISub works only with red numbers"), + this.red.isub(this, A) + }, + B.prototype.redShl = function (A) { + return o(this.red, "redShl works only with red numbers"), + this.red.shl(this, A) + }, + B.prototype.redMul = function (A) { + return o(this.red, "redMul works only with red numbers"), + this.red._verify2(this, A), + this.red.mul(this, A) + }, + B.prototype.redIMul = function (A) { + return o(this.red, "redMul works only with red numbers"), + this.red._verify2(this, A), + this.red.imul(this, A) + }, + B.prototype.redSqr = function () { + return o(this.red, "redSqr works only with red numbers"), + this.red._verify1(this), + this.red.sqr(this) + }, + B.prototype.redISqr = function () { + return o(this.red, "redISqr works only with red numbers"), + this.red._verify1(this), + this.red.isqr(this) + }, + B.prototype.redSqrt = function () { + return o(this.red, "redSqrt works only with red numbers"), + this.red._verify1(this), + this.red.sqrt(this) + }, + B.prototype.redInvm = function () { + return o(this.red, "redInvm works only with red numbers"), + this.red._verify1(this), + this.red.invm(this) + }, + B.prototype.redNeg = function () { + return o(this.red, "redNeg works only with red numbers"), + this.red._verify1(this), + this.red.neg(this) + }, + B.prototype.redPow = function (A) { + return o(this.red && !A.red, "redPow(normalNum)"), + this.red._verify1(this), + this.red.pow(this, A) + }; + var Q = { + k256: null, + p224: null, + p192: null, + p25519: null + }; + function a(A, M) { + this.name = A, + this.p = new B(M, 16), + this.n = this.p.bitLength(), + this.k = new B(1).iushln(this.n).isub(this.p), + this.tmp = this._tmp() + } + function h() { + a.call(this, "k256", "ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f") + } + function s() { + a.call(this, "p224", "ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001") + } + function y() { + a.call(this, "p192", "ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff") + } + function w() { + a.call(this, "25519", "7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed") + } + function j(A) { + var M; + "string" == typeof A ? (M = B._prime(A), this.m = M.p, this.prime = M) : (o(A.gtn(1), "modulus must be greater than 1"), this.m = A, this.prime = null) + } + function L(A) { + j.call(this, A), + this.shift = this.m.bitLength(), + this.shift % 26 != 0 && (this.shift += 26 - this.shift % 26), + this.r = new B(1).iushln(this.shift), + this.r2 = this.imod(this.r.sqr()), + this.rinv = this.r._invmp(this.m), + this.minv = this.rinv.mul(this.r).isubn(1).div(this.m), + this.minv = this.minv.umod(this.r), + this.minv = this.r.sub(this.minv) + } + a.prototype._tmp = function () { + var A = new B(null); + return A.words = new Array(Math.ceil(this.n / 13)), + A + }, + a.prototype.ireduce = function (A) { + for (var M, t = A; this.split(t, this.tmp), M = (t = (t = this.imulK(t)).iadd(this.tmp)).bitLength(), M > this.n; ); + A = M < this.n ? -1 : t.ucmp(this.p); + return 0 === A ? (t.words[0] = 0, t.length = 1) : 0 < A ? t.isub(this.p) : void 0 !== t.strip ? t.strip() : t._strip(), + t + }, + a.prototype.split = function (A, M) { + A.iushrn(this.n, 0, M) + }, + a.prototype.imulK = function (A) { + return A.imul(this.k) + }, + t(h, a), + h.prototype.split = function (A, M) { + for (var t = Math.min(A.length, 9), g = 0; g < t; g++) + M.words[g] = A.words[g]; + if (M.length = t, A.length <= 9) + return A.words[0] = 0, void(A.length = 1); + var I = A.words[9]; + for (M.words[M.length++] = 4194303 & I, g = 10; g < A.length; g++) { + var e = 0 | A.words[g]; + A.words[g - 10] = (4194303 & e) << 4 | I >>> 22, + I = e + } + I >>>= 22, + 0 === (A.words[g - 10] = I) && 10 < A.length ? A.length -= 10 : A.length -= 9 + }, + h.prototype.imulK = function (A) { + A.words[A.length] = 0, + A.words[A.length + 1] = 0, + A.length += 2; + for (var M = 0, t = 0; t < A.length; t++) { + var g = 0 | A.words[t]; + M += 977 * g, + A.words[t] = 67108863 & M, + M = 64 * g + (M / 67108864 | 0) + } + return 0 === A.words[A.length - 1] && (A.length--, 0 === A.words[A.length - 1] && A.length--), + A + }, + t(s, a), + t(y, a), + t(w, a), + w.prototype.imulK = function (A) { + for (var M = 0, t = 0; t < A.length; t++) { + var g = 19 * (0 | A.words[t]) + M, + I = 67108863 & g; + g >>>= 26, + A.words[t] = I, + M = g + } + return 0 !== M && (A.words[A.length++] = M), + A + }, + B._prime = function (A) { + if (Q[A]) + return Q[A]; + var M; + if ("k256" === A) + M = new h; + else if ("p224" === A) + M = new s; + else if ("p192" === A) + M = new y; + else { + if ("p25519" !== A) + throw new Error("Unknown prime " + A); + M = new w + } + return Q[A] = M + }, + j.prototype._verify1 = function (A) { + o(0 === A.negative, "red works only with positives"), + o(A.red, "red works only with red numbers") + }, + j.prototype._verify2 = function (A, M) { + o(0 == (A.negative | M.negative), "red works only with positives"), + o(A.red && A.red === M.red, "red works only with red numbers") + }, + j.prototype.imod = function (A) { + return this.prime ? this.prime.ireduce(A)._forceRed(this) : (I(A, A.umod(this.m)._forceRed(this)), A) + }, + j.prototype.neg = function (A) { + return A.isZero() ? A.clone() : this.m.sub(A)._forceRed(this) + }, + j.prototype.add = function (A, M) { + this._verify2(A, M); + M = A.add(M); + return 0 <= M.cmp(this.m) && M.isub(this.m), + M._forceRed(this) + }, + j.prototype.iadd = function (A, M) { + this._verify2(A, M); + M = A.iadd(M); + return 0 <= M.cmp(this.m) && M.isub(this.m), + M + }, + j.prototype.sub = function (A, M) { + this._verify2(A, M); + M = A.sub(M); + return M.cmpn(0) < 0 && M.iadd(this.m), + M._forceRed(this) + }, + j.prototype.isub = function (A, M) { + this._verify2(A, M); + M = A.isub(M); + return M.cmpn(0) < 0 && M.iadd(this.m), + M + }, + j.prototype.shl = function (A, M) { + return this._verify1(A), + this.imod(A.ushln(M)) + }, + j.prototype.imul = function (A, M) { + return this._verify2(A, M), + this.imod(A.imul(M)) + }, + j.prototype.mul = function (A, M) { + return this._verify2(A, M), + this.imod(A.mul(M)) + }, + j.prototype.isqr = function (A) { + return this.imul(A, A.clone()) + }, + j.prototype.sqr = function (A) { + return this.mul(A, A) + }, + j.prototype.sqrt = function (A) { + if (A.isZero()) + return A.clone(); + var M = this.m.andln(3); + if (o(M % 2 == 1), 3 === M) { + M = this.m.add(new B(1)).iushrn(2); + return this.pow(A, M) + } + for (var t = this.m.subn(1), g = 0; !t.isZero() && 0 === t.andln(1); ) + g++, t.iushrn(1); + o(!t.isZero()); + for (var I = new B(1).toRed(this), e = I.redNeg(), i = this.m.subn(1).iushrn(1), T = new B(2 * (T = this.m.bitLength()) * T).toRed(this); 0 !== this.pow(T, i).cmp(e); ) + T.redIAdd(e); + for (var E = this.pow(T, t), N = this.pow(A, t.addn(1).iushrn(1)), n = this.pow(A, t), D = g; 0 !== n.cmp(I); ) { + for (var C = n, r = 0; 0 !== C.cmp(I); r++) + C = C.redSqr(); + o(r < D); + var c = this.pow(E, new B(1).iushln(D - r - 1)), + N = N.redMul(c), + E = c.redSqr(), + n = n.redMul(E), + D = r + } + return N + }, + j.prototype.invm = function (A) { + A = A._invmp(this.m); + return 0 !== A.negative ? (A.negative = 0, this.imod(A).redNeg()) : this.imod(A) + }, + j.prototype.pow = function (A, M) { + if (M.isZero()) + return new B(1).toRed(this); + if (0 === M.cmpn(1)) + return A.clone(); + var t = new Array(16); + t[0] = new B(1).toRed(this), + t[1] = A; + for (var g = 2; g < t.length; g++) + t[g] = this.mul(t[g - 1], A); + var I = t[0], + e = 0, + i = 0, + T = M.bitLength() % 26; + for (0 === T && (T = 26), g = M.length - 1; 0 <= g; g--) { + for (var E = M.words[g], N = T - 1; 0 <= N; N--) { + var n = E >> N & 1; + I !== t[0] && (I = this.sqr(I)), + 0 != n || 0 !== e ? (e <<= 1, e |= n, (4 === ++i || 0 === g && 0 === N) && (I = this.mul(I, t[e]), e = i = 0)) : i = 0 + } + T = 26 + } + return I + }, + j.prototype.convertTo = function (A) { + var M = A.umod(this.m); + return M === A ? M.clone() : M + }, + j.prototype.convertFrom = function (A) { + A = A.clone(); + return A.red = null, + A + }, + B.mont = function (A) { + return new L(A) + }, + t(L, j), + L.prototype.convertTo = function (A) { + return this.imod(A.ushln(this.shift)) + }, + L.prototype.convertFrom = function (A) { + A = this.imod(A.mul(this.rinv)); + return A.red = null, + A + }, + L.prototype.imul = function (A, M) { + if (A.isZero() || M.isZero()) + return A.words[0] = 0, A.length = 1, A; + A = A.imul(M), + M = A.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m), + A = A.isub(M).iushrn(this.shift), + M = A; + return 0 <= A.cmp(this.m) ? M = A.isub(this.m) : A.cmpn(0) < 0 && (M = A.iadd(this.m)), + M._forceRed(this) + }, + L.prototype.mul = function (A, M) { + if (A.isZero() || M.isZero()) + return new B(0)._forceRed(this); + A = A.mul(M), + M = A.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m), + A = A.isub(M).iushrn(this.shift), + M = A; + return 0 <= A.cmp(this.m) ? M = A.isub(this.m) : A.cmpn(0) < 0 && (M = A.iadd(this.m)), + M._forceRed(this) + }, + L.prototype.invm = function (A) { + return this.imod(A._invmp(this.m).mul(this.r2))._forceRed(this) + } + } + (A, this) + }).call(this, d(93)(A)) + }, function (A, M, t) { + "use strict"; + M.version = t(172).version, + M.utils = t(12), + M.rand = t(47), + M.curve = t(96), + M.curves = t(51), + M.ec = t(183), + M.eddsa = t(187) + }, function (A, M, t) { + "use strict"; + var g, + I = M, + M = t(52), + e = t(96), + i = t(12).assert; + function T(A) { + "short" === A.type ? this.curve = new e.short(A) : "edwards" === A.type ? this.curve = new e.edwards(A) : this.curve = new e.mont(A), + this.g = this.curve.g, + this.n = this.curve.n, + this.hash = A.hash, + i(this.g.validate(), "Invalid curve"), + i(this.g.mul(this.n).isInfinity(), "Invalid curve, G*N != O") + } + function E(M, t) { + Object.defineProperty(I, M, { + configurable: !0, + enumerable: !0, + get: function () { + var A = new T(t); + return Object.defineProperty(I, M, { + configurable: !0, + enumerable: !0, + value: A + }), + A + } + }) + } + I.PresetCurve = T, + E("p192", { + type: "short", + prime: "p192", + p: "ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff", + a: "ffffffff ffffffff ffffffff fffffffe ffffffff fffffffc", + b: "64210519 e59c80e7 0fa7e9ab 72243049 feb8deec c146b9b1", + n: "ffffffff ffffffff ffffffff 99def836 146bc9b1 b4d22831", + hash: M.sha256, + gRed: !1, + g: ["188da80e b03090f6 7cbf20eb 43a18800 f4ff0afd 82ff1012", "07192b95 ffc8da78 631011ed 6b24cdd5 73f977a1 1e794811"] + }), + E("p224", { + type: "short", + prime: "p224", + p: "ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001", + a: "ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff fffffffe", + b: "b4050a85 0c04b3ab f5413256 5044b0b7 d7bfd8ba 270b3943 2355ffb4", + n: "ffffffff ffffffff ffffffff ffff16a2 e0b8f03e 13dd2945 5c5c2a3d", + hash: M.sha256, + gRed: !1, + g: ["b70e0cbd 6bb4bf7f 321390b9 4a03c1d3 56c21122 343280d6 115c1d21", "bd376388 b5f723fb 4c22dfe6 cd4375a0 5a074764 44d58199 85007e34"] + }), + E("p256", { + type: "short", + prime: null, + p: "ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff ffffffff", + a: "ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff fffffffc", + b: "5ac635d8 aa3a93e7 b3ebbd55 769886bc 651d06b0 cc53b0f6 3bce3c3e 27d2604b", + n: "ffffffff 00000000 ffffffff ffffffff bce6faad a7179e84 f3b9cac2 fc632551", + hash: M.sha256, + gRed: !1, + g: ["6b17d1f2 e12c4247 f8bce6e5 63a440f2 77037d81 2deb33a0 f4a13945 d898c296", "4fe342e2 fe1a7f9b 8ee7eb4a 7c0f9e16 2bce3357 6b315ece cbb64068 37bf51f5"] + }), + E("p384", { + type: "short", + prime: null, + p: "ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe ffffffff 00000000 00000000 ffffffff", + a: "ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe ffffffff 00000000 00000000 fffffffc", + b: "b3312fa7 e23ee7e4 988e056b e3f82d19 181d9c6e fe814112 0314088f 5013875a c656398d 8a2ed19d 2a85c8ed d3ec2aef", + n: "ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff c7634d81 f4372ddf 581a0db2 48b0a77a ecec196a ccc52973", + hash: M.sha384, + gRed: !1, + g: ["aa87ca22 be8b0537 8eb1c71e f320ad74 6e1d3b62 8ba79b98 59f741e0 82542a38 5502f25d bf55296c 3a545e38 72760ab7", "3617de4a 96262c6f 5d9e98bf 9292dc29 f8f41dbd 289a147c e9da3113 b5f0b8c0 0a60b1ce 1d7e819d 7a431d7c 90ea0e5f"] + }), + E("p521", { + type: "short", + prime: null, + p: "000001ff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff", + a: "000001ff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffc", + b: "00000051 953eb961 8e1c9a1f 929a21a0 b68540ee a2da725b 99b315f3 b8b48991 8ef109e1 56193951 ec7e937b 1652c0bd 3bb1bf07 3573df88 3d2c34f1 ef451fd4 6b503f00", + n: "000001ff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffa 51868783 bf2f966b 7fcc0148 f709a5d0 3bb5c9b8 899c47ae bb6fb71e 91386409", + hash: M.sha512, + gRed: !1, + g: ["000000c6 858e06b7 0404e9cd 9e3ecb66 2395b442 9c648139 053fb521 f828af60 6b4d3dba a14b5e77 efe75928 fe1dc127 a2ffa8de 3348b3c1 856a429b f97e7e31 c2e5bd66", "00000118 39296a78 9a3bc004 5c8a5fb4 2c7d1bd9 98f54449 579b4468 17afbd17 273e662c 97ee7299 5ef42640 c550b901 3fad0761 353c7086 a272c240 88be9476 9fd16650"] + }), + E("curve25519", { + type: "mont", + prime: "p25519", + p: "7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed", + a: "76d06", + b: "1", + n: "1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed", + hash: M.sha256, + gRed: !1, + g: ["9"] + }), + E("ed25519", { + type: "edwards", + prime: "p25519", + p: "7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed", + a: "-1", + c: "1", + d: "52036cee2b6ffe73 8cc740797779e898 00700a4d4141d8ab 75eb4dca135978a3", + n: "1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed", + hash: M.sha256, + gRed: !1, + g: ["216936d3cd6e53fec0a4e231fdd6dc5c692cc7609525a7b2c9562d608f25d51a", "6666666666666666666666666666666666666666666666666666666666666658"] + }); + try { + g = t(182) + } catch (A) { + g = void 0 + } + E("secp256k1", { + type: "short", + prime: "k256", + p: "ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f", + a: "0", + b: "7", + n: "ffffffff ffffffff ffffffff fffffffe baaedce6 af48a03b bfd25e8c d0364141", + h: "1", + hash: M.sha256, + beta: "7ae96a2b657c07106e64479eac3434e99cf0497512f58995c1396c28719501ee", + lambda: "5363ad4cc05c30e0a5261c028812645a122e22ea20816678df02967c1b23bd72", + basis: [{ + a: "3086d221a7d46bcde86c90e49284eb15", + b: "-e4437ed6010e88286f547fa90abfe4c3" + }, { + a: "114ca50f7a8e2f3f657c1108d9d44cfd8", + b: "3086d221a7d46bcde86c90e49284eb15" + } + ], + gRed: !1, + g: ["79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798", "483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8", g] + }) + }, function (A, M, t) { + M.utils = t(14), + M.common = t(27), + M.sha = t(176), + M.ripemd = t(180), + M.hmac = t(181), + M.sha1 = M.sha.sha1, + M.sha256 = M.sha.sha256, + M.sha224 = M.sha.sha224, + M.sha384 = M.sha.sha384, + M.sha512 = M.sha.sha512, + M.ripemd160 = M.ripemd.ripemd160 + }, function (i, A, T) { + "use strict"; + (function (A) { + var M, + t = T(9), + g = t.Buffer, + I = {}; + for (M in t) + t.hasOwnProperty(M) && "SlowBuffer" !== M && "Buffer" !== M && (I[M] = t[M]); + var e = I.Buffer = {}; + for (M in g) + g.hasOwnProperty(M) && "allocUnsafe" !== M && "allocUnsafeSlow" !== M && (e[M] = g[M]); + if (I.Buffer.prototype = g.prototype, e.from && e.from !== Uint8Array.from || (e.from = function (A, M, t) { + if ("number" == typeof A) + throw new TypeError('The "value" argument must not be of type number. Received type ' + typeof A); + if (A && void 0 === A.length) + throw new TypeError("The first argument must be one of type string, Buffer, ArrayBuffer, Array, or Array-like Object. Received type " + typeof A); + return g(A, M, t) + }), e.alloc || (e.alloc = function (A, M, t) { + if ("number" != typeof A) + throw new TypeError('The "size" argument must be of type number. Received type ' + typeof A); + if (A < 0 || 2 * (1 << 30) <= A) + throw new RangeError('The value "' + A + '" is invalid for option "size"'); + A = g(A); + return M && 0 !== M.length ? "string" == typeof t ? A.fill(M, t) : A.fill(M) : A.fill(0), + A + }), !I.kStringMaxLength)try { + I.kStringMaxLength = A.binding("buffer").kStringMaxLength + } catch (A) {} + I.constants || (I.constants = { + MAX_LENGTH: I.kMaxLength + }, I.kStringMaxLength && (I.constants.MAX_STRING_LENGTH = I.kStringMaxLength)), + i.exports = I + }).call(this, T(8)) + }, function (A, M, t) { + "use strict"; + var E = t(55).Reporter, + g = t(28).EncoderBuffer, + D = t(28).DecoderBuffer, + I = t(11), + t = ["seq", "seqof", "set", "setof", "objid", "bool", "gentime", "utctime", "null_", "enum", "int", "objDesc", "bitstr", "bmpstr", "charstr", "genstr", "graphstr", "ia5str", "iso646str", "numstr", "octstr", "printstr", "t61str", "unistr", "utf8str", "videostr"], + e = ["key", "obj", "use", "optional", "explicit", "implicit", "def", "choice", "any", "contains"].concat(t); + function i(A, M, t) { + var g = {}; + (this._baseState = g).name = t, + g.enc = A, + g.parent = M || null, + g.children = null, + g.tag = null, + g.args = null, + g.reverseArgs = null, + g.choice = null, + g.optional = !1, + g.any = !1, + g.obj = !1, + g.use = null, + g.useDecoder = null, + g.key = null, + g.default = null, + g.explicit = null, + g.implicit = null, + g.contains = null, + g.parent || (g.children = [], this._wrap()) + } + A.exports = i; + var T = ["enc", "parent", "children", "tag", "args", "reverseArgs", "choice", "optional", "any", "obj", "use", "alteredUse", "key", "default", "explicit", "implicit", "contains"]; + i.prototype.clone = function () { + var M = this._baseState, + t = {}; + T.forEach(function (A) { + t[A] = M[A] + }); + var A = new this.constructor(t.parent); + return A._baseState = t, + A + }, + i.prototype._wrap = function () { + var t = this._baseState; + e.forEach(function (M) { + this[M] = function () { + var A = new this.constructor(this); + return t.children.push(A), + A[M].apply(A, arguments) + } + }, this) + }, + i.prototype._init = function (A) { + var M = this._baseState; + I(null === M.parent), + A.call(this), + M.children = M.children.filter(function (A) { + return A._baseState.parent === this + }, this), + I.equal(M.children.length, 1, "Root node can have only one child") + }, + i.prototype._useArgs = function (A) { + var M = this._baseState, + t = A.filter(function (A) { + return A instanceof this.constructor + }, this); + A = A.filter(function (A) { + return !(A instanceof this.constructor) + }, this), + 0 !== t.length && (I(null === M.children), (M.children = t).forEach(function (A) { + A._baseState.parent = this + }, this)), + 0 !== A.length && (I(null === M.args), M.args = A, M.reverseArgs = A.map(function (t) { + if ("object" != typeof t || t.constructor !== Object) + return t; + var g = {}; + return Object.keys(t).forEach(function (A) { + A == (0 | A) && (A |= 0); + var M = t[A]; + g[M] = A + }), + g + })) + }, + ["_peekTag", "_decodeTag", "_use", "_decodeStr", "_decodeObjid", "_decodeTime", "_decodeNull", "_decodeInt", "_decodeBool", "_decodeList", "_encodeComposite", "_encodeStr", "_encodeObjid", "_encodeTime", "_encodeNull", "_encodeInt", "_encodeBool"].forEach(function (M) { + i.prototype[M] = function () { + var A = this._baseState; + throw new Error(M + " not implemented for encoding: " + A.enc) + } + }), + t.forEach(function (t) { + i.prototype[t] = function () { + var A = this._baseState, + M = Array.prototype.slice.call(arguments); + return I(null === A.tag), + A.tag = t, + this._useArgs(M), + this + } + }), + i.prototype.use = function (A) { + I(A); + var M = this._baseState; + return I(null === M.use), + M.use = A, + this + }, + i.prototype.optional = function () { + return this._baseState.optional = !0, + this + }, + i.prototype.def = function (A) { + var M = this._baseState; + return I(null === M.default), + M.default = A, + M.optional = !0, + this + }, + i.prototype.explicit = function (A) { + var M = this._baseState; + return I(null === M.explicit && null === M.implicit), + M.explicit = A, + this + }, + i.prototype.implicit = function (A) { + var M = this._baseState; + return I(null === M.explicit && null === M.implicit), + M.implicit = A, + this + }, + i.prototype.obj = function () { + var A = this._baseState, + M = Array.prototype.slice.call(arguments); + return A.obj = !0, + 0 !== M.length && this._useArgs(M), + this + }, + i.prototype.key = function (A) { + var M = this._baseState; + return I(null === M.key), + M.key = A, + this + }, + i.prototype.any = function () { + return this._baseState.any = !0, + this + }, + i.prototype.choice = function (M) { + var A = this._baseState; + return I(null === A.choice), + A.choice = M, + this._useArgs(Object.keys(M).map(function (A) { + return M[A] + })), + this + }, + i.prototype.contains = function (A) { + var M = this._baseState; + return I(null === M.use), + M.contains = A, + this + }, + i.prototype._decode = function (M, t) { + var A = this._baseState; + if (null === A.parent) + return M.wrapResult(A.children[0]._decode(M, t)); + var g, + I = A.default, + e = !0, + i = null; + if (null !== A.key && (i = M.enterKey(A.key)), A.optional) { + var T = null; + if (null !== A.explicit ? T = A.explicit : null !== A.implicit ? T = A.implicit : null !== A.tag && (T = A.tag), null !== T || A.any) { + if (e = this._peekTag(M, T, A.any), M.isError(e)) + return e + } else { + var E = M.save(); + try { + null === A.choice ? this._decodeGeneric(A.tag, M, t) : this._decodeChoice(M, t), + e = !0 + } catch (A) { + e = !1 + } + M.restore(E) + } + } + if (A.obj && e && (g = M.enterObject()), e) { + if (null !== A.explicit) { + var N = this._decodeTag(M, A.explicit); + if (M.isError(N)) + return N; + M = N + } + var n, + E = M.offset; + if (null === A.use && null === A.choice) { + A.any && (n = M.save()); + N = this._decodeTag(M, null !== A.implicit ? A.implicit : A.tag, A.any); + if (M.isError(N)) + return N; + A.any ? I = M.raw(n) : M = N + } + if (t && t.track && null !== A.tag && t.track(M.path(), E, M.length, "tagged"), t && t.track && null !== A.tag && t.track(M.path(), M.offset, M.length, "content"), A.any || (I = null === A.choice ? this._decodeGeneric(A.tag, M, t) : this._decodeChoice(M, t)), M.isError(I)) + return I; + A.any || null !== A.choice || null === A.children || A.children.forEach(function (A) { + A._decode(M, t) + }), + !A.contains || "octstr" !== A.tag && "bitstr" !== A.tag || (E = new D(I), I = this._getUse(A.contains, M._reporterState.obj)._decode(E, t)) + } + return A.obj && e && (I = M.leaveObject(g)), + null === A.key || null === I && !0 !== e ? null !== i && M.exitKey(i) : M.leaveKey(i, A.key, I), + I + }, + i.prototype._decodeGeneric = function (A, M, t) { + var g = this._baseState; + return "seq" === A || "set" === A ? null : "seqof" === A || "setof" === A ? this._decodeList(M, A, g.args[0], t) : /str$/.test(A) ? this._decodeStr(M, A, t) : "objid" === A && g.args ? this._decodeObjid(M, g.args[0], g.args[1], t) : "objid" === A ? this._decodeObjid(M, null, null, t) : "gentime" === A || "utctime" === A ? this._decodeTime(M, A, t) : "null_" === A ? this._decodeNull(M, t) : "bool" === A ? this._decodeBool(M, t) : "objDesc" === A ? this._decodeStr(M, A, t) : "int" === A || "enum" === A ? this._decodeInt(M, g.args && g.args[0], t) : null !== g.use ? this._getUse(g.use, M._reporterState.obj)._decode(M, t) : M.error("unknown tag: " + A) + }, + i.prototype._getUse = function (A, M) { + var t = this._baseState; + return t.useDecoder = this._use(A, M), + I(null === t.useDecoder._baseState.parent), + t.useDecoder = t.useDecoder._baseState.children[0], + t.implicit !== t.useDecoder._baseState.implicit && (t.useDecoder = t.useDecoder.clone(), t.useDecoder._baseState.implicit = t.implicit), + t.useDecoder + }, + i.prototype._decodeChoice = function (I, e) { + var i = this._baseState, + T = null, + E = !1; + return Object.keys(i.choice).some(function (A) { + var M = I.save(), + t = i.choice[A]; + try { + var g = t._decode(I, e); + if (I.isError(g)) + return !1; + T = { + type: A, + value: g + }, + E = !0 + } catch (A) { + return I.restore(M), + !1 + } + return !0 + }, this), + E ? T : I.error("Choice not matched") + }, + i.prototype._createEncoderBuffer = function (A) { + return new g(A, this.reporter) + }, + i.prototype._encode = function (A, M, t) { + var g = this._baseState; + if (null === g.default || g.default !== A) { + A = this._encodeValue(A, M, t); + if (void 0 !== A && !this._skipDefault(A, M, t)) + return A + } + }, + i.prototype._encodeValue = function (t, g, A) { + var M = this._baseState; + if (null === M.parent) + return M.children[0]._encode(t, g || new E); + var I = null; + if (this.reporter = g, M.optional && void 0 === t) { + if (null === M.default) + return; + t = M.default + } + var e = null, + i = !1; + if (M.any) + I = this._createEncoderBuffer(t); + else if (M.choice) + I = this._encodeChoice(t, g); + else if (M.contains) + e = this._getUse(M.contains, A)._encode(t, g), i = !0; + else if (M.children) + e = M.children.map(function (A) { + if ("null_" === A._baseState.tag) + return A._encode(null, g, t); + if (null === A._baseState.key) + return g.error("Child should have a key"); + var M = g.enterKey(A._baseState.key); + if ("object" != typeof t) + return g.error("Child expected, but input is not object"); + A = A._encode(t[A._baseState.key], g, t); + return g.leaveKey(M), + A + }, this).filter(function (A) { + return A + }), e = this._createEncoderBuffer(e); + else if ("seqof" === M.tag || "setof" === M.tag) { + if (!M.args || 1 !== M.args.length) + return g.error("Too many args for : " + M.tag); + if (!Array.isArray(t)) + return g.error("seqof/setof, but data is not Array"); + var T = this.clone(); + T._baseState.implicit = null, + e = this._createEncoderBuffer(t.map(function (A) { + var M = this._baseState; + return this._getUse(M.args[0], t)._encode(A, g) + }, T)) + } else + null !== M.use ? I = this._getUse(M.use, A)._encode(t, g) : (e = this._encodePrimitive(M.tag, t), i = !0); + return M.any || null !== M.choice || (T = null !== M.implicit ? M.implicit : M.tag, A = null === M.implicit ? "universal" : "context", null === T ? null === M.use && g.error("Tag could be omitted only for .use()") : null === M.use && (I = this._encodeComposite(T, i, A, e))), + null !== M.explicit && (I = this._encodeComposite(M.explicit, !1, "context", I)), + I + }, + i.prototype._encodeChoice = function (A, M) { + var t = this._baseState, + g = t.choice[A.type]; + return g || I(!1, A.type + " not found in " + JSON.stringify(Object.keys(t.choice))), + g._encode(A.value, M) + }, + i.prototype._encodePrimitive = function (A, M) { + var t = this._baseState; + if (/str$/.test(A)) + return this._encodeStr(M, A); + if ("objid" === A && t.args) + return this._encodeObjid(M, t.reverseArgs[0], t.args[1]); + if ("objid" === A) + return this._encodeObjid(M, null, null); + if ("gentime" === A || "utctime" === A) + return this._encodeTime(M, A); + if ("null_" === A) + return this._encodeNull(); + if ("int" === A || "enum" === A) + return this._encodeInt(M, t.args && t.reverseArgs[0]); + if ("bool" === A) + return this._encodeBool(M); + if ("objDesc" === A) + return this._encodeStr(M, A); + throw new Error("Unsupported tag: " + A) + }, + i.prototype._isNumstr = function (A) { + return /^[0-9 ]*$/.test(A) + }, + i.prototype._isPrintstr = function (A) { + return /^[A-Za-z0-9 '()+,-./:=?]*$/.test(A) + } + }, function (A, M, t) { + "use strict"; + t = t(3); + function g(A) { + this._reporterState = { + obj: null, + path: [], + options: A || {}, + errors: [] + } + } + function I(A, M) { + this.path = A, + this.rethrow(M) + } + (M.Reporter = g).prototype.isError = function (A) { + return A instanceof I + }, + g.prototype.save = function () { + var A = this._reporterState; + return { + obj: A.obj, + pathLen: A.path.length + } + }, + g.prototype.restore = function (A) { + var M = this._reporterState; + M.obj = A.obj, + M.path = M.path.slice(0, A.pathLen) + }, + g.prototype.enterKey = function (A) { + return this._reporterState.path.push(A) + }, + g.prototype.exitKey = function (A) { + var M = this._reporterState; + M.path = M.path.slice(0, A - 1) + }, + g.prototype.leaveKey = function (A, M, t) { + var g = this._reporterState; + this.exitKey(A), + null !== g.obj && (g.obj[M] = t) + }, + g.prototype.path = function () { + return this._reporterState.path.join("/") + }, + g.prototype.enterObject = function () { + var A = this._reporterState, + M = A.obj; + return A.obj = {}, + M + }, + g.prototype.leaveObject = function (A) { + var M = this._reporterState, + t = M.obj; + return M.obj = A, + t + }, + g.prototype.error = function (A) { + var M = this._reporterState, + t = A instanceof I, + A = t ? A : new I(M.path.map(function (A) { + return "[" + JSON.stringify(A) + "]" + }).join(""), A.message || A, A.stack); + if (!M.options.partial) + throw A; + return t || M.errors.push(A), + A + }, + g.prototype.wrapResult = function (A) { + var M = this._reporterState; + return M.options.partial ? { + result: this.isError(A) ? null : A, + errors: M.errors + } + : A + }, + t(I, Error), + I.prototype.rethrow = function (A) { + if (this.message = A + " at: " + (this.path || "(shallow)"), Error.captureStackTrace && Error.captureStackTrace(this, I), !this.stack) + try { + throw new Error(this.message) + } catch (A) { + this.stack = A.stack + } + return this + } + }, function (A, M, t) { + "use strict"; + function g(t) { + var g = {}; + return Object.keys(t).forEach(function (A) { + (0 | A) == A && (A |= 0); + var M = t[A]; + g[M] = A + }), + g + } + M.tagClass = { + 0: "universal", + 1: "application", + 2: "context", + 3: "private" + }, + M.tagClassByName = g(M.tagClass), + M.tag = { + 0: "end", + 1: "bool", + 2: "int", + 3: "bitstr", + 4: "octstr", + 5: "null_", + 6: "objid", + 7: "objDesc", + 8: "external", + 9: "real", + 10: "enum", + 11: "embed", + 12: "utf8str", + 13: "relativeOid", + 16: "seq", + 17: "set", + 18: "numstr", + 19: "printstr", + 20: "t61str", + 21: "videostr", + 22: "ia5str", + 23: "utctime", + 24: "gentime", + 25: "graphstr", + 26: "iso646str", + 27: "genstr", + 28: "unistr", + 29: "charstr", + 30: "bmpstr" + }, + M.tagByName = g(M.tag) + }, function (A, M, I) { + "use strict"; + var t, + g, + T = function () { + return void 0 === t && (t = Boolean(window && document && document.all && !window.atob)), + t + }, + e = (g = {}, function (A) { + if (void 0 === g[A]) { + var M = document.querySelector(A); + if (window.HTMLIFrameElement && M instanceof window.HTMLIFrameElement) + try { + M = M.contentDocument.head + } catch (A) { + M = null + } + g[A] = M + } + return g[A] + }), + N = []; + function n(A) { + for (var M = -1, t = 0; t < N.length; t++) + if (N[t].identifier === A) { + M = t; + break + } + return M + } + function E(A, M) { + for (var t = {}, g = [], I = 0; I < A.length; I++) { + var e = A[I], + i = M.base ? e[0] + M.base : e[0], + T = t[i] || 0, + E = "".concat(i, " ").concat(T); + t[i] = T + 1; + T = n(E), + e = { + css: e[1], + media: e[2], + sourceMap: e[3] + }; + -1 !== T ? (N[T].references++, N[T].updater(e)) : N.push({ + identifier: E, + updater: function (M, A) { + var t, + g, + I; { + var e; + I = A.singleton ? (e = o++, t = c = c || D(A), g = r.bind(null, t, e, !1), r.bind(null, t, e, !0)) : (t = D(A), g = function (A, M, t) { + var g = t.css, + I = t.media, + t = t.sourceMap; + I ? A.setAttribute("media", I) : A.removeAttribute("media"); + t && "undefined" != typeof btoa && (g += "\n/*# sourceMappingURL=data:application/json;base64,".concat(btoa(unescape(encodeURIComponent(JSON.stringify(t)))), " */")); + if (A.styleSheet) + A.styleSheet.cssText = g; + else { + for (; A.firstChild; ) + A.removeChild(A.firstChild); + A.appendChild(document.createTextNode(g)) + } + } + .bind(null, t, A), function () { + var A; + null !== (A = t).parentNode && A.parentNode.removeChild(A) + }) + } + return g(M), + function (A) { + A ? A.css === M.css && A.media === M.media && A.sourceMap === M.sourceMap || g(M = A) : I() + } + } + (e, M), + references: 1 + }), + g.push(E) + } + return g + } + function D(A) { + var M, + t = document.createElement("style"), + g = A.attributes || {}; + if (void 0 !== g.nonce || (M = I.nc) && (g.nonce = M), Object.keys(g).forEach(function (A) { + t.setAttribute(A, g[A]) + }), "function" == typeof A.insert) + A.insert(t); + else { + A = e(A.insert || "head"); + if (!A) + throw new Error("Couldn't find a style target. This probably means that the value for the 'insert' parameter is invalid."); + A.appendChild(t) + } + return t + } + var i, + C = (i = [], function (A, M) { + return i[A] = M, + i.filter(Boolean).join("\n") + }); + function r(A, M, t, g) { + t = t ? "" : g.media ? "@media ".concat(g.media, " {").concat(g.css, "}") : g.css; + A.styleSheet ? A.styleSheet.cssText = C(M, t) : (g = document.createTextNode(t), (t = A.childNodes)[M] && A.removeChild(t[M]), t.length ? A.insertBefore(g, t[M]) : A.appendChild(g)) + } + var c = null, + o = 0; + A.exports = function (A, e) { + (e = e || {}).singleton || "boolean" == typeof e.singleton || (e.singleton = T()); + var i = E(A = A || [], e); + return function (A) { + if (A = A || [], "[object Array]" === Object.prototype.toString.call(A)) { + for (var M = 0; M < i.length; M++) { + var t = n(i[M]); + N[t].references-- + } + for (var A = E(A, e), g = 0; g < i.length; g++) { + var I = n(i[g]); + 0 === N[I].references && (N[I].updater(), N.splice(I, 1)) + } + i = A + } + } + } + }, function (A, M, t) { + "use strict"; + A.exports = function (t) { + var E = []; + return E.toString = function () { + return this.map(function (A) { + var M = function (A, M) { + var t = A[1] || "", + g = A[3]; + if (!g) + return t; + if (M && "function" == typeof btoa) { + A = function (A) { + A = btoa(unescape(encodeURIComponent(JSON.stringify(A)))), + A = "sourceMappingURL=data:application/json;charset=utf-8;base64,".concat(A); + return "/*# ".concat(A, " */") + } + (g), + M = g.sources.map(function (A) { + return "/*# sourceURL=".concat(g.sourceRoot || "").concat(A, " */") + }); + return [t].concat(M).concat([A]).join("\n") + } + return [t].join("\n") + } + (A, t); + return A[2] ? "@media ".concat(A[2], " {").concat(M, "}") : M + }).join("") + }, + E.i = function (A, M, t) { + "string" == typeof A && (A = [[null, A, ""]]); + var g = {}; + if (t) + for (var I = 0; I < this.length; I++) { + var e = this[I][0]; + null != e && (g[e] = !0) + } + for (var i = 0; i < A.length; i++) { + var T = [].concat(A[i]); + t && g[T[0]] || (M && (T[2] ? T[2] = "".concat(M, " and ").concat(T[2]) : T[2] = M), E.push(T)) + } + }, + E + } + }, function (A, M, t) { + "use strict"; + var T = t(1); + function B(A, M, t) { + var g, + I, + e = navigator.userAgent.toLowerCase(), + i = t, + T = [96e3, 88200, 64e3, 48e3, 44100, 32e3, 24e3, 22050, 16e3, 12e3, 11025, 8e3, 7350], + E = 1 + ((192 & A[M + 2]) >>> 6), + N = (60 & A[M + 2]) >>> 2; + if (!(T.length - 1 < N)) + return g = (1 & A[M + 2]) << 2, g |= (192 & A[M + 3]) >>> 6, t = /firefox/i.test(e) ? 6 <= N ? (E = 5, I = new Array(4), N - 3) : (E = 2, I = new Array(2), N) : -1 !== e.indexOf("android") ? (E = 2, I = new Array(2), N) : (E = 5, I = new Array(4), t && (-1 !== t.indexOf("mp4a.40.29") || -1 !== t.indexOf("mp4a.40.5")) || !t && 6 <= N ? N - 3 : ((t && -1 !== t.indexOf("mp4a.40.2") && (6 <= N && 1 == g || /vivaldi/i.test(e)) || !t && 1 == g) && (E = 2, I = new Array(2)), N)), I[0] = E << 3, I[0] |= (14 & N) >> 1, I[1] |= (1 & N) << 7, I[1] |= g << 3, 5 === E && (I[1] |= (14 & t) >> 1, I[2] = (1 & t) << 7, I[2] |= 8, I[3] = 0), { + config: I, + samplerate: T[N], + channelCount: g, + codec: "mp4a.40." + E, + manifestCodec: i + } + } + function g(A, M) { + return 255 === A[M] && 240 == (246 & A[M + 1]) + } + function E(A, M) { + return 1 & A[M + 1] ? 7 : 9 + } + function N(A, M) { + return (3 & A[M + 3]) << 11 | A[M + 4] << 3 | (224 & A[M + 5]) >>> 5 + } + function Q(A, M) { + return !!(M + 1 < A.length && g(A, M)) + } + function a(A) { + return 9216e4 / A + } + function h(A, M, t, g, I) { + g = function (A, M, t, g, I) { + var e = A.length, + i = E(A, M), + A = N(A, M); + if (0 < (A -= i) && M + i + A <= e) + return { + headerLength: i, + frameLength: A, + stamp: t + g * I + } + } + (M, t, g, I, a(A)); + if (g) { + I = g.stamp, + A = g.headerLength, + g = g.frameLength; + return { + sample: { + unit: M.subarray(t + A, t + A + g), + pts: I, + dts: I + }, + length: g + A + } + } + } + var f = function () { + function A(A) { + this.data = A, + this.bytesAvailable = A.byteLength, + this.word = 0, + this.bitsAvailable = 0 + } + var M = A.prototype; + return M.loadWord = function () { + var A = this.data, + M = this.bytesAvailable, + t = A.byteLength - M, + g = new Uint8Array(4), + M = Math.min(4, M); + if (0 === M) + throw new Error("no bytes available"); + g.set(A.subarray(t, t + M)), + this.word = new DataView(g.buffer).getUint32(0), + this.bitsAvailable = 8 * M, + this.bytesAvailable -= M + }, + M.skipBits = function (A) { + var M; + this.bitsAvailable > A || (A -= this.bitsAvailable, A -= (M = A >> 3) >> 3, this.bytesAvailable -= M, this.loadWord()), + this.word <<= A, + this.bitsAvailable -= A + }, + M.readBits = function (A) { + var M = Math.min(this.bitsAvailable, A), + t = this.word >>> 32 - M; + return 32 < A && logger.error("Cannot read more than 32 bits at a time"), + this.bitsAvailable -= M, + 0 < this.bitsAvailable ? this.word <<= M : 0 < this.bytesAvailable && this.loadWord(), + 0 < (M = A - M) && this.bitsAvailable ? t << M | this.readBits(M) : t + }, + M.skipLZ = function () { + for (var A = 0; A < this.bitsAvailable; ++A) + if (0 != (this.word & 2147483648 >>> A)) + return this.word <<= A, this.bitsAvailable -= A, A; + return this.loadWord(), + A + this.skipLZ() + }, + M.skipUEG = function () { + this.skipBits(1 + this.skipLZ()) + }, + M.skipEG = function () { + this.skipBits(1 + this.skipLZ()) + }, + M.readUEG = function () { + var A = this.skipLZ(); + return this.readBits(A + 1) - 1 + }, + M.readEG = function () { + var A = this.readUEG(); + return 1 & A ? 1 + A >>> 1 : -1 * (A >>> 1) + }, + M.readBoolean = function () { + return 1 === this.readBits(1) + }, + M.readUByte = function () { + return this.readBits(8) + }, + M.readUShort = function () { + return this.readBits(16) + }, + M.readUInt = function () { + return this.readBits(32) + }, + M.skipScalingList = function (A) { + for (var M = 8, t = 8, g = 0; g < A; g++) + 0 !== t && (t = (M + this.readEG() + 256) % 256), M = 0 === t ? M : t + }, + M.readSPS = function () { + var A, + M, + t, + g, + I = 0, + e = 0, + i = 0, + T = 0, + E = this.readUByte.bind(this), + N = this.readBits.bind(this), + n = this.readUEG.bind(this), + D = this.readBoolean.bind(this), + C = this.skipBits.bind(this), + r = this.skipEG.bind(this), + c = this.skipUEG.bind(this), + o = this.skipScalingList.bind(this); + if (E(), A = E(), N(5), C(3), E(), c(), 100 === A || 110 === A || 122 === A || 244 === A || 44 === A || 83 === A || 86 === A || 118 === A || 128 === A) { + var B = n(); + if (3 === B && C(1), c(), c(), C(1), D()) + for (t = 3 !== B ? 8 : 12, g = 0; g < t; g++) + D() && o(g < 6 ? 16 : 64) + } + c(); + var B = n(); + if (0 === B) + n(); + else if (1 === B) + for (C(1), r(), r(), M = n(), g = 0; g < M; g++) + r(); + c(), + C(1), + B = n(), + c = n(), + 0 === (N = N(1)) && C(1), + C(1), + D() && (I = n(), e = n(), i = n(), T = n()); + var Q = [1, 1]; + if (D() && D()) + switch (E()) { + case 1: + Q = [1, 1]; + break; + case 2: + Q = [12, 11]; + break; + case 3: + Q = [10, 11]; + break; + case 4: + Q = [16, 11]; + break; + case 5: + Q = [40, 33]; + break; + case 6: + Q = [24, 11]; + break; + case 7: + Q = [20, 11]; + break; + case 8: + Q = [32, 11]; + break; + case 9: + Q = [80, 33]; + break; + case 10: + Q = [18, 11]; + break; + case 11: + Q = [15, 11]; + break; + case 12: + Q = [64, 33]; + break; + case 13: + Q = [160, 99]; + break; + case 14: + Q = [4, 3]; + break; + case 15: + Q = [3, 2]; + break; + case 16: + Q = [2, 1]; + break; + case 255: + Q = [E() << 8 | E(), E() << 8 | E()] + } + return { + width: Math.ceil(16 * (B + 1) - 2 * I - 2 * e), + height: (2 - N) * (c + 1) * 16 - (N ? 2 : 4) * (i + T), + pixelRatio: Q + } + }, + M.readSliceType = function () { + return this.readUByte(), + this.readUEG(), + this.readUEG() + }, + A + } + (), + O = t(30), + I = t(13); + t(36); + function e(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + t = function () { + function s(A, M, t) { + this.TAG = "TSDemuxer", + this._config = A, + this._onError = null, + this._onMediaInfo = null, + this._onMetaDataArrived = null, + this._onScriptDataArrived = null, + this._onTrackMetadata = null, + this._onDataAvailable = null, + this._hasAudio = !1, + this._hasVideo = !1, + this._hasAudioFlagOverrided = !1, + this._hasVideoFlagOverrided = !1, + this._initVideoMetadata = !1, + this._initAudioMetadata = !1, + this._mediaInfo = new I.a, + this._mediaInfo.hasAudio = !1, + this._mediaInfo.hasVideo = !1, + this._metadata = null, + this._audioMetadata = null, + this._videoMetadata = null, + this.tagPosition = 0, + this.filePosition = 0, + this.isHEVC = 0, + this.isAAC = 0, + this.avcTrackPid = -1, + this.audioTrackPid = -1, + this.id3TrackPid = -1, + this.audioSampleRate = 0, + this.audioChannel = 2, + this.audioBitPerSample = 16, + this.avcTrackPesData = null, + this.audioTrackPesData = null, + this.id3TrackPesData = null, + this.findKeyframe = !0, + this.syncVideoPts = 0, + this.syncAudioPts = 0, + this.startVideoPts = 0, + this.startAudioPts = 0, + this.accurateTimeOffset = 0, + this.lastVideoPts = 0, + this.currentVideoPts = 0, + this.seekVideoHistoryPts = 0, + this.currentAudioPts = 0, + this.audioFrameNum = 0, + this.reset = 0, + this._videoTrack = { + type: "video", + id: 1, + sequenceNumber: 0, + samples: [], + length: 0 + }, + this._audioTrack = { + type: "audio", + id: 2, + sequenceNumber: 0, + samples: [], + length: 0 + }, + this._timestampBase = 0, + this._timescale = 1e3, + this._duration = 0, + this._durationOverrided = !1, + this._AVC_SPS = null, + this._AVC_PPS = null, + this._HEVC_VPS = null, + this._HEVC_SPS = null, + this._HEVC_PPS = null, + this._StartCode = [0, 0, 0, 1], + this._AVC_Config = null, + this._callbackInitFlag = !1, + this._callbackMediaDataFunc = M, + this._callbackMediaDataUserPtr = t + } + var A, + M, + t = s.prototype; + return t.bindDataSource = function (A) { + return A.onDataArrival = this.append.bind(this), + this + }, + t.resetMediaInfo = function () { + this._mediaInfo = new I.a + }, + t.resetMediaPts = function (A) { + this.reset = A, + this.syncVideoPts = 0, + this.syncAudioPts = 0, + this.findKeyframe = !0, + this._videoTrack.samples = [], + this._audioTrack.samples = [] + }, + t._onDataAvailableToSoftwareDecodeVideo = function (A, M) { + var t = M.samples; + if (!(A < 1 && 0 < t.length)) { + var g = -1; + for (1 < t.length && (g = 0); t.length; ) { + for (var I = t.shift(), e = 0, i = 0; i < I.units.length; i++) + e += I.units[i].data.length; + for (var T = 0, E = new Uint8Array(e); I.units.length; ) { + var N = I.units.shift(); + 27 == A && (N.data[0] = 0, N.data[1] = 0, N.data[2] = 0, N.data[3] = 1), + E.set(N.data, T), + T += N.data.length + } + this._callbackMediaDataFunc && (0 <= g && g++, this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !0, 1, A, I.isKeyframe, E, e, I.pts, 0, 0)) + } + } + }, + t._onDataAvailableToSoftwareDecodeAudio = function (A, M) { + var t = M.samples, + g = -1; + for (1 < t.length && (g = 0); t.length; ) { + var I = t.shift(); + this._callbackMediaDataFunc && (0 <= g && g++, this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !0, 2, A, 0, I.unit, I.length, this._SampleRate, this._ChannelNum, 44100 <= this._SampleRate ? 32 : 16)) + } + }, + s.createTrack = function (A, M) { + return { + container: "video" === A || "audio" === A ? "video/mp2t" : void 0, + type: A, + id: RemuxerTrackIdConfig[A], + pid: -1, + inputTimeScale: 9e4, + sequenceNumber: 0, + samples: [], + dropped: "video" === A ? 0 : void 0, + isAAC: "audio" === A || void 0, + duration: "audio" === A ? M : void 0, + isHEVC: 0 + } + }, + s._syncOffset = function (A) { + for (var M = Math.min(1e3, A.length - 564), t = 0; t < M; ) { + if (71 === A[t] && 71 === A[t + 188] && 71 === A[t + 376]) + return t; + t++ + } + return -1 + }, + t.destroy = function () { + this._initPTS = this._initDTS = void 0, + this._duration = 0 + }, + t.parsePAT = function (A, M) { + return (31 & A[M + 10]) << 8 | A[M + 11] + }, + t.parsePMT = function (A, M, t, g) { + var I, + e = { + audio: -1, + avc: -1, + hevc: -1, + id3: -1, + isAAC: !0 + }, + i = M + 3 + ((15 & A[M + 1]) << 8 | A[M + 2]) - 4; + for (M += 12 + ((15 & A[M + 10]) << 8 | A[M + 11]); M < i; ) { + switch (I = (31 & A[M + 1]) << 8 | A[M + 2], A[M]) { + case 207: + if (!g) + break; + case 15: + -1 === e.audio && (e.audio = I); + break; + case 21: + -1 === e.id3 && (e.id3 = I); + break; + case 219: + if (!g) { + logger.log("unknown stream type:" + A[M]); + break + } + case 27: + -1 === e.avc && (e.avc = I), + T.h("H264"); + break; + case 36: + -1 === e.avc && (e.avc = I, e.hevc = I), + T.h("H265"); + break; + case 3: + case 4: + t ? -1 === e.audio && (e.audio = I, e.isAAC = !1) : logger.log("MPEG audio found, not supported in this browser for now"); + break; + case 36: + logger.warn("HEVC stream type found, not supported for now") + } + M += 5 + ((15 & A[M + 3]) << 8 | A[M + 4]) + } + return e + }, + t.parsePES = function (A) { + if (1 !== this.reset) { + var M, + t, + g, + I, + e, + i, + T, + E = 0, + N = A.data; + if (!A || 0 === A.size) + return null; + for (; N[0].length < 19 && 1 < N.length; ) { + var n = new Uint8Array(N[0].length + N[1].length); + n.set(N[0]), + n.set(N[1], N[0].length), + N[0] = n, + N.splice(1, 1) + } + if (1 !== ((M = N[0])[0] << 16) + (M[1] << 8) + M[2]) + return null; + if ((t = (M[4] << 8) + M[5]) && t > A.size - 6) + return null; + if (192 & (g = M[7]) && (4294967295 < (e = 536870912 * (14 & M[9]) + 4194304 * (255 & M[10]) + 16384 * (254 & M[11]) + 128 * (255 & M[12]) + (254 & M[13]) / 2) && (e -= 4294967295), 64 & g ? (4294967295 < (i = 536870912 * (14 & M[14]) + 4194304 * (255 & M[15]) + 16384 * (254 & M[16]) + 128 * (255 & M[17]) + (254 & M[18]) / 2) && (i -= 4294967295), 54e5 < e - i && (logger.warn(Math.round((e - i) / 9e4) + "s delta between PTS and DTS, align them"), e = i)) : i = e), T = (g = M[8]) + 9, A.size <= T) + return null; + A.size -= T, + I = new Uint8Array(A.size); + for (var D = 0, C = N.length; D < C; D++) { + var r = (M = N[D]).byteLength; + if (T) { + if (r < T) { + T -= r; + continue + } + M = M.subarray(T), + r -= T, + T = 0 + } + I.set(M, E), + E += r + } + return t && (t -= g + 3), { + data: I, + pts: e, + dts: i, + len: t + } + } + }, + t.pushAccesUnit = function (A, M) { + if (A.units.length && A.frame) { + var t = M.samples, + g = t.length; + if (isNaN(A.pts)) { + if (!g) + return void M.dropped++; + var I = t[g - 1]; + A.pts = I.pts, + A.dts = I.dts + } + !this.config.forceKeyFrameOnDiscontinuity || !0 === A.key || M.sps && (g || this.contiguous) ? (A.id = g, t.push(A)) : M.dropped++ + } + A.debug.length && logger.log(A.pts + "/" + A.dts + ":" + A.debug) + }, + t.parseAVCPES = function (Y, A, M) { + var u = this, + t = 0; + (0 === this.startVideoPts || Y.pts < this.startVideoPts) && (this.startVideoPts = Y.pts, t = 1), + this.audioFrameNum = 0; + var g = this._parseAVCNALu(Y.data), + S = [], + z = 0; + Y.data = null; + var l = !1, + U = !1; + g.forEach(function (A) { + var M = A.data.length, + t = new Uint8Array(4 + M); + t[0] = M >> 24 & 255, + t[1] = M >> 16 & 255, + t[2] = M >> 8 & 255, + t[3] = 255 & M, + t.set(A.data, 4); + M = { + type: A.type, + data: t + }; + switch (z += t.length, S.push(M), A.type) { + case 1: + 0; + var g = A.data; + U && 4 < g.length && new f(g).readSliceType(); + break; + case 5: + u.findKeyframe = !1, + l = !0; + break; + case 6: + 0; + var I = new f(u.discardEPB(A.data)); + I.readUByte(); + for (var e = 0, i = 0, T = !1, E = 0; !T && 1 < I.bytesAvailable; ) { + for (e = 0; e += E = I.readUByte(), 255 === E; ); + for (i = 0; i += E = I.readUByte(), 255 === E; ); + if (4 === e && 0 !== I.bytesAvailable) { + T = !0; + var N = I.readUByte(); + if (181 === N) + if (49 === I.readUShort()) { + N = I.readUInt(); + if (1195456820 === N) + if (3 === I.readUByte()) { + for (var N = I.readUByte(), n = 31 & N, D = [N, I.readUByte()], C = 0; C < n; C++) + D.push(I.readUByte()), D.push(I.readUByte()), D.push(I.readUByte()); + u._insertSampleInOrder(u._txtTrack.samples, { + type: 3, + pts: Y.pts, + bytes: D + }) + } + } + } else if (5 === e && 0 !== I.bytesAvailable) { + if (T = !0, 16 < i) { + for (var r = [], c = 0; c < 16; c++) + r.push(I.readUByte().toString(16)), 3 !== c && 5 !== c && 7 !== c && 9 !== c || r.push("-"); + for (var o = i - 16, B = new Uint8Array(o), Q = 0; Q < o; Q++) + B[Q] = I.readUByte() + } + } else if (i < I.bytesAvailable) + for (var a = 0; a < i; a++) + I.readUByte() + } + break; + case 7: + U = !0, + u.findKeyframe = !1, + u.tagPosition = u.filePosition, + u._AVC_Config = O.a.parseSPS(A.data); + var h, + s, + y, + w = u._AVC_Config, + j = "avc1."; + if (w) + for (var L = A.data.subarray(1, 4), d = 0; d < 3; d++) { + var x = L[d].toString(16); + x.length < 2 && (x = "0" + x), + j += x + } + u._initVideoMetadata || (null == u._AVC_SPS && (u._AVC_SPS = new Uint8Array(A.data.length + 4), u._AVC_SPS.set(u._StartCode, 0), u._AVC_SPS.set(A.data, 4)), h = u._videoMetadata, g = u._videoTrack, h ? void 0 !== h.avcc && Log.w(u.TAG, "Found another AVCDecoderConfigurationRecord!") : (!1 === u._hasVideo && !1 === u._hasVideoFlagOverrided && (u._hasVideo = !0, u._mediaInfo.hasVideo = !0), (h = u._videoMetadata = {}).type = "video", h.id = g.id, h.timescale = u._timescale, h.duration = u._duration), h.codecWidth = w.codec_size.width, h.codecHeight = w.codec_size.height, h.presentWidth = w.present_size.width, h.presentHeight = w.present_size.height, h.profile = w.profile_string, h.level = w.level_string, h.bitDepth = w.bit_depth, h.chromaFormat = w.chroma_format, h.sarRatio = w.sar_ratio, h.frameRate = w.frame_rate, !1 !== w.frame_rate.fixed && 0 !== w.frame_rate.fps_num && 0 !== w.frame_rate.fps_den || (h.frameRate = u._referenceFrameRate), void 0 !== h.frameRate && (y = h.frameRate.fps_den, s = h.frameRate.fps_num, h.refSampleDuration = h.timescale * (y / s)), h.codec = j, (y = u._mediaInfo).width = h.codecWidth, y.height = h.codecHeight, void 0 !== h.frameRate && (y.fps = h.frameRate.fps), y.profile = h.profile, y.level = h.level, y.refFrames = w.ref_frames, y.chromaFormat = w.chroma_format_string, y.sarNum = h.sarRatio.width, y.sarDen = h.sarRatio.height, y.videoCodec = j, y.hasAudio ? null != y.audioCodec && (y.mimeType = 'video/x-flv; codecs="' + y.videoCodec + "," + y.audioCodec + '"') : y.mimeType = 'video/x-flv; codecs="' + y.videoCodec + '"', y.isComplete() && u._onMediaInfo(y)); + break; + case 8: + u.findKeyframe = !1, + null == u._AVC_PPS && (u._AVC_PPS = new Uint8Array(A.data.length + 4), u._AVC_PPS.set(u._StartCode, 0), u._AVC_PPS.set(A.data, 4)), + u._initVideoMetadata || (u._initVideoMetadata = !0, null == (s = u._videoMetadata).avcc && (w = 0, h = u._AVC_SPS.length - 4 + 8 + 1 + 2 + (u._AVC_PPS.length - 4), s.avcc = new Uint8Array(1 + h), s.avcc[0] = 1, s.avcc[1] = u._AVC_SPS[5], s.avcc[2] = u._AVC_SPS[6], s.avcc[3] = u._AVC_SPS[7], s.avcc[4] = 255, s.avcc[5] = 225, w = 6, new Uint8Array, s.avcc[w++] = u._AVC_SPS.length - 4 >> 8, s.avcc[w++] = u._AVC_SPS.length - 4 & 255, y = u._AVC_SPS.subarray(4, u._AVC_SPS.length), s.avcc.set(y, 8), w += y.length, s.avcc[w++] = 1, s.avcc[w++] = u._AVC_PPS.length - 4 >> 8, s.avcc[w++] = u._AVC_PPS.length - 4 & 255, y = u._AVC_PPS.subarray(4, u._AVC_PPS.length), s.avcc.set(y, w), w += y.length, s.avcc[h] = 1), u._onTrackMetadata("video", s)); + break; + case 9: + case 12: + default: + 0 + } + }); + var I = (Y.pts - this.startVideoPts) / 90; + l && this.syncVideoPts < 1 && (this.syncVideoPts = this.startVideoPts); + var e = this._videoTrack, + g = { + units: S, + length: z, + isKeyframe: l, + dts: I, + cts: 0, + pts: I + }; + l && (g.fileposition = this.tagPosition), + 0 !== this.reset || this.findKeyframe || (e.samples.push(g), e.length += z), + this.filePosition += z, + this.accurateTimeOffset = g.pts, + this.lastVideoPts = Y.pts, + 1 === t && (this.seekVideoHistoryPts = I), + A && 0 === this.reset && ("auto" === this._config.decodeType || "hard" === this._config.decodeType ? this._onDataAvailable(this._audioTrack, this._videoTrack) : (0 < this._videoTrack.samples.length && this._onDataAvailableToSoftwareDecodeVideo(27, this._videoTrack), 0 < this._audioTrack.samples.length && this._onDataAvailableToSoftwareDecodeAudio(86018, this._audioTrack))) + }, + t.parseHEVCPES = function (A, M, t) { + (0 === this.startVideoPts || A.pts < this.startVideoPts) && (this.startVideoPts = A.pts); + var g = [], + I = 0, + e = { + type: 1, + data: A.data + }, + i = 0; + if (32 < (I += A.data.length)) + for (var T = 0, T = 0; T < 32; T++) + if (0 === A.data[T] && 0 === A.data[T + 1] && 0 === A.data[T + 2] && 1 === A.data[T + 3] && 64 === A.data[T + 4] || 0 === A.data[T + 0] && 0 === A.data[T + 1] && 1 === A.data[T + 2] && 64 === A.data[T + 3]) { + i = 1, + this.findKeyframe = !1; + break + } + g.push(e); + var E = (A.pts - this.startVideoPts) / 90; + i && this.syncVideoPts < 1 && (this.syncVideoPts = this.startVideoPts); + e = this._videoTrack, + E = { + units: g, + length: I, + isKeyframe: i, + dts: E, + cts: 0, + pts: E + }; + i && (E.fileposition = this.tagPosition), + e.samples.push(E), + e.length += I, + 0 < this._videoTrack.samples.length && this._onDataAvailableToSoftwareDecodeVideo(173, this._videoTrack), + 0 < this._audioTrack.samples.length && this._onDataAvailableToSoftwareDecodeAudio(86018, this._audioTrack) + }, + t._insertSampleInOrder = function (A, M) { + var t = A.length; + if (0 < t) { + if (M.pts >= A[t - 1].pts) + A.push(M); + else + for (var g = t - 1; 0 <= g; g--) + if (M.pts < A[g].pts) { + A.splice(g, 0, M); + break + } + } else + A.push(M) + }, + t._getLastNalUnit = function () { + var A, + M, + t = this.avcSample; + return t && 0 !== t.units.length || (t = (A = this._avcTrack.samples)[A.length - 1]), + t && (M = (M = t.units)[M.length - 1]), + M + }, + t._parseAVCNALu = function (A) { + var M, + t, + g, + I, + e = 0, + i = A.byteLength, + T = (N = 0, []), + E = -1; + for (-1 === N && (t = 31 & A[E = 0], N = 0, e = 1); e < i; ) { + var N, + n = A[e++]; + N ? N = 1 !== N ? n ? 1 === n ? (0 <= E ? 9 != (M = { + data: A.subarray(E, e - N - 1), + type: t + }).type && T.push(M) : 0, e < i ? (t = 31 & A[E = e], 0) : -1) : 0 : 3 : n ? 0 : 2 : N = n ? 0 : 1 + } + return 0 <= E && 0 <= N && (M = { + data: A.subarray(E, i), + type: t, + state: N + }, T.push(M)), + 0 !== T.length || (g = this._getLastNalUnit()) && ((I = new Uint8Array(g.data.byteLength + A.byteLength)).set(g.data, 0), I.set(A, g.data.byteLength), g.data = I), + T + }, + t.discardEPB = function (A) { + for (var M, t, g = A.byteLength, I = [], e = 1; e < g - 2; ) + 0 === A[e] && 0 === A[e + 1] && 3 === A[e + 2] ? (I.push(e + 2), e += 2) : e++; + if (0 === I.length) + return A; + M = g - I.length, + t = new Uint8Array(M); + for (var i = 0, e = 0; e < M; i++, e++) + i === I[0] && (i++, I.shift()), t[e] = A[i]; + return t + }, + t.parseAACPES = function (A, M) { + 0 === this.startAudioPts && (this.startAudioPts = A.pts); + var t, + g, + I, + e, + i, + T = this._audioTrack, + E = A.data, + N = A.pts, + n = this.aacOverFlow, + D = this.aacLastPTS; + for (n && ((A = new Uint8Array(n.byteLength + E.byteLength)).set(n, 0), A.set(E, n.byteLength), E = A), g = 0, e = E.length; g < e - 1 && !Q(E, g); g++); + if (g) { + var C, + r = g < e - 1 ? (C = "AAC PES did not start with ADTS header,offset:" + g, !1) : (C = "no ADTS header found in AAC PES", !0); + if (logger.warn("parsing error:" + C), this.observer.trigger(Event.ERROR, { + type: ErrorTypes.MEDIA_ERROR, + details: ErrorDetails.FRAG_PARSING_ERROR, + fatal: r, + reason: C + }), r) + return + } + for (this.audioSampleRate < 1 && ((C = B(E, g, this.audioCodec)) && (this.audioSampleRate = C.samplerate, this.audioChannel = C.channelCount, this.audioBitPerSample = 16, this._initAudioMetadata || (this._initAudioMetadata = !0, r = this._audioMetadata, i = this._audioTrack, r || ((r = this._audioMetadata = {}).type = "audio", r.id = i.id, r.timescale = 1e3, r.duration = 0, r.audioSampleRate = this.audioSampleRate, r.channelCount = this.audioChannel), r.config && Log.w(this.TAG, "Found another AudioSpecificConfig!"), C.config, r.audioSampleRate = C.samplerate, r.channelCount = C.channelCount, r.codec = C.codec, r.originalCodec = C.originalCodec, r.config = C.config, r.refSampleDuration = 1024 / r.audioSampleRate * r.timescale, this._SampleRate = C.samplerate, this._ChannelNum = C.channelCount, this._onDataAvailable(this._audioTrack, this._videoTrack), this._onTrackMetadata("audio", r), (i = this._mediaInfo).audioCodec = r.originalCodec, i.audioSampleRate = r.audioSampleRate, i.audioChannelCount = r.channelCount, i.hasVideo ? null != i.videoCodec && (i.mimeType = 'video/x-flv; codecs="' + i.videoCodec + "," + i.audioCodec + '"') : i.mimeType = 'video/x-flv; codecs="' + i.audioCodec + '"', i.isComplete() && this._onMediaInfo(i)))), t = 0, i = a(this.audioSampleRate), n && D && (i = D + i, 1 < Math.abs(i - N) && (N = i)); g < e; ) + if (Q(E, g) && g + 5 < e) { + var c = h(this.audioSampleRate, E, g, N, t); + if (!c) + break; + var o = Math.round((c.sample.pts - this.startAudioPts) / 90), + o = { + unit: c.sample.unit, + length: c.length, + dts: o, + pts: o + }; + 0 !== this.reset || this.findKeyframe || (this.syncAudioPts < 1 && 0 < this.syncVideoPts && (this.syncAudioPts = this.syncVideoPts), 0 < this.syncAudioPts && (T.samples.push(o), T.length += c.length)), + g += c.length, + I = c.sample.pts, + t++ + } else + g++; + n = g < e ? E.subarray(g, e) : null, + this.aacOverFlow = n, + this.aacLastPTS = I + }, + t.parseMPEGPES = function (A) { + for (var M = A.data, t = M.length, g = 0, I = 0, e = A.pts; I < t; ) + if (MpegAudio.isHeader(M, I)) { + var i = MpegAudio.appendFrame(this._audioTrack, M, I, e, g); + if (!i) + break; + I += i.length, + g++ + } else + I++ + }, + t.append = function (A, M, t) { + if (null != A && (M = A.length, 1 !== this.reset)) { + var g, + I, + e, + i, + T, + E, + N = M, + n = !1, + D = -1, + C = -1, + r = -1, + c = this.avcTrackPesData, + o = this.audioTrackPesData, + B = this.id3TrackPesData, + Q = !1, + a = s._syncOffset(A); + for (N -= (N + a) % 188, g = a; g < N; g += 188) + if (71 === A[g]) { + if (I = !!(64 & A[g + 1]), e = ((31 & A[g + 1]) << 8) + A[g + 2], 1 < (48 & A[g + 3]) >> 4) { + if ((i = g + 5 + A[g + 4]) === g + 188) + continue + } else + i = g + 4; + switch (e) { + case D: + I && (c && (T = this.parsePES(c)) && (1 == this.isHEVC ? this.parseHEVCPES(T, !1, t) : this.parseAVCPES(T, !1, t)), c = { + data: [], + size: 0 + }), + c && (c.data.push(A.subarray(i, g + 188)), c.size += g + 188 - i); + break; + case C: + I && (o && (T = this.parsePES(o)) && (this.isAAC ? this.parseAACPES(T, !1) : this.parseMPEGPES(T)), o = { + data: [], + size: 0 + }), + o && (o.data.push(A.subarray(i, g + 188)), o.size += g + 188 - i); + break; + case r: + I && (B && (T = this.parsePES(B)) && parseID3PES(T), B = { + data: [], + size: 0 + }), + B && (B.data.push(A.subarray(i, g + 188)), B.size += g + 188 - i); + break; + case 0: + I && (i += A[i] + 1), + E = this.parsePAT(A, i); + break; + case E: + I && (i += A[i] + 1); + var h = this.parsePMT(A, i, !1, !1), + D = h.avc; + 0 < h.hevc && (D = h.hevc, this.isHEVC = 1), + 0 < D && (this.avcTrackPid = D), + !this._callbackInitFlag && this._callbackMediaDataFunc && (this._callbackInitFlag = !0, 1 === this.isHEVC || "auto" !== this._config.decodeType && "hard" !== this._config.decodeType || this._callbackMediaDataFunc(this._callbackMediaDataUserPtr, !1, 1, 0, 0, null, 0, 0, 0, 0)), + 0 < (C = h.audio) && (this.audioTrackPid = C, this.isAAC = h.isAAC), + 0 < (r = h.id3) && (this.id3TrackPid = r), + n && !Q && (n = !1, g = a - 188), + Q = !0; + break; + case 17: + case 8191: + break; + default: + n = !0 + } + } + c && (T = this.parsePES(c)) ? (1 == this.isHEVC ? this.parseHEVCPES(T, !0, t) : this.parseAVCPES(T, !0, t), this.avcTrackPesData = null) : this.avcTrackPesData = c, + o && (T = this.parsePES(o)) ? (this.isAAC ? this.parseAACPES(T, !0) : this.parseMPEGPES(T), this.audioTrackPesData = null) : (o && o.size && logger.log("last AAC PES packet truncated,might overlap between fragments"), this.audioTrackPesData = o), + B && (T = this.parsePES(B)) ? (parseID3PES(T), this.id3TrackPesData = null) : this.id3TrackPesData = B + } + }, + A = s, + (t = [{ + key: "onTrackMetadata", + get: function () { + return this._onTrackMetadata + }, + set: function (A) { + this._onTrackMetadata = A + } + }, { + key: "onMediaInfo", + get: function () { + return this._onMediaInfo + }, + set: function (A) { + this._onMediaInfo = A + } + }, { + key: "onMetaDataArrived", + get: function () { + return this._onMetaDataArrived + }, + set: function (A) { + this._onMetaDataArrived = A + } + }, { + key: "onScriptDataArrived", + get: function () { + return this._onScriptDataArrived + }, + set: function (A) { + this._onScriptDataArrived = A + } + }, { + key: "onError", + get: function () { + return this._onError + }, + set: function (A) { + this._onError = A + } + }, { + key: "onDataAvailable", + get: function () { + return this._onDataAvailable + }, + set: function (A) { + this._onDataAvailable = A + } + }, { + key: "timestampBase", + get: function () { + return this._timestampBase + }, + set: function (A) { + this._timestampBase = A + } + }, { + key: "overridedDuration", + get: function () { + return this._duration + }, + set: function (A) { + this._durationOverrided = !0, + this._duration = A, + this._mediaInfo.duration = A + } + }, { + key: "overridedHasAudio", + set: function (A) { + this._hasAudioFlagOverrided = !0, + this._hasAudio = A, + this._mediaInfo.hasAudio = A + } + }, { + key: "overridedHasVideo", + set: function (A) { + this._hasVideoFlagOverrided = !0, + this._hasVideo = A, + this._mediaInfo.hasVideo = A + } + } + ]) && e(A.prototype, t), + M && e(A, M), + s + } + (), + M.a = t + }, function (A, M) { + var t = {} + .toString; + A.exports = Array.isArray || function (A) { + return "[object Array]" == t.call(A) + } + }, function (A, M, gt) { + "use strict"; + gt.r(M), + function (qM, _M, $M, At) { + var Mt, + Q = gt(1), + tt = (gt(117), void 0 !== tt ? tt : {}); + function i() { + var A, + M = {}; + for (A in tt) + tt.hasOwnProperty(A) && (M[A] = tt[A]); + var g = "./this.program", + I = function (A, M) { + throw M + }, + i = !1, + N = !1, + t = !1, + i = "object" == typeof window, + N = "function" == typeof importScripts, + e = "object" == typeof qM && "object" == typeof qM.versions && "string" == typeof qM.versions.node && !i && !N, + t = !i && !e && !N; + if (tt.ENVIRONMENT) + throw new Error("Module.ENVIRONMENT has been deprecated. To force the environment, use the ENVIRONMENT compile-time option (for example, -s ENVIRONMENT=web or -s ENVIRONMENT=node)"); + var T = ""; + if (e) { + var E, + n, + T = _M + "/", + D = function (A, M) { + return E = E || gt(121), + A = (n = n || gt(122)).normalize(A), + A = E.readFileSync(A), + M ? A : A.toString() + }, + C = function (A) { + A = D(A, !0); + return A.buffer || (A = new Uint8Array(A)), + w(A.buffer), + A + }; + 1 < qM.argv.length && (g = qM.argv[1].replace(/\\/g, "/")), + qM.argv.slice(2), + $M.exports = tt, + qM.on("uncaughtException", function (A) { + if (!(A instanceof WM)) + throw A + }), + qM.on("unhandledRejection", TA), + I = function (A) { + qM.exit(A) + }, + tt.inspect = function () { + return "[Emscripten Module object]" + } + } else if (t) + "undefined" != typeof read && (D = function (A) { + return read(A) + }), C = function (A) { + return "function" == typeof readbuffer ? new Uint8Array(readbuffer(A)) : (w("object" == typeof(A = read(A, "binary"))), A) + }, + "undefined" != typeof scriptArgs ? 0 : void 0 !== arguments && 0, + "function" == typeof quit && (I = function (A) { + quit(A) + }), + "undefined" != typeof print && ("undefined" == typeof console && (console = {}), console.log = print, console.warn = console.error = "undefined" != typeof printErr ? printErr : print); + else { + if (!i && !N) + throw new Error("environment detection error"); + N ? T = self.location.href : document.currentScript && (T = document.currentScript.src), + T = 0 !== T.indexOf("blob:") ? T.substr(0, T.lastIndexOf("/") + 1) : "", + D = function (A) { + var M = new XMLHttpRequest; + return M.open("GET", A, !1), + M.send(null), + M.responseText + }, + N && (C = function (A) { + var M = new XMLHttpRequest; + return M.open("GET", A, !1), + M.responseType = "arraybuffer", + M.send(null), + new Uint8Array(M.response) + }), + 0 + } + var r = tt.print || void 0, + c = tt.printErr || void 0; + for (A in M) + M.hasOwnProperty(A) && (tt[A] = M[A]); + function o(A) { + o.shown || (o.shown = {}), + o.shown[A] || (o.shown[A] = 1, c(A)) + } + function B(M, t) { + var g = s, + I = g.length; + try { + g.grow(1) + } catch (A) { + if (!A instanceof RangeError) + throw A; + throw "Unable to grow wasm table. Use a higher value for RESERVED_FUNCTION_POINTERS or set ALLOW_TABLE_GROWTH." + } + try { + g.set(I, M) + } catch (A) { + if (!A instanceof TypeError) + throw A; + w(void 0 !== t, "Missing signature argument to addFunction"); + t = function (A, M) { + var t = [1, 0, 1, 96], + g = M.slice(0, 1), + I = M.slice(1), + e = { + i: 127, + j: 126, + f: 125, + d: 124 + }; + t.push(I.length); + for (var i = 0; i < I.length; ++i) + t.push(e[I[i]]); + return "v" == g ? t.push(0) : t = t.concat([1, e[g]]), + t[1] = t.length - 2, + g = new Uint8Array([0, 97, 115, 109, 1, 0, 0, 0].concat(t, [2, 7, 1, 1, 101, 1, 102, 0, 0, 7, 5, 1, 1, 102, 0, 0])), + g = new WebAssembly.Module(g), + new WebAssembly.Instance(g, { + e: { + f: A + } + }).exports.f + } + (M, t); + g.set(I, t) + } + return I + } + M = null, + tt.arguments && tt.arguments, + Object.getOwnPropertyDescriptor(tt, "arguments") || Object.defineProperty(tt, "arguments", { + configurable: !0, + get: function () { + TA("Module.arguments has been replaced with plain arguments_") + } + }), + tt.thisProgram && (g = tt.thisProgram), + Object.getOwnPropertyDescriptor(tt, "thisProgram") || Object.defineProperty(tt, "thisProgram", { + configurable: !0, + get: function () { + TA("Module.thisProgram has been replaced with plain thisProgram") + } + }), + tt.quit && (I = tt.quit), + Object.getOwnPropertyDescriptor(tt, "quit") || Object.defineProperty(tt, "quit", { + configurable: !0, + get: function () { + TA("Module.quit has been replaced with plain quit_") + } + }), + w(void 0 === tt.memoryInitializerPrefixURL, "Module.memoryInitializerPrefixURL option was removed, use Module.locateFile instead"), + w(void 0 === tt.pthreadMainPrefixURL, "Module.pthreadMainPrefixURL option was removed, use Module.locateFile instead"), + w(void 0 === tt.cdInitializerPrefixURL, "Module.cdInitializerPrefixURL option was removed, use Module.locateFile instead"), + w(void 0 === tt.filePackagePrefixURL, "Module.filePackagePrefixURL option was removed, use Module.locateFile instead"), + w(void 0 === tt.read, "Module.read option was removed (modify read_ in JS)"), + w(void 0 === tt.readAsync, "Module.readAsync option was removed (modify readAsync in JS)"), + w(void 0 === tt.readBinary, "Module.readBinary option was removed (modify readBinary in JS)"), + w(void 0 === tt.setWindowTitle, "Module.setWindowTitle option was removed (modify setWindowTitle in JS)"), + Object.getOwnPropertyDescriptor(tt, "read") || Object.defineProperty(tt, "read", { + configurable: !0, + get: function () { + TA("Module.read has been replaced with plain read_") + } + }), + Object.getOwnPropertyDescriptor(tt, "readAsync") || Object.defineProperty(tt, "readAsync", { + configurable: !0, + get: function () { + TA("Module.readAsync has been replaced with plain readAsync") + } + }), + Object.getOwnPropertyDescriptor(tt, "readBinary") || Object.defineProperty(tt, "readBinary", { + configurable: !0, + get: function () { + TA("Module.readBinary has been replaced with plain readBinary") + } + }), + XM = VM = vM = function () { + TA("cannot use the stack before compiled code is ready to run, and has provided stack access") + }; + var Q, + a, + h; + tt.wasmBinary && (Q = tt.wasmBinary), + Object.getOwnPropertyDescriptor(tt, "wasmBinary") || Object.defineProperty(tt, "wasmBinary", { + configurable: !0, + get: function () { + TA("Module.wasmBinary has been replaced with plain wasmBinary") + } + }), + tt.noExitRuntime && (a = tt.noExitRuntime), + Object.getOwnPropertyDescriptor(tt, "noExitRuntime") || Object.defineProperty(tt, "noExitRuntime", { + configurable: !0, + get: function () { + TA("Module.noExitRuntime has been replaced with plain noExitRuntime") + } + }), + "object" != typeof WebAssembly && TA("No WebAssembly support found. Build with -s WASM=0 to target JavaScript instead."); + var s = new WebAssembly.Table({ + initial: 2263, + maximum: 2273, + element: "anyfunc" + }), + y = !1; + function w(A, M) { + A || TA("Assertion failed: " + M) + } + function j(A, M, t, g, I) { + var e = { + string: function (A) { + var M, + t = 0; + return null != A && 0 !== A && (M = 1 + (A.length << 2), u(A, t = vM(M), M)), + t + }, + array: function (A) { + var M, + t = vM(A.length); + return M = t, + w(0 <= (A = A).length, "writeArrayToMemory array must have a length (should be an array or typed array)"), + l.set(A, M), + t + } + }; + var i, + A = (w(A = tt["_" + (i = A)], "Cannot call unknown function " + i + ", make sure it is exported"), A), + T = [], + E = 0; + if (w("array" !== M, 'Return type should not be "array".'), g) + for (var N = 0; N < g.length; N++) { + var n = e[t[N]]; + n ? (0 === E && (E = XM()), T[N] = n(g[N])) : T[N] = g[N] + } + var D, + A = A.apply(null, T); + return D = A, + A = "string" === M ? x(D) : "boolean" === M ? Boolean(D) : D, + 0 !== E && VM(E), + A + } + var L = "undefined" != typeof TextDecoder ? new TextDecoder("utf8") : void 0; + function d(A, M, t) { + for (var g = M + t, I = M; A[I] && !(g <= I); ) + ++I; + if (16 < I - M && A.subarray && L) + return L.decode(A.subarray(M, I)); + for (var e = ""; M < I; ) { + var i, + T, + E = A[M++]; + 128 & E ? (i = 63 & A[M++], 192 != (224 & E) ? (T = 63 & A[M++], (E = 224 == (240 & E) ? (15 & E) << 12 | i << 6 | T : (240 != (248 & E) && o("Invalid UTF-8 leading byte 0x" + E.toString(16) + " encountered when deserializing a UTF-8 string on the asm.js/wasm heap to a JS string!"), (7 & E) << 18 | i << 12 | T << 6 | 63 & A[M++])) < 65536 ? e += String.fromCharCode(E) : (T = E - 65536, e += String.fromCharCode(55296 | T >> 10, 56320 | 1023 & T))) : e += String.fromCharCode((31 & E) << 6 | i)) : e += String.fromCharCode(E) + } + return e + } + function x(A, M) { + return A ? d(U, A, M) : "" + } + function Y(A, M, t, g) { + if (!(0 < g)) + return 0; + for (var I = t, e = t + g - 1, i = 0; i < A.length; ++i) { + var T = A.charCodeAt(i); + if (55296 <= T && T <= 57343 && (T = 65536 + ((1023 & T) << 10) | 1023 & A.charCodeAt(++i)), T <= 127) { + if (e <= t) + break; + M[t++] = T + } else if (T <= 2047) { + if (e <= t + 1) + break; + M[t++] = 192 | T >> 6, + M[t++] = 128 | 63 & T + } else if (T <= 65535) { + if (e <= t + 2) + break; + M[t++] = 224 | T >> 12, + M[t++] = 128 | T >> 6 & 63, + M[t++] = 128 | 63 & T + } else { + if (e <= t + 3) + break; + 2097152 <= T && o("Invalid Unicode code point 0x" + T.toString(16) + " encountered when serializing a JS string to an UTF-8 string on the asm.js/wasm heap! (Valid unicode code points should be in range 0-0x1FFFFF)."), + M[t++] = 240 | T >> 18, + M[t++] = 128 | T >> 12 & 63, + M[t++] = 128 | T >> 6 & 63, + M[t++] = 128 | 63 & T + } + } + return M[t] = 0, + t - I + } + function u(A, M, t) { + return w("number" == typeof t, "stringToUTF8(str, outPtr, maxBytesToWrite) is missing the third parameter that specifies the length of the output buffer!"), + Y(A, U, M, t) + } + function S(A) { + for (var M = 0, t = 0; t < A.length; ++t) { + var g = A.charCodeAt(t); + 55296 <= g && g <= 57343 && (g = 65536 + ((1023 & g) << 10) | 1023 & A.charCodeAt(++t)), + g <= 127 ? ++M : M += g <= 2047 ? 2 : g <= 65535 ? 3 : 4 + } + return M + } + "undefined" != typeof TextDecoder && new TextDecoder("utf-16le"); + var z, + l, + U, + f, + O, + m; + function F(A, M) { + return 0 < A % M && (A += M - A % M), + A + } + function R(A) { + z = A, + tt.HEAP8 = l = new Int8Array(A), + tt.HEAP16 = f = new Int16Array(A), + tt.HEAP32 = O = new Int32Array(A), + tt.HEAPU8 = U = new Uint8Array(A), + tt.HEAPU16 = new Uint16Array(A), + tt.HEAPU32 = m = new Uint32Array(A), + tt.HEAPF32 = new Float32Array(A), + tt.HEAPF64 = new Float64Array(A) + } + var k = 1172816, + p = 1172656; + w(!0, "stack must start aligned"), + w(!0, "heap must start aligned"); + tt.TOTAL_STACK && w(5242880 === tt.TOTAL_STACK, "the stack size can no longer be determined at runtime"); + t = tt.TOTAL_MEMORY || 67108864; + function b() { + w(0 == (3 & k)), + m[1 + (k >> 2)] = 34821223, + m[2 + (k >> 2)] = 2310721022, + O[0] = 1668509029 + } + function G() { + var A = m[1 + (k >> 2)], + M = m[2 + (k >> 2)]; + 34821223 == A && 2310721022 == M || TA("Stack overflow! Stack cookie has been overwritten, expected hex dwords 0x89BACDFE and 0x02135467, but received 0x" + M.toString(16) + " " + A.toString(16)), + 1668509029 !== O[0] && TA("Runtime error: The application has corrupted its heap memory area (address zero)!") + } + function J(A) { + for (; 0 < A.length; ) { + var M, + t = A.shift(); + "function" != typeof t ? "number" == typeof(M = t.func) ? void 0 === t.arg ? tt.dynCall_v(M) : tt.dynCall_vi(M, t.arg) : M(void 0 === t.arg ? null : t.arg) : t() + } + } + Object.getOwnPropertyDescriptor(tt, "TOTAL_MEMORY") || Object.defineProperty(tt, "TOTAL_MEMORY", { + configurable: !0, + get: function () { + TA("Module.TOTAL_MEMORY has been replaced with plain INITIAL_TOTAL_MEMORY") + } + }), + w(5242880 <= t, "TOTAL_MEMORY should be larger than TOTAL_STACK, was " + t + "! (TOTAL_STACK=5242880)"), + w("undefined" != typeof Int32Array && "undefined" != typeof Float64Array && void 0 !== Int32Array.prototype.subarray && void 0 !== Int32Array.prototype.set, "JS engine does not provide full typed array support"), + (h = tt.wasmMemory || new WebAssembly.Memory({ + initial: t / 65536 + })) && (z = h.buffer), + w((t = z.byteLength) % 65536 == 0), + R(z), + O[p >> 2] = 6415696, + function () { + var A = new Int16Array(1), + M = new Int8Array(A.buffer); + if (A[0] = 25459, 115 !== M[0] || 99 !== M[1]) + throw "Runtime error: expected the system to be little-endian!" + } + (); + var H = [], + X = [], + v = [], + V = [], + W = !1, + P = !1; + function Z() { + if (tt.preRun) + for ("function" == typeof tt.preRun && (tt.preRun = [tt.preRun]); tt.preRun.length; ) + A = tt.preRun.shift(), H.unshift(A); + var A; + J(H) + } + function K() { + if (G(), tt.postRun) + for ("function" == typeof tt.postRun && (tt.postRun = [tt.postRun]); tt.postRun.length; ) + A = tt.postRun.shift(), V.unshift(A); + var A; + J(V) + } + w(Math.imul, "This browser does not support Math.imul(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill"), + w(Math.fround, "This browser does not support Math.fround(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill"), + w(Math.clz32, "This browser does not support Math.clz32(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill"), + w(Math.trunc, "This browser does not support Math.trunc(), build with LEGACY_VM_SUPPORT or POLYFILL_OLD_MATH_FUNCTIONS to add in a polyfill"); + var q = Math.abs, + _ = Math.ceil, + $ = Math.floor, + AA = Math.min, + MA = 0, + tA = null, + gA = null, + IA = {}; + function eA(A) { + MA++, + tt.monitorRunDependencies && tt.monitorRunDependencies(MA), + A ? (w(!IA[A]), IA[A] = 1, null === tA && "undefined" != typeof setInterval && (tA = setInterval(function () { + if (y) + return clearInterval(tA), void(tA = null); + var A, + M = !1; + for (A in IA) + M || (M = !0, c("still waiting on run dependencies:")), c("dependency: " + A); + M && c("(end of list)") + }, 1e4))) : c("warning: run dependency added without ID") + } + function iA(A) { + MA--, + tt.monitorRunDependencies && tt.monitorRunDependencies(MA), + A ? (w(IA[A]), delete IA[A]) : c("warning: run dependency removed without ID"), + 0 == MA && (null !== tA && (clearInterval(tA), tA = null), gA && (A = gA, gA = null, A())) + } + function TA(A) { + throw tt.onAbort && tt.onAbort(A), + r(A += ""), + c(A), + y = !0, + A = "abort(" + A + ") at " + BA(), + new WebAssembly.RuntimeError(A) + } + tt.preloadedImages = {}, + tt.preloadedAudios = {}; + var EA = "data:application/octet-stream;base64,"; + function NA(A) { + return String.prototype.startsWith ? A.startsWith(EA) : 0 === A.indexOf(EA) + } + var nA, + DA, + CA, + rA = Mt + "jhbs/easyplayer/libDecoder.wasm"; + function cA() { + try { + if (Q) + return new Uint8Array(Q); + if (C) + return C(rA); + throw "both async and sync fetching of the wasm failed" + } catch (A) { + TA(A) + } + } + function oA(A) { + return A.replace(/\b_Z[\w\d_]+/g, function (A) { + var M, + M = (M = A, o("warning: build with -s DEMANGLE_SUPPORT=1 to link in libcxxabi demangling"), M); + return A === M ? A : M + " [" + A + "]" + }) + } + function BA() { + var A = function () { + var M = new Error; + if (!M.stack) { + try { + throw new Error(0) + } catch (A) { + M = A + } + if (!M.stack) + return "(no stack trace available)" + } + return M.stack.toString() + } + (); + return tt.extraStackTrace && (A += "\n" + tt.extraStackTrace()), + oA(A) + } + NA(rA) || (nA = rA, rA = tt.locateFile ? tt.locateFile(nA, T) : T + nA), + X.push({ + func: function () { + GM() + } + }); + var QA = {}; + function aA(A) { + return tt.___errno_location ? O[tt.___errno_location() >> 2] = A : c("failed to set errno from JS"), + A + } + var hA = { + splitPath: function (A) { + return /^(\/?|)([\s\S]*?)((?:\.{1,2}|[^\/]+?|)(\.[^.\/]*|))(?:[\/]*)$/.exec(A).slice(1) + }, + normalizeArray: function (A, M) { + for (var t = 0, g = A.length - 1; 0 <= g; g--) { + var I = A[g]; + "." === I ? A.splice(g, 1) : ".." === I ? (A.splice(g, 1), t++) : t && (A.splice(g, 1), t--) + } + if (M) + for (; t; t--) + A.unshift(".."); + return A + }, + normalize: function (A) { + var M = "/" === A.charAt(0), + t = "/" === A.substr(-1); + return (A = hA.normalizeArray(A.split("/").filter(function (A) { + return !!A + }), !M).join("/")) || M || (A = "."), + A && t && (A += "/"), + (M ? "/" : "") + A + }, + dirname: function (A) { + var M = hA.splitPath(A), + A = M[0], + M = M[1]; + return A || M ? A + (M = M && M.substr(0, M.length - 1)) : "." + }, + basename: function (A) { + if ("/" === A) + return "/"; + var M = A.lastIndexOf("/"); + return -1 === M ? A : A.substr(M + 1) + }, + extname: function (A) { + return hA.splitPath(A)[3] + }, + join: function () { + var A = Array.prototype.slice.call(arguments, 0); + return hA.normalize(A.join("/")) + }, + join2: function (A, M) { + return hA.normalize(A + "/" + M) + } + }, + sA = { + resolve: function () { + for (var A = "", M = !1, t = arguments.length - 1; -1 <= t && !M; t--) { + var g = 0 <= t ? arguments[t] : dA.cwd(); + if ("string" != typeof g) + throw new TypeError("Arguments to path.resolve must be strings"); + if (!g) + return ""; + A = g + "/" + A, + M = "/" === g.charAt(0) + } + return (M ? "/" : "") + (A = hA.normalizeArray(A.split("/").filter(function (A) { + return !!A + }), !M).join("/")) || "." + }, + relative: function (A, M) { + function t(A) { + for (var M = 0; M < A.length && "" === A[M]; M++); + for (var t = A.length - 1; 0 <= t && "" === A[t]; t--); + return t < M ? [] : A.slice(M, t - M + 1) + } + A = sA.resolve(A).substr(1), + M = sA.resolve(M).substr(1); + for (var g = t(A.split("/")), I = t(M.split("/")), e = Math.min(g.length, I.length), i = e, T = 0; T < e; T++) + if (g[T] !== I[T]) { + i = T; + break + } + for (var E = [], T = i; T < g.length; T++) + E.push(".."); + return (E = E.concat(I.slice(i))).join("/") + } + }, + yA = { + ttys: [], + init: function () {}, + shutdown: function () {}, + register: function (A, M) { + yA.ttys[A] = { + input: [], + output: [], + ops: M + }, + dA.registerDevice(A, yA.stream_ops) + }, + stream_ops: { + open: function (A) { + var M = yA.ttys[A.node.rdev]; + if (!M) + throw new dA.ErrnoError(43); + A.tty = M, + A.seekable = !1 + }, + close: function (A) { + A.tty.ops.flush(A.tty) + }, + flush: function (A) { + A.tty.ops.flush(A.tty) + }, + read: function (A, M, t, g, I) { + if (!A.tty || !A.tty.ops.get_char) + throw new dA.ErrnoError(60); + for (var e, i = 0, T = 0; T < g; T++) { + try { + e = A.tty.ops.get_char(A.tty) + } catch (A) { + throw new dA.ErrnoError(29) + } + if (void 0 === e && 0 === i) + throw new dA.ErrnoError(6); + if (null == e) + break; + i++, + M[t + T] = e + } + return i && (A.node.timestamp = Date.now()), + i + }, + write: function (A, M, t, g, I) { + if (!A.tty || !A.tty.ops.put_char) + throw new dA.ErrnoError(60); + try { + for (var e = 0; e < g; e++) + A.tty.ops.put_char(A.tty, M[t + e]) + } catch (A) { + throw new dA.ErrnoError(29) + } + return g && (A.node.timestamp = Date.now()), + e + } + }, + default_tty_ops: { + get_char: function (A) { + if (!A.input.length) { + var M = null; + if (e) { + var t = At.alloc ? At.alloc(256) : new At(256), + g = 0; + try { + g = E.readSync(qM.stdin.fd, t, 0, 256, null) + } catch (A) { + if (-1 == A.toString().indexOf("EOF")) + throw A; + g = 0 + } + M = 0 < g ? t.slice(0, g).toString("utf-8") : null + } else + "undefined" != typeof window && "function" == typeof window.prompt ? null !== (M = window.prompt("Input: ")) && (M += "\n") : "function" == typeof readline && null !== (M = readline()) && (M += "\n"); + if (!M) + return null; + A.input = lA(M, !0) + } + return A.input.shift() + }, + put_char: function (A, M) { + null === M || 10 === M ? (r(d(A.output, 0)), A.output = []) : 0 != M && A.output.push(M) + }, + flush: function (A) { + A.output && 0 < A.output.length && (r(d(A.output, 0)), A.output = []) + } + }, + default_tty1_ops: { + put_char: function (A, M) { + null === M || 10 === M ? (c(d(A.output, 0)), A.output = []) : 0 != M && A.output.push(M) + }, + flush: function (A) { + A.output && 0 < A.output.length && (c(d(A.output, 0)), A.output = []) + } + } + }, + wA = { + ops_table: null, + mount: function (A) { + return wA.createNode(null, "/", 16895, 0) + }, + createNode: function (A, M, t, g) { + if (dA.isBlkdev(t) || dA.isFIFO(t)) + throw new dA.ErrnoError(63); + wA.ops_table || (wA.ops_table = { + dir: { + node: { + getattr: wA.node_ops.getattr, + setattr: wA.node_ops.setattr, + lookup: wA.node_ops.lookup, + mknod: wA.node_ops.mknod, + rename: wA.node_ops.rename, + unlink: wA.node_ops.unlink, + rmdir: wA.node_ops.rmdir, + readdir: wA.node_ops.readdir, + symlink: wA.node_ops.symlink + }, + stream: { + llseek: wA.stream_ops.llseek + } + }, + file: { + node: { + getattr: wA.node_ops.getattr, + setattr: wA.node_ops.setattr + }, + stream: { + llseek: wA.stream_ops.llseek, + read: wA.stream_ops.read, + write: wA.stream_ops.write, + allocate: wA.stream_ops.allocate, + mmap: wA.stream_ops.mmap, + msync: wA.stream_ops.msync + } + }, + link: { + node: { + getattr: wA.node_ops.getattr, + setattr: wA.node_ops.setattr, + readlink: wA.node_ops.readlink + }, + stream: {} + }, + chrdev: { + node: { + getattr: wA.node_ops.getattr, + setattr: wA.node_ops.setattr + }, + stream: dA.chrdev_stream_ops + } + }); + g = dA.createNode(A, M, t, g); + return dA.isDir(g.mode) ? (g.node_ops = wA.ops_table.dir.node, g.stream_ops = wA.ops_table.dir.stream, g.contents = {}) : dA.isFile(g.mode) ? (g.node_ops = wA.ops_table.file.node, g.stream_ops = wA.ops_table.file.stream, g.usedBytes = 0, g.contents = null) : dA.isLink(g.mode) ? (g.node_ops = wA.ops_table.link.node, g.stream_ops = wA.ops_table.link.stream) : dA.isChrdev(g.mode) && (g.node_ops = wA.ops_table.chrdev.node, g.stream_ops = wA.ops_table.chrdev.stream), + g.timestamp = Date.now(), + A && (A.contents[M] = g), + g + }, + getFileDataAsRegularArray: function (A) { + if (A.contents && A.contents.subarray) { + for (var M = [], t = 0; t < A.usedBytes; ++t) + M.push(A.contents[t]); + return M + } + return A.contents + }, + getFileDataAsTypedArray: function (A) { + return A.contents ? A.contents.subarray ? A.contents.subarray(0, A.usedBytes) : new Uint8Array(A.contents) : new Uint8Array + }, + expandFileStorage: function (A, M) { + var t = A.contents ? A.contents.length : 0; + M <= t || (M = Math.max(M, t * (t < 1048576 ? 2 : 1.125) | 0), 0 != t && (M = Math.max(M, 256)), t = A.contents, A.contents = new Uint8Array(M), 0 < A.usedBytes && A.contents.set(t.subarray(0, A.usedBytes), 0)) + }, + resizeFileStorage: function (A, M) { + if (A.usedBytes != M) { + if (0 == M) + return A.contents = null, void(A.usedBytes = 0); + if (!A.contents || A.contents.subarray) { + var t = A.contents; + return A.contents = new Uint8Array(new ArrayBuffer(M)), + t && A.contents.set(t.subarray(0, Math.min(M, A.usedBytes))), + void(A.usedBytes = M) + } + if (A.contents || (A.contents = []), A.contents.length > M) + A.contents.length = M; + else + for (; A.contents.length < M; ) + A.contents.push(0); + A.usedBytes = M + } + }, + node_ops: { + getattr: function (A) { + var M = {}; + return M.dev = dA.isChrdev(A.mode) ? A.id : 1, + M.ino = A.id, + M.mode = A.mode, + M.nlink = 1, + M.uid = 0, + M.gid = 0, + M.rdev = A.rdev, + dA.isDir(A.mode) ? M.size = 4096 : dA.isFile(A.mode) ? M.size = A.usedBytes : dA.isLink(A.mode) ? M.size = A.link.length : M.size = 0, + M.atime = new Date(A.timestamp), + M.mtime = new Date(A.timestamp), + M.ctime = new Date(A.timestamp), + M.blksize = 4096, + M.blocks = Math.ceil(M.size / M.blksize), + M + }, + setattr: function (A, M) { + void 0 !== M.mode && (A.mode = M.mode), + void 0 !== M.timestamp && (A.timestamp = M.timestamp), + void 0 !== M.size && wA.resizeFileStorage(A, M.size) + }, + lookup: function (A, M) { + throw dA.genericErrors[44] + }, + mknod: function (A, M, t, g) { + return wA.createNode(A, M, t, g) + }, + rename: function (A, M, t) { + if (dA.isDir(A.mode)) { + var g; + try { + g = dA.lookupNode(M, t) + } catch (A) {} + if (g) + for (var I in g.contents) + throw new dA.ErrnoError(55) + } + delete A.parent.contents[A.name], + A.name = t, + (M.contents[t] = A).parent = M + }, + unlink: function (A, M) { + delete A.contents[M] + }, + rmdir: function (A, M) { + for (var t in dA.lookupNode(A, M).contents) + throw new dA.ErrnoError(55); + delete A.contents[M] + }, + readdir: function (A) { + var M, + t = [".", ".."]; + for (M in A.contents) + A.contents.hasOwnProperty(M) && t.push(M); + return t + }, + symlink: function (A, M, t) { + M = wA.createNode(A, M, 41471, 0); + return M.link = t, + M + }, + readlink: function (A) { + if (!dA.isLink(A.mode)) + throw new dA.ErrnoError(28); + return A.link + } + }, + stream_ops: { + read: function (A, M, t, g, I) { + var e = A.node.contents; + if (I >= A.node.usedBytes) + return 0; + var i = Math.min(A.node.usedBytes - I, g); + if (w(0 <= i), 8 < i && e.subarray) + M.set(e.subarray(I, I + i), t); + else + for (var T = 0; T < i; T++) + M[t + T] = e[I + T]; + return i + }, + write: function (A, M, t, g, I, e) { + if (e && o("file packager has copied file data into memory, but in memory growth we are forced to copy it again (see --no-heap-copy)"), e = !1, !g) + return 0; + var i = A.node; + if (i.timestamp = Date.now(), M.subarray && (!i.contents || i.contents.subarray)) { + if (e) + return w(0 === I, "canOwn must imply no weird position inside the file"), i.contents = M.subarray(t, t + g), i.usedBytes = g; + if (0 === i.usedBytes && 0 === I) + return i.contents = new Uint8Array(M.subarray(t, t + g)), i.usedBytes = g; + if (I + g <= i.usedBytes) + return i.contents.set(M.subarray(t, t + g), I), g + } + if (wA.expandFileStorage(i, I + g), i.contents.subarray && M.subarray) + i.contents.set(M.subarray(t, t + g), I); + else + for (var T = 0; T < g; T++) + i.contents[I + T] = M[t + T]; + return i.usedBytes = Math.max(i.usedBytes, I + g), + g + }, + llseek: function (A, M, t) { + if (1 === t ? M += A.position : 2 === t && dA.isFile(A.node.mode) && (M += A.node.usedBytes), M < 0) + throw new dA.ErrnoError(28); + return M + }, + allocate: function (A, M, t) { + wA.expandFileStorage(A.node, M + t), + A.node.usedBytes = Math.max(A.node.usedBytes, M + t) + }, + mmap: function (A, M, t, g, I, e, i) { + if (!dA.isFile(A.node.mode)) + throw new dA.ErrnoError(43); + var T, + E = A.node.contents; + if (2 & i || E.buffer !== M && E.buffer !== M.buffer) { + (0 < I || I + g < A.node.usedBytes) && (E = E.subarray ? E.subarray(I, I + g) : Array.prototype.slice.call(E, I, I + g)), + T = !0; + var N, + I = M.buffer == l.buffer; + if (!(N = JM(g))) + throw new dA.ErrnoError(48); + (I ? l : M).set(E, N) + } else + T = !1, N = E.byteOffset; + return { + ptr: N, + allocated: T + } + }, + msync: function (A, M, t, g, I) { + if (!dA.isFile(A.node.mode)) + throw new dA.ErrnoError(43); + if (2 & I) + return 0; + wA.stream_ops.write(A, M, 0, g, t, !1); + return 0 + } + } + }, + jA = { + 0: "Success", + 1: "Arg list too long", + 2: "Permission denied", + 3: "Address already in use", + 4: "Address not available", + 5: "Address family not supported by protocol family", + 6: "No more processes", + 7: "Socket already connected", + 8: "Bad file number", + 9: "Trying to read unreadable message", + 10: "Mount device busy", + 11: "Operation canceled", + 12: "No children", + 13: "Connection aborted", + 14: "Connection refused", + 15: "Connection reset by peer", + 16: "File locking deadlock error", + 17: "Destination address required", + 18: "Math arg out of domain of func", + 19: "Quota exceeded", + 20: "File exists", + 21: "Bad address", + 22: "File too large", + 23: "Host is unreachable", + 24: "Identifier removed", + 25: "Illegal byte sequence", + 26: "Connection already in progress", + 27: "Interrupted system call", + 28: "Invalid argument", + 29: "I/O error", + 30: "Socket is already connected", + 31: "Is a directory", + 32: "Too many symbolic links", + 33: "Too many open files", + 34: "Too many links", + 35: "Message too long", + 36: "Multihop attempted", + 37: "File or path name too long", + 38: "Network interface is not configured", + 39: "Connection reset by network", + 40: "Network is unreachable", + 41: "Too many open files in system", + 42: "No buffer space available", + 43: "No such device", + 44: "No such file or directory", + 45: "Exec format error", + 46: "No record locks available", + 47: "The link has been severed", + 48: "Not enough core", + 49: "No message of desired type", + 50: "Protocol not available", + 51: "No space left on device", + 52: "Function not implemented", + 53: "Socket is not connected", + 54: "Not a directory", + 55: "Directory not empty", + 56: "State not recoverable", + 57: "Socket operation on non-socket", + 59: "Not a typewriter", + 60: "No such device or address", + 61: "Value too large for defined data type", + 62: "Previous owner died", + 63: "Not super-user", + 64: "Broken pipe", + 65: "Protocol error", + 66: "Unknown protocol", + 67: "Protocol wrong type for socket", + 68: "Math result not representable", + 69: "Read only file system", + 70: "Illegal seek", + 71: "No such process", + 72: "Stale file handle", + 73: "Connection timed out", + 74: "Text file busy", + 75: "Cross-device link", + 100: "Device not a stream", + 101: "Bad font file fmt", + 102: "Invalid slot", + 103: "Invalid request code", + 104: "No anode", + 105: "Block device required", + 106: "Channel number out of range", + 107: "Level 3 halted", + 108: "Level 3 reset", + 109: "Link number out of range", + 110: "Protocol driver not attached", + 111: "No CSI structure available", + 112: "Level 2 halted", + 113: "Invalid exchange", + 114: "Invalid request descriptor", + 115: "Exchange full", + 116: "No data (for no delay io)", + 117: "Timer expired", + 118: "Out of streams resources", + 119: "Machine is not on the network", + 120: "Package not installed", + 121: "The object is remote", + 122: "Advertise error", + 123: "Srmount error", + 124: "Communication error on send", + 125: "Cross mount point (not really error)", + 126: "Given log. name not unique", + 127: "f.d. invalid for this operation", + 128: "Remote address changed", + 129: "Can access a needed shared lib", + 130: "Accessing a corrupted shared lib", + 131: ".lib section in a.out corrupted", + 132: "Attempting to link in too many libs", + 133: "Attempting to exec a shared library", + 135: "Streams pipe error", + 136: "Too many users", + 137: "Socket type not supported", + 138: "Not supported", + 139: "Protocol family not supported", + 140: "Can't send after socket shutdown", + 141: "Too many references", + 142: "Host is down", + 148: "No medium (in tape drive)", + 156: "Level 2 not synchronized" + }, + LA = { + EPERM: 63, + ENOENT: 44, + ESRCH: 71, + EINTR: 27, + EIO: 29, + ENXIO: 60, + E2BIG: 1, + ENOEXEC: 45, + EBADF: 8, + ECHILD: 12, + EAGAIN: 6, + EWOULDBLOCK: 6, + ENOMEM: 48, + EACCES: 2, + EFAULT: 21, + ENOTBLK: 105, + EBUSY: 10, + EEXIST: 20, + EXDEV: 75, + ENODEV: 43, + ENOTDIR: 54, + EISDIR: 31, + EINVAL: 28, + ENFILE: 41, + EMFILE: 33, + ENOTTY: 59, + ETXTBSY: 74, + EFBIG: 22, + ENOSPC: 51, + ESPIPE: 70, + EROFS: 69, + EMLINK: 34, + EPIPE: 64, + EDOM: 18, + ERANGE: 68, + ENOMSG: 49, + EIDRM: 24, + ECHRNG: 106, + EL2NSYNC: 156, + EL3HLT: 107, + EL3RST: 108, + ELNRNG: 109, + EUNATCH: 110, + ENOCSI: 111, + EL2HLT: 112, + EDEADLK: 16, + ENOLCK: 46, + EBADE: 113, + EBADR: 114, + EXFULL: 115, + ENOANO: 104, + EBADRQC: 103, + EBADSLT: 102, + EDEADLOCK: 16, + EBFONT: 101, + ENOSTR: 100, + ENODATA: 116, + ETIME: 117, + ENOSR: 118, + ENONET: 119, + ENOPKG: 120, + EREMOTE: 121, + ENOLINK: 47, + EADV: 122, + ESRMNT: 123, + ECOMM: 124, + EPROTO: 65, + EMULTIHOP: 36, + EDOTDOT: 125, + EBADMSG: 9, + ENOTUNIQ: 126, + EBADFD: 127, + EREMCHG: 128, + ELIBACC: 129, + ELIBBAD: 130, + ELIBSCN: 131, + ELIBMAX: 132, + ELIBEXEC: 133, + ENOSYS: 52, + ENOTEMPTY: 55, + ENAMETOOLONG: 37, + ELOOP: 32, + EOPNOTSUPP: 138, + EPFNOSUPPORT: 139, + ECONNRESET: 15, + ENOBUFS: 42, + EAFNOSUPPORT: 5, + EPROTOTYPE: 67, + ENOTSOCK: 57, + ENOPROTOOPT: 50, + ESHUTDOWN: 140, + ECONNREFUSED: 14, + EADDRINUSE: 3, + ECONNABORTED: 13, + ENETUNREACH: 40, + ENETDOWN: 38, + ETIMEDOUT: 73, + EHOSTDOWN: 142, + EHOSTUNREACH: 23, + EINPROGRESS: 26, + EALREADY: 7, + EDESTADDRREQ: 17, + EMSGSIZE: 35, + EPROTONOSUPPORT: 66, + ESOCKTNOSUPPORT: 137, + EADDRNOTAVAIL: 4, + ENETRESET: 39, + EISCONN: 30, + ENOTCONN: 53, + ETOOMANYREFS: 141, + EUSERS: 136, + EDQUOT: 19, + ESTALE: 72, + ENOTSUP: 138, + ENOMEDIUM: 148, + EILSEQ: 25, + EOVERFLOW: 61, + ECANCELED: 11, + ENOTRECOVERABLE: 56, + EOWNERDEAD: 62, + ESTRPIPE: 135 + }, + dA = { + root: null, + mounts: [], + devices: {}, + streams: [], + nextInode: 1, + nameTable: null, + currentPath: "/", + initialized: !1, + ignorePermissions: !0, + trackingDelegate: {}, + tracking: { + openFlags: { + READ: 1, + WRITE: 2 + } + }, + ErrnoError: null, + genericErrors: {}, + filesystems: null, + syncFSRequests: 0, + handleFSError: function (A) { + if (!(A instanceof dA.ErrnoError)) + throw A + " : " + BA(); + return aA(A.errno) + }, + lookupPath: function (A, M) { + if (M = M || {}, !(A = sA.resolve(dA.cwd(), A))) + return { + path: "", + node: null + }; + var t, + g = { + follow_mount: !0, + recurse_count: 0 + }; + for (t in g) + void 0 === M[t] && (M[t] = g[t]); + if (8 < M.recurse_count) + throw new dA.ErrnoError(32); + for (var I = hA.normalizeArray(A.split("/").filter(function (A) { + return !!A + }), !1), e = dA.root, i = "/", T = 0; T < I.length; T++) { + var E = T === I.length - 1; + if (E && M.parent) + break; + if (e = dA.lookupNode(e, I[T]), i = hA.join2(i, I[T]), dA.isMountpoint(e) && (!E || E && M.follow_mount) && (e = e.mounted.root), !E || M.follow) + for (var N = 0; dA.isLink(e.mode); ) { + var n = dA.readlink(i), + i = sA.resolve(hA.dirname(i), n), + e = dA.lookupPath(i, { + recurse_count: M.recurse_count + }).node; + if (40 < N++) + throw new dA.ErrnoError(32) + } + } + return { + path: i, + node: e + } + }, + getPath: function (A) { + for (var M; ; ) { + if (dA.isRoot(A)) { + var t = A.mount.mountpoint; + return M ? "/" !== t[t.length - 1] ? t + "/" + M : t + M : t + } + M = M ? A.name + "/" + M : A.name, + A = A.parent + } + }, + hashName: function (A, M) { + for (var t = 0, g = 0; g < M.length; g++) + t = (t << 5) - t + M.charCodeAt(g) | 0; + return (A + t >>> 0) % dA.nameTable.length + }, + hashAddNode: function (A) { + var M = dA.hashName(A.parent.id, A.name); + A.name_next = dA.nameTable[M], + dA.nameTable[M] = A + }, + hashRemoveNode: function (A) { + var M = dA.hashName(A.parent.id, A.name); + if (dA.nameTable[M] === A) + dA.nameTable[M] = A.name_next; + else + for (var t = dA.nameTable[M]; t; ) { + if (t.name_next === A) { + t.name_next = A.name_next; + break + } + t = t.name_next + } + }, + lookupNode: function (A, M) { + var t = dA.mayLookup(A); + if (t) + throw new dA.ErrnoError(t, A); + for (var t = dA.hashName(A.id, M), g = dA.nameTable[t]; g; g = g.name_next) { + var I = g.name; + if (g.parent.id === A.id && I === M) + return g + } + return dA.lookup(A, M) + }, + createNode: function (A, M, t, g) { + dA.FSNode || (dA.FSNode = function (A, M, t, g) { + A = A || this, + this.parent = A, + this.mount = A.mount, + this.mounted = null, + this.id = dA.nextInode++, + this.name = M, + this.mode = t, + this.node_ops = {}, + this.stream_ops = {}, + this.rdev = g + }, dA.FSNode.prototype = {}, Object.defineProperties(dA.FSNode.prototype, { + read: { + get: function () { + return 365 == (365 & this.mode) + }, + set: function (A) { + A ? this.mode |= 365 : this.mode &= -366 + } + }, + write: { + get: function () { + return 146 == (146 & this.mode) + }, + set: function (A) { + A ? this.mode |= 146 : this.mode &= -147 + } + }, + isFolder: { + get: function () { + return dA.isDir(this.mode) + } + }, + isDevice: { + get: function () { + return dA.isChrdev(this.mode) + } + } + })); + g = new dA.FSNode(A, M, t, g); + return dA.hashAddNode(g), + g + }, + destroyNode: function (A) { + dA.hashRemoveNode(A) + }, + isRoot: function (A) { + return A === A.parent + }, + isMountpoint: function (A) { + return !!A.mounted + }, + isFile: function (A) { + return 32768 == (61440 & A) + }, + isDir: function (A) { + return 16384 == (61440 & A) + }, + isLink: function (A) { + return 40960 == (61440 & A) + }, + isChrdev: function (A) { + return 8192 == (61440 & A) + }, + isBlkdev: function (A) { + return 24576 == (61440 & A) + }, + isFIFO: function (A) { + return 4096 == (61440 & A) + }, + isSocket: function (A) { + return 49152 == (49152 & A) + }, + flagModes: { + r: 0, + rs: 1052672, + "r+": 2, + w: 577, + wx: 705, + xw: 705, + "w+": 578, + "wx+": 706, + "xw+": 706, + a: 1089, + ax: 1217, + xa: 1217, + "a+": 1090, + "ax+": 1218, + "xa+": 1218 + }, + modeStringToFlags: function (A) { + var M = dA.flagModes[A]; + if (void 0 === M) + throw new Error("Unknown file open mode: " + A); + return M + }, + flagsToPermissionString: function (A) { + var M = ["r", "w", "rw"][3 & A]; + return 512 & A && (M += "w"), + M + }, + nodePermissions: function (A, M) { + return dA.ignorePermissions || (-1 === M.indexOf("r") || 292 & A.mode) && (-1 === M.indexOf("w") || 146 & A.mode) && (-1 === M.indexOf("x") || 73 & A.mode) ? 0 : 2 + }, + mayLookup: function (A) { + var M = dA.nodePermissions(A, "x"); + return M || (A.node_ops.lookup ? 0 : 2) + }, + mayCreate: function (A, M) { + try { + dA.lookupNode(A, M); + return 20 + } catch (A) {} + return dA.nodePermissions(A, "wx") + }, + mayDelete: function (A, M, t) { + var g; + try { + g = dA.lookupNode(A, M) + } catch (A) { + return A.errno + } + var I = dA.nodePermissions(A, "wx"); + if (I) + return I; + if (t) { + if (!dA.isDir(g.mode)) + return 54; + if (dA.isRoot(g) || dA.getPath(g) === dA.cwd()) + return 10 + } else if (dA.isDir(g.mode)) + return 31; + return 0 + }, + mayOpen: function (A, M) { + return A ? dA.isLink(A.mode) ? 32 : dA.isDir(A.mode) && ("r" !== dA.flagsToPermissionString(M) || 512 & M) ? 31 : dA.nodePermissions(A, dA.flagsToPermissionString(M)) : 44 + }, + MAX_OPEN_FDS: 4096, + nextfd: function (A, M) { + A = A || 0, + M = M || dA.MAX_OPEN_FDS; + for (var t = A; t <= M; t++) + if (!dA.streams[t]) + return t; + throw new dA.ErrnoError(33) + }, + getStream: function (A) { + return dA.streams[A] + }, + createStream: function (A, M, t) { + dA.FSStream || (dA.FSStream = function () {}, dA.FSStream.prototype = {}, Object.defineProperties(dA.FSStream.prototype, { + object: { + get: function () { + return this.node + }, + set: function (A) { + this.node = A + } + }, + isRead: { + get: function () { + return 1 != (2097155 & this.flags) + } + }, + isWrite: { + get: function () { + return 0 != (2097155 & this.flags) + } + }, + isAppend: { + get: function () { + return 1024 & this.flags + } + } + })); + var g, + I = new dA.FSStream; + for (g in A) + I[g] = A[g]; + A = I; + t = dA.nextfd(M, t); + return A.fd = t, + dA.streams[t] = A + }, + closeStream: function (A) { + dA.streams[A] = null + }, + chrdev_stream_ops: { + open: function (A) { + var M = dA.getDevice(A.node.rdev); + A.stream_ops = M.stream_ops, + A.stream_ops.open && A.stream_ops.open(A) + }, + llseek: function () { + throw new dA.ErrnoError(70) + } + }, + major: function (A) { + return A >> 8 + }, + minor: function (A) { + return 255 & A + }, + makedev: function (A, M) { + return A << 8 | M + }, + registerDevice: function (A, M) { + dA.devices[A] = { + stream_ops: M + } + }, + getDevice: function (A) { + return dA.devices[A] + }, + getMounts: function (A) { + for (var M = [], t = [A]; t.length; ) { + var g = t.pop(); + M.push(g), + t.push.apply(t, g.mounts) + } + return M + }, + syncfs: function (M, t) { + "function" == typeof M && (t = M, M = !1), + dA.syncFSRequests++, + dA.syncFSRequests; + var g = dA.getMounts(dA.root.mount), + I = 0; + function e(A) { + return w(0 < dA.syncFSRequests), + dA.syncFSRequests--, + t(A) + } + function i(A) { + if (A) + return i.errored ? void 0 : (i.errored = !0, e(A)); + ++I >= g.length && e(null) + } + g.forEach(function (A) { + return A.type.syncfs ? void A.type.syncfs(A, M, i) : i(null) + }) + }, + mount: function (A, M, t) { + if ("string" == typeof A) + throw A; + var g = "/" === t, + I = !t; + if (g && dA.root) + throw new dA.ErrnoError(10); + if (!g && !I) { + var e = dA.lookupPath(t, { + follow_mount: !1 + }); + if (t = e.path, e = e.node, dA.isMountpoint(e)) + throw new dA.ErrnoError(10); + if (!dA.isDir(e.mode)) + throw new dA.ErrnoError(54) + } + var i = { + type: A, + opts: M, + mountpoint: t, + mounts: [] + }, + A = A.mount(i); + return (A.mount = i).root = A, + g ? dA.root = A : e && (e.mounted = i, e.mount && e.mount.mounts.push(i)), + A + }, + unmount: function (A) { + var M = dA.lookupPath(A, { + follow_mount: !1 + }); + if (!dA.isMountpoint(M.node)) + throw new dA.ErrnoError(28); + var A = M.node, + M = A.mounted, + g = dA.getMounts(M); + Object.keys(dA.nameTable).forEach(function (A) { + for (var M = dA.nameTable[A]; M; ) { + var t = M.name_next; + -1 !== g.indexOf(M.mount) && dA.destroyNode(M), + M = t + } + }), + A.mounted = null; + M = A.mount.mounts.indexOf(M); + w(-1 !== M), + A.mount.mounts.splice(M, 1) + }, + lookup: function (A, M) { + return A.node_ops.lookup(A, M) + }, + mknod: function (A, M, t) { + var g = dA.lookupPath(A, { + parent: !0 + }).node, + I = hA.basename(A); + if (!I || "." === I || ".." === I) + throw new dA.ErrnoError(28); + A = dA.mayCreate(g, I); + if (A) + throw new dA.ErrnoError(A); + if (!g.node_ops.mknod) + throw new dA.ErrnoError(63); + return g.node_ops.mknod(g, I, M, t) + }, + create: function (A, M) { + return M = void 0 !== M ? M : 438, + M &= 4095, + M |= 32768, + dA.mknod(A, M, 0) + }, + mkdir: function (A, M) { + return M = void 0 !== M ? M : 511, + M &= 1023, + M |= 16384, + dA.mknod(A, M, 0) + }, + mkdirTree: function (A, M) { + for (var t = A.split("/"), g = "", I = 0; I < t.length; ++I) + if (t[I]) { + g += "/" + t[I]; + try { + dA.mkdir(g, M) + } catch (A) { + if (20 != A.errno) + throw A + } + } + }, + mkdev: function (A, M, t) { + return void 0 === t && (t = M, M = 438), + M |= 8192, + dA.mknod(A, M, t) + }, + symlink: function (A, M) { + if (!sA.resolve(A)) + throw new dA.ErrnoError(44); + var t = dA.lookupPath(M, { + parent: !0 + }).node; + if (!t) + throw new dA.ErrnoError(44); + var g = hA.basename(M), + M = dA.mayCreate(t, g); + if (M) + throw new dA.ErrnoError(M); + if (!t.node_ops.symlink) + throw new dA.ErrnoError(63); + return t.node_ops.symlink(t, g, A) + }, + rename: function (A, M) { + var t, + g, + I = hA.dirname(A), + e = hA.dirname(M), + i = hA.basename(A), + T = hA.basename(M); + try { + t = dA.lookupPath(A, { + parent: !0 + }).node, + g = dA.lookupPath(M, { + parent: !0 + }).node + } catch (A) { + throw new dA.ErrnoError(10) + } + if (!t || !g) + throw new dA.ErrnoError(44); + if (t.mount !== g.mount) + throw new dA.ErrnoError(75); + var E, + N = dA.lookupNode(t, i), + e = sA.relative(A, e); + if ("." !== e.charAt(0)) + throw new dA.ErrnoError(28); + if ("." !== (e = sA.relative(M, I)).charAt(0)) + throw new dA.ErrnoError(55); + try { + E = dA.lookupNode(g, T) + } catch (A) {} + if (N !== E) { + e = dA.isDir(N.mode), + i = dA.mayDelete(t, i, e); + if (i) + throw new dA.ErrnoError(i); + if (i = E ? dA.mayDelete(g, T, e) : dA.mayCreate(g, T)) + throw new dA.ErrnoError(i); + if (!t.node_ops.rename) + throw new dA.ErrnoError(63); + if (dA.isMountpoint(N) || E && dA.isMountpoint(E)) + throw new dA.ErrnoError(10); + if (g !== t && (i = dA.nodePermissions(t, "w"))) + throw new dA.ErrnoError(i); + try { + dA.trackingDelegate.willMovePath && dA.trackingDelegate.willMovePath(A, M) + } catch (A) {} + dA.hashRemoveNode(N); + try { + t.node_ops.rename(N, g, T) + } catch (A) { + throw A + } + finally { + dA.hashAddNode(N) + } + try { + dA.trackingDelegate.onMovePath && dA.trackingDelegate.onMovePath(A, M) + } catch (A) {} + } + }, + rmdir: function (A) { + var M = dA.lookupPath(A, { + parent: !0 + }).node, + t = hA.basename(A), + g = dA.lookupNode(M, t), + I = dA.mayDelete(M, t, !0); + if (I) + throw new dA.ErrnoError(I); + if (!M.node_ops.rmdir) + throw new dA.ErrnoError(63); + if (dA.isMountpoint(g)) + throw new dA.ErrnoError(10); + try { + dA.trackingDelegate.willDeletePath && dA.trackingDelegate.willDeletePath(A) + } catch (A) {} + M.node_ops.rmdir(M, t), + dA.destroyNode(g); + try { + dA.trackingDelegate.onDeletePath && dA.trackingDelegate.onDeletePath(A) + } catch (A) {} + }, + readdir: function (A) { + A = dA.lookupPath(A, { + follow: !0 + }).node; + if (!A.node_ops.readdir) + throw new dA.ErrnoError(54); + return A.node_ops.readdir(A) + }, + unlink: function (A) { + var M = dA.lookupPath(A, { + parent: !0 + }).node, + t = hA.basename(A), + g = dA.lookupNode(M, t), + I = dA.mayDelete(M, t, !1); + if (I) + throw new dA.ErrnoError(I); + if (!M.node_ops.unlink) + throw new dA.ErrnoError(63); + if (dA.isMountpoint(g)) + throw new dA.ErrnoError(10); + try { + dA.trackingDelegate.willDeletePath && dA.trackingDelegate.willDeletePath(A) + } catch (A) {} + M.node_ops.unlink(M, t), + dA.destroyNode(g); + try { + dA.trackingDelegate.onDeletePath && dA.trackingDelegate.onDeletePath(A) + } catch (A) {} + }, + readlink: function (A) { + A = dA.lookupPath(A).node; + if (!A) + throw new dA.ErrnoError(44); + if (!A.node_ops.readlink) + throw new dA.ErrnoError(28); + return sA.resolve(dA.getPath(A.parent), A.node_ops.readlink(A)) + }, + stat: function (A, M) { + M = dA.lookupPath(A, { + follow: !M + }).node; + if (!M) + throw new dA.ErrnoError(44); + if (!M.node_ops.getattr) + throw new dA.ErrnoError(63); + return M.node_ops.getattr(M) + }, + lstat: function (A) { + return dA.stat(A, !0) + }, + chmod: function (A, M, t) { + if (!(A = "string" == typeof A ? dA.lookupPath(A, { + follow: !t + }).node : A).node_ops.setattr) + throw new dA.ErrnoError(63); + A.node_ops.setattr(A, { + mode: 4095 & M | -4096 & A.mode, + timestamp: Date.now() + }) + }, + lchmod: function (A, M) { + dA.chmod(A, M, !0) + }, + fchmod: function (A, M) { + A = dA.getStream(A); + if (!A) + throw new dA.ErrnoError(8); + dA.chmod(A.node, M) + }, + chown: function (A, M, t, g) { + if (!(A = "string" == typeof A ? dA.lookupPath(A, { + follow: !g + }).node : A).node_ops.setattr) + throw new dA.ErrnoError(63); + A.node_ops.setattr(A, { + timestamp: Date.now() + }) + }, + lchown: function (A, M, t) { + dA.chown(A, M, t, !0) + }, + fchown: function (A, M, t) { + A = dA.getStream(A); + if (!A) + throw new dA.ErrnoError(8); + dA.chown(A.node, M, t) + }, + truncate: function (A, M) { + if (M < 0) + throw new dA.ErrnoError(28); + var t; + if (!(t = "string" == typeof A ? dA.lookupPath(A, { + follow: !0 + }).node : A).node_ops.setattr) + throw new dA.ErrnoError(63); + if (dA.isDir(t.mode)) + throw new dA.ErrnoError(31); + if (!dA.isFile(t.mode)) + throw new dA.ErrnoError(28); + A = dA.nodePermissions(t, "w"); + if (A) + throw new dA.ErrnoError(A); + t.node_ops.setattr(t, { + size: M, + timestamp: Date.now() + }) + }, + ftruncate: function (A, M) { + A = dA.getStream(A); + if (!A) + throw new dA.ErrnoError(8); + if (0 == (2097155 & A.flags)) + throw new dA.ErrnoError(28); + dA.truncate(A.node, M) + }, + utime: function (A, M, t) { + A = dA.lookupPath(A, { + follow: !0 + }).node; + A.node_ops.setattr(A, { + timestamp: Math.max(M, t) + }) + }, + open: function (A, M, t, g, I) { + if ("" === A) + throw new dA.ErrnoError(44); + if (t = void 0 === t ? 438 : t, t = 64 & (M = "string" == typeof M ? dA.modeStringToFlags(M) : M) ? 4095 & t | 32768 : 0, "object" == typeof A) + e = A; + else { + A = hA.normalize(A); + try { + var e = dA.lookupPath(A, { + follow: !(131072 & M) + }).node + } catch (A) {} + } + var i = !1; + if (64 & M) + if (e) { + if (128 & M) + throw new dA.ErrnoError(20) + } else + e = dA.mknod(A, t, 0), i = !0; + if (!e) + throw new dA.ErrnoError(44); + if (dA.isChrdev(e.mode) && (M &= -513), 65536 & M && !dA.isDir(e.mode)) + throw new dA.ErrnoError(54); + if (!i) { + i = dA.mayOpen(e, M); + if (i) + throw new dA.ErrnoError(i) + } + 512 & M && dA.truncate(e, 0), + M &= -641; + var T, + I = dA.createStream({ + node: e, + path: dA.getPath(e), + flags: M, + seekable: !0, + position: 0, + stream_ops: e.stream_ops, + ungotten: [], + error: !1 + }, g, I); + I.stream_ops.open && I.stream_ops.open(I), + !tt.logReadFiles || 1 & M || (dA.readFiles || (dA.readFiles = {}), A in dA.readFiles || (dA.readFiles[A] = 1)); + try { + dA.trackingDelegate.onOpenFile && (T = 0, 1 != (2097155 & M) && (T |= dA.tracking.openFlags.READ), 0 != (2097155 & M) && (T |= dA.tracking.openFlags.WRITE), dA.trackingDelegate.onOpenFile(A, T)) + } catch (A) {} + return I + }, + close: function (A) { + if (dA.isClosed(A)) + throw new dA.ErrnoError(8); + A.getdents && (A.getdents = null); + try { + A.stream_ops.close && A.stream_ops.close(A) + } catch (A) { + throw A + } + finally { + dA.closeStream(A.fd) + } + A.fd = null + }, + isClosed: function (A) { + return null === A.fd + }, + llseek: function (A, M, t) { + if (dA.isClosed(A)) + throw new dA.ErrnoError(8); + if (!A.seekable || !A.stream_ops.llseek) + throw new dA.ErrnoError(70); + if (0 != t && 1 != t && 2 != t) + throw new dA.ErrnoError(28); + return A.position = A.stream_ops.llseek(A, M, t), + A.ungotten = [], + A.position + }, + read: function (A, M, t, g, I) { + if (g < 0 || I < 0) + throw new dA.ErrnoError(28); + if (dA.isClosed(A)) + throw new dA.ErrnoError(8); + if (1 == (2097155 & A.flags)) + throw new dA.ErrnoError(8); + if (dA.isDir(A.node.mode)) + throw new dA.ErrnoError(31); + if (!A.stream_ops.read) + throw new dA.ErrnoError(28); + var e = void 0 !== I; + if (e) { + if (!A.seekable) + throw new dA.ErrnoError(70) + } else + I = A.position; + I = A.stream_ops.read(A, M, t, g, I); + return e || (A.position += I), + I + }, + write: function (A, M, t, g, I, e) { + if (g < 0 || I < 0) + throw new dA.ErrnoError(28); + if (dA.isClosed(A)) + throw new dA.ErrnoError(8); + if (0 == (2097155 & A.flags)) + throw new dA.ErrnoError(8); + if (dA.isDir(A.node.mode)) + throw new dA.ErrnoError(31); + if (!A.stream_ops.write) + throw new dA.ErrnoError(28); + 1024 & A.flags && dA.llseek(A, 0, 2); + var i = void 0 !== I; + if (i) { + if (!A.seekable) + throw new dA.ErrnoError(70) + } else + I = A.position; + e = A.stream_ops.write(A, M, t, g, I, e); + i || (A.position += e); + try { + A.path && dA.trackingDelegate.onWriteToFile && dA.trackingDelegate.onWriteToFile(A.path) + } catch (A) {} + return e + }, + allocate: function (A, M, t) { + if (dA.isClosed(A)) + throw new dA.ErrnoError(8); + if (M < 0 || t <= 0) + throw new dA.ErrnoError(28); + if (0 == (2097155 & A.flags)) + throw new dA.ErrnoError(8); + if (!dA.isFile(A.node.mode) && !dA.isDir(A.node.mode)) + throw new dA.ErrnoError(43); + if (!A.stream_ops.allocate) + throw new dA.ErrnoError(138); + A.stream_ops.allocate(A, M, t) + }, + mmap: function (A, M, t, g, I, e, i) { + if (0 != (2 & e) && 0 == (2 & i) && 2 != (2097155 & A.flags)) + throw new dA.ErrnoError(2); + if (1 == (2097155 & A.flags)) + throw new dA.ErrnoError(2); + if (!A.stream_ops.mmap) + throw new dA.ErrnoError(43); + return A.stream_ops.mmap(A, M, t, g, I, e, i) + }, + msync: function (A, M, t, g, I) { + return A && A.stream_ops.msync ? A.stream_ops.msync(A, M, t, g, I) : 0 + }, + munmap: function (A) { + return 0 + }, + ioctl: function (A, M, t) { + if (!A.stream_ops.ioctl) + throw new dA.ErrnoError(59); + return A.stream_ops.ioctl(A, M, t) + }, + readFile: function (A, M) { + if ((M = M || {}).flags = M.flags || "r", M.encoding = M.encoding || "binary", "utf8" !== M.encoding && "binary" !== M.encoding) + throw new Error('Invalid encoding type "' + M.encoding + '"'); + var t, + g = dA.open(A, M.flags), + I = dA.stat(A).size, + A = new Uint8Array(I); + return dA.read(g, A, 0, I, 0), + "utf8" === M.encoding ? t = d(A, 0) : "binary" === M.encoding && (t = A), + dA.close(g), + t + }, + writeFile: function (A, M, t) { + (t = t || {}).flags = t.flags || "w"; + var g = dA.open(A, t.flags, t.mode); + if ("string" == typeof M) { + var I = new Uint8Array(S(M) + 1), + A = Y(M, I, 0, I.length); + dA.write(g, I, 0, A, void 0, t.canOwn) + } else { + if (!ArrayBuffer.isView(M)) + throw new Error("Unsupported data type"); + dA.write(g, M, 0, M.byteLength, void 0, t.canOwn) + } + dA.close(g) + }, + cwd: function () { + return dA.currentPath + }, + chdir: function (A) { + var M = dA.lookupPath(A, { + follow: !0 + }); + if (null === M.node) + throw new dA.ErrnoError(44); + if (!dA.isDir(M.node.mode)) + throw new dA.ErrnoError(54); + A = dA.nodePermissions(M.node, "x"); + if (A) + throw new dA.ErrnoError(A); + dA.currentPath = M.path + }, + createDefaultDirectories: function () { + dA.mkdir("/tmp"), + dA.mkdir("/home"), + dA.mkdir("/home/web_user") + }, + createDefaultDevices: function () { + if (dA.mkdir("/dev"), dA.registerDevice(dA.makedev(1, 3), { + read: function () { + return 0 + }, + write: function (A, M, t, g, I) { + return g + } + }), dA.mkdev("/dev/null", dA.makedev(1, 3)), yA.register(dA.makedev(5, 0), yA.default_tty_ops), yA.register(dA.makedev(6, 0), yA.default_tty1_ops), dA.mkdev("/dev/tty", dA.makedev(5, 0)), dA.mkdev("/dev/tty1", dA.makedev(6, 0)), "object" == typeof crypto && "function" == typeof crypto.getRandomValues) + var A = new Uint8Array(1), M = function () { + return crypto.getRandomValues(A), + A[0] + }; + else if (e) + try { + var t = gt(123); + M = function () { + return t.randomBytes(1)[0] + } + } catch (A) {} + M = M || function () { + TA("no cryptographic support found for random_device. consider polyfilling it if you want to use something insecure like Math.random(), e.g. put this in a --pre-js: var crypto = { getRandomValues: function(array) { for (var i = 0; i < array.length; i++) array[i] = (Math.random()*256)|0 } };") + }, + dA.createDevice("/dev", "random", M), + dA.createDevice("/dev", "urandom", M), + dA.mkdir("/dev/shm"), + dA.mkdir("/dev/shm/tmp") + }, + createSpecialDirectories: function () { + dA.mkdir("/proc"), + dA.mkdir("/proc/self"), + dA.mkdir("/proc/self/fd"), + dA.mount({ + mount: function () { + var A = dA.createNode("/proc/self", "fd", 16895, 73); + return A.node_ops = { + lookup: function (A, M) { + var M = +M, + t = dA.getStream(M); + if (!t) + throw new dA.ErrnoError(8); + M = { + parent: null, + mount: { + mountpoint: "fake" + }, + node_ops: { + readlink: function () { + return t.path + } + } + }; + return M.parent = M + } + }, + A + } + }, {}, "/proc/self/fd") + }, + createStandardStreams: function () { + tt.stdin ? dA.createDevice("/dev", "stdin", tt.stdin) : dA.symlink("/dev/tty", "/dev/stdin"), + tt.stdout ? dA.createDevice("/dev", "stdout", null, tt.stdout) : dA.symlink("/dev/tty", "/dev/stdout"), + tt.stderr ? dA.createDevice("/dev", "stderr", null, tt.stderr) : dA.symlink("/dev/tty1", "/dev/stderr"); + var A = dA.open("/dev/stdin", "r"), + M = dA.open("/dev/stdout", "w"), + t = dA.open("/dev/stderr", "w"); + w(0 === A.fd, "invalid handle for stdin (" + A.fd + ")"), + w(1 === M.fd, "invalid handle for stdout (" + M.fd + ")"), + w(2 === t.fd, "invalid handle for stderr (" + t.fd + ")") + }, + ensureErrnoError: function () { + dA.ErrnoError || (dA.ErrnoError = function (A, M) { + this.node = M, + this.setErrno = function (A) { + for (var M in this.errno = A, LA) + if (LA[M] === A) { + this.code = M; + break + } + }, + this.setErrno(A), + this.message = jA[A], + this.stack && (Object.defineProperty(this, "stack", { + value: (new Error).stack, + writable: !0 + }), this.stack = oA(this.stack)) + }, dA.ErrnoError.prototype = new Error, dA.ErrnoError.prototype.constructor = dA.ErrnoError, [44].forEach(function (A) { + dA.genericErrors[A] = new dA.ErrnoError(A), + dA.genericErrors[A].stack = "" + })) + }, + staticInit: function () { + dA.ensureErrnoError(), + dA.nameTable = new Array(4096), + dA.mount(wA, {}, "/"), + dA.createDefaultDirectories(), + dA.createDefaultDevices(), + dA.createSpecialDirectories(), + dA.filesystems = { + MEMFS: wA + } + }, + init: function (A, M, t) { + w(!dA.init.initialized, "FS.init was previously called. If you want to initialize later with custom parameters, remove any earlier calls (note that one is automatically added to the generated code)"), + dA.init.initialized = !0, + dA.ensureErrnoError(), + tt.stdin = A || tt.stdin, + tt.stdout = M || tt.stdout, + tt.stderr = t || tt.stderr, + dA.createStandardStreams() + }, + quit: function () { + dA.init.initialized = !1; + var A = tt._fflush; + A && A(0); + for (var M = 0; M < dA.streams.length; M++) { + var t = dA.streams[M]; + t && dA.close(t) + } + }, + getMode: function (A, M) { + var t = 0; + return A && (t |= 365), + M && (t |= 146), + t + }, + joinPath: function (A, M) { + A = hA.join.apply(null, A); + return M && "/" == A[0] && (A = A.substr(1)), + A + }, + absolutePath: function (A, M) { + return sA.resolve(M, A) + }, + standardizePath: function (A) { + return hA.normalize(A) + }, + findObject: function (A, M) { + M = dA.analyzePath(A, M); + return M.exists ? M.object : (aA(M.error), null) + }, + analyzePath: function (A, M) { + try { + A = (g = dA.lookupPath(A, { + follow: !M + })).path + } catch (A) {} + var t = { + isRoot: !1, + exists: !1, + error: 0, + name: null, + path: null, + object: null, + parentExists: !1, + parentPath: null, + parentObject: null + }; + try { + var g = dA.lookupPath(A, { + parent: !0 + }); + t.parentExists = !0, + t.parentPath = g.path, + t.parentObject = g.node, + t.name = hA.basename(A), + g = dA.lookupPath(A, { + follow: !M + }), + t.exists = !0, + t.path = g.path, + t.object = g.node, + t.name = g.node.name, + t.isRoot = "/" === g.path + } catch (A) { + t.error = A.errno + } + return t + }, + createFolder: function (A, M, t, g) { + M = hA.join2("string" == typeof A ? A : dA.getPath(A), M), + g = dA.getMode(t, g); + return dA.mkdir(M, g) + }, + createPath: function (A, M, t, g) { + A = "string" == typeof A ? A : dA.getPath(A); + for (var I = M.split("/").reverse(); I.length; ) { + var e = I.pop(); + if (e) { + var i = hA.join2(A, e); + try { + dA.mkdir(i) + } catch (A) {} + A = i + } + } + return i + }, + createFile: function (A, M, t, g, I) { + M = hA.join2("string" == typeof A ? A : dA.getPath(A), M), + I = dA.getMode(g, I); + return dA.create(M, I) + }, + createDataFile: function (A, M, t, g, I, e) { + A = M ? hA.join2("string" == typeof A ? A : dA.getPath(A), M) : A, + g = dA.getMode(g, I), + I = dA.create(A, g); + if (t) { + if ("string" == typeof t) { + for (var i = new Array(t.length), T = 0, E = t.length; T < E; ++T) + i[T] = t.charCodeAt(T); + t = i + } + dA.chmod(I, 146 | g); + A = dA.open(I, "w"); + dA.write(A, t, 0, t.length, 0, e), + dA.close(A), + dA.chmod(I, g) + } + return I + }, + createDevice: function (A, M, E, i) { + var t = hA.join2("string" == typeof A ? A : dA.getPath(A), M), + A = dA.getMode(!!E, !!i); + dA.createDevice.major || (dA.createDevice.major = 64); + M = dA.makedev(dA.createDevice.major++, 0); + return dA.registerDevice(M, { + open: function (A) { + A.seekable = !1 + }, + close: function (A) { + i && i.buffer && i.buffer.length && i(10) + }, + read: function (A, M, t, g, I) { + for (var e, i = 0, T = 0; T < g; T++) { + try { + e = E() + } catch (A) { + throw new dA.ErrnoError(29) + } + if (void 0 === e && 0 === i) + throw new dA.ErrnoError(6); + if (null == e) + break; + i++, + M[t + T] = e + } + return i && (A.node.timestamp = Date.now()), + i + }, + write: function (A, M, t, g, I) { + for (var e = 0; e < g; e++) + try { + i(M[t + e]) + } catch (A) { + throw new dA.ErrnoError(29) + } + return g && (A.node.timestamp = Date.now()), + e + } + }), + dA.mkdev(t, A, M) + }, + createLink: function (A, M, t, g, I) { + M = hA.join2("string" == typeof A ? A : dA.getPath(A), M); + return dA.symlink(t, M) + }, + forceLoadFile: function (A) { + if (A.isDevice || A.isFolder || A.link || A.contents) + return !0; + var M = !0; + if ("undefined" != typeof XMLHttpRequest) + throw new Error("Lazy loading should have been performed (contents set) in createLazyFile, but it was not. Lazy loading only works in web workers. Use --embed-file or --preload-file in emcc on the main thread."); + if (!D) + throw new Error("Cannot load without read() or XMLHttpRequest."); + try { + A.contents = lA(D(A.url), !0), + A.usedBytes = A.contents.length + } catch (A) { + M = !1 + } + return M || aA(29), + M + }, + createLazyFile: function (A, M, i, t, g) { + function I() { + this.lengthKnown = !1, + this.chunks = [] + } + if (I.prototype.get = function (A) { + if (!(A > this.length - 1 || A < 0)) { + var M = A % this.chunkSize, + A = A / this.chunkSize | 0; + return this.getter(A)[M] + } + }, I.prototype.setDataGetter = function (A) { + this.getter = A + }, I.prototype.cacheLength = function () { + var A = new XMLHttpRequest; + if (A.open("HEAD", i, !1), A.send(null), !(200 <= A.status && A.status < 300 || 304 === A.status)) + throw new Error("Couldn't load " + i + ". Status: " + A.status); + var g = Number(A.getResponseHeader("Content-length")), + M = (t = A.getResponseHeader("Accept-Ranges")) && "bytes" === t, + t = (t = A.getResponseHeader("Content-Encoding")) && "gzip" === t, + I = 1048576; + M || (I = g); + var e = this; + e.setDataGetter(function (A) { + var M = A * I, + t = (A + 1) * I - 1, + t = Math.min(t, g - 1); + if (void 0 === e.chunks[A] && (e.chunks[A] = function (A, M) { + if (M < A) + throw new Error("invalid range (" + A + ", " + M + ") or no bytes requested!"); + if (g - 1 < M) + throw new Error("only " + g + " bytes available! programmer error!"); + var t = new XMLHttpRequest; + if (t.open("GET", i, !1), g !== I && t.setRequestHeader("Range", "bytes=" + A + "-" + M), "undefined" != typeof Uint8Array && (t.responseType = "arraybuffer"), t.overrideMimeType && t.overrideMimeType("text/plain; charset=x-user-defined"), t.send(null), !(200 <= t.status && t.status < 300 || 304 === t.status)) + throw new Error("Couldn't load " + i + ". Status: " + t.status); + return void 0 !== t.response ? new Uint8Array(t.response || []) : lA(t.responseText || "", !0) + } + (M, t)), void 0 === e.chunks[A])throw new Error("doXHR failed!"); + return e.chunks[A] + }), + !t && g || (I = g = 1, g = this.getter(0).length, I = g), + this._length = g, + this._chunkSize = I, + this.lengthKnown = !0 + }, "undefined" != typeof XMLHttpRequest) { + if (!N) + throw "Cannot do synchronous binary XHRs outside webworkers in modern browsers. Use --embed-file or --preload-file in emcc"; + var e = new I; + Object.defineProperties(e, { + length: { + get: function () { + return this.lengthKnown || this.cacheLength(), + this._length + } + }, + chunkSize: { + get: function () { + return this.lengthKnown || this.cacheLength(), + this._chunkSize + } + } + }); + e = { + isDevice: !1, + contents: e + } + } + else + e = { + isDevice: !1, + url: i + }; + var E = dA.createFile(A, M, e, t, g); + e.contents ? E.contents = e.contents : e.url && (E.contents = null, E.url = e.url), + Object.defineProperties(E, { + usedBytes: { + get: function () { + return this.contents.length + } + } + }); + var T = {}; + return Object.keys(E.stream_ops).forEach(function (A) { + var M = E.stream_ops[A]; + T[A] = function () { + if (!dA.forceLoadFile(E)) + throw new dA.ErrnoError(29); + return M.apply(null, arguments) + } + }), + T.read = function (A, M, t, g, I) { + if (!dA.forceLoadFile(E)) + throw new dA.ErrnoError(29); + var e = A.node.contents; + if (I >= e.length) + return 0; + var i = Math.min(e.length - I, g); + if (w(0 <= i), e.slice) + for (var T = 0; T < i; T++) + M[t + T] = e[I + T]; + else + for (T = 0; T < i; T++) + M[t + T] = e.get(I + T); + return i + }, + E.stream_ops = T, + E + }, + createPreloadedFile: function (I, e, A, i, T, E, N, n, D, C) { + Browser.init(); + var r = e ? sA.resolve(hA.join2(I, e)) : I, + c = function (A) { + for (var M = A; ; ) { + if (!IA[A]) + return A; + A = M + Math.random() + } + return A + } + ("cp " + r); + function M(M) { + function t(A) { + C && C(), + n || dA.createDataFile(I, e, A, i, T, D), + E && E(), + iA(c) + } + var g = !1; + tt.preloadPlugins.forEach(function (A) { + g || A.canHandle(r) && (A.handle(M, r, t, function () { + N && N(), + iA(c) + }), g = !0) + }), + g || t(M) + } + eA(c), + "string" == typeof A ? Browser.asyncLoad(A, function (A) { + M(A) + }, N) : M(A) + }, + indexedDB: function () { + return window.indexedDB || window.mozIndexedDB || window.webkitIndexedDB || window.msIndexedDB + }, + DB_NAME: function () { + return "EM_FS_" + window.location.pathname + }, + DB_VERSION: 20, + DB_STORE_NAME: "FILE_DATA", + saveFilesToDB: function (i, T, E) { + T = T || function () {}, + E = E || function () {}; + var A = dA.indexedDB(); + try { + var N = A.open(dA.DB_NAME(), dA.DB_VERSION) + } catch (A) { + return E(A) + } + N.onupgradeneeded = function () { + N.result.createObjectStore(dA.DB_STORE_NAME) + }, + N.onsuccess = function () { + var A = N.result.transaction([dA.DB_STORE_NAME], "readwrite"), + M = A.objectStore(dA.DB_STORE_NAME), + t = 0, + g = 0, + I = i.length; + function e() { + (0 == g ? T : E)() + } + i.forEach(function (A) { + A = M.put(dA.analyzePath(A).object.contents, A); + A.onsuccess = function () { + ++t + g == I && e() + }, + A.onerror = function () { + t + ++g == I && e() + } + }), + A.onerror = E + }, + N.onerror = E + }, + loadFilesFromDB: function (T, E, N) { + E = E || function () {}, + N = N || function () {}; + var A = dA.indexedDB(); + try { + var n = A.open(dA.DB_NAME(), dA.DB_VERSION) + } catch (A) { + return N(A) + } + n.onupgradeneeded = N, + n.onsuccess = function () { + var A = n.result; + try { + var M = A.transaction([dA.DB_STORE_NAME], "readonly") + } catch (A) { + return void N(A) + } + var t = M.objectStore(dA.DB_STORE_NAME), + g = 0, + I = 0, + e = T.length; + function i() { + (0 == I ? E : N)() + } + T.forEach(function (A) { + var M = t.get(A); + M.onsuccess = function () { + dA.analyzePath(A).exists && dA.unlink(A), + dA.createDataFile(hA.dirname(A), hA.basename(A), M.result, !0, !0, !0), + ++g + I == e && i() + }, + M.onerror = function () { + g + ++I == e && i() + } + }), + M.onerror = N + }, + n.onerror = N + } + }, + xA = { + DEFAULT_POLLMASK: 5, + mappings: {}, + umask: 511, + calculateAt: function (A, M) { + if ("/" !== M[0]) { + var t; + if (-100 === A) + t = dA.cwd(); + else { + A = dA.getStream(A); + if (!A) + throw new dA.ErrnoError(8); + t = A.path + } + M = hA.join2(t, M) + } + return M + }, + doStat: function (A, M, t) { + try { + var g = A(M) + } catch (A) { + if (A && A.node && hA.normalize(M) !== hA.normalize(dA.getPath(A.node))) + return -54; + throw A + } + return O[t >> 2] = g.dev, + O[t + 4 >> 2] = 0, + O[t + 8 >> 2] = g.ino, + O[t + 12 >> 2] = g.mode, + O[t + 16 >> 2] = g.nlink, + O[t + 20 >> 2] = g.uid, + O[t + 24 >> 2] = g.gid, + O[t + 28 >> 2] = g.rdev, + O[t + 32 >> 2] = 0, + CA = [g.size >>> 0, (DA = g.size, 1 <= +q(DA) ? 0 < DA ? (0 | AA(+$(DA / 4294967296), 4294967295)) >>> 0 : ~~+_((DA - (~~DA >>> 0)) / 4294967296) >>> 0 : 0)], + O[t + 40 >> 2] = CA[0], + O[t + 44 >> 2] = CA[1], + O[t + 48 >> 2] = 4096, + O[t + 52 >> 2] = g.blocks, + O[t + 56 >> 2] = g.atime.getTime() / 1e3 | 0, + O[t + 60 >> 2] = 0, + O[t + 64 >> 2] = g.mtime.getTime() / 1e3 | 0, + O[t + 68 >> 2] = 0, + O[t + 72 >> 2] = g.ctime.getTime() / 1e3 | 0, + O[t + 76 >> 2] = 0, + CA = [g.ino >>> 0, (DA = g.ino, 1 <= +q(DA) ? 0 < DA ? (0 | AA(+$(DA / 4294967296), 4294967295)) >>> 0 : ~~+_((DA - (~~DA >>> 0)) / 4294967296) >>> 0 : 0)], + O[t + 80 >> 2] = CA[0], + O[t + 84 >> 2] = CA[1], + 0 + }, + doMsync: function (A, M, t, g) { + A = new Uint8Array(U.subarray(A, A + t)); + dA.msync(M, A, 0, t, g) + }, + doMkdir: function (A, M) { + return "/" === (A = hA.normalize(A))[A.length - 1] && (A = A.substr(0, A.length - 1)), + dA.mkdir(A, M, 0), + 0 + }, + doMknod: function (A, M, t) { + switch (61440 & M) { + case 32768: + case 8192: + case 24576: + case 4096: + case 49152: + break; + default: + return -28 + } + return dA.mknod(A, M, t), + 0 + }, + doReadlink: function (A, M, t) { + if (t <= 0) + return -28; + var g = dA.readlink(A), + I = Math.min(t, S(g)), + A = l[M + I]; + return u(g, M, t + 1), + l[M + I] = A, + I + }, + doAccess: function (A, M) { + if (-8 & M) + return -28; + var t = dA.lookupPath(A, { + follow: !0 + }).node; + if (!t) + return -44; + A = ""; + return 4 & M && (A += "r"), + 2 & M && (A += "w"), + 1 & M && (A += "x"), + A && dA.nodePermissions(t, A) ? -2 : 0 + }, + doDup: function (A, M, t) { + var g = dA.getStream(t); + return g && dA.close(g), + dA.open(A, M, 0, t, t).fd + }, + doReadv: function (A, M, t, g) { + for (var I = 0, e = 0; e < t; e++) { + var i = O[M + 8 * e >> 2], + T = O[M + (8 * e + 4) >> 2], + i = dA.read(A, l, i, T, g); + if (i < 0) + return -1; + if (I += i, i < T) + break + } + return I + }, + doWritev: function (A, M, t, g) { + for (var I = 0, e = 0; e < t; e++) { + var i = O[M + 8 * e >> 2], + T = O[M + (8 * e + 4) >> 2], + T = dA.write(A, l, i, T, g); + if (T < 0) + return -1; + I += T + } + return I + }, + varargs: 0, + get: function (A) { + return xA.varargs += 4, + O[xA.varargs - 4 >> 2] + }, + getStr: function () { + return x(xA.get()) + }, + getStreamFromFD: function (A) { + void 0 === A && (A = xA.get()); + A = dA.getStream(A); + if (!A) + throw new dA.ErrnoError(8); + return A + }, + get64: function () { + var A = xA.get(), + M = xA.get(); + return w(0 <= A ? 0 === M : -1 === M), + A + }, + getZero: function () { + w(0 === xA.get()) + } + }; + function YA() { + return void 0 === YA.start && (YA.start = Date.now()), + 1e3 * (Date.now() - YA.start) | 0 + } + function uA() { + return l.length + } + var SA = {}; + function zA() { + if (!zA.strings) { + var A = { + USER: "web_user", + LOGNAME: "web_user", + PATH: "/", + PWD: "/", + HOME: "/home/web_user", + LANG: ("object" == typeof navigator && navigator.languages && navigator.languages[0] || "C").replace("-", "_") + ".UTF-8", + _: g + }; + for (M in SA) + A[M] = SA[M]; + var M, + t = []; + for (M in A) + t.push(M + "=" + A[M]); + zA.strings = t + } + return zA.strings + } + u("GMT", 1172720, 4); + function lA(A, M, t) { + t = 0 < t ? t : S(A) + 1, + t = new Array(t), + A = Y(A, t, 0, t.length); + return M && (t.length = A), + t + } + dA.staticInit(); + var UA = { + __cxa_allocate_exception: function (A) { + return JM(A) + }, + __cxa_throw: function (A, M, t) { + throw QA[A] = { + ptr: A, + adjusted: [A], + type: M, + destructor: t, + refcount: 0, + caught: !1, + rethrown: !1 + }, + "uncaught_exception" in HM ? HM.uncaught_exceptions++ : HM.uncaught_exceptions = 1, + A + " - Exception catching is disabled, this exception cannot be caught. Compile with -s DISABLE_EXCEPTION_CATCHING=0 or DISABLE_EXCEPTION_CATCHING=2 to catch." + }, + __lock: function () {}, + __syscall221: function (A, M) { + xA.varargs = M; + try { + var t = xA.getStreamFromFD(); + switch (xA.get()) { + case 0: + return (g = xA.get()) < 0 ? -28 : dA.open(t.path, t.flags, 0, g).fd; + case 1: + case 2: + return 0; + case 3: + return t.flags; + case 4: + var g = xA.get(); + return t.flags |= g, + 0; + case 12: + g = xA.get(); + return f[g + 0 >> 1] = 2, + 0; + case 13: + case 14: + return 0; + case 16: + case 8: + return -28; + case 9: + return aA(28), + -1; + default: + return -28 + } + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + -A.errno + } + }, + __syscall3: function (A, M) { + xA.varargs = M; + try { + var t = xA.getStreamFromFD(), + g = xA.get(), + I = xA.get(); + return dA.read(t, l, g, I) + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + -A.errno + } + }, + __syscall5: function (A, M) { + xA.varargs = M; + try { + var t = xA.getStr(), + g = xA.get(), + I = xA.get(); + return dA.open(t, g, I).fd + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + -A.errno + } + }, + __unlock: function () {}, + abort: function () { + TA() + }, + clock: YA, + emscripten_memcpy_big: function (A, M, t) { + U.set(U.subarray(M, M + t), A) + }, + emscripten_resize_heap: function (A) { + var M = uA(); + w(M < A); + var t = 2147418112; + if (t < A) + return c("Cannot enlarge memory, asked to go up to " + A + " bytes, but the limit is " + t + " bytes!"), !1; + for (var g = Math.max(M, 16777216); g < A; ) + (g = g <= 536870912 ? F(2 * g, 65536) : Math.min(F((3 * g + 2147483648) / 4, 65536), t)) === M && o("Cannot ask for more memory since we reached the practical limit in browsers (which is just below 2GB), so the request would have failed. Requesting only " + l.length); + return !!function (A) { + try { + return h.grow(A - z.byteLength + 65535 >> 16), + R(h.buffer), + 1 + } catch (A) {} + } + (g) || (c("Failed to grow the heap from " + M + " bytes to " + g + " bytes, not enough memory!"), !1) + }, + environ_get: function (g, I) { + var A = zA(), + e = 0; + return A.forEach(function (A, M) { + var t = I + e; + (function (A, M, t) { + for (var g = 0; g < A.length; ++g) + w(A.charCodeAt(g) === A.charCodeAt(g) & 255), l[M++ >> 0] = A.charCodeAt(g); + t || (l[M >> 0] = 0) + })(A, O[g + 4 * M >> 2] = t), + e += A.length + 1 + }), + 0 + }, + environ_sizes_get: function (A, M) { + var t = zA(); + O[A >> 2] = t.length; + var g = 0; + return t.forEach(function (A) { + g += A.length + 1 + }), + O[M >> 2] = g, + 0 + }, + fd_close: function (A) { + try { + var M = xA.getStreamFromFD(A); + return dA.close(M), + 0 + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + A.errno + } + }, + fd_fdstat_get: function (A, M) { + try { + var t = xA.getStreamFromFD(A), + t = t.tty ? 2 : dA.isDir(t.mode) ? 3 : dA.isLink(t.mode) ? 7 : 4; + return l[M >> 0] = t, + 0 + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + A.errno + } + }, + fd_seek: function (A, M, t, g, I) { + try { + var e = xA.getStreamFromFD(A), + i = 4294967296 * t + (M >>> 0), + T = 9007199254740992; + return i <= -T || T <= i ? -61 : (dA.llseek(e, i, g), CA = [e.position >>> 0, (DA = e.position, 1 <= +q(DA) ? 0 < DA ? (0 | AA(+$(DA / 4294967296), 4294967295)) >>> 0 : ~~+_((DA - (~~DA >>> 0)) / 4294967296) >>> 0 : 0)], O[I >> 2] = CA[0], O[I + 4 >> 2] = CA[1], e.getdents && 0 == i && 0 === g && (e.getdents = null), 0) + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + A.errno + } + }, + fd_write: function (A, M, t, g) { + try { + var I = xA.getStreamFromFD(A), + I = xA.doWritev(I, M, t); + return O[g >> 2] = I, + 0 + } catch (A) { + return void 0 !== dA && A instanceof dA.ErrnoError || TA(A), + A.errno + } + }, + gettimeofday: function (A) { + var M = Date.now(); + return O[A >> 2] = M / 1e3 | 0, + O[A + 4 >> 2] = M % 1e3 * 1e3 | 0, + 0 + }, + memory: h, + round: function (A) { + return 0 <= (A = +A) ? +$(A + .5) : +_(A - .5) + }, + setTempRet0: function (A) { + 0 + }, + table: s, + time: function (A) { + var M = Date.now() / 1e3 | 0; + return A && (O[A >> 2] = M), + M + } + }, + t = function () { + var M = { + env: UA, + wasi_unstable: UA + }; + function t(A, M) { + A = A.exports; + tt.asm = A, + iA("wasm-instantiate") + } + eA("wasm-instantiate"); + var g = tt; + function I(A) { + w(tt === g, "the Module object should not be replaced during async compilation - perhaps the order of HTML elements is wrong?"), + g = null, + t(A.instance) + } + function e(A) { + return (Q || !i && !N || "function" != typeof fetch ? new Promise(function (A, M) { + A(cA()) + }) : fetch(rA, { + credentials: "same-origin" + }).then(function (A) { + if (!A.ok) + throw "failed to load wasm binary file at '" + rA + "'"; + return A.arrayBuffer() + }).catch(cA)).then(function (A) { + return WebAssembly.instantiate(A, M) + }).then(A, function (A) { + c("failed to asynchronously prepare wasm: " + A), + TA(A) + }) + } + if (tt.instantiateWasm) + try { + return tt.instantiateWasm(M, t) + } catch (A) { + return c("Module.instantiateWasm callback failed with error: " + A), + !1 + } + return Q || "function" != typeof WebAssembly.instantiateStreaming || NA(rA) || "function" != typeof fetch ? e(I) : fetch(rA, { + credentials: "same-origin" + }).then(function (A) { + return WebAssembly.instantiateStreaming(A, M).then(I, function (A) { + c("wasm streaming compile failed: " + A), + c("falling back to ArrayBuffer instantiation"), + e(I) + }) + }), {} + } + (), + fA = t.__wasm_call_ctors; + t.__wasm_call_ctors = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + fA.apply(null, arguments) + }; + var OA = t.WasmDecoder_Check; + t.WasmDecoder_Check = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + OA.apply(null, arguments) + }; + var mA = t.WasmDecoder_Init; + t.WasmDecoder_Init = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + mA.apply(null, arguments) + }; + var FA = t.WasmDecoder_Deinit; + t.WasmDecoder_Deinit = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + FA.apply(null, arguments) + }; + var RA = t.WasmDecoder_OpenChannel; + t.WasmDecoder_OpenChannel = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + RA.apply(null, arguments) + }; + var kA = t.WasmDecoder_InputFlvStream; + t.WasmDecoder_InputFlvStream = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + kA.apply(null, arguments) + }; + var pA = t.WasmDecoder_GetFlvDecodeData; + t.WasmDecoder_GetFlvDecodeData = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + pA.apply(null, arguments) + }; + var bA = t.WasmDecoder_InputFlvStreamAndDecode; + t.WasmDecoder_InputFlvStreamAndDecode = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + bA.apply(null, arguments) + }; + var GA = t.WasmDecoder_OpenVideoDecoder; + t.WasmDecoder_OpenVideoDecoder = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + GA.apply(null, arguments) + }; + var JA = t.WasmDecoder_OpenAudioDecoder; + t.WasmDecoder_OpenAudioDecoder = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + JA.apply(null, arguments) + }; + var HA = t.WasmDecoder_DecodeVideoFrame; + t.WasmDecoder_DecodeVideoFrame = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + HA.apply(null, arguments) + }; + var XA = t.WasmDecoder_DecodeAudioFrame; + t.WasmDecoder_DecodeAudioFrame = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + XA.apply(null, arguments) + }; + var vA = t.WasmDecoder_CloseChannel; + t.WasmDecoder_CloseChannel = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + vA.apply(null, arguments) + }; + var VA = t.main; + t.main = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + VA.apply(null, arguments) + }; + var WA = t.malloc; + t.malloc = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + WA.apply(null, arguments) + }; + var PA = t.free; + t.free = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + PA.apply(null, arguments) + }; + var ZA = t.__errno_location; + t.__errno_location = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + ZA.apply(null, arguments) + }; + var KA = t.fflush; + t.fflush = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + KA.apply(null, arguments) + }; + var qA = t._get_tzname; + t._get_tzname = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + qA.apply(null, arguments) + }; + var _A = t._get_daylight; + t._get_daylight = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + _A.apply(null, arguments) + }; + var $A = t._get_timezone; + t._get_timezone = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + $A.apply(null, arguments) + }; + var AM = t.setThrew; + t.setThrew = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + AM.apply(null, arguments) + }; + var MM = t._ZSt18uncaught_exceptionv; + t._ZSt18uncaught_exceptionv = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + MM.apply(null, arguments) + }; + var tM = t.stackSave; + t.stackSave = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tM.apply(null, arguments) + }; + var gM = t.stackAlloc; + t.stackAlloc = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + gM.apply(null, arguments) + }; + var IM = t.stackRestore; + t.stackRestore = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + IM.apply(null, arguments) + }; + var eM = t.__growWasmMemory; + t.__growWasmMemory = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + eM.apply(null, arguments) + }; + var iM = t.dynCall_ii; + t.dynCall_ii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + iM.apply(null, arguments) + }; + var TM = t.dynCall_viiiii; + t.dynCall_viiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + TM.apply(null, arguments) + }; + var EM = t.dynCall_viiiiiifi; + t.dynCall_viiiiiifi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + EM.apply(null, arguments) + }; + var NM = t.dynCall_viiii; + t.dynCall_viiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + NM.apply(null, arguments) + }; + var nM = t.dynCall_viii; + t.dynCall_viii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + nM.apply(null, arguments) + }; + var DM = t.dynCall_iiiiiii; + t.dynCall_iiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + DM.apply(null, arguments) + }; + var CM = t.dynCall_iiiiii; + t.dynCall_iiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + CM.apply(null, arguments) + }; + var rM = t.dynCall_vii; + t.dynCall_vii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + rM.apply(null, arguments) + }; + var cM = t.dynCall_iii; + t.dynCall_iii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + cM.apply(null, arguments) + }; + var oM = t.dynCall_viiiiii; + t.dynCall_viiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + oM.apply(null, arguments) + }; + var BM = t.dynCall_viiiiiiiii; + t.dynCall_viiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + BM.apply(null, arguments) + }; + var QM = t.dynCall_viiiiiiii; + t.dynCall_viiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + QM.apply(null, arguments) + }; + var aM = t.dynCall_iiiii; + t.dynCall_iiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + aM.apply(null, arguments) + }; + var hM = t.dynCall_viiiiiiiiiiiiii; + t.dynCall_viiiiiiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + hM.apply(null, arguments) + }; + var sM = t.dynCall_viiiiiiiiiii; + t.dynCall_viiiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + sM.apply(null, arguments) + }; + var yM = t.dynCall_viiiiiii; + t.dynCall_viiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + yM.apply(null, arguments) + }; + var wM = t.dynCall_viiiiiiiiiiii; + t.dynCall_viiiiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + wM.apply(null, arguments) + }; + var jM = t.dynCall_vi; + t.dynCall_vi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + jM.apply(null, arguments) + }; + var LM = t.dynCall_iiii; + t.dynCall_iiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + LM.apply(null, arguments) + }; + var dM = t.dynCall_viiiifii; + t.dynCall_viiiifii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + dM.apply(null, arguments) + }; + var xM = t.dynCall_fii; + t.dynCall_fii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + xM.apply(null, arguments) + }; + var YM = t.dynCall_viiiiiiiiii; + t.dynCall_viiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + YM.apply(null, arguments) + }; + var uM = t.dynCall_dd; + t.dynCall_dd = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + uM.apply(null, arguments) + }; + var SM = t.dynCall_viifi; + t.dynCall_viifi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + SM.apply(null, arguments) + }; + var zM = t.dynCall_fiii; + t.dynCall_fiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + zM.apply(null, arguments) + }; + var lM = t.dynCall_viidi; + t.dynCall_viidi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + lM.apply(null, arguments) + }; + var UM = t.dynCall_iiiiiiii; + t.dynCall_iiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + UM.apply(null, arguments) + }; + var fM = t.dynCall_viiijj; + t.dynCall_viiijj = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + fM.apply(null, arguments) + }; + var OM = t.dynCall_iiiiiiidiiddii; + t.dynCall_iiiiiiidiiddii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + OM.apply(null, arguments) + }; + var mM = t.dynCall_jij; + t.dynCall_jij = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + mM.apply(null, arguments) + }; + var FM = t.dynCall_jii; + t.dynCall_jii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + FM.apply(null, arguments) + }; + var RM = t.dynCall_v; + t.dynCall_v = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + RM.apply(null, arguments) + }; + var kM = t.dynCall_iidiiii; + t.dynCall_iidiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + kM.apply(null, arguments) + }; + var pM = t.dynCall_jiji; + t.dynCall_jiji = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + pM.apply(null, arguments) + }, + tt.asm = t; + var bM, + GM = tt.___wasm_call_ctors = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.__wasm_call_ctors.apply(null, arguments) + }, + JM = (tt._WasmDecoder_Check = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_Check.apply(null, arguments) + }, tt._WasmDecoder_Init = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_Init.apply(null, arguments) + }, tt._WasmDecoder_Deinit = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_Deinit.apply(null, arguments) + }, tt._WasmDecoder_OpenChannel = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_OpenChannel.apply(null, arguments) + }, tt._WasmDecoder_InputFlvStream = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_InputFlvStream.apply(null, arguments) + }, tt._WasmDecoder_GetFlvDecodeData = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_GetFlvDecodeData.apply(null, arguments) + }, tt._WasmDecoder_InputFlvStreamAndDecode = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_InputFlvStreamAndDecode.apply(null, arguments) + }, tt._WasmDecoder_OpenVideoDecoder = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_OpenVideoDecoder.apply(null, arguments) + }, tt._WasmDecoder_OpenAudioDecoder = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_OpenAudioDecoder.apply(null, arguments) + }, tt._WasmDecoder_DecodeVideoFrame = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_DecodeVideoFrame.apply(null, arguments) + }, tt._WasmDecoder_DecodeAudioFrame = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_DecodeAudioFrame.apply(null, arguments) + }, tt._WasmDecoder_CloseChannel = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.WasmDecoder_CloseChannel.apply(null, arguments) + }, tt._main = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.main.apply(null, arguments) + }, tt._malloc = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.malloc.apply(null, arguments) + }), + HM = (tt._free = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.free.apply(null, arguments) + }, tt.___errno_location = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.__errno_location.apply(null, arguments) + }, tt._fflush = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.fflush.apply(null, arguments) + }, tt.__get_tzname = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm._get_tzname.apply(null, arguments) + }, tt.__get_daylight = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm._get_daylight.apply(null, arguments) + }, tt.__get_timezone = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm._get_timezone.apply(null, arguments) + }, tt._setThrew = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.setThrew.apply(null, arguments) + }, tt.__ZSt18uncaught_exceptionv = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm._ZSt18uncaught_exceptionv.apply(null, arguments) + }), + XM = tt.stackSave = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.stackSave.apply(null, arguments) + }, + vM = tt.stackAlloc = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.stackAlloc.apply(null, arguments) + }, + VM = tt.stackRestore = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.stackRestore.apply(null, arguments) + }; + tt.__growWasmMemory = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.__growWasmMemory.apply(null, arguments) + }, + tt.dynCall_ii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_ii.apply(null, arguments) + }, + tt.dynCall_viiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiifi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiifi.apply(null, arguments) + }, + tt.dynCall_viiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiii.apply(null, arguments) + }, + tt.dynCall_viii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viii.apply(null, arguments) + }, + tt.dynCall_iiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iiiiiii.apply(null, arguments) + }, + tt.dynCall_iiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iiiiii.apply(null, arguments) + }, + tt.dynCall_vii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_vii.apply(null, arguments) + }, + tt.dynCall_iii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iii.apply(null, arguments) + }, + tt.dynCall_viiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiiii.apply(null, arguments) + }, + tt.dynCall_iiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiiiiiiiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiiiiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiii.apply(null, arguments) + }, + tt.dynCall_viiiiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiiiiiiii.apply(null, arguments) + }, + tt.dynCall_vi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_vi.apply(null, arguments) + }, + tt.dynCall_iiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iiii.apply(null, arguments) + }, + tt.dynCall_viiiifii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiifii.apply(null, arguments) + }, + tt.dynCall_fii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_fii.apply(null, arguments) + }, + tt.dynCall_viiiiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiiiiiiiii.apply(null, arguments) + }, + tt.dynCall_dd = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_dd.apply(null, arguments) + }, + tt.dynCall_viifi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viifi.apply(null, arguments) + }, + tt.dynCall_fiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_fiii.apply(null, arguments) + }, + tt.dynCall_viidi = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viidi.apply(null, arguments) + }, + tt.dynCall_iiiiiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iiiiiiii.apply(null, arguments) + }, + tt.dynCall_viiijj = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_viiijj.apply(null, arguments) + }, + tt.dynCall_iiiiiiidiiddii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iiiiiiidiiddii.apply(null, arguments) + }, + tt.dynCall_jij = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_jij.apply(null, arguments) + }, + tt.dynCall_jii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_jii.apply(null, arguments) + }, + tt.dynCall_v = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_v.apply(null, arguments) + }, + tt.dynCall_iidiiii = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_iidiiii.apply(null, arguments) + }, + tt.dynCall_jiji = function () { + return w(W, "you need to wait for the runtime to be ready (e.g. wait for main() to be called)"), + w(!P, "the runtime was exited (use NO_EXIT_RUNTIME to keep it alive after main() exits)"), + tt.asm.dynCall_jiji.apply(null, arguments) + }; + function WM(A) { + this.name = "ExitStatus", + this.message = "Program terminated with exit(" + A + ")", + this.status = A + } + tt.asm = t, + Object.getOwnPropertyDescriptor(tt, "intArrayFromString") || (tt.intArrayFromString = function () { + TA("'intArrayFromString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "intArrayToString") || (tt.intArrayToString = function () { + TA("'intArrayToString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + tt.ccall = j, + tt.cwrap = function (A, M, t, g) { + return function () { + return j(A, M, t, arguments) + } + }, + Object.getOwnPropertyDescriptor(tt, "setValue") || (tt.setValue = function () { + TA("'setValue' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getValue") || (tt.getValue = function () { + TA("'getValue' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "allocate") || (tt.allocate = function () { + TA("'allocate' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getMemory") || (tt.getMemory = function () { + TA("'getMemory' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "AsciiToString") || (tt.AsciiToString = function () { + TA("'AsciiToString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stringToAscii") || (tt.stringToAscii = function () { + TA("'stringToAscii' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "UTF8ArrayToString") || (tt.UTF8ArrayToString = function () { + TA("'UTF8ArrayToString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "UTF8ToString") || (tt.UTF8ToString = function () { + TA("'UTF8ToString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stringToUTF8Array") || (tt.stringToUTF8Array = function () { + TA("'stringToUTF8Array' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stringToUTF8") || (tt.stringToUTF8 = function () { + TA("'stringToUTF8' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "lengthBytesUTF8") || (tt.lengthBytesUTF8 = function () { + TA("'lengthBytesUTF8' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "UTF16ToString") || (tt.UTF16ToString = function () { + TA("'UTF16ToString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stringToUTF16") || (tt.stringToUTF16 = function () { + TA("'stringToUTF16' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "lengthBytesUTF16") || (tt.lengthBytesUTF16 = function () { + TA("'lengthBytesUTF16' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "UTF32ToString") || (tt.UTF32ToString = function () { + TA("'UTF32ToString' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stringToUTF32") || (tt.stringToUTF32 = function () { + TA("'stringToUTF32' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "lengthBytesUTF32") || (tt.lengthBytesUTF32 = function () { + TA("'lengthBytesUTF32' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "allocateUTF8") || (tt.allocateUTF8 = function () { + TA("'allocateUTF8' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stackTrace") || (tt.stackTrace = function () { + TA("'stackTrace' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "addOnPreRun") || (tt.addOnPreRun = function () { + TA("'addOnPreRun' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "addOnInit") || (tt.addOnInit = function () { + TA("'addOnInit' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "addOnPreMain") || (tt.addOnPreMain = function () { + TA("'addOnPreMain' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "addOnExit") || (tt.addOnExit = function () { + TA("'addOnExit' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "addOnPostRun") || (tt.addOnPostRun = function () { + TA("'addOnPostRun' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "writeStringToMemory") || (tt.writeStringToMemory = function () { + TA("'writeStringToMemory' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "writeArrayToMemory") || (tt.writeArrayToMemory = function () { + TA("'writeArrayToMemory' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "writeAsciiToMemory") || (tt.writeAsciiToMemory = function () { + TA("'writeAsciiToMemory' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "addRunDependency") || (tt.addRunDependency = function () { + TA("'addRunDependency' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "removeRunDependency") || (tt.removeRunDependency = function () { + TA("'removeRunDependency' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "ENV") || (tt.ENV = function () { + TA("'ENV' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "FS") || (tt.FS = function () { + TA("'FS' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createFolder") || (tt.FS_createFolder = function () { + TA("'FS_createFolder' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createPath") || (tt.FS_createPath = function () { + TA("'FS_createPath' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createDataFile") || (tt.FS_createDataFile = function () { + TA("'FS_createDataFile' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createPreloadedFile") || (tt.FS_createPreloadedFile = function () { + TA("'FS_createPreloadedFile' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createLazyFile") || (tt.FS_createLazyFile = function () { + TA("'FS_createLazyFile' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createLink") || (tt.FS_createLink = function () { + TA("'FS_createLink' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_createDevice") || (tt.FS_createDevice = function () { + TA("'FS_createDevice' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "FS_unlink") || (tt.FS_unlink = function () { + TA("'FS_unlink' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + }), + Object.getOwnPropertyDescriptor(tt, "GL") || (tt.GL = function () { + TA("'GL' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "dynamicAlloc") || (tt.dynamicAlloc = function () { + TA("'dynamicAlloc' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "loadDynamicLibrary") || (tt.loadDynamicLibrary = function () { + TA("'loadDynamicLibrary' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "loadWebAssemblyModule") || (tt.loadWebAssemblyModule = function () { + TA("'loadWebAssemblyModule' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getLEB") || (tt.getLEB = function () { + TA("'getLEB' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getFunctionTables") || (tt.getFunctionTables = function () { + TA("'getFunctionTables' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "alignFunctionTables") || (tt.alignFunctionTables = function () { + TA("'alignFunctionTables' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "registerFunctions") || (tt.registerFunctions = function () { + TA("'registerFunctions' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + tt.addFunction = function (A, M) { + return w(void 0 !== A), + B(A, M) + }, + Object.getOwnPropertyDescriptor(tt, "removeFunction") || (tt.removeFunction = function () { + TA("'removeFunction' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getFuncWrapper") || (tt.getFuncWrapper = function () { + TA("'getFuncWrapper' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "prettyPrint") || (tt.prettyPrint = function () { + TA("'prettyPrint' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "makeBigInt") || (tt.makeBigInt = function () { + TA("'makeBigInt' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "dynCall") || (tt.dynCall = function () { + TA("'dynCall' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getCompilerSetting") || (tt.getCompilerSetting = function () { + TA("'getCompilerSetting' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stackSave") || (tt.stackSave = function () { + TA("'stackSave' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stackRestore") || (tt.stackRestore = function () { + TA("'stackRestore' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "stackAlloc") || (tt.stackAlloc = function () { + TA("'stackAlloc' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "establishStackSpace") || (tt.establishStackSpace = function () { + TA("'establishStackSpace' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "print") || (tt.print = function () { + TA("'print' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "printErr") || (tt.printErr = function () { + TA("'printErr' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "getTempRet0") || (tt.getTempRet0 = function () { + TA("'getTempRet0' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "setTempRet0") || (tt.setTempRet0 = function () { + TA("'setTempRet0' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "callMain") || (tt.callMain = function () { + TA("'callMain' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "abort") || (tt.abort = function () { + TA("'abort' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "Pointer_stringify") || (tt.Pointer_stringify = function () { + TA("'Pointer_stringify' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + Object.getOwnPropertyDescriptor(tt, "warnOnce") || (tt.warnOnce = function () { + TA("'warnOnce' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + }), + tt.writeStackCookie = b, + tt.checkStackCookie = G, + tt.abortStackOverflow = function (A) { + TA("Stack overflow! Attempted to allocate " + A + " bytes on the stack, but stack has only " + (k - XM() + A) + " bytes available!") + }, + Object.getOwnPropertyDescriptor(tt, "ALLOC_NORMAL") || Object.defineProperty(tt, "ALLOC_NORMAL", { + configurable: !0, + get: function () { + TA("'ALLOC_NORMAL' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + } + }), + Object.getOwnPropertyDescriptor(tt, "ALLOC_STACK") || Object.defineProperty(tt, "ALLOC_STACK", { + configurable: !0, + get: function () { + TA("'ALLOC_STACK' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + } + }), + Object.getOwnPropertyDescriptor(tt, "ALLOC_DYNAMIC") || Object.defineProperty(tt, "ALLOC_DYNAMIC", { + configurable: !0, + get: function () { + TA("'ALLOC_DYNAMIC' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + } + }), + Object.getOwnPropertyDescriptor(tt, "ALLOC_NONE") || Object.defineProperty(tt, "ALLOC_NONE", { + configurable: !0, + get: function () { + TA("'ALLOC_NONE' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ)") + } + }), + Object.getOwnPropertyDescriptor(tt, "calledRun") || Object.defineProperty(tt, "calledRun", { + configurable: !0, + get: function () { + TA("'calledRun' was not exported. add it to EXTRA_EXPORTED_RUNTIME_METHODS (see the FAQ). Alternatively, forcing filesystem support (-s FORCE_FILESYSTEM=1) can export this for you") + } + }); + function PM() { + w(0 == MA, 'cannot call main when async dependencies remain! (listen on Module["onRuntimeInitialized"])'), + w(0 == H.length, "cannot call main when preRun functions remain to be called"); + var A, + M = tt._main; + try { + var t = M(0, 0); + A = t, + t = !0, + function () { + var A = r, + M = c, + t = !1; + r = c = function (A) { + t = !0 + }; + try { + var g = tt._fflush; + g && g(0), + ["stdout", "stderr"].forEach(function (A) { + A = dA.analyzePath("/dev/" + A); + A && (A = A.object.rdev, (A = yA.ttys[A]) && A.output && A.output.length && (t = !0)) + }) + } catch (A) {} + r = A, + c = M, + t && o("stdio streams had content in them that was not flushed. you should set EXIT_RUNTIME to 1 (see the FAQ), or make sure to emit a newline when you printf etc.") + } + (), + !void(t && a && 0 === A || (a ? t || c("program exited (with status: " + A + "), but EXIT_RUNTIME is not set, so halting execution but not exiting the runtime or preventing further async execution (build with EXIT_RUNTIME=1, if you want a true shutdown)") : (y = !0, G(), P = !0, tt.onExit && tt.onExit(A)), I(A, new WM(A)))) + } catch (A) { + if (A instanceof WM) + return; + if ("SimulateInfiniteLoop" == A) + return void(a = !0); + var g = A; + A && "object" == typeof A && A.stack && (g = [A, A.stack]), + c("exception thrown: " + g), + I(1, A) + } + finally { + 0 + } + } + function ZM(A) { + function M() { + bM || (bM = !0, y || (G(), w(!W), W = !0, tt.noFSInit || dA.init.initialized || dA.init(), yA.init(), J(X), G(), dA.ignorePermissions = !1, J(v), tt.onRuntimeInitialized && tt.onRuntimeInitialized(), KM && PM(), K())) + } + 0 < MA || (b(), Z(), 0 < MA || (tt.setStatus ? (tt.setStatus("Running..."), setTimeout(function () { + setTimeout(function () { + tt.setStatus("") + }, 1), + M() + }, 1)) : M(), G())) + } + if (gA = function A() { + bM || ZM(), + bM || (gA = A) + }, tt.run = ZM, tt.preInit) + for ("function" == typeof tt.preInit && (tt.preInit = [tt.preInit]); 0 < tt.preInit.length; ) + tt.preInit.pop()(); + var KM = !0; + tt.noInitialRun && (KM = !1), + a = !0, + ZM() + } + var T = !1; + M.default = function (B) { + B.isFlvStream = !0, + B.enableAudio = !1, + B.pause = !1, + B.exitFlag = !1, + B.needMoreData = !1, + B.wasmDecoderId = -1, + B.wasmInitVideoDecoder = !1, + B.wasmInitAudioDecoder = !1, + B.videoQueue = [], + B.audioQueue = [], + B.videoFrameNum = 0, + B.videoRawData = null, + B.audioRawData = null, + B.videoPacketData = null, + B.audioPacketData = null, + B.findKeyFrame = !0, + B.videoIntervalHandle = -1, + B.videoIntervalValue = 40, + B.audioIntervalHandle = -1, + B.audioIntervalValue = 80, + B.lastPTS = 0, + B.ptsCount = 0, + B.maxCacheFrameNum = 0, + B.calcDelayFlag = !0, + B.procVideoFlag = !1, + B.procAudioFlag = !1; + function g() { + null == B.videoRawData && (B.videoRawData = tt._malloc(8294400)), + null == B.audioRawData && (B.audioRawData = tt._malloc(16384)), + null == B.videoPacketData && (B.videoPacketData = tt._malloc(1048576)), + null == B.audioPacketData && (B.audioPacketData = tt._malloc(2048)), + B.wasmDecoderId < 0 && (B.wasmDecoderId = tt._WasmDecoder_OpenChannel()) + } + function t(A, M, t, g, I, e, i, T, E) { + if (B.procVideoFlag) + return -1; + B.procVideoFlag = !0, + tt.HEAPU8.set(T, B.videoPacketData); + var N = Q.E, + n = 0; + N == Q.E ? n = 0 : N == Q.C ? n = 2 : N == Q.D && (n = 26), + 1 == A && 0 < B.videoFrameNum && --B.videoFrameNum, + 1 == A && !B.wasmInitVideoDecoder && t ? 0 == tt._WasmDecoder_OpenVideoDecoder(B.wasmDecoderId, M, 0, 0, n) && (B.wasmInitVideoDecoder = !0) : 2 != A || B.wasmInitAudioDecoder || 0 == tt._WasmDecoder_OpenAudioDecoder(B.wasmDecoderId, M, I, i, e) && (B.wasmInitAudioDecoder = !0); + var D = null; + if (1 == A && B.wasmInitVideoDecoder ? D = tt._WasmDecoder_DecodeVideoFrame(B.wasmDecoderId, B.videoPacketData, E, 0, 0, B.videoRawData, 0) : 2 == A && B.wasmInitAudioDecoder && B.enableAudio && (D = tt._WasmDecoder_DecodeAudioFrame(B.wasmDecoderId, B.videoPacketData, E, B.audioRawData, 0)), 0 != D && null != D) { + var C = tt.HEAPU32[D / 4], + T = (tt.HEAPU32[D / 4 + 1], tt.HEAPU32[D / 4 + 2]), + N = (tt.HEAPU32[D / 4 + 3], tt.HEAPU32[D / 4 + 4]), + t = tt.HEAPU32[D / 4 + 5], + M = (tt.HEAPU32[D / 4 + 6], tt.HEAPU32[D / 4 + 7]), + I = tt.HEAPU32[D / 4 + 8], + i = tt.HEAPU32[D / 4 + 9], + e = tt.HEAPU32[D / 4 + 10], + A = tt.HEAPU32[D / 4 + 11], + D = (tt.HEAPU32[D / 4 + 12], tt.HEAPU32[D / 4 + 13]); + if (T < 1) + return void(B.procVideoFlag = !1); + if (1 == C) { + 0 == n ? o = N * t * 3 / 2 : 2 == n ? o = N * t * 3 : 25 != n && 26 != n || (o = N * t * 4); + var r = tt.HEAPU8.subarray(B.videoRawData, B.videoRawData + o), + c = new Uint8Array(r), + o = { + cmd: Q.p, + workerId: Q.a, + mediaType: 1, + ts: D, + width: N, + height: t, + framesize: E, + rawsize: o, + fps: M, + interval: I, + playTimeSec: g, + frameNum: B.videoFrameNum, + dat: c + }; + if (B.postMessage(o, [o.dat.buffer]), 1920 <= N && 720 <= t) + return B.procVideoFlag = !1, 1 + } else + 2 == C && (r = tt.HEAPU8.subarray(B.audioRawData, B.audioRawData + T), c = new Uint8Array(r), r = 0, 8 == A ? r = 0 : 16 == A ? r = 1 : 32 == A && (r = 2), o = { + cmd: Q.p, + workerId: Q.a, + mediaType: 2, + fmt: r, + ch: i, + samplerate: e, + ts: D, + framesize: T, + dat: c + }, B.postMessage(o, [o.dat.buffer])) + } + return B.procVideoFlag = !1, + 0 + } + function I() { + if (B.wasmDecoderId < 0 && g(), 0 < B.wasmDecoderId && 0 < B.videoQueue.length && !B.pause) { + var A = null, + M = -1; + if (B.isFlvStream) { + if (B.findKeyFrame) + for (; 0 < B.videoQueue.length; ) { + if ((A = B.videoQueue[0]).frameType && B.videoQueue.length < 80) { + B.findKeyFrame = !1; + break + } + B.videoQueue.shift() + } + else + 80 < B.videoQueue.length && (B.findKeyFrame = !0); + 0 < B.videoQueue.length && (null == A && (A = B.videoQueue[0]), M = t(A.mediaType, A.codecId, A.frameType, A.playTimeSec, A.samplerate, A.channelNum, A.bitPerSample, A.dat, A.dat.length)) + } else + A = B.videoQueue[0], M = t(A.mediaType, A.codecId, A.frameType, A.playTimeSec, A.samplerate, A.channelNum, A.bitPerSample, A.dat, A.dat.length); + 0 <= M && B.videoQueue.shift(), + B.videoQueue.length > B.maxCacheFrameNum && B.videoQueue.length + } + } + function M() { + if (!(B.wasmDecoderId < 0) && 0 < B.wasmDecoderId) + for (; 0 < B.audioQueue.length && !B.pause; ) { + var A; + B.pause || (A = B.audioQueue[0], B.enableAudio && function (A, M, t, g, I, e) { + tt.HEAPU8.set(I, B.audioPacketData), + B.wasmInitAudioDecoder || 0 == tt._WasmDecoder_OpenAudioDecoder(B.wasmDecoderId, A, M, g, t) && (B.wasmInitAudioDecoder = !0); + var i = null; + if (B.wasmInitAudioDecoder && B.enableAudio && (i = tt._WasmDecoder_DecodeAudioFrame(B.wasmDecoderId, B.audioPacketData, e, B.audioRawData, 0)), 0 != i && null != i) { + tt.HEAPU32[i / 4], + tt.HEAPU32[i / 4 + 1]; + I = tt.HEAPU32[i / 4 + 2], + A = (tt.HEAPU32[i / 4 + 3], tt.HEAPU32[i / 4 + 4], tt.HEAPU32[i / 4 + 5], tt.HEAPU32[i / 4 + 6], tt.HEAPU32[i / 4 + 7], tt.HEAPU32[i / 4 + 8], tt.HEAPU32[i / 4 + 9]), + M = tt.HEAPU32[i / 4 + 10], + g = tt.HEAPU32[i / 4 + 11], + t = (tt.HEAPU32[i / 4 + 12], tt.HEAPU32[i / 4 + 13]); + if (I < 1) + return; + e = tt.HEAPU8.subarray(B.audioRawData, B.audioRawData + I), + i = new Uint8Array(e), + e = 0; + 8 == g ? e = 0 : 16 == g ? e = 1 : 32 == g && (e = 2); + i = { + cmd: Q.p, + workerId: Q.a, + mediaType: 2, + fmt: e, + ch: A, + samplerate: M, + ts: t, + framesize: I, + dat: i + }; + B.postMessage(i, [i.dat.buffer]) + } + } + (A.codecId, A.samplerate, A.channelNum, A.bitPerSample, A.dat, A.dat.length), B.audioQueue.shift()) + } + } + tt.onRuntimeInitialized = function () { + B.videoIntervalHandle = setInterval(I, B.videoIntervalValue), + B.audioIntervalHandle = setInterval(M, B.audioIntervalValue), + B.isFlvStream; + var A = { + cmd: Q.n + }; + B.postMessage(A), + T = !0 + }; + function e(A) { + var M; + A > B.lastPTS && 0 < B.lastPTS ? (B.videoQueue.length % 5 == 0 ? (M = B.ptsCount / 5, B.videoQueue.length <= B.maxCacheFrameNum && (M = M, T && (((M = M) < 5 || 500 < M) && (M = 40), M != B.videoIntervalValue && (0 <= B.videoIntervalHandle && (clearInterval(B.videoIntervalHandle), B.videoIntervalHandle = -1), B.videoIntervalValue = Math.floor(M), B.videoIntervalHandle = setInterval(I, B.videoIntervalValue)))), B.ptsCount = A - B.lastPTS) : B.ptsCount += A - B.lastPTS, B.lastPTS = A) : (B.lastPTS = A, B.ptsCount = 40) + } + B.addEventListener("message", function (A) { + var M = A.data; + switch (M.cmd) { + case Q.v: + Mt = M.url, + B.isFlvStream = M.isFlv, + i(); + break; + case Q.l: + B.exitFlag = !0, + 0 < B.wasmDecoderId && (tt._WasmDecoder_CloseChannel(B.wasmDecoderId), B.wasmDecoderId = -1), + null != B.videoRawData && (tt._free(B.videoRawData), B.videoRawData = null), + null != B.audioRawData && (tt._free(B.audioRawData), B.audioRawData = null), + null != B.videoPacketData && (tt._free(B.videoPacketData), B.videoPacketData = null), + null != B.audioPacketData && (tt._free(B.audioPacketData), B.audioPacketData = null), + 0 <= B.videoIntervalHandle && (clearInterval(B.videoIntervalHandle), B.videoIntervalHandle = -1), + 0 <= B.audioIntervalHandle && (clearInterval(B.audioIntervalHandle), B.audioIntervalHandle = -1), + B.videoQueue.clear, + B.videoQueue.length = 0, + B.videoFrameNum = 0, + B.audioQueue.clear, + B.audioQueue.length = 0; + var t = { + cmd: Q.l, + workerId: Q.a + }; + B.postMessage(t); + break; + case Q.u: + B.enableAudio = !0; + break; + case Q.k: + B.enableAudio = !1; + break; + case Q.w: + B.pause = !0; + break; + case Q.z: + B.pause = !1; + break; + case Q.A: + B.videoQueue.clear, + B.videoQueue.length = 0, + B.videoFrameNum = 0, + B.audioQueue.clear, + B.audioQueue.length = 0; + break; + case Q.B: + B.updateIntervalTime(M.interval); + break; + case Q.p: + if (B.exitFlag) + break; + T ? B.isFlvStream ? (B.wasmDecoderId < 0 && g(), 0 < B.wasmDecoderId ? 1 == M.mediaType ? 0 <= B.videoIntervalHandle && (B.videoQueue.push(M), B.maxCacheFrameNum = 5) : 2 == M.mediaType && 0 <= B.audioIntervalHandle && !B.findKeyFrame && B.audioQueue.push(M) : B.videoQueue.length < 100 && 1 == M.mediaType && M.frameType && 0 <= B.videoIntervalHandle && (B.videoQueue.push(M), 5 <= B.videoQueue.length && B.videoQueue.shift())) : (1 == M.mediaType ? 0 <= B.videoIntervalHandle && (B.videoQueue.push(M), e(M.samplerate), B.videoFrameNum += 1, B.calcDelayFlag && B.maxCacheFrameNum < B.videoQueue.length ? B.maxCacheFrameNum = B.videoQueue.length : B.calcDelayFlag && (B.calcDelayFlag = !1)) : 2 == M.mediaType && 0 <= B.audioIntervalHandle && B.audioQueue.push(M), B.needMoreData = !1) : B.isFlvStream && B.videoQueue.length < 5 ? 1 == M.mediaType && M.frameType && 0 <= B.videoIntervalHandle && (B.videoQueue.push(M), 5 <= B.videoQueue.length && B.videoQueue.shift()) : !B.isFlvStream && B.videoQueue.length < 1e3 && (1 == M.mediaType ? 0 <= B.videoIntervalHandle && (B.videoQueue.push(M), e(M.samplerate), B.videoFrameNum += 1, B.calcDelayFlag && B.maxCacheFrameNum < B.videoQueue.length ? B.maxCacheFrameNum = B.videoQueue.length : B.calcDelayFlag && (B.calcDelayFlag = !1)) : 2 == M.mediaType && 0 <= B.audioIntervalHandle && B.audioQueue.push(M)) + } + }) + } + } + .call(this, gt(8), "/", gt(116)(A), gt(9).Buffer) + }, function (A, M, t) { + "use strict"; + var T = t(4).Buffer, + g = t(63).Transform; + function I(A) { + g.call(this), + this._block = T.allocUnsafe(A), + this._blockSize = A, + this._blockOffset = 0, + this._length = [0, 0, 0, 0], + this._finalized = !1 + } + t(3)(I, g), + I.prototype._transform = function (A, M, t) { + var g = null; + try { + this.update(A, M) + } catch (A) { + g = A + } + t(g) + }, + I.prototype._flush = function (A) { + var M = null; + try { + this.push(this.digest()) + } catch (A) { + M = A + } + A(M) + }, + I.prototype.update = function (A, M) { + if (!function (A, M) { + if (!T.isBuffer(A) && "string" != typeof A) + throw new TypeError(M + " must be a string or a buffer") + } + (A, "Data"), this._finalized)throw new Error("Digest already called"); + T.isBuffer(A) || (A = T.from(A, M)); + for (var t = this._block, g = 0; this._blockOffset + A.length - g >= this._blockSize; ) { + for (var I = this._blockOffset; I < this._blockSize; ) + t[I++] = A[g++]; + this._update(), + this._blockOffset = 0 + } + for (; g < A.length; ) + t[this._blockOffset++] = A[g++]; + for (var e = 0, i = 8 * A.length; 0 < i; ++e) + this._length[e] += i, 0 < (i = this._length[e] / 4294967296 | 0) && (this._length[e] -= 4294967296 * i); + return this + }, + I.prototype._update = function () { + throw new Error("_update is not implemented") + }, + I.prototype.digest = function (A) { + if (this._finalized) + throw new Error("Digest already called"); + this._finalized = !0; + var M = this._digest(); + void 0 !== A && (M = M.toString(A)), + this._block.fill(0); + for (var t = this._blockOffset = 0; t < 4; ++t) + this._length[t] = 0; + return M + }, + I.prototype._digest = function () { + throw new Error("_digest is not implemented") + }, + A.exports = I + }, function (A, M, t) { + (((M = A.exports = t(64)).Stream = M).Readable = M).Writable = t(68), + M.Duplex = t(20), + M.Transform = t(70), + M.PassThrough = t(129), + M.finished = t(38), + M.pipeline = t(130) + }, function (k, A, p) { + "use strict"; + (function (A, B) { + var g; + (k.exports = y).ReadableState = s; + function Q(A, M) { + return A.listeners(M).length + } + p(6).EventEmitter; + var I = p(65), + n = p(9).Buffer, + D = A.Uint8Array || function () {}; + var e, + M, + t, + i = p(124), + a = i && i.debuglog ? i.debuglog("stream") : function () {}, + T = p(125), + A = p(66), + E = p(67).getHighWaterMark, + i = p(19).codes, + C = i.ERR_INVALID_ARG_TYPE, + r = i.ERR_STREAM_PUSH_AFTER_EOF, + N = i.ERR_METHOD_NOT_IMPLEMENTED, + c = i.ERR_STREAM_UNSHIFT_AFTER_END_EVENT; + p(3)(y, I); + var h = A.errorOrDestroy, + o = ["error", "close", "destroy", "pause", "resume"]; + function s(A, M, t) { + g = g || p(20), + A = A || {}, + "boolean" != typeof t && (t = M instanceof g), + this.objectMode = !!A.objectMode, + t && (this.objectMode = this.objectMode || !!A.readableObjectMode), + this.highWaterMark = E(this, A, "readableHighWaterMark", t), + this.buffer = new T, + this.length = 0, + this.pipes = null, + this.pipesCount = 0, + this.flowing = null, + this.ended = !1, + this.endEmitted = !1, + this.reading = !1, + this.sync = !0, + this.needReadable = !1, + this.emittedReadable = !1, + this.readableListening = !1, + this.resumeScheduled = !1, + this.paused = !0, + this.emitClose = !1 !== A.emitClose, + this.autoDestroy = !!A.autoDestroy, + this.destroyed = !1, + this.defaultEncoding = A.defaultEncoding || "utf8", + this.awaitDrain = 0, + this.readingMore = !1, + this.decoder = null, + this.encoding = null, + A.encoding && (e = e || p(24).StringDecoder, this.decoder = new e(A.encoding), this.encoding = A.encoding) + } + function y(A) { + if (g = g || p(20), !(this instanceof y)) + return new y(A); + var M = this instanceof g; + this._readableState = new s(A, this, M), + this.readable = !0, + A && ("function" == typeof A.read && (this._read = A.read), "function" == typeof A.destroy && (this._destroy = A.destroy)), + I.call(this) + } + function w(A, M, t, g, I) { + a("readableAddChunk", M); + var e, + i, + T, + E, + N = A._readableState; + if (null === M) + N.reading = !1, i = A, T = N, a("onEofChunk"), T.ended || (!T.decoder || (E = T.decoder.end()) && E.length && (T.buffer.push(E), T.length += T.objectMode ? 1 : E.length), T.ended = !0, T.sync ? x(i) : (T.needReadable = !1, T.emittedReadable || (T.emittedReadable = !0, Y(i)))); + else if (I || (e = function (A, M) { + var t; + (function (A) { + return n.isBuffer(A) || A instanceof D + })(M) || "string" == typeof M || void 0 === M || A.objectMode || (t = new C("chunk", ["string", "Buffer", "Uint8Array"], M)); + return t + } + (N, M)), e) + h(A, e); + else if (N.objectMode || M && 0 < M.length) + if ("string" == typeof M || N.objectMode || Object.getPrototypeOf(M) === n.prototype || (e = M, M = n.from(e)), g) + N.endEmitted ? h(A, new c) : j(A, N, M, !0); + else if (N.ended) + h(A, new r); + else { + if (N.destroyed) + return !1; + N.reading = !1, + N.decoder && !t ? (M = N.decoder.write(M), N.objectMode || 0 !== M.length ? j(A, N, M, !1) : u(A, N)) : j(A, N, M, !1) + } + else + g || (N.reading = !1, u(A, N)); + return !N.ended && (N.length < N.highWaterMark || 0 === N.length) + } + function j(A, M, t, g) { + M.flowing && 0 === M.length && !M.sync ? (M.awaitDrain = 0, A.emit("data", t)) : (M.length += M.objectMode ? 1 : t.length, g ? M.buffer.unshift(t) : M.buffer.push(t), M.needReadable && x(A)), + u(A, M) + } + Object.defineProperty(y.prototype, "destroyed", { + enumerable: !1, + get: function () { + return void 0 !== this._readableState && this._readableState.destroyed + }, + set: function (A) { + this._readableState && (this._readableState.destroyed = A) + } + }), + y.prototype.destroy = A.destroy, + y.prototype._undestroy = A.undestroy, + y.prototype._destroy = function (A, M) { + M(A) + }, + y.prototype.push = function (A, M) { + var t, + g = this._readableState; + return g.objectMode ? t = !0 : "string" == typeof A && ((M = M || g.defaultEncoding) !== g.encoding && (A = n.from(A, M), M = ""), t = !0), + w(this, A, M, !1, t) + }, + y.prototype.unshift = function (A) { + return w(this, A, null, !0, !1) + }, + y.prototype.isPaused = function () { + return !1 === this._readableState.flowing + }, + y.prototype.setEncoding = function (A) { + var M = new(e = e || p(24).StringDecoder)(A); + this._readableState.decoder = M, + this._readableState.encoding = this._readableState.decoder.encoding; + for (var t = this._readableState.buffer.head, g = ""; null !== t; ) + g += M.write(t.data), t = t.next; + return this._readableState.buffer.clear(), + "" !== g && this._readableState.buffer.push(g), + this._readableState.length = g.length, + this + }; + var L = 1073741824; + function d(A, M) { + return A <= 0 || 0 === M.length && M.ended ? 0 : M.objectMode ? 1 : A != A ? (M.flowing && M.length ? M.buffer.head.data : M).length : (A > M.highWaterMark && (M.highWaterMark = (L <= (t = A) ? t = L : (t--, t |= t >>> 1, t |= t >>> 2, t |= t >>> 4, t |= t >>> 8, t |= t >>> 16, t++), t)), A <= M.length ? A : M.ended ? M.length : (M.needReadable = !0, 0)); + var t + } + function x(A) { + var M = A._readableState; + a("emitReadable", M.needReadable, M.emittedReadable), + M.needReadable = !1, + M.emittedReadable || (a("emitReadable", M.flowing), M.emittedReadable = !0, B.nextTick(Y, A)) + } + function Y(A) { + var M = A._readableState; + a("emitReadable_", M.destroyed, M.length, M.ended), + M.destroyed || !M.length && !M.ended || (A.emit("readable"), M.emittedReadable = !1), + M.needReadable = !M.flowing && !M.ended && M.length <= M.highWaterMark, + f(A) + } + function u(A, M) { + M.readingMore || (M.readingMore = !0, B.nextTick(S, A, M)) + } + function S(A, M) { + for (; !M.reading && !M.ended && (M.length < M.highWaterMark || M.flowing && 0 === M.length); ) { + var t = M.length; + if (a("maybeReadMore read 0"), A.read(0), t === M.length) + break + } + M.readingMore = !1 + } + function z(A) { + var M = A._readableState; + M.readableListening = 0 < A.listenerCount("readable"), + M.resumeScheduled && !M.paused ? M.flowing = !0 : 0 < A.listenerCount("data") && A.resume() + } + function l(A) { + a("readable nexttick read 0"), + A.read(0) + } + function U(A, M) { + a("resume", M.reading), + M.reading || A.read(0), + M.resumeScheduled = !1, + A.emit("resume"), + f(A), + M.flowing && !M.reading && A.read(0) + } + function f(A) { + var M = A._readableState; + for (a("flow", M.flowing); M.flowing && null !== A.read(); ); + } + function O(A, M) { + return 0 === M.length ? null : (M.objectMode ? t = M.buffer.shift() : !A || A >= M.length ? (t = M.decoder ? M.buffer.join("") : 1 === M.buffer.length ? M.buffer.first() : M.buffer.concat(M.length), M.buffer.clear()) : t = M.buffer.consume(A, M.decoder), t); + var t + } + function m(A) { + var M = A._readableState; + a("endReadable", M.endEmitted), + M.endEmitted || (M.ended = !0, B.nextTick(F, M, A)) + } + function F(A, M) { + a("endReadableNT", A.endEmitted, A.length), + A.endEmitted || 0 !== A.length || (A.endEmitted = !0, M.readable = !1, M.emit("end"), !A.autoDestroy || (!(A = M._writableState) || A.autoDestroy && A.finished) && M.destroy()) + } + function R(A, M) { + for (var t = 0, g = A.length; t < g; t++) + if (A[t] === M) + return t; + return -1 + } + y.prototype.read = function (A) { + a("read", A), + A = parseInt(A, 10); + var M = this._readableState, + t = A; + if (0 !== A && (M.emittedReadable = !1), 0 === A && M.needReadable && ((0 !== M.highWaterMark ? M.length >= M.highWaterMark : 0 < M.length) || M.ended)) + return a("read: emitReadable", M.length, M.ended), (0 === M.length && M.ended ? m : x)(this), null; + if (0 === (A = d(A, M)) && M.ended) + return 0 === M.length && m(this), null; + var g = M.needReadable; + return a("need readable", g), + (0 === M.length || M.length - A < M.highWaterMark) && a("length less than watermark", g = !0), + M.ended || M.reading ? a("reading or ended", g = !1) : g && (a("do read"), M.reading = !0, M.sync = !0, 0 === M.length && (M.needReadable = !0), this._read(M.highWaterMark), M.sync = !1, M.reading || (A = d(t, M))), + null === (g = 0 < A ? O(A, M) : null) ? (M.needReadable = M.length <= M.highWaterMark, A = 0) : (M.length -= A, M.awaitDrain = 0), + 0 === M.length && (M.ended || (M.needReadable = !0), t !== A && M.ended && m(this)), + null !== g && this.emit("data", g), + g + }, + y.prototype._read = function (A) { + h(this, new N("_read()")) + }, + y.prototype.pipe = function (t, A) { + var g = this, + I = this._readableState; + switch (I.pipesCount) { + case 0: + I.pipes = t; + break; + case 1: + I.pipes = [I.pipes, t]; + break; + default: + I.pipes.push(t) + } + I.pipesCount += 1, + a("pipe count=%d opts=%j", I.pipesCount, A); + var M = (!A || !1 !== A.end) && t !== B.stdout && t !== B.stderr ? i : o; + function e(A, M) { + a("onunpipe"), + A === g && M && !1 === M.hasUnpiped && (M.hasUnpiped = !0, a("cleanup"), t.removeListener("close", r), t.removeListener("finish", c), t.removeListener("drain", E), t.removeListener("error", C), t.removeListener("unpipe", e), g.removeListener("end", i), g.removeListener("end", o), g.removeListener("data", D), n = !0, !I.awaitDrain || t._writableState && !t._writableState.needDrain || E()) + } + function i() { + a("onend"), + t.end() + } + I.endEmitted ? B.nextTick(M) : g.once("end", M), + t.on("unpipe", e); + var T, + E = (T = g, function () { + var A = T._readableState; + a("pipeOnDrain", A.awaitDrain), + A.awaitDrain && A.awaitDrain--, + 0 === A.awaitDrain && Q(T, "data") && (A.flowing = !0, f(T)) + }); + t.on("drain", E); + var N, + n = !1; + function D(A) { + a("ondata"); + A = t.write(A); + a("dest.write", A), + !1 === A && ((1 === I.pipesCount && I.pipes === t || 1 < I.pipesCount && -1 !== R(I.pipes, t)) && !n && (a("false write response, pause", I.awaitDrain), I.awaitDrain++), g.pause()) + } + function C(A) { + a("onerror", A), + o(), + t.removeListener("error", C), + 0 === Q(t, "error") && h(t, A) + } + function r() { + t.removeListener("finish", c), + o() + } + function c() { + a("onfinish"), + t.removeListener("close", r), + o() + } + function o() { + a("unpipe"), + g.unpipe(t) + } + return g.on("data", D), + N = "error", + A = C, + "function" == typeof(M = t).prependListener ? M.prependListener(N, A) : M._events && M._events[N] ? Array.isArray(M._events[N]) ? M._events[N].unshift(A) : M._events[N] = [A, M._events[N]] : M.on(N, A), + t.once("close", r), + t.once("finish", c), + t.emit("pipe", g), + I.flowing || (a("pipe resume"), g.resume()), + t + }, + y.prototype.unpipe = function (A) { + var M = this._readableState, + t = { + hasUnpiped: !1 + }; + if (0 === M.pipesCount) + return this; + if (1 === M.pipesCount) + return A && A !== M.pipes || (A = A || M.pipes, M.pipes = null, M.pipesCount = 0, M.flowing = !1, A && A.emit("unpipe", this, t)), this; + if (!A) { + var g = M.pipes, + I = M.pipesCount; + M.pipes = null, + M.pipesCount = 0, + M.flowing = !1; + for (var e = 0; e < I; e++) + g[e].emit("unpipe", this, { + hasUnpiped: !1 + }); + return this + } + var i = R(M.pipes, A); + return -1 === i || (M.pipes.splice(i, 1), --M.pipesCount, 1 === M.pipesCount && (M.pipes = M.pipes[0]), A.emit("unpipe", this, t)), + this + }, + y.prototype.addListener = y.prototype.on = function (A, M) { + var t = I.prototype.on.call(this, A, M), + M = this._readableState; + return "data" === A ? (M.readableListening = 0 < this.listenerCount("readable"), !1 !== M.flowing && this.resume()) : "readable" === A && (M.endEmitted || M.readableListening || (M.readableListening = M.needReadable = !0, M.flowing = !1, M.emittedReadable = !1, a("on readable", M.length, M.reading), M.length ? x(this) : M.reading || B.nextTick(l, this))), + t + }, + y.prototype.removeListener = function (A, M) { + M = I.prototype.removeListener.call(this, A, M); + return "readable" === A && B.nextTick(z, this), + M + }, + y.prototype.removeAllListeners = function (A) { + var M = I.prototype.removeAllListeners.apply(this, arguments); + return "readable" !== A && void 0 !== A || B.nextTick(z, this), + M + }, + y.prototype.resume = function () { + var A, + M, + t = this._readableState; + return t.flowing || (a("resume"), t.flowing = !t.readableListening, A = this, (M = t).resumeScheduled || (M.resumeScheduled = !0, B.nextTick(U, A, M))), + t.paused = !1, + this + }, + y.prototype.pause = function () { + return a("call pause flowing=%j", this._readableState.flowing), + !1 !== this._readableState.flowing && (a("pause"), this._readableState.flowing = !1, this.emit("pause")), + this._readableState.paused = !0, + this + }, + y.prototype.wrap = function (M) { + var A, + t = this, + g = this._readableState, + I = !1; + for (A in M.on("end", function () { + var A; + a("wrapped end"), + !g.decoder || g.ended || (A = g.decoder.end()) && A.length && t.push(A), + t.push(null) + }), M.on("data", function (A) { + a("wrapped data"), + g.decoder && (A = g.decoder.write(A)), + g.objectMode && null == A || (g.objectMode || A && A.length) && (t.push(A) || (I = !0, M.pause())) + }), M) + void 0 === this[A] && "function" == typeof M[A] && (this[A] = function (A) { + return function () { + return M[A].apply(M, arguments) + } + } + (A)); + for (var e = 0; e < o.length; e++) + M.on(o[e], this.emit.bind(this, o[e])); + return this._read = function (A) { + a("wrapped _read", A), + I && (I = !1, M.resume()) + }, + this + }, + "function" == typeof Symbol && (y.prototype[Symbol.asyncIterator] = function () { + return void 0 === M && (M = p(127)), + M(this) + }), + Object.defineProperty(y.prototype, "readableHighWaterMark", { + enumerable: !1, + get: function () { + return this._readableState.highWaterMark + } + }), + Object.defineProperty(y.prototype, "readableBuffer", { + enumerable: !1, + get: function () { + return this._readableState && this._readableState.buffer + } + }), + Object.defineProperty(y.prototype, "readableFlowing", { + enumerable: !1, + get: function () { + return this._readableState.flowing + }, + set: function (A) { + this._readableState && (this._readableState.flowing = A) + } + }), + y._fromList = O, + Object.defineProperty(y.prototype, "readableLength", { + enumerable: !1, + get: function () { + return this._readableState.length + } + }), + "function" == typeof Symbol && (y.from = function (A, M) { + return void 0 === t && (t = p(128)), + t(y, A, M) + }) + }).call(this, p(10), p(8)) + }, function (A, M, t) { + A.exports = t(6).EventEmitter + }, function (A, M, t) { + "use strict"; + (function (e) { + function i(A, M) { + E(A, M), + T(A) + } + function T(A) { + A._writableState && !A._writableState.emitClose || A._readableState && !A._readableState.emitClose || A.emit("close") + } + function E(A, M) { + A.emit("error", M) + } + A.exports = { + destroy: function (A, M) { + var t = this, + g = this._readableState && this._readableState.destroyed, + I = this._writableState && this._writableState.destroyed; + return g || I ? M ? M(A) : A && (this._writableState ? this._writableState.errorEmitted || (this._writableState.errorEmitted = !0, e.nextTick(E, this, A)) : e.nextTick(E, this, A)) : (this._readableState && (this._readableState.destroyed = !0), this._writableState && (this._writableState.destroyed = !0), this._destroy(A || null, function (A) { + !M && A ? t._writableState ? t._writableState.errorEmitted ? e.nextTick(T, t) : (t._writableState.errorEmitted = !0, e.nextTick(i, t, A)) : e.nextTick(i, t, A) : M ? (e.nextTick(T, t), M(A)) : e.nextTick(T, t) + })), + this + }, + undestroy: function () { + this._readableState && (this._readableState.destroyed = !1, this._readableState.reading = !1, this._readableState.ended = !1, this._readableState.endEmitted = !1), + this._writableState && (this._writableState.destroyed = !1, this._writableState.ended = !1, this._writableState.ending = !1, this._writableState.finalCalled = !1, this._writableState.prefinished = !1, this._writableState.finished = !1, this._writableState.errorEmitted = !1) + }, + errorOrDestroy: function (A, M) { + var t = A._readableState, + g = A._writableState; + t && t.autoDestroy || g && g.autoDestroy ? A.destroy(M) : A.emit("error", M) + } + } + }).call(this, t(8)) + }, function (A, M, t) { + "use strict"; + var i = t(19).codes.ERR_INVALID_OPT_VALUE; + A.exports = { + getHighWaterMark: function (A, M, t, g) { + var I, + e = (I = g, e = t, null != (M = M).highWaterMark ? M.highWaterMark : I ? M[e] : null); + if (null == e) + return A.objectMode ? 16 : 16384; + if (!isFinite(e) || Math.floor(e) !== e || e < 0) + throw new i(g ? t : "highWaterMark", e); + return Math.floor(e) + } + } + }, function (S, A, z) { + "use strict"; + (function (A, D) { + function n(A) { + var M = this; + this.next = null, + this.entry = null, + this.finish = function () { + !function (A, M, t) { + var g = A.entry; + for (A.entry = null; g; ) { + var I = g.callback; + M.pendingcb--, + I(t), + g = g.next + } + M.corkedRequestsFree.next = A + } + (M, A) + } + } + var g; + (S.exports = w).WritableState = y; + var M = { + deprecate: z(69) + }, + t = z(65), + C = z(9).Buffer, + r = A.Uint8Array || function () {}; + var I, + e = z(66), + i = z(67).getHighWaterMark, + A = z(19).codes, + c = A.ERR_INVALID_ARG_TYPE, + T = A.ERR_METHOD_NOT_IMPLEMENTED, + E = A.ERR_MULTIPLE_CALLBACK, + N = A.ERR_STREAM_CANNOT_PIPE, + o = A.ERR_STREAM_DESTROYED, + B = A.ERR_STREAM_NULL_VALUES, + Q = A.ERR_STREAM_WRITE_AFTER_END, + a = A.ERR_UNKNOWN_ENCODING, + h = e.errorOrDestroy; + function s() {} + function y(A, M, t) { + g = g || z(20), + A = A || {}, + "boolean" != typeof t && (t = M instanceof g), + this.objectMode = !!A.objectMode, + t && (this.objectMode = this.objectMode || !!A.writableObjectMode), + this.highWaterMark = i(this, A, "writableHighWaterMark", t), + this.finalCalled = !1, + this.needDrain = !1, + this.ending = !1, + this.ended = !1, + this.finished = !1; + t = (this.destroyed = !1) === A.decodeStrings; + this.decodeStrings = !t, + this.defaultEncoding = A.defaultEncoding || "utf8", + this.length = 0, + this.writing = !1, + this.corked = 0, + this.sync = !0, + this.bufferProcessing = !1, + this.onwrite = function (A) { + !function (A, M) { + var t = A._writableState, + g = t.sync, + I = t.writecb; + if ("function" != typeof I) + throw new E; + (function (A) { + A.writing = !1, + A.writecb = null, + A.length -= A.writelen, + A.writelen = 0 + })(t), + M ? function (A, M, t, g, I) { + --M.pendingcb, + t ? (D.nextTick(I, g), D.nextTick(u, A, M), A._writableState.errorEmitted = !0, h(A, g)) : (I(g), A._writableState.errorEmitted = !0, h(A, g), u(A, M)) + } + (A, t, g, M, I) : ((M = x(t) || A.destroyed) || t.corked || t.bufferProcessing || !t.bufferedRequest || d(A, t), g ? D.nextTick(L, A, t, M, I) : L(A, t, M, I)) + } + (M, A) + }, + this.writecb = null, + this.writelen = 0, + this.bufferedRequest = null, + this.lastBufferedRequest = null, + this.pendingcb = 0, + this.prefinished = !1, + this.errorEmitted = !1, + this.emitClose = !1 !== A.emitClose, + this.autoDestroy = !!A.autoDestroy, + this.bufferedRequestCount = 0, + this.corkedRequestsFree = new n(this) + } + function w(A) { + var M = this instanceof(g = g || z(20)); + if (!M && !I.call(w, this)) + return new w(A); + this._writableState = new y(A, this, M), + this.writable = !0, + A && ("function" == typeof A.write && (this._write = A.write), "function" == typeof A.writev && (this._writev = A.writev), "function" == typeof A.destroy && (this._destroy = A.destroy), "function" == typeof A.final && (this._final = A.final)), + t.call(this) + } + function j(A, M, t, g, I, e, i) { + M.writelen = g, + M.writecb = i, + M.writing = !0, + M.sync = !0, + M.destroyed ? M.onwrite(new o("write")) : t ? A._writev(I, M.onwrite) : A._write(I, e, M.onwrite), + M.sync = !1 + } + function L(A, M, t, g) { + var I; + t || (I = A, 0 === (t = M).length && t.needDrain && (t.needDrain = !1, I.emit("drain"))), + M.pendingcb--, + g(), + u(A, M) + } + function d(A, M) { + M.bufferProcessing = !0; + var t = M.bufferedRequest; + if (A._writev && t && t.next) { + var g = M.bufferedRequestCount, + I = new Array(g), + g = M.corkedRequestsFree; + g.entry = t; + for (var e = 0, i = !0; t; ) + (I[e] = t).isBuf || (i = !1), t = t.next, e += 1; + I.allBuffers = i, + j(A, M, !0, M.length, I, "", g.finish), + M.pendingcb++, + M.lastBufferedRequest = null, + g.next ? (M.corkedRequestsFree = g.next, g.next = null) : M.corkedRequestsFree = new n(M), + M.bufferedRequestCount = 0 + } else { + for (; t; ) { + var T = t.chunk, + E = t.encoding, + N = t.callback; + if (j(A, M, !1, M.objectMode ? 1 : T.length, T, E, N), t = t.next, M.bufferedRequestCount--, M.writing) + break + } + null === t && (M.lastBufferedRequest = null) + } + M.bufferedRequest = t, + M.bufferProcessing = !1 + } + function x(A) { + return A.ending && 0 === A.length && null === A.bufferedRequest && !A.finished && !A.writing + } + function Y(M, t) { + M._final(function (A) { + t.pendingcb--, + A && h(M, A), + t.prefinished = !0, + M.emit("prefinish"), + u(M, t) + }) + } + function u(A, M) { + var t, + g, + I = x(M); + return I && (t = A, (g = M).prefinished || g.finalCalled || ("function" != typeof t._final || g.destroyed ? (g.prefinished = !0, t.emit("prefinish")) : (g.pendingcb++, g.finalCalled = !0, D.nextTick(Y, t, g))), 0 === M.pendingcb && (M.finished = !0, A.emit("finish"), !M.autoDestroy || (!(M = A._readableState) || M.autoDestroy && M.endEmitted) && A.destroy())), + I + } + z(3)(w, t), + y.prototype.getBuffer = function () { + for (var A = this.bufferedRequest, M = []; A; ) + M.push(A), A = A.next; + return M + }, + function () { + try { + Object.defineProperty(y.prototype, "buffer", { + get: M.deprecate(function () { + return this.getBuffer() + }, "_writableState.buffer is deprecated. Use _writableState.getBuffer instead.", "DEP0003") + }) + } catch (A) {} + } + (), + "function" == typeof Symbol && Symbol.hasInstance && "function" == typeof Function.prototype[Symbol.hasInstance] ? (I = Function.prototype[Symbol.hasInstance], Object.defineProperty(w, Symbol.hasInstance, { + value: function (A) { + return !!I.call(this, A) || this === w && (A && A._writableState instanceof y) + } + })) : I = function (A) { + return A instanceof this + }, + w.prototype.pipe = function () { + h(this, new N) + }, + w.prototype.write = function (A, M, t) { + var g, + I, + e, + i, + T, + E, + N = this._writableState, + n = !1, + g = !N.objectMode && (g = A, C.isBuffer(g) || g instanceof r); + return g && !C.isBuffer(A) && (I = A, A = C.from(I)), + "function" == typeof M && (t = M, M = null), + M = g ? "buffer" : M || N.defaultEncoding, + "function" != typeof t && (t = s), + N.ending ? (i = this, T = t, E = new Q, h(i, E), D.nextTick(T, E)) : (g || (I = this, i = N, T = t, null === (E = A) ? e = new B : "string" == typeof E || i.objectMode || (e = new c("chunk", ["string", "Buffer"], E)), e ? (h(I, e), void D.nextTick(T, e)) : 1)) && (N.pendingcb++, n = function (A, M, t, g, I, e) { + t || (E = function (A, M, t) { + A.objectMode || !1 === A.decodeStrings || "string" != typeof M || (M = C.from(M, t)); + return M + } + (M, g, I), g !== E && (t = !0, I = "buffer", g = E)); + var i = M.objectMode ? 1 : g.length; + M.length += i; + var T = M.length < M.highWaterMark; + T || (M.needDrain = !0); { + var E; + M.writing || M.corked ? (E = M.lastBufferedRequest, M.lastBufferedRequest = { + chunk: g, + encoding: I, + isBuf: t, + callback: e, + next: null + }, E ? E.next = M.lastBufferedRequest : M.bufferedRequest = M.lastBufferedRequest, M.bufferedRequestCount += 1) : j(A, M, !1, i, g, I, e) + } + return T + } + (this, N, g, A, M, t)), + n + }, + w.prototype.cork = function () { + this._writableState.corked++ + }, + w.prototype.uncork = function () { + var A = this._writableState; + A.corked && (A.corked--, A.writing || A.corked || A.bufferProcessing || !A.bufferedRequest || d(this, A)) + }, + w.prototype.setDefaultEncoding = function (A) { + if ("string" == typeof A && (A = A.toLowerCase()), !(-1 < ["hex", "utf8", "utf-8", "ascii", "binary", "base64", "ucs2", "ucs-2", "utf16le", "utf-16le", "raw"].indexOf((A + "").toLowerCase()))) + throw new a(A); + return this._writableState.defaultEncoding = A, + this + }, + Object.defineProperty(w.prototype, "writableBuffer", { + enumerable: !1, + get: function () { + return this._writableState && this._writableState.getBuffer() + } + }), + Object.defineProperty(w.prototype, "writableHighWaterMark", { + enumerable: !1, + get: function () { + return this._writableState.highWaterMark + } + }), + w.prototype._write = function (A, M, t) { + t(new T("_write()")) + }, + w.prototype._writev = null, + w.prototype.end = function (A, M, t) { + var g = this._writableState; + return "function" == typeof A ? (t = A, M = A = null) : "function" == typeof M && (t = M, M = null), + null != A && this.write(A, M), + g.corked && (g.corked = 1, this.uncork()), + g.ending || (M = this, t = t, (g = g).ending = !0, u(M, g), t && (g.finished ? D.nextTick(t) : M.once("finish", t)), g.ended = !0, M.writable = !1), + this + }, + Object.defineProperty(w.prototype, "writableLength", { + enumerable: !1, + get: function () { + return this._writableState.length + } + }), + Object.defineProperty(w.prototype, "destroyed", { + enumerable: !1, + get: function () { + return void 0 !== this._writableState && this._writableState.destroyed + }, + set: function (A) { + this._writableState && (this._writableState.destroyed = A) + } + }), + w.prototype.destroy = e.destroy, + w.prototype._undestroy = e.undestroy, + w.prototype._destroy = function (A, M) { + M(A) + } + }).call(this, z(10), z(8)) + }, function (A, M, t) { + (function (M) { + function g(A) { + try { + if (!M.localStorage) + return + } catch (A) { + return + } + A = M.localStorage[A]; + return null != A && "true" === String(A).toLowerCase() + } + A.exports = function (A, M) { + if (g("noDeprecation")) + return A; + var t = !1; + return function () { + if (!t) { + if (g("throwDeprecation")) + throw new Error(M); + g("traceDeprecation"), + t = !0 + } + return A.apply(this, arguments) + } + } + }).call(this, t(10)) + }, function (A, M, t) { + "use strict"; + A.exports = E; + var A = t(19).codes, + g = A.ERR_METHOD_NOT_IMPLEMENTED, + I = A.ERR_MULTIPLE_CALLBACK, + e = A.ERR_TRANSFORM_ALREADY_TRANSFORMING, + i = A.ERR_TRANSFORM_WITH_LENGTH_0, + T = t(20); + function E(A) { + if (!(this instanceof E)) + return new E(A); + T.call(this, A), + this._transformState = { + afterTransform: function (A, M) { + var t = this._transformState; + t.transforming = !1; + var g = t.writecb; + if (null === g) + return this.emit("error", new I); + t.writechunk = null, + (t.writecb = null) != M && this.push(M), + g(A), + (A = this._readableState).reading = !1, + (A.needReadable || A.length < A.highWaterMark) && this._read(A.highWaterMark) + } + .bind(this), + needTransform: !1, + transforming: !1, + writecb: null, + writechunk: null, + writeencoding: null + }, + this._readableState.needReadable = !0, + this._readableState.sync = !1, + A && ("function" == typeof A.transform && (this._transform = A.transform), "function" == typeof A.flush && (this._flush = A.flush)), + this.on("prefinish", N) + } + function N() { + var t = this; + "function" != typeof this._flush || this._readableState.destroyed ? n(this, null, null) : this._flush(function (A, M) { + n(t, A, M) + }) + } + function n(A, M, t) { + if (M) + return A.emit("error", M); + if (null != t && A.push(t), A._writableState.length) + throw new i; + if (A._transformState.transforming) + throw new e; + return A.push(null) + } + t(3)(E, T), + E.prototype.push = function (A, M) { + return this._transformState.needTransform = !1, + T.prototype.push.call(this, A, M) + }, + E.prototype._transform = function (A, M, t) { + t(new g("_transform()")) + }, + E.prototype._write = function (A, M, t) { + var g = this._transformState; + g.writecb = t, + g.writechunk = A, + g.writeencoding = M, + g.transforming || (M = this._readableState, (g.needTransform || M.needReadable || M.length < M.highWaterMark) && this._read(M.highWaterMark)) + }, + E.prototype._read = function (A) { + var M = this._transformState; + null === M.writechunk || M.transforming ? M.needTransform = !0 : (M.transforming = !0, this._transform(M.writechunk, M.writeencoding, M.afterTransform)) + }, + E.prototype._destroy = function (A, M) { + T.prototype._destroy.call(this, A, function (A) { + M(A) + }) + } + }, function (A, M, t) { + var g = t(3), + I = t(21), + e = t(4).Buffer, + B = [1116352408, 1899447441, 3049323471, 3921009573, 961987163, 1508970993, 2453635748, 2870763221, 3624381080, 310598401, 607225278, 1426881987, 1925078388, 2162078206, 2614888103, 3248222580, 3835390401, 4022224774, 264347078, 604807628, 770255983, 1249150122, 1555081692, 1996064986, 2554220882, 2821834349, 2952996808, 3210313671, 3336571891, 3584528711, 113926993, 338241895, 666307205, 773529912, 1294757372, 1396182291, 1695183700, 1986661051, 2177026350, 2456956037, 2730485921, 2820302411, 3259730800, 3345764771, 3516065817, 3600352804, 4094571909, 275423344, 430227734, 506948616, 659060556, 883997877, 958139571, 1322822218, 1537002063, 1747873779, 1955562222, 2024104815, 2227730452, 2361852424, 2428436474, 2756734187, 3204031479, 3329325298], + i = new Array(64); + function T() { + this.init(), + this._w = i, + I.call(this, 64, 56) + } + g(T, I), + T.prototype.init = function () { + return this._a = 1779033703, + this._b = 3144134277, + this._c = 1013904242, + this._d = 2773480762, + this._e = 1359893119, + this._f = 2600822924, + this._g = 528734635, + this._h = 1541459225, + this + }, + T.prototype._update = function (A) { + for (var M, t = this._w, g = 0 | this._a, I = 0 | this._b, e = 0 | this._c, i = 0 | this._d, T = 0 | this._e, E = 0 | this._f, N = 0 | this._g, n = 0 | this._h, D = 0; D < 16; ++D) + t[D] = A.readInt32BE(4 * D); + for (; D < 64; ++D) + t[D] = 0 | (((M = t[D - 2]) >>> 17 | M << 15) ^ (M >>> 19 | M << 13) ^ M >>> 10) + t[D - 7] + (((M = t[D - 15]) >>> 7 | M << 25) ^ (M >>> 18 | M << 14) ^ M >>> 3) + t[D - 16]; + for (var C, r = 0; r < 64; ++r) + var c = n + (((o = T) >>> 6 | o << 26) ^ (o >>> 11 | o << 21) ^ (o >>> 25 | o << 7)) + ((C = N) ^ T & (E ^ C)) + B[r] + t[r] | 0, o = 0 | (((o = g) >>> 2 | o << 30) ^ (o >>> 13 | o << 19) ^ (o >>> 22 | o << 10)) + ((C = g) & (o = I) | e & (C | o)), n = N, N = E, E = T, T = i + c | 0, i = e, e = I, I = g, g = c + o | 0; + this._a = g + this._a | 0, + this._b = I + this._b | 0, + this._c = e + this._c | 0, + this._d = i + this._d | 0, + this._e = T + this._e | 0, + this._f = E + this._f | 0, + this._g = N + this._g | 0, + this._h = n + this._h | 0 + }, + T.prototype._hash = function () { + var A = e.allocUnsafe(32); + return A.writeInt32BE(this._a, 0), + A.writeInt32BE(this._b, 4), + A.writeInt32BE(this._c, 8), + A.writeInt32BE(this._d, 12), + A.writeInt32BE(this._e, 16), + A.writeInt32BE(this._f, 20), + A.writeInt32BE(this._g, 24), + A.writeInt32BE(this._h, 28), + A + }, + A.exports = T + }, function (A, M, t) { + var g = t(3), + I = t(21), + e = t(4).Buffer, + p = [1116352408, 3609767458, 1899447441, 602891725, 3049323471, 3964484399, 3921009573, 2173295548, 961987163, 4081628472, 1508970993, 3053834265, 2453635748, 2937671579, 2870763221, 3664609560, 3624381080, 2734883394, 310598401, 1164996542, 607225278, 1323610764, 1426881987, 3590304994, 1925078388, 4068182383, 2162078206, 991336113, 2614888103, 633803317, 3248222580, 3479774868, 3835390401, 2666613458, 4022224774, 944711139, 264347078, 2341262773, 604807628, 2007800933, 770255983, 1495990901, 1249150122, 1856431235, 1555081692, 3175218132, 1996064986, 2198950837, 2554220882, 3999719339, 2821834349, 766784016, 2952996808, 2566594879, 3210313671, 3203337956, 3336571891, 1034457026, 3584528711, 2466948901, 113926993, 3758326383, 338241895, 168717936, 666307205, 1188179964, 773529912, 1546045734, 1294757372, 1522805485, 1396182291, 2643833823, 1695183700, 2343527390, 1986661051, 1014477480, 2177026350, 1206759142, 2456956037, 344077627, 2730485921, 1290863460, 2820302411, 3158454273, 3259730800, 3505952657, 3345764771, 106217008, 3516065817, 3606008344, 3600352804, 1432725776, 4094571909, 1467031594, 275423344, 851169720, 430227734, 3100823752, 506948616, 1363258195, 659060556, 3750685593, 883997877, 3785050280, 958139571, 3318307427, 1322822218, 3812723403, 1537002063, 2003034995, 1747873779, 3602036899, 1955562222, 1575990012, 2024104815, 1125592928, 2227730452, 2716904306, 2361852424, 442776044, 2428436474, 593698344, 2756734187, 3733110249, 3204031479, 2999351573, 3329325298, 3815920427, 3391569614, 3928383900, 3515267271, 566280711, 3940187606, 3454069534, 4118630271, 4000239992, 116418474, 1914138554, 174292421, 2731055270, 289380356, 3203993006, 460393269, 320620315, 685471733, 587496836, 852142971, 1086792851, 1017036298, 365543100, 1126000580, 2618297676, 1288033470, 3409855158, 1501505948, 4234509866, 1607167915, 987167468, 1816402316, 1246189591], + i = new Array(160); + function T() { + this.init(), + this._w = i, + I.call(this, 128, 112) + } + function b(A, M, t) { + return t ^ A & (M ^ t) + } + function G(A, M, t) { + return A & M | t & (A | M) + } + function J(A, M) { + return (A >>> 28 | M << 4) ^ (M >>> 2 | A << 30) ^ (M >>> 7 | A << 25) + } + function H(A, M) { + return (A >>> 14 | M << 18) ^ (A >>> 18 | M << 14) ^ (M >>> 9 | A << 23) + } + function X(A, M) { + return A >>> 0 < M >>> 0 ? 1 : 0 + } + g(T, I), + T.prototype.init = function () { + return this._ah = 1779033703, + this._bh = 3144134277, + this._ch = 1013904242, + this._dh = 2773480762, + this._eh = 1359893119, + this._fh = 2600822924, + this._gh = 528734635, + this._hh = 1541459225, + this._al = 4089235720, + this._bl = 2227873595, + this._cl = 4271175723, + this._dl = 1595750129, + this._el = 2917565137, + this._fl = 725511199, + this._gl = 4215389547, + this._hl = 327033209, + this + }, + T.prototype._update = function (A) { + for (var M = this._w, t = 0 | this._ah, g = 0 | this._bh, I = 0 | this._ch, e = 0 | this._dh, i = 0 | this._eh, T = 0 | this._fh, E = 0 | this._gh, N = 0 | this._hh, n = 0 | this._al, D = 0 | this._bl, C = 0 | this._cl, r = 0 | this._dl, c = 0 | this._el, o = 0 | this._fl, B = 0 | this._gl, Q = 0 | this._hl, a = 0; a < 32; a += 2) + M[a] = A.readInt32BE(4 * a), M[a + 1] = A.readInt32BE(4 * a + 4); + for (; a < 160; a += 2) { + var h = M[a - 30], + s = M[a - 30 + 1], + y = ((x = h) >>> 1 | (L = s) << 31) ^ (x >>> 8 | L << 24) ^ x >>> 7, + w = ((j = s) >>> 1 | (d = h) << 31) ^ (j >>> 8 | d << 24) ^ (j >>> 7 | d << 25), + h = M[a - 4], + s = M[a - 4 + 1], + j = ((L = h) >>> 19 | (x = s) << 13) ^ (x >>> 29 | L << 3) ^ L >>> 6, + L = ((d = s) >>> 19 | (x = h) << 13) ^ (x >>> 29 | d << 3) ^ (d >>> 6 | x << 26), + s = M[a - 14], + h = M[a - 14 + 1], + d = M[a - 32], + x = M[a - 32 + 1], + Y = w + h | 0, + u = y + s + X(Y, w) | 0; + u = (u = u + j + X(Y = Y + L | 0, L) | 0) + d + X(Y = Y + x | 0, x) | 0, + M[a] = u, + M[a + 1] = Y + } + for (var S = 0; S < 160; S += 2) { + u = M[S], + Y = M[S + 1]; + var z = G(t, g, I), + l = G(n, D, C), + U = J(t, n), + f = J(n, t), + O = H(i, c), + m = H(c, i), + F = p[S + 1], + R = b(i, T, E), + k = b(c, o, B), + m = Q + m | 0, + O = N + O + X(m, Q) | 0; + O = (O = (O = O + R + X(m = m + k | 0, k) | 0) + p[S] + X(m = m + F | 0, F) | 0) + u + X(m = m + Y | 0, Y) | 0; + l = f + l | 0, + f = U + z + X(l, f) | 0, + N = E, + Q = B, + E = T, + B = o, + T = i, + o = c, + i = e + O + X(c = r + m | 0, r) | 0, + e = I, + r = C, + I = g, + C = D, + g = t, + D = n, + t = O + f + X(n = m + l | 0, m) | 0 + } + this._al = this._al + n | 0, + this._bl = this._bl + D | 0, + this._cl = this._cl + C | 0, + this._dl = this._dl + r | 0, + this._el = this._el + c | 0, + this._fl = this._fl + o | 0, + this._gl = this._gl + B | 0, + this._hl = this._hl + Q | 0, + this._ah = this._ah + t + X(this._al, n) | 0, + this._bh = this._bh + g + X(this._bl, D) | 0, + this._ch = this._ch + I + X(this._cl, C) | 0, + this._dh = this._dh + e + X(this._dl, r) | 0, + this._eh = this._eh + i + X(this._el, c) | 0, + this._fh = this._fh + T + X(this._fl, o) | 0, + this._gh = this._gh + E + X(this._gl, B) | 0, + this._hh = this._hh + N + X(this._hl, Q) | 0 + }, + T.prototype._hash = function () { + var g = e.allocUnsafe(64); + function A(A, M, t) { + g.writeInt32BE(A, t), + g.writeInt32BE(M, t + 4) + } + return A(this._ah, this._al, 0), + A(this._bh, this._bl, 8), + A(this._ch, this._cl, 16), + A(this._dh, this._dl, 24), + A(this._eh, this._el, 32), + A(this._fh, this._fl, 40), + A(this._gh, this._gl, 48), + A(this._hh, this._hl, 56), + g + }, + A.exports = T + }, function (l, A, U) { + "use strict"; + (function (A, Q) { + var a = U(31); + l.exports = I; + var e, + h = U(60); + I.ReadableState = g; + function s(A, M) { + return A.listeners(M).length + } + U(6).EventEmitter; + var t = U(74), + n = U(42).Buffer, + D = A.Uint8Array || function () {}; + var M = Object.create(U(25)); + M.inherits = U(3); + var i, + A = U(136), + y = void 0, + y = A && A.debuglog ? A.debuglog("stream") : function () {}, + T = U(137), + A = U(75); + M.inherits(I, t); + var E = ["error", "close", "destroy", "pause", "resume"]; + function g(A, M) { + A = A || {}; + var t = M instanceof(e = e || U(16)); + this.objectMode = !!A.objectMode, + t && (this.objectMode = this.objectMode || !!A.readableObjectMode); + var g = A.highWaterMark, + I = A.readableHighWaterMark, + M = this.objectMode ? 16 : 16384; + this.highWaterMark = g || 0 === g ? g : t && (I || 0 === I) ? I : M, + this.highWaterMark = Math.floor(this.highWaterMark), + this.buffer = new T, + this.length = 0, + this.pipes = null, + this.pipesCount = 0, + this.flowing = null, + this.ended = !1, + this.endEmitted = !1, + this.reading = !1, + this.sync = !0, + this.needReadable = !1, + this.emittedReadable = !1, + this.readableListening = !1, + this.resumeScheduled = !1, + this.destroyed = !1, + this.defaultEncoding = A.defaultEncoding || "utf8", + this.awaitDrain = 0, + this.readingMore = !1, + this.decoder = null, + this.encoding = null, + A.encoding && (i = i || U(24).StringDecoder, this.decoder = new i(A.encoding), this.encoding = A.encoding) + } + function I(A) { + if (e = e || U(16), !(this instanceof I)) + return new I(A); + this._readableState = new g(A, this), + this.readable = !0, + A && ("function" == typeof A.read && (this._read = A.read), "function" == typeof A.destroy && (this._destroy = A.destroy)), + t.call(this) + } + function N(A, M, t, g, I) { + var e, + i, + T, + E, + N = A._readableState; + return null === M ? (N.reading = !1, i = A, (T = N).ended || (!T.decoder || (E = T.decoder.end()) && E.length && (T.buffer.push(E), T.length += T.objectMode ? 1 : E.length), T.ended = !0, o(i))) : (I || (e = function (A, M) { + var t; + (function (A) { + return n.isBuffer(A) || A instanceof D + })(M) || "string" == typeof M || void 0 === M || A.objectMode || (t = new TypeError("Invalid non-string/buffer chunk")); + return t + } + (N, M)), e ? A.emit("error", e) : N.objectMode || M && 0 < M.length ? ("string" == typeof M || N.objectMode || Object.getPrototypeOf(M) === n.prototype || (e = M, M = n.from(e)), g ? N.endEmitted ? A.emit("error", new Error("stream.unshift() after end event")) : C(A, N, M, !0) : N.ended ? A.emit("error", new Error("stream.push() after EOF")) : (N.reading = !1, N.decoder && !t ? (M = N.decoder.write(M), N.objectMode || 0 !== M.length ? C(A, N, M, !1) : w(A, N)) : C(A, N, M, !1))) : g || (N.reading = !1)), + !(N = N).ended && (N.needReadable || N.length < N.highWaterMark || 0 === N.length) + } + function C(A, M, t, g) { + M.flowing && 0 === M.length && !M.sync ? (A.emit("data", t), A.read(0)) : (M.length += M.objectMode ? 1 : t.length, g ? M.buffer.unshift(t) : M.buffer.push(t), M.needReadable && o(A)), + w(A, M) + } + Object.defineProperty(I.prototype, "destroyed", { + get: function () { + return void 0 !== this._readableState && this._readableState.destroyed + }, + set: function (A) { + this._readableState && (this._readableState.destroyed = A) + } + }), + I.prototype.destroy = A.destroy, + I.prototype._undestroy = A.undestroy, + I.prototype._destroy = function (A, M) { + this.push(null), + M(A) + }, + I.prototype.push = function (A, M) { + var t, + g = this._readableState; + return g.objectMode ? t = !0 : "string" == typeof A && ((M = M || g.defaultEncoding) !== g.encoding && (A = n.from(A, M), M = ""), t = !0), + N(this, A, M, !1, t) + }, + I.prototype.unshift = function (A) { + return N(this, A, null, !0, !1) + }, + I.prototype.isPaused = function () { + return !1 === this._readableState.flowing + }, + I.prototype.setEncoding = function (A) { + return i = i || U(24).StringDecoder, + this._readableState.decoder = new i(A), + this._readableState.encoding = A, + this + }; + var r = 8388608; + function c(A, M) { + return A <= 0 || 0 === M.length && M.ended ? 0 : M.objectMode ? 1 : A != A ? (M.flowing && M.length ? M.buffer.head.data : M).length : (A > M.highWaterMark && (M.highWaterMark = (r <= (t = A) ? t = r : (t--, t |= t >>> 1, t |= t >>> 2, t |= t >>> 4, t |= t >>> 8, t |= t >>> 16, t++), t)), A <= M.length ? A : M.ended ? M.length : (M.needReadable = !0, 0)); + var t + } + function o(A) { + var M = A._readableState; + M.needReadable = !1, + M.emittedReadable || (y("emitReadable", M.flowing), M.emittedReadable = !0, M.sync ? a.nextTick(B, A) : B(A)) + } + function B(A) { + y("emit readable"), + A.emit("readable"), + x(A) + } + function w(A, M) { + M.readingMore || (M.readingMore = !0, a.nextTick(j, A, M)) + } + function j(A, M) { + for (var t = M.length; !M.reading && !M.flowing && !M.ended && M.length < M.highWaterMark && (y("maybeReadMore read 0"), A.read(0), t !== M.length); ) + t = M.length; + M.readingMore = !1 + } + function L(A) { + y("readable nexttick read 0"), + A.read(0) + } + function d(A, M) { + M.reading || (y("resume read 0"), A.read(0)), + M.resumeScheduled = !1, + M.awaitDrain = 0, + A.emit("resume"), + x(A), + M.flowing && !M.reading && A.read(0) + } + function x(A) { + var M = A._readableState; + for (y("flow", M.flowing); M.flowing && null !== A.read(); ); + } + function Y(A, M) { + return 0 === M.length ? null : (M.objectMode ? t = M.buffer.shift() : !A || A >= M.length ? (t = M.decoder ? M.buffer.join("") : 1 === M.buffer.length ? M.buffer.head.data : M.buffer.concat(M.length), M.buffer.clear()) : t = function (A, M, t) { + var g; + A < M.head.data.length ? (g = M.head.data.slice(0, A), M.head.data = M.head.data.slice(A)) : g = A === M.head.data.length ? M.shift() : (t ? function (A, M) { + var t = M.head, + g = 1, + I = t.data; + A -= I.length; + for (; t = t.next; ) { + var e = t.data, + i = A > e.length ? e.length : A; + if (i === e.length ? I += e : I += e.slice(0, A), 0 === (A -= i)) { + i === e.length ? (++g, t.next ? M.head = t.next : M.head = M.tail = null) : (M.head = t).data = e.slice(i); + break + } + ++g + } + return M.length -= g, + I + } + : function (A, M) { + var t = n.allocUnsafe(A), + g = M.head, + I = 1; + g.data.copy(t), + A -= g.data.length; + for (; g = g.next; ) { + var e = g.data, + i = A > e.length ? e.length : A; + if (e.copy(t, t.length - A, 0, i), 0 === (A -= i)) { + i === e.length ? (++I, g.next ? M.head = g.next : M.head = M.tail = null) : (M.head = g).data = e.slice(i); + break + } + ++I + } + return M.length -= I, + t + })(A, M); + return g + } + (A, M.buffer, M.decoder), t); + var t + } + function u(A) { + var M = A._readableState; + if (0 < M.length) + throw new Error('"endReadable()" called on non-empty stream'); + M.endEmitted || (M.ended = !0, a.nextTick(S, M, A)) + } + function S(A, M) { + A.endEmitted || 0 !== A.length || (A.endEmitted = !0, M.readable = !1, M.emit("end")) + } + function z(A, M) { + for (var t = 0, g = A.length; t < g; t++) + if (A[t] === M) + return t; + return -1 + } + I.prototype.read = function (A) { + y("read", A), + A = parseInt(A, 10); + var M = this._readableState, + t = A; + if (0 !== A && (M.emittedReadable = !1), 0 === A && M.needReadable && (M.length >= M.highWaterMark || M.ended)) + return y("read: emitReadable", M.length, M.ended), (0 === M.length && M.ended ? u : o)(this), null; + if (0 === (A = c(A, M)) && M.ended) + return 0 === M.length && u(this), null; + var g = M.needReadable; + return y("need readable", g), + (0 === M.length || M.length - A < M.highWaterMark) && y("length less than watermark", g = !0), + M.ended || M.reading ? y("reading or ended", g = !1) : g && (y("do read"), M.reading = !0, M.sync = !0, 0 === M.length && (M.needReadable = !0), this._read(M.highWaterMark), M.sync = !1, M.reading || (A = c(t, M))), + null === (g = 0 < A ? Y(A, M) : null) ? (M.needReadable = !0, A = 0) : M.length -= A, + 0 === M.length && (M.ended || (M.needReadable = !0), t !== A && M.ended && u(this)), + null !== g && this.emit("data", g), + g + }, + I.prototype._read = function (A) { + this.emit("error", new Error("_read() is not implemented")) + }, + I.prototype.pipe = function (t, A) { + var g = this, + I = this._readableState; + switch (I.pipesCount) { + case 0: + I.pipes = t; + break; + case 1: + I.pipes = [I.pipes, t]; + break; + default: + I.pipes.push(t) + } + I.pipesCount += 1, + y("pipe count=%d opts=%j", I.pipesCount, A); + var M = (!A || !1 !== A.end) && t !== Q.stdout && t !== Q.stderr ? i : B; + function e(A, M) { + y("onunpipe"), + A === g && M && !1 === M.hasUnpiped && (M.hasUnpiped = !0, y("cleanup"), t.removeListener("close", c), t.removeListener("finish", o), t.removeListener("drain", E), t.removeListener("error", r), t.removeListener("unpipe", e), g.removeListener("end", i), g.removeListener("end", B), g.removeListener("data", C), N = !0, !I.awaitDrain || t._writableState && !t._writableState.needDrain || E()) + } + function i() { + y("onend"), + t.end() + } + I.endEmitted ? a.nextTick(M) : g.once("end", M), + t.on("unpipe", e); + var T, + E = (T = g, function () { + var A = T._readableState; + y("pipeOnDrain", A.awaitDrain), + A.awaitDrain && A.awaitDrain--, + 0 === A.awaitDrain && s(T, "data") && (A.flowing = !0, x(T)) + }); + t.on("drain", E); + var N = !1; + var n, + D = !1; + function C(A) { + y("ondata"), + (D = !1) !== t.write(A) || D || ((1 === I.pipesCount && I.pipes === t || 1 < I.pipesCount && -1 !== z(I.pipes, t)) && !N && (y("false write response, pause", g._readableState.awaitDrain), g._readableState.awaitDrain++, D = !0), g.pause()) + } + function r(A) { + y("onerror", A), + B(), + t.removeListener("error", r), + 0 === s(t, "error") && t.emit("error", A) + } + function c() { + t.removeListener("finish", o), + B() + } + function o() { + y("onfinish"), + t.removeListener("close", c), + B() + } + function B() { + y("unpipe"), + g.unpipe(t) + } + return g.on("data", C), + n = "error", + A = r, + "function" == typeof(M = t).prependListener ? M.prependListener(n, A) : M._events && M._events[n] ? h(M._events[n]) ? M._events[n].unshift(A) : M._events[n] = [A, M._events[n]] : M.on(n, A), + t.once("close", c), + t.once("finish", o), + t.emit("pipe", g), + I.flowing || (y("pipe resume"), g.resume()), + t + }, + I.prototype.unpipe = function (A) { + var M = this._readableState, + t = { + hasUnpiped: !1 + }; + if (0 === M.pipesCount) + return this; + if (1 === M.pipesCount) + return A && A !== M.pipes || (A = A || M.pipes, M.pipes = null, M.pipesCount = 0, M.flowing = !1, A && A.emit("unpipe", this, t)), this; + if (!A) { + var g = M.pipes, + I = M.pipesCount; + M.pipes = null, + M.pipesCount = 0, + M.flowing = !1; + for (var e = 0; e < I; e++) + g[e].emit("unpipe", this, t); + return this + } + var i = z(M.pipes, A); + return -1 === i || (M.pipes.splice(i, 1), --M.pipesCount, 1 === M.pipesCount && (M.pipes = M.pipes[0]), A.emit("unpipe", this, t)), + this + }, + I.prototype.addListener = I.prototype.on = function (A, M) { + M = t.prototype.on.call(this, A, M); + return "data" === A ? !1 !== this._readableState.flowing && this.resume() : "readable" === A && ((A = this._readableState).endEmitted || A.readableListening || (A.readableListening = A.needReadable = !0, A.emittedReadable = !1, A.reading ? A.length && o(this) : a.nextTick(L, this))), + M + }, + I.prototype.resume = function () { + var A, + M = this._readableState; + return M.flowing || (y("resume"), M.flowing = !0, A = this, (M = M).resumeScheduled || (M.resumeScheduled = !0, a.nextTick(d, A, M))), + this + }, + I.prototype.pause = function () { + return y("call pause flowing=%j", this._readableState.flowing), + !1 !== this._readableState.flowing && (y("pause"), this._readableState.flowing = !1, this.emit("pause")), + this + }, + I.prototype.wrap = function (M) { + var A, + t = this, + g = this._readableState, + I = !1; + for (A in M.on("end", function () { + var A; + y("wrapped end"), + !g.decoder || g.ended || (A = g.decoder.end()) && A.length && t.push(A), + t.push(null) + }), M.on("data", function (A) { + y("wrapped data"), + g.decoder && (A = g.decoder.write(A)), + g.objectMode && null == A || (g.objectMode || A && A.length) && (t.push(A) || (I = !0, M.pause())) + }), M) + void 0 === this[A] && "function" == typeof M[A] && (this[A] = function (A) { + return function () { + return M[A].apply(M, arguments) + } + } + (A)); + for (var e = 0; e < E.length; e++) + M.on(E[e], this.emit.bind(this, E[e])); + return this._read = function (A) { + y("wrapped _read", A), + I && (I = !1, M.resume()) + }, + this + }, + Object.defineProperty(I.prototype, "readableHighWaterMark", { + enumerable: !1, + get: function () { + return this._readableState.highWaterMark + } + }), + I._fromList = Y + }).call(this, U(10), U(8)) + }, function (A, M, t) { + A.exports = t(6).EventEmitter + }, function (A, M, t) { + "use strict"; + var e = t(31); + function i(A, M) { + A.emit("error", M) + } + A.exports = { + destroy: function (A, M) { + var t = this, + g = this._readableState && this._readableState.destroyed, + I = this._writableState && this._writableState.destroyed; + return g || I ? M ? M(A) : !A || this._writableState && this._writableState.errorEmitted || e.nextTick(i, this, A) : (this._readableState && (this._readableState.destroyed = !0), this._writableState && (this._writableState.destroyed = !0), this._destroy(A || null, function (A) { + !M && A ? (e.nextTick(i, t, A), t._writableState && (t._writableState.errorEmitted = !0)) : M && M(A) + })), + this + }, + undestroy: function () { + this._readableState && (this._readableState.destroyed = !1, this._readableState.reading = !1, this._readableState.ended = !1, this._readableState.endEmitted = !1), + this._writableState && (this._writableState.destroyed = !1, this._writableState.ended = !1, this._writableState.ending = !1, this._writableState.finished = !1, this._writableState.errorEmitted = !1) + } + } + }, function (A, M, t) { + "use strict"; + A.exports = I; + var g = t(16), + A = Object.create(t(25)); + function I(A) { + if (!(this instanceof I)) + return new I(A); + g.call(this, A), + this._transformState = { + afterTransform: function (A, M) { + var t = this._transformState; + t.transforming = !1; + var g = t.writecb; + if (!g) + return this.emit("error", new Error("write callback called multiple times")); + t.writechunk = null, + (t.writecb = null) != M && this.push(M), + g(A), + (A = this._readableState).reading = !1, + (A.needReadable || A.length < A.highWaterMark) && this._read(A.highWaterMark) + } + .bind(this), + needTransform: !1, + transforming: !1, + writecb: null, + writechunk: null, + writeencoding: null + }, + this._readableState.needReadable = !0, + this._readableState.sync = !1, + A && ("function" == typeof A.transform && (this._transform = A.transform), "function" == typeof A.flush && (this._flush = A.flush)), + this.on("prefinish", e) + } + function e() { + var t = this; + "function" == typeof this._flush ? this._flush(function (A, M) { + i(t, A, M) + }) : i(this, null, null) + } + function i(A, M, t) { + if (M) + return A.emit("error", M); + if (null != t && A.push(t), A._writableState.length) + throw new Error("Calling transform done when ws.length != 0"); + if (A._transformState.transforming) + throw new Error("Calling transform done when still transforming"); + return A.push(null) + } + A.inherits = t(3), + A.inherits(I, g), + I.prototype.push = function (A, M) { + return this._transformState.needTransform = !1, + g.prototype.push.call(this, A, M) + }, + I.prototype._transform = function (A, M, t) { + throw new Error("_transform() is not implemented") + }, + I.prototype._write = function (A, M, t) { + var g = this._transformState; + g.writecb = t, + g.writechunk = A, + g.writeencoding = M, + g.transforming || (M = this._readableState, (g.needTransform || M.needReadable || M.length < M.highWaterMark) && this._read(M.highWaterMark)) + }, + I.prototype._read = function (A) { + var M = this._transformState; + null !== M.writechunk && M.writecb && !M.transforming ? (M.transforming = !0, this._transform(M.writechunk, M.writeencoding, M.afterTransform)) : M.needTransform = !0 + }, + I.prototype._destroy = function (A, M) { + var t = this; + g.prototype._destroy.call(this, A, function (A) { + M(A), + t.emit("close") + }) + } + }, function (A, M, t) { + "use strict"; + var g = t(3), + I = t(146), + i = t(15), + T = t(4).Buffer, + e = t(78), + E = t(39), + N = t(40), + n = T.alloc(128); + function D(A, M) { + i.call(this, "digest"), + "string" == typeof M && (M = T.from(M)); + var t = "sha512" === A || "sha384" === A ? 128 : 64; + this._alg = A, + (this._key = M).length > t ? M = ("rmd160" === A ? new E : N(A)).update(M).digest() : M.length < t && (M = T.concat([M, n], t)); + for (var g = this._ipad = T.allocUnsafe(t), I = this._opad = T.allocUnsafe(t), e = 0; e < t; e++) + g[e] = 54 ^ M[e], I[e] = 92 ^ M[e]; + this._hash = "rmd160" === A ? new E : N(A), + this._hash.update(g) + } + g(D, i), + D.prototype._update = function (A) { + this._hash.update(A) + }, + D.prototype._final = function () { + var A = this._hash.digest(); + return ("rmd160" === this._alg ? new E : N(this._alg)).update(this._opad).update(A).digest() + }, + A.exports = function (A, M) { + return "rmd160" === (A = A.toLowerCase()) || "ripemd160" === A ? new D("rmd160", M) : "md5" === A ? new I(e, M) : new D(A, M) + } + }, function (A, M, t) { + var g = t(37); + A.exports = function (A) { + return (new g).update(A).digest() + } + }, function (A) { + A.exports = JSON.parse('{"sha224WithRSAEncryption":{"sign":"rsa","hash":"sha224","id":"302d300d06096086480165030402040500041c"},"RSA-SHA224":{"sign":"ecdsa/rsa","hash":"sha224","id":"302d300d06096086480165030402040500041c"},"sha256WithRSAEncryption":{"sign":"rsa","hash":"sha256","id":"3031300d060960864801650304020105000420"},"RSA-SHA256":{"sign":"ecdsa/rsa","hash":"sha256","id":"3031300d060960864801650304020105000420"},"sha384WithRSAEncryption":{"sign":"rsa","hash":"sha384","id":"3041300d060960864801650304020205000430"},"RSA-SHA384":{"sign":"ecdsa/rsa","hash":"sha384","id":"3041300d060960864801650304020205000430"},"sha512WithRSAEncryption":{"sign":"rsa","hash":"sha512","id":"3051300d060960864801650304020305000440"},"RSA-SHA512":{"sign":"ecdsa/rsa","hash":"sha512","id":"3051300d060960864801650304020305000440"},"RSA-SHA1":{"sign":"rsa","hash":"sha1","id":"3021300906052b0e03021a05000414"},"ecdsa-with-SHA1":{"sign":"ecdsa","hash":"sha1","id":""},"sha256":{"sign":"ecdsa","hash":"sha256","id":""},"sha224":{"sign":"ecdsa","hash":"sha224","id":""},"sha384":{"sign":"ecdsa","hash":"sha384","id":""},"sha512":{"sign":"ecdsa","hash":"sha512","id":""},"DSA-SHA":{"sign":"dsa","hash":"sha1","id":""},"DSA-SHA1":{"sign":"dsa","hash":"sha1","id":""},"DSA":{"sign":"dsa","hash":"sha1","id":""},"DSA-WITH-SHA224":{"sign":"dsa","hash":"sha224","id":""},"DSA-SHA224":{"sign":"dsa","hash":"sha224","id":""},"DSA-WITH-SHA256":{"sign":"dsa","hash":"sha256","id":""},"DSA-SHA256":{"sign":"dsa","hash":"sha256","id":""},"DSA-WITH-SHA384":{"sign":"dsa","hash":"sha384","id":""},"DSA-SHA384":{"sign":"dsa","hash":"sha384","id":""},"DSA-WITH-SHA512":{"sign":"dsa","hash":"sha512","id":""},"DSA-SHA512":{"sign":"dsa","hash":"sha512","id":""},"DSA-RIPEMD160":{"sign":"dsa","hash":"rmd160","id":""},"ripemd160WithRSA":{"sign":"rsa","hash":"rmd160","id":"3021300906052b2403020105000414"},"RSA-RIPEMD160":{"sign":"rsa","hash":"rmd160","id":"3021300906052b2403020105000414"},"md5WithRSAEncryption":{"sign":"rsa","hash":"md5","id":"3020300c06082a864886f70d020505000410"},"RSA-MD5":{"sign":"rsa","hash":"md5","id":"3020300c06082a864886f70d020505000410"}}') + }, function (A, M, t) { + M.pbkdf2 = t(148), + M.pbkdf2Sync = t(83) + }, function (A, M) { + var t = Math.pow(2, 30) - 1; + A.exports = function (A, M) { + if ("number" != typeof A) + throw new TypeError("Iterations not a number"); + if (A < 0) + throw new TypeError("Bad iterations"); + if ("number" != typeof M) + throw new TypeError("Key length not a number"); + if (M < 0 || t < M || M != M) + throw new TypeError("Bad key length") + } + }, function (M, A, t) { + (function (A) { + A = A.browser || !A.version || 6 <= parseInt(A.version.split(".")[0].slice(1), 10) ? "utf-8" : "binary", + M.exports = A + }).call(this, t(8)) + }, function (A, M, t) { + var N = t(78), + n = t(39), + D = t(40), + B = t(4).Buffer, + Q = t(81), + a = t(82), + h = t(84), + C = B.alloc(128), + s = { + md5: 16, + sha1: 20, + sha224: 28, + sha256: 32, + sha384: 48, + sha512: 64, + rmd160: 20, + ripemd160: 20 + }; + function y(A, M, t) { + var g, + I = "rmd160" === (g = A) || "ripemd160" === g ? function (A) { + return (new n).update(A).digest() + } + : "md5" === g ? N : function (A) { + return D(g).update(A).digest() + }, + e = "sha512" === A || "sha384" === A ? 128 : 64; + M.length > e ? M = I(M) : M.length < e && (M = B.concat([M, C], e)); + for (var i = B.allocUnsafe(e + s[A]), T = B.allocUnsafe(e + s[A]), E = 0; E < e; E++) + i[E] = 54 ^ M[E], T[E] = 92 ^ M[E]; + t = B.allocUnsafe(e + t + 4); + i.copy(t, 0, 0, e), + this.ipad1 = t, + this.ipad2 = i, + this.opad = T, + this.alg = A, + this.blocksize = e, + this.hash = I, + this.size = s[A] + } + y.prototype.run = function (A, M) { + return A.copy(M, this.blocksize), + this.hash(M).copy(this.opad, this.blocksize), + this.hash(this.opad) + }, + A.exports = function (A, M, t, g, I) { + Q(t, g); + var e = new y(I = I || "sha1", A = h(A, a, "Password"), (M = h(M, a, "Salt")).length), + i = B.allocUnsafe(g), + T = B.allocUnsafe(M.length + 4); + M.copy(T, 0, 0, M.length); + for (var E = 0, N = s[I], n = Math.ceil(g / N), D = 1; D <= n; D++) { + T.writeUInt32BE(D, M.length); + for (var C = e.run(T, e.ipad1), r = C, c = 1; c < t; c++) { + r = e.run(r, e.ipad2); + for (var o = 0; o < N; o++) + C[o] ^= r[o] + } + C.copy(i, E), + E += N + } + return i + } + }, function (A, M, t) { + var g = t(4).Buffer; + A.exports = function (A, M, t) { + if (g.isBuffer(A)) + return A; + if ("string" == typeof A) + return g.from(A, M); + if (ArrayBuffer.isView(A)) + return g.from(A.buffer); + throw new TypeError(t + " must be a string, a Buffer, a typed array or a DataView") + } + }, function (A, M, t) { + "use strict"; + M.readUInt32BE = function (A, M) { + return (A[0 + M] << 24 | A[1 + M] << 16 | A[2 + M] << 8 | A[3 + M]) >>> 0 + }, + M.writeUInt32BE = function (A, M, t) { + A[0 + t] = M >>> 24, + A[1 + t] = M >>> 16 & 255, + A[2 + t] = M >>> 8 & 255, + A[3 + t] = 255 & M + }, + M.ip = function (A, M, t, g) { + for (var I = 0, e = 0, i = 6; 0 <= i; i -= 2) { + for (var T = 0; T <= 24; T += 8) + I <<= 1, I |= M >>> T + i & 1; + for (T = 0; T <= 24; T += 8) + I <<= 1, I |= A >>> T + i & 1 + } + for (i = 6; 0 <= i; i -= 2) { + for (T = 1; T <= 25; T += 8) + e <<= 1, e |= M >>> T + i & 1; + for (T = 1; T <= 25; T += 8) + e <<= 1, e |= A >>> T + i & 1 + } + t[g + 0] = I >>> 0, + t[g + 1] = e >>> 0 + }, + M.rip = function (A, M, t, g) { + for (var I = 0, e = 0, i = 0; i < 4; i++) + for (var T = 24; 0 <= T; T -= 8) + I <<= 1, I |= M >>> T + i & 1, I <<= 1, I |= A >>> T + i & 1; + for (i = 4; i < 8; i++) + for (T = 24; 0 <= T; T -= 8) + e <<= 1, e |= M >>> T + i & 1, e <<= 1, e |= A >>> T + i & 1; + t[g + 0] = I >>> 0, + t[g + 1] = e >>> 0 + }, + M.pc1 = function (A, M, t, g) { + for (var I = 0, e = 0, i = 7; 5 <= i; i--) { + for (var T = 0; T <= 24; T += 8) + I <<= 1, I |= M >> T + i & 1; + for (T = 0; T <= 24; T += 8) + I <<= 1, I |= A >> T + i & 1 + } + for (T = 0; T <= 24; T += 8) + I <<= 1, I |= M >> T + i & 1; + for (i = 1; i <= 3; i++) { + for (T = 0; T <= 24; T += 8) + e <<= 1, e |= M >> T + i & 1; + for (T = 0; T <= 24; T += 8) + e <<= 1, e |= A >> T + i & 1 + } + for (T = 0; T <= 24; T += 8) + e <<= 1, e |= A >> T + i & 1; + t[g + 0] = I >>> 0, + t[g + 1] = e >>> 0 + }, + M.r28shl = function (A, M) { + return A << M & 268435455 | A >>> 28 - M + }; + var E = [14, 11, 17, 4, 27, 23, 25, 0, 13, 22, 7, 18, 5, 9, 16, 24, 2, 20, 12, 21, 1, 8, 15, 26, 15, 4, 25, 19, 9, 1, 26, 16, 5, 11, 23, 8, 12, 7, 17, 0, 22, 3, 10, 14, 6, 20, 27, 24]; + M.pc2 = function (A, M, t, g) { + for (var I = 0, e = 0, i = E.length >>> 1, T = 0; T < i; T++) + I <<= 1, I |= A >>> E[T] & 1; + for (T = i; T < E.length; T++) + e <<= 1, e |= M >>> E[T] & 1; + t[g + 0] = I >>> 0, + t[g + 1] = e >>> 0 + }, + M.expand = function (A, M, t) { + for (var g = 0, I = 0, g = (1 & A) << 5 | A >>> 27, e = 23; 15 <= e; e -= 4) + g <<= 6, g |= A >>> e & 63; + for (e = 11; 3 <= e; e -= 4) + I |= A >>> e & 63, I <<= 6; + I |= (31 & A) << 1 | A >>> 31, + M[t + 0] = g >>> 0, + M[t + 1] = I >>> 0 + }; + var I = [14, 0, 4, 15, 13, 7, 1, 4, 2, 14, 15, 2, 11, 13, 8, 1, 3, 10, 10, 6, 6, 12, 12, 11, 5, 9, 9, 5, 0, 3, 7, 8, 4, 15, 1, 12, 14, 8, 8, 2, 13, 4, 6, 9, 2, 1, 11, 7, 15, 5, 12, 11, 9, 3, 7, 14, 3, 10, 10, 0, 5, 6, 0, 13, 15, 3, 1, 13, 8, 4, 14, 7, 6, 15, 11, 2, 3, 8, 4, 14, 9, 12, 7, 0, 2, 1, 13, 10, 12, 6, 0, 9, 5, 11, 10, 5, 0, 13, 14, 8, 7, 10, 11, 1, 10, 3, 4, 15, 13, 4, 1, 2, 5, 11, 8, 6, 12, 7, 6, 12, 9, 0, 3, 5, 2, 14, 15, 9, 10, 13, 0, 7, 9, 0, 14, 9, 6, 3, 3, 4, 15, 6, 5, 10, 1, 2, 13, 8, 12, 5, 7, 14, 11, 12, 4, 11, 2, 15, 8, 1, 13, 1, 6, 10, 4, 13, 9, 0, 8, 6, 15, 9, 3, 8, 0, 7, 11, 4, 1, 15, 2, 14, 12, 3, 5, 11, 10, 5, 14, 2, 7, 12, 7, 13, 13, 8, 14, 11, 3, 5, 0, 6, 6, 15, 9, 0, 10, 3, 1, 4, 2, 7, 8, 2, 5, 12, 11, 1, 12, 10, 4, 14, 15, 9, 10, 3, 6, 15, 9, 0, 0, 6, 12, 10, 11, 1, 7, 13, 13, 8, 15, 9, 1, 4, 3, 5, 14, 11, 5, 12, 2, 7, 8, 2, 4, 14, 2, 14, 12, 11, 4, 2, 1, 12, 7, 4, 10, 7, 11, 13, 6, 1, 8, 5, 5, 0, 3, 15, 15, 10, 13, 3, 0, 9, 14, 8, 9, 6, 4, 11, 2, 8, 1, 12, 11, 7, 10, 1, 13, 14, 7, 2, 8, 13, 15, 6, 9, 15, 12, 0, 5, 9, 6, 10, 3, 4, 0, 5, 14, 3, 12, 10, 1, 15, 10, 4, 15, 2, 9, 7, 2, 12, 6, 9, 8, 5, 0, 6, 13, 1, 3, 13, 4, 14, 14, 0, 7, 11, 5, 3, 11, 8, 9, 4, 14, 3, 15, 2, 5, 12, 2, 9, 8, 5, 12, 15, 3, 10, 7, 11, 0, 14, 4, 1, 10, 7, 1, 6, 13, 0, 11, 8, 6, 13, 4, 13, 11, 0, 2, 11, 14, 7, 15, 4, 0, 9, 8, 1, 13, 10, 3, 14, 12, 3, 9, 5, 7, 12, 5, 2, 10, 15, 6, 8, 1, 6, 1, 6, 4, 11, 11, 13, 13, 8, 12, 1, 3, 4, 7, 10, 14, 7, 10, 9, 15, 5, 6, 0, 8, 15, 0, 14, 5, 2, 9, 3, 2, 12, 13, 1, 2, 15, 8, 13, 4, 8, 6, 10, 15, 3, 11, 7, 1, 4, 10, 12, 9, 5, 3, 6, 14, 11, 5, 0, 0, 14, 12, 9, 7, 2, 7, 2, 11, 1, 4, 14, 1, 7, 9, 4, 12, 10, 14, 8, 2, 13, 0, 15, 6, 12, 10, 9, 13, 0, 15, 3, 3, 5, 5, 6, 8, 11]; + M.substitute = function (A, M) { + for (var t = 0, g = 0; g < 4; g++) + t <<= 4, t |= I[64 * g + (A >>> 18 - 6 * g & 63)]; + for (g = 0; g < 4; g++) + t <<= 4, t |= I[256 + 64 * g + (M >>> 18 - 6 * g & 63)]; + return t >>> 0 + }; + var g = [16, 25, 12, 11, 3, 20, 4, 15, 31, 17, 9, 6, 27, 14, 1, 22, 30, 24, 8, 18, 0, 5, 29, 23, 13, 19, 2, 26, 10, 21, 28, 7]; + M.permute = function (A) { + for (var M = 0, t = 0; t < g.length; t++) + M <<= 1, M |= A >>> g[t] & 1; + return M >>> 0 + }, + M.padSplit = function (A, M, t) { + for (var g = A.toString(2); g.length < M; ) + g = "0" + g; + for (var I = [], e = 0; e < M; e += t) + I.push(g.slice(e, e + t)); + return I.join(" ") + } + }, function (A, M, t) { + "use strict"; + var i = t(11), + g = t(3), + n = t(85), + I = t(44); + function e() { + this.tmp = new Array(2), + this.keys = null + } + function T(A) { + I.call(this, A); + var M = new e; + this._desState = M, + this.deriveKeys(M, A.key) + } + g(T, I), + (A.exports = T).create = function (A) { + return new T(A) + }; + var E = [1, 1, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 1]; + T.prototype.deriveKeys = function (A, M) { + A.keys = new Array(32), + i.equal(M.length, this.blockSize, "Invalid key length"); + var t = n.readUInt32BE(M, 0), + g = n.readUInt32BE(M, 4); + n.pc1(t, g, A.tmp, 0), + t = A.tmp[0], + g = A.tmp[1]; + for (var I = 0; I < A.keys.length; I += 2) { + var e = E[I >>> 1], + t = n.r28shl(t, e), + g = n.r28shl(g, e); + n.pc2(t, g, A.keys, I) + } + }, + T.prototype._update = function (A, M, t, g) { + var I = this._desState, + e = n.readUInt32BE(A, M), + M = n.readUInt32BE(A, M + 4); + n.ip(e, M, I.tmp, 0), + e = I.tmp[0], + M = I.tmp[1], + "encrypt" === this.type ? this._encrypt(I, e, M, I.tmp, 0) : this._decrypt(I, e, M, I.tmp, 0), + e = I.tmp[0], + M = I.tmp[1], + n.writeUInt32BE(t, e, g), + n.writeUInt32BE(t, M, g + 4) + }, + T.prototype._pad = function (A, M) { + for (var t = A.length - M, g = M; g < A.length; g++) + A[g] = t; + return !0 + }, + T.prototype._unpad = function (A) { + for (var M = A[A.length - 1], t = A.length - M; t < A.length; t++) + i.equal(A[t], M); + return A.slice(0, A.length - M) + }, + T.prototype._encrypt = function (A, M, t, g, I) { + for (var e = M, i = t, T = 0; T < A.keys.length; T += 2) { + var E = A.keys[T], + N = A.keys[T + 1]; + n.expand(i, A.tmp, 0), + E ^= A.tmp[0], + N ^= A.tmp[1]; + E = n.substitute(E, N), + N = i, + i = (e ^ n.permute(E)) >>> 0, + e = N + } + n.rip(i, e, g, I) + }, + T.prototype._decrypt = function (A, M, t, g, I) { + for (var e = t, i = M, T = A.keys.length - 2; 0 <= T; T -= 2) { + var E = A.keys[T], + N = A.keys[T + 1]; + n.expand(e, A.tmp, 0), + E ^= A.tmp[0], + N ^= A.tmp[1]; + E = n.substitute(E, N), + N = e, + e = (i ^ n.permute(E)) >>> 0, + i = N + } + n.rip(e, i, g, I) + } + }, function (A, M, t) { + var E = t(26), + N = t(4).Buffer, + n = t(88); + M.encrypt = function (A, M) { + var t = Math.ceil(M.length / 16), + g = A._cache.length; + A._cache = N.concat([A._cache, N.allocUnsafe(16 * t)]); + for (var I = 0; I < t; I++) { + var e = (i = void 0, i = (e = A)._cipher.encryptBlockRaw(e._prev), n(e._prev), i), + i = g + 16 * I; + A._cache.writeUInt32BE(e[0], i + 0), + A._cache.writeUInt32BE(e[1], i + 4), + A._cache.writeUInt32BE(e[2], i + 8), + A._cache.writeUInt32BE(e[3], i + 12) + } + var T = A._cache.slice(0, M.length); + return A._cache = A._cache.slice(M.length), + E(M, T) + } + }, function (A, M) { + A.exports = function (A) { + for (var M, t = A.length; t--; ) { + if (255 !== (M = A.readUInt8(t))) { + M++, + A.writeUInt8(M, t); + break + } + A.writeUInt8(0, t) + } + } + }, function (A) { + A.exports = JSON.parse('{"aes-128-ecb":{"cipher":"AES","key":128,"iv":0,"mode":"ECB","type":"block"},"aes-192-ecb":{"cipher":"AES","key":192,"iv":0,"mode":"ECB","type":"block"},"aes-256-ecb":{"cipher":"AES","key":256,"iv":0,"mode":"ECB","type":"block"},"aes-128-cbc":{"cipher":"AES","key":128,"iv":16,"mode":"CBC","type":"block"},"aes-192-cbc":{"cipher":"AES","key":192,"iv":16,"mode":"CBC","type":"block"},"aes-256-cbc":{"cipher":"AES","key":256,"iv":16,"mode":"CBC","type":"block"},"aes128":{"cipher":"AES","key":128,"iv":16,"mode":"CBC","type":"block"},"aes192":{"cipher":"AES","key":192,"iv":16,"mode":"CBC","type":"block"},"aes256":{"cipher":"AES","key":256,"iv":16,"mode":"CBC","type":"block"},"aes-128-cfb":{"cipher":"AES","key":128,"iv":16,"mode":"CFB","type":"stream"},"aes-192-cfb":{"cipher":"AES","key":192,"iv":16,"mode":"CFB","type":"stream"},"aes-256-cfb":{"cipher":"AES","key":256,"iv":16,"mode":"CFB","type":"stream"},"aes-128-cfb8":{"cipher":"AES","key":128,"iv":16,"mode":"CFB8","type":"stream"},"aes-192-cfb8":{"cipher":"AES","key":192,"iv":16,"mode":"CFB8","type":"stream"},"aes-256-cfb8":{"cipher":"AES","key":256,"iv":16,"mode":"CFB8","type":"stream"},"aes-128-cfb1":{"cipher":"AES","key":128,"iv":16,"mode":"CFB1","type":"stream"},"aes-192-cfb1":{"cipher":"AES","key":192,"iv":16,"mode":"CFB1","type":"stream"},"aes-256-cfb1":{"cipher":"AES","key":256,"iv":16,"mode":"CFB1","type":"stream"},"aes-128-ofb":{"cipher":"AES","key":128,"iv":16,"mode":"OFB","type":"stream"},"aes-192-ofb":{"cipher":"AES","key":192,"iv":16,"mode":"OFB","type":"stream"},"aes-256-ofb":{"cipher":"AES","key":256,"iv":16,"mode":"OFB","type":"stream"},"aes-128-ctr":{"cipher":"AES","key":128,"iv":16,"mode":"CTR","type":"stream"},"aes-192-ctr":{"cipher":"AES","key":192,"iv":16,"mode":"CTR","type":"stream"},"aes-256-ctr":{"cipher":"AES","key":256,"iv":16,"mode":"CTR","type":"stream"},"aes-128-gcm":{"cipher":"AES","key":128,"iv":12,"mode":"GCM","type":"auth"},"aes-192-gcm":{"cipher":"AES","key":192,"iv":12,"mode":"GCM","type":"auth"},"aes-256-gcm":{"cipher":"AES","key":256,"iv":12,"mode":"GCM","type":"auth"}}') + }, function (A, M, t) { + var e = t(32), + i = t(4).Buffer, + T = t(15), + g = t(3), + E = t(161), + I = t(26), + N = t(88); + function n(A, M, t, g) { + T.call(this); + var I = i.alloc(4, 0); + this._cipher = new e.AES(M); + I = this._cipher.encryptBlock(I); + this._ghash = new E(I), + t = function (A, M, t) { + if (12 === M.length) + return A._finID = i.concat([M, i.from([0, 0, 0, 1])]), i.concat([M, i.from([0, 0, 0, 2])]); + var g = new E(t), + I = M.length, + t = I % 16; + return g.update(M), + t && (t = 16 - t, g.update(i.alloc(t, 0))), + g.update(i.alloc(8, 0)), + t = 8 * I, + (I = i.alloc(8)).writeUIntBE(t, 0, 8), + g.update(I), + A._finID = g.state, + A = i.from(A._finID), + N(A), + A + } + (this, t, I), + this._prev = i.from(t), + this._cache = i.allocUnsafe(0), + this._secCache = i.allocUnsafe(0), + this._decrypt = g, + this._alen = 0, + this._len = 0, + this._mode = A, + this._authTag = null, + this._called = !1 + } + g(n, T), + n.prototype._update = function (A) { + this._called || !this._alen || (M = 16 - this._alen % 16) < 16 && (M = i.alloc(M, 0), this._ghash.update(M)), + this._called = !0; + var M = this._mode.encrypt(this, A); + return this._decrypt ? this._ghash.update(A) : this._ghash.update(M), + this._len += A.length, + M + }, + n.prototype._final = function () { + if (this._decrypt && !this._authTag) + throw new Error("Unsupported state or unable to authenticate data"); + var A = I(this._ghash.final(8 * this._alen, 8 * this._len), this._cipher.encryptBlock(this._finID)); + if (this._decrypt && function (A, M) { + var t = 0; + A.length !== M.length && t++; + for (var g = Math.min(A.length, M.length), I = 0; I < g; ++I) + t += A[I] ^ M[I]; + return t + } + (A, this._authTag)) + throw new Error("Unsupported state or unable to authenticate data"); + this._authTag = A, + this._cipher.scrub() + }, + n.prototype.getAuthTag = function () { + if (this._decrypt || !i.isBuffer(this._authTag)) + throw new Error("Attempting to get auth tag in unsupported state"); + return this._authTag + }, + n.prototype.setAuthTag = function (A) { + if (!this._decrypt) + throw new Error("Attempting to set auth tag in unsupported state"); + this._authTag = A + }, + n.prototype.setAAD = function (A) { + if (this._called) + throw new Error("Attempting to set AAD in unsupported state"); + this._ghash.update(A), + this._alen += A.length + }, + A.exports = n + }, function (A, M, t) { + var I = t(32), + e = t(4).Buffer, + i = t(15); + function g(A, M, t, g) { + i.call(this), + this._cipher = new I.AES(M), + this._prev = e.from(t), + this._cache = e.allocUnsafe(0), + this._secCache = e.allocUnsafe(0), + this._decrypt = g, + this._mode = A + } + t(3)(g, i), + g.prototype._update = function (A) { + return this._mode.encrypt(this, A, this._decrypt) + }, + g.prototype._final = function () { + this._cipher.scrub() + }, + A.exports = g + }, function (A, M, t) { + var I = t(18); + (A.exports = g).simpleSieve = B, + g.fermatTest = Q; + var e = t(7), + i = new e(24), + T = new(t(94)), + E = new e(1), + N = new e(2), + n = new e(5), + D = (new e(16), new e(8), new e(10)), + C = new e(3), + r = (new e(7), new e(11)), + c = new e(4), + o = (new e(12), null); + function B(A) { + for (var M = function () { + if (null !== o) + return o; + var A = []; + A[0] = 2; + for (var M = 1, t = 3; t < 1048576; t += 2) { + for (var g = Math.ceil(Math.sqrt(t)), I = 0; I < M && A[I] <= g && t % A[I] != 0; I++); + M !== I && A[I] <= g || (A[M++] = t) + } + return o = A + } + (), t = 0; t < M.length; t++) + if (0 === A.modn(M[t])) + return 0 === A.cmpn(M[t]); + return !0 + } + function Q(A) { + var M = e.mont(A); + return 0 === N.toRed(M).redPow(A.subn(1)).fromRed().cmpn(1) + } + function g(A, M) { + if (A < 16) + return new e(2 === M || 5 === M ? [140, 123] : [140, 39]); + var t, + g; + for (M = new e(M); ; ) { + for (t = new e(I(Math.ceil(A / 8))); t.bitLength() > A; ) + t.ishrn(1); + if (t.isEven() && t.iadd(E), t.testn(1) || t.iadd(N), M.cmp(N)) { + if (!M.cmp(n)) + for (; t.mod(D).cmp(C); ) + t.iadd(c) + } else + for (; t.mod(i).cmp(r); ) + t.iadd(c); + if (B(g = t.shrn(1)) && B(t) && Q(g) && Q(t) && T.test(g) && T.test(t)) + return t + } + } + }, function (A, M) { + A.exports = function (A) { + return A.webpackPolyfill || (A.deprecate = function () {}, A.paths = [], A.children || (A.children = []), Object.defineProperty(A, "loaded", { + enumerable: !0, + get: function () { + return A.l + } + }), Object.defineProperty(A, "id", { + enumerable: !0, + get: function () { + return A.i + } + }), A.webpackPolyfill = 1), + A + } + }, function (A, M, t) { + var r = t(7), + g = t(47); + function I(A) { + this.rand = A || new g.Rand + } + (A.exports = I).create = function (A) { + return new I(A) + }, + I.prototype._randbelow = function (A) { + var M = A.bitLength(), + t = Math.ceil(M / 8); + do { + var g = new r(this.rand.generate(t)) + } while (0 <= g.cmp(A)); + return g + }, + I.prototype._randrange = function (A, M) { + M = M.sub(A); + return A.add(this._randbelow(M)) + }, + I.prototype.test = function (A, M, t) { + var g = A.bitLength(), + I = r.mont(A), + e = new r(1).toRed(I); + M = M || Math.max(1, g / 48 | 0); + for (var i = A.subn(1), T = 0; !i.testn(T); T++); + for (var E = A.shrn(T), N = i.toRed(I); 0 < M; M--) { + var n = this._randrange(new r(2), i); + t && t(n); + var D = n.toRed(I).redPow(E); + if (0 !== D.cmp(e) && 0 !== D.cmp(N)) { + for (var C = 1; C < T; C++) { + if (0 === (D = D.redSqr()).cmp(e)) + return !1; + if (0 === D.cmp(N)) + break + } + if (C === T) + return !1 + } + } + return !0 + }, + I.prototype.getDivisor = function (A, M) { + var t = A.bitLength(), + g = r.mont(A), + I = new r(1).toRed(g); + M = M || Math.max(1, t / 48 | 0); + for (var e = A.subn(1), i = 0; !e.testn(i); i++); + for (var T = A.shrn(i), E = e.toRed(g); 0 < M; M--) { + var N = this._randrange(new r(2), e), + n = A.gcd(N); + if (0 !== n.cmpn(1)) + return n; + var D = N.toRed(g).redPow(T); + if (0 !== D.cmp(I) && 0 !== D.cmp(E)) { + for (var C = 1; C < i; C++) { + if (0 === (D = D.redSqr()).cmp(I)) + return D.fromRed().subn(1).gcd(A); + if (0 === D.cmp(E)) + break + } + if (C === i) + return (D = D.redSqr()).fromRed().subn(1).gcd(A) + } + } + return !1 + } + }, function (A, M, t) { + "use strict"; + function g(A) { + return 1 === A.length ? "0" + A : A + } + function I(A) { + for (var M = "", t = 0; t < A.length; t++) + M += g(A[t].toString(16)); + return M + } + M.toArray = function (A, M) { + if (Array.isArray(A)) + return A.slice(); + if (!A) + return []; + var t = []; + if ("string" != typeof A) { + for (var g = 0; g < A.length; g++) + t[g] = 0 | A[g]; + return t + } + if ("hex" === M) { + (A = A.replace(/[^a-z0-9]+/gi, "")).length % 2 != 0 && (A = "0" + A); + for (g = 0; g < A.length; g += 2) + t.push(parseInt(A[g] + A[g + 1], 16)) + } else + for (g = 0; g < A.length; g++) { + var I = A.charCodeAt(g), + e = I >> 8, + I = 255 & I; + e ? t.push(e, I) : t.push(I) + } + return t + }, + M.zero2 = g, + M.toHex = I, + M.encode = function (A, M) { + return "hex" === M ? I(A) : A + } + }, function (A, M, t) { + "use strict"; + M.base = t(34), + M.short = t(173), + M.mont = t(174), + M.edwards = t(175) + }, function (A, M, t) { + "use strict"; + var g = t(14).rotr32; + function I(A, M, t) { + return A & M ^ ~A & t + } + function e(A, M, t) { + return A & M ^ A & t ^ M & t + } + function i(A, M, t) { + return A ^ M ^ t + } + M.ft_1 = function (A, M, t, g) { + return 0 === A ? I(M, t, g) : 1 === A || 3 === A ? M ^ t ^ g : 2 === A ? e(M, t, g) : void 0 + }, + M.ch32 = I, + M.maj32 = e, + M.p32 = i, + M.s0_256 = function (A) { + return g(A, 2) ^ g(A, 13) ^ g(A, 22) + }, + M.s1_256 = function (A) { + return g(A, 6) ^ g(A, 11) ^ g(A, 25) + }, + M.g0_256 = function (A) { + return g(A, 7) ^ g(A, 18) ^ A >>> 3 + }, + M.g1_256 = function (A) { + return g(A, 17) ^ g(A, 19) ^ A >>> 10 + } + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(27), + e = t(97), + c = t(11), + o = g.sum32, + B = g.sum32_4, + Q = g.sum32_5, + a = e.ch32, + h = e.maj32, + s = e.s0_256, + y = e.s1_256, + w = e.g0_256, + j = e.g1_256, + i = I.BlockHash, + T = [1116352408, 1899447441, 3049323471, 3921009573, 961987163, 1508970993, 2453635748, 2870763221, 3624381080, 310598401, 607225278, 1426881987, 1925078388, 2162078206, 2614888103, 3248222580, 3835390401, 4022224774, 264347078, 604807628, 770255983, 1249150122, 1555081692, 1996064986, 2554220882, 2821834349, 2952996808, 3210313671, 3336571891, 3584528711, 113926993, 338241895, 666307205, 773529912, 1294757372, 1396182291, 1695183700, 1986661051, 2177026350, 2456956037, 2730485921, 2820302411, 3259730800, 3345764771, 3516065817, 3600352804, 4094571909, 275423344, 430227734, 506948616, 659060556, 883997877, 958139571, 1322822218, 1537002063, 1747873779, 1955562222, 2024104815, 2227730452, 2361852424, 2428436474, 2756734187, 3204031479, 3329325298]; + function E() { + if (!(this instanceof E)) + return new E; + i.call(this), + this.h = [1779033703, 3144134277, 1013904242, 2773480762, 1359893119, 2600822924, 528734635, 1541459225], + this.k = T, + this.W = new Array(64) + } + g.inherits(E, i), + (A.exports = E).blockSize = 512, + E.outSize = 256, + E.hmacStrength = 192, + E.padLength = 64, + E.prototype._update = function (A, M) { + for (var t = this.W, g = 0; g < 16; g++) + t[g] = A[M + g]; + for (; g < t.length; g++) + t[g] = B(j(t[g - 2]), t[g - 7], w(t[g - 15]), t[g - 16]); + var I = this.h[0], + e = this.h[1], + i = this.h[2], + T = this.h[3], + E = this.h[4], + N = this.h[5], + n = this.h[6], + D = this.h[7]; + for (c(this.k.length === t.length), g = 0; g < t.length; g++) + var C = Q(D, y(E), a(E, N, n), this.k[g], t[g]), r = o(s(I), h(I, e, i)), D = n, n = N, N = E, E = o(T, C), T = i, i = e, e = I, I = o(C, r); + this.h[0] = o(this.h[0], I), + this.h[1] = o(this.h[1], e), + this.h[2] = o(this.h[2], i), + this.h[3] = o(this.h[3], T), + this.h[4] = o(this.h[4], E), + this.h[5] = o(this.h[5], N), + this.h[6] = o(this.h[6], n), + this.h[7] = o(this.h[7], D) + }, + E.prototype._digest = function (A) { + return "hex" === A ? g.toHex32(this.h, "big") : g.split32(this.h, "big") + } + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(27), + l = t(11), + U = g.rotr64_hi, + f = g.rotr64_lo, + C = g.shr64_hi, + r = g.shr64_lo, + O = g.sum64, + m = g.sum64_hi, + F = g.sum64_lo, + c = g.sum64_4_hi, + o = g.sum64_4_lo, + R = g.sum64_5_hi, + k = g.sum64_5_lo, + e = I.BlockHash, + i = [1116352408, 3609767458, 1899447441, 602891725, 3049323471, 3964484399, 3921009573, 2173295548, 961987163, 4081628472, 1508970993, 3053834265, 2453635748, 2937671579, 2870763221, 3664609560, 3624381080, 2734883394, 310598401, 1164996542, 607225278, 1323610764, 1426881987, 3590304994, 1925078388, 4068182383, 2162078206, 991336113, 2614888103, 633803317, 3248222580, 3479774868, 3835390401, 2666613458, 4022224774, 944711139, 264347078, 2341262773, 604807628, 2007800933, 770255983, 1495990901, 1249150122, 1856431235, 1555081692, 3175218132, 1996064986, 2198950837, 2554220882, 3999719339, 2821834349, 766784016, 2952996808, 2566594879, 3210313671, 3203337956, 3336571891, 1034457026, 3584528711, 2466948901, 113926993, 3758326383, 338241895, 168717936, 666307205, 1188179964, 773529912, 1546045734, 1294757372, 1522805485, 1396182291, 2643833823, 1695183700, 2343527390, 1986661051, 1014477480, 2177026350, 1206759142, 2456956037, 344077627, 2730485921, 1290863460, 2820302411, 3158454273, 3259730800, 3505952657, 3345764771, 106217008, 3516065817, 3606008344, 3600352804, 1432725776, 4094571909, 1467031594, 275423344, 851169720, 430227734, 3100823752, 506948616, 1363258195, 659060556, 3750685593, 883997877, 3785050280, 958139571, 3318307427, 1322822218, 3812723403, 1537002063, 2003034995, 1747873779, 3602036899, 1955562222, 1575990012, 2024104815, 1125592928, 2227730452, 2716904306, 2361852424, 442776044, 2428436474, 593698344, 2756734187, 3733110249, 3204031479, 2999351573, 3329325298, 3815920427, 3391569614, 3928383900, 3515267271, 566280711, 3940187606, 3454069534, 4118630271, 4000239992, 116418474, 1914138554, 174292421, 2731055270, 289380356, 3203993006, 460393269, 320620315, 685471733, 587496836, 852142971, 1086792851, 1017036298, 365543100, 1126000580, 2618297676, 1288033470, 3409855158, 1501505948, 4234509866, 1607167915, 987167468, 1816402316, 1246189591]; + function T() { + if (!(this instanceof T)) + return new T; + e.call(this), + this.h = [1779033703, 4089235720, 3144134277, 2227873595, 1013904242, 4271175723, 2773480762, 1595750129, 1359893119, 2917565137, 2600822924, 725511199, 528734635, 4215389547, 1541459225, 327033209], + this.k = i, + this.W = new Array(160) + } + g.inherits(T, e), + (A.exports = T).blockSize = 1024, + T.outSize = 512, + T.hmacStrength = 192, + T.padLength = 128, + T.prototype._prepareBlock = function (A, M) { + for (var t = this.W, g = 0; g < 32; g++) + t[g] = A[M + g]; + for (; g < t.length; g += 2) { + var I = function (A, M) { + var t = U(A, M, 19), + g = U(M, A, 29), + M = C(A, M, 6), + M = t ^ g ^ M; + M < 0 && (M += 4294967296); + return M + } + (t[g - 4], t[g - 3]), + e = function (A, M) { + var t = f(A, M, 19), + g = f(M, A, 29), + M = r(A, M, 6), + M = t ^ g ^ M; + M < 0 && (M += 4294967296); + return M + } + (t[g - 4], t[g - 3]), + i = t[g - 14], + T = t[g - 13], + E = function (A, M) { + var t = U(A, M, 1), + g = U(A, M, 8), + M = C(A, M, 7), + M = t ^ g ^ M; + M < 0 && (M += 4294967296); + return M + } + (t[g - 30], t[g - 29]), + N = function (A, M) { + var t = f(A, M, 1), + g = f(A, M, 8), + M = r(A, M, 7), + M = t ^ g ^ M; + M < 0 && (M += 4294967296); + return M + } + (t[g - 30], t[g - 29]), + n = t[g - 32], + D = t[g - 31]; + t[g] = c(I, e, i, T, E, N, n, D), + t[g + 1] = o(I, e, i, T, E, N, n, D) + } + }, + T.prototype._update = function (A, M) { + this._prepareBlock(A, M); + var t = this.W, + g = this.h[0], + I = this.h[1], + e = this.h[2], + i = this.h[3], + T = this.h[4], + E = this.h[5], + N = this.h[6], + n = this.h[7], + D = this.h[8], + C = this.h[9], + r = this.h[10], + c = this.h[11], + o = this.h[12], + B = this.h[13], + Q = this.h[14], + a = this.h[15]; + l(this.k.length === t.length); + for (var h = 0; h < t.length; h += 2) + var s = Q, y = a, w = function (A, M) { + var t = U(A, M, 14), + g = U(A, M, 18), + A = U(M, A, 9), + A = t ^ g ^ A; + A < 0 && (A += 4294967296); + return A + } + (D, C), + j = function (A, M) { + var t = f(A, M, 14), + g = f(A, M, 18), + A = f(M, A, 9), + A = t ^ g ^ A; + A < 0 && (A += 4294967296); + return A + } + (D, C), + L = function (A, M, t) { + t = A & M ^ ~A & t; + t < 0 && (t += 4294967296); + return t + } + (D, r, o), + d = function (A, M, t) { + t = A & M ^ ~A & t; + t < 0 && (t += 4294967296); + return t + } + (C, c, B), + x = this.k[h], + Y = this.k[h + 1], + u = t[h], + S = t[h + 1], + z = R(s, y, w, j, L, d, x, Y, u, S), + u = k(s, y, w, j, L, d, x, Y, u, S), + s = function (A, M) { + var t = U(A, M, 28), + g = U(M, A, 2), + A = U(M, A, 7), + A = t ^ g ^ A; + A < 0 && (A += 4294967296); + return A + } + (g, I), + y = function (A, M) { + var t = f(A, M, 28), + g = f(M, A, 2), + A = f(M, A, 7), + A = t ^ g ^ A; + A < 0 && (A += 4294967296); + return A + } + (g, I), + w = function (A, M, t) { + t = A & M ^ A & t ^ M & t; + t < 0 && (t += 4294967296); + return t + } + (g, e, T), + j = function (A, M, t) { + t = A & M ^ A & t ^ M & t; + t < 0 && (t += 4294967296); + return t + } + (I, i, E), + S = m(s, y, w, j), + j = F(s, y, w, j), + Q = o, + a = B, + o = r, + B = c, + r = D, + c = C, + D = m(N, n, z, u), + C = F(n, n, z, u), + N = T, + n = E, + T = e, + E = i, + e = g, + i = I, + g = m(z, u, S, j), + I = F(z, u, S, j); + O(this.h, 0, g, I), + O(this.h, 2, e, i), + O(this.h, 4, T, E), + O(this.h, 6, N, n), + O(this.h, 8, D, C), + O(this.h, 10, r, c), + O(this.h, 12, o, B), + O(this.h, 14, Q, a) + }, + T.prototype._digest = function (A) { + return "hex" === A ? g.toHex32(this.h, "big") : g.split32(this.h, "big") + } + }, function (A, M, t) { + "use strict"; + M.bignum = t(7), + M.define = t(191).define, + M.base = t(194), + M.constants = t(195), + M.decoders = t(103), + M.encoders = t(101) + }, function (A, M, t) { + "use strict"; + M.der = t(102), + M.pem = t(192) + }, function (A, M, t) { + "use strict"; + var g = t(3), + C = t(53).Buffer, + I = t(54), + N = t(56); + function e(A) { + this.enc = "der", + this.name = A.name, + this.entity = A, + this.tree = new i, + this.tree._init(A.body) + } + function i(A) { + I.call(this, "der", A) + } + function T(A) { + return A < 10 ? "0" + A : A + } + (A.exports = e).prototype.encode = function (A, M) { + return this.tree._encode(A, M).join() + }, + g(i, I), + i.prototype._encodeComposite = function (A, M, t, g) { + M = function (A, M, t, g) { + var I; + "seqof" === A ? A = "seq" : "setof" === A && (A = "set"); + if (N.tagByName.hasOwnProperty(A)) + I = N.tagByName[A]; + else { + if ("number" != typeof A || (0 | A) !== A) + return g.error("Unknown tag: " + A); + I = A + } + if (31 <= I) + return g.error("Multi-octet tag encoding unsupported"); + M || (I |= 32); + return I |= N.tagClassByName[t || "universal"] << 6 + } + (A, M, t, this.reporter); + if (g.length < 128) { + t = C.alloc(2); + return t[0] = M, + t[1] = g.length, + this._createEncoderBuffer([t, g]) + } + for (var I = 1, e = g.length; 256 <= e; e >>= 8) + I++; + var i = C.alloc(2 + I); + i[0] = M, + i[1] = 128 | I; + for (var T = 1 + I, E = g.length; 0 < E; T--, E >>= 8) + i[T] = 255 & E; + return this._createEncoderBuffer([i, g]) + }, + i.prototype._encodeStr = function (A, M) { + if ("bitstr" === M) + return this._createEncoderBuffer([0 | A.unused, A.data]); + if ("bmpstr" !== M) + return "numstr" === M ? this._isNumstr(A) ? this._createEncoderBuffer(A) : this.reporter.error("Encoding of string type: numstr supports only digits and space") : "printstr" === M ? this._isPrintstr(A) ? this._createEncoderBuffer(A) : this.reporter.error("Encoding of string type: printstr supports only latin upper and lower case letters, digits, space, apostrophe, left and rigth parenthesis, plus sign, comma, hyphen, dot, slash, colon, equal sign, question mark") : /str$/.test(M) || "objDesc" === M ? this._createEncoderBuffer(A) : this.reporter.error("Encoding of string type: " + M + " unsupported"); + for (var t = C.alloc(2 * A.length), g = 0; g < A.length; g++) + t.writeUInt16BE(A.charCodeAt(g), 2 * g); + return this._createEncoderBuffer(t) + }, + i.prototype._encodeObjid = function (A, M, t) { + if ("string" == typeof A) { + if (!M) + return this.reporter.error("string objid given, but no values map found"); + if (!M.hasOwnProperty(A)) + return this.reporter.error("objid not found in values map"); + A = M[A].split(/[\s.]+/g); + for (var g = 0; g < A.length; g++) + A[g] |= 0 + } else if (Array.isArray(A)) { + A = A.slice(); + for (var I = 0; I < A.length; I++) + A[I] |= 0 + } + if (!Array.isArray(A)) + return this.reporter.error("objid() should be either array or string, got: " + JSON.stringify(A)); + if (!t) { + if (40 <= A[1]) + return this.reporter.error("Second objid identifier OOB"); + A.splice(0, 2, 40 * A[0] + A[1]) + } + for (var e = 0, i = 0; i < A.length; i++) { + var T = A[i]; + for (e++; 128 <= T; T >>= 7) + e++ + } + for (var E = C.alloc(e), N = E.length - 1, n = A.length - 1; 0 <= n; n--) { + var D = A[n]; + for (E[N--] = 127 & D; 0 < (D >>= 7); ) + E[N--] = 128 | 127 & D + } + return this._createEncoderBuffer(E) + }, + i.prototype._encodeTime = function (A, M) { + var t, + A = new Date(A); + return "gentime" === M ? t = [T(A.getUTCFullYear()), T(A.getUTCMonth() + 1), T(A.getUTCDate()), T(A.getUTCHours()), T(A.getUTCMinutes()), T(A.getUTCSeconds()), "Z"].join("") : "utctime" === M ? t = [T(A.getUTCFullYear() % 100), T(A.getUTCMonth() + 1), T(A.getUTCDate()), T(A.getUTCHours()), T(A.getUTCMinutes()), T(A.getUTCSeconds()), "Z"].join("") : this.reporter.error("Encoding " + M + " time is not supported yet"), + this._encodeStr(t, "octstr") + }, + i.prototype._encodeNull = function () { + return this._createEncoderBuffer("") + }, + i.prototype._encodeInt = function (A, M) { + if ("string" == typeof A) { + if (!M) + return this.reporter.error("String int or enum given, but no values map"); + if (!M.hasOwnProperty(A)) + return this.reporter.error("Values map doesn't contain: " + JSON.stringify(A)); + A = M[A] + } + if ("number" == typeof A || C.isBuffer(A) || (t = A.toArray(), !A.sign && 128 & t[0] && t.unshift(0), A = C.from(t)), C.isBuffer(A)) { + var t = A.length; + 0 === A.length && t++; + t = C.alloc(t); + return A.copy(t), + 0 === A.length && (t[0] = 0), + this._createEncoderBuffer(t) + } + if (A < 128) + return this._createEncoderBuffer(A); + if (A < 256) + return this._createEncoderBuffer([0, A]); + for (var g = 1, I = A; 256 <= I; I >>= 8) + g++; + for (var e = new Array(g), i = e.length - 1; 0 <= i; i--) + e[i] = 255 & A, A >>= 8; + return 128 & e[0] && e.unshift(0), + this._createEncoderBuffer(C.from(e)) + }, + i.prototype._encodeBool = function (A) { + return this._createEncoderBuffer(A ? 255 : 0) + }, + i.prototype._use = function (A, M) { + return "function" == typeof A && (A = A(M)), + A._getEncoder("der").tree + }, + i.prototype._skipDefault = function (A, M, t) { + var g, + I = this._baseState; + if (null === I.default) + return !1; + var e = A.join(); + if (void 0 === I.defaultBuffer && (I.defaultBuffer = this._encodeValue(I.default, M, t).join()), e.length !== I.defaultBuffer.length) + return !1; + for (g = 0; g < e.length; g++) + if (e[g] !== I.defaultBuffer[g]) + return !1; + return !0 + } + }, function (A, M, t) { + "use strict"; + M.der = t(104), + M.pem = t(193) + }, function (A, M, t) { + "use strict"; + var g = t(3), + I = t(7), + e = t(28).DecoderBuffer, + i = t(54), + T = t(56); + function E(A) { + this.enc = "der", + this.name = A.name, + this.entity = A, + this.tree = new N, + this.tree._init(A.body) + } + function N(A) { + i.call(this, "der", A) + } + function n(A, M) { + var t = A.readUInt8(M); + if (A.isError(t)) + return t; + var g = T.tagClass[t >> 6], + I = 0 == (32 & t); + if (31 == (31 & t)) + for (var e = t, t = 0; 128 == (128 & e); ) { + if (e = A.readUInt8(M), A.isError(e)) + return e; + t <<= 7, + t |= 127 & e + } + else + t &= 31; + return { + cls: g, + primitive: I, + tag: t, + tagStr: T.tag[t] + } + } + function D(A, M, t) { + var g = A.readUInt8(t); + if (A.isError(g)) + return g; + if (!M && 128 === g) + return null; + if (0 == (128 & g)) + return g; + var I = 127 & g; + if (4 < I) + return A.error("length octect is too long"); + for (var e = g = 0; e < I; e++) { + g <<= 8; + var i = A.readUInt8(t); + if (A.isError(i)) + return i; + g |= i + } + return g + } + (A.exports = E).prototype.decode = function (A, M) { + return e.isDecoderBuffer(A) || (A = new e(A, M)), + this.tree._decode(A, M) + }, + g(N, i), + N.prototype._peekTag = function (A, M, t) { + if (A.isEmpty()) + return !1; + var g = A.save(), + I = n(A, 'Failed to peek tag: "' + M + '"'); + return A.isError(I) ? I : (A.restore(g), I.tag === M || I.tagStr === M || I.tagStr + "of" === M || t) + }, + N.prototype._decodeTag = function (A, M, t) { + var g = n(A, 'Failed to decode tag of "' + M + '"'); + if (A.isError(g)) + return g; + var I = D(A, g.primitive, 'Failed to get length of "' + M + '"'); + if (A.isError(I)) + return I; + if (!t && g.tag !== M && g.tagStr !== M && g.tagStr + "of" !== M) + return A.error('Failed to match tag: "' + M + '"'); + if (g.primitive || null !== I) + return A.skip(I, 'Failed to match body of: "' + M + '"'); + t = A.save(), + g = this._skipUntilEnd(A, 'Failed to skip indefinite length body: "' + this.tag + '"'); + return A.isError(g) ? g : (I = A.offset - t.offset, A.restore(t), A.skip(I, 'Failed to match body of: "' + M + '"')) + }, + N.prototype._skipUntilEnd = function (A, M) { + for (; ; ) { + var t = n(A, M); + if (A.isError(t)) + return t; + var g = D(A, t.primitive, M); + if (A.isError(g)) + return g; + var I = void 0, + I = t.primitive || null !== g ? A.skip(g) : this._skipUntilEnd(A, M); + if (A.isError(I)) + return I; + if ("end" === t.tagStr) + break + } + }, + N.prototype._decodeList = function (A, M, t, g) { + for (var I = []; !A.isEmpty(); ) { + var e = this._peekTag(A, "end"); + if (A.isError(e)) + return e; + var i = t.decode(A, "der", g); + if (A.isError(i) && e) + break; + I.push(i) + } + return I + }, + N.prototype._decodeStr = function (A, M) { + if ("bitstr" === M) { + var t = A.readUInt8(); + return A.isError(t) ? t : { + unused: t, + data: A.raw() + } + } + if ("bmpstr" === M) { + var g = A.raw(); + if (g.length % 2 == 1) + return A.error("Decoding of string type: bmpstr length mismatch"); + for (var I = "", e = 0; e < g.length / 2; e++) + I += String.fromCharCode(g.readUInt16BE(2 * e)); + return I + } + if ("numstr" === M) { + t = A.raw().toString("ascii"); + return this._isNumstr(t) ? t : A.error("Decoding of string type: numstr unsupported characters") + } + if ("octstr" === M) + return A.raw(); + if ("objDesc" === M) + return A.raw(); + if ("printstr" !== M) + return /str$/.test(M) ? A.raw().toString() : A.error("Decoding of string type: " + M + " unsupported"); + M = A.raw().toString("ascii"); + return this._isPrintstr(M) ? M : A.error("Decoding of string type: printstr unsupported characters") + }, + N.prototype._decodeObjid = function (A, M, t) { + for (var g = [], I = 0, e = 0; !A.isEmpty(); ) + I <<= 7, I |= 127 & (e = A.readUInt8()), 0 == (128 & e) && (g.push(I), I = 0); + 128 & e && g.push(I); + var i = g[0] / 40 | 0, + T = g[0] % 40, + i = t ? g : [i, T].concat(g.slice(1)); + return M && (void 0 === (T = M[i.join(" ")]) && (T = M[i.join(".")]), void 0 !== T && (i = T)), + i + }, + N.prototype._decodeTime = function (A, M) { + var t, + g, + I, + e, + i, + T, + E = A.raw().toString(); + if ("gentime" === M) + t = 0 | E.slice(0, 4), g = 0 | E.slice(4, 6), I = 0 | E.slice(6, 8), e = 0 | E.slice(8, 10), i = 0 | E.slice(10, 12), T = 0 | E.slice(12, 14); + else { + if ("utctime" !== M) + return A.error("Decoding " + M + " time is not supported yet"); + t = 0 | E.slice(0, 2), + g = 0 | E.slice(2, 4), + I = 0 | E.slice(4, 6), + e = 0 | E.slice(6, 8), + i = 0 | E.slice(8, 10), + T = 0 | E.slice(10, 12), + t = t < 70 ? 2e3 + t : 1900 + t + } + return Date.UTC(t, g - 1, I, e, i, T, 0) + }, + N.prototype._decodeNull = function () { + return null + }, + N.prototype._decodeBool = function (A) { + var M = A.readUInt8(); + return A.isError(M) ? M : 0 !== M + }, + N.prototype._decodeInt = function (A, M) { + A = A.raw(), + A = new I(A); + return M && (A = M[A.toString(10)] || A), + A + }, + N.prototype._use = function (A, M) { + return "function" == typeof A && (A = A(M)), + A._getDecoder("der").tree + } + }, function (A) { + A.exports = JSON.parse('{"1.3.132.0.10":"secp256k1","1.3.132.0.33":"p224","1.2.840.10045.3.1.1":"p192","1.2.840.10045.3.1.7":"p256","1.3.132.0.34":"p384","1.3.132.0.35":"p521"}') + }, function (A, M, t) { + var i = t(23), + T = t(4).Buffer; + A.exports = function (A, M) { + for (var t, g, I = T.alloc(0), e = 0; I.length < M; ) + t = e++, g = void 0, (g = T.allocUnsafe(4)).writeUInt32BE(t, 0), g = g, I = T.concat([I, i("sha1").update(A).update(g).digest()]); + return I.slice(0, M) + } + }, function (A, M) { + A.exports = function (A, M) { + for (var t = A.length, g = -1; ++g < t; ) + A[g] ^= M[g]; + return A + } + }, function (A, M, t) { + var g = t(7), + I = t(4).Buffer; + A.exports = function (A, M) { + return I.from(A.toRed(g.mont(M.modulus)).redPow(new g(M.publicExponent)).fromRed().toArray()) + } + }, function (A, M, t) { + "use strict"; + A.exports = function (A, M) { + return M = M || {}, + "string" != typeof(A = A && A.__esModule ? A.default : A) ? A : (/^['"].*['"]$/.test(A) && (A = A.slice(1, -1)), M.hash && (A += M.hash), /["'() \t\n]/.test(A) || M.needQuotes ? '"'.concat(A.replace(/"/g, '\\"').replace(/\n/g, "\\n"), '"') : A) + } + }, function (M, A, t) { + "use strict"; + (function (I) { + var A, + e = (A = t(113)) && "object" == typeof A && "default" in A ? A.default : A; + M.exports = function (A) { + for (var M = (A = A, e.atob ? e.atob(A) : I.from(A, "base64").toString("binary")), t = new Uint8Array(M.length), g = 0; g < M.length; g++) + t[g] = M.charCodeAt(g); + return t + } + }).call(this, t(9).Buffer) + }, function (A, M, t) { + "use strict"; + M.byteLength = function (A) { + var M = n(A), + A = M[0], + M = M[1]; + return 3 * (A + M) / 4 - M + }, + M.toByteArray = function (A) { + var M, + t, + g = n(A), + I = g[0], + g = g[1], + e = new N(function (A, M) { + return 3 * (A + M) / 4 - M + } + (I, g)), + i = 0, + T = 0 < g ? I - 4 : I; + for (t = 0; t < T; t += 4) + M = E[A.charCodeAt(t)] << 18 | E[A.charCodeAt(t + 1)] << 12 | E[A.charCodeAt(t + 2)] << 6 | E[A.charCodeAt(t + 3)], e[i++] = M >> 16 & 255, e[i++] = M >> 8 & 255, e[i++] = 255 & M; + 2 === g && (M = E[A.charCodeAt(t)] << 2 | E[A.charCodeAt(t + 1)] >> 4, e[i++] = 255 & M); + 1 === g && (M = E[A.charCodeAt(t)] << 10 | E[A.charCodeAt(t + 1)] << 4 | E[A.charCodeAt(t + 2)] >> 2, e[i++] = M >> 8 & 255, e[i++] = 255 & M); + return e + }, + M.fromByteArray = function (A) { + for (var M, t = A.length, g = t % 3, I = [], e = 0, i = t - g; e < i; e += 16383) + I.push(function (A, M, t) { + for (var g, I = [], e = M; e < t; e += 3) + g = (A[e] << 16 & 16711680) + (A[e + 1] << 8 & 65280) + (255 & A[e + 2]), I.push(function (A) { + return T[A >> 18 & 63] + T[A >> 12 & 63] + T[A >> 6 & 63] + T[63 & A] + } + (g)); + return I.join("") + } + (A, e, i < e + 16383 ? i : e + 16383)); + 1 == g ? (M = A[t - 1], I.push(T[M >> 2] + T[M << 4 & 63] + "==")) : 2 == g && (M = (A[t - 2] << 8) + A[t - 1], I.push(T[M >> 10] + T[M >> 4 & 63] + T[M << 2 & 63] + "=")); + return I.join("") + }; + for (var T = [], E = [], N = "undefined" != typeof Uint8Array ? Uint8Array : Array, g = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/", I = 0, e = g.length; I < e; ++I) + T[I] = g[I], E[g.charCodeAt(I)] = I; + function n(A) { + var M = A.length; + if (0 < M % 4) + throw new Error("Invalid string. Length must be a multiple of 4"); + A = A.indexOf("="); + return -1 === A && (A = M), + [A, A === M ? 0 : 4 - A % 4] + } + E["-".charCodeAt(0)] = 62, + E["_".charCodeAt(0)] = 63 + }, function (A, M) { + /*! ieee754. BSD-3-Clause License. Feross Aboukhadijeh */ + M.read = function (A, M, t, g, I) { + var e, + i, + T = 8 * I - g - 1, + E = (1 << T) - 1, + N = E >> 1, + n = -7, + D = t ? I - 1 : 0, + C = t ? -1 : 1, + t = A[M + D]; + for (D += C, e = t & (1 << -n) - 1, t >>= -n, n += T; 0 < n; e = 256 * e + A[M + D], D += C, n -= 8); + for (i = e & (1 << -n) - 1, e >>= -n, n += g; 0 < n; i = 256 * i + A[M + D], D += C, n -= 8); + if (0 === e) + e = 1 - N; + else { + if (e === E) + return i ? NaN : 1 / 0 * (t ? -1 : 1); + i += Math.pow(2, g), + e -= N + } + return (t ? -1 : 1) * i * Math.pow(2, e - g) + }, + M.write = function (A, M, t, g, I, e) { + var i, + T, + E = 8 * e - I - 1, + N = (1 << E) - 1, + n = N >> 1, + D = 23 === I ? Math.pow(2, -24) - Math.pow(2, -77) : 0, + C = g ? 0 : e - 1, + r = g ? 1 : -1, + e = M < 0 || 0 === M && 1 / M < 0 ? 1 : 0; + for (M = Math.abs(M), isNaN(M) || M === 1 / 0 ? (T = isNaN(M) ? 1 : 0, i = N) : (i = Math.floor(Math.log(M) / Math.LN2), M * (g = Math.pow(2, -i)) < 1 && (i--, g *= 2), 2 <= (M += 1 <= i + n ? D / g : D * Math.pow(2, 1 - n)) * g && (i++, g /= 2), N <= i + n ? (T = 0, i = N) : 1 <= i + n ? (T = (M * g - 1) * Math.pow(2, I), i += n) : (T = M * Math.pow(2, n - 1) * Math.pow(2, I), i = 0)); 8 <= I; A[t + C] = 255 & T, C += r, T /= 256, I -= 8); + for (i = i << I | T, E += I; 0 < E; A[t + C] = 255 & i, C += r, i /= 256, E -= 8); + A[t + C - r] |= 128 * e + } + }, function (M, A, t) { + (function (A) { + A = "undefined" != typeof window ? window : void 0 !== A ? A : "undefined" != typeof self ? self : {}; + M.exports = A + }).call(this, t(10)) + }, function (A, M, t) { + (function (gA, IA) { + /*! + * @overview es6-promise - a tiny implementation of Promises/A+. + * @copyright Copyright (c) 2014 Yehuda Katz, Tom Dale, Stefan Penner and contributors (Conversion to ES6 API by Jake Archibald) + * @license Licensed under MIT license + * See https://raw.githubusercontent.com/stefanpenner/es6-promise/master/LICENSE + * @version v4.2.8+1e68dce6 + */ + A.exports = function () { + "use strict"; + function g(A) { + var M = typeof A; + return A !== null && (M === "object" || M === "function") + } + function E(A) { + return typeof A === "function" + } + var A = void 0; + if (Array.isArray) + A = Array.isArray; + else + A = function A(M) { + return Object.prototype.toString.call(M) === "[object Array]" + }; + var t = A, + I = 0, + M = void 0, + e = void 0, + i = function A(M, t) { + s[I] = M; + s[I + 1] = t; + I += 2; + if (I === 2) + if (e) + e(y); + else + j() + }; + function T(A) { + e = A + } + function N(A) { + i = A + } + var n = typeof window !== "undefined" ? window : undefined, + D = n || {}, + C = D.MutationObserver || D.WebKitMutationObserver, + r = typeof self === "undefined" && typeof gA !== "undefined" && {} + .toString.call(gA) === "[object process]", + c = typeof Uint8ClampedArray !== "undefined" && typeof importScripts !== "undefined" && typeof MessageChannel !== "undefined"; + function o() { + return function () { + return gA.nextTick(y) + } + } + function B() { + if (typeof M !== "undefined") + return function () { + M(y) + }; + return h() + } + function Q() { + var A = 0; + var M = new C(y); + var t = document.createTextNode(""); + M.observe(t, { + characterData: true + }); + return function () { + t.data = A = ++A % 2 + } + } + function a() { + var A = new MessageChannel; + A.port1.onmessage = y; + return function () { + return A.port2.postMessage(0) + } + } + function h() { + var A = setTimeout; + return function () { + return A(y, 1) + } + } + var s = new Array(1e3); + function y() { + for (var A = 0; A < I; A += 2) { + var M = s[A]; + var t = s[A + 1]; + M(t); + s[A] = undefined; + s[A + 1] = undefined + } + I = 0 + } + function w() { + try { + var A = Function("return this")().require("vertx"); + M = A.runOnLoop || A.runOnContext; + return B() + } catch (A) { + return h() + } + } + var j = void 0; + if (r) + j = o(); + else if (C) + j = Q(); + else if (c) + j = a(); + else if (n === undefined && "function" === "function") + j = w(); + else + j = h(); + function L(A, M) { + var t = this; + var g = new this.constructor(Y); + if (g[x] === undefined) + W(g); + var I = t._state; + if (I) { + var e = arguments[I - 1]; + i(function () { + return H(I, g, e, t._result) + }) + } else + G(t, g, A, M); + return g + } + function d(A) { + var M = this; + if (A && typeof A === "object" && A.constructor === M) + return A; + var t = new M(Y); + R(t, A); + return t + } + var x = Math.random().toString(36).substring(2); + function Y() {} + var u = void 0, + S = 1, + z = 2; + function l() { + return new TypeError("You cannot resolve a promise with itself") + } + function U() { + return new TypeError("A promises callback cannot return that same promise.") + } + function f(A, M, t, g) { + try { + A.call(M, t, g) + } catch (A) { + return A + } + } + function O(A, g, I) { + i(function (M) { + var t = false; + var A = f(I, g, function (A) { + if (t) + return; + t = true; + if (g !== A) + R(M, A); + else + p(M, A) + }, function (A) { + if (t) + return; + t = true; + b(M, A) + }, "Settle: " + (M._label || " unknown promise")); + if (!t && A) { + t = true; + b(M, A) + } + }, A) + } + function m(M, A) { + if (A._state === S) + p(M, A._result); + else if (A._state === z) + b(M, A._result); + else + G(A, undefined, function (A) { + return R(M, A) + }, function (A) { + return b(M, A) + }) + } + function F(A, M, t) { + if (M.constructor === A.constructor && t === L && M.constructor.resolve === d) + m(A, M); + else if (t === undefined) + p(A, M); + else if (E(t)) + O(A, M, t); + else + p(A, M) + } + function R(M, A) { + if (M === A) + b(M, l()); + else if (g(A)) { + var t = void 0; + try { + t = A.then + } catch (A) { + b(M, A); + return + } + F(M, A, t) + } else + p(M, A) + } + function k(A) { + if (A._onerror) + A._onerror(A._result); + J(A) + } + function p(A, M) { + if (A._state !== u) + return; + A._result = M; + A._state = S; + if (A._subscribers.length !== 0) + i(J, A) + } + function b(A, M) { + if (A._state !== u) + return; + A._state = z; + A._result = M; + i(k, A) + } + function G(A, M, t, g) { + var I = A._subscribers; + var e = I.length; + A._onerror = null; + I[e] = M; + I[e + S] = t; + I[e + z] = g; + if (e === 0 && A._state) + i(J, A) + } + function J(A) { + var M = A._subscribers; + var t = A._state; + if (M.length === 0) + return; + var g = void 0, + I = void 0, + e = A._result; + for (var i = 0; i < M.length; i += 3) { + g = M[i]; + I = M[i + t]; + if (g) + H(t, g, I, e); + else + I(e) + } + A._subscribers.length = 0 + } + function H(A, M, t, g) { + var I = E(t), + e = void 0, + i = void 0, + T = true; + if (I) { + try { + e = t(g) + } catch (A) { + T = false; + i = A + } + if (M === e) { + b(M, U()); + return + } + } else + e = g; + if (M._state !== u); + else if (I && T) + R(M, e); + else if (T === false) + b(M, i); + else if (A === S) + p(M, e); + else if (A === z) + b(M, e) + } + function X(t, A) { + try { + A(function A(M) { + R(t, M) + }, function A(M) { + b(t, M) + }) + } catch (A) { + b(t, A) + } + } + var v = 0; + function V() { + return v++ + } + function W(A) { + A[x] = v++; + A._state = undefined; + A._result = undefined; + A._subscribers = [] + } + function P() { + return new Error("Array Methods must be provided an Array") + } + var Z = function () { + function A(A, M) { + this._instanceConstructor = A; + this.promise = new A(Y); + if (!this.promise[x]) + W(this.promise); + if (t(M)) { + this.length = M.length; + this._remaining = M.length; + this._result = new Array(this.length); + if (this.length === 0) + p(this.promise, this._result); + else { + this.length = this.length || 0; + this._enumerate(M); + if (this._remaining === 0) + p(this.promise, this._result) + } + } else + b(this.promise, P()) + } + A.prototype._enumerate = function A(M) { + for (var t = 0; this._state === u && t < M.length; t++) + this._eachEntry(M[t], t) + }; + A.prototype._eachEntry = function A(M, t) { + var g = this._instanceConstructor; + var I = g.resolve; + if (I === d) { + var e = void 0; + var i = void 0; + var T = false; + try { + e = M.then + } catch (A) { + T = true; + i = A + } + if (e === L && M._state !== u) + this._settledAt(M._state, t, M._result); + else if (typeof e !== "function") { + this._remaining--; + this._result[t] = M + } else if (g === MA) { + var E = new g(Y); + if (T) + b(E, i); + else + F(E, M, e); + this._willSettleAt(E, t) + } else + this._willSettleAt(new g(function (A) { + return A(M) + }), t) + } else + this._willSettleAt(I(M), t) + }; + A.prototype._settledAt = function A(M, t, g) { + var I = this.promise; + if (I._state === u) { + this._remaining--; + if (M === z) + b(I, g); + else + this._result[t] = g + } + if (this._remaining === 0) + p(I, this._result) + }; + A.prototype._willSettleAt = function A(M, t) { + var g = this; + G(M, undefined, function (A) { + return g._settledAt(S, t, A) + }, function (A) { + return g._settledAt(z, t, A) + }) + }; + return A + } + (); + function K(A) { + return new Z(this, A).promise + } + function q(I) { + var e = this; + if (t(I)) + return new e(function (A, M) { + for (var t = I.length, g = 0; g < t; g++) + e.resolve(I[g]).then(A, M) + }); + else + return new e(function (A, M) { + return M(new TypeError("You must pass an array to race.")) + }) + } + function _(A) { + var M = new this(Y); + return b(M, A), + M + } + function $() { + throw new TypeError("You must pass a resolver function as the first argument to the promise constructor") + } + function AA() { + throw new TypeError("Failed to construct 'Promise': Please use the 'new' operator, this object constructor cannot be called as a function.") + } + var MA = function () { + function M(A) { + this[x] = V(); + this._result = this._state = undefined; + this._subscribers = []; + if (Y !== A) { + typeof A !== "function" && $(); + this instanceof M ? 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(g[n] = null, g[i] = null, g[T] = null, A(r(t, !1))) : (g[i] = A, g[T] = M) + }, + writable: !0 + }), M)); + return g[n] = null, + I(A, function (A) { + if (A && "ERR_STREAM_PREMATURE_CLOSE" !== A.code) { + var M = g[T]; + return null !== M && (g[n] = null, g[i] = null, g[T] = null, M(A)), + void(g[E] = A) + } + A = g[i]; + null !== A && (g[n] = null, g[i] = null, A(r(void 0, !(g[T] = null)))), + g[N] = !0 + }), + A.on("readable", function (A) { + e.nextTick(c, A) + } + .bind(null, g)), + g + } + }).call(this, B(8)) + }, function (A, M) { + A.exports = function () { + throw new Error("Readable.from is not available in the browser") + } + }, function (A, M, t) { + "use strict"; + A.exports = I; + var g = t(70); + function I(A) { + if (!(this instanceof I)) + return new I(A); + g.call(this, A) + } + t(3)(I, g), + I.prototype._transform = function (A, M, t) { + t(null, A) + } + }, function (A, M, E) { + "use strict"; + var N; + var t = E(19).codes, + T = t.ERR_MISSING_ARGS, + n = t.ERR_STREAM_DESTROYED; + function D(A) { + if (A) + throw A + } + function C(t, A, M, g) { + var I, + e; + I = g, + e = !1; + var i = !(g = function () { + e || (e = !0, I.apply(void 0, arguments)) + }); + t.on("close", function () { + i = !0 + }), + void 0 === N && (N = E(38)), + N(t, { + readable: A, + writable: M + }, function (A) { + return A ? g(A) : (i = !0, void g()) + }); + var T = !1; + return function (A) { + var M; + if (!i && !T) + return T = !0, (M = t).setHeader && "function" == typeof M.abort ? t.abort() : "function" == typeof t.destroy ? t.destroy() : void g(A || new n("pipe")) + } + } + function r(A) { + A() + } + function c(A, M) { + return A.pipe(M) + } + A.exports = function () { + for (var A = arguments.length, g = new Array(A), M = 0; M < A; M++) + g[M] = arguments[M]; + var t, + I, + e = !(t = g).length || "function" != typeof t[t.length - 1] ? D : t.pop(); + if (Array.isArray(g[0]) && (g = g[0]), g.length < 2) + throw new T("streams"); + var i = g.map(function (A, M) { + var t = M < g.length - 1; + return C(A, t, 0 < M, function (A) { + I = I || A, + A && i.forEach(r), + t || (i.forEach(r), e(I)) + }) + }); + return g.reduce(c) + } + }, function (A, M, t) { + var g = t(3), + I = t(21), + e = t(4).Buffer, + c = [1518500249, 1859775393, -1894007588, -899497514], + i = new Array(80); + function T() { + this.init(), + this._w = i, + I.call(this, 64, 56) + } + g(T, I), + T.prototype.init = function () { + return this._a = 1732584193, + this._b = 4023233417, + this._c = 2562383102, + this._d = 271733878, + this._e = 3285377520, + this + }, + T.prototype._update = function (A) { + for (var M = this._w, t = 0 | this._a, g = 0 | this._b, I = 0 | this._c, e = 0 | this._d, i = 0 | this._e, T = 0; T < 16; ++T) + M[T] = A.readInt32BE(4 * T); + for (; T < 80; ++T) + M[T] = M[T - 3] ^ M[T - 8] ^ M[T - 14] ^ M[T - 16]; + for (var E, N, n, D = 0; D < 80; ++D) + var C = ~~(D / 20), r = 0 | ((n = t) << 5 | n >>> 27) + (E = g, N = I, r = e, 0 === (n = C) ? E & N | ~E & r : 2 === n ? E & N | E & r | N & r : E ^ N ^ r) + i + M[D] + c[C], i = e, e = I, I = (C = g) << 30 | C >>> 2, g = t, t = r; + this._a = t + this._a | 0, + this._b = g + this._b | 0, + this._c = I + this._c | 0, + this._d = e + this._d | 0, + this._e = i + this._e | 0 + }, + T.prototype._hash = function () { + var A = e.allocUnsafe(20); + return A.writeInt32BE(0 | this._a, 0), + A.writeInt32BE(0 | this._b, 4), + A.writeInt32BE(0 | this._c, 8), + A.writeInt32BE(0 | this._d, 12), + A.writeInt32BE(0 | this._e, 16), + A + }, + A.exports = T + }, function (A, M, t) { + var g = t(3), + I = t(21), + e = t(4).Buffer, + o = [1518500249, 1859775393, -1894007588, -899497514], + i = new Array(80); + function T() { + this.init(), + this._w = i, + I.call(this, 64, 56) + } + g(T, I), + T.prototype.init = function () { + return this._a = 1732584193, + this._b = 4023233417, + this._c = 2562383102, + this._d = 271733878, + this._e = 3285377520, + this + }, + T.prototype._update = function (A) { + for (var M, t = this._w, g = 0 | this._a, I = 0 | this._b, e = 0 | this._c, i = 0 | this._d, T = 0 | this._e, E = 0; E < 16; ++E) + t[E] = A.readInt32BE(4 * E); + for (; E < 80; ++E) + t[E] = (M = t[E - 3] ^ t[E - 8] ^ t[E - 14] ^ t[E - 16]) << 1 | M >>> 31; + for (var N, n, D, C = 0; C < 80; ++C) + var r = ~~(C / 20), c = 0 | ((D = g) << 5 | D >>> 27) + (N = I, n = e, c = i, 0 === (D = r) ? N & n | ~N & c : 2 === D ? N & n | N & c | n & c : N ^ n ^ c) + T + t[C] + o[r], T = i, i = e, e = (r = I) << 30 | r >>> 2, I = g, g = c; + this._a = g + this._a | 0, + this._b = I + this._b | 0, + this._c = e + this._c | 0, + this._d = i + this._d | 0, + this._e = T + this._e | 0 + }, + T.prototype._hash = function () { + var A = e.allocUnsafe(20); + return A.writeInt32BE(0 | this._a, 0), + A.writeInt32BE(0 | this._b, 4), + A.writeInt32BE(0 | this._c, 8), + A.writeInt32BE(0 | this._d, 12), + A.writeInt32BE(0 | this._e, 16), + A + }, + A.exports = T + }, function (A, M, t) { + var g = t(3), + I = t(71), + e = t(21), + i = t(4).Buffer, + T = new Array(64); + function E() { + this.init(), + this._w = T, + e.call(this, 64, 56) + } + g(E, I), + E.prototype.init = function () { + return this._a = 3238371032, + this._b = 914150663, + this._c = 812702999, + this._d = 4144912697, + this._e = 4290775857, + this._f = 1750603025, + this._g = 1694076839, + this._h = 3204075428, + this + }, + E.prototype._hash = function () { + var A = i.allocUnsafe(28); + return A.writeInt32BE(this._a, 0), + A.writeInt32BE(this._b, 4), + A.writeInt32BE(this._c, 8), + A.writeInt32BE(this._d, 12), + A.writeInt32BE(this._e, 16), + A.writeInt32BE(this._f, 20), + A.writeInt32BE(this._g, 24), + A + }, + A.exports = E + }, function (A, M, t) { + var g = t(3), + I = t(72), + e = t(21), + i = t(4).Buffer, + T = new Array(160); + function E() { + this.init(), + this._w = T, + e.call(this, 128, 112) + } + g(E, I), + E.prototype.init = function () { + return this._ah = 3418070365, + this._bh = 1654270250, + this._ch = 2438529370, + this._dh = 355462360, + this._eh = 1731405415, + this._fh = 2394180231, + this._gh = 3675008525, + this._hh = 1203062813, + this._al = 3238371032, + this._bl = 914150663, + this._cl = 812702999, + this._dl = 4144912697, + this._el = 4290775857, + this._fl = 1750603025, + this._gl = 1694076839, + this._hl = 3204075428, + this + }, + E.prototype._hash = function () { + var g = i.allocUnsafe(48); + function A(A, M, t) { + g.writeInt32BE(A, t), + g.writeInt32BE(M, t + 4) + } + return A(this._ah, this._al, 0), + A(this._bh, this._bl, 8), + A(this._ch, this._cl, 16), + A(this._dh, this._dl, 24), + A(this._eh, this._el, 32), + A(this._fh, this._fl, 40), + g + }, + A.exports = E + }, function (A, M, t) { + A.exports = g; + var n = t(6).EventEmitter; + function g() { + n.call(this) + } + t(3)(g, n), + g.Readable = t(41), + g.Writable = t(142), + g.Duplex = t(143), + g.Transform = t(144), + g.PassThrough = t(145), + (g.Stream = g).prototype.pipe = function (M, A) { + var t = this; + function g(A) { + M.writable && !1 === M.write(A) && t.pause && t.pause() + } + function I() { + t.readable && t.resume && t.resume() + } + t.on("data", g), + M.on("drain", I), + M._isStdio || A && !1 === A.end || (t.on("end", i), t.on("close", T)); + var e = !1; + function i() { + e || (e = !0, M.end()) + } + function T() { + e || (e = !0, "function" == typeof M.destroy && M.destroy()) + } + function E(A) { + if (N(), 0 === n.listenerCount(this, "error")) + throw A + } + function N() { + t.removeListener("data", g), + M.removeListener("drain", I), + t.removeListener("end", i), + t.removeListener("close", T), + t.removeListener("error", E), + M.removeListener("error", E), + t.removeListener("end", N), + t.removeListener("close", N), + M.removeListener("close", N) + } + return t.on("error", E), + M.on("error", E), + t.on("end", N), + t.on("close", N), + M.on("close", N), + M.emit("pipe", t), + M + } + }, function (A, M) {}, function (A, M, t) { + "use strict"; + var T = t(42).Buffer, + g = t(138); + function I() { + !function (A) { + if (!(A instanceof I)) + throw new TypeError("Cannot call a class as a function") + } + (this), + this.head = null, + this.tail = null, + this.length = 0 + } + A.exports = (I.prototype.push = function (A) { + A = { + data: A, + next: null + }; + 0 < this.length ? this.tail.next = A : this.head = A, + this.tail = A, + ++this.length + }, I.prototype.unshift = function (A) { + A = { + data: A, + next: this.head + }; + 0 === this.length && (this.tail = A), + this.head = A, + ++this.length + }, I.prototype.shift = function () { + if (0 !== this.length) { + var A = this.head.data; + return 1 === this.length ? this.head = this.tail = null : this.head = this.head.next, + --this.length, + A + } + }, I.prototype.clear = function () { + this.head = this.tail = null, + this.length = 0 + }, I.prototype.join = function (A) { + if (0 === this.length) + return ""; + for (var M = this.head, t = "" + M.data; M = M.next; ) + t += A + M.data; + return t + }, I.prototype.concat = function (A) { + if (0 === this.length) + return T.alloc(0); + if (1 === this.length) + return this.head.data; + for (var M, t, g, I = T.allocUnsafe(A >>> 0), e = this.head, i = 0; e; ) + M = e.data, t = I, g = i, M.copy(t, g), i += e.data.length, e = e.next; + return I + }, I), + g && g.inspect && g.inspect.custom && (A.exports.prototype[g.inspect.custom] = function () { + var A = g.inspect({ + length: this.length + }); + return this.constructor.name + " " + A + }) + }, function (A, M) {}, function (A, I, e) { + (function (A) { + var M = void 0 !== A && A || "undefined" != typeof self && self || window, + t = Function.prototype.apply; + function g(A, M) { + this._id = A, + this._clearFn = M + } + I.setTimeout = function () { + return new g(t.call(setTimeout, M, arguments), clearTimeout) + }, + I.setInterval = function () { + return new g(t.call(setInterval, M, arguments), clearInterval) + }, + I.clearTimeout = I.clearInterval = function (A) { + A && A.close() + }, + g.prototype.unref = g.prototype.ref = function () {}, + g.prototype.close = function () { + this._clearFn.call(M, this._id) + }, + I.enroll = function (A, M) { + clearTimeout(A._idleTimeoutId), + A._idleTimeout = M + }, + I.unenroll = function (A) { + clearTimeout(A._idleTimeoutId), + A._idleTimeout = -1 + }, + I._unrefActive = I.active = function (A) { + clearTimeout(A._idleTimeoutId); + var M = A._idleTimeout; + 0 <= M && (A._idleTimeoutId = setTimeout(function () { + A._onTimeout && A._onTimeout() + }, M)) + }, + e(140), + I.setImmediate = "undefined" != typeof self && self.setImmediate || void 0 !== A && A.setImmediate || this && this.setImmediate, + I.clearImmediate = "undefined" != typeof self && self.clearImmediate || void 0 !== A && A.clearImmediate || this && this.clearImmediate + }).call(this, e(10)) + }, function (A, M, t) { + (function (A, c) { + !function (t, g) { + "use strict"; + var I, + e, + M, + i, + T, + E, + N, + n, + A; + function D(A) { + delete e[A] + } + function C(A) { + if (M) + setTimeout(C, 0, A); + else { + var t = e[A]; + if (t) { + M = !0; + try { + !function () { + var A = t.callback, + M = t.args; + switch (M.length) { + case 0: + A(); + break; + case 1: + A(M[0]); + break; + case 2: + A(M[0], M[1]); + break; + case 3: + A(M[0], M[1], M[2]); + break; + default: + A.apply(g, M) + } + } + () + } + finally { + D(A), + M = !1 + } + } + } + } + function r(A) { + A.source === t && "string" == typeof A.data && 0 === A.data.indexOf(n) && C(+A.data.slice(n.length)) + } + t.setImmediate || (I = 1, M = !(e = {}), i = t.document, A = (A = Object.getPrototypeOf && Object.getPrototypeOf(t)) && A.setTimeout ? A : t, T = "[object process]" === {} + .toString.call(t.process) ? function (A) { + c.nextTick(function () { + C(A) + }) + } + : function () { + if (t.postMessage && !t.importScripts) { + var A = !0, + M = t.onmessage; + return t.onmessage = function () { + A = !1 + }, + t.postMessage("", "*"), + t.onmessage = M, + A + } + } + () ? (n = "setImmediate$" + Math.random() + "$", t.addEventListener ? t.addEventListener("message", r, !1) : t.attachEvent("onmessage", r), function (A) { + t.postMessage(n + A, "*") + }) : t.MessageChannel ? ((N = new MessageChannel).port1.onmessage = function (A) { + C(A.data) + }, function (A) { + N.port2.postMessage(A) + }) : i && "onreadystatechange" in i.createElement("script") ? (E = i.documentElement, function (A) { + var M = i.createElement("script"); + M.onreadystatechange = function () { + C(A), + M.onreadystatechange = null, + E.removeChild(M), + M = null + }, + E.appendChild(M) + }) : function (A) { + setTimeout(C, 0, A) + }, A.setImmediate = function (A) { + "function" != typeof A && (A = new Function("" + A)); + for (var M = new Array(arguments.length - 1), t = 0; t < M.length; t++) + M[t] = arguments[t + 1]; + return A = { + callback: A, + args: M + }, + e[I] = A, + T(I), + I++ + }, A.clearImmediate = D) + } + ("undefined" == typeof self ? void 0 === A ? this : A : self) + }).call(this, t(10), t(8)) + }, function (A, M, t) { + "use strict"; + A.exports = I; + var g = t(76), + A = Object.create(t(25)); + function I(A) { + if (!(this instanceof I)) + return new I(A); + g.call(this, A) + } + A.inherits = t(3), + A.inherits(I, g), + I.prototype._transform = function (A, M, t) { + t(null, A) + } + }, function (A, M, t) { + A.exports = t(43) + }, function (A, M, t) { + A.exports = t(16) + }, function (A, M, t) { + A.exports = t(41).Transform + }, function (A, M, t) { + A.exports = t(41).PassThrough + }, function (A, M, t) { + "use strict"; + var g = t(3), + e = t(4).Buffer, + i = t(15), + T = e.alloc(128); + function I(A, M) { + i.call(this, "digest"), + "string" == typeof M && (M = e.from(M)), + this._alg = A, + 64 < (this._key = M).length ? M = A(M) : M.length < 64 && (M = e.concat([M, T], 64)); + for (var t = this._ipad = e.allocUnsafe(64), g = this._opad = e.allocUnsafe(64), I = 0; I < 64; I++) + t[I] = 54 ^ M[I], g[I] = 92 ^ M[I]; + this._hash = [t] + } + g(I, i), + I.prototype._update = function (A) { + this._hash.push(A) + }, + I.prototype._final = function () { + var A = this._alg(e.concat(this._hash)); + return this._alg(e.concat([this._opad, A])) + }, + A.exports = I + }, function (A, M, t) { + A.exports = t(79) + }, function (A, M, t) { + (function (N, n) { + var D, + C = t(4).Buffer, + r = t(81), + c = t(82), + o = t(83), + B = t(84), + Q = N.crypto && N.crypto.subtle, + a = { + sha: "SHA-1", + "sha-1": "SHA-1", + sha1: "SHA-1", + sha256: "SHA-256", + "sha-256": "SHA-256", + sha384: "SHA-384", + "sha-384": "SHA-384", + "sha-512": "SHA-512", + sha512: "SHA-512" + }, + h = []; + function s(A, M, t, g, I) { + return Q.importKey("raw", A, { + name: "PBKDF2" + }, !1, ["deriveBits"]).then(function (A) { + return Q.deriveBits({ + name: "PBKDF2", + salt: M, + iterations: t, + hash: { + name: I + } + }, A, g << 3) + }).then(function (A) { + return C.from(A) + }) + } + A.exports = function (M, t, g, I, e, i) { + "function" == typeof e && (i = e, e = void 0); + var A, + T, + E = a[(e = e || "sha1").toLowerCase()]; + if (!E || "function" != typeof N.Promise) + return n.nextTick(function () { + var A; + try { + A = o(M, t, g, I, e) + } catch (A) { + return i(A) + } + i(null, A) + }); + if (r(g, I), M = B(M, c, "Password"), t = B(t, c, "Salt"), "function" != typeof i) + throw new Error("No callback provided to pbkdf2"); + A = function (A) { + if (N.process && !N.process.browser) + return Promise.resolve(!1); + if (!Q || !Q.importKey || !Q.deriveBits) + return Promise.resolve(!1); + if (void 0 !== h[A]) + return h[A]; + var M = s(D = D || C.alloc(8), D, 10, 128, A).then(function () { + return !0 + }).catch(function () { + return !1 + }); + return h[A] = M + } + (E).then(function (A) { + return A ? s(M, t, g, I, E) : o(M, t, g, I, e) + }), + T = i, + A.then(function (A) { + n.nextTick(function () { + T(null, A) + }) + }, function (A) { + n.nextTick(function () { + T(A) + }) + }) + } + }).call(this, t(10), t(8)) + }, function (A, M, t) { + var g = t(150), + I = t(45), + e = t(46), + i = t(163), + T = t(33); + function E(A, M, t) { + if (A = A.toLowerCase(), e[A]) + return I.createCipheriv(A, M, t); + if (i[A]) + return new g({ + key: M, + iv: t, + mode: A + }); + throw new TypeError("invalid suite type") + } + function N(A, M, t) { + if (A = A.toLowerCase(), e[A]) + return I.createDecipheriv(A, M, t); + if (i[A]) + return new g({ + key: M, + iv: t, + mode: A, + decrypt: !0 + }); + throw new TypeError("invalid suite type") + } + M.createCipher = M.Cipher = function (A, M) { + var t; + if (A = A.toLowerCase(), e[A]) + t = e[A].key, g = e[A].iv; + else { + if (!i[A]) + throw new TypeError("invalid suite type"); + t = 8 * i[A].key, + g = i[A].iv + } + var g = T(M, !1, t, g); + return E(A, g.key, g.iv) + }, + M.createCipheriv = M.Cipheriv = E, + M.createDecipher = M.Decipher = function (A, M) { + var t; + if (A = A.toLowerCase(), e[A]) + t = e[A].key, g = e[A].iv; + else { + if (!i[A]) + throw new TypeError("invalid suite type"); + t = 8 * i[A].key, + g = i[A].iv + } + var g = T(M, !1, t, g); + return N(A, g.key, g.iv) + }, + M.createDecipheriv = M.Decipheriv = N, + M.listCiphers = M.getCiphers = function () { + return Object.keys(i).concat(I.getCiphers()) + } + }, function (A, M, t) { + var e = t(15), + g = t(151), + I = t(3), + i = t(4).Buffer, + T = { + "des-ede3-cbc": g.CBC.instantiate(g.EDE), + "des-ede3": g.EDE, + "des-ede-cbc": g.CBC.instantiate(g.EDE), + "des-ede": g.EDE, + "des-cbc": g.CBC.instantiate(g.DES), + "des-ecb": g.DES + }; + function E(A) { + e.call(this); + var M = A.mode.toLowerCase(), + t = T[M], + g = A.decrypt ? "decrypt" : "encrypt", + I = A.key; + i.isBuffer(I) || (I = i.from(I)), + "des-ede" !== M && "des-ede-cbc" !== M || (I = i.concat([I, I.slice(0, 8)])); + A = A.iv; + i.isBuffer(A) || (A = i.from(A)), + this._des = t.create({ + key: I, + iv: A, + type: g + }) + } + T.des = T["des-cbc"], + T.des3 = T["des-ede3-cbc"], + I(A.exports = E, e), + E.prototype._update = function (A) { + return i.from(this._des.update(A)) + }, + E.prototype._final = function () { + return i.from(this._des.final()) + } + }, function (A, M, t) { + "use strict"; + M.utils = t(85), + M.Cipher = t(44), + M.DES = t(86), + M.CBC = t(152), + M.EDE = t(153) + }, function (A, M, t) { + "use strict"; + var g = t(11), + e = t(3), + i = {}; + function I(A) { + g.equal(A.length, 8, "Invalid IV length"), + this.iv = new Array(8); + for (var M = 0; M < this.iv.length; M++) + this.iv[M] = A[M] + } + M.instantiate = function (M) { + function t(A) { + M.call(this, A), + this._cbcInit() + } + e(t, M); + for (var A = Object.keys(i), g = 0; g < A.length; g++) { + var I = A[g]; + t.prototype[I] = i[I] + } + return t.create = function (A) { + return new t(A) + }, + t + }, + i._cbcInit = function () { + var A = new I(this.options.iv); + this._cbcState = A + }, + i._update = function (A, M, t, g) { + var I = this._cbcState, + e = this.constructor.super_.prototype, + i = I.iv; + if ("encrypt" === this.type) { + for (var T = 0; T < this.blockSize; T++) + i[T] ^= A[M + T]; + e._update.call(this, i, 0, t, g); + for (T = 0; T < this.blockSize; T++) + i[T] = t[g + T] + } else { + e._update.call(this, A, M, t, g); + for (T = 0; T < this.blockSize; T++) + t[g + T] ^= i[T]; + for (T = 0; T < this.blockSize; T++) + i[T] = A[M + T] + } + } + }, function (A, M, t) { + "use strict"; + var I = t(11), + g = t(3), + e = t(44), + i = t(86); + function T(A, M) { + I.equal(M.length, 24, "Invalid key length"); + var t = M.slice(0, 8), + g = M.slice(8, 16), + M = M.slice(16, 24); + this.ciphers = "encrypt" === A ? [i.create({ + type: "encrypt", + key: t + }), i.create({ + type: "decrypt", + key: g + }), i.create({ + type: "encrypt", + key: M + })] : [i.create({ + type: "decrypt", + key: M + }), i.create({ + type: "encrypt", + key: g + }), i.create({ + type: "decrypt", + key: t + })] + } + function E(A) { + e.call(this, A); + A = new T(this.type, this.options.key); + this._edeState = A + } + g(E, e), + (A.exports = E).create = function (A) { + return new E(A) + }, + E.prototype._update = function (A, M, t, g) { + var I = this._edeState; + I.ciphers[0]._update(A, M, t, g), + I.ciphers[1]._update(t, g, t, g), + I.ciphers[2]._update(t, g, t, g) + }, + E.prototype._pad = i.prototype._pad, + E.prototype._unpad = i.prototype._unpad + }, function (A, M, t) { + var g = t(46), + I = t(90), + e = t(4).Buffer, + i = t(91), + T = t(15), + E = t(32), + N = t(33); + function n(A, M, t) { + T.call(this), + this._cache = new C, + this._cipher = new E.AES(M), + this._prev = e.from(t), + this._mode = A, + this._autopadding = !0 + } + t(3)(n, T), + n.prototype._update = function (A) { + var M; + this._cache.add(A); + for (var t = []; M = this._cache.get(); ) + M = this._mode.encrypt(this, M), t.push(M); + return e.concat(t) + }; + var D = e.alloc(16, 16); + function C() { + this.cache = e.allocUnsafe(0) + } + function r(A, M, t) { + A = g[A.toLowerCase()]; + if (!A) + throw new TypeError("invalid suite type"); + if ("string" == typeof M && (M = e.from(M)), M.length !== A.key / 8) + throw new TypeError("invalid key length " + M.length); + if ("string" == typeof t && (t = e.from(t)), "GCM" !== A.mode && t.length !== A.iv) + throw new TypeError("invalid iv length " + t.length); + return new("stream" === A.type ? i : "auth" === A.type ? I : n)(A.module, M, t) + } + n.prototype._final = function () { + var A = this._cache.flush(); + if (this._autopadding) + return A = this._mode.encrypt(this, A), this._cipher.scrub(), A; + if (!A.equals(D)) + throw this._cipher.scrub(), new Error("data not multiple of block length") + }, + n.prototype.setAutoPadding = function (A) { + return this._autopadding = !!A, + this + }, + C.prototype.add = function (A) { + this.cache = e.concat([this.cache, A]) + }, + C.prototype.get = function () { + if (15 < this.cache.length) { + var A = this.cache.slice(0, 16); + return this.cache = this.cache.slice(16), + A + } + return null + }, + C.prototype.flush = function () { + for (var A = 16 - this.cache.length, M = e.allocUnsafe(A), t = -1; ++t < A; ) + M.writeUInt8(A, t); + return e.concat([this.cache, M]) + }, + M.createCipheriv = r, + M.createCipher = function (A, M) { + var t = g[A.toLowerCase()]; + if (!t) + throw new TypeError("invalid suite type"); + return t = N(M, !1, t.key, t.iv), + r(A, t.key, t.iv) + } + }, function (A, M) { + M.encrypt = function (A, M) { + return A._cipher.encryptBlock(M) + }, + M.decrypt = function (A, M) { + return A._cipher.decryptBlock(M) + } + }, function (A, M, t) { + var g = t(26); + M.encrypt = function (A, M) { + M = g(M, A._prev); + return A._prev = A._cipher.encryptBlock(M), + A._prev + }, + M.decrypt = function (A, M) { + var t = A._prev; + A._prev = M; + M = A._cipher.decryptBlock(M); + return g(M, t) + } + }, function (A, M, t) { + var e = t(4).Buffer, + i = t(26); + function T(A, M, t) { + var g = M.length, + I = i(M, A._cache); + return A._cache = A._cache.slice(g), + A._prev = e.concat([A._prev, t ? M : I]), + I + } + M.encrypt = function (A, M, t) { + for (var g, I = e.allocUnsafe(0); M.length; ) { + if (0 === A._cache.length && (A._cache = A._cipher.encryptBlock(A._prev), A._prev = e.allocUnsafe(0)), !(A._cache.length <= M.length)) { + I = e.concat([I, T(A, M, t)]); + break + } + g = A._cache.length, + I = e.concat([I, T(A, M.slice(0, g), t)]), + M = M.slice(g) + } + return I + } + }, function (A, M, t) { + var n = t(4).Buffer; + M.encrypt = function (A, M, t) { + for (var g, I, e, i, T = M.length, E = n.allocUnsafe(T), N = -1; ++N < T; ) + E[N] = (g = A, I = M[N], e = t, i = void 0, i = g._cipher.encryptBlock(g._prev)[0] ^ I, g._prev = n.concat([g._prev.slice(1), n.from([e ? I : i])]), i); + return E + } + }, function (A, M, t) { + var T = t(4).Buffer; + function i(A, M, t) { + for (var g, I, e = -1, i = 0; ++e < 8; ) + g = M & 1 << 7 - e ? 128 : 0, i += (128 & (I = A._cipher.encryptBlock(A._prev)[0] ^ g)) >> e % 8, A._prev = function (A, M) { + var t = A.length, + g = -1, + I = T.allocUnsafe(A.length); + A = T.concat([A, T.from([M])]); + for (; ++g < t; ) + I[g] = A[g] << 1 | A[g + 1] >> 7; + return I + } + (A._prev, t ? g : I); + return i + } + M.encrypt = function (A, M, t) { + for (var g = M.length, I = T.allocUnsafe(g), e = -1; ++e < g; ) + I[e] = i(A, M[e], t); + return I + } + }, function (A, M, t) { + (function (I) { + var e = t(26); + M.encrypt = function (A, M) { + for (; A._cache.length < M.length; ) + A._cache = I.concat([A._cache, ((t = A)._prev = t._cipher.encryptBlock(t._prev), t._prev)]); + var t, + g = A._cache.slice(0, M.length); + return A._cache = A._cache.slice(M.length), + e(M, g) + } + }).call(this, t(9).Buffer) + }, function (A, M, t) { + var g = t(4).Buffer, + I = g.alloc(16, 0); + function i(A) { + var M = g.allocUnsafe(16); + return M.writeUInt32BE(A[0] >>> 0, 0), + M.writeUInt32BE(A[1] >>> 0, 4), + M.writeUInt32BE(A[2] >>> 0, 8), + M.writeUInt32BE(A[3] >>> 0, 12), + M + } + function e(A) { + this.h = A, + this.state = g.alloc(16, 0), + this.cache = g.allocUnsafe(0) + } + e.prototype.ghash = function (A) { + for (var M = -1; ++M < A.length; ) + this.state[M] ^= A[M]; + this._multiply() + }, + e.prototype._multiply = function () { + for (var A, M, t, g = [(A = this.h).readUInt32BE(0), A.readUInt32BE(4), A.readUInt32BE(8), A.readUInt32BE(12)], I = [0, 0, 0, 0], e = -1; ++e < 128; ) { + for (0 != (this.state[~~(e / 8)] & 1 << 7 - e % 8) && (I[0] ^= g[0], I[1] ^= g[1], I[2] ^= g[2], I[3] ^= g[3]), t = 0 != (1 & g[3]), M = 3; 0 < M; M--) + g[M] = g[M] >>> 1 | (1 & g[M - 1]) << 31; + g[0] = g[0] >>> 1, + t && (g[0] = g[0] ^ 225 << 24) + } + this.state = i(I) + }, + e.prototype.update = function (A) { + var M; + for (this.cache = g.concat([this.cache, A]); 16 <= this.cache.length; ) + M = this.cache.slice(0, 16), this.cache = this.cache.slice(16), this.ghash(M) + }, + e.prototype.final = function (A, M) { + return this.cache.length && this.ghash(g.concat([this.cache, I], 16)), + this.ghash(i([0, A, 0, M])), + this.state + }, + A.exports = e + }, function (A, M, t) { + var g = t(90), + I = t(4).Buffer, + e = t(46), + i = t(91), + T = t(15), + E = t(32), + N = t(33); + function n(A, M, t) { + T.call(this), + this._cache = new D, + this._last = void 0, + this._cipher = new E.AES(M), + this._prev = I.from(t), + this._mode = A, + this._autopadding = !0 + } + function D() { + this.cache = I.allocUnsafe(0) + } + function C(A, M, t) { + A = e[A.toLowerCase()]; + if (!A) + throw new TypeError("invalid suite type"); + if ("string" == typeof t && (t = I.from(t)), "GCM" !== A.mode && t.length !== A.iv) + throw new TypeError("invalid iv length " + t.length); + if ("string" == typeof M && (M = I.from(M)), M.length !== A.key / 8) + throw new TypeError("invalid key length " + M.length); + return "stream" === A.type ? new i(A.module, M, t, !0) : "auth" === A.type ? new g(A.module, M, t, !0) : new n(A.module, M, t) + } + t(3)(n, T), + n.prototype._update = function (A) { + var M; + this._cache.add(A); + for (var t = []; M = this._cache.get(this._autopadding); ) + M = this._mode.decrypt(this, M), t.push(M); + return I.concat(t) + }, + n.prototype._final = function () { + var A = this._cache.flush(); + if (this._autopadding) + return function (A) { + var M = A[15]; + if (M < 1 || 16 < M) + throw new Error("unable to decrypt data"); + var t = -1; + for (; ++t < M; ) + if (A[t + (16 - M)] !== M) + throw new Error("unable to decrypt data"); + return 16 === M ? void 0 : A.slice(0, 16 - M) + } + (this._mode.decrypt(this, A)); + if (A) + throw new Error("data not multiple of block length") + }, + n.prototype.setAutoPadding = function (A) { + return this._autopadding = !!A, + this + }, + D.prototype.add = function (A) { + this.cache = I.concat([this.cache, A]) + }, + D.prototype.get = function (A) { + var M; + if (A) { + if (16 < this.cache.length) + return M = this.cache.slice(0, 16), this.cache = this.cache.slice(16), M + } else if (16 <= this.cache.length) + return M = this.cache.slice(0, 16), this.cache = this.cache.slice(16), M; + return null + }, + D.prototype.flush = function () { + if (this.cache.length) + return this.cache + }, + M.createDecipher = function (A, M) { + var t = e[A.toLowerCase()]; + if (!t) + throw new TypeError("invalid suite type"); + return t = N(M, !1, t.key, t.iv), + C(A, t.key, t.iv) + }, + M.createDecipheriv = C + }, function (A, M) { + M["des-ecb"] = { + key: 8, + iv: 0 + }, + M["des-cbc"] = M.des = { + key: 8, + iv: 8 + }, + M["des-ede3-cbc"] = M.des3 = { + key: 24, + iv: 8 + }, + M["des-ede3"] = { + key: 24, + iv: 0 + }, + M["des-ede-cbc"] = { + key: 16, + iv: 8 + }, + M["des-ede"] = { + key: 16, + iv: 0 + } + }, function (A, M, g) { + (function (e) { + var i = g(92), + t = g(167), + T = g(168); + var E = { + binary: !0, + hex: !0, + base64: !0 + }; + M.DiffieHellmanGroup = M.createDiffieHellmanGroup = M.getDiffieHellman = function (A) { + var M = new e(t[A].prime, "hex"), + A = new e(t[A].gen, "hex"); + return new T(M, A) + }, + M.createDiffieHellman = M.DiffieHellman = function A(M, t, g, I) { + return e.isBuffer(t) || void 0 === E[t] ? A(M, "binary", t, g) : (t = t || "binary", I = I || "binary", g = g || new e([2]), e.isBuffer(g) || (g = new e(g, I)), "number" == typeof M ? new T(i(M, g), g, !0) : (e.isBuffer(M) || (M = new e(M, t)), new T(M, g, !0))) + } + }).call(this, g(9).Buffer) + }, function (A, M) {}, function (A, M) {}, function (A) { + A.exports = JSON.parse('{"modp1":{"gen":"02","prime":"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a63a3620ffffffffffffffff"},"modp2":{"gen":"02","prime":"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece65381ffffffffffffffff"},"modp5":{"gen":"02","prime":"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3dc2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f83655d23dca3ad961c62f356208552bb9ed529077096966d670c354e4abc9804f1746c08ca237327ffffffffffffffff"},"modp14":{"gen":"02","prime":"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"},"modp15":{"gen":"02","prime":"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"},"modp16":{"gen":"02","prime":"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3dc2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f83655d23dca3ad961c62f356208552bb9ed529077096966d670c354e4abc9804f1746c08ca18217c32905e462e36ce3be39e772c180e86039b2783a2ec07a28fb5c55df06f4c52c9de2bcbf6955817183995497cea956ae515d2261898fa051015728e5a8aaac42dad33170d04507a33a85521abdf1cba64ecfb850458dbef0a8aea71575d060c7db3970f85a6e1e4c7abf5ae8cdb0933d71e8c94e04a25619dcee3d2261ad2ee6bf12ffa06d98a0864d87602733ec86a64521f2b18177b200cbbe117577a615d6c770988c0bad946e208e24fa074e5ab3143db5bfce0fd108e4b82d120a92108011a723c12a787e6d788719a10bdba5b2699c327186af4e23c1a946834b6150bda2583e9ca2ad44ce8dbbbc2db04de8ef92e8efc141fbecaa6287c59474e6bc05d99b2964fa090c3a2233ba186515be7ed1f612970cee2d7afb81bdd762170481cd0069127d5b05aa993b4ea988d8fddc186ffb7dc90a6c08f4df435c934063199ffffffffffffffff"},"modp17":{"gen":"02","prime":"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3dc2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f83655d23dca3ad961c62f356208552bb9ed529077096966d670c354e4abc9804f1746c08ca18217c32905e462e36ce3be39e772c180e86039b2783a2ec07a28fb5c55df06f4c52c9de2bcbf6955817183995497cea956ae515d2261898fa051015728e5a8aaac42dad33170d04507a33a85521abdf1cba64ecfb850458dbef0a8aea71575d060c7db3970f85a6e1e4c7abf5ae8cdb0933d71e8c94e04a25619dcee3d2261ad2ee6bf12ffa06d98a0864d87602733ec86a64521f2b18177b200cbbe117577a615d6c770988c0bad946e208e24fa074e5ab3143db5bfce0fd108e4b82d120a92108011a723c12a787e6d788719a10bdba5b2699c327186af4e23c1a946834b6150bda2583e9ca2ad44ce8dbbbc2db04de8ef92e8efc141fbecaa6287c59474e6bc05d99b2964fa090c3a2233ba186515be7ed1f612970cee2d7afb81bdd762170481cd0069127d5b05aa993b4ea988d8fddc186ffb7dc90a6c08f4df435c93402849236c3fab4d27c7026c1d4dcb2602646dec9751e763dba37bdf8ff9406ad9e530ee5db382f413001aeb06a53ed9027d831179727b0865a8918da3edbebcf9b14ed44ce6cbaced4bb1bdb7f1447e6cc254b332051512bd7af426fb8f401378cd2bf5983ca01c64b92ecf032ea15d1721d03f482d7ce6e74fef6d55e702f46980c82b5a84031900b1c9e59e7c97fbec7e8f323a97a7e36cc88be0f1d45b7ff585ac54bd407b22b4154aacc8f6d7ebf48e1d814cc5ed20f8037e0a79715eef29be32806a1d58bb7c5da76f550aa3d8a1fbff0eb19ccb1a313d55cda56c9ec2ef29632387fe8d76e3c0468043e8f663f4860ee12bf2d5b0b7474d6e694f91e6dcc4024ffffffffffffffff"},"modp18":{"gen":"02","prime":"ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088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+ }, function (o, A, B) { + (function (t) { + var g = B(7), + e = new(B(94)), + i = new g(24), + T = new g(11), + E = new g(10), + N = new g(3), + n = new g(7), + D = B(92), + A = B(18); + function I(A, M) { + return M = M || "utf8", + t.isBuffer(A) || (A = new t(A, M)), + this._pub = new g(A), + this + } + function C(A, M) { + return M = M || "utf8", + t.isBuffer(A) || (A = new t(A, M)), + this._priv = new g(A), + this + } + o.exports = M; + var r = {}; + function M(A, M, t) { + this.setGenerator(M), + this.__prime = new g(A), + this._prime = g.mont(this.__prime), + this._primeLen = A.length, + this._pub = void 0, + this._priv = void 0, + this._primeCode = void 0, + t ? (this.setPublicKey = I, this.setPrivateKey = C) : this._primeCode = 8 + } + function c(A, M) { + A = new t(A.toArray()); + return M ? A.toString(M) : A + } + Object.defineProperty(M.prototype, "verifyError", { + enumerable: !0, + get: function () { + return "number" != typeof this._primeCode && (this._primeCode = function (A, M) { + var t = M.toString("hex"); + if ((M = [t, A.toString(16)].join("_"))in r) + return r[M]; + var g, + I = 0; + if (A.isEven() || !D.simpleSieve || !D.fermatTest(A) || !e.test(A)) + return I += 1, I += "02" === t || "05" === t ? 8 : 4, r[M] = I; + switch (e.test(A.shrn(1)) || (I += 2), t) { + case "02": + A.mod(i).cmp(T) && (I += 8); + break; + case "05": + (g = A.mod(E)).cmp(N) && g.cmp(n) && (I += 8); + break; + default: + I += 4 + } + return r[M] = I + } + (this.__prime, this.__gen)), + this._primeCode + } + }), + M.prototype.generateKeys = function () { + return this._priv || (this._priv = new g(A(this._primeLen))), + this._pub = this._gen.toRed(this._prime).redPow(this._priv).fromRed(), + this.getPublicKey() + }, + M.prototype.computeSecret = function (A) { + var M = (A = (A = new g(A)).toRed(this._prime)).redPow(this._priv).fromRed(), + A = new t(M.toArray()), + M = this.getPrime(); + return A.length < M.length && ((M = new t(M.length - A.length)).fill(0), A = t.concat([M, A])), + A + }, + M.prototype.getPublicKey = function (A) { + return c(this._pub, A) + }, + M.prototype.getPrivateKey = function (A) { + return c(this._priv, A) + }, + M.prototype.getPrime = function (A) { + return c(this.__prime, A) + }, + M.prototype.getGenerator = function (A) { + return c(this._gen, A) + }, + M.prototype.setGenerator = function (A, M) { + return M = M || "utf8", + t.isBuffer(A) || (A = new t(A, M)), + this.__gen = A, + this._gen = new g(A), + this + } + }).call(this, B(9).Buffer) + }, function (A, M, t) { + var g = t(4).Buffer, + I = t(23), + e = t(63), + i = t(3), + T = t(170), + E = t(199), + N = t(79); + function n(A) { + e.Writable.call(this); + A = N[A]; + if (!A) + throw new Error("Unknown message digest"); + this._hashType = A.hash, + this._hash = I(A.hash), + this._tag = A.id, + this._signType = A.sign + } + function D(A) { + e.Writable.call(this); + A = N[A]; + if (!A) + throw new Error("Unknown message digest"); + this._hash = I(A.hash), + this._tag = A.id, + this._signType = A.sign + } + function C(A) { + return new n(A) + } + function r(A) { + return new D(A) + } + Object.keys(N).forEach(function (A) { + N[A].id = g.from(N[A].id, "hex"), + N[A.toLowerCase()] = N[A] + }), + i(n, e.Writable), + n.prototype._write = function (A, M, t) { + this._hash.update(A), + t() + }, + n.prototype.update = function (A, M) { + return "string" == typeof A && (A = g.from(A, M)), + this._hash.update(A), + this + }, + n.prototype.sign = function (A, M) { + this.end(); + var t = this._hash.digest(), + A = T(t, A, this._hashType, this._signType, this._tag); + return M ? A.toString(M) : A + }, + i(D, e.Writable), + D.prototype._write = function (A, M, t) { + this._hash.update(A), + t() + }, + D.prototype.update = function (A, M) { + return "string" == typeof A && (A = g.from(A, M)), + this._hash.update(A), + this + }, + D.prototype.verify = function (A, M, t) { + "string" == typeof M && (M = g.from(M, t)), + this.end(); + t = this._hash.digest(); + return E(M, t, A, this._signType, this._tag) + }, + A.exports = { + Sign: C, + Verify: r, + createSign: C, + createVerify: r + } + }, function (A, M, t) { + var C = t(4).Buffer, + e = t(77), + E = t(48), + N = t(50).ec, + r = t(49), + n = t(35), + D = t(105); + function c(A, M, t, g) { + (A = C.from(A.toArray())).length < M.byteLength() && (I = C.alloc(M.byteLength() - A.length), A = C.concat([I, A])); + var I = t.length, + t = function (A, M) { + A = (A = o(A, M)).mod(M); + A = C.from(A.toArray()); + A.length < M.byteLength() && (M = C.alloc(M.byteLength() - A.length), A = C.concat([M, A])); + return A + } + (t, M); + (M = C.alloc(I)).fill(1); + I = C.alloc(I), + I = e(g, I).update(M).update(C.from([0])).update(A).update(t).digest(), + M = e(g, I).update(M).digest(); + return { + k: I = e(g, I).update(M).update(C.from([1])).update(A).update(t).digest(), + v: M = e(g, I).update(M).digest() + } + } + function o(A, M) { + var t = new r(A), + M = (A.length << 3) - M.bitLength(); + return 0 < M && t.ishrn(M), + t + } + function B(A, M, t) { + var g, + I; + do { + for (g = C.alloc(0); 8 * g.length < A.bitLength(); ) + M.v = e(t, M.k).update(M.v).digest(), g = C.concat([g, M.v]) + } while (I = o(g, A), M.k = e(t, M.k).update(M.v).update(C.from([0])).digest(), M.v = e(t, M.k).update(M.v).digest(), -1 !== I.cmp(A)); + return I + } + A.exports = function (A, M, t, g, I) { + if ((M = n(M)).curve) { + if ("ecdsa" !== g && "ecdsa/rsa" !== g) + throw new Error("wrong private key type"); + return function (A, M) { + var t = D[M.curve.join(".")]; + if (!t) + throw new Error("unknown curve " + M.curve.join(".")); + A = new N(t).keyFromPrivate(M.privateKey).sign(A); + return C.from(A.toDER()) + } + (A, M) + } + if ("dsa" === M.type) { + if ("dsa" !== g) + throw new Error("wrong private key type"); + return function (A, M, t) { + var g, + I = M.params.priv_key, + e = M.params.p, + i = M.params.q, + T = M.params.g, + E = new r(0), + N = o(A, i).mod(i), + n = !1, + D = c(I, i, A, t); + for (; !1 === n; ) + g = B(i, D, t), E = function (A, M, t, g) { + return A.toRed(r.mont(t)).redPow(M).fromRed().mod(g) + } + (T, g, e, i), + 0 === (n = g.invm(i).imul(N.add(I.mul(E))).mod(i)).cmpn(0) && (n = !1, E = new r(0)); + return function (A, M) { + A = A.toArray(), + M = M.toArray(), + 128 & A[0] && (A = [0].concat(A)); + 128 & M[0] && (M = [0].concat(M)); + var t = [48, A.length + M.length + 4, 2, A.length]; + return t = t.concat(A, [2, M.length], M), + C.from(t) + } + (E, n) + } + (A, M, t) + } + if ("rsa" !== g && "ecdsa/rsa" !== g) + throw new Error("wrong private key type"); + A = C.concat([I, A]); + for (var e = M.modulus.byteLength(), i = [0, 1]; A.length + i.length + 1 < e; ) + i.push(255); + i.push(0); + for (var T = -1; ++T < A.length; ) + i.push(A[T]); + return E(i, M) + }, + A.exports.getKey = c, + A.exports.makeKey = B + }, function (A, M) {}, function (A) { + A.exports = JSON.parse('{"name":"elliptic","version":"6.5.3","description":"EC cryptography","main":"lib/elliptic.js","files":["lib"],"scripts":{"jscs":"jscs benchmarks/*.js lib/*.js lib/**/*.js lib/**/**/*.js test/index.js","jshint":"jscs benchmarks/*.js lib/*.js lib/**/*.js lib/**/**/*.js test/index.js","lint":"npm run jscs && npm run jshint","unit":"istanbul test _mocha --reporter=spec test/index.js","test":"npm run lint && npm run unit","version":"grunt dist && git add dist/"},"repository":{"type":"git","url":"git@github.com:indutny/elliptic"},"keywords":["EC","Elliptic","curve","Cryptography"],"author":"Fedor Indutny ","license":"MIT","bugs":{"url":"https://github.com/indutny/elliptic/issues"},"homepage":"https://github.com/indutny/elliptic","devDependencies":{"brfs":"^1.4.3","coveralls":"^3.0.8","grunt":"^1.0.4","grunt-browserify":"^5.0.0","grunt-cli":"^1.2.0","grunt-contrib-connect":"^1.0.0","grunt-contrib-copy":"^1.0.0","grunt-contrib-uglify":"^1.0.1","grunt-mocha-istanbul":"^3.0.1","grunt-saucelabs":"^9.0.1","istanbul":"^0.4.2","jscs":"^3.0.7","jshint":"^2.10.3","mocha":"^6.2.2"},"dependencies":{"bn.js":"^4.4.0","brorand":"^1.0.1","hash.js":"^1.0.0","hmac-drbg":"^1.0.0","inherits":"^2.0.1","minimalistic-assert":"^1.0.0","minimalistic-crypto-utils":"^1.0.0"},"__npminstall_done":"Tue Jan 05 2021 10:32:23 GMT+0800 (GMT+08:00)","_from":"elliptic@6.5.3","_resolved":"https://registry.npm.taobao.org/elliptic/download/elliptic-6.5.3.tgz"}') + }, function (A, M, t) { + "use strict"; + var g = t(12), + h = t(7), + I = t(3), + e = t(34), + i = g.assert; + function T(A) { + e.call(this, "short", A), + this.a = new h(A.a, 16).toRed(this.red), + this.b = new h(A.b, 16).toRed(this.red), + this.tinv = this.two.redInvm(), + this.zeroA = 0 === this.a.fromRed().cmpn(0), + this.threeA = 0 === this.a.fromRed().sub(this.p).cmpn(-3), + this.endo = this._getEndomorphism(A), + this._endoWnafT1 = new Array(4), + this._endoWnafT2 = new Array(4) + } + function E(A, M, t, g) { + e.BasePoint.call(this, A, "affine"), + null === M && null === t ? (this.x = null, this.y = null, this.inf = !0) : (this.x = new h(M, 16), this.y = new h(t, 16), g && (this.x.forceRed(this.curve.red), this.y.forceRed(this.curve.red)), this.x.red || (this.x = this.x.toRed(this.curve.red)), this.y.red || (this.y = this.y.toRed(this.curve.red)), this.inf = !1) + } + function N(A, M, t, g) { + e.BasePoint.call(this, A, "jacobian"), + null === M && null === t && null === g ? (this.x = this.curve.one, this.y = this.curve.one, this.z = new h(0)) : (this.x = new h(M, 16), this.y = new h(t, 16), this.z = new h(g, 16)), + this.x.red || (this.x = this.x.toRed(this.curve.red)), + this.y.red || (this.y = this.y.toRed(this.curve.red)), + this.z.red || (this.z = this.z.toRed(this.curve.red)), + this.zOne = this.z === this.curve.one + } + I(T, e), + (A.exports = T).prototype._getEndomorphism = function (A) { + var M, + t, + g; + if (this.zeroA && this.g && this.n && 1 === this.p.modn(3)) + return t = (A.beta ? new h(A.beta, 16) : t = (g = this._getEndoRoots(this.p))[0].cmp(g[1]) < 0 ? g[0] : g[1]).toRed(this.red), A.lambda ? M = new h(A.lambda, 16) : (g = this._getEndoRoots(this.n), 0 === this.g.mul(g[0]).x.cmp(this.g.x.redMul(t)) ? M = g[0] : (M = g[1], i(0 === this.g.mul(M).x.cmp(this.g.x.redMul(t))))), { + beta: t, + lambda: M, + basis: A.basis ? A.basis.map(function (A) { + return { + a: new h(A.a, 16), + b: new h(A.b, 16) + } + }) : this._getEndoBasis(M) + } + }, + T.prototype._getEndoRoots = function (A) { + var M = A === this.p ? this.red : h.mont(A), + t = new h(2).toRed(M).redInvm(), + A = t.redNeg(), + t = new h(3).toRed(M).redNeg().redSqrt().redMul(t); + return [A.redAdd(t).fromRed(), A.redSub(t).fromRed()] + }, + T.prototype._getEndoBasis = function (A) { + for (var M, t, g, I, e, i, T, E = this.n.ushrn(Math.floor(this.n.bitLength() / 2)), N = A, n = this.n.clone(), D = new h(1), C = new h(0), r = new h(0), c = new h(1), o = 0; 0 !== N.cmpn(0); ) { + var B = n.div(N), + Q = n.sub(B.mul(N)), + a = r.sub(B.mul(D)), + B = c.sub(B.mul(C)); + if (!g && Q.cmp(E) < 0) + M = T.neg(), t = D, g = Q.neg(), I = a; + else if (g && 2 == ++o) + break; + n = N, + N = T = Q, + r = D, + D = a, + c = C, + C = B + } + e = Q.neg(), + i = a; + A = g.sqr().add(I.sqr()); + return 0 <= e.sqr().add(i.sqr()).cmp(A) && (e = M, i = t), + g.negative && (g = g.neg(), I = I.neg()), + e.negative && (e = e.neg(), i = i.neg()), + [{ + a: g, + b: I + }, { + a: e, + b: i + } + ] + }, + T.prototype._endoSplit = function (A) { + var M = this.endo.basis, + t = M[0], + g = M[1], + I = g.b.mul(A).divRound(this.n), + e = t.b.neg().mul(A).divRound(this.n), + i = I.mul(t.a), + M = e.mul(g.a), + t = I.mul(t.b), + g = e.mul(g.b); + return { + k1: A.sub(i).sub(M), + k2: t.add(g).neg() + } + }, + T.prototype.pointFromX = function (A, M) { + (A = new h(A, 16)).red || (A = A.toRed(this.red)); + var t = A.redSqr().redMul(A).redIAdd(A.redMul(this.a)).redIAdd(this.b), + g = t.redSqrt(); + if (0 !== g.redSqr().redSub(t).cmp(this.zero)) + throw new Error("invalid point"); + t = g.fromRed().isOdd(); + return (M && !t || !M && t) && (g = g.redNeg()), + this.point(A, g) + }, + T.prototype.validate = function (A) { + if (A.inf) + return !0; + var M = A.x, + t = A.y, + A = this.a.redMul(M), + A = M.redSqr().redMul(M).redIAdd(A).redIAdd(this.b); + return 0 === t.redSqr().redISub(A).cmpn(0) + }, + T.prototype._endoWnafMulAdd = function (A, M, t) { + for (var g = this._endoWnafT1, I = this._endoWnafT2, e = 0; e < A.length; e++) { + var i = this._endoSplit(M[e]), + T = A[e], + E = T._getBeta(); + i.k1.negative && (i.k1.ineg(), T = T.neg(!0)), + i.k2.negative && (i.k2.ineg(), E = E.neg(!0)), + g[2 * e] = T, + g[2 * e + 1] = E, + I[2 * e] = i.k1, + I[2 * e + 1] = i.k2 + } + for (var t = this._wnafMulAdd(1, g, I, 2 * e, t), N = 0; N < 2 * e; N++) + g[N] = null, I[N] = null; + return t + }, + I(E, e.BasePoint), + T.prototype.point = function (A, M, t) { + return new E(this, A, M, t) + }, + T.prototype.pointFromJSON = function (A, M) { + return E.fromJSON(this, A, M) + }, + E.prototype._getBeta = function () { + if (this.curve.endo) { + var A = this.precomputed; + if (A && A.beta) + return A.beta; + var M, + t, + g = this.curve.point(this.x.redMul(this.curve.endo.beta), this.y); + return A && (M = this.curve, t = function (A) { + return M.point(A.x.redMul(M.endo.beta), A.y) + }, (A.beta = g).precomputed = { + beta: null, + naf: A.naf && { + wnd: A.naf.wnd, + points: A.naf.points.map(t) + }, + doubles: A.doubles && { + step: A.doubles.step, + points: A.doubles.points.map(t) + } + }), + g + } + }, + E.prototype.toJSON = function () { + return this.precomputed ? [this.x, this.y, this.precomputed && { + doubles: this.precomputed.doubles && { + step: this.precomputed.doubles.step, + points: this.precomputed.doubles.points.slice(1) + }, + naf: this.precomputed.naf && { + wnd: this.precomputed.naf.wnd, + points: this.precomputed.naf.points.slice(1) + } + } + ] : [this.x, this.y] + }, + E.fromJSON = function (M, A, t) { + "string" == typeof A && (A = JSON.parse(A)); + var g = M.point(A[0], A[1], t); + if (!A[2]) + return g; + function I(A) { + return M.point(A[0], A[1], t) + } + A = A[2]; + return g.precomputed = { + beta: null, + doubles: A.doubles && { + step: A.doubles.step, + points: [g].concat(A.doubles.points.map(I)) + }, + naf: A.naf && { + wnd: A.naf.wnd, + points: [g].concat(A.naf.points.map(I)) + } + }, + g + }, + E.prototype.inspect = function () { + return this.isInfinity() ? "" : "" + }, + E.prototype.isInfinity = function () { + return this.inf + }, + E.prototype.add = function (A) { + if (this.inf) + return A; + if (A.inf) + return this; + if (this.eq(A)) + return this.dbl(); + if (this.neg().eq(A)) + return this.curve.point(null, null); + if (0 === this.x.cmp(A.x)) + return this.curve.point(null, null); + var M = this.y.redSub(A.y); + 0 !== M.cmpn(0) && (M = M.redMul(this.x.redSub(A.x).redInvm())); + A = M.redSqr().redISub(this.x).redISub(A.x), + M = M.redMul(this.x.redSub(A)).redISub(this.y); + return this.curve.point(A, M) + }, + E.prototype.dbl = function () { + if (this.inf) + return this; + var A = this.y.redAdd(this.y); + if (0 === A.cmpn(0)) + return this.curve.point(null, null); + var M = this.curve.a, + t = this.x.redSqr(), + A = A.redInvm(), + M = t.redAdd(t).redIAdd(t).redIAdd(M).redMul(A), + A = M.redSqr().redISub(this.x.redAdd(this.x)), + M = M.redMul(this.x.redSub(A)).redISub(this.y); + return this.curve.point(A, M) + }, + E.prototype.getX = function () { + return this.x.fromRed() + }, + E.prototype.getY = function () { + return this.y.fromRed() + }, + E.prototype.mul = function (A) { + return A = new h(A, 16), + this.isInfinity() ? this : this._hasDoubles(A) ? this.curve._fixedNafMul(this, A) : this.curve.endo ? this.curve._endoWnafMulAdd([this], [A]) : this.curve._wnafMul(this, A) + }, + E.prototype.mulAdd = function (A, M, t) { + M = [this, M], + t = [A, t]; + return this.curve.endo ? this.curve._endoWnafMulAdd(M, t) : this.curve._wnafMulAdd(1, M, t, 2) + }, + E.prototype.jmulAdd = function (A, M, t) { + M = [this, M], + t = [A, t]; + return this.curve.endo ? this.curve._endoWnafMulAdd(M, t, !0) : this.curve._wnafMulAdd(1, M, t, 2, !0) + }, + E.prototype.eq = function (A) { + return this === A || this.inf === A.inf && (this.inf || 0 === this.x.cmp(A.x) && 0 === this.y.cmp(A.y)) + }, + E.prototype.neg = function (A) { + if (this.inf) + return this; + var M, + t = this.curve.point(this.x, this.y.redNeg()); + return A && this.precomputed && (M = this.precomputed, A = function (A) { + return A.neg() + }, t.precomputed = { + naf: M.naf && { + wnd: M.naf.wnd, + points: M.naf.points.map(A) + }, + doubles: M.doubles && { + step: M.doubles.step, + points: M.doubles.points.map(A) + } + }), + t + }, + E.prototype.toJ = function () { + return this.inf ? this.curve.jpoint(null, null, null) : this.curve.jpoint(this.x, this.y, this.curve.one) + }, + I(N, e.BasePoint), + T.prototype.jpoint = function (A, M, t) { + return new N(this, A, M, t) + }, + N.prototype.toP = function () { + if (this.isInfinity()) + return this.curve.point(null, null); + var A = this.z.redInvm(), + M = A.redSqr(), + t = this.x.redMul(M), + A = this.y.redMul(M).redMul(A); + return this.curve.point(t, A) + }, + N.prototype.neg = function () { + return this.curve.jpoint(this.x, this.y.redNeg(), this.z) + }, + N.prototype.add = function (A) { + if (this.isInfinity()) + return A; + if (A.isInfinity()) + return this; + var M = A.z.redSqr(), + t = this.z.redSqr(), + g = this.x.redMul(M), + I = A.x.redMul(t), + e = this.y.redMul(M.redMul(A.z)), + i = A.y.redMul(t.redMul(this.z)), + M = g.redSub(I), + t = e.redSub(i); + if (0 === M.cmpn(0)) + return 0 !== t.cmpn(0) ? this.curve.jpoint(null, null, null) : this.dbl(); + I = M.redSqr(), + i = I.redMul(M), + g = g.redMul(I), + I = t.redSqr().redIAdd(i).redISub(g).redISub(g), + i = t.redMul(g.redISub(I)).redISub(e.redMul(i)), + M = this.z.redMul(A.z).redMul(M); + return this.curve.jpoint(I, i, M) + }, + N.prototype.mixedAdd = function (A) { + if (this.isInfinity()) + return A.toJ(); + if (A.isInfinity()) + return this; + var M = this.z.redSqr(), + t = this.x, + g = A.x.redMul(M), + I = this.y, + e = A.y.redMul(M).redMul(this.z), + A = t.redSub(g), + M = I.redSub(e); + if (0 === A.cmpn(0)) + return 0 !== M.cmpn(0) ? this.curve.jpoint(null, null, null) : this.dbl(); + g = A.redSqr(), + e = g.redMul(A), + t = t.redMul(g), + g = M.redSqr().redIAdd(e).redISub(t).redISub(t), + e = M.redMul(t.redISub(g)).redISub(I.redMul(e)), + A = this.z.redMul(A); + return this.curve.jpoint(g, e, A) + }, + N.prototype.dblp = function (A) { + if (0 === A) + return this; + if (this.isInfinity()) + return this; + if (!A) + return this.dbl(); + if (this.curve.zeroA || this.curve.threeA) { + for (var M = this, t = 0; t < A; t++) + M = M.dbl(); + return M + } + for (var g = this.curve.a, I = this.curve.tinv, e = this.x, i = this.y, T = this.z, E = T.redSqr().redSqr(), N = i.redAdd(i), t = 0; t < A; t++) { + var n = e.redSqr(), + D = N.redSqr(), + C = D.redSqr(), + r = n.redAdd(n).redIAdd(n).redIAdd(g.redMul(E)), + n = e.redMul(D), + D = r.redSqr().redISub(n.redAdd(n)), + n = n.redISub(D), + r = (r = r.redMul(n)).redIAdd(r).redISub(C), + n = N.redMul(T); + t + 1 < A && (E = E.redMul(C)), + e = D, + T = n, + N = r + } + return this.curve.jpoint(e, N.redMul(I), T) + }, + N.prototype.dbl = function () { + return this.isInfinity() ? this : this.curve.zeroA ? this._zeroDbl() : this.curve.threeA ? this._threeDbl() : this._dbl() + }, + N.prototype._zeroDbl = function () { + var A, + M, + t, + g, + I, + e = this.zOne ? (t = this.x.redSqr(), A = (g = this.y.redSqr()).redSqr(), I = (I = this.x.redAdd(g).redSqr().redISub(t).redISub(A)).redIAdd(I), g = (M = t.redAdd(t).redIAdd(t)).redSqr().redISub(I).redISub(I), t = (t = (t = A.redIAdd(A)).redIAdd(t)).redIAdd(t), A = g, M = M.redMul(I.redISub(g)).redISub(t), this.y.redAdd(this.y)) : (I = this.x.redSqr(), e = (g = this.y.redSqr()).redSqr(), t = (t = this.x.redAdd(g).redSqr().redISub(I).redISub(e)).redIAdd(t), I = (g = I.redAdd(I).redIAdd(I)).redSqr(), e = (e = (e = e.redIAdd(e)).redIAdd(e)).redIAdd(e), A = I.redISub(t).redISub(t), M = g.redMul(t.redISub(A)).redISub(e), (e = this.y.redMul(this.z)).redIAdd(e)); + return this.curve.jpoint(A, M, e) + }, + N.prototype._threeDbl = function () { + var A, + M, + t, + g, + I, + e, + i, + T; + return this.zOne ? (A = this.x.redSqr(), g = (M = this.y.redSqr()).redSqr(), i = (i = this.x.redAdd(M).redSqr().redISub(A).redISub(g)).redIAdd(i), t = I = (T = A.redAdd(A).redIAdd(A).redIAdd(this.curve.a)).redSqr().redISub(i).redISub(i), e = (e = (e = g.redIAdd(g)).redIAdd(e)).redIAdd(e), M = T.redMul(i.redISub(I)).redISub(e), A = this.y.redAdd(this.y)) : (g = this.z.redSqr(), T = this.y.redSqr(), i = this.x.redMul(T), I = (I = this.x.redSub(g).redMul(this.x.redAdd(g))).redAdd(I).redIAdd(I), i = (e = (e = i.redIAdd(i)).redIAdd(e)).redAdd(e), t = I.redSqr().redISub(i), A = this.y.redAdd(this.z).redSqr().redISub(T).redISub(g), T = (T = (T = (T = T.redSqr()).redIAdd(T)).redIAdd(T)).redIAdd(T), M = I.redMul(e.redISub(t)).redISub(T)), + this.curve.jpoint(t, M, A) + }, + N.prototype._dbl = function () { + var A = this.curve.a, + M = this.x, + t = this.y, + g = this.z, + I = g.redSqr().redSqr(), + e = M.redSqr(), + i = t.redSqr(), + A = e.redAdd(e).redIAdd(e).redIAdd(A.redMul(I)), + I = M.redAdd(M), + M = (I = I.redIAdd(I)).redMul(i), + I = A.redSqr().redISub(M.redAdd(M)), + M = M.redISub(I), + i = i.redSqr(); + i = (i = (i = i.redIAdd(i)).redIAdd(i)).redIAdd(i); + i = A.redMul(M).redISub(i), + g = t.redAdd(t).redMul(g); + return this.curve.jpoint(I, i, g) + }, + N.prototype.trpl = function () { + if (!this.curve.zeroA) + return this.dbl().add(this); + var A = this.x.redSqr(), + M = this.y.redSqr(), + t = this.z.redSqr(), + g = M.redSqr(), + I = A.redAdd(A).redIAdd(A), + e = I.redSqr(), + i = this.x.redAdd(M).redSqr().redISub(A).redISub(g), + A = (i = (i = (i = i.redIAdd(i)).redAdd(i).redIAdd(i)).redISub(e)).redSqr(), + g = g.redIAdd(g); + g = (g = (g = g.redIAdd(g)).redIAdd(g)).redIAdd(g); + e = I.redIAdd(i).redSqr().redISub(e).redISub(A).redISub(g), + M = M.redMul(e); + M = (M = M.redIAdd(M)).redIAdd(M); + M = this.x.redMul(A).redISub(M); + M = (M = M.redIAdd(M)).redIAdd(M); + e = this.y.redMul(e.redMul(g.redISub(e)).redISub(i.redMul(A))); + e = (e = (e = e.redIAdd(e)).redIAdd(e)).redIAdd(e); + A = this.z.redAdd(i).redSqr().redISub(t).redISub(A); + return this.curve.jpoint(M, e, A) + }, + N.prototype.mul = function (A, M) { + return A = new h(A, M), + this.curve._wnafMul(this, A) + }, + N.prototype.eq = function (A) { + if ("affine" === A.type) + return this.eq(A.toJ()); + if (this === A) + return !0; + var M = this.z.redSqr(), + t = A.z.redSqr(); + if (0 !== this.x.redMul(t).redISub(A.x.redMul(M)).cmpn(0)) + return !1; + M = M.redMul(this.z), + t = t.redMul(A.z); + return 0 === this.y.redMul(t).redISub(A.y.redMul(M)).cmpn(0) + }, + N.prototype.eqXToP = function (A) { + var M = this.z.redSqr(), + t = A.toRed(this.curve.red).redMul(M); + if (0 === this.x.cmp(t)) + return !0; + for (var g = A.clone(), I = this.curve.redN.redMul(M); ; ) { + if (g.iadd(this.curve.n), 0 <= g.cmp(this.curve.p)) + return !1; + if (t.redIAdd(I), 0 === this.x.cmp(t)) + return !0 + } + }, + N.prototype.inspect = function () { + return this.isInfinity() ? "" : "" + }, + N.prototype.isInfinity = function () { + return 0 === this.z.cmpn(0) + } + }, function (A, M, t) { + "use strict"; + var g = t(7), + I = t(3), + e = t(34), + i = t(12); + function T(A) { + e.call(this, "mont", A), + this.a = new g(A.a, 16).toRed(this.red), + this.b = new g(A.b, 16).toRed(this.red), + this.i4 = new g(4).toRed(this.red).redInvm(), + this.two = new g(2).toRed(this.red), + this.a24 = this.i4.redMul(this.a.redAdd(this.two)) + } + function E(A, M, t) { + e.BasePoint.call(this, A, "projective"), + null === M && null === t ? (this.x = this.curve.one, this.z = this.curve.zero) : (this.x = new g(M, 16), this.z = new g(t, 16), this.x.red || (this.x = this.x.toRed(this.curve.red)), this.z.red || (this.z = this.z.toRed(this.curve.red))) + } + I(T, e), + (A.exports = T).prototype.validate = function (A) { + var M = A.normalize().x, + A = M.redSqr(), + M = A.redMul(M).redAdd(A.redMul(this.a)).redAdd(M); + return 0 === M.redSqrt().redSqr().cmp(M) + }, + I(E, e.BasePoint), + T.prototype.decodePoint = function (A, M) { + return this.point(i.toArray(A, M), 1) + }, + T.prototype.point = function (A, M) { + return new E(this, A, M) + }, + T.prototype.pointFromJSON = function (A) { + return E.fromJSON(this, A) + }, + E.prototype.precompute = function () {}, + E.prototype._encode = function () { + return this.getX().toArray("be", this.curve.p.byteLength()) + }, + E.fromJSON = function (A, M) { + return new E(A, M[0], M[1] || A.one) + }, + E.prototype.inspect = function () { + return this.isInfinity() ? "" : "" + }, + E.prototype.isInfinity = function () { + return 0 === this.z.cmpn(0) + }, + E.prototype.dbl = function () { + var A = this.x.redAdd(this.z).redSqr(), + M = this.x.redSub(this.z).redSqr(), + t = A.redSub(M), + A = A.redMul(M), + t = t.redMul(M.redAdd(this.curve.a24.redMul(t))); + return this.curve.point(A, t) + }, + E.prototype.add = function () { + throw new Error("Not supported on Montgomery curve") + }, + E.prototype.diffAdd = function (A, M) { + var t = this.x.redAdd(this.z), + g = this.x.redSub(this.z), + I = A.x.redAdd(A.z), + t = A.x.redSub(A.z).redMul(t), + I = I.redMul(g), + g = M.z.redMul(t.redAdd(I).redSqr()), + I = M.x.redMul(t.redISub(I).redSqr()); + return this.curve.point(g, I) + }, + E.prototype.mul = function (A) { + for (var M = A.clone(), t = this, g = this.curve.point(null, null), I = []; 0 !== M.cmpn(0); M.iushrn(1)) + I.push(M.andln(1)); + for (var e = I.length - 1; 0 <= e; e--) + 0 === I[e] ? (t = t.diffAdd(g, this), g = g.dbl()) : (g = t.diffAdd(g, this), t = t.dbl()); + return g + }, + E.prototype.mulAdd = function () { + throw new Error("Not supported on Montgomery curve") + }, + E.prototype.jumlAdd = function () { + throw new Error("Not supported on Montgomery curve") + }, + E.prototype.eq = function (A) { + return 0 === this.getX().cmp(A.getX()) + }, + E.prototype.normalize = function () { + return this.x = this.x.redMul(this.z.redInvm()), + this.z = this.curve.one, + this + }, + E.prototype.getX = function () { + return this.normalize(), + this.x.fromRed() + } + }, function (A, M, t) { + "use strict"; + var g = t(12), + e = t(7), + I = t(3), + i = t(34), + T = g.assert; + function E(A) { + this.twisted = 1 != (0 | A.a), + this.mOneA = this.twisted && -1 == (0 | A.a), + this.extended = this.mOneA, + i.call(this, "edwards", A), + this.a = new e(A.a, 16).umod(this.red.m), + this.a = this.a.toRed(this.red), + this.c = new e(A.c, 16).toRed(this.red), + this.c2 = this.c.redSqr(), + this.d = new e(A.d, 16).toRed(this.red), + this.dd = this.d.redAdd(this.d), + T(!this.twisted || 0 === this.c.fromRed().cmpn(1)), + this.oneC = 1 == (0 | A.c) + } + function N(A, M, t, g, I) { + i.BasePoint.call(this, A, "projective"), + null === M && null === t && null === g ? (this.x = this.curve.zero, this.y = this.curve.one, this.z = this.curve.one, this.t = this.curve.zero, this.zOne = !0) : (this.x = new e(M, 16), this.y = new e(t, 16), this.z = g ? new e(g, 16) : this.curve.one, this.t = I && new e(I, 16), this.x.red || (this.x = this.x.toRed(this.curve.red)), this.y.red || (this.y = this.y.toRed(this.curve.red)), this.z.red || (this.z = this.z.toRed(this.curve.red)), this.t && !this.t.red && (this.t = this.t.toRed(this.curve.red)), this.zOne = this.z === this.curve.one, this.curve.extended && !this.t && (this.t = this.x.redMul(this.y), this.zOne || (this.t = this.t.redMul(this.z.redInvm())))) + } + I(E, i), + (A.exports = E).prototype._mulA = function (A) { + return this.mOneA ? A.redNeg() : this.a.redMul(A) + }, + E.prototype._mulC = function (A) { + return this.oneC ? A : this.c.redMul(A) + }, + E.prototype.jpoint = function (A, M, t, g) { + return this.point(A, M, t, g) + }, + E.prototype.pointFromX = function (A, M) { + (A = new e(A, 16)).red || (A = A.toRed(this.red)); + var t = A.redSqr(), + g = this.c2.redSub(this.a.redMul(t)), + t = this.one.redSub(this.c2.redMul(this.d).redMul(t)), + g = g.redMul(t.redInvm()), + t = g.redSqrt(); + if (0 !== t.redSqr().redSub(g).cmp(this.zero)) + throw new Error("invalid point"); + g = t.fromRed().isOdd(); + return (M && !g || !M && g) && (t = t.redNeg()), + this.point(A, t) + }, + E.prototype.pointFromY = function (A, M) { + (A = new e(A, 16)).red || (A = A.toRed(this.red)); + var t = A.redSqr(), + g = t.redSub(this.c2), + t = t.redMul(this.d).redMul(this.c2).redSub(this.a), + g = g.redMul(t.redInvm()); + if (0 === g.cmp(this.zero)) { + if (M) + throw new Error("invalid point"); + return this.point(this.zero, A) + } + t = g.redSqrt(); + if (0 !== t.redSqr().redSub(g).cmp(this.zero)) + throw new Error("invalid point"); + return t.fromRed().isOdd() !== M && (t = t.redNeg()), + this.point(t, A) + }, + E.prototype.validate = function (A) { + if (A.isInfinity()) + return !0; + A.normalize(); + var M = A.x.redSqr(), + t = A.y.redSqr(), + A = M.redMul(this.a).redAdd(t), + t = this.c2.redMul(this.one.redAdd(this.d.redMul(M).redMul(t))); + return 0 === A.cmp(t) + }, + I(N, i.BasePoint), + E.prototype.pointFromJSON = function (A) { + return N.fromJSON(this, A) + }, + E.prototype.point = function (A, M, t, g) { + return new N(this, A, M, t, g) + }, + N.fromJSON = function (A, M) { + return new N(A, M[0], M[1], M[2]) + }, + N.prototype.inspect = function () { + return this.isInfinity() ? "" : "" + }, + N.prototype.isInfinity = function () { + return 0 === this.x.cmpn(0) && (0 === this.y.cmp(this.z) || this.zOne && 0 === this.y.cmp(this.curve.c)) + }, + N.prototype._extDbl = function () { + var A = this.x.redSqr(), + M = this.y.redSqr(), + t = (t = this.z.redSqr()).redIAdd(t), + g = this.curve._mulA(A), + I = this.x.redAdd(this.y).redSqr().redISub(A).redISub(M), + e = g.redAdd(M), + A = e.redSub(t), + t = g.redSub(M), + g = I.redMul(A), + M = e.redMul(t), + t = I.redMul(t), + e = A.redMul(e); + return this.curve.point(g, M, e, t) + }, + N.prototype._projDbl = function () { + var A, + M, + t, + g, + I, + e, + i = this.x.redAdd(this.y).redSqr(), + T = this.x.redSqr(), + E = this.y.redSqr(); + return e = this.curve.twisted ? (A = (g = this.curve._mulA(T)).redAdd(E), this.zOne ? (M = i.redSub(T).redSub(E).redMul(A.redSub(this.curve.two)), t = A.redMul(g.redSub(E)), A.redSqr().redSub(A).redSub(A)) : (I = this.z.redSqr(), e = A.redSub(I).redISub(I), M = i.redSub(T).redISub(E).redMul(e), t = A.redMul(g.redSub(E)), A.redMul(e))) : (g = T.redAdd(E), I = this.curve._mulC(this.z).redSqr(), e = g.redSub(I).redSub(I), M = this.curve._mulC(i.redISub(g)).redMul(e), t = this.curve._mulC(g).redMul(T.redISub(E)), g.redMul(e)), + this.curve.point(M, t, e) + }, + N.prototype.dbl = function () { + return this.isInfinity() ? this : this.curve.extended ? this._extDbl() : this._projDbl() + }, + N.prototype._extAdd = function (A) { + var M = this.y.redSub(this.x).redMul(A.y.redSub(A.x)), + t = this.y.redAdd(this.x).redMul(A.y.redAdd(A.x)), + g = this.t.redMul(this.curve.dd).redMul(A.t), + I = this.z.redMul(A.z.redAdd(A.z)), + e = t.redSub(M), + A = I.redSub(g), + I = I.redAdd(g), + g = t.redAdd(M), + t = e.redMul(A), + M = I.redMul(g), + g = e.redMul(g), + I = A.redMul(I); + return this.curve.point(t, M, I, g) + }, + N.prototype._projAdd = function (A) { + var M, + t = this.z.redMul(A.z), + g = t.redSqr(), + I = this.x.redMul(A.x), + e = this.y.redMul(A.y), + i = this.curve.d.redMul(I).redMul(e), + T = g.redSub(i), + i = g.redAdd(i), + A = this.x.redAdd(this.y).redMul(A.x.redAdd(A.y)).redISub(I).redISub(e), + A = t.redMul(T).redMul(A), + i = this.curve.twisted ? (M = t.redMul(i).redMul(e.redSub(this.curve._mulA(I))), T.redMul(i)) : (M = t.redMul(i).redMul(e.redSub(I)), this.curve._mulC(T).redMul(i)); + return this.curve.point(A, M, i) + }, + N.prototype.add = function (A) { + return this.isInfinity() ? A : A.isInfinity() ? this : this.curve.extended ? this._extAdd(A) : this._projAdd(A) + }, + N.prototype.mul = function (A) { + return this._hasDoubles(A) ? this.curve._fixedNafMul(this, A) : this.curve._wnafMul(this, A) + }, + N.prototype.mulAdd = function (A, M, t) { + return this.curve._wnafMulAdd(1, [this, M], [A, t], 2, !1) + }, + N.prototype.jmulAdd = function (A, M, t) { + return this.curve._wnafMulAdd(1, [this, M], [A, t], 2, !0) + }, + N.prototype.normalize = function () { + if (this.zOne) + return this; + var A = this.z.redInvm(); + return this.x = this.x.redMul(A), + this.y = this.y.redMul(A), + this.t && (this.t = this.t.redMul(A)), + this.z = this.curve.one, + this.zOne = !0, + this + }, + N.prototype.neg = function () { + return this.curve.point(this.x.redNeg(), this.y, this.z, this.t && this.t.redNeg()) + }, + N.prototype.getX = function () { + return this.normalize(), + this.x.fromRed() + }, + N.prototype.getY = function () { + return this.normalize(), + this.y.fromRed() + }, + N.prototype.eq = function (A) { + return this === A || 0 === this.getX().cmp(A.getX()) && 0 === this.getY().cmp(A.getY()) + }, + N.prototype.eqXToP = function (A) { + var M = A.toRed(this.curve.red).redMul(this.z); + if (0 === this.x.cmp(M)) + return !0; + for (var t = A.clone(), g = this.curve.redN.redMul(this.z); ; ) { + if (t.iadd(this.curve.n), 0 <= t.cmp(this.curve.p)) + return !1; + if (M.redIAdd(g), 0 === this.x.cmp(M)) + return !0 + } + }, + N.prototype.toP = N.prototype.normalize, + N.prototype.mixedAdd = N.prototype.add + }, function (A, M, t) { + "use strict"; + M.sha1 = t(177), + M.sha224 = t(178), + M.sha256 = t(98), + M.sha384 = t(179), + M.sha512 = t(99) + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(27), + t = t(97), + n = g.rotl32, + D = g.sum32, + C = g.sum32_5, + r = t.ft_1, + e = I.BlockHash, + c = [1518500249, 1859775393, 2400959708, 3395469782]; + function i() { + if (!(this instanceof i)) + return new i; + e.call(this), + this.h = [1732584193, 4023233417, 2562383102, 271733878, 3285377520], + this.W = new Array(80) + } + g.inherits(i, e), + (A.exports = i).blockSize = 512, + i.outSize = 160, + i.hmacStrength = 80, + i.padLength = 64, + i.prototype._update = function (A, M) { + for (var t = this.W, g = 0; g < 16; g++) + t[g] = A[M + g]; + for (; g < t.length; g++) + t[g] = n(t[g - 3] ^ t[g - 8] ^ t[g - 14] ^ t[g - 16], 1); + for (var I = this.h[0], e = this.h[1], i = this.h[2], T = this.h[3], E = this.h[4], g = 0; g < t.length; g++) + var N = ~~(g / 20), N = C(n(I, 5), r(N, e, i, T), E, t[g], c[N]), E = T, T = i, i = n(e, 30), e = I, I = N; + this.h[0] = D(this.h[0], I), + this.h[1] = D(this.h[1], e), + this.h[2] = D(this.h[2], i), + this.h[3] = D(this.h[3], T), + this.h[4] = D(this.h[4], E) + }, + i.prototype._digest = function (A) { + return "hex" === A ? g.toHex32(this.h, "big") : g.split32(this.h, "big") + } + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(98); + function e() { + if (!(this instanceof e)) + return new e; + I.call(this), + this.h = [3238371032, 914150663, 812702999, 4144912697, 4290775857, 1750603025, 1694076839, 3204075428] + } + g.inherits(e, I), + (A.exports = e).blockSize = 512, + e.outSize = 224, + e.hmacStrength = 192, + e.padLength = 64, + e.prototype._digest = function (A) { + return "hex" === A ? g.toHex32(this.h.slice(0, 7), "big") : g.split32(this.h.slice(0, 7), "big") + } + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(99); + function e() { + if (!(this instanceof e)) + return new e; + I.call(this), + this.h = [3418070365, 3238371032, 1654270250, 914150663, 2438529370, 812702999, 355462360, 4144912697, 1731405415, 4290775857, 2394180231, 1750603025, 3675008525, 1694076839, 1203062813, 3204075428] + } + g.inherits(e, I), + (A.exports = e).blockSize = 1024, + e.outSize = 384, + e.hmacStrength = 192, + e.padLength = 128, + e.prototype._digest = function (A) { + return "hex" === A ? g.toHex32(this.h.slice(0, 12), "big") : g.split32(this.h.slice(0, 12), "big") + } + }, function (A, M, t) { + "use strict"; + var g = t(14), + t = t(27), + o = g.rotl32, + B = g.sum32, + Q = g.sum32_3, + a = g.sum32_4, + I = t.BlockHash; + function e() { + if (!(this instanceof e)) + return new e; + I.call(this), + this.h = [1732584193, 4023233417, 2562383102, 271733878, 3285377520], + this.endian = "little" + } + function h(A, M, t, g) { + return A <= 15 ? M ^ t ^ g : A <= 31 ? M & t | ~M & g : A <= 47 ? (M | ~t) ^ g : A <= 63 ? M & g | t & ~g : M ^ (t | ~g) + } + g.inherits(e, I), + (M.ripemd160 = e).blockSize = 512, + e.outSize = 160, + e.hmacStrength = 192, + e.padLength = 64, + e.prototype._update = function (A, M) { + for (var t, g = n = this.h[0], I = c = this.h[1], e = r = this.h[2], i = C = this.h[3], T = D = this.h[4], E = 0; E < 80; E++) + var N = B(o(a(n, h(E, c, r, C), A[s[E] + M], (t = E) <= 15 ? 0 : t <= 31 ? 1518500249 : t <= 47 ? 1859775393 : t <= 63 ? 2400959708 : 2840853838), w[E]), D), n = D, D = C, C = o(r, 10), r = c, c = N, N = B(o(a(g, h(79 - E, I, e, i), A[y[E] + M], (t = E) <= 15 ? 1352829926 : t <= 31 ? 1548603684 : t <= 47 ? 1836072691 : t <= 63 ? 2053994217 : 0), j[E]), T), g = T, T = i, i = o(e, 10), e = I, I = N; + N = Q(this.h[1], r, i), + this.h[1] = Q(this.h[2], C, T), + this.h[2] = Q(this.h[3], D, g), + this.h[3] = Q(this.h[4], n, I), + this.h[4] = Q(this.h[0], c, e), + this.h[0] = N + }, + e.prototype._digest = function (A) { + return "hex" === A ? g.toHex32(this.h, "little") : g.split32(this.h, "little") + }; + var s = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 7, 4, 13, 1, 10, 6, 15, 3, 12, 0, 9, 5, 2, 14, 11, 8, 3, 10, 14, 4, 9, 15, 8, 1, 2, 7, 0, 6, 13, 11, 5, 12, 1, 9, 11, 10, 0, 8, 12, 4, 13, 3, 7, 15, 14, 5, 6, 2, 4, 0, 5, 9, 7, 12, 2, 10, 14, 1, 3, 8, 11, 6, 15, 13], + y = [5, 14, 7, 0, 9, 2, 11, 4, 13, 6, 15, 8, 1, 10, 3, 12, 6, 11, 3, 7, 0, 13, 5, 10, 14, 15, 8, 12, 4, 9, 1, 2, 15, 5, 1, 3, 7, 14, 6, 9, 11, 8, 12, 2, 10, 0, 4, 13, 8, 6, 4, 1, 3, 11, 15, 0, 5, 12, 2, 13, 9, 7, 10, 14, 12, 15, 10, 4, 1, 5, 8, 7, 6, 2, 13, 14, 0, 3, 9, 11], + w = [11, 14, 15, 12, 5, 8, 7, 9, 11, 13, 14, 15, 6, 7, 9, 8, 7, 6, 8, 13, 11, 9, 7, 15, 7, 12, 15, 9, 11, 7, 13, 12, 11, 13, 6, 7, 14, 9, 13, 15, 14, 8, 13, 6, 5, 12, 7, 5, 11, 12, 14, 15, 14, 15, 9, 8, 9, 14, 5, 6, 8, 6, 5, 12, 9, 15, 5, 11, 6, 8, 13, 12, 5, 12, 13, 14, 11, 8, 5, 6], + j = [8, 9, 9, 11, 13, 15, 15, 5, 7, 7, 8, 11, 14, 14, 12, 6, 9, 13, 15, 7, 12, 8, 9, 11, 7, 7, 12, 7, 6, 15, 13, 11, 9, 7, 15, 11, 8, 6, 6, 14, 12, 13, 5, 14, 13, 13, 7, 5, 15, 5, 8, 11, 14, 14, 6, 14, 6, 9, 12, 9, 12, 5, 15, 8, 8, 5, 12, 9, 12, 5, 14, 6, 8, 13, 6, 5, 15, 13, 11, 11] + }, function (A, M, t) { + "use strict"; + var g = t(14), + I = t(11); + function e(A, M, t) { + if (!(this instanceof e)) + return new e(A, M, t); + this.Hash = A, + this.blockSize = A.blockSize / 8, + this.outSize = A.outSize / 8, + this.inner = null, + this.outer = null, + this._init(g.toArray(M, t)) + } + (A.exports = e).prototype._init = function (A) { + A.length > this.blockSize && (A = (new this.Hash).update(A).digest()), + I(A.length <= this.blockSize); + for (var M = A.length; M < this.blockSize; M++) + A.push(0); + for (M = 0; M < A.length; M++) + A[M] ^= 54; + for (this.inner = (new this.Hash).update(A), M = 0; M < A.length; M++) + A[M] ^= 106; + this.outer = (new this.Hash).update(A) + }, + e.prototype.update = function (A, M) { + return this.inner.update(A, M), + this + }, + e.prototype.digest = function (A) { + return this.outer.update(this.inner.digest()), + this.outer.digest(A) + } + }, function (A, M) { + A.exports = { + doubles: { + step: 4, + points: [["e60fce93b59e9ec53011aabc21c23e97b2a31369b87a5ae9c44ee89e2a6dec0a", "f7e3507399e595929db99f34f57937101296891e44d23f0be1f32cce69616821"], ["8282263212c609d9ea2a6e3e172de238d8c39cabd5ac1ca10646e23fd5f51508", "11f8a8098557dfe45e8256e830b60ace62d613ac2f7b17bed31b6eaff6e26caf"], ["175e159f728b865a72f99cc6c6fc846de0b93833fd2222ed73fce5b551e5b739", "d3506e0d9e3c79eba4ef97a51ff71f5eacb5955add24345c6efa6ffee9fed695"], ["363d90d447b00c9c99ceac05b6262ee053441c7e55552ffe526bad8f83ff4640", "4e273adfc732221953b445397f3363145b9a89008199ecb62003c7f3bee9de9"], ["8b4b5f165df3c2be8c6244b5b745638843e4a781a15bcd1b69f79a55dffdf80c", "4aad0a6f68d308b4b3fbd7813ab0da04f9e336546162ee56b3eff0c65fd4fd36"], ["723cbaa6e5db996d6bf771c00bd548c7b700dbffa6c0e77bcb6115925232fcda", "96e867b5595cc498a921137488824d6e2660a0653779494801dc069d9eb39f5f"], 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["e62f9490d3d51da6395efd24e80919cc7d0f29c3f3fa48c6fff543becbd43352", "6d89ad7ba4876b0b22c2ca280c682862f342c8591f1daf5170e07bfd9ccafa7d"], ["7f30ea2476b399b4957509c88f77d0191afa2ff5cb7b14fd6d8e7d65aaab1193", "ca5ef7d4b231c94c3b15389a5f6311e9daff7bb67b103e9880ef4bff637acaec"], ["5098ff1e1d9f14fb46a210fada6c903fef0fb7b4a1dd1d9ac60a0361800b7a00", "9731141d81fc8f8084d37c6e7542006b3ee1b40d60dfe5362a5b132fd17ddc0"], ["32b78c7de9ee512a72895be6b9cbefa6e2f3c4ccce445c96b9f2c81e2778ad58", "ee1849f513df71e32efc3896ee28260c73bb80547ae2275ba497237794c8753c"], ["e2cb74fddc8e9fbcd076eef2a7c72b0ce37d50f08269dfc074b581550547a4f7", "d3aa2ed71c9dd2247a62df062736eb0baddea9e36122d2be8641abcb005cc4a4"], ["8438447566d4d7bedadc299496ab357426009a35f235cb141be0d99cd10ae3a8", "c4e1020916980a4da5d01ac5e6ad330734ef0d7906631c4f2390426b2edd791f"], ["4162d488b89402039b584c6fc6c308870587d9c46f660b878ab65c82c711d67e", "67163e903236289f776f22c25fb8a3afc1732f2b84b4e95dbda47ae5a0852649"], ["3fad3fa84caf0f34f0f89bfd2dcf54fc175d767aec3e50684f3ba4a4bf5f683d", "cd1bc7cb6cc407bb2f0ca647c718a730cf71872e7d0d2a53fa20efcdfe61826"], ["674f2600a3007a00568c1a7ce05d0816c1fb84bf1370798f1c69532faeb1a86b", "299d21f9413f33b3edf43b257004580b70db57da0b182259e09eecc69e0d38a5"], ["d32f4da54ade74abb81b815ad1fb3b263d82d6c692714bcff87d29bd5ee9f08f", "f9429e738b8e53b968e99016c059707782e14f4535359d582fc416910b3eea87"], ["30e4e670435385556e593657135845d36fbb6931f72b08cb1ed954f1e3ce3ff6", "462f9bce619898638499350113bbc9b10a878d35da70740dc695a559eb88db7b"], ["be2062003c51cc3004682904330e4dee7f3dcd10b01e580bf1971b04d4cad297", "62188bc49d61e5428573d48a74e1c655b1c61090905682a0d5558ed72dccb9bc"], ["93144423ace3451ed29e0fb9ac2af211cb6e84a601df5993c419859fff5df04a", "7c10dfb164c3425f5c71a3f9d7992038f1065224f72bb9d1d902a6d13037b47c"], ["b015f8044f5fcbdcf21ca26d6c34fb8197829205c7b7d2a7cb66418c157b112c", "ab8c1e086d04e813744a655b2df8d5f83b3cdc6faa3088c1d3aea1454e3a1d5f"], ["d5e9e1da649d97d89e4868117a465a3a4f8a18de57a140d36b3f2af341a21b52", "4cb04437f391ed73111a13cc1d4dd0db1693465c2240480d8955e8592f27447a"], ["d3ae41047dd7ca065dbf8ed77b992439983005cd72e16d6f996a5316d36966bb", "bd1aeb21ad22ebb22a10f0303417c6d964f8cdd7df0aca614b10dc14d125ac46"], ["463e2763d885f958fc66cdd22800f0a487197d0a82e377b49f80af87c897b065", "bfefacdb0e5d0fd7df3a311a94de062b26b80c61fbc97508b79992671ef7ca7f"], ["7985fdfd127c0567c6f53ec1bb63ec3158e597c40bfe747c83cddfc910641917", "603c12daf3d9862ef2b25fe1de289aed24ed291e0ec6708703a5bd567f32ed03"], ["74a1ad6b5f76e39db2dd249410eac7f99e74c59cb83d2d0ed5ff1543da7703e9", "cc6157ef18c9c63cd6193d83631bbea0093e0968942e8c33d5737fd790e0db08"], ["30682a50703375f602d416664ba19b7fc9bab42c72747463a71d0896b22f6da3", "553e04f6b018b4fa6c8f39e7f311d3176290d0e0f19ca73f17714d9977a22ff8"], ["9e2158f0d7c0d5f26c3791efefa79597654e7a2b2464f52b1ee6c1347769ef57", "712fcdd1b9053f09003a3481fa7762e9ffd7c8ef35a38509e2fbf2629008373"], ["176e26989a43c9cfeba4029c202538c28172e566e3c4fce7322857f3be327d66", "ed8cc9d04b29eb877d270b4878dc43c19aefd31f4eee09ee7b47834c1fa4b1c3"], ["75d46efea3771e6e68abb89a13ad747ecf1892393dfc4f1b7004788c50374da8", "9852390a99507679fd0b86fd2b39a868d7efc22151346e1a3ca4726586a6bed8"], ["809a20c67d64900ffb698c4c825f6d5f2310fb0451c869345b7319f645605721", "9e994980d9917e22b76b061927fa04143d096ccc54963e6a5ebfa5f3f8e286c1"], ["1b38903a43f7f114ed4500b4eac7083fdefece1cf29c63528d563446f972c180", "4036edc931a60ae889353f77fd53de4a2708b26b6f5da72ad3394119daf408f9"]] + } + } + }, function (A, M, t) { + "use strict"; + var C = t(7), + r = t(184), + g = t(12), + I = t(51), + e = t(47), + T = g.assert, + i = t(185), + c = t(186); + function E(A) { + if (!(this instanceof E)) + return new E(A); + "string" == typeof A && (T(I.hasOwnProperty(A), "Unknown curve " + A), A = I[A]), + A instanceof I.PresetCurve && (A = { + curve: A + }), + this.curve = A.curve.curve, + this.n = this.curve.n, + this.nh = this.n.ushrn(1), + this.g = this.curve.g, + this.g = A.curve.g, + this.g.precompute(A.curve.n.bitLength() + 1), + this.hash = A.hash || A.curve.hash + } + (A.exports = E).prototype.keyPair = function (A) { + return new i(this, A) + }, + E.prototype.keyFromPrivate = function (A, M) { + return i.fromPrivate(this, A, M) + }, + E.prototype.keyFromPublic = function (A, M) { + return i.fromPublic(this, A, M) + }, + E.prototype.genKeyPair = function (A) { + A = A || {}; + for (var M = new r({ + hash: this.hash, + pers: A.pers, + persEnc: A.persEnc || "utf8", + entropy: A.entropy || e(this.hash.hmacStrength), + entropyEnc: A.entropy && A.entropyEnc || "utf8", + nonce: this.n.toArray() + }), t = this.n.byteLength(), g = this.n.sub(new C(2)); ; ) { + var I = new C(M.generate(t)); + if (!(0 < I.cmp(g))) + return I.iaddn(1), this.keyFromPrivate(I) + } + }, + E.prototype._truncateToN = function (A, M) { + var t = 8 * A.byteLength() - this.n.bitLength(); + return 0 < t && (A = A.ushrn(t)), + !M && 0 <= A.cmp(this.n) ? A.sub(this.n) : A + }, + E.prototype.sign = function (A, M, t, g) { + "object" == typeof t && (g = t, t = null), + g = g || {}, + M = this.keyFromPrivate(M, t), + A = this._truncateToN(new C(A, 16)); + for (var I = this.n.byteLength(), t = M.getPrivate().toArray("be", I), I = A.toArray("be", I), e = new r({ + hash: this.hash, + entropy: t, + nonce: I, + pers: g.pers, + persEnc: g.persEnc || "utf8" + }), i = this.n.sub(new C(1)), T = 0; ; T++) { + var E = g.k ? g.k(T) : new C(e.generate(this.n.byteLength())); + if (!((E = this._truncateToN(E, !0)).cmpn(1) <= 0 || 0 <= E.cmp(i))) { + var N = this.g.mul(E); + if (!N.isInfinity()) { + var n = N.getX(), + D = n.umod(this.n); + if (0 !== D.cmpn(0)) { + E = E.invm(this.n).mul(D.mul(M.getPrivate()).iadd(A)); + if (0 !== (E = E.umod(this.n)).cmpn(0)) { + n = (N.getY().isOdd() ? 1 : 0) | (0 !== n.cmp(D) ? 2 : 0); + return g.canonical && 0 < E.cmp(this.nh) && (E = this.n.sub(E), n ^= 1), + new c({ + r: D, + s: E, + recoveryParam: n + }) + } + } + } + } + } + }, + E.prototype.verify = function (A, M, t, g) { + A = this._truncateToN(new C(A, 16)), + t = this.keyFromPublic(t, g); + g = (M = new c(M, "hex")).r, + M = M.s; + if (g.cmpn(1) < 0 || 0 <= g.cmp(this.n)) + return !1; + if (M.cmpn(1) < 0 || 0 <= M.cmp(this.n)) + return !1; + var I, + M = M.invm(this.n), + A = M.mul(A).umod(this.n), + M = M.mul(g).umod(this.n); + return this.curve._maxwellTrick ? !(I = this.g.jmulAdd(A, t.getPublic(), M)).isInfinity() && I.eqXToP(g) : !(I = this.g.mulAdd(A, t.getPublic(), M)).isInfinity() && 0 === I.getX().umod(this.n).cmp(g) + }, + E.prototype.recoverPubKey = function (A, M, t, g) { + T((3 & t) === t, "The recovery param is more than two bits"), + M = new c(M, g); + var I = this.n, + e = new C(A), + i = M.r, + g = M.s, + A = 1 & t, + t = t >> 1; + if (0 <= i.cmp(this.curve.p.umod(this.curve.n)) && t) + throw new Error("Unable to find sencond key candinate"); + i = t ? this.curve.pointFromX(i.add(this.curve.n), A) : this.curve.pointFromX(i, A); + M = M.r.invm(I), + e = I.sub(e).mul(M).umod(I), + I = g.mul(M).umod(I); + return this.g.mulAdd(e, i, I) + }, + E.prototype.getKeyRecoveryParam = function (A, M, t, g) { + if (null !== (M = new c(M, g)).recoveryParam) + return M.recoveryParam; + for (var I, e = 0; e < 4; e++) { + try { + I = this.recoverPubKey(A, M, e) + } catch (A) { + continue + } + if (I.eq(t)) + return e + } + throw new Error("Unable to find valid recovery factor") + } + }, function (A, M, t) { + "use strict"; + var g = t(52), + e = t(95), + I = t(11); + function i(A) { + if (!(this instanceof i)) + return new i(A); + this.hash = A.hash, + this.predResist = !!A.predResist, + this.outLen = this.hash.outSize, + this.minEntropy = A.minEntropy || this.hash.hmacStrength, + this._reseed = null, + this.reseedInterval = null, + this.K = null, + this.V = null; + var M = e.toArray(A.entropy, A.entropyEnc || "hex"), + t = e.toArray(A.nonce, A.nonceEnc || "hex"), + A = e.toArray(A.pers, A.persEnc || "hex"); + I(M.length >= this.minEntropy / 8, "Not enough entropy. Minimum is: " + this.minEntropy + " bits"), + this._init(M, t, A) + } + (A.exports = i).prototype._init = function (A, M, t) { + t = A.concat(M).concat(t); + this.K = new Array(this.outLen / 8), + this.V = new Array(this.outLen / 8); + for (var g = 0; g < this.V.length; g++) + this.K[g] = 0, this.V[g] = 1; + this._update(t), + this._reseed = 1, + this.reseedInterval = 281474976710656 + }, + i.prototype._hmac = function () { + return new g.hmac(this.hash, this.K) + }, + i.prototype._update = function (A) { + var M = this._hmac().update(this.V).update([0]); + A && (M = M.update(A)), + this.K = M.digest(), + this.V = this._hmac().update(this.V).digest(), + A && (this.K = this._hmac().update(this.V).update([1]).update(A).digest(), this.V = this._hmac().update(this.V).digest()) + }, + i.prototype.reseed = function (A, M, t, g) { + "string" != typeof M && (g = t, t = M, M = null), + A = e.toArray(A, M), + t = e.toArray(t, g), + I(A.length >= this.minEntropy / 8, "Not enough entropy. Minimum is: " + this.minEntropy + " bits"), + this._update(A.concat(t || [])), + this._reseed = 1 + }, + i.prototype.generate = function (A, M, t, g) { + if (this._reseed > this.reseedInterval) + throw new Error("Reseed is required"); + "string" != typeof M && (g = t, t = M, M = null), + t && (t = e.toArray(t, g || "hex"), this._update(t)); + for (var I = []; I.length < A; ) + this.V = this._hmac().update(this.V).digest(), I = I.concat(this.V); + g = I.slice(0, A); + return this._update(t), + this._reseed++, + e.encode(g, M) + } + }, function (A, M, t) { + "use strict"; + var g = t(7), + I = t(12).assert; + function e(A, M) { + this.ec = A, + this.priv = null, + this.pub = null, + M.priv && this._importPrivate(M.priv, M.privEnc), + M.pub && this._importPublic(M.pub, M.pubEnc) + } + (A.exports = e).fromPublic = function (A, M, t) { + return M instanceof e ? M : new e(A, { + pub: M, + pubEnc: t + }) + }, + e.fromPrivate = function (A, M, t) { + return M instanceof e ? M : new e(A, { + priv: M, + privEnc: t + }) + }, + e.prototype.validate = function () { + var A = this.getPublic(); + return A.isInfinity() ? { + result: !1, + reason: "Invalid public key" + } + : A.validate() ? A.mul(this.ec.curve.n).isInfinity() ? { + result: !0, + reason: null + } + : { + result: !1, + reason: "Public key * N != O" + } + : { + result: !1, + reason: "Public key is not a point" + } + }, + e.prototype.getPublic = function (A, M) { + return "string" == typeof A && (M = A, A = null), + this.pub || (this.pub = this.ec.g.mul(this.priv)), + M ? this.pub.encode(M, A) : this.pub + }, + e.prototype.getPrivate = function (A) { + return "hex" === A ? this.priv.toString(16, 2) : this.priv + }, + e.prototype._importPrivate = function (A, M) { + this.priv = new g(A, M || 16), + this.priv = this.priv.umod(this.ec.curve.n) + }, + e.prototype._importPublic = function (A, M) { + if (A.x || A.y) + return "mont" === this.ec.curve.type ? I(A.x, "Need x coordinate") : "short" !== this.ec.curve.type && "edwards" !== this.ec.curve.type || I(A.x && A.y, "Need both x and y coordinate"), void(this.pub = this.ec.curve.point(A.x, A.y)); + this.pub = this.ec.curve.decodePoint(A, M) + }, + e.prototype.derive = function (A) { + return A.mul(this.priv).getX() + }, + e.prototype.sign = function (A, M, t) { + return this.ec.sign(A, this, M, t) + }, + e.prototype.verify = function (A, M) { + return this.ec.verify(A, M, this) + }, + e.prototype.inspect = function () { + return "" + } + }, function (A, M, t) { + "use strict"; + var I = t(7), + e = t(12), + g = e.assert; + function i(A, M) { + if (A instanceof i) + return A; + this._importDER(A, M) || (g(A.r && A.s, "Signature without r or s"), this.r = new I(A.r, 16), this.s = new I(A.s, 16), void 0 === A.recoveryParam ? this.recoveryParam = null : this.recoveryParam = A.recoveryParam) + } + function T() { + this.place = 0 + } + function E(A, M) { + var t = A[M.place++]; + if (!(128 & t)) + return t; + var g = 15 & t; + if (0 == g || 4 < g) + return !1; + for (var I = 0, e = 0, i = M.place; e < g; e++, i++) + I <<= 8, I |= A[i], I >>>= 0; + return !(I <= 127) && (M.place = i, I) + } + function N(A) { + for (var M = 0, t = A.length - 1; !A[M] && !(128 & A[M + 1]) && M < t; ) + M++; + return 0 === M ? A : A.slice(M) + } + function n(A, M) { + if (M < 128) + A.push(M); + else { + var t = 1 + (Math.log(M) / Math.LN2 >>> 3); + for (A.push(128 | t); --t; ) + A.push(M >>> (t << 3) & 255); + A.push(M) + } + } + (A.exports = i).prototype._importDER = function (A, M) { + A = e.toArray(A, M); + var t = new T; + if (48 !== A[t.place++]) + return !1; + var g = E(A, t); + if (!1 === g) + return !1; + if (g + t.place !== A.length) + return !1; + if (2 !== A[t.place++]) + return !1; + M = E(A, t); + if (!1 === M) + return !1; + g = A.slice(t.place, M + t.place); + if (t.place += M, 2 !== A[t.place++]) + return !1; + M = E(A, t); + if (!1 === M) + return !1; + if (A.length !== M + t.place) + return !1; + t = A.slice(t.place, M + t.place); + if (0 === g[0]) { + if (!(128 & g[1])) + return !1; + g = g.slice(1) + } + if (0 === t[0]) { + if (!(128 & t[1])) + return !1; + t = t.slice(1) + } + return this.r = new I(g), + this.s = new I(t), + !(this.recoveryParam = null) + }, + i.prototype.toDER = function (A) { + var M = this.r.toArray(), + t = this.s.toArray(); + for (128 & M[0] && (M = [0].concat(M)), 128 & t[0] && (t = [0].concat(t)), M = N(M), t = N(t); !(t[0] || 128 & t[1]); ) + t = t.slice(1); + var g = [2]; + n(g, M.length), + (g = g.concat(M)).push(2), + n(g, t.length); + M = g.concat(t), + g = [48]; + return n(g, M.length), + g = g.concat(M), + e.encode(g, A) + } + }, function (A, M, t) { + "use strict"; + var g = t(52), + I = t(51), + e = t(12), + i = e.assert, + T = e.parseBytes, + E = t(188), + N = t(189); + function n(A) { + if (i("ed25519" === A, "only tested with ed25519 so far"), !(this instanceof n)) + return new n(A); + A = I[A].curve; + this.curve = A, + this.g = A.g, + this.g.precompute(A.n.bitLength() + 1), + this.pointClass = A.point().constructor, + this.encodingLength = Math.ceil(A.n.bitLength() / 8), + this.hash = g.sha512 + } + (A.exports = n).prototype.sign = function (A, M) { + A = T(A); + var t = this.keyFromSecret(M), + g = this.hashInt(t.messagePrefix(), A), + I = this.g.mul(g), + M = this.encodePoint(I), + t = this.hashInt(M, t.pubBytes(), A).mul(t.priv()), + t = g.add(t).umod(this.curve.n); + return this.makeSignature({ + R: I, + S: t, + Rencoded: M + }) + }, + n.prototype.verify = function (A, M, t) { + A = T(A), + M = this.makeSignature(M); + var g = this.keyFromPublic(t), + t = this.hashInt(M.Rencoded(), g.pubBytes(), A), + A = this.g.mul(M.S()); + return M.R().add(g.pub().mul(t)).eq(A) + }, + n.prototype.hashInt = function () { + for (var A = this.hash(), M = 0; M < arguments.length; M++) + A.update(arguments[M]); + return e.intFromLE(A.digest()).umod(this.curve.n) + }, + n.prototype.keyFromPublic = function (A) { + return E.fromPublic(this, A) + }, + n.prototype.keyFromSecret = function (A) { + return E.fromSecret(this, A) + }, + n.prototype.makeSignature = function (A) { + return A instanceof N ? A : new N(this, A) + }, + n.prototype.encodePoint = function (A) { + var M = A.getY().toArray("le", this.encodingLength); + return M[this.encodingLength - 1] |= A.getX().isOdd() ? 128 : 0, + M + }, + n.prototype.decodePoint = function (A) { + var M = (A = e.parseBytes(A)).length - 1, + t = A.slice(0, M).concat(-129 & A[M]), + M = 0 != (128 & A[M]), + t = e.intFromLE(t); + return this.curve.pointFromY(t, M) + }, + n.prototype.encodeInt = function (A) { + return A.toArray("le", this.encodingLength) + }, + n.prototype.decodeInt = function (A) { + return e.intFromLE(A) + }, + n.prototype.isPoint = function (A) { + return A instanceof this.pointClass + } + }, function (A, M, t) { + "use strict"; + var g = t(12), + I = g.assert, + e = g.parseBytes, + t = g.cachedProperty; + function i(A, M) { + this.eddsa = A, + this._secret = e(M.secret), + A.isPoint(M.pub) ? this._pub = M.pub : this._pubBytes = e(M.pub) + } + i.fromPublic = function (A, M) { + return M instanceof i ? M : new i(A, { + pub: M + }) + }, + i.fromSecret = function (A, M) { + return M instanceof i ? M : new i(A, { + secret: M + }) + }, + i.prototype.secret = function () { + return this._secret + }, + t(i, "pubBytes", function () { + return this.eddsa.encodePoint(this.pub()) + }), + t(i, "pub", function () { + return this._pubBytes ? this.eddsa.decodePoint(this._pubBytes) : this.eddsa.g.mul(this.priv()) + }), + t(i, "privBytes", function () { + var A = this.eddsa, + M = this.hash(), + t = A.encodingLength - 1, + A = M.slice(0, A.encodingLength); + return A[0] &= 248, + A[t] &= 127, + A[t] |= 64, + A + }), + t(i, "priv", function () { + return this.eddsa.decodeInt(this.privBytes()) + }), + t(i, "hash", function () { + return this.eddsa.hash().update(this.secret()).digest() + }), + t(i, "messagePrefix", function () { + return this.hash().slice(this.eddsa.encodingLength) + }), + i.prototype.sign = function (A) { + return I(this._secret, "KeyPair can only verify"), + this.eddsa.sign(A, this) + }, + i.prototype.verify = function (A, M) { + return this.eddsa.verify(A, M, this) + }, + i.prototype.getSecret = function (A) { + return I(this._secret, "KeyPair is public only"), + g.encode(this.secret(), A) + }, + i.prototype.getPublic = function (A) { + return g.encode(this.pubBytes(), A) + }, + A.exports = i + }, function (A, M, t) { + "use strict"; + var g = t(7), + I = t(12), + e = I.assert, + t = I.cachedProperty, + i = I.parseBytes; + function T(A, M) { + this.eddsa = A, + "object" != typeof M && (M = i(M)), + Array.isArray(M) && (M = { + R: M.slice(0, A.encodingLength), + S: M.slice(A.encodingLength) + }), + e(M.R && M.S, "Signature without R or S"), + A.isPoint(M.R) && (this._R = M.R), + M.S instanceof g && (this._S = M.S), + this._Rencoded = Array.isArray(M.R) ? M.R : M.Rencoded, + this._Sencoded = Array.isArray(M.S) ? M.S : M.Sencoded + } + t(T, "S", function () { + return this.eddsa.decodeInt(this.Sencoded()) + }), + t(T, "R", function () { + return this.eddsa.decodePoint(this.Rencoded()) + }), + t(T, "Rencoded", function () { + return this.eddsa.encodePoint(this.R()) + }), + t(T, "Sencoded", function () { + return this.eddsa.encodeInt(this.S()) + }), + T.prototype.toBytes = function () { + return this.Rencoded().concat(this.Sencoded()) + }, + T.prototype.toHex = function () { + return I.encode(this.toBytes(), "hex").toUpperCase() + }, + A.exports = T + }, function (A, M, t) { + "use strict"; + var g = t(100); + M.certificate = t(196); + t = g.define("RSAPrivateKey", function () { + this.seq().obj(this.key("version").int(), this.key("modulus").int(), this.key("publicExponent").int(), this.key("privateExponent").int(), this.key("prime1").int(), this.key("prime2").int(), this.key("exponent1").int(), this.key("exponent2").int(), this.key("coefficient").int()) + }); + M.RSAPrivateKey = t; + t = g.define("RSAPublicKey", function () { + this.seq().obj(this.key("modulus").int(), this.key("publicExponent").int()) + }); + M.RSAPublicKey = t; + t = g.define("SubjectPublicKeyInfo", function () { + this.seq().obj(this.key("algorithm").use(I), this.key("subjectPublicKey").bitstr()) + }); + M.PublicKey = t; + var I = g.define("AlgorithmIdentifier", function () { + this.seq().obj(this.key("algorithm").objid(), this.key("none").null_().optional(), this.key("curve").objid().optional(), this.key("params").seq().obj(this.key("p").int(), this.key("q").int(), this.key("g").int()).optional()) + }), + t = g.define("PrivateKeyInfo", function () { + this.seq().obj(this.key("version").int(), this.key("algorithm").use(I), this.key("subjectPrivateKey").octstr()) + }); + M.PrivateKey = t; + t = g.define("EncryptedPrivateKeyInfo", function () { + this.seq().obj(this.key("algorithm").seq().obj(this.key("id").objid(), this.key("decrypt").seq().obj(this.key("kde").seq().obj(this.key("id").objid(), this.key("kdeparams").seq().obj(this.key("salt").octstr(), this.key("iters").int())), this.key("cipher").seq().obj(this.key("algo").objid(), this.key("iv").octstr()))), this.key("subjectPrivateKey").octstr()) + }); + M.EncryptedPrivateKey = t; + t = g.define("DSAPrivateKey", function () { + this.seq().obj(this.key("version").int(), this.key("p").int(), this.key("q").int(), this.key("g").int(), this.key("pub_key").int(), this.key("priv_key").int()) + }); + M.DSAPrivateKey = t, + M.DSAparam = g.define("DSAparam", function () { + this.int() + }); + t = g.define("ECPrivateKey", function () { + this.seq().obj(this.key("version").int(), this.key("privateKey").octstr(), this.key("parameters").optional().explicit(0).use(e), this.key("publicKey").optional().explicit(1).bitstr()) + }); + M.ECPrivateKey = t; + var e = g.define("ECParameters", function () { + this.choice({ + namedCurve: this.objid() + }) + }); + M.signature = g.define("signature", function () { + this.seq().obj(this.key("r").int(), this.key("s").int()) + }) + }, function (A, M, t) { + "use strict"; + var g = t(101), + I = t(103), + e = t(3); + function i(A, M) { + this.name = A, + this.body = M, + this.decoders = {}, + this.encoders = {} + } + M.define = function (A, M) { + return new i(A, M) + }, + i.prototype._createNamed = function (t) { + var M = this.name; + function A(A) { + this._initNamed(A, M) + } + return e(A, t), + A.prototype._initNamed = function (A, M) { + t.call(this, A, M) + }, + new A(this) + }, + i.prototype._getDecoder = function (A) { + return A = A || "der", + this.decoders.hasOwnProperty(A) || (this.decoders[A] = this._createNamed(I[A])), + this.decoders[A] + }, + i.prototype.decode = function (A, M, t) { + return this._getDecoder(M).decode(A, t) + }, + i.prototype._getEncoder = function (A) { + return A = A || "der", + this.encoders.hasOwnProperty(A) || (this.encoders[A] = this._createNamed(g[A])), + this.encoders[A] + }, + i.prototype.encode = function (A, M, t) { + return this._getEncoder(M).encode(A, t) + } + }, function (A, M, t) { + "use strict"; + var g = t(3), + e = t(102); + function I(A) { + e.call(this, A), + this.enc = "pem" + } + g(I, e), + (A.exports = I).prototype.encode = function (A, M) { + for (var t = e.prototype.encode.call(this, A).toString("base64"), g = ["-----BEGIN " + M.label + "-----"], I = 0; I < t.length; I += 64) + g.push(t.slice(I, I + 64)); + return g.push("-----END " + M.label + "-----"), + g.join("\n") + } + }, function (A, M, t) { + "use strict"; + var g = t(3), + N = t(53).Buffer, + n = t(104); + function I(A) { + n.call(this, A), + this.enc = "pem" + } + g(I, n), + (A.exports = I).prototype.decode = function (A, M) { + for (var t = A.toString().split(/[\r\n]+/g), g = M.label.toUpperCase(), I = /^-----(BEGIN|END) ([^-]+)-----$/, e = -1, i = -1, T = 0; T < t.length; T++) { + var E = t[T].match(I); + if (null !== E && E[2] === g) { + if (-1 !== e) { + if ("END" !== E[1]) + break; + i = T; + break + } + if ("BEGIN" !== E[1]) + break; + e = T + } + } + if (-1 === e || -1 === i) + throw new Error("PEM section not found for: " + g); + A = t.slice(e + 1, i).join(""); + A.replace(/[^a-z0-9+/=]+/gi, ""); + A = N.from(A, "base64"); + return n.prototype.decode.call(this, A, M) + } + }, function (A, M, t) { + "use strict"; + M.Reporter = t(55).Reporter, + M.DecoderBuffer = t(28).DecoderBuffer, + M.EncoderBuffer = t(28).EncoderBuffer, + M.Node = t(54) + }, function (A, M, t) { + "use strict"; + M._reverse = function (t) { + var g = {}; + return Object.keys(t).forEach(function (A) { + (0 | A) == A && (A |= 0); + var M = t[A]; + g[M] = A + }), + g + }, + M.der = t(56) + }, function (A, M, t) { + "use strict"; + var t = t(100), + g = t.define("Time", function () { + this.choice({ + utcTime: this.utctime(), + generalTime: this.gentime() + }) + }), + I = t.define("AttributeTypeValue", function () { + this.seq().obj(this.key("type").objid(), this.key("value").any()) + }), + e = t.define("AlgorithmIdentifier", function () { + this.seq().obj(this.key("algorithm").objid(), this.key("parameters").optional(), this.key("curve").objid().optional()) + }), + i = t.define("SubjectPublicKeyInfo", function () { + this.seq().obj(this.key("algorithm").use(e), this.key("subjectPublicKey").bitstr()) + }), + T = t.define("RelativeDistinguishedName", function () { + this.setof(I) + }), + E = t.define("RDNSequence", function () { + this.seqof(T) + }), + N = t.define("Name", function () { + this.choice({ + rdnSequence: this.use(E) + }) + }), + n = t.define("Validity", function () { + this.seq().obj(this.key("notBefore").use(g), this.key("notAfter").use(g)) + }), + D = t.define("Extension", function () { + this.seq().obj(this.key("extnID").objid(), this.key("critical").bool().def(!1), this.key("extnValue").octstr()) + }), + C = t.define("TBSCertificate", function () { + this.seq().obj(this.key("version").explicit(0).int().optional(), this.key("serialNumber").int(), this.key("signature").use(e), this.key("issuer").use(N), this.key("validity").use(n), this.key("subject").use(N), this.key("subjectPublicKeyInfo").use(i), this.key("issuerUniqueID").implicit(1).bitstr().optional(), this.key("subjectUniqueID").implicit(2).bitstr().optional(), this.key("extensions").explicit(3).seqof(D).optional()) + }), + t = t.define("X509Certificate", function () { + this.seq().obj(this.key("tbsCertificate").use(C), this.key("signatureAlgorithm").use(e), this.key("signatureValue").bitstr()) + }); + A.exports = t + }, function (A) { + A.exports = JSON.parse('{"2.16.840.1.101.3.4.1.1":"aes-128-ecb","2.16.840.1.101.3.4.1.2":"aes-128-cbc","2.16.840.1.101.3.4.1.3":"aes-128-ofb","2.16.840.1.101.3.4.1.4":"aes-128-cfb","2.16.840.1.101.3.4.1.21":"aes-192-ecb","2.16.840.1.101.3.4.1.22":"aes-192-cbc","2.16.840.1.101.3.4.1.23":"aes-192-ofb","2.16.840.1.101.3.4.1.24":"aes-192-cfb","2.16.840.1.101.3.4.1.41":"aes-256-ecb","2.16.840.1.101.3.4.1.42":"aes-256-cbc","2.16.840.1.101.3.4.1.43":"aes-256-ofb","2.16.840.1.101.3.4.1.44":"aes-256-cfb"}') + }, function (A, M, t) { + var T = /Proc-Type: 4,ENCRYPTED[\n\r]+DEK-Info: AES-((?:128)|(?:192)|(?:256))-CBC,([0-9A-H]+)[\n\r]+([0-9A-z\n\r+/=]+)[\n\r]+/m, + E = /^-----BEGIN ((?:.*? KEY)|CERTIFICATE)-----/m, + N = /^-----BEGIN ((?:.*? KEY)|CERTIFICATE)-----([0-9A-z\n\r+/=]+)-----END \1-----$/m, + n = t(33), + D = t(45), + C = t(4).Buffer; + A.exports = function (A, M) { + var t, + g, + I, + e = A.toString(), + i = e.match(T); + return I = i ? (t = "aes" + i[1], g = C.from(i[2], "hex"), A = C.from(i[3].replace(/[\r\n]/g, ""), "base64"), M = n(M, g.slice(0, 8), parseInt(i[1], 10)).key, i = [], g = D.createDecipheriv(t, M, g), i.push(g.update(A)), i.push(g.final()), C.concat(i)) : (I = e.match(N), C.from(I[2].replace(/[\r\n]/g, ""), "base64")), { + tag: e.match(E)[1], + data: I + } + } + }, function (A, M, t) { + var n = t(4).Buffer, + D = t(49), + C = t(50).ec, + r = t(35), + c = t(105); + function o(A, M) { + if (A.cmpn(0) <= 0) + throw new Error("invalid sig"); + if (A.cmp(M) >= M) + throw new Error("invalid sig") + } + A.exports = function (A, M, t, g, I) { + if ("ec" === (t = r(t)).type) { + if ("ecdsa" !== g && "ecdsa/rsa" !== g) + throw new Error("wrong public key type"); + return function (A, M, t) { + var g = c[t.data.algorithm.curve.join(".")]; + if (!g) + throw new Error("unknown curve " + t.data.algorithm.curve.join(".")); + g = new C(g), + t = t.data.subjectPrivateKey.data; + return g.verify(M, A, t) + } + (A, M, t) + } + if ("dsa" === t.type) { + if ("dsa" !== g) + throw new Error("wrong public key type"); + return function (A, M, t) { + var g = t.data.p, + I = t.data.q, + e = t.data.g, + i = t.data.pub_key, + T = r.signature.decode(A, "der"), + t = T.s, + A = T.r; + o(t, I), + o(A, I); + T = D.mont(g), + t = t.invm(I); + return 0 === e.toRed(T).redPow(new D(M).mul(t).mod(I)).fromRed().mul(i.toRed(T).redPow(A.mul(t).mod(I)).fromRed()).mod(g).mod(I).cmp(A) + } + (A, M, t) + } + if ("rsa" !== g && "ecdsa/rsa" !== g) + throw new Error("wrong public key type"); + M = n.concat([I, M]); + for (var e = t.modulus.byteLength(), i = [1], T = 0; M.length + i.length + 2 < e; ) + i.push(255), T++; + i.push(0); + for (var E = -1; ++E < M.length; ) + i.push(M[E]); + i = n.from(i), + I = D.mont(t.modulus), + A = (A = new D(A).toRed(I)).redPow(new D(t.publicExponent)), + A = n.from(A.fromRed().toArray()); + var N = T < 8 ? 1 : 0, + e = Math.min(A.length, i.length); + for (A.length !== i.length && (N = 1), E = -1; ++E < e; ) + N |= A[E] ^ i[E]; + return 0 === N + } + }, function (A, M, T) { + (function (g) { + var M = T(50), + t = T(7); + A.exports = function (A) { + return new e(A) + }; + var I = { + secp256k1: { + name: "secp256k1", + byteLength: 32 + }, + secp224r1: { + name: "p224", + byteLength: 28 + }, + prime256v1: { + name: "p256", + byteLength: 32 + }, + prime192v1: { + name: "p192", + byteLength: 24 + }, + ed25519: { + name: "ed25519", + byteLength: 32 + }, + secp384r1: { + name: "p384", + byteLength: 48 + }, + secp521r1: { + name: "p521", + byteLength: 66 + } + }; + function e(A) { + this.curveType = I[A], + this.curveType || (this.curveType = { + name: A + }), + this.curve = new M.ec(this.curveType.name), + this.keys = void 0 + } + function i(A, M, t) { + Array.isArray(A) || (A = A.toArray()); + A = new g(A); + return t && A.length < t && ((t = new g(t - A.length)).fill(0), A = g.concat([t, A])), + M ? A.toString(M) : A + } + I.p224 = I.secp224r1, + I.p256 = I.secp256r1 = I.prime256v1, + I.p192 = I.secp192r1 = I.prime192v1, + I.p384 = I.secp384r1, + I.p521 = I.secp521r1, + e.prototype.generateKeys = function (A, M) { + return this.keys = this.curve.genKeyPair(), + this.getPublicKey(A, M) + }, + e.prototype.computeSecret = function (A, M, t) { + return M = M || "utf8", + g.isBuffer(A) || (A = new g(A, M)), + i(this.curve.keyFromPublic(A).getPublic().mul(this.keys.getPrivate()).getX(), t, this.curveType.byteLength) + }, + e.prototype.getPublicKey = function (A, M) { + var t = this.keys.getPublic("compressed" === M, !0); + return "hybrid" === M && (t[t.length - 1] % 2 ? t[0] = 7 : t[0] = 6), + i(t, A) + }, + e.prototype.getPrivateKey = function (A) { + return i(this.keys.getPrivate(), A) + }, + e.prototype.setPublicKey = function (A, M) { + return M = M || "utf8", + g.isBuffer(A) || (A = new g(A, M)), + this.keys._importPublic(A), + this + }, + e.prototype.setPrivateKey = function (A, M) { + M = M || "utf8", + g.isBuffer(A) || (A = new g(A, M)); + A = (A = new t(A)).toString(16); + return this.keys = this.curve.genKeyPair(), + this.keys._importPrivate(A), + this + } + }).call(this, T(9).Buffer) + }, function (A, t, M) { + t.publicEncrypt = M(202), + t.privateDecrypt = M(203), + t.privateEncrypt = function (A, M) { + return t.publicEncrypt(A, M, !0) + }, + t.publicDecrypt = function (A, M) { + return t.privateDecrypt(A, M, !0) + } + }, function (A, M, t) { + var e = t(35), + T = t(18), + E = t(23), + N = t(106), + n = t(107), + D = t(7), + i = t(108), + C = t(48), + r = t(4).Buffer; + A.exports = function (A, M, t) { + var g, + I = A.padding || (t ? 1 : 4), + A = e(A); + if (4 === I) + g = function (A, M) { + var t = A.modulus.byteLength(), + g = M.length, + I = E("sha1").update(r.alloc(0)).digest(), + e = I.length, + i = 2 * e; + if (t - i - 2 < g) + throw new Error("message too long"); + A = r.alloc(t - g - i - 2), + g = t - e - 1, + i = T(e), + g = n(r.concat([I, A, r.alloc(1, 1), M], g), N(i, g)), + e = n(i, N(g, e)); + return new D(r.concat([r.alloc(1), e, g], t)) + } + (A, M); + else if (1 === I) + g = function (A, M, t) { + var g = M.length, + A = A.modulus.byteLength(); + if (A - 11 < g) + throw new Error("message too long"); + g = t ? r.alloc(A - g - 3, 255) : function (A) { + var M, + t = r.allocUnsafe(A), + g = 0, + I = T(2 * A), + e = 0; + for (; g < A; ) + e === I.length && (I = T(2 * A), e = 0), (M = I[e++]) && (t[g++] = M); + return t + } + (A - g - 3); + return new D(r.concat([r.from([0, t ? 1 : 2]), g, r.alloc(1), M], A)) + } + (A, M, t); + else { + if (3 !== I) + throw new Error("unknown padding"); + if (0 <= (g = new D(M)).cmp(A.modulus)) + throw new Error("data too long for modulus") + } + return (t ? C : i)(g, A) + } + }, function (A, M, t) { + var i = t(35), + T = t(106), + E = t(107), + N = t(7), + n = t(48), + D = t(23), + C = t(108), + r = t(4).Buffer; + A.exports = function (A, M, t) { + var g = A.padding || (t ? 1 : 4), + I = i(A), + e = I.modulus.byteLength(); + if (M.length > e || 0 <= new N(M).cmp(I.modulus)) + throw new Error("decryption error"); + A = t ? C(new N(M), I) : n(M, I); + M = r.alloc(e - A.length), + A = r.concat([M, A], e); + if (4 === g) + return function (A, M) { + var t = A.modulus.byteLength(), + g = D("sha1").update(r.alloc(0)).digest(), + I = g.length; + if (0 !== M[0]) + throw new Error("decryption error"); + var A = M.slice(1, I + 1), + M = M.slice(I + 1), + A = E(A, T(M, I)), + e = E(M, T(A, t - I - 1)); + if (function (A, M) { + A = r.from(A), + M = r.from(M); + var t = 0, + g = A.length; + A.length !== M.length && (t++, g = Math.min(A.length, M.length)); + var I = -1; + for (; ++I < g; ) + t += A[I] ^ M[I]; + return t + } + (g, e.slice(0, I))) + throw new Error("decryption error"); + var i = I; + for (; 0 === e[i]; ) + i++; + if (1 === e[i++]) + return e.slice(i); + throw new Error("decryption error") + } + (I, A); + if (1 === g) + return function (A, M) { + var t = A.slice(0, 2), + g = 2, + I = 0; + for (; 0 !== A[g++]; ) + if (g >= A.length) { + I++; + break + } + var e = A.slice(2, g - 1); + ("0002" !== t.toString("hex") && !M || "0001" !== t.toString("hex") && M) && I++; + e.length < 8 && I++; + if (I) + throw new Error("decryption error"); + return A.slice(g) + } + (A, t); + if (3 === g) + return A; + throw new Error("unknown padding") + } + }, function (A, t, r) { + "use strict"; + (function (I, e) { + function A() { + throw new Error("secure random number generation not supported by this browser\nuse chrome, FireFox or Internet Explorer 11") + } + var M = r(4), + i = r(18), + T = M.Buffer, + g = M.kMaxLength, + E = I.crypto || I.msCrypto, + N = Math.pow(2, 32) - 1; + function n(A, M) { + if ("number" != typeof A || A != A) + throw new TypeError("offset must be a number"); + if (N < A || A < 0) + throw new TypeError("offset must be a uint32"); + if (g < A || M < A) + throw new RangeError("offset out of range") + } + function D(A, M, t) { + if ("number" != typeof A || A != A) + throw new TypeError("size must be a number"); + if (N < A || A < 0) + throw new TypeError("size must be a uint32"); + if (t < A + M || g < A) + throw new RangeError("buffer too small") + } + function C(t, g, A, I) { + if (e.browser) { + var M = t.buffer, + M = new Uint8Array(M, g, A); + return E.getRandomValues(M), + I ? void e.nextTick(function () { + I(null, t) + }) : t + } + if (!I) + return i(A).copy(t, g), t; + i(A, function (A, M) { + return A ? I(A) : (M.copy(t, g), void I(null, t)) + }) + } + E && E.getRandomValues || !e.browser ? (t.randomFill = function (A, M, t, g) { + if (!(T.isBuffer(A) || A instanceof I.Uint8Array)) + throw new TypeError('"buf" argument must be a Buffer or Uint8Array'); + if ("function" == typeof M) + g = M, M = 0, t = A.length; + else if ("function" == typeof t) + g = t, t = A.length - M; + else if ("function" != typeof g) + throw new TypeError('"cb" argument must be a function'); + return n(M, A.length), + D(t, M, A.length), + C(A, M, t, g) + }, t.randomFillSync = function (A, M, t) { + void 0 === M && (M = 0); + if (!(T.isBuffer(A) || A instanceof I.Uint8Array)) + throw new TypeError('"buf" argument must be a Buffer or Uint8Array'); + n(M, A.length), + void 0 === t && (t = A.length - M); + return D(t, M, A.length), + C(A, M, t) + }) : (t.randomFill = A, t.randomFillSync = A) + }).call(this, r(10), r(8)) + }, function (A, M, t) { + "use strict"; + t.r(M); + var g = t(1), + e = t(29); + M.default = function (I) { + I._requestAbort = !1, + I.soundPlayer = null, + I.audioSampleQueue = []; + I.addEventListener("message", function (A) { + switch (A.data.cmd) { + case g.v: + !function (A, M, t) { + if (null == I.soundPlayer) { + var g = "16bitInt"; + switch (A) { + case 0: + g = "8bitInt"; + break; + case 1: + g = "16bitInt"; + break; + case 2: + g = "32bitInt"; + break; + case 3: + g = "32bitFloat"; + break; + default: + this.logger.logError("Unsupported audio sampleFmt " + A + "!") + } + I.soundPlayer = new e.a, + I.soundPlayer.init({ + encoding: g, + channels: M, + sampleRate: t, + flushingTime: 5e3 + }) + } + } + (1, 2, 8e3); + break; + case g.p: + break; + case g.l: + I._requestAbort = !0 + } + }) + } + }, function (A, M, t) { + var g = t(57), + I = t(207); + "string" == typeof(I = I.__esModule ? I.default : I) && (I = [[A.i, I, ""]]); + t = { + insert: "head", + singleton: !1 + }, + g(I, t); + A.exports = I.locals || {} + }, function (A, M, t) { + var g = t(58), + I = t(109), + e = t(208), + i = t(209), + T = t(210), + E = t(211), + N = t(212), + t = t(213); + M = g(!1); + e = I(e), + i = I(i, { + hash: "?#iefix&v=4.7.0" + }), + T = I(T), + E = I(E), + N = I(N), + t = I(t, { + hash: "#fontawesomeregular" + }); + M.push([A.i, "/*!\r\n * Font Awesome 4.7.0 by @davegandy - http://fontawesome.io - @fontawesome\r\n * License - http://fontawesome.io/license (Font: SIL OFL 1.1, CSS: MIT License)\r\n */\r\n/* FONT PATH\r\n * -------------------------- */\r\n@font-face {\r\n font-family: 'FontAwesome';\r\n src: url(" + e + ");\r\n src: url(" + i + ") format('embedded-opentype'), \r\n url(" + T + ") format('woff2'), \r\n url(" + E + ") format('woff'), url(" + N + ") format('truetype'), url(" + t + ') format(\'svg\');\r\n font-weight: normal;\r\n font-style: normal;\r\n}\r\n.fa {\r\n display: inline-block;\r\n font: normal normal normal 14px/1 FontAwesome;\r\n font-size: inherit;\r\n text-rendering: auto;\r\n -webkit-font-smoothing: antialiased;\r\n -moz-osx-font-smoothing: grayscale;\r\n}\r\n/* makes the font 33% larger relative to the icon container */\r\n.fa-lg {\r\n font-size: 1.33333333em;\r\n line-height: 0.75em;\r\n vertical-align: -15%;\r\n}\r\n.fa-2x {\r\n font-size: 2em;\r\n}\r\n.fa-3x {\r\n font-size: 3em;\r\n}\r\n.fa-4x {\r\n font-size: 4em;\r\n}\r\n.fa-5x {\r\n font-size: 5em;\r\n}\r\n.fa-fw {\r\n width: 1.28571429em;\r\n text-align: center;\r\n}\r\n.fa-ul {\r\n padding-left: 0;\r\n margin-left: 2.14285714em;\r\n list-style-type: none;\r\n}\r\n.fa-ul > li {\r\n position: relative;\r\n}\r\n.fa-li {\r\n position: absolute;\r\n left: -2.14285714em;\r\n width: 2.14285714em;\r\n top: 0.14285714em;\r\n text-align: center;\r\n}\r\n.fa-li.fa-lg {\r\n left: -1.85714286em;\r\n}\r\n.fa-border {\r\n padding: .2em .25em .15em;\r\n border: solid 0.08em #eee;\r\n border-radius: .1em;\r\n}\r\n.fa-pull-left {\r\n float: left;\r\n}\r\n.fa-pull-right {\r\n float: right;\r\n}\r\n.fa.fa-pull-left {\r\n margin-right: .3em;\r\n}\r\n.fa.fa-pull-right {\r\n margin-left: .3em;\r\n}\r\n/* Deprecated as of 4.4.0 */\r\n.pull-right {\r\n float: right;\r\n}\r\n.pull-left {\r\n float: left;\r\n}\r\n.fa.pull-left {\r\n margin-right: .3em;\r\n}\r\n.fa.pull-right {\r\n margin-left: .3em;\r\n}\r\n.fa-spin {\r\n -webkit-animation: fa-spin 2s infinite linear;\r\n animation: fa-spin 2s infinite linear;\r\n}\r\n.fa-pulse {\r\n -webkit-animation: fa-spin 1s infinite steps(8);\r\n animation: fa-spin 1s infinite steps(8);\r\n}\r\n@-webkit-keyframes fa-spin {\r\n 0% {\r\n -webkit-transform: rotate(0deg);\r\n transform: rotate(0deg);\r\n }\r\n 100% {\r\n -webkit-transform: rotate(359deg);\r\n transform: rotate(359deg);\r\n }\r\n}\r\n@keyframes fa-spin {\r\n 0% {\r\n -webkit-transform: rotate(0deg);\r\n transform: rotate(0deg);\r\n }\r\n 100% {\r\n -webkit-transform: rotate(359deg);\r\n transform: rotate(359deg);\r\n }\r\n}\r\n.fa-rotate-90 {\r\n -ms-filter: "progid:DXImageTransform.Microsoft.BasicImage(rotation=1)";\r\n -webkit-transform: rotate(90deg);\r\n -ms-transform: rotate(90deg);\r\n transform: rotate(90deg);\r\n}\r\n.fa-rotate-180 {\r\n -ms-filter: "progid:DXImageTransform.Microsoft.BasicImage(rotation=2)";\r\n -webkit-transform: rotate(180deg);\r\n -ms-transform: rotate(180deg);\r\n transform: rotate(180deg);\r\n}\r\n.fa-rotate-270 {\r\n -ms-filter: "progid:DXImageTransform.Microsoft.BasicImage(rotation=3)";\r\n -webkit-transform: rotate(270deg);\r\n -ms-transform: rotate(270deg);\r\n transform: rotate(270deg);\r\n}\r\n.fa-flip-horizontal {\r\n -ms-filter: "progid:DXImageTransform.Microsoft.BasicImage(rotation=0, mirror=1)";\r\n -webkit-transform: scale(-1, 1);\r\n -ms-transform: scale(-1, 1);\r\n transform: scale(-1, 1);\r\n}\r\n.fa-flip-vertical {\r\n -ms-filter: "progid:DXImageTransform.Microsoft.BasicImage(rotation=2, mirror=1)";\r\n -webkit-transform: scale(1, -1);\r\n -ms-transform: scale(1, -1);\r\n transform: scale(1, -1);\r\n}\r\n:root .fa-rotate-90,\r\n:root .fa-rotate-180,\r\n:root .fa-rotate-270,\r\n:root .fa-flip-horizontal,\r\n:root .fa-flip-vertical {\r\n filter: none;\r\n}\r\n.fa-stack {\r\n position: relative;\r\n display: inline-block;\r\n width: 2em;\r\n height: 2em;\r\n line-height: 2em;\r\n vertical-align: middle;\r\n}\r\n.fa-stack-1x,\r\n.fa-stack-2x {\r\n position: absolute;\r\n left: 0;\r\n width: 100%;\r\n text-align: center;\r\n}\r\n.fa-stack-1x {\r\n line-height: inherit;\r\n}\r\n.fa-stack-2x {\r\n font-size: 2em;\r\n}\r\n.fa-inverse {\r\n color: #fff;\r\n}\r\n/* Font Awesome uses the Unicode Private Use Area (PUA) to ensure screen\r\n readers do not read off random characters that represent icons */\r\n.fa-glass:before {\r\n content: "\\f000";\r\n}\r\n.fa-music:before {\r\n content: "\\f001";\r\n}\r\n.fa-search:before {\r\n content: "\\f002";\r\n}\r\n.fa-envelope-o:before {\r\n content: "\\f003";\r\n}\r\n.fa-heart:before {\r\n content: "\\f004";\r\n}\r\n.fa-star:before {\r\n content: "\\f005";\r\n}\r\n.fa-star-o:before {\r\n content: "\\f006";\r\n}\r\n.fa-user:before {\r\n content: "\\f007";\r\n}\r\n.fa-film:before {\r\n content: "\\f008";\r\n}\r\n.fa-th-large:before {\r\n content: "\\f009";\r\n}\r\n.fa-th:before {\r\n content: "\\f00a";\r\n}\r\n.fa-th-list:before {\r\n content: "\\f00b";\r\n}\r\n.fa-check:before {\r\n content: "\\f00c";\r\n}\r\n.fa-remove:before,\r\n.fa-close:before,\r\n.fa-times:before {\r\n content: "\\f00d";\r\n}\r\n.fa-search-plus:before {\r\n content: "\\f00e";\r\n}\r\n.fa-search-minus:before {\r\n content: "\\f010";\r\n}\r\n.fa-power-off:before {\r\n content: "\\f011";\r\n}\r\n.fa-signal:before {\r\n content: "\\f012";\r\n}\r\n.fa-gear:before,\r\n.fa-cog:before {\r\n content: "\\f013";\r\n}\r\n.fa-trash-o:before {\r\n content: "\\f014";\r\n}\r\n.fa-home:before {\r\n content: "\\f015";\r\n}\r\n.fa-file-o:before {\r\n content: "\\f016";\r\n}\r\n.fa-clock-o:before {\r\n content: "\\f017";\r\n}\r\n.fa-road:before {\r\n content: "\\f018";\r\n}\r\n.fa-download:before {\r\n content: "\\f019";\r\n}\r\n.fa-arrow-circle-o-down:before {\r\n content: "\\f01a";\r\n}\r\n.fa-arrow-circle-o-up:before {\r\n content: "\\f01b";\r\n}\r\n.fa-inbox:before {\r\n content: "\\f01c";\r\n}\r\n.fa-play-circle-o:before {\r\n content: "\\f01d";\r\n}\r\n.fa-rotate-right:before,\r\n.fa-repeat:before {\r\n content: "\\f01e";\r\n}\r\n.fa-refresh:before {\r\n content: "\\f021";\r\n}\r\n.fa-list-alt:before {\r\n content: "\\f022";\r\n}\r\n.fa-lock:before {\r\n content: "\\f023";\r\n}\r\n.fa-flag:before {\r\n content: "\\f024";\r\n}\r\n.fa-headphones:before {\r\n content: "\\f025";\r\n}\r\n.fa-volume-off:before {\r\n content: "\\f026";\r\n}\r\n.fa-volume-down:before {\r\n content: "\\f027";\r\n}\r\n.fa-volume-up:before {\r\n content: "\\f028";\r\n}\r\n.fa-qrcode:before {\r\n content: "\\f029";\r\n}\r\n.fa-barcode:before {\r\n content: "\\f02a";\r\n}\r\n.fa-tag:before {\r\n content: "\\f02b";\r\n}\r\n.fa-tags:before {\r\n content: "\\f02c";\r\n}\r\n.fa-book:before {\r\n content: "\\f02d";\r\n}\r\n.fa-bookmark:before {\r\n content: "\\f02e";\r\n}\r\n.fa-print:before {\r\n content: "\\f02f";\r\n}\r\n.fa-camera:before {\r\n content: "\\f030";\r\n}\r\n.fa-font:before {\r\n content: "\\f031";\r\n}\r\n.fa-bold:before {\r\n content: "\\f032";\r\n}\r\n.fa-italic:before {\r\n content: "\\f033";\r\n}\r\n.fa-text-height:before {\r\n content: "\\f034";\r\n}\r\n.fa-text-width:before {\r\n content: "\\f035";\r\n}\r\n.fa-align-left:before {\r\n content: "\\f036";\r\n}\r\n.fa-align-center:before {\r\n content: "\\f037";\r\n}\r\n.fa-align-right:before {\r\n content: "\\f038";\r\n}\r\n.fa-align-justify:before {\r\n content: "\\f039";\r\n}\r\n.fa-list:before {\r\n content: "\\f03a";\r\n}\r\n.fa-dedent:before,\r\n.fa-outdent:before {\r\n content: "\\f03b";\r\n}\r\n.fa-indent:before {\r\n content: "\\f03c";\r\n}\r\n.fa-video-camera:before {\r\n content: "\\f03d";\r\n}\r\n.fa-photo:before,\r\n.fa-image:before,\r\n.fa-picture-o:before {\r\n content: "\\f03e";\r\n}\r\n.fa-pencil:before {\r\n content: "\\f040";\r\n}\r\n.fa-map-marker:before {\r\n content: "\\f041";\r\n}\r\n.fa-adjust:before {\r\n content: "\\f042";\r\n}\r\n.fa-tint:before {\r\n content: "\\f043";\r\n}\r\n.fa-edit:before,\r\n.fa-pencil-square-o:before {\r\n content: "\\f044";\r\n}\r\n.fa-share-square-o:before {\r\n content: "\\f045";\r\n}\r\n.fa-check-square-o:before {\r\n content: "\\f046";\r\n}\r\n.fa-arrows:before {\r\n content: "\\f047";\r\n}\r\n.fa-step-backward:before {\r\n content: "\\f048";\r\n}\r\n.fa-fast-backward:before {\r\n content: "\\f049";\r\n}\r\n.fa-backward:before {\r\n content: "\\f04a";\r\n}\r\n.fa-play:before {\r\n content: "\\f04b";\r\n}\r\n.fa-pause:before {\r\n content: "\\f04c";\r\n}\r\n.fa-stop:before {\r\n content: "\\f04d";\r\n}\r\n.fa-forward:before {\r\n content: "\\f04e";\r\n}\r\n.fa-fast-forward:before {\r\n content: "\\f050";\r\n}\r\n.fa-step-forward:before {\r\n content: "\\f051";\r\n}\r\n.fa-eject:before {\r\n content: "\\f052";\r\n}\r\n.fa-chevron-left:before {\r\n content: "\\f053";\r\n}\r\n.fa-chevron-right:before {\r\n content: "\\f054";\r\n}\r\n.fa-plus-circle:before {\r\n content: "\\f055";\r\n}\r\n.fa-minus-circle:before {\r\n content: "\\f056";\r\n}\r\n.fa-times-circle:before {\r\n content: "\\f057";\r\n}\r\n.fa-check-circle:before {\r\n content: "\\f058";\r\n}\r\n.fa-question-circle:before {\r\n content: "\\f059";\r\n}\r\n.fa-info-circle:before {\r\n content: "\\f05a";\r\n}\r\n.fa-crosshairs:before {\r\n content: "\\f05b";\r\n}\r\n.fa-times-circle-o:before {\r\n content: "\\f05c";\r\n}\r\n.fa-check-circle-o:before {\r\n content: "\\f05d";\r\n}\r\n.fa-ban:before {\r\n content: "\\f05e";\r\n}\r\n.fa-arrow-left:before {\r\n content: "\\f060";\r\n}\r\n.fa-arrow-right:before {\r\n content: "\\f061";\r\n}\r\n.fa-arrow-up:before {\r\n content: "\\f062";\r\n}\r\n.fa-arrow-down:before {\r\n content: "\\f063";\r\n}\r\n.fa-mail-forward:before,\r\n.fa-share:before {\r\n content: "\\f064";\r\n}\r\n.fa-expand:before {\r\n content: "\\f065";\r\n}\r\n.fa-compress:before {\r\n content: "\\f066";\r\n}\r\n.fa-plus:before {\r\n content: "\\f067";\r\n}\r\n.fa-minus:before {\r\n content: "\\f068";\r\n}\r\n.fa-asterisk:before {\r\n content: "\\f069";\r\n}\r\n.fa-exclamation-circle:before {\r\n content: "\\f06a";\r\n}\r\n.fa-gift:before {\r\n content: "\\f06b";\r\n}\r\n.fa-leaf:before {\r\n content: "\\f06c";\r\n}\r\n.fa-fire:before {\r\n content: "\\f06d";\r\n}\r\n.fa-eye:before {\r\n content: "\\f06e";\r\n}\r\n.fa-eye-slash:before {\r\n content: "\\f070";\r\n}\r\n.fa-warning:before,\r\n.fa-exclamation-triangle:before {\r\n content: "\\f071";\r\n}\r\n.fa-plane:before {\r\n content: "\\f072";\r\n}\r\n.fa-calendar:before {\r\n content: "\\f073";\r\n}\r\n.fa-random:before {\r\n content: "\\f074";\r\n}\r\n.fa-comment:before {\r\n content: "\\f075";\r\n}\r\n.fa-magnet:before {\r\n content: "\\f076";\r\n}\r\n.fa-chevron-up:before {\r\n content: "\\f077";\r\n}\r\n.fa-chevron-down:before {\r\n content: "\\f078";\r\n}\r\n.fa-retweet:before {\r\n content: "\\f079";\r\n}\r\n.fa-shopping-cart:before {\r\n content: "\\f07a";\r\n}\r\n.fa-folder:before {\r\n content: "\\f07b";\r\n}\r\n.fa-folder-open:before {\r\n content: "\\f07c";\r\n}\r\n.fa-arrows-v:before {\r\n content: "\\f07d";\r\n}\r\n.fa-arrows-h:before {\r\n content: "\\f07e";\r\n}\r\n.fa-bar-chart-o:before,\r\n.fa-bar-chart:before {\r\n content: "\\f080";\r\n}\r\n.fa-twitter-square:before {\r\n content: "\\f081";\r\n}\r\n.fa-facebook-square:before {\r\n content: "\\f082";\r\n}\r\n.fa-camera-retro:before {\r\n content: "\\f083";\r\n}\r\n.fa-key:before {\r\n content: "\\f084";\r\n}\r\n.fa-gears:before,\r\n.fa-cogs:before {\r\n content: "\\f085";\r\n}\r\n.fa-comments:before {\r\n content: "\\f086";\r\n}\r\n.fa-thumbs-o-up:before {\r\n content: "\\f087";\r\n}\r\n.fa-thumbs-o-down:before {\r\n content: "\\f088";\r\n}\r\n.fa-star-half:before {\r\n content: "\\f089";\r\n}\r\n.fa-heart-o:before {\r\n content: "\\f08a";\r\n}\r\n.fa-sign-out:before {\r\n content: "\\f08b";\r\n}\r\n.fa-linkedin-square:before {\r\n content: "\\f08c";\r\n}\r\n.fa-thumb-tack:before {\r\n content: "\\f08d";\r\n}\r\n.fa-external-link:before {\r\n content: "\\f08e";\r\n}\r\n.fa-sign-in:before {\r\n content: "\\f090";\r\n}\r\n.fa-trophy:before {\r\n content: "\\f091";\r\n}\r\n.fa-github-square:before {\r\n content: "\\f092";\r\n}\r\n.fa-upload:before {\r\n content: "\\f093";\r\n}\r\n.fa-lemon-o:before {\r\n content: "\\f094";\r\n}\r\n.fa-phone:before {\r\n content: "\\f095";\r\n}\r\n.fa-square-o:before {\r\n content: "\\f096";\r\n}\r\n.fa-bookmark-o:before {\r\n content: "\\f097";\r\n}\r\n.fa-phone-square:before {\r\n content: "\\f098";\r\n}\r\n.fa-twitter:before {\r\n content: "\\f099";\r\n}\r\n.fa-facebook-f:before,\r\n.fa-facebook:before {\r\n content: "\\f09a";\r\n}\r\n.fa-github:before {\r\n content: "\\f09b";\r\n}\r\n.fa-unlock:before {\r\n content: "\\f09c";\r\n}\r\n.fa-credit-card:before {\r\n content: "\\f09d";\r\n}\r\n.fa-feed:before,\r\n.fa-rss:before {\r\n content: "\\f09e";\r\n}\r\n.fa-hdd-o:before {\r\n content: "\\f0a0";\r\n}\r\n.fa-bullhorn:before {\r\n content: "\\f0a1";\r\n}\r\n.fa-bell:before {\r\n content: "\\f0f3";\r\n}\r\n.fa-certificate:before {\r\n content: "\\f0a3";\r\n}\r\n.fa-hand-o-right:before {\r\n content: "\\f0a4";\r\n}\r\n.fa-hand-o-left:before {\r\n content: "\\f0a5";\r\n}\r\n.fa-hand-o-up:before {\r\n content: "\\f0a6";\r\n}\r\n.fa-hand-o-down:before {\r\n content: "\\f0a7";\r\n}\r\n.fa-arrow-circle-left:before {\r\n content: "\\f0a8";\r\n}\r\n.fa-arrow-circle-right:before {\r\n content: "\\f0a9";\r\n}\r\n.fa-arrow-circle-up:before {\r\n content: "\\f0aa";\r\n}\r\n.fa-arrow-circle-down:before {\r\n content: "\\f0ab";\r\n}\r\n.fa-globe:before {\r\n content: "\\f0ac";\r\n}\r\n.fa-wrench:before {\r\n content: "\\f0ad";\r\n}\r\n.fa-tasks:before {\r\n content: "\\f0ae";\r\n}\r\n.fa-filter:before {\r\n content: "\\f0b0";\r\n}\r\n.fa-briefcase:before {\r\n content: "\\f0b1";\r\n}\r\n.fa-arrows-alt:before {\r\n content: "\\f0b2";\r\n}\r\n.fa-group:before,\r\n.fa-users:before {\r\n content: "\\f0c0";\r\n}\r\n.fa-chain:before,\r\n.fa-link:before {\r\n content: "\\f0c1";\r\n}\r\n.fa-cloud:before {\r\n content: "\\f0c2";\r\n}\r\n.fa-flask:before {\r\n content: "\\f0c3";\r\n}\r\n.fa-cut:before,\r\n.fa-scissors:before {\r\n content: "\\f0c4";\r\n}\r\n.fa-copy:before,\r\n.fa-files-o:before {\r\n content: "\\f0c5";\r\n}\r\n.fa-paperclip:before {\r\n content: "\\f0c6";\r\n}\r\n.fa-save:before,\r\n.fa-floppy-o:before {\r\n content: "\\f0c7";\r\n}\r\n.fa-square:before {\r\n content: "\\f0c8";\r\n}\r\n.fa-navicon:before,\r\n.fa-reorder:before,\r\n.fa-bars:before {\r\n content: "\\f0c9";\r\n}\r\n.fa-list-ul:before {\r\n content: "\\f0ca";\r\n}\r\n.fa-list-ol:before {\r\n content: "\\f0cb";\r\n}\r\n.fa-strikethrough:before {\r\n content: "\\f0cc";\r\n}\r\n.fa-underline:before {\r\n content: "\\f0cd";\r\n}\r\n.fa-table:before {\r\n content: "\\f0ce";\r\n}\r\n.fa-magic:before {\r\n content: "\\f0d0";\r\n}\r\n.fa-truck:before {\r\n content: "\\f0d1";\r\n}\r\n.fa-pinterest:before {\r\n content: "\\f0d2";\r\n}\r\n.fa-pinterest-square:before {\r\n content: "\\f0d3";\r\n}\r\n.fa-google-plus-square:before {\r\n content: "\\f0d4";\r\n}\r\n.fa-google-plus:before {\r\n content: "\\f0d5";\r\n}\r\n.fa-money:before {\r\n content: "\\f0d6";\r\n}\r\n.fa-caret-down:before {\r\n content: "\\f0d7";\r\n}\r\n.fa-caret-up:before {\r\n content: "\\f0d8";\r\n}\r\n.fa-caret-left:before {\r\n content: "\\f0d9";\r\n}\r\n.fa-caret-right:before {\r\n content: "\\f0da";\r\n}\r\n.fa-columns:before {\r\n content: "\\f0db";\r\n}\r\n.fa-unsorted:before,\r\n.fa-sort:before {\r\n content: "\\f0dc";\r\n}\r\n.fa-sort-down:before,\r\n.fa-sort-desc:before {\r\n content: "\\f0dd";\r\n}\r\n.fa-sort-up:before,\r\n.fa-sort-asc:before {\r\n content: "\\f0de";\r\n}\r\n.fa-envelope:before {\r\n content: "\\f0e0";\r\n}\r\n.fa-linkedin:before {\r\n content: "\\f0e1";\r\n}\r\n.fa-rotate-left:before,\r\n.fa-undo:before {\r\n content: "\\f0e2";\r\n}\r\n.fa-legal:before,\r\n.fa-gavel:before {\r\n content: "\\f0e3";\r\n}\r\n.fa-dashboard:before,\r\n.fa-tachometer:before {\r\n content: "\\f0e4";\r\n}\r\n.fa-comment-o:before {\r\n content: "\\f0e5";\r\n}\r\n.fa-comments-o:before {\r\n content: "\\f0e6";\r\n}\r\n.fa-flash:before,\r\n.fa-bolt:before {\r\n content: "\\f0e7";\r\n}\r\n.fa-sitemap:before {\r\n content: "\\f0e8";\r\n}\r\n.fa-umbrella:before {\r\n content: "\\f0e9";\r\n}\r\n.fa-paste:before,\r\n.fa-clipboard:before {\r\n content: "\\f0ea";\r\n}\r\n.fa-lightbulb-o:before {\r\n content: "\\f0eb";\r\n}\r\n.fa-exchange:before {\r\n content: "\\f0ec";\r\n}\r\n.fa-cloud-download:before {\r\n content: "\\f0ed";\r\n}\r\n.fa-cloud-upload:before {\r\n content: "\\f0ee";\r\n}\r\n.fa-user-md:before {\r\n content: "\\f0f0";\r\n}\r\n.fa-stethoscope:before {\r\n content: "\\f0f1";\r\n}\r\n.fa-suitcase:before {\r\n content: "\\f0f2";\r\n}\r\n.fa-bell-o:before {\r\n content: "\\f0a2";\r\n}\r\n.fa-coffee:before {\r\n content: "\\f0f4";\r\n}\r\n.fa-cutlery:before {\r\n content: "\\f0f5";\r\n}\r\n.fa-file-text-o:before {\r\n content: "\\f0f6";\r\n}\r\n.fa-building-o:before {\r\n content: "\\f0f7";\r\n}\r\n.fa-hospital-o:before {\r\n content: "\\f0f8";\r\n}\r\n.fa-ambulance:before {\r\n content: "\\f0f9";\r\n}\r\n.fa-medkit:before {\r\n content: "\\f0fa";\r\n}\r\n.fa-fighter-jet:before {\r\n content: "\\f0fb";\r\n}\r\n.fa-beer:before {\r\n content: "\\f0fc";\r\n}\r\n.fa-h-square:before {\r\n content: "\\f0fd";\r\n}\r\n.fa-plus-square:before {\r\n content: "\\f0fe";\r\n}\r\n.fa-angle-double-left:before {\r\n content: "\\f100";\r\n}\r\n.fa-angle-double-right:before {\r\n content: "\\f101";\r\n}\r\n.fa-angle-double-up:before {\r\n content: "\\f102";\r\n}\r\n.fa-angle-double-down:before {\r\n content: "\\f103";\r\n}\r\n.fa-angle-left:before {\r\n content: "\\f104";\r\n}\r\n.fa-angle-right:before {\r\n content: "\\f105";\r\n}\r\n.fa-angle-up:before {\r\n content: "\\f106";\r\n}\r\n.fa-angle-down:before {\r\n content: "\\f107";\r\n}\r\n.fa-desktop:before {\r\n content: "\\f108";\r\n}\r\n.fa-laptop:before {\r\n content: "\\f109";\r\n}\r\n.fa-tablet:before {\r\n content: "\\f10a";\r\n}\r\n.fa-mobile-phone:before,\r\n.fa-mobile:before {\r\n content: "\\f10b";\r\n}\r\n.fa-circle-o:before {\r\n content: "\\f10c";\r\n}\r\n.fa-quote-left:before {\r\n content: "\\f10d";\r\n}\r\n.fa-quote-right:before {\r\n content: "\\f10e";\r\n}\r\n.fa-spinner:before {\r\n content: "\\f110";\r\n}\r\n.fa-circle:before {\r\n content: "\\f111";\r\n}\r\n.fa-mail-reply:before,\r\n.fa-reply:before {\r\n content: "\\f112";\r\n}\r\n.fa-github-alt:before {\r\n content: "\\f113";\r\n}\r\n.fa-folder-o:before {\r\n content: "\\f114";\r\n}\r\n.fa-folder-open-o:before {\r\n content: "\\f115";\r\n}\r\n.fa-smile-o:before {\r\n content: "\\f118";\r\n}\r\n.fa-frown-o:before {\r\n content: "\\f119";\r\n}\r\n.fa-meh-o:before {\r\n content: "\\f11a";\r\n}\r\n.fa-gamepad:before {\r\n content: "\\f11b";\r\n}\r\n.fa-keyboard-o:before {\r\n content: "\\f11c";\r\n}\r\n.fa-flag-o:before {\r\n content: "\\f11d";\r\n}\r\n.fa-flag-checkered:before {\r\n content: "\\f11e";\r\n}\r\n.fa-terminal:before {\r\n content: "\\f120";\r\n}\r\n.fa-code:before {\r\n content: "\\f121";\r\n}\r\n.fa-mail-reply-all:before,\r\n.fa-reply-all:before {\r\n content: "\\f122";\r\n}\r\n.fa-star-half-empty:before,\r\n.fa-star-half-full:before,\r\n.fa-star-half-o:before {\r\n content: "\\f123";\r\n}\r\n.fa-location-arrow:before {\r\n content: "\\f124";\r\n}\r\n.fa-crop:before {\r\n content: "\\f125";\r\n}\r\n.fa-code-fork:before {\r\n content: "\\f126";\r\n}\r\n.fa-unlink:before,\r\n.fa-chain-broken:before {\r\n content: "\\f127";\r\n}\r\n.fa-question:before {\r\n content: "\\f128";\r\n}\r\n.fa-info:before {\r\n content: "\\f129";\r\n}\r\n.fa-exclamation:before {\r\n content: "\\f12a";\r\n}\r\n.fa-superscript:before {\r\n content: "\\f12b";\r\n}\r\n.fa-subscript:before {\r\n content: "\\f12c";\r\n}\r\n.fa-eraser:before {\r\n content: "\\f12d";\r\n}\r\n.fa-puzzle-piece:before {\r\n content: "\\f12e";\r\n}\r\n.fa-microphone:before {\r\n content: "\\f130";\r\n}\r\n.fa-microphone-slash:before {\r\n content: "\\f131";\r\n}\r\n.fa-shield:before {\r\n content: "\\f132";\r\n}\r\n.fa-calendar-o:before {\r\n content: "\\f133";\r\n}\r\n.fa-fire-extinguisher:before {\r\n content: "\\f134";\r\n}\r\n.fa-rocket:before {\r\n content: "\\f135";\r\n}\r\n.fa-maxcdn:before {\r\n content: "\\f136";\r\n}\r\n.fa-chevron-circle-left:before {\r\n content: "\\f137";\r\n}\r\n.fa-chevron-circle-right:before {\r\n content: "\\f138";\r\n}\r\n.fa-chevron-circle-up:before {\r\n content: "\\f139";\r\n}\r\n.fa-chevron-circle-down:before {\r\n content: "\\f13a";\r\n}\r\n.fa-html5:before {\r\n content: "\\f13b";\r\n}\r\n.fa-css3:before {\r\n content: "\\f13c";\r\n}\r\n.fa-anchor:before {\r\n content: "\\f13d";\r\n}\r\n.fa-unlock-alt:before {\r\n content: "\\f13e";\r\n}\r\n.fa-bullseye:before {\r\n content: "\\f140";\r\n}\r\n.fa-ellipsis-h:before {\r\n content: "\\f141";\r\n}\r\n.fa-ellipsis-v:before {\r\n content: "\\f142";\r\n}\r\n.fa-rss-square:before {\r\n content: "\\f143";\r\n}\r\n.fa-play-circle:before {\r\n content: "\\f144";\r\n}\r\n.fa-ticket:before {\r\n content: "\\f145";\r\n}\r\n.fa-minus-square:before {\r\n content: "\\f146";\r\n}\r\n.fa-minus-square-o:before {\r\n content: "\\f147";\r\n}\r\n.fa-level-up:before {\r\n content: "\\f148";\r\n}\r\n.fa-level-down:before {\r\n content: "\\f149";\r\n}\r\n.fa-check-square:before {\r\n content: "\\f14a";\r\n}\r\n.fa-pencil-square:before {\r\n content: "\\f14b";\r\n}\r\n.fa-external-link-square:before {\r\n content: "\\f14c";\r\n}\r\n.fa-share-square:before {\r\n content: "\\f14d";\r\n}\r\n.fa-compass:before {\r\n content: "\\f14e";\r\n}\r\n.fa-toggle-down:before,\r\n.fa-caret-square-o-down:before {\r\n content: "\\f150";\r\n}\r\n.fa-toggle-up:before,\r\n.fa-caret-square-o-up:before {\r\n content: "\\f151";\r\n}\r\n.fa-toggle-right:before,\r\n.fa-caret-square-o-right:before {\r\n content: "\\f152";\r\n}\r\n.fa-euro:before,\r\n.fa-eur:before {\r\n content: "\\f153";\r\n}\r\n.fa-gbp:before {\r\n content: "\\f154";\r\n}\r\n.fa-dollar:before,\r\n.fa-usd:before {\r\n content: "\\f155";\r\n}\r\n.fa-rupee:before,\r\n.fa-inr:before {\r\n content: "\\f156";\r\n}\r\n.fa-cny:before,\r\n.fa-rmb:before,\r\n.fa-yen:before,\r\n.fa-jpy:before {\r\n content: "\\f157";\r\n}\r\n.fa-ruble:before,\r\n.fa-rouble:before,\r\n.fa-rub:before {\r\n content: "\\f158";\r\n}\r\n.fa-won:before,\r\n.fa-krw:before {\r\n content: "\\f159";\r\n}\r\n.fa-bitcoin:before,\r\n.fa-btc:before {\r\n content: "\\f15a";\r\n}\r\n.fa-file:before {\r\n content: "\\f15b";\r\n}\r\n.fa-file-text:before {\r\n content: "\\f15c";\r\n}\r\n.fa-sort-alpha-asc:before {\r\n content: "\\f15d";\r\n}\r\n.fa-sort-alpha-desc:before {\r\n content: "\\f15e";\r\n}\r\n.fa-sort-amount-asc:before {\r\n content: "\\f160";\r\n}\r\n.fa-sort-amount-desc:before {\r\n content: "\\f161";\r\n}\r\n.fa-sort-numeric-asc:before {\r\n content: "\\f162";\r\n}\r\n.fa-sort-numeric-desc:before {\r\n content: "\\f163";\r\n}\r\n.fa-thumbs-up:before {\r\n content: "\\f164";\r\n}\r\n.fa-thumbs-down:before {\r\n content: "\\f165";\r\n}\r\n.fa-youtube-square:before {\r\n content: "\\f166";\r\n}\r\n.fa-youtube:before {\r\n content: "\\f167";\r\n}\r\n.fa-xing:before {\r\n content: "\\f168";\r\n}\r\n.fa-xing-square:before {\r\n content: "\\f169";\r\n}\r\n.fa-youtube-play:before {\r\n content: "\\f16a";\r\n}\r\n.fa-dropbox:before {\r\n content: "\\f16b";\r\n}\r\n.fa-stack-overflow:before {\r\n content: "\\f16c";\r\n}\r\n.fa-instagram:before {\r\n content: "\\f16d";\r\n}\r\n.fa-flickr:before {\r\n content: "\\f16e";\r\n}\r\n.fa-adn:before {\r\n content: "\\f170";\r\n}\r\n.fa-bitbucket:before {\r\n content: "\\f171";\r\n}\r\n.fa-bitbucket-square:before {\r\n content: "\\f172";\r\n}\r\n.fa-tumblr:before {\r\n content: "\\f173";\r\n}\r\n.fa-tumblr-square:before {\r\n content: "\\f174";\r\n}\r\n.fa-long-arrow-down:before {\r\n content: "\\f175";\r\n}\r\n.fa-long-arrow-up:before {\r\n content: "\\f176";\r\n}\r\n.fa-long-arrow-left:before {\r\n content: "\\f177";\r\n}\r\n.fa-long-arrow-right:before {\r\n content: "\\f178";\r\n}\r\n.fa-apple:before {\r\n content: "\\f179";\r\n}\r\n.fa-windows:before {\r\n content: "\\f17a";\r\n}\r\n.fa-android:before {\r\n content: "\\f17b";\r\n}\r\n.fa-linux:before {\r\n content: "\\f17c";\r\n}\r\n.fa-dribbble:before {\r\n content: "\\f17d";\r\n}\r\n.fa-skype:before {\r\n content: "\\f17e";\r\n}\r\n.fa-foursquare:before {\r\n content: "\\f180";\r\n}\r\n.fa-trello:before {\r\n content: "\\f181";\r\n}\r\n.fa-female:before {\r\n content: "\\f182";\r\n}\r\n.fa-male:before {\r\n content: "\\f183";\r\n}\r\n.fa-gittip:before,\r\n.fa-gratipay:before {\r\n content: "\\f184";\r\n}\r\n.fa-sun-o:before {\r\n content: "\\f185";\r\n}\r\n.fa-moon-o:before {\r\n content: "\\f186";\r\n}\r\n.fa-archive:before {\r\n content: "\\f187";\r\n}\r\n.fa-bug:before {\r\n content: "\\f188";\r\n}\r\n.fa-vk:before {\r\n content: "\\f189";\r\n}\r\n.fa-weibo:before {\r\n content: "\\f18a";\r\n}\r\n.fa-renren:before {\r\n content: "\\f18b";\r\n}\r\n.fa-pagelines:before {\r\n content: "\\f18c";\r\n}\r\n.fa-stack-exchange:before {\r\n content: "\\f18d";\r\n}\r\n.fa-arrow-circle-o-right:before {\r\n content: "\\f18e";\r\n}\r\n.fa-arrow-circle-o-left:before {\r\n content: "\\f190";\r\n}\r\n.fa-toggle-left:before,\r\n.fa-caret-square-o-left:before {\r\n content: "\\f191";\r\n}\r\n.fa-dot-circle-o:before {\r\n content: "\\f192";\r\n}\r\n.fa-wheelchair:before {\r\n content: "\\f193";\r\n}\r\n.fa-vimeo-square:before {\r\n content: "\\f194";\r\n}\r\n.fa-turkish-lira:before,\r\n.fa-try:before {\r\n content: "\\f195";\r\n}\r\n.fa-plus-square-o:before {\r\n content: "\\f196";\r\n}\r\n.fa-space-shuttle:before {\r\n content: "\\f197";\r\n}\r\n.fa-slack:before {\r\n content: "\\f198";\r\n}\r\n.fa-envelope-square:before {\r\n content: "\\f199";\r\n}\r\n.fa-wordpress:before {\r\n content: "\\f19a";\r\n}\r\n.fa-openid:before {\r\n content: "\\f19b";\r\n}\r\n.fa-institution:before,\r\n.fa-bank:before,\r\n.fa-university:before {\r\n content: "\\f19c";\r\n}\r\n.fa-mortar-board:before,\r\n.fa-graduation-cap:before {\r\n content: "\\f19d";\r\n}\r\n.fa-yahoo:before {\r\n content: "\\f19e";\r\n}\r\n.fa-google:before {\r\n content: "\\f1a0";\r\n}\r\n.fa-reddit:before {\r\n content: "\\f1a1";\r\n}\r\n.fa-reddit-square:before {\r\n content: "\\f1a2";\r\n}\r\n.fa-stumbleupon-circle:before {\r\n content: "\\f1a3";\r\n}\r\n.fa-stumbleupon:before {\r\n content: "\\f1a4";\r\n}\r\n.fa-delicious:before {\r\n content: "\\f1a5";\r\n}\r\n.fa-digg:before {\r\n content: "\\f1a6";\r\n}\r\n.fa-pied-piper-pp:before {\r\n content: "\\f1a7";\r\n}\r\n.fa-pied-piper-alt:before {\r\n content: "\\f1a8";\r\n}\r\n.fa-drupal:before {\r\n content: "\\f1a9";\r\n}\r\n.fa-joomla:before {\r\n content: "\\f1aa";\r\n}\r\n.fa-language:before {\r\n content: "\\f1ab";\r\n}\r\n.fa-fax:before {\r\n content: "\\f1ac";\r\n}\r\n.fa-building:before {\r\n content: "\\f1ad";\r\n}\r\n.fa-child:before {\r\n content: "\\f1ae";\r\n}\r\n.fa-paw:before {\r\n content: "\\f1b0";\r\n}\r\n.fa-spoon:before {\r\n content: "\\f1b1";\r\n}\r\n.fa-cube:before {\r\n content: "\\f1b2";\r\n}\r\n.fa-cubes:before {\r\n content: "\\f1b3";\r\n}\r\n.fa-behance:before {\r\n content: "\\f1b4";\r\n}\r\n.fa-behance-square:before {\r\n content: "\\f1b5";\r\n}\r\n.fa-steam:before {\r\n content: "\\f1b6";\r\n}\r\n.fa-steam-square:before {\r\n content: "\\f1b7";\r\n}\r\n.fa-recycle:before {\r\n content: "\\f1b8";\r\n}\r\n.fa-automobile:before,\r\n.fa-car:before {\r\n content: "\\f1b9";\r\n}\r\n.fa-cab:before,\r\n.fa-taxi:before {\r\n content: "\\f1ba";\r\n}\r\n.fa-tree:before {\r\n content: "\\f1bb";\r\n}\r\n.fa-spotify:before {\r\n content: "\\f1bc";\r\n}\r\n.fa-deviantart:before {\r\n content: "\\f1bd";\r\n}\r\n.fa-soundcloud:before {\r\n content: "\\f1be";\r\n}\r\n.fa-database:before {\r\n content: "\\f1c0";\r\n}\r\n.fa-file-pdf-o:before {\r\n content: "\\f1c1";\r\n}\r\n.fa-file-word-o:before {\r\n content: "\\f1c2";\r\n}\r\n.fa-file-excel-o:before {\r\n content: "\\f1c3";\r\n}\r\n.fa-file-powerpoint-o:before {\r\n content: "\\f1c4";\r\n}\r\n.fa-file-photo-o:before,\r\n.fa-file-picture-o:before,\r\n.fa-file-image-o:before {\r\n content: "\\f1c5";\r\n}\r\n.fa-file-zip-o:before,\r\n.fa-file-archive-o:before {\r\n content: "\\f1c6";\r\n}\r\n.fa-file-sound-o:before,\r\n.fa-file-audio-o:before {\r\n content: "\\f1c7";\r\n}\r\n.fa-file-movie-o:before,\r\n.fa-file-video-o:before {\r\n content: "\\f1c8";\r\n}\r\n.fa-file-code-o:before {\r\n content: "\\f1c9";\r\n}\r\n.fa-vine:before {\r\n content: "\\f1ca";\r\n}\r\n.fa-codepen:before {\r\n content: "\\f1cb";\r\n}\r\n.fa-jsfiddle:before {\r\n content: "\\f1cc";\r\n}\r\n.fa-life-bouy:before,\r\n.fa-life-buoy:before,\r\n.fa-life-saver:before,\r\n.fa-support:before,\r\n.fa-life-ring:before {\r\n content: "\\f1cd";\r\n}\r\n.fa-circle-o-notch:before {\r\n content: "\\f1ce";\r\n}\r\n.fa-ra:before,\r\n.fa-resistance:before,\r\n.fa-rebel:before {\r\n content: "\\f1d0";\r\n}\r\n.fa-ge:before,\r\n.fa-empire:before {\r\n content: "\\f1d1";\r\n}\r\n.fa-git-square:before {\r\n content: "\\f1d2";\r\n}\r\n.fa-git:before {\r\n content: "\\f1d3";\r\n}\r\n.fa-y-combinator-square:before,\r\n.fa-yc-square:before,\r\n.fa-hacker-news:before {\r\n content: "\\f1d4";\r\n}\r\n.fa-tencent-weibo:before {\r\n content: "\\f1d5";\r\n}\r\n.fa-qq:before {\r\n content: "\\f1d6";\r\n}\r\n.fa-wechat:before,\r\n.fa-weixin:before {\r\n content: "\\f1d7";\r\n}\r\n.fa-send:before,\r\n.fa-paper-plane:before {\r\n content: "\\f1d8";\r\n}\r\n.fa-send-o:before,\r\n.fa-paper-plane-o:before {\r\n content: "\\f1d9";\r\n}\r\n.fa-history:before {\r\n content: "\\f1da";\r\n}\r\n.fa-circle-thin:before {\r\n content: "\\f1db";\r\n}\r\n.fa-header:before {\r\n content: "\\f1dc";\r\n}\r\n.fa-paragraph:before {\r\n content: "\\f1dd";\r\n}\r\n.fa-sliders:before {\r\n content: "\\f1de";\r\n}\r\n.fa-share-alt:before {\r\n content: "\\f1e0";\r\n}\r\n.fa-share-alt-square:before {\r\n content: "\\f1e1";\r\n}\r\n.fa-bomb:before {\r\n content: "\\f1e2";\r\n}\r\n.fa-soccer-ball-o:before,\r\n.fa-futbol-o:before {\r\n content: "\\f1e3";\r\n}\r\n.fa-tty:before {\r\n content: "\\f1e4";\r\n}\r\n.fa-binoculars:before {\r\n content: "\\f1e5";\r\n}\r\n.fa-plug:before {\r\n content: "\\f1e6";\r\n}\r\n.fa-slideshare:before {\r\n content: "\\f1e7";\r\n}\r\n.fa-twitch:before {\r\n content: "\\f1e8";\r\n}\r\n.fa-yelp:before {\r\n content: "\\f1e9";\r\n}\r\n.fa-newspaper-o:before {\r\n content: "\\f1ea";\r\n}\r\n.fa-wifi:before {\r\n content: "\\f1eb";\r\n}\r\n.fa-calculator:before {\r\n content: "\\f1ec";\r\n}\r\n.fa-paypal:before {\r\n content: "\\f1ed";\r\n}\r\n.fa-google-wallet:before {\r\n content: "\\f1ee";\r\n}\r\n.fa-cc-visa:before {\r\n content: "\\f1f0";\r\n}\r\n.fa-cc-mastercard:before {\r\n content: "\\f1f1";\r\n}\r\n.fa-cc-discover:before {\r\n content: "\\f1f2";\r\n}\r\n.fa-cc-amex:before {\r\n content: "\\f1f3";\r\n}\r\n.fa-cc-paypal:before {\r\n content: "\\f1f4";\r\n}\r\n.fa-cc-stripe:before {\r\n content: "\\f1f5";\r\n}\r\n.fa-bell-slash:before {\r\n content: "\\f1f6";\r\n}\r\n.fa-bell-slash-o:before {\r\n content: "\\f1f7";\r\n}\r\n.fa-trash:before {\r\n content: "\\f1f8";\r\n}\r\n.fa-copyright:before {\r\n content: "\\f1f9";\r\n}\r\n.fa-at:before {\r\n content: "\\f1fa";\r\n}\r\n.fa-eyedropper:before {\r\n content: "\\f1fb";\r\n}\r\n.fa-paint-brush:before {\r\n content: "\\f1fc";\r\n}\r\n.fa-birthday-cake:before {\r\n content: "\\f1fd";\r\n}\r\n.fa-area-chart:before {\r\n content: "\\f1fe";\r\n}\r\n.fa-pie-chart:before {\r\n content: "\\f200";\r\n}\r\n.fa-line-chart:before {\r\n content: "\\f201";\r\n}\r\n.fa-lastfm:before {\r\n content: "\\f202";\r\n}\r\n.fa-lastfm-square:before {\r\n content: "\\f203";\r\n}\r\n.fa-toggle-off:before {\r\n content: "\\f204";\r\n}\r\n.fa-toggle-on:before {\r\n content: "\\f205";\r\n}\r\n.fa-bicycle:before {\r\n content: "\\f206";\r\n}\r\n.fa-bus:before {\r\n content: "\\f207";\r\n}\r\n.fa-ioxhost:before {\r\n content: "\\f208";\r\n}\r\n.fa-angellist:before {\r\n content: "\\f209";\r\n}\r\n.fa-cc:before {\r\n content: "\\f20a";\r\n}\r\n.fa-shekel:before,\r\n.fa-sheqel:before,\r\n.fa-ils:before {\r\n content: "\\f20b";\r\n}\r\n.fa-meanpath:before {\r\n content: "\\f20c";\r\n}\r\n.fa-buysellads:before {\r\n content: "\\f20d";\r\n}\r\n.fa-connectdevelop:before {\r\n content: "\\f20e";\r\n}\r\n.fa-dashcube:before {\r\n content: "\\f210";\r\n}\r\n.fa-forumbee:before {\r\n content: "\\f211";\r\n}\r\n.fa-leanpub:before {\r\n content: "\\f212";\r\n}\r\n.fa-sellsy:before {\r\n content: "\\f213";\r\n}\r\n.fa-shirtsinbulk:before {\r\n content: "\\f214";\r\n}\r\n.fa-simplybuilt:before {\r\n content: "\\f215";\r\n}\r\n.fa-skyatlas:before {\r\n content: "\\f216";\r\n}\r\n.fa-cart-plus:before {\r\n content: "\\f217";\r\n}\r\n.fa-cart-arrow-down:before {\r\n content: "\\f218";\r\n}\r\n.fa-diamond:before {\r\n content: "\\f219";\r\n}\r\n.fa-ship:before {\r\n content: "\\f21a";\r\n}\r\n.fa-user-secret:before {\r\n content: "\\f21b";\r\n}\r\n.fa-motorcycle:before {\r\n content: "\\f21c";\r\n}\r\n.fa-street-view:before {\r\n content: "\\f21d";\r\n}\r\n.fa-heartbeat:before {\r\n content: "\\f21e";\r\n}\r\n.fa-venus:before {\r\n content: "\\f221";\r\n}\r\n.fa-mars:before {\r\n content: "\\f222";\r\n}\r\n.fa-mercury:before {\r\n content: "\\f223";\r\n}\r\n.fa-intersex:before,\r\n.fa-transgender:before {\r\n content: "\\f224";\r\n}\r\n.fa-transgender-alt:before {\r\n content: "\\f225";\r\n}\r\n.fa-venus-double:before {\r\n content: "\\f226";\r\n}\r\n.fa-mars-double:before {\r\n content: "\\f227";\r\n}\r\n.fa-venus-mars:before {\r\n content: "\\f228";\r\n}\r\n.fa-mars-stroke:before {\r\n content: "\\f229";\r\n}\r\n.fa-mars-stroke-v:before {\r\n content: "\\f22a";\r\n}\r\n.fa-mars-stroke-h:before {\r\n content: "\\f22b";\r\n}\r\n.fa-neuter:before {\r\n content: "\\f22c";\r\n}\r\n.fa-genderless:before {\r\n content: "\\f22d";\r\n}\r\n.fa-facebook-official:before {\r\n content: "\\f230";\r\n}\r\n.fa-pinterest-p:before {\r\n content: "\\f231";\r\n}\r\n.fa-whatsapp:before {\r\n content: "\\f232";\r\n}\r\n.fa-server:before {\r\n content: "\\f233";\r\n}\r\n.fa-user-plus:before {\r\n content: "\\f234";\r\n}\r\n.fa-user-times:before {\r\n content: "\\f235";\r\n}\r\n.fa-hotel:before,\r\n.fa-bed:before {\r\n content: "\\f236";\r\n}\r\n.fa-viacoin:before {\r\n content: "\\f237";\r\n}\r\n.fa-train:before {\r\n content: "\\f238";\r\n}\r\n.fa-subway:before {\r\n content: "\\f239";\r\n}\r\n.fa-medium:before {\r\n content: "\\f23a";\r\n}\r\n.fa-yc:before,\r\n.fa-y-combinator:before {\r\n content: "\\f23b";\r\n}\r\n.fa-optin-monster:before {\r\n content: "\\f23c";\r\n}\r\n.fa-opencart:before {\r\n content: "\\f23d";\r\n}\r\n.fa-expeditedssl:before {\r\n content: "\\f23e";\r\n}\r\n.fa-battery-4:before,\r\n.fa-battery:before,\r\n.fa-battery-full:before {\r\n content: "\\f240";\r\n}\r\n.fa-battery-3:before,\r\n.fa-battery-three-quarters:before {\r\n content: "\\f241";\r\n}\r\n.fa-battery-2:before,\r\n.fa-battery-half:before {\r\n content: "\\f242";\r\n}\r\n.fa-battery-1:before,\r\n.fa-battery-quarter:before {\r\n content: "\\f243";\r\n}\r\n.fa-battery-0:before,\r\n.fa-battery-empty:before {\r\n content: "\\f244";\r\n}\r\n.fa-mouse-pointer:before {\r\n content: "\\f245";\r\n}\r\n.fa-i-cursor:before {\r\n content: "\\f246";\r\n}\r\n.fa-object-group:before {\r\n content: "\\f247";\r\n}\r\n.fa-object-ungroup:before {\r\n content: "\\f248";\r\n}\r\n.fa-sticky-note:before {\r\n content: "\\f249";\r\n}\r\n.fa-sticky-note-o:before {\r\n content: "\\f24a";\r\n}\r\n.fa-cc-jcb:before {\r\n content: "\\f24b";\r\n}\r\n.fa-cc-diners-club:before {\r\n content: "\\f24c";\r\n}\r\n.fa-clone:before {\r\n content: "\\f24d";\r\n}\r\n.fa-balance-scale:before {\r\n content: "\\f24e";\r\n}\r\n.fa-hourglass-o:before {\r\n content: "\\f250";\r\n}\r\n.fa-hourglass-1:before,\r\n.fa-hourglass-start:before {\r\n content: "\\f251";\r\n}\r\n.fa-hourglass-2:before,\r\n.fa-hourglass-half:before {\r\n content: "\\f252";\r\n}\r\n.fa-hourglass-3:before,\r\n.fa-hourglass-end:before {\r\n content: "\\f253";\r\n}\r\n.fa-hourglass:before {\r\n content: "\\f254";\r\n}\r\n.fa-hand-grab-o:before,\r\n.fa-hand-rock-o:before {\r\n content: "\\f255";\r\n}\r\n.fa-hand-stop-o:before,\r\n.fa-hand-paper-o:before {\r\n content: "\\f256";\r\n}\r\n.fa-hand-scissors-o:before {\r\n content: "\\f257";\r\n}\r\n.fa-hand-lizard-o:before {\r\n content: "\\f258";\r\n}\r\n.fa-hand-spock-o:before {\r\n content: "\\f259";\r\n}\r\n.fa-hand-pointer-o:before {\r\n content: "\\f25a";\r\n}\r\n.fa-hand-peace-o:before {\r\n content: "\\f25b";\r\n}\r\n.fa-trademark:before {\r\n content: "\\f25c";\r\n}\r\n.fa-registered:before {\r\n content: "\\f25d";\r\n}\r\n.fa-creative-commons:before {\r\n content: "\\f25e";\r\n}\r\n.fa-gg:before {\r\n content: "\\f260";\r\n}\r\n.fa-gg-circle:before {\r\n content: "\\f261";\r\n}\r\n.fa-tripadvisor:before {\r\n content: "\\f262";\r\n}\r\n.fa-odnoklassniki:before {\r\n content: "\\f263";\r\n}\r\n.fa-odnoklassniki-square:before {\r\n content: "\\f264";\r\n}\r\n.fa-get-pocket:before {\r\n content: "\\f265";\r\n}\r\n.fa-wikipedia-w:before {\r\n content: "\\f266";\r\n}\r\n.fa-safari:before {\r\n content: "\\f267";\r\n}\r\n.fa-chrome:before {\r\n content: "\\f268";\r\n}\r\n.fa-firefox:before {\r\n content: "\\f269";\r\n}\r\n.fa-opera:before {\r\n content: "\\f26a";\r\n}\r\n.fa-internet-explorer:before {\r\n content: "\\f26b";\r\n}\r\n.fa-tv:before,\r\n.fa-television:before {\r\n content: "\\f26c";\r\n}\r\n.fa-contao:before {\r\n content: "\\f26d";\r\n}\r\n.fa-500px:before {\r\n content: "\\f26e";\r\n}\r\n.fa-amazon:before {\r\n content: "\\f270";\r\n}\r\n.fa-calendar-plus-o:before {\r\n content: "\\f271";\r\n}\r\n.fa-calendar-minus-o:before {\r\n content: "\\f272";\r\n}\r\n.fa-calendar-times-o:before {\r\n content: "\\f273";\r\n}\r\n.fa-calendar-check-o:before {\r\n content: "\\f274";\r\n}\r\n.fa-industry:before {\r\n content: "\\f275";\r\n}\r\n.fa-map-pin:before {\r\n content: "\\f276";\r\n}\r\n.fa-map-signs:before {\r\n content: "\\f277";\r\n}\r\n.fa-map-o:before {\r\n content: "\\f278";\r\n}\r\n.fa-map:before {\r\n content: "\\f279";\r\n}\r\n.fa-commenting:before {\r\n content: "\\f27a";\r\n}\r\n.fa-commenting-o:before {\r\n content: "\\f27b";\r\n}\r\n.fa-houzz:before {\r\n content: "\\f27c";\r\n}\r\n.fa-vimeo:before {\r\n content: "\\f27d";\r\n}\r\n.fa-black-tie:before {\r\n content: "\\f27e";\r\n}\r\n.fa-fonticons:before {\r\n content: "\\f280";\r\n}\r\n.fa-reddit-alien:before {\r\n content: "\\f281";\r\n}\r\n.fa-edge:before {\r\n content: "\\f282";\r\n}\r\n.fa-credit-card-alt:before {\r\n content: "\\f283";\r\n}\r\n.fa-codiepie:before {\r\n content: "\\f284";\r\n}\r\n.fa-modx:before {\r\n content: "\\f285";\r\n}\r\n.fa-fort-awesome:before {\r\n content: "\\f286";\r\n}\r\n.fa-usb:before {\r\n content: "\\f287";\r\n}\r\n.fa-product-hunt:before {\r\n content: "\\f288";\r\n}\r\n.fa-mixcloud:before {\r\n content: "\\f289";\r\n}\r\n.fa-scribd:before {\r\n content: "\\f28a";\r\n}\r\n.fa-pause-circle:before {\r\n content: "\\f28b";\r\n}\r\n.fa-pause-circle-o:before {\r\n content: "\\f28c";\r\n}\r\n.fa-stop-circle:before {\r\n content: "\\f28d";\r\n}\r\n.fa-stop-circle-o:before {\r\n content: "\\f28e";\r\n}\r\n.fa-shopping-bag:before {\r\n content: "\\f290";\r\n}\r\n.fa-shopping-basket:before {\r\n content: "\\f291";\r\n}\r\n.fa-hashtag:before {\r\n content: "\\f292";\r\n}\r\n.fa-bluetooth:before {\r\n content: "\\f293";\r\n}\r\n.fa-bluetooth-b:before {\r\n content: "\\f294";\r\n}\r\n.fa-percent:before {\r\n content: "\\f295";\r\n}\r\n.fa-gitlab:before {\r\n content: "\\f296";\r\n}\r\n.fa-wpbeginner:before {\r\n content: "\\f297";\r\n}\r\n.fa-wpforms:before {\r\n content: "\\f298";\r\n}\r\n.fa-envira:before {\r\n content: "\\f299";\r\n}\r\n.fa-universal-access:before {\r\n content: "\\f29a";\r\n}\r\n.fa-wheelchair-alt:before {\r\n content: "\\f29b";\r\n}\r\n.fa-question-circle-o:before {\r\n content: "\\f29c";\r\n}\r\n.fa-blind:before {\r\n content: "\\f29d";\r\n}\r\n.fa-audio-description:before {\r\n content: "\\f29e";\r\n}\r\n.fa-volume-control-phone:before {\r\n content: "\\f2a0";\r\n}\r\n.fa-braille:before {\r\n content: "\\f2a1";\r\n}\r\n.fa-assistive-listening-systems:before {\r\n content: "\\f2a2";\r\n}\r\n.fa-asl-interpreting:before,\r\n.fa-american-sign-language-interpreting:before {\r\n content: "\\f2a3";\r\n}\r\n.fa-deafness:before,\r\n.fa-hard-of-hearing:before,\r\n.fa-deaf:before {\r\n content: "\\f2a4";\r\n}\r\n.fa-glide:before {\r\n content: "\\f2a5";\r\n}\r\n.fa-glide-g:before {\r\n content: "\\f2a6";\r\n}\r\n.fa-signing:before,\r\n.fa-sign-language:before {\r\n content: "\\f2a7";\r\n}\r\n.fa-low-vision:before {\r\n content: "\\f2a8";\r\n}\r\n.fa-viadeo:before {\r\n content: "\\f2a9";\r\n}\r\n.fa-viadeo-square:before {\r\n content: "\\f2aa";\r\n}\r\n.fa-snapchat:before {\r\n content: "\\f2ab";\r\n}\r\n.fa-snapchat-ghost:before {\r\n content: "\\f2ac";\r\n}\r\n.fa-snapchat-square:before {\r\n content: "\\f2ad";\r\n}\r\n.fa-pied-piper:before {\r\n content: "\\f2ae";\r\n}\r\n.fa-first-order:before {\r\n content: "\\f2b0";\r\n}\r\n.fa-yoast:before {\r\n content: "\\f2b1";\r\n}\r\n.fa-themeisle:before {\r\n content: "\\f2b2";\r\n}\r\n.fa-google-plus-circle:before,\r\n.fa-google-plus-official:before {\r\n content: "\\f2b3";\r\n}\r\n.fa-fa:before,\r\n.fa-font-awesome:before {\r\n content: "\\f2b4";\r\n}\r\n.fa-handshake-o:before {\r\n content: "\\f2b5";\r\n}\r\n.fa-envelope-open:before {\r\n content: "\\f2b6";\r\n}\r\n.fa-envelope-open-o:before {\r\n content: "\\f2b7";\r\n}\r\n.fa-linode:before {\r\n content: "\\f2b8";\r\n}\r\n.fa-address-book:before {\r\n content: "\\f2b9";\r\n}\r\n.fa-address-book-o:before {\r\n content: "\\f2ba";\r\n}\r\n.fa-vcard:before,\r\n.fa-address-card:before {\r\n content: "\\f2bb";\r\n}\r\n.fa-vcard-o:before,\r\n.fa-address-card-o:before {\r\n content: "\\f2bc";\r\n}\r\n.fa-user-circle:before {\r\n content: "\\f2bd";\r\n}\r\n.fa-user-circle-o:before {\r\n content: "\\f2be";\r\n}\r\n.fa-user-o:before {\r\n content: "\\f2c0";\r\n}\r\n.fa-id-badge:before {\r\n content: "\\f2c1";\r\n}\r\n.fa-drivers-license:before,\r\n.fa-id-card:before {\r\n content: "\\f2c2";\r\n}\r\n.fa-drivers-license-o:before,\r\n.fa-id-card-o:before {\r\n content: "\\f2c3";\r\n}\r\n.fa-quora:before {\r\n content: "\\f2c4";\r\n}\r\n.fa-free-code-camp:before {\r\n content: "\\f2c5";\r\n}\r\n.fa-telegram:before {\r\n content: "\\f2c6";\r\n}\r\n.fa-thermometer-4:before,\r\n.fa-thermometer:before,\r\n.fa-thermometer-full:before {\r\n content: "\\f2c7";\r\n}\r\n.fa-thermometer-3:before,\r\n.fa-thermometer-three-quarters:before {\r\n content: "\\f2c8";\r\n}\r\n.fa-thermometer-2:before,\r\n.fa-thermometer-half:before {\r\n content: "\\f2c9";\r\n}\r\n.fa-thermometer-1:before,\r\n.fa-thermometer-quarter:before {\r\n content: "\\f2ca";\r\n}\r\n.fa-thermometer-0:before,\r\n.fa-thermometer-empty:before {\r\n content: "\\f2cb";\r\n}\r\n.fa-shower:before {\r\n content: "\\f2cc";\r\n}\r\n.fa-bathtub:before,\r\n.fa-s15:before,\r\n.fa-bath:before {\r\n content: "\\f2cd";\r\n}\r\n.fa-podcast:before {\r\n content: "\\f2ce";\r\n}\r\n.fa-window-maximize:before {\r\n content: "\\f2d0";\r\n}\r\n.fa-window-minimize:before {\r\n content: "\\f2d1";\r\n}\r\n.fa-window-restore:before {\r\n content: "\\f2d2";\r\n}\r\n.fa-times-rectangle:before,\r\n.fa-window-close:before {\r\n content: "\\f2d3";\r\n}\r\n.fa-times-rectangle-o:before,\r\n.fa-window-close-o:before {\r\n content: "\\f2d4";\r\n}\r\n.fa-bandcamp:before {\r\n content: "\\f2d5";\r\n}\r\n.fa-grav:before {\r\n content: "\\f2d6";\r\n}\r\n.fa-etsy:before {\r\n content: "\\f2d7";\r\n}\r\n.fa-imdb:before {\r\n content: "\\f2d8";\r\n}\r\n.fa-ravelry:before {\r\n content: "\\f2d9";\r\n}\r\n.fa-eercast:before {\r\n content: "\\f2da";\r\n}\r\n.fa-microchip:before {\r\n content: "\\f2db";\r\n}\r\n.fa-snowflake-o:before {\r\n content: "\\f2dc";\r\n}\r\n.fa-superpowers:before {\r\n content: "\\f2dd";\r\n}\r\n.fa-wpexplorer:before {\r\n content: "\\f2de";\r\n}\r\n.fa-meetup:before {\r\n content: "\\f2e0";\r\n}\r\n.sr-only {\r\n position: absolute;\r\n width: 1px;\r\n height: 1px;\r\n padding: 0;\r\n margin: -1px;\r\n overflow: hidden;\r\n clip: rect(0, 0, 0, 0);\r\n border: 0;\r\n}\r\n.sr-only-focusable:active,\r\n.sr-only-focusable:focus {\r\n position: static;\r\n width: auto;\r\n height: auto;\r\n margin: 0;\r\n overflow: visible;\r\n clip: auto;\r\n}\r\n', ""]), + A.exports = M + }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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" + }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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" + }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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" + }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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" + }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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+ }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = "data:image/svg+xml;base64,<?xml version="1.0" standalone="no"?>
<!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.1//EN" "http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd" >
<svg>
<metadata>
Created by FontForge 20120731 at Mon Oct 24 17:37:40 2016
 By ,,,
Copyright Dave Gandy 2016. All rights reserved.
</metadata>
<defs>
<font id="FontAwesome" horiz-adv-x="1536" >
  <font-face 
    font-family="FontAwesome"
    font-weight="400"
    font-stretch="normal"
    units-per-em="1792"
    panose-1="0 0 0 0 0 0 0 0 0 0"
    ascent="1536"
    descent="-256"
    bbox="-1.02083 -256.962 2304.6 1537.02"
    underline-thickness="0"
    underline-position="0"
    unicode-range="U+0020-F500"
  />
<missing-glyph horiz-adv-x="896" 
d="M224 112h448v1312h-448v-1312zM112 0v1536h672v-1536h-672z" />
    <glyph glyph-name=".notdef" horiz-adv-x="896" 
d="M224 112h448v1312h-448v-1312zM112 0v1536h672v-1536h-672z" />
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+ }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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+ }, function (A, M, t) { + "use strict"; + t.r(M), + M.default = 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" + }, function (A, M, t) { + var g = t(57), + I = t(221); + "string" == typeof(I = I.__esModule ? I.default : I) && (I = [[A.i, I, ""]]); + t = { + insert: "head", + singleton: !1 + }, + g(I, t); + A.exports = I.locals || {} + }, function (A, M, t) { + (M = t(58)(!1)).push([A.i, "input[type=range] {\r\n -webkit-appearance: none;\r\n}\r\ninput[type=range]::-webkit-slider-thumb {\r\n -webkit-appearance: none;\r\n} \r\ninput[type=range]::-webkit-slider-runnable-track {\r\n height: 15px;\r\n border-radius: 10px; /*将轨道设为圆角的*/\r\n}\r\ninput[type=range]:focus {\r\n outline: none;\r\n}\r\ninput[type=range]::-webkit-slider-thumb {\r\n -webkit-appearance: none;\r\n height: 15px;\r\n width: 15px;\r\n margin-top: -2px; /*使滑块超出轨道部分的偏移量相等*/\r\n background: #ffffff; \r\n border-radius: 50%; /*外观设置为圆形*/\r\n}\r\n.conter{\r\n position: absolute;\r\n left: 50%;\r\n top: 50%;\r\n transform: translate(-50%,-50%);\r\n}\r\n.player-box{\r\n color:blue;\r\n position:relative;\r\n background-color:black;\r\n width:100%;\r\n height:100%;\r\n overflow: hidden;\r\n}\r\n.player-content{\r\n color:blue;\r\n position:relative;\r\n background-color:black;\r\n width:100%;\r\n padding-top:56.25%;\r\n overflow: hidden;\r\n}\r\n#load5{\r\n margin: 0 auto;\r\n font-size: 6px;\r\n width: 8px;\r\n height:8px;\r\n border-radius: 50%;\r\n position: relative;\r\n text-indent: -9999em;\r\n -webkit-animation: load5 1.1s infinite ease;\r\n animation: load5 1.1s infinite ease;\r\n}\r\n@-webkit-keyframes load5 {\r\n 0%,\r\n 100% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 1), 1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.5), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.7);\r\n }\r\n 12.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.7), 1.8em -1.8em 0 0 rgba(255, 0, 255, 1),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.2),\r\n 0 2.5em 0 0 rgba(158, 106, 158, 0.2), -1.8em 1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.5);\r\n }\r\n 25% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.5), 1.8em -1.8em 0 0 rgba(255, 0, 255, 0.7),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.5), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2);\r\n }\r\n 37.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.2), 1.8em -1.8em 0 0em rgba(255, 0, 255, 0.5),\r\n 2.5em 0em 0 0 rgba(255, 0, 255, 0.7), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2);\r\n }\r\n 50% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.5), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.7),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 1), -1.8em 1.8em 0 0 rgba(255, 255, 0, 0.2),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2);\r\n }\r\n 62.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.5),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 0.7), -1.8em 1.8em 0 0 rgba(255, 0, 255, 1),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2);\r\n }\r\n 75% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 0.5), -1.8em 1.8em 0 0 rgba(255, 0, 255, 0.7),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 1), -1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2);\r\n }\r\n 87.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 0, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 0, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 0, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 0, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 0, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 0, 255, 0.5),\r\n -2.6em 0 0 0 rgba(255, 0, 255, 0.7), -1.8em -1.8em 0 0 rgba(255, 0, 255, 1);\r\n }\r\n }\r\n @keyframes load5 {\r\n 0%,\r\n 100% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 1), 1.8em -1.8em 0 0 rgba(255,255, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.5), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.7);\r\n }\r\n 12.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 0.7), 1.8em -1.8em 0 0 rgba(255, 255, 255, 1),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.5);\r\n }\r\n 25% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 0.5), 1.8em -1.8em 0 0 rgba(255, 255, 255, 0.7),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.5), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2);\r\n }\r\n 37.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 0.2), 1.8em -1.8em 0 0em rgba(255, 255, 255, 0.5),\r\n 2.5em 0em 0 0 rgba(255, 255, 255, 0.7), 1.75em 1.75em 0 0 rgba(255, v, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2);\r\n }\r\n 50% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, v, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.5), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.7),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 1), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2);\r\n }\r\n 62.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.5),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.7), -1.8em 1.8em 0 0 rgba(255, 255, 255, 1),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.2), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2);\r\n }\r\n 75% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.5), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.7),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 1), -1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2);\r\n }\r\n 87.5% {\r\n box-shadow: 0 -2.6em 0 0 rgba(255, 255, 255, 0.2), 1.8em -1.8em 0 0 rgba(255, 255, 255, 0.2),\r\n 2.5em 0 0 0 rgba(255, 255, 255, 0.2), 1.75em 1.75em 0 0 rgba(255, 255, 255, 0.2),\r\n 0 2.5em 0 0 rgba(255, 255, 255, 0.2), -1.8em 1.8em 0 0 rgba(255, 255, 255, 0.5),\r\n -2.6em 0 0 0 rgba(255, 255, 255, 0.7), -1.8em -1.8em 0 0 rgba(255, 255, 255, 1);\r\n }\r\n} \r\n@keyframes load{\r\n 0%{\r\n transform: rotate(0deg);\r\n }\r\n 100%{\r\n transform:rotate(360deg);\r\n }\r\n}\r\n/* 中间大播放按钮样式 */\r\n.bigPlayBox{\r\n position: absolute;\r\n top: 50%;\r\n left: 50%;\r\n transform: translate(-50%,-50%);\r\n background-color: rgba(0,0,0,.5);\r\n cursor: pointer;\r\n width: 80px;\r\n height:80px;\r\n border-radius: 40px;\r\n text-align: center;\r\n line-height: 80px;\r\n font-size: 36px;\r\n color: #fff;\r\n z-index: 9;\r\n}", ""]), + A.exports = M + }, function (A, M, E) { + "use strict"; + E.r(M), + E.d(M, "default", function () { + return nA + }); + var i = function () { + function A(A) { + this.gl = A, + this.texture = null + } + var M = A.prototype; + return M.create = function (A, M) { + var t = this.gl; + this.texture = t.createTexture(), + t.bindTexture(t.TEXTURE_2D, this.texture), + 1 == A && t.texImage2D(t.TEXTURE_2D, 1, t.RGBA, t.RGBA, t.UNSIGNED_BYTE, M), + t.texParameteri(t.TEXTURE_2D, t.TEXTURE_MAG_FILTER, t.LINEAR), + t.texParameteri(t.TEXTURE_2D, t.TEXTURE_MIN_FILTER, t.LINEAR), + t.texParameteri(t.TEXTURE_2D, t.TEXTURE_WRAP_S, t.CLAMP_TO_EDGE), + t.texParameteri(t.TEXTURE_2D, t.TEXTURE_WRAP_T, t.CLAMP_TO_EDGE) + }, + M.bind = function (A, M, t) { + var g = this.gl; + g.activeTexture([g.TEXTURE0, g.TEXTURE1, g.TEXTURE2, g.TEXTURE3][A]), + g.bindTexture(g.TEXTURE_2D, this.texture), + g.uniform1i(g.getUniformLocation(M, t), A) + }, + M.fill = function (A, M, t) { + var g = this.gl; + g.bindTexture(g.TEXTURE_2D, this.texture), + g.texImage2D(g.TEXTURE_2D, 0, g.LUMINANCE, A, M, 0, g.LUMINANCE, g.UNSIGNED_BYTE, t) + }, + A + } + (), + t = function () { + function A(A) { + this.enableTextTexture = 0, + this.canvas = A, + this.gl = A.getContext("webgl") || A.getContext("experimental-webgl"), + this.textCtx = null + } + var M = A.prototype; + return M.destroy = function () { + this.gl && this.gl.commit && this.gl.commit() + }, + M.makeTextCanvas = function (A, M, t) { + return textCtx.canvas.width = M, + textCtx.canvas.height = t, + textCtx.font = "10px monospace", + textCtx.textAlign = "center", + textCtx.textBaseline = "middle", + textCtx.fillStyle = "rgba(100, 0, 0, 0.6)", + textCtx.clearRect(0, 0, textCtx.canvas.width, textCtx.canvas.height), + textCtx.fillText(A, M / 2, t / 2), + textCtx.canvas + }, + M.initGL = function (A) { + var M, + t, + g, + I, + e; + this.gl && ((M = this.gl).pixelStorei(M.UNPACK_ALIGNMENT, 1), t = M.createProgram(), I = ["attribute highp vec4 aVertexPosition;", "attribute vec2 aTextureCoord;", "varying highp vec2 vTextureCoord;", "void main(void) {", " gl_Position = aVertexPosition;", " vTextureCoord = aTextureCoord;", "}"].join("\n"), g = M.createShader(M.VERTEX_SHADER), M.shaderSource(g, I), M.compileShader(g), e = ["precision highp float;", "varying lowp vec2 vTextureCoord;", "uniform sampler2D YTexture;", "uniform sampler2D UTexture;", "uniform sampler2D VTexture;", "uniform sampler2D TTexture;", "const mat4 YUV2RGB = mat4", "(", " 1.1643828125, 0, 1.59602734375, -.87078515625,", " 1.1643828125, -.39176171875, -.81296875, .52959375,", " 1.1643828125, 2.017234375, 0, -1.081390625,", " 0, 0, 0, 1", ");", "void main(void) {", " gl_FragColor = mix(vec4( texture2D(YTexture, vTextureCoord).x, texture2D(UTexture, vTextureCoord).x, texture2D(VTexture, vTextureCoord).x, 1) * YUV2RGB, texture2D(TTexture, vTextureCoord), 0.1);", "}"].join("\n"), I = M.createShader(M.FRAGMENT_SHADER), M.shaderSource(I, e), M.compileShader(I), M.attachShader(t, g), M.attachShader(t, I), M.linkProgram(t), M.useProgram(t), M.getProgramParameter(t, M.LINK_STATUS), e = M.getAttribLocation(t, "aVertexPosition"), M.enableVertexAttribArray(e), g = M.getAttribLocation(t, "aTextureCoord"), M.enableVertexAttribArray(g), I = M.createBuffer(), M.bindBuffer(M.ARRAY_BUFFER, I), M.bufferData(M.ARRAY_BUFFER, new Float32Array([1, 1, 0, -1, 1, 0, 1, -1, 0, -1, -1, 0]), M.STATIC_DRAW), M.vertexAttribPointer(e, 3, M.FLOAT, !1, 0, 0), e = M.createBuffer(), M.bindBuffer(M.ARRAY_BUFFER, e), M.bufferData(M.ARRAY_BUFFER, new Float32Array([1, 0, 0, 0, 1, 1, 0, 1]), M.STATIC_DRAW), M.vertexAttribPointer(g, 2, M.FLOAT, !1, 0, 0), 1 == this.enableTextTexture && (void 0 !== document && (this.textCtx = document.createElement("canvas").getContext("2d")), null != this.textCtx && (this.textCtx.canvas.width = 256, this.textCtx.canvas.height = 256, this.textCtx.font = "10px monospace", this.textCtx.textAlign = "center", this.textCtx.textBaseline = "middle", this.textCtx.fillStyle = "rgba(100, 0, 0, 0.6)", this.textCtx.clearRect(0, 0, this.textCtx.canvas.width, this.textCtx.canvas.height), this.textCtx.fillText("Hello", this.textCtx.canvas.width / 2, this.textCtx.canvas.height / 2), M.t = new i(M), M.t.create(1, this.textCtx.canvas))), M.y = new i(M), M.y.create(0, null), M.u = new i(M), M.u.create(0, null), M.v = new i(M), M.v.create(0, null), M.y.bind(0, t, "YTexture"), M.u.bind(1, t, "UTexture"), M.v.bind(2, t, "VTexture"), 1 == this.enableTextTexture && this.textCtx && M.t.bind(3, t, "TTexture")) + }, + M.renderFrame = function (A, M, t, g, I) { + var e; + this.gl && ((e = this.gl).viewport(0, 0, e.canvas.width, e.canvas.height), e.clearColor(0, 0, 0, 0), e.clear(e.COLOR_BUFFER_BIT), A && (e.y.fill(M, t, A.subarray(0, g)), e.u.fill(M >> 1, t >> 1, A.subarray(g, g + I)), e.v.fill(M >> 1, t >> 1, A.subarray(g + I, A.length))), 1 == this.enableTextTexture && this.textCtx && e.texImage2D(e.TEXTURE_2D, 0, e.RGBA, e.RGBA, e.UNSIGNED_BYTE, this.textCtx.canvas), e.drawArrays(e.TRIANGLE_STRIP, 0, 4)) + }, + M.renderVideoFrame = function (A, M, t) { + if (M < 1 || t < 1) { + for (var g = this.gl, I = new Uint8Array(g.canvas.width * g.canvas.height * 3 / 2), e = 0, i = g.canvas.width * g.canvas.height, T = g.canvas.width * g.canvas.height * 5 / 4, E = I.byteLength, e = i; e < T; e++) + I[e] = 128; + for (e = T; e < E; e++) + I[e] = 128; + var N = g.canvas.width * g.canvas.height, + i = g.canvas.width / 2 * (g.canvas.height / 2); + this.renderFrame(I, g.canvas.width, g.canvas.height, N, i) + } else + null != A && (N = M * t, i = M / 2 * (t / 2), this.renderFrame(A, M, t, N, i)) + }, + A + } + (), + R = E(1), + I = E(17), + e = E(29), + g = E(6), + N = E.n(g), + k = E(0), + T = {}; + !function () { + var A, + M = self.navigator.userAgent.toLowerCase(), + t = /(edge)\/([\w.]+)/.exec(M) || /(opr)[\/]([\w.]+)/.exec(M) || /(chrome)[ \/]([\w.]+)/.exec(M) || /(iemobile)[\/]([\w.]+)/.exec(M) || /(version)(applewebkit)[ \/]([\w.]+).*(safari)[ \/]([\w.]+)/.exec(M) || /(webkit)[ \/]([\w.]+).*(version)[ \/]([\w.]+).*(safari)[ \/]([\w.]+)/.exec(M) || /(webkit)[ \/]([\w.]+)/.exec(M) || /(opera)(?:.*version|)[ \/]([\w.]+)/.exec(M) || /(msie) ([\w.]+)/.exec(M) || 0 <= M.indexOf("trident") && /(rv)(?::| )([\w.]+)/.exec(M) || M.indexOf("compatible") < 0 && /(firefox)[ \/]([\w.]+)/.exec(M) || [], + g = /(ipad)/.exec(M) || /(ipod)/.exec(M) || /(windows phone)/.exec(M) || /(iphone)/.exec(M) || /(kindle)/.exec(M) || /(android)/.exec(M) || /(windows)/.exec(M) || /(mac)/.exec(M) || /(linux)/.exec(M) || /(cros)/.exec(M) || [], + M = { + browser: t[5] || t[3] || t[1] || "", + version: t[2] || t[4] || "0", + majorVersion: t[4] || t[2] || "0", + platform: g[0] || "" + }, + t = {}; + for (A in M.browser && (t[M.browser] = !0, g = M.majorVersion.split("."), t.version = { + major: parseInt(M.majorVersion, 10), + string: M.version + }, 1 < g.length && (t.version.minor = parseInt(g[1], 10)), 2 < g.length && (t.version.build = parseInt(g[2], 10))), M.platform && (t[M.platform] = !0), (t.chrome || t.opr || t.safari) && (t.webkit = !0), (t.rv || t.iemobile) && (t.rv && delete t.rv, M.browser = "msie", t.msie = !0), t.edge && (delete t.edge, M.browser = "msedge", t.msedge = !0), t.opr && (M.browser = "opera", t.opera = !0), t.safari && t.android && (M.browser = "android", t.android = !0), t.name = M.browser, t.platform = M.platform, T) + T.hasOwnProperty(A) && delete T[A]; + Object.assign(T, t) + } + (); + var p = T, + n = { + ERROR: "error", + LOADING_COMPLETE: "loading_complete", + RECOVERED_EARLY_EOF: "recovered_early_eof", + MEDIA_INFO: "media_info", + METADATA_ARRIVED: "metadata_arrived", + SCRIPTDATA_ARRIVED: "scriptdata_arrived", + STATISTICS_INFO: "statistics_info" + }; + function D(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var C = function () { + function t() {} + var A, + M, + g; + return t.getConfig = function () { + return { + globalTag: k.a.GLOBAL_TAG, + forceGlobalTag: k.a.FORCE_GLOBAL_TAG, + enableVerbose: k.a.ENABLE_VERBOSE, + enableDebug: k.a.ENABLE_DEBUG, + enableInfo: k.a.ENABLE_INFO, + enableWarn: k.a.ENABLE_WARN, + enableError: k.a.ENABLE_ERROR, + enableCallback: k.a.ENABLE_CALLBACK + } + }, + t.applyConfig = function (A) { + k.a.GLOBAL_TAG = A.globalTag, + k.a.FORCE_GLOBAL_TAG = A.forceGlobalTag, + k.a.ENABLE_VERBOSE = A.enableVerbose, + k.a.ENABLE_DEBUG = A.enableDebug, + k.a.ENABLE_INFO = A.enableInfo, + k.a.ENABLE_WARN = A.enableWarn, + k.a.ENABLE_ERROR = A.enableError, + k.a.ENABLE_CALLBACK = A.enableCallback + }, + t._notifyChange = function () { + var A, + M = t.emitter; + 0 < M.listenerCount("change") && (A = t.getConfig(), M.emit("change", A)) + }, + t.registerListener = function (A) { + t.emitter.addListener("change", A) + }, + t.removeListener = function (A) { + t.emitter.removeListener("change", A) + }, + t.addLogListener = function (A) { + k.a.emitter.addListener("log", A), + 0 < k.a.emitter.listenerCount("log") && (k.a.ENABLE_CALLBACK = !0, t._notifyChange()) + }, + t.removeLogListener = function (A) { + k.a.emitter.removeListener("log", A), + 0 === k.a.emitter.listenerCount("log") && (k.a.ENABLE_CALLBACK = !1, t._notifyChange()) + }, + A = t, + g = [{ + key: "forceGlobalTag", + get: function () { + return k.a.FORCE_GLOBAL_TAG + }, + set: function (A) { + k.a.FORCE_GLOBAL_TAG = A, + t._notifyChange() + } + }, { + key: "globalTag", + get: function () { + return k.a.GLOBAL_TAG + }, + set: function (A) { + k.a.GLOBAL_TAG = A, + t._notifyChange() + } + }, { + key: "enableAll", + get: function () { + return k.a.ENABLE_VERBOSE && k.a.ENABLE_DEBUG && k.a.ENABLE_INFO && k.a.ENABLE_WARN && k.a.ENABLE_ERROR + }, + set: function (A) { + k.a.ENABLE_VERBOSE = A, + k.a.ENABLE_DEBUG = A, + k.a.ENABLE_INFO = A, + k.a.ENABLE_WARN = A, + k.a.ENABLE_ERROR = A, + t._notifyChange() + } + }, { + key: "enableDebug", + get: function () { + return k.a.ENABLE_DEBUG + }, + set: function (A) { + k.a.ENABLE_DEBUG = A, + t._notifyChange() + } + }, { + key: "enableVerbose", + get: function () { + return k.a.ENABLE_VERBOSE + }, + set: function (A) { + k.a.ENABLE_VERBOSE = A, + t._notifyChange() + } + }, { + key: "enableInfo", + get: function () { + return k.a.ENABLE_INFO + }, + set: function (A) { + k.a.ENABLE_INFO = A, + t._notifyChange() + } + }, { + key: "enableWarn", + get: function () { + return k.a.ENABLE_WARN + }, + set: function (A) { + k.a.ENABLE_WARN = A, + t._notifyChange() + } + }, { + key: "enableError", + get: function () { + return k.a.ENABLE_ERROR + }, + set: function (A) { + k.a.ENABLE_ERROR = A, + t._notifyChange() + } + } + ], + (M = null) && D(A.prototype, M), + g && D(A, g), + t + } + (); + C.emitter = new N.a; + var r = C, + c = E(13), + o = E(36), + M = function () { + function n() {} + return n.init = function () { + for (var A in n.types = { + avc1: [], + avcC: [], + btrt: [], + dinf: [], + dref: [], + esds: [], + ftyp: [], + hdlr: [], + mdat: [], + mdhd: [], + mdia: [], + mfhd: [], + minf: [], + moof: [], + moov: [], + mp4a: [], + mvex: [], + mvhd: [], + sdtp: [], + stbl: [], + stco: [], + stsc: [], + stsd: [], + stsz: [], + stts: [], + tfdt: [], + tfhd: [], + traf: [], + trak: [], + trun: [], + trex: [], + tkhd: [], + vmhd: [], + smhd: [], + ".mp3": [] + }) + n.types.hasOwnProperty(A) && (n.types[A] = [A.charCodeAt(0), A.charCodeAt(1), A.charCodeAt(2), A.charCodeAt(3)]); + var M = n.constants = {}; + M.FTYP = new Uint8Array([105, 115, 111, 109, 0, 0, 0, 1, 105, 115, 111, 109, 97, 118, 99, 49]), + M.STSD_PREFIX = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 1]), + M.STTS = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0]), + M.STSC = M.STCO = M.STTS, + M.STSZ = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]), + M.HDLR_VIDEO = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0, 118, 105, 100, 101, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 86, 105, 100, 101, 111, 72, 97, 110, 100, 108, 101, 114, 0]), + M.HDLR_AUDIO = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0, 115, 111, 117, 110, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 83, 111, 117, 110, 100, 72, 97, 110, 100, 108, 101, 114, 0]), + M.DREF = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 12, 117, 114, 108, 32, 0, 0, 0, 1]), + M.SMHD = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0]), + M.VMHD = new Uint8Array([0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0]) + }, + n.box = function (A) { + for (var M = 8, t = null, g = Array.prototype.slice.call(arguments, 1), I = g.length, e = 0; e < I; e++) + M += g[e].byteLength; + (t = new Uint8Array(M))[0] = M >>> 24 & 255, + t[1] = M >>> 16 & 255, + t[2] = M >>> 8 & 255, + t[3] = 255 & M, + t.set(A, 4); + for (var i = 8, T = 0; T < I; T++) + t.set(g[T], i), i += g[T].byteLength; + return t + }, + n.generateInitSegment = function (A) { + var M = n.box(n.types.ftyp, n.constants.FTYP), + t = n.moov(A), + A = new Uint8Array(M.byteLength + t.byteLength); + return A.set(M, 0), + A.set(t, M.byteLength), + A + }, + n.moov = function (A) { + var M = n.mvhd(A.timescale, A.duration), + t = n.trak(A), + A = n.mvex(A); + return n.box(n.types.moov, M, t, A) + }, + n.mvhd = function (A, M) { + return n.box(n.types.mvhd, new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, A >>> 24 & 255, A >>> 16 & 255, A >>> 8 & 255, 255 & A, M >>> 24 & 255, M >>> 16 & 255, M >>> 8 & 255, 255 & M, 0, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 64, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 255, 255, 255, 255])) + }, + n.trak = function (A) { + return n.box(n.types.trak, n.tkhd(A), n.mdia(A)) + }, + n.tkhd = function (A) { + var M = A.id, + t = A.duration, + g = A.presentWidth, + A = A.presentHeight; + return n.box(n.types.tkhd, new Uint8Array([0, 0, 0, 7, 0, 0, 0, 0, 0, 0, 0, 0, M >>> 24 & 255, M >>> 16 & 255, M >>> 8 & 255, 255 & M, 0, 0, 0, 0, t >>> 24 & 255, t >>> 16 & 255, t >>> 8 & 255, 255 & t, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 64, 0, 0, 0, g >>> 8 & 255, 255 & g, 0, 0, A >>> 8 & 255, 255 & A, 0, 0])) + }, + n.mdia = function (A) { + return n.box(n.types.mdia, n.mdhd(A), n.hdlr(A), n.minf(A)) + }, + n.mdhd = function (A) { + var M = A.timescale, + A = A.duration; + return n.box(n.types.mdhd, new Uint8Array([0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, M >>> 24 & 255, M >>> 16 & 255, M >>> 8 & 255, 255 & M, A >>> 24 & 255, A >>> 16 & 255, A >>> 8 & 255, 255 & A, 85, 196, 0, 0])) + }, + n.hdlr = function (A) { + var M = null, + M = "audio" === A.type ? n.constants.HDLR_AUDIO : n.constants.HDLR_VIDEO; + return n.box(n.types.hdlr, M) + }, + n.minf = function (A) { + var M = null, + M = "audio" === A.type ? n.box(n.types.smhd, n.constants.SMHD) : n.box(n.types.vmhd, n.constants.VMHD); + return n.box(n.types.minf, M, n.dinf(), n.stbl(A)) + }, + n.dinf = function () { + return n.box(n.types.dinf, n.box(n.types.dref, n.constants.DREF)) + }, + n.stbl = function (A) { + return n.box(n.types.stbl, n.stsd(A), n.box(n.types.stts, n.constants.STTS), n.box(n.types.stsc, n.constants.STSC), n.box(n.types.stsz, n.constants.STSZ), n.box(n.types.stco, n.constants.STCO)) + }, + n.stsd = function (A) { + return "audio" === A.type ? "mp3" === A.codec ? n.box(n.types.stsd, n.constants.STSD_PREFIX, n.mp3(A)) : n.box(n.types.stsd, n.constants.STSD_PREFIX, n.mp4a(A)) : n.box(n.types.stsd, n.constants.STSD_PREFIX, n.avc1(A)) + }, + n.mp3 = function (A) { + var M = A.channelCount, + A = A.audioSampleRate, + A = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, M, 0, 16, 0, 0, 0, 0, A >>> 8 & 255, 255 & A, 0, 0]); + return n.box(n.types[".mp3"], A) + }, + n.mp4a = function (A) { + var M = A.channelCount, + t = A.audioSampleRate, + t = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, M, 0, 16, 0, 0, 0, 0, t >>> 8 & 255, 255 & t, 0, 0]); + return n.box(n.types.mp4a, t, n.esds(A)) + }, + n.esds = function (A) { + var M = A.config || [], + A = M.length, + M = new Uint8Array([0, 0, 0, 0, 3, 23 + A, 0, 1, 0, 4, 15 + A, 64, 21, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 5].concat([A]).concat(M).concat([6, 1, 2])); + return n.box(n.types.esds, M) + }, + n.avc1 = function (A) { + var M = A.avcc, + t = A.codecWidth, + A = A.codecHeight, + A = new Uint8Array([0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, t >>> 8 & 255, 255 & t, A >>> 8 & 255, 255 & A, 0, 72, 0, 0, 0, 72, 0, 0, 0, 0, 0, 0, 0, 1, 10, 120, 113, 113, 47, 102, 108, 118, 46, 106, 115, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 24, 255, 255]); + return n.box(n.types.avc1, A, n.box(n.types.avcC, M)) + }, + n.mvex = function (A) { + return n.box(n.types.mvex, n.trex(A)) + }, + n.trex = function (A) { + A = A.id, + A = new Uint8Array([0, 0, 0, 0, A >>> 24 & 255, A >>> 16 & 255, A >>> 8 & 255, 255 & A, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 1]); + return n.box(n.types.trex, A) + }, + n.moof = function (A, M) { + return n.box(n.types.moof, n.mfhd(A.sequenceNumber), n.traf(A, M)) + }, + n.mfhd = function (A) { + A = new Uint8Array([0, 0, 0, 0, A >>> 24 & 255, A >>> 16 & 255, A >>> 8 & 255, 255 & A]); + return n.box(n.types.mfhd, A) + }, + n.traf = function (A, M) { + var t = A.id, + g = n.box(n.types.tfhd, new Uint8Array([0, 0, 0, 0, t >>> 24 & 255, t >>> 16 & 255, t >>> 8 & 255, 255 & t])), + t = n.box(n.types.tfdt, new Uint8Array([0, 0, 0, 0, M >>> 24 & 255, M >>> 16 & 255, M >>> 8 & 255, 255 & M])), + M = n.sdtp(A), + A = n.trun(A, M.byteLength + 16 + 16 + 8 + 16 + 8 + 8); + return n.box(n.types.traf, g, t, A, M) + }, + n.sdtp = function (A) { + for (var M = A.samples || [], t = M.length, g = new Uint8Array(4 + t), I = 0; I < t; I++) { + var e = M[I].flags; + g[I + 4] = e.isLeading << 6 | e.dependsOn << 4 | e.isDependedOn << 2 | e.hasRedundancy + } + return n.box(n.types.sdtp, g) + }, + n.trun = function (A, M) { + var t = A.samples || [], + g = t.length, + A = 12 + 16 * g, + I = new Uint8Array(A); + M += 8 + A, + I.set([0, 0, 15, 1, g >>> 24 & 255, g >>> 16 & 255, g >>> 8 & 255, 255 & g, M >>> 24 & 255, M >>> 16 & 255, M >>> 8 & 255, 255 & M], 0); + for (var e = 0; e < g; e++) { + var i = t[e].duration, + T = t[e].size, + E = t[e].flags, + N = t[e].cts; + I.set([i >>> 24 & 255, i >>> 16 & 255, i >>> 8 & 255, 255 & i, T >>> 24 & 255, T >>> 16 & 255, T >>> 8 & 255, 255 & T, E.isLeading << 2 | E.dependsOn, E.isDependedOn << 6 | E.hasRedundancy << 4 | E.isNonSync, 0, 0, N >>> 24 & 255, N >>> 16 & 255, N >>> 8 & 255, 255 & N], 12 + 16 * e) + } + return n.box(n.types.trun, I) + }, + n.mdat = function (A) { + return n.box(n.types.mdat, A) + }, + n + } + (); + M.init(); + var b = M, + G = function () { + function A() {} + return A.getSilentFrame = function (A, M) { + if ("mp4a.40.2" === A) { + if (1 === M) + return new Uint8Array([0, 200, 0, 128, 35, 128]); + if (2 === M) + return new Uint8Array([33, 0, 73, 144, 2, 25, 0, 35, 128]); + if (3 === M) + return new Uint8Array([0, 200, 0, 128, 32, 132, 1, 38, 64, 8, 100, 0, 142]); + if (4 === M) + return new Uint8Array([0, 200, 0, 128, 32, 132, 1, 38, 64, 8, 100, 0, 128, 44, 128, 8, 2, 56]); + if (5 === M) + return new Uint8Array([0, 200, 0, 128, 32, 132, 1, 38, 64, 8, 100, 0, 130, 48, 4, 153, 0, 33, 144, 2, 56]); + if (6 === M) + return new Uint8Array([0, 200, 0, 128, 32, 132, 1, 38, 64, 8, 100, 0, 130, 48, 4, 153, 0, 33, 144, 2, 0, 178, 0, 32, 8, 224]) + } else { + if (1 === M) + return new Uint8Array([1, 64, 34, 128, 163, 78, 230, 128, 186, 8, 0, 0, 0, 28, 6, 241, 193, 10, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 94]); + if (2 === M) + return new Uint8Array([1, 64, 34, 128, 163, 94, 230, 128, 186, 8, 0, 0, 0, 0, 149, 0, 6, 241, 161, 10, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 94]); + if (3 === M) + return new Uint8Array([1, 64, 34, 128, 163, 94, 230, 128, 186, 8, 0, 0, 0, 0, 149, 0, 6, 241, 161, 10, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 90, 94]) + } + return null + }, + A + } + (); + function B(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + function J(A, M, t, g, I) { + this.dts = A, + this.pts = M, + this.duration = t, + this.originalDts = g, + this.isSyncPoint = I, + this.fileposition = null + } + var H = function () { + function A() { + this.beginDts = 0, + this.endDts = 0, + this.beginPts = 0, + this.endPts = 0, + this.originalBeginDts = 0, + this.originalEndDts = 0, + this.syncPoints = [], + this.firstSample = null, + this.lastSample = null + } + return A.prototype.appendSyncPoint = function (A) { + A.isSyncPoint = !0, + this.syncPoints.push(A) + }, + A + } + (), + Q = function () { + function A() { + this._list = [] + } + var M = A.prototype; + return M.clear = function () { + this._list = [] + }, + M.appendArray = function (A) { + var M = this._list; + 0 !== A.length && (0 < M.length && A[0].originalDts < M[M.length - 1].originalDts && this.clear(), Array.prototype.push.apply(M, A)) + }, + M.getLastSyncPointBeforeDts = function (A) { + if (0 == this._list.length) + return null; + var M, + t = this._list, + g = 0, + I = t.length - 1, + e = 0, + i = I; + for (A < t[0].dts && (g = 0, e = i + 1); e <= i; ) { + if ((M = e + Math.floor((i - e) / 2)) === I || A >= t[M].dts && A < t[M + 1].dts) { + g = M; + break + } + t[M].dts < A ? e = M + 1 : i = M - 1 + } + return this._list[g] + }, + A + } + (), + a = function () { + function A(A) { + this._type = A, + this._list = [], + this._lastAppendLocation = -1 + } + var M, + t, + g = A.prototype; + return g.isEmpty = function () { + return 0 === this._list.length + }, + g.clear = function () { + this._list = [], + this._lastAppendLocation = -1 + }, + g._searchNearestSegmentBefore = function (A) { + var M = this._list; + if (0 === M.length) + return -2; + var t, + g = M.length - 1, + I = 0, + e = g, + i = 0; + if (A < M[0].originalBeginDts) + return i = -1; + for (; I <= e; ) { + if ((t = I + Math.floor((e - I) / 2)) === g || A > M[t].lastSample.originalDts && A < M[t + 1].originalBeginDts) { + i = t; + break + } + M[t].originalBeginDts < A ? I = t + 1 : e = t - 1 + } + return i + }, + g._searchNearestSegmentAfter = function (A) { + return this._searchNearestSegmentBefore(A) + 1 + }, + g.append = function (A) { + var M = this._list, + t = A, + g = this._lastAppendLocation, + A = 0; + -1 !== g && g < M.length && t.originalBeginDts >= M[g].lastSample.originalDts && (g === M.length - 1 || g < M.length - 1 && t.originalBeginDts < M[g + 1].originalBeginDts) ? A = g + 1 : 0 < M.length && (A = this._searchNearestSegmentBefore(t.originalBeginDts) + 1), + this._lastAppendLocation = A, + this._list.splice(A, 0, t) + }, + g.getLastSegmentBefore = function (A) { + A = this._searchNearestSegmentBefore(A); + return 0 <= A ? this._list[A] : null + }, + g.getLastSampleBefore = function (A) { + A = this.getLastSegmentBefore(A); + return null != A ? A.lastSample : null + }, + g.getLastSyncPointBefore = function (A) { + for (var M = this._searchNearestSegmentBefore(A), t = this._list[M].syncPoints; 0 === t.length && 0 < M; ) + M--, t = this._list[M].syncPoints; + return 0 < t.length ? t[t.length - 1] : null + }, + M = A, + (g = [{ + key: "type", + get: function () { + return this._type + } + }, { + key: "length", + get: function () { + return this._list.length + } + } + ]) && B(M.prototype, g), + t && B(M, t), + A + } + (), + h = E(2); + function s(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var y = function () { + function A(A) { + this.TAG = "MP4Remuxer", + this._config = A, + this._isLive = !0 === A.isLive, + this._dtsBase = -1, + this._dtsBaseInited = !1, + this._audioDtsBase = 1 / 0, + this._videoDtsBase = 1 / 0, + this._audioNextDts = void 0, + this._videoNextDts = void 0, + this._audioStashedLastSample = null, + this._videoStashedLastSample = null, + this._audioMeta = null, + this._videoMeta = null, + this._adjustPts = 0, + this._lastAdjustVideoPts = 0, + this._lastVideoPts = 0, + this._audioSegmentInfoList = new a("audio"), + this._videoSegmentInfoList = new a("video"), + this._onInitSegment = null, + this._onMediaSegment = null, + this._forceFirstIDR = !(!p.chrome || !(p.version.major < 50 || 50 === p.version.major && p.version.build < 2661)), + this._fillSilentAfterSeek = p.msedge || p.msie, + this._mp3UseMpegAudio = !p.firefox, + this._fillAudioTimestampGap = this._config.fixAudioTimestampGap + } + var M, + t, + g = A.prototype; + return g.destroy = function () { + this._dtsBase = -1, + this._dtsBaseInited = !1, + this._audioMeta = null, + this._videoMeta = null, + this._audioSegmentInfoList.clear(), + this._audioSegmentInfoList = null, + this._videoSegmentInfoList.clear(), + this._videoSegmentInfoList = null, + this._onInitSegment = null, + this._onMediaSegment = null + }, + g.bindDataSource = function (A) { + return A.onDataAvailable = this.remux.bind(this), + A.onTrackMetadata = this._onTrackMetadataReceived.bind(this), + this + }, + g.insertDiscontinuity = function () { + this._audioNextDts = this._videoNextDts = void 0 + }, + g.changeSpeed = function (A) { + this._adjustPts = A + }, + g.seek = function (A) { + this._audioStashedLastSample = null, + this._videoStashedLastSample = null, + this._videoSegmentInfoList.clear(), + this._audioSegmentInfoList.clear(), + this._dtsBase = -1, + this._dtsBaseInited = !1, + this._audioDtsBase = 1 / 0, + this._videoDtsBase = 1 / 0, + this._audioNextDts = void 0, + this._videoNextDts = void 0, + this._audioStashedLastSample = null, + this._videoStashedLastSample = null, + this._adjustPts = 0, + this._lastAdjustVideoPts = 0, + this._lastVideoPts = 0 + }, + g.remux = function (A, M) { + if (!this._onMediaSegment) + throw new h.a("MP4Remuxer: onMediaSegment callback must be specificed!"); + if (!this._dtsBaseInited && !this._calculateDtsBase(A, M)) + return M.samples = [], void(A.samples = []); + this._remuxVideo(M), + this._remuxAudio(A) + }, + g._onTrackMetadataReceived = function (A, M) { + var t = null; + if (R.c() || "audio" !== A) { + var g = "mp4", + I = M.codec; + if ("audio" === A) + t = "mp3" === (this._audioMeta = M).codec && this._mp3UseMpegAudio ? (g = "mpeg", I = "", new Uint8Array) : b.generateInitSegment(M); + else { + if ("video" !== A) + return; + this._videoMeta = M, + t = b.generateInitSegment(M) + } + if (!this._onInitSegment) + throw new h.a("MP4Remuxer: onInitSegment callback must be specified!"); + this._onInitSegment(A, { + type: A, + data: t.buffer, + codec: I, + container: A + "/" + g, + mediaDuration: M.duration + }) + } + }, + g._calculateDtsBase = function (A, M) { + if (!this._dtsBaseInited) + return A.samples && A.samples.length && (this._audioDtsBase = A.samples[0].dts), M.samples && M.samples.length && (this._videoDtsBase = M.samples[0].dts), this._dtsBase = Math.min(this._audioDtsBase, this._videoDtsBase), this._dtsBaseInited = !0, !(this._dtsBase < 0) + }, + g.flushStashedSamples = function () { + var A = this._videoStashedLastSample, + M = this._audioStashedLastSample, + t = { + type: "video", + id: 1, + sequenceNumber: 0, + samples: [], + length: 0 + }; + null != A && (t.samples.push(A), t.length = A.length); + A = { + type: "audio", + id: 2, + sequenceNumber: 0, + samples: [], + length: 0 + }; + null != M && (A.samples.push(M), A.length = M.length), + this._videoStashedLastSample = null, + this._audioStashedLastSample = null, + this._remuxVideo(t, !0), + this._remuxAudio(A, !0) + }, + g._remuxAudio = function (A, M) { + if (null != this._audioMeta) { + var t = A, + g = t.samples, + I = void 0, + e = -1, + i = this._audioMeta.refSampleDuration, + T = "mp3" === this._audioMeta.codec && this._mp3UseMpegAudio, + E = this._dtsBaseInited && void 0 === this._audioNextDts, + A = !1; + if (g && 0 !== g.length && (1 !== g.length || M)) + if (R.c()) { + var N = 0, + n = null, + D = 0, + D = T ? (N = 0, t.length) : (N = 8) + t.length, + C = null; + 1 < g.length && (D -= (C = g.pop()).length), + null != this._audioStashedLastSample && (o = this._audioStashedLastSample, this._audioStashedLastSample = null, g.unshift(o), D += o.length), + null != C && (this._audioStashedLastSample = C); + var r, + c, + o = g[0].dts - this._dtsBase; + this._audioNextDts ? I = o - this._audioNextDts : this._audioSegmentInfoList.isEmpty() ? (I = 0, this._fillSilentAfterSeek && !this._videoSegmentInfoList.isEmpty() && "mp3" !== this._audioMeta.originalCodec && (A = !0)) : I = null != (r = this._audioSegmentInfoList.getLastSampleBefore(o)) ? ((c = o - (r.originalDts + r.duration)) <= 3 && (c = 0), o - (r.dts + r.duration + c)) : 0, + A && (r = o - I, null != (c = this._videoSegmentInfoList.getLastSegmentBefore(o)) && c.beginDts < r ? (O = G.getSilentFrame(this._audioMeta.originalCodec, this._audioMeta.channelCount)) && (o = c.beginDts, c = r - c.beginDts, k.a.v(this.TAG, "InsertPrefixSilentAudio: dts: " + o + ", duration: " + c), g.unshift({ + unit: O, + dts: o, + pts: o + }), D += O.byteLength) : A = !1); + for (var B = [], Q = 0; Q < g.length; Q++) { + var a = g[Q], + h = a.unit, + s = a.dts - this._dtsBase, + y = s - I; + -1 === e && (e = y); + var w = 0, + j = !1, + L = null; + if (1.5 * i < (w = Q !== g.length - 1 ? g[Q + 1].dts - this._dtsBase - I - y : null != C ? C.dts - this._dtsBase - I - y : 1 <= B.length ? B[B.length - 1].duration : Math.floor(i)) && "mp3" !== this._audioMeta.codec && this._fillAudioTimestampGap && !p.safari) { + j = !0; + var d = Math.abs(w - i), + x = Math.ceil(d / i), + Y = y + i; + k.a.w(this.TAG, "Large audio timestamp gap detected, may cause AV sync to drift. Silent frames will be generated to avoid unsync.\ndts: " + (y + w) + " ms, expected: " + (y + Math.round(i)) + " ms, delta: " + Math.round(d) + " ms, generate: " + x + " framessampleDuration: " + w + " ms, refSampleDuration: " + i); + var u = G.getSilentFrame(this._audioMeta.originalCodec, this._audioMeta.channelCount); + null == u && (k.a.w(this.TAG, "Unable to generate silent frame for " + this._audioMeta.originalCodec + " with " + this._audioMeta.channelCount + " channels, repeat last frame"), u = h), + L = []; + for (var S = 0; S < x; S++) { + var z, + l = Math.round(Y); + 0 < L.length && ((z = L[L.length - 1]).duration = l - z.dts); + l = { + dts: l, + pts: l, + cts: 0, + unit: u, + size: u.byteLength, + duration: 0, + originalDts: s, + flags: { + isLeading: 0, + dependsOn: 1, + isDependedOn: 0, + hasRedundancy: 0 + } + }; + L.push(l), + D += l.size, + Y += i + } + h = L[L.length - 1]; + h.duration = y + w - h.dts, + w = Math.round(i) + } + B.push({ + dts: y, + pts: y, + cts: 0, + unit: a.unit, + size: a.unit.byteLength, + duration: w, + originalDts: s, + flags: { + isLeading: 0, + dependsOn: 1, + isDependedOn: 0, + hasRedundancy: 0 + } + }), + j && B.push.apply(B, L) + } + T ? n = new Uint8Array(D) : ((n = new Uint8Array(D))[0] = D >>> 24 & 255, n[1] = D >>> 16 & 255, n[2] = D >>> 8 & 255, n[3] = 255 & D, n.set(b.types.mdat, 4)); + for (var U = 0; U < B.length; U++) { + var f = B[U].unit; + n.set(f, N), + N += f.byteLength + } + var O = B[B.length - 1], + m = O.dts + O.duration; + this._audioNextDts = m; + A = new H; + A.beginDts = e, + A.endDts = m, + A.beginPts = e, + A.endPts = m, + A.originalBeginDts = B[0].originalDts, + A.originalEndDts = O.originalDts + O.duration, + A.firstSample = new J(B[0].dts, B[0].pts, B[0].duration, B[0].originalDts, !1), + A.lastSample = new J(O.dts, O.pts, O.duration, O.originalDts, !1), + this._isLive || this._audioSegmentInfoList.append(A), + t.samples = B, + t.sequenceNumber++; + O = null, + O = T ? new Uint8Array : b.moof(t, e); + t.samples = [], + t.length = 0; + A = { + type: "audio", + data: this._mergeBoxes(O, n).buffer, + sampleCount: B.length, + info: A + }; + T && E && (A.timestampOffset = e), + this._onMediaSegment("audio", A) + } else + for (var F = 0; F < g.length; F++) + g.shift() + } + }, + g._remuxVideo = function (A, M) { + if (null != this._videoMeta) { + var t = A, + g = t.samples, + I = void 0, + e = -1, + i = -1; + if (g && 0 !== g.length && (1 !== g.length || M)) { + var T = 8, + E = null, + M = 8 + A.length, + N = null; + 1 < g.length && (M -= (N = g.pop()).length), + null != this._videoStashedLastSample && (D = this._videoStashedLastSample, this._videoStashedLastSample = null, g.unshift(D), M += D.length), + null != N && (this._videoStashedLastSample = N); + var n, + D, + A = g[0].dts - this._dtsBase; + I = this._videoNextDts ? A - this._videoNextDts : !this._videoSegmentInfoList.isEmpty() && null != (n = this._videoSegmentInfoList.getLastSampleBefore(A)) ? ((D = A - (n.originalDts + n.duration)) <= 3 && (D = 0), A - (n.dts + n.duration + D)) : 0; + for (var C = new H, r = [], c = 0; c < g.length; c++) { + var o = g[c], + B = o.dts - this._dtsBase, + Q = o.isKeyframe, + a = B - I, + h = o.cts, + s = a + h; + -1 === e && (e = a, i = s); + var y, + w = 0; + w = c !== g.length - 1 ? g[c + 1].dts - this._dtsBase - I - a : null != N ? N.dts - this._dtsBase - I - a : 1 <= r.length ? r[r.length - 1].duration : Math.floor(this._videoMeta.refSampleDuration), + Q && ((y = new J(a, s, w, o.dts, !0)).fileposition = o.fileposition, C.appendSyncPoint(y)), + r.push({ + dts: a, + pts: s, + cts: h, + units: o.units, + size: o.length, + isKeyframe: Q, + duration: w, + originalDts: B, + flags: { + isLeading: 0, + dependsOn: Q ? 2 : 1, + isDependedOn: Q ? 1 : 0, + hasRedundancy: 0, + isNonSync: Q ? 0 : 1 + } + }) + } + (E = new Uint8Array(M))[0] = M >>> 24 & 255, + E[1] = M >>> 16 & 255, + E[2] = M >>> 8 & 255, + E[3] = 255 & M, + E.set(b.types.mdat, 4); + for (var j = 0; j < r.length; j++) + for (var L = r[j].units; L.length; ) { + var d = L.shift().data; + E.set(d, T), + T += d.byteLength + } + var M = r[r.length - 1], + x = M.dts + M.duration, + Y = M.pts + M.duration; + this._videoNextDts = x, + C.beginDts = e, + C.endDts = x, + C.beginPts = i, + C.endPts = Y, + C.originalBeginDts = r[0].originalDts, + C.originalEndDts = M.originalDts + M.duration, + C.firstSample = new J(r[0].dts, r[0].pts, r[0].duration, r[0].originalDts, r[0].isKeyframe), + C.lastSample = new J(M.dts, M.pts, M.duration, M.originalDts, M.isKeyframe), + this._isLive || this._videoSegmentInfoList.append(C), + t.samples = r, + t.sequenceNumber++, + this._forceFirstIDR && ((u = r[0].flags).dependsOn = 2, u.isNonSync = 0); + var u = b.moof(t, e); + t.samples = [], + t.length = 0, + this._onMediaSegment("video", { + type: "video", + data: this._mergeBoxes(u, E).buffer, + sampleCount: r.length, + info: C + }) + } + } + }, + g._mergeBoxes = function (A, M) { + var t = new Uint8Array(A.byteLength + M.byteLength); + return t.set(A, 0), + t.set(M, A.byteLength), + t + }, + M = A, + (g = [{ + key: "onInitSegment", + get: function () { + return this._onInitSegment + }, + set: function (A) { + this._onInitSegment = A + } + }, { + key: "onMediaSegment", + get: function () { + return this._onMediaSegment + }, + set: function (A) { + this._onMediaSegment = A + } + } + ]) && s(M.prototype, g), + t && s(M, t), + A + } + (), + w = E(5); + function j(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var L = function () { + function A() { + this._firstCheckpoint = 0, + this._lastCheckpoint = 0, + this._intervalBytes = 0, + this._totalBytes = 0, + this._lastSecondBytes = 0, + self.performance && self.performance.now ? this._now = self.performance.now.bind(self.performance) : this._now = Date.now + } + var M, + t, + g = A.prototype; + return g.reset = function () { + this._firstCheckpoint = this._lastCheckpoint = 0, + this._totalBytes = this._intervalBytes = 0, + this._lastSecondBytes = 0 + }, + g.addBytes = function (A) { + 0 === this._firstCheckpoint ? (this._firstCheckpoint = this._now(), this._lastCheckpoint = this._firstCheckpoint, this._intervalBytes += A, this._totalBytes += A) : this._now() - this._lastCheckpoint < 1e3 ? (this._intervalBytes += A, this._totalBytes += A) : (this._lastSecondBytes = this._intervalBytes, this._intervalBytes = A, this._totalBytes += A, this._lastCheckpoint = this._now()) + }, + M = A, + (g = [{ + key: "currentKBps", + get: function () { + this.addBytes(0); + var A = (this._now() - this._lastCheckpoint) / 1e3; + return 0 == A && (A = 1), + this._intervalBytes / A / 1024 + } + }, { + key: "lastSecondKBps", + get: function () { + return this.addBytes(0), + 0 !== this._lastSecondBytes ? this._lastSecondBytes / 1024 : 500 <= this._now() - this._lastCheckpoint ? this.currentKBps : 0 + } + }, { + key: "averageKBps", + get: function () { + var A = (this._now() - this._firstCheckpoint) / 1e3; + return this._totalBytes / A / 1024 + } + } + ]) && j(M.prototype, g), + t && j(M, t), + A + } + (); + function d(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var x = { + kIdle: 0, + kConnecting: 1, + kBuffering: 2, + kError: 3, + kComplete: 4 + }, + Y = { + OK: "OK", + EXCEPTION: "Exception", + HTTP_STATUS_CODE_INVALID: "HttpStatusCodeInvalid", + CONNECTING_TIMEOUT: "ConnectingTimeout", + EARLY_EOF: "EarlyEof", + UNRECOVERABLE_EARLY_EOF: "UnrecoverableEarlyEof" + }, + g = function () { + function A(A) { + this._type = A || "undefined", + this._status = x.kIdle, + this._needStash = !1, + this._onContentLengthKnown = null, + this._onURLRedirect = null, + this._onDataArrival = null, + this._onError = null, + this._onComplete = null + } + var M, + t, + g = A.prototype; + return g.destroy = function () { + this._status = x.kIdle, + this._onContentLengthKnown = null, + this._onURLRedirect = null, + this._onDataArrival = null, + this._onError = null, + this._onComplete = null + }, + g.isWorking = function () { + return this._status === x.kConnecting || this._status === x.kBuffering + }, + g.open = function (A, M) { + throw new h.c("Unimplemented abstract function!") + }, + g.abort = function () { + throw new h.c("Unimplemented abstract function!") + }, + M = A, + (g = [{ + key: "type", + get: function () { + return this._type + } + }, { + key: "status", + get: function () { + return this._status + } + }, { + key: "needStashBuffer", + get: function () { + return this._needStash + } + }, { + key: "onContentLengthKnown", + get: function () { + return this._onContentLengthKnown + }, + set: function (A) { + this._onContentLengthKnown = A + } + }, { + key: "onURLRedirect", + get: function () { + return this._onURLRedirect + }, + set: function (A) { + this._onURLRedirect = A + } + }, { + key: "onDataArrival", + get: function () { + return this._onDataArrival + }, + set: function (A) { + this._onDataArrival = A + } + }, { + key: "onError", + get: function () { + return this._onError + }, + set: function (A) { + this._onError = A + } + }, { + key: "onComplete", + get: function () { + return this._onComplete + }, + set: function (A) { + this._onComplete = A + } + } + ]) && d(M.prototype, g), + t && d(M, t), + A + } + (); + var u = function (g) { + var A; + function M(A, M) { + var t = g.call(this, "fetch-stream-loader") || this; + return t.TAG = "FetchStreamLoader", + t._seekHandler = A, + t._config = M, + t._needStash = !0, + t._isError = !0, + t._callbackFunc = M.callbackFunc, + t._requestAbort = !1, + t._contentLength = null, + t._receivedLength = 0, + t._retryConnectTimes = 0, + t._fetchUrl = null, + t._fetchParam = null, + t._triggerReconnectingNotify = !0, + t._triggerReconnectSuccessNotify = !0, + t + } + t = g, + (A = M).prototype = Object.create(t.prototype), + (A.prototype.constructor = A).__proto__ = t, + M.isSupported = function () { + try { + var A = p.msedge && 15048 <= p.version.minor, + A = !p.msedge || A; + return self.fetch && self.ReadableStream && A + } catch (A) { + return !1 + } + }; + var t = M.prototype; + return t.destroy = function () { + this.isWorking() && this.abort(), + this._isError = !1, + g.prototype.destroy.call(this) + }, + t.fetchStream = function () { + var g = this, + A = this._fetchParam; + this._retryConnectTimes++, + this._triggerReconnectingNotify && (this._triggerReconnectingNotify = !1, this._onDataArrival && this._onDataArrival(null, -this._retryConnectTimes, 0)), + this._triggerReconnectSuccessNotify = !0, + self.fetch(this._fetchUrl, A).then(function (A) { + if (g._requestAbort) + return g._requestAbort = !1, void(g._status = x.kIdle); + if (A.ok && 200 <= A.status && A.status <= 299) { + A.url !== g._fetchUrl && g._onURLRedirect && (M = g._seekHandler.removeURLParameters(A.url), g._onURLRedirect(M)); + var M = A.headers.get("Content-Length"); + return null != M && (g._contentLength = parseInt(M), 0 !== g._contentLength && g._onContentLengthKnown && g._onContentLengthKnown(g._contentLength)), + g._triggerReconnectingNotify = !0, + g._pump.call(g, A.body.getReader()) + } + g._status = x.kError, + g._onError, + R.e("fetch-stream: code:" + A.status + " msg:" + A.statusText), + g._callbackFunc({ + code: A.status, + msg: A.statusText + }); + var t = g; + t._isError && R.j(3e3).then(function () { + t.fetchStream() + }) + }).catch(function (A) { + if (g._status = x.kError, !g._onError) + throw A; + g._onError(Y.EXCEPTION, { + code: -1, + msg: A.message + }); + var M = g; + M._isError && R.j(3e3).then(function () { + M.fetchStream() + }) + }) + }, + t.open = function (A, M) { + this._dataSource = A, + this._range = M; + var t = A.url; + this._config.reuseRedirectedURL && null != A.redirectedURL && (t = A.redirectedURL); + var t = this._seekHandler.getConfig(t, M), + g = new self.Headers; + if ("object" == typeof t.headers) { + var I, + e = t.headers; + for (I in e) + e.hasOwnProperty(I) && g.append(I, e[I]) + } + M = { + method: "GET", + headers: g, + mode: "cors", + cache: "default", + referrerPolicy: "no-referrer-when-downgrade" + }; + if ("object" == typeof this._config.headers) + for (var i in this._config.headers) + g.append(i, this._config.headers[i]); + !1 === A.cors && (M.mode = "same-origin"), + A.withCredentials && (M.credentials = "include"), + A.referrerPolicy && (M.referrerPolicy = A.referrerPolicy), + this._status = x.kConnecting, + this._fetchUrl = t.url, + this._fetchParam = M, + this.fetchStream() + }, + t.abort = function () { + this._requestAbort = !0 + }, + t._pump = function (g) { + var I = this; + return g.read().then(function (A) { + if (A.done) + if (null !== I._contentLength && I._receivedLength < I._contentLength) { + I._status = x.kError; + var M = Y.EARLY_EOF, + t = { + code: -1, + msg: "Fetch stream meet Early-EOF" + }; + if (!I._onError) + throw new h.d(t.msg); + I._onError(M, t), + null !== I._contentLength && I._receivedLength === I._contentLength && 0 < I._receivedLength ? (R.i(!1), I._onComplete(I._range.from, I._range.from + I._receivedLength - 1)) : I._onComplete(-1, -1) + } else + I._status = x.kComplete, I._onComplete && (null !== I._contentLength && I._receivedLength === I._contentLength && 0 < I._receivedLength ? (R.i(!1), I._onComplete(I._range.from, I._range.from + I._receivedLength - 1)) : I._onComplete(-1, -1)); + else { + if (!0 === I._requestAbort) + return I._requestAbort = !1, I._status = x.kComplete, g.cancel(); + I._status = x.kBuffering; + t = A.value.buffer, + A = I._range.from + I._receivedLength; + I._receivedLength += t.byteLength, + I._onDataArrival && I._onDataArrival(t, A, I._receivedLength), + I._triggerReconnectSuccessNotify && (I._triggerReconnectSuccessNotify = !1, I._onDataArrival && (I._onDataArrival(null, I._retryConnectTimes, 0), I._retryConnectTimes++)), + I._pump(g) + } + }).catch(function (A) { + I._onComplete(-1, -1) + }) + }, + M + } + (g); + var S = function (g) { + var A; + function M(A, M) { + var t = g.call(this, "xhr-moz-chunked-loader") || this; + return t.TAG = "MozChunkedLoader", + t._seekHandler = A, + t._config = M, + t._needStash = !0, + t._xhr = null, + t._requestAbort = !1, + t._contentLength = null, + t._receivedLength = 0, + t + } + t = g, + (A = M).prototype = Object.create(t.prototype), + (A.prototype.constructor = A).__proto__ = t, + M.isSupported = function () { + try { + var A = new XMLHttpRequest; + return A.open("GET", "https://example.com", !0), + (A.responseType = "moz-chunked-arraybuffer") === A.responseType + } catch (A) { + return k.a.w("MozChunkedLoader", A.message), + !1 + } + }; + var t = M.prototype; + return t.destroy = function () { + this.isWorking() && this.abort(), + this._xhr && (this._xhr.onreadystatechange = null, this._xhr.onprogress = null, this._xhr.onloadend = null, this._xhr.onerror = null, this._xhr = null), + g.prototype.destroy.call(this) + }, + t.open = function (A, M) { + this._dataSource = A, + this._range = M; + var t = A.url; + this._config.reuseRedirectedURL && null != A.redirectedURL && (t = A.redirectedURL); + M = this._seekHandler.getConfig(t, M); + this._requestURL = M.url; + var g = this._xhr = new XMLHttpRequest; + if (g.open("GET", M.url, !0), g.responseType = "moz-chunked-arraybuffer", g.onreadystatechange = this._onReadyStateChange.bind(this), g.onprogress = this._onProgress.bind(this), g.onloadend = this._onLoadEnd.bind(this), g.onerror = this._onXhrError.bind(this), A.withCredentials && (g.withCredentials = !0), "object" == typeof M.headers) { + var I, + e = M.headers; + for (I in e) + e.hasOwnProperty(I) && g.setRequestHeader(I, e[I]) + } + if ("object" == typeof this._config.headers) { + var i, + T = this._config.headers; + for (i in T) + T.hasOwnProperty(i) && g.setRequestHeader(i, T[i]) + } + this._status = x.kConnecting, + g.send() + }, + t.abort = function () { + this._requestAbort = !0, + this._xhr && this._xhr.abort(), + this._status = x.kComplete + }, + t._onReadyStateChange = function (A) { + var M = A.target; + if (2 === M.readyState) + if (null != M.responseURL && M.responseURL !== this._requestURL && this._onURLRedirect && (A = this._seekHandler.removeURLParameters(M.responseURL), this._onURLRedirect(A)), 0 !== M.status && (M.status < 200 || 299 < M.status)) { + if (this._status = x.kError, !this._onError) + throw new h.d("MozChunkedLoader: Http code invalid, " + M.status + " " + M.statusText); + this._onError(Y.HTTP_STATUS_CODE_INVALID, { + code: M.status, + msg: M.statusText + }) + } else + this._status = x.kBuffering + }, + t._onProgress = function (A) { + var M; + this._status !== x.kError && (null === this._contentLength && null !== A.total && 0 !== A.total && (this._contentLength = A.total, this._onContentLengthKnown && this._onContentLengthKnown(this._contentLength)), M = A.target.response, A = this._range.from + this._receivedLength, this._receivedLength += M.byteLength, this._onDataArrival && this._onDataArrival(M, A, this._receivedLength)) + }, + t._onLoadEnd = function (A) { + !0 !== this._requestAbort ? this._status !== x.kError && (this._status = x.kComplete, this._onComplete && this._onComplete(this._range.from, this._range.from + this._receivedLength - 1)) : this._requestAbort = !1 + }, + t._onXhrError = function (A) { + this._status = x.kError; + var M = 0, + t = null, + t = this._contentLength && A.loaded < this._contentLength ? (M = Y.EARLY_EOF, { + code: -1, + msg: "Moz-Chunked stream meet Early-Eof" + }) : (M = Y.EXCEPTION, { + code: -1, + msg: A.constructor.name + " " + A.type + }); + if (!this._onError) + throw new h.d(t.msg); + this._onError(M, t) + }, + M + } + (g); + function z(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var l = function (g) { + function A(A, M) { + var t = g.call(this, "xhr-range-loader") || this; + return t.TAG = "RangeLoader", + t._seekHandler = A, + t._config = M, + t._needStash = !1, + t._chunkSizeKBList = [128, 256, 384, 512, 768, 1024, 1536, 2048, 3072, 4096, 5120, 6144, 7168, 8192], + t._currentChunkSizeKB = 384, + t._currentSpeedNormalized = 0, + t._zeroSpeedChunkCount = 0, + t._xhr = null, + t._speedSampler = new L, + t._requestAbort = !1, + t._waitForTotalLength = !1, + t._totalLengthReceived = !1, + t._currentRequestURL = null, + t._currentRedirectedURL = null, + t._currentRequestRange = null, + t._totalLength = null, + t._contentLength = null, + t._receivedLength = 0, + t._lastTimeLoaded = 0, + t + } + M = g, + (I = A).prototype = Object.create(M.prototype), + (I.prototype.constructor = I).__proto__ = M, + A.isSupported = function () { + try { + var A = new XMLHttpRequest; + return A.open("GET", "https://example.com", !0), + (A.responseType = "arraybuffer") === A.responseType + } catch (A) { + return k.a.w("RangeLoader", A.message), + !1 + } + }; + var M, + t, + I = A.prototype; + return I.destroy = function () { + this.isWorking() && this.abort(), + this._xhr && (this._xhr.onreadystatechange = null, this._xhr.onprogress = null, this._xhr.onload = null, this._xhr.onerror = null, this._xhr = null), + g.prototype.destroy.call(this) + }, + I.open = function (A, M) { + this._dataSource = A, + this._range = M, + this._status = x.kConnecting; + M = !1; + null != this._dataSource.filesize && 0 !== this._dataSource.filesize && (M = !0, this._totalLength = this._dataSource.filesize), + this._totalLengthReceived || M ? this._openSubRange() : (this._waitForTotalLength = !0, this._internalOpen(this._dataSource, { + from: 0, + to: -1 + })) + }, + I._openSubRange = function () { + var A = 1024 * this._currentChunkSizeKB, + M = this._range.from + this._receivedLength, + A = M + A; + null != this._contentLength && A - this._range.from >= this._contentLength && (A = this._range.from + this._contentLength - 1), + this._currentRequestRange = { + from: M, + to: A + }, + this._internalOpen(this._dataSource, this._currentRequestRange) + }, + I._internalOpen = function (A, M) { + this._lastTimeLoaded = 0; + var t = A.url; + this._config.reuseRedirectedURL && (null != this._currentRedirectedURL ? t = this._currentRedirectedURL : null != A.redirectedURL && (t = A.redirectedURL)); + M = this._seekHandler.getConfig(t, M); + this._currentRequestURL = M.url; + var g = this._xhr = new XMLHttpRequest; + if (g.open("GET", M.url, !0), g.responseType = "arraybuffer", g.onreadystatechange = this._onReadyStateChange.bind(this), g.onprogress = this._onProgress.bind(this), g.onload = this._onLoad.bind(this), g.onerror = this._onXhrError.bind(this), A.withCredentials && (g.withCredentials = !0), "object" == typeof M.headers) { + var I, + e = M.headers; + for (I in e) + e.hasOwnProperty(I) && g.setRequestHeader(I, e[I]) + } + if ("object" == typeof this._config.headers) { + var i, + T = this._config.headers; + for (i in T) + T.hasOwnProperty(i) && g.setRequestHeader(i, T[i]) + } + g.send() + }, + I.abort = function () { + this._requestAbort = !0, + this._internalAbort(), + this._status = x.kComplete + }, + I._internalAbort = function () { + this._xhr && (this._xhr.onreadystatechange = null, this._xhr.onprogress = null, this._xhr.onload = null, this._xhr.onerror = null, this._xhr.abort(), this._xhr = null) + }, + I._onReadyStateChange = function (A) { + var M = A.target; + if (2 === M.readyState) + if (null != M.responseURL && (A = this._seekHandler.removeURLParameters(M.responseURL), M.responseURL !== this._currentRequestURL && A !== this._currentRedirectedURL && (this._currentRedirectedURL = A, this._onURLRedirect && this._onURLRedirect(A))), 200 <= M.status && M.status <= 299) + this._waitForTotalLength || (this._status = x.kBuffering); + else { + if (this._status = x.kError, !this._onError) + throw new h.d("RangeLoader: Http code invalid, " + M.status + " " + M.statusText); + this._onError(Y.HTTP_STATUS_CODE_INVALID, { + code: M.status, + msg: M.statusText + }) + } + }, + I._onProgress = function (A) { + if (this._status !== x.kError) { + if (null === this._contentLength) { + var M, + t = !1; + if (this._waitForTotalLength && (this._waitForTotalLength = !1, t = this._totalLengthReceived = !0, M = A.total, this._internalAbort(), null != M & 0 !== M && (this._totalLength = M)), -1 === this._range.to ? this._contentLength = this._totalLength - this._range.from : this._contentLength = this._range.to - this._range.from + 1, t) + return void this._openSubRange(); + this._onContentLengthKnown && this._onContentLengthKnown(this._contentLength) + } + t = A.loaded - this._lastTimeLoaded; + this._lastTimeLoaded = A.loaded, + this._speedSampler.addBytes(t) + } + }, + I._normalizeSpeed = function (A) { + var M, + t = this._chunkSizeKBList, + g = t.length - 1, + I = 0, + e = g; + if (A < t[0]) + return t[0]; + for (; I <= e; ) { + if ((M = I + Math.floor((e - I) / 2)) === g || A >= t[M] && A < t[M + 1]) + return t[M]; + t[M] < A ? I = M + 1 : e = M - 1 + } + }, + I._onLoad = function (A) { + var M, + t; + this._status !== x.kError && (this._waitForTotalLength ? this._waitForTotalLength = !1 : ((this._lastTimeLoaded = 0) === (M = this._speedSampler.lastSecondKBps) && (this._zeroSpeedChunkCount++, 3 <= this._zeroSpeedChunkCount && (M = this._speedSampler.currentKBps)), 0 !== M && (t = this._normalizeSpeed(M), this._currentSpeedNormalized !== t && (this._currentSpeedNormalized = t, this._currentChunkSizeKB = t)), M = A.target.response, t = this._range.from + this._receivedLength, this._receivedLength += M.byteLength, A = !1, null != this._contentLength && this._receivedLength < this._contentLength ? this._openSubRange() : A = !0, this._onDataArrival && this._onDataArrival(M, t, this._receivedLength), A && (this._status = x.kComplete, this._onComplete && this._onComplete(this._range.from, this._range.from + this._receivedLength - 1)))) + }, + I._onXhrError = function (A) { + this._status = x.kError; + var M = 0, + t = null, + t = this._contentLength && 0 < this._receivedLength && this._receivedLength < this._contentLength ? (M = Y.EARLY_EOF, { + code: -1, + msg: "RangeLoader meet Early-Eof" + }) : (M = Y.EXCEPTION, { + code: -1, + msg: A.constructor.name + " " + A.type + }); + if (!this._onError) + throw new h.d(t.msg); + this._onError(M, t) + }, + M = A, + (I = [{ + key: "currentSpeed", + get: function () { + return this._speedSampler.lastSecondKBps + } + } + ]) && z(M.prototype, I), + t && z(M, t), + A + } + (g); + var U = function (g) { + var A; + function M(A, M) { + var t = g.call(this, "websocket-loader") || this; + return t.TAG = "WebSocketLoader", + t._needStash = !0, + t._ws = null, + t._requestAbort = !1, + t._callbackFunc = M.callbackFunc, + t._receivedLength = 0, + t._retryConnectTimes = 0, + t._triggerReconnectingNotify = !0, + t._triggerReconnectSuccessNotify = !0, + t + } + t = g, + (A = M).prototype = Object.create(t.prototype), + (A.prototype.constructor = A).__proto__ = t, + M.isSupported = function () { + try { + return void 0 !== self.WebSocket + } catch (A) { + return !1 + } + }; + var t = M.prototype; + return t.destroy = function () { + this._ws && this.abort(), + g.prototype.destroy.call(this) + }, + t.open = function (A) { + try { + this._retryConnectTimes++, + this._triggerReconnectingNotify && (this._triggerReconnectingNotify = !1, this._onDataArrival && this._onDataArrival(null, -this._retryConnectTimes, 0)), + this._triggerReconnectSuccessNotify = !0; + var M = this._ws = new self.WebSocket(A.url); + M.binaryType = "arraybuffer", + M.onopen = this._onWebSocketOpen.bind(this), + M.onclose = this._onWebSocketClose.bind(this), + M.onmessage = this._onWebSocketMessage.bind(this), + M.onerror = this._onWebSocketError.bind(this), + this._status = x.kConnecting + } catch (A) { + this._status = x.kError; + var t = { + code: A.code, + msg: A.message + }; + if (!this._onError) + throw new h.d(t.msg); + this._onError(Y.EXCEPTION, t) + } + }, + t.abort = function () { + var A = this._ws; + !A || 0 !== A.readyState && 1 !== A.readyState || (this._requestAbort = !0, A.close()), + this._ws = null, + this._status = x.kComplete + }, + t._onWebSocketOpen = function (A) { + this._status = x.kBuffering + }, + t._onWebSocketClose = function (A) { + !0 !== this._requestAbort ? (this._status = x.kComplete, this._onComplete && this._onComplete(-1, -1)) : this._requestAbort = !1 + }, + t._ab2str = function (A, M) { + var A = new Blob([A]), + t = new FileReader; + t.readAsText(A, "utf-8"), + t.onload = function () { + M && M.call(null, t.result) + } + }, + t._onWebSocketMessage = function (A) { + var M = this, + t = this; + if (this._ab2str(A.data, function (A) { + "Unauthorized" === A && t._callbackFunc({ + code: 410, + msg: "Unauthorized" + }) + }), A.data instanceof ArrayBuffer) + this._dispatchArrayBuffer(A.data); + else if (A.data instanceof Blob) { + var g = new FileReader; + g.onload = function () { + M._dispatchArrayBuffer(g.result) + }, + g.readAsArrayBuffer(A.data) + } else { + this._status = x.kError; + A = { + code: -1, + msg: "Unsupported WebSocket message type: " + A.data.constructor.name + }; + if (!this._onError) + throw new h.d(A.msg); + this._onError(Y.EXCEPTION, A) + } + }, + t._dispatchArrayBuffer = function (A) { + var M = A, + A = this._receivedLength; + this._receivedLength += M.byteLength, + this._onDataArrival && this._onDataArrival(M, A, this._receivedLength), + this._triggerReconnectSuccessNotify && (this._triggerReconnectSuccessNotify = !1, this._onDataArrival && (this._onDataArrival(null, this._retryConnectTimes, 0), this._retryConnectTimes++)) + }, + t._onWebSocketError = function (A) { + this._status = x.kError; + A = { + code: A.code, + msg: A.message + }; + if (!this._onError) + throw new h.d(A.msg); + this._onError(Y.EXCEPTION, A) + }, + M + } + (g), + f = function () { + function A(A) { + this._zeroStart = A || !1 + } + var M = A.prototype; + return M.getConfig = function (A, M) { + var t = {}; + return 0 !== M.from || -1 !== M.to ? (M = -1 !== M.to ? "bytes=" + M.from.toString() + "-" + M.to.toString() : "bytes=" + M.from.toString() + "-", t.Range = M) : this._zeroStart && (t.Range = "bytes=0-"), { + url: A, + headers: t + } + }, + M.removeURLParameters = function (A) { + return A + }, + A + } + (), + O = function () { + function A(A, M) { + this._startName = A, + this._endName = M + } + var M = A.prototype; + return M.getConfig = function (A, M) { + var t = A; + return 0 === M.from && -1 === M.to || (A = !0, -1 === t.indexOf("?") && (t += "?", A = !1), A && (t += "&"), t += this._startName + "=" + M.from.toString(), -1 !== M.to && (t += "&" + this._endName + "=" + M.to.toString())), { + url: t, + headers: {} + } + }, + M.removeURLParameters = function (A) { + var M = A.split("?")[0], + t = void 0, + g = A.indexOf("?"); + -1 !== g && (t = A.substring(g + 1)); + var I = ""; + if (null != t && 0 < t.length) + for (var e = t.split("&"), i = 0; i < e.length; i++) { + var T = e[i].split("="), + E = 0 < i; + T[0] !== this._startName && T[0] !== this._endName && (E && (I += "&"), I += e[i]) + } + return 0 === I.length ? M : M + "?" + I + }, + A + } + (); + var m = function (g) { + var A; + function M(A, M) { + var t = g.call(this, "m3u8-loader") || this; + return t.TAG = "M3U8Loader", + t._needStash = !0, + t.url = "", + t.startPlayTime = 0, + t._requestAbort = !1, + t._receivedLength = 0, + t._callbackFunc = M.callbackFunc, + t.getNextFileFlag = !0, + t.pauseDisplay = !1, + t.totalDuration = 0, + t.seeking = !1, + t + } + t = g, + (A = M).prototype = Object.create(t.prototype), + (A.prototype.constructor = A).__proto__ = t, + M.isSupported = function () { + return !0 + }; + var t = M.prototype; + return t.destroy = function () { + this.abort(), + g.prototype.destroy.call(this) + }, + t.GetM3u8TotalDuration = function () { + return this.totalDuration + }, + t.createDownloadWorker = function () { + var A; + if (!this.downloadWorker && "undefined" != typeof Worker) + try { + A = this.downloadWorker = I(223), + this.onwmsg = this.onWorkerMessage.bind(this); + var M = { + cmd: R.v, + url: this.url, + time: this.startPlayTime + }; + A.postMessage(M), + A.addEventListener("message", this.onwmsg), + A.onerror = function (A) {} + } catch (A) { + this.downloadWorker = void 0 + } + }, + t.setStartPlaySecs = function (A) { + this.startPlayTime = A + }, + t.open = function (A) { + try { + this.url = A.url, + this.createDownloadWorker(), + this._status = x.kConnecting + } catch (A) { + this._status = x.kError; + var M = { + code: A.code, + msg: A.message + }; + if (!this._onError) + throw new h.d(M.msg); + this._onError(Y.EXCEPTION, M) + } + }, + t.abort = function () { + var A = { + cmd: R.l + }; + this.downloadWorker && void 0 !== this.downloadWorker && this.downloadWorker.postMessage(A), + this._status = x.kComplete + }, + t._onWebSocketOpen = function (A) { + this._status = x.kBuffering + }, + t._onWebSocketClose = function (A) { + !0 !== this._requestAbort ? (this._status = x.kComplete, this._onComplete && this._onComplete(0, this._receivedLength - 1)) : this._requestAbort = !1 + }, + t.seek = function (A, M) { + this.pauseDisplay = !1; + A = { + cmd: R.A, + type: M, + time: A + }; + this.downloadWorker && void 0 !== this.downloadWorker && (this.downloadWorker.postMessage(A), this.seeking = !0) + }, + t.pause = function () { + this.pauseDisplay = !0; + var A = { + cmd: R.w + }; + this.downloadWorker && void 0 !== this.downloadWorker && this.downloadWorker.postMessage(A) + }, + t.resume = function () { + this.pauseDisplay = !1; + var A = { + cmd: R.z + }; + this.downloadWorker && void 0 !== this.downloadWorker && this.downloadWorker.postMessage(A) + }, + t.onWorkerMessage = function (A) { + var M = A.data; + switch (M.cmd) { + case R.v: + var t = { + cmd: R.r, + t: 0 + }; + this.downloadWorker.postMessage(t); + break; + case R.s: + this.getNextFileFlag = !0; + break; + case R.q: + this.playComplete = !0; + break; + case R.o: + t = { + cmd: R.x + }; + this.downloadWorker.postMessage(t); + break; + case R.l: + M.workerId == R.b ? (this.downloadWorker.terminate(), this.downloadWorker = null) : M.workerId == R.a ? (this.decodeWorker.terminate(), this.decodeWorker = null, this.soundPlayer && (this.soundPlayer.destroy(), delete this.soundPlayer, this.soundPlayer = null), this.webGLPlayer && this.webGLPlayer.renderVideoFrame(null, 0, 0)) : M.workerId == R.f && (this.renderWorker.terminate(), this.renderWorker = null); + break; + case R.p: + if (M.workerId == R.b) { + var g = M.dat, + t = this._receivedLength; + this._receivedLength += g.byteLength, + this._onDataArrival && this._onDataArrival(g, t, this._receivedLength); + break + } + if (M.workerId == R.a) { + if (this.pauseDisplay) + break; + 1 == M.mediaType ? (this.canvas.width = M.width, this.canvas.height = M.height, this.webGLPlayer.renderVideoFrame(M.dat, M.width, M.height), this.OnUpdatePlayInfo(M.playTimeSec, M.frameNum)) : 2 == M.mediaType && (null == this.soundPlayer && this.OpenAudioPlayer(M.fmt, M.ch, M.samplerate), null != this.soundPlayer && this.soundPlayer.play(M.dat)) + } + break; + case R.t: + this.totalDuration = M.duration, + R.i(M.live); + break; + case R.r: + this.pauseDisplay || this.getNextFileFlag && (this.downloadWorker.postMessage(M), this.getNextFileFlag = !1); + break; + case R.A: + this.seeking = !1; + break; + case 410: + this._callbackFunc(M); + break; + case R.y: + this._onDataArrival && (this._receivedLength = 0, this._onDataArrival(null, M.fileSequence, 0)) + } + }, + t._dispatchArrayBuffer = function (A) { + var M = A, + A = this._receivedLength; + this._receivedLength += M.byteLength, + this._onDataArrival && this._onDataArrival(M, A, this._receivedLength) + }, + t._onWebSocketError = function (A) { + this._status = x.kError; + A = { + code: A.code, + msg: A.message + }; + if (!this._onError) + throw new h.d(A.msg); + this._onError(Y.EXCEPTION, A) + }, + M + } + (g); + function F(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var X = function () { + function A(A, M, t, g) { + this.TAG = "IOController", + this._config = M, + this._extraData = t, + this._stashInitialSize = 393216, + null != M.stashInitialSize && 0 < M.stashInitialSize && (this._stashInitialSize = M.stashInitialSize), + this._stashUsed = 0, + this._stashSize = this._stashInitialSize, + this._bufferSize = 3145728, + this._stashBuffer = new ArrayBuffer(this._bufferSize), + this._stashByteStart = 0, + !(this._enableStash = !0) === M.enableStashBuffer && (this._enableStash = !1), + "soft" === M.decodeType && (this._enableStash = !1), + this._loader = null, + this._loaderClass = null, + this._seekHandler = null, + this._dataSource = A, + this._isWebSocketURL = /wss?:\/\/(.+?)/.test(A.url), + this._refTotalLength = A.filesize || null, + this._totalLength = this._refTotalLength, + this._fullRequestFlag = !1, + this._currentRange = null, + this._redirectedURL = null, + this._speedNormalized = 0, + this._speedSampler = new L, + this._speedNormalizeList = [64, 128, 256, 384, 512, 768, 1024, 1536, 2048, 3072, 4096], + this._isEarlyEofReconnecting = !1, + this._paused = !1, + this._resumeFrom = 0, + this._onDataArrival = null, + this._onSeeked = null, + this._onError = null, + this._onComplete = null, + this._onRedirect = null, + this._onRecoveredEarlyEof = null, + this._selectSeekHandler(), + this._selectLoader(), + this._createLoader(g) + } + var M, + t, + g = A.prototype; + return g.destroy = function () { + this._loader.isWorking() && this._loader.abort(), + this._loader.destroy(), + this._loader = null, + this._loaderClass = null, + this._dataSource = null, + this._stashBuffer = null, + this._stashUsed = this._stashSize = this._bufferSize = this._stashByteStart = 0, + this._currentRange = null, + this._speedSampler = null, + this._isEarlyEofReconnecting = !1, + this._onDataArrival = null, + this._onSeeked = null, + this._onError = null, + this._onComplete = null, + this._onRedirect = null, + this._onRecoveredEarlyEof = null, + this._extraData = null + }, + g.isWorking = function () { + return this._loader && this._loader.isWorking() && !this._paused + }, + g.isPaused = function () { + return this._paused + }, + g._selectSeekHandler = function () { + var A = this._config; + if ("range" === A.seekType) + this._seekHandler = new f(this._config.rangeLoadZeroStart); + else if ("param" === A.seekType) { + var M = A.seekParamStart || "bstart", + t = A.seekParamEnd || "bend"; + this._seekHandler = new O(M, t) + } else { + if ("custom" !== A.seekType) + throw new h.b("Invalid seekType in config: " + A.seekType); + if ("function" != typeof A.customSeekHandler) + throw new h.b("Custom seekType specified in config but invalid customSeekHandler!"); + this._seekHandler = new A.customSeekHandler + } + }, + g._selectLoader = function () { + if (null != this._config.customLoader) + this._loaderClass = this._config.customLoader; + else if ("m3u8" === this._config.streamType) + this._loaderClass = m; + else if (this._isWebSocketURL) + this._loaderClass = U; + else if (u.isSupported()) + this._loaderClass = u; + else if (S.isSupported()) + this._loaderClass = S; + else { + if (!l.isSupported()) + throw new h.d("Your browser doesn't support xhr with arraybuffer responseType!"); + this._loaderClass = l + } + }, + g._IsM3u8Loader = function () { + return this._loaderClass == m + }, + g._GetM3u8Loader = function () { + return this._loaderClass == m ? this._loader : null + }, + g._createLoader = function (A) { + this._loader = new this._loaderClass(this._seekHandler, this._config), + !1 === this._loader.needStashBuffer && (this._enableStash = !1), + this._loaderClass == m && this._loader.setStartPlaySecs(A), + this._loader.onContentLengthKnown = this._onContentLengthKnown.bind(this), + this._loader.onURLRedirect = this._onURLRedirect.bind(this), + this._loader.onDataArrival = this._onLoaderChunkArrival.bind(this), + this._loader.onComplete = this._onLoaderComplete.bind(this), + this._loader.onError = this._onLoaderError.bind(this) + }, + g.open = function (A) { + this._currentRange = { + from: 0, + to: -1 + }, + A && (this._currentRange.from = A), + this._speedSampler.reset(), + A || (this._fullRequestFlag = !0), + this._loader.open(this._dataSource, Object.assign({}, this._currentRange)) + }, + g.abort = function () { + this._loader.abort(), + this._paused && (this._paused = !1, this._resumeFrom = 0) + }, + g.pause = function () { + this.isWorking() && (this._loader.abort(), 0 !== this._stashUsed ? (this._resumeFrom = this._stashByteStart, this._currentRange.to = this._stashByteStart - 1) : this._resumeFrom = this._currentRange.to + 1, this._stashUsed = 0, this._stashByteStart = 0, this._paused = !0) + }, + g.resume = function () { + var A; + this._paused && (this._paused = !1, A = this._resumeFrom, this._resumeFrom = 0, this._internalSeek(A, !0)) + }, + g.seek = function (A) { + this._paused = !1, + this._stashUsed = 0, + this._stashByteStart = 0, + this._internalSeek(A, !0) + }, + g._internalSeek = function (A, M) { + this._loader.isWorking() && this._loader.abort(), + this._flushStashBuffer(M), + this._loader.destroy(), + this._loader = null; + A = { + from: A, + to: -1 + }; + this._currentRange = { + from: A.from, + to: -1 + }, + this._speedSampler.reset(), + this._stashSize = this._stashInitialSize, + this._createLoader(), + this._loader.open(this._dataSource, A), + this._onSeeked && this._onSeeked() + }, + g.updateUrl = function (A) { + if (!A || "string" != typeof A || 0 === A.length) + throw new h.b("Url must be a non-empty string!"); + this._dataSource.url = A + }, + g._expandBuffer = function (A) { + for (var M, t, g = this._stashSize; g + 1048576 < A; ) + g *= 2; + (g += 1048576) !== this._bufferSize && (M = new ArrayBuffer(g), 0 < this._stashUsed && (t = new Uint8Array(this._stashBuffer, 0, this._stashUsed), new Uint8Array(M, 0, g).set(t, 0)), this._stashBuffer = M, this._bufferSize = g) + }, + g._normalizeSpeed = function (A) { + var M, + t = this._speedNormalizeList, + g = t.length - 1, + I = 0, + e = g; + if (A < t[0]) + return t[0]; + for (; I <= e; ) { + if ((M = I + Math.floor((e - I) / 2)) === g || A >= t[M] && A < t[M + 1]) + return t[M]; + t[M] < A ? I = M + 1 : e = M - 1 + } + }, + g._adjustStashSize = function (A) { + var M = 0; + 8192 < (M = this._config.isLive || A < 512 ? A : 512 <= A && A <= 1024 ? Math.floor(1.5 * A) : 2 * A) && (M = 8192); + A = 1024 * M + 1048576; + this._bufferSize < A && this._expandBuffer(A), + this._stashSize = 1024 * M + }, + g._dispatchChunks = function (A, M) { + return null === A ? this._IsM3u8Loader() ? void(1 < M && this._onComplete && this._onComplete(-1)) : this._onDataArrival(A, M) : (this._currentRange.to = M + A.byteLength - 1, this._onDataArrival(A, M)) + }, + g._onURLRedirect = function (A) { + this._redirectedURL = A, + this._onRedirect && this._onRedirect(A) + }, + g._onContentLengthKnown = function (A) { + A && this._fullRequestFlag && (this._totalLength = A, this._fullRequestFlag = !1) + }, + g._onLoaderChunkArrival = function (A, M, t) { + if (!this._onDataArrival) + throw new h.a("IOController: No existing consumer (onDataArrival) callback!"); + var g, + I, + e, + i; + this._paused || (this._isEarlyEofReconnecting && (this._isEarlyEofReconnecting = !1, this._onRecoveredEarlyEof && this._onRecoveredEarlyEof()), null === A && t < 1 ? this._dispatchChunks(A, M) : (this._speedSampler.addBytes(A.byteLength), 0 !== (t = this._speedSampler.lastSecondKBps) && (g = this._normalizeSpeed(t), this._speedNormalized !== g && (this._speedNormalized = g, this._adjustStashSize(g))), this._enableStash ? (0 === this._stashUsed && 0 === this._stashByteStart && (this._stashByteStart = M), this._stashUsed + A.byteLength <= this._stashSize ? (new Uint8Array(this._stashBuffer, 0, this._stashSize).set(new Uint8Array(A), this._stashUsed), this._stashUsed += A.byteLength) : (t = new Uint8Array(this._stashBuffer, 0, this._bufferSize), 0 < this._stashUsed ? (g = this._stashBuffer.slice(0, this._stashUsed), (I = this._dispatchChunks(g, this._stashByteStart)) < g.byteLength ? 0 < I && (g = new Uint8Array(g, I), t.set(g, 0), this._stashUsed = g.byteLength, this._stashByteStart += I) : (this._stashUsed = 0, this._stashByteStart += I), this._stashUsed + A.byteLength > this._bufferSize && (this._expandBuffer(this._stashUsed + A.byteLength), t = new Uint8Array(this._stashBuffer, 0, this._bufferSize)), t.set(new Uint8Array(A), this._stashUsed), this._stashUsed += A.byteLength) : (e = this._dispatchChunks(A, M)) < A.byteLength && ((I = A.byteLength - e) > this._bufferSize && (this._expandBuffer(I), t = new Uint8Array(this._stashBuffer, 0, this._bufferSize)), t.set(new Uint8Array(A, e), 0), this._stashUsed += I, this._stashByteStart = M + e))) : 0 === this._stashUsed ? (i = this._dispatchChunks(A, M)) < A.byteLength && ((e = A.byteLength - i) > this._bufferSize && this._expandBuffer(e), new Uint8Array(this._stashBuffer, 0, this._bufferSize).set(new Uint8Array(A, i), 0), this._stashUsed += e, this._stashByteStart = M + i) : (this._stashUsed + A.byteLength > this._bufferSize && this._expandBuffer(this._stashUsed + A.byteLength), (M = new Uint8Array(this._stashBuffer, 0, this._bufferSize)).set(new Uint8Array(A), this._stashUsed), this._stashUsed += A.byteLength, (i = this._dispatchChunks(this._stashBuffer.slice(0, this._stashUsed), this._stashByteStart)) < this._stashUsed && 0 < i && (A = new Uint8Array(this._stashBuffer, i), M.set(A, 0)), this._stashUsed -= i, this._stashByteStart += i))) + }, + g._flushStashBuffer = function (A) { + if (0 < this._stashUsed) { + var M = this._stashBuffer.slice(0, this._stashUsed), + t = this._dispatchChunks(M, this._stashByteStart), + g = M.byteLength - t; + if (t < M.byteLength) { + if (!A) + return 0 < t && (A = new Uint8Array(this._stashBuffer, 0, this._bufferSize), M = new Uint8Array(M, t), A.set(M, 0), this._stashUsed = M.byteLength, this._stashByteStart += t), 0; + k.a.w(this.TAG, g + " bytes unconsumed data remain when flush buffer, dropped") + } + return this._stashUsed = 0, + this._stashByteStart = 0, + g + } + return 0 + }, + g._onLoaderComplete = function (A, M) { + this._flushStashBuffer(!0), + A != M || -1 != M ? this._onComplete && this._onComplete(this._extraData) : this._onComplete && this._onComplete(-1) + }, + g._onLoaderError = function (A, M) { + if (k.a.e(this.TAG, "Loader error, code = " + M.code + ", msg = " + M.msg), this._flushStashBuffer(!1), this._isEarlyEofReconnecting && (this._isEarlyEofReconnecting = !1, A = Y.UNRECOVERABLE_EARLY_EOF), A === Y.EARLY_EOF) { + if (!this._config.isLive && this._totalLength) { + var t = this._currentRange.to + 1; + return void(t < this._totalLength && (k.a.w(this.TAG, "Connection lost, trying reconnect..."), this._isEarlyEofReconnecting = !0, this._internalSeek(t, !1))) + } + A = Y.UNRECOVERABLE_EARLY_EOF + } + if (!this._onError) + throw new h.d("IOException: " + M.msg); + this._onError(A, M) + }, + M = A, + (g = [{ + key: "status", + get: function () { + return this._loader.status + } + }, { + key: "extraData", + get: function () { + return this._extraData + }, + set: function (A) { + this._extraData = A + } + }, { + key: "onDataArrival", + get: function () { + return this._onDataArrival + }, + set: function (A) { + this._onDataArrival = A + } + }, { + key: "onSeeked", + get: function () { + return this._onSeeked + }, + set: function (A) { + this._onSeeked = A + } + }, { + key: "onError", + get: function () { + return this._onError + }, + set: function (A) { + this._onError = A + } + }, { + key: "onComplete", + get: function () { + return this._onComplete + }, + set: function (A) { + this._onComplete = A + } + }, { + key: "onRedirect", + get: function () { + return this._onRedirect + }, + set: function (A) { + this._onRedirect = A + } + }, { + key: "onRecoveredEarlyEof", + get: function () { + return this._onRecoveredEarlyEof + }, + set: function (A) { + this._onRecoveredEarlyEof = A + } + }, { + key: "currentURL", + get: function () { + return this._dataSource.url + } + }, { + key: "hasRedirect", + get: function () { + return null != this._redirectedURL || null != this._dataSource.redirectedURL + } + }, { + key: "currentRedirectedURL", + get: function () { + return this._redirectedURL || this._dataSource.redirectedURL + } + }, { + key: "currentSpeed", + get: function () { + return this._loaderClass === l ? this._loader.currentSpeed : this._speedSampler.lastSecondKBps + } + }, { + key: "averageKBps", + get: function () { + return this._speedSampler.averageKBps + } + }, { + key: "loaderType", + get: function () { + return this._loader.type + } + } + ]) && F(M.prototype, g), + t && F(M, t), + A + } + (), + v = { + IO_ERROR: "io_error", + DEMUX_ERROR: "demux_error", + INIT_SEGMENT: "init_segment", + MEDIA_SEGMENT: "media_segment", + LOADING_COMPLETE: "loading_complete", + RECOVERED_EARLY_EOF: "recovered_early_eof", + MEDIA_INFO: "media_info", + METADATA_ARRIVED: "metadata_arrived", + SCRIPTDATA_ARRIVED: "scriptdata_arrived", + STATISTICS_INFO: "statistics_info", + RECOMMEND_SEEKPOINT: "recommend_seekpoint", + RECONNECT_ING: "reconnect_ing", + RECONNECT_SUCCESS: "reconnect_success" + }, + V = E(59), + W = function () { + function A(M, t) { + this.TAG = "TransmuxingController", + this._emitter = new N.a, + this._config = t, + M.segments || (M.segments = [{ + duration: M.duration, + filesize: M.filesize, + url: M.url + } + ]), + "boolean" != typeof M.cors && (M.cors = !0), + "boolean" != typeof M.withCredentials && (M.withCredentials = !1), + this._mediaDataSource = M; + var g = this._currentSegmentIndex = 0; + this._mediaDataSource.segments.forEach(function (A) { + A.timestampBase = g, + g += A.duration, + A.cors = M.cors, + A.withCredentials = M.withCredentials, + t.referrerPolicy && (A.referrerPolicy = t.referrerPolicy) + }), + isNaN(g) || this._mediaDataSource.duration === g || (this._mediaDataSource.duration = g), + this._mediaInfo = null, + this._demuxer = null, + this._remuxer = null, + this._ioctl = null, + this._pendingSeekTime = null, + this._pendingResolveSeekPoint = null, + this._statisticsReporter = null, + this._callbackMediaData = null, + this._callbackUserPtr = null, + this._isM3u8 = !1, + this._reconnectTimes = 0 + } + var M = A.prototype; + return M.destroy = function () { + this._mediaInfo = null, + this._mediaDataSource = null, + this._statisticsReporter && this._disableStatisticsReporter(), + this._ioctl && (this._ioctl.destroy(), this._ioctl = null), + this._demuxer && (this._demuxer.destroy(), this._demuxer = null), + this._remuxer && (this._remuxer.destroy(), this._remuxer = null), + this._emitter.removeAllListeners(), + this._emitter = null + }, + M.on = function (A, M) { + this._emitter.addListener(A, M) + }, + M.off = function (A, M) { + this._emitter.removeListener(A, M) + }, + M.setMediaSourceCallback = function (A, M) { + this._callbackMediaData = A, + this._callbackUserPtr = M + }, + M.start = function () { + this._loadSegment(0), + this._enableStatisticsReporter() + }, + M._loadSegment = function (A, M) { + this._currentSegmentIndex = A; + var t = this._mediaDataSource.segments[A], + A = this._ioctl = new X(t, this._config, A, this._mediaDataSource.startPlaySecs); + A.onError = this._onIOException.bind(this), + A.onSeeked = this._onIOSeeked.bind(this), + A.onComplete = this._onIOComplete.bind(this), + A.onRedirect = this._onIORedirect.bind(this), + A.onRecoveredEarlyEof = this._onIORecoveredEarlyEof.bind(this), + M ? this._demuxer.bindDataSource(this._ioctl) : A.onDataArrival = this._onInitChunkArrival.bind(this), + A.open(M), + this._isM3u8 = A._IsM3u8Loader() + }, + M.stop = function () { + this._internalAbort(), + this._disableStatisticsReporter() + }, + M._internalAbort = function () { + this._ioctl && (this._ioctl.destroy(), this._ioctl = null) + }, + M.pauseOrResume = function (A) { + null != this._demuxer && (this._isM3u8 || (A ? this._demuxer.pause() : (this._remuxer.seek(0), this._demuxer.resume()))) + }, + M.pause = function () { + this._ioctl && this._ioctl.isWorking() && (this._ioctl.pause(), this._disableStatisticsReporter()) + }, + M.resume = function () { + this._ioctl && this._ioctl.isPaused() && (this._ioctl.resume(), this._enableStatisticsReporter()) + }, + M.changeSpeed = function (A) { + this._remuxer && this._remuxer.changeSpeed(A) + }, + M.seekToSecs = function (A, M) { + var t = this._ioctl._GetM3u8Loader(); + t && (t.seek(A, M), this._demuxer && this._demuxer.resetMediaPts(1)), + this._remuxer && this._remuxer.seek(0), + t && this._demuxer && this._demuxer.resetMediaPts(0) + }, + M.seek = function (A) { + var M, + t, + g; + null != this._mediaInfo && this._mediaInfo.isSeekable() && ((M = this._searchSegmentIndexContains(A)) === this._currentSegmentIndex ? null == (t = this._mediaInfo.segments[M]) ? this._pendingSeekTime = A : (g = t.getNearestKeyframe(A), this._remuxer.seek(g.milliseconds), this._ioctl.seek(g.fileposition), this._pendingResolveSeekPoint = g.milliseconds) : null == (g = this._mediaInfo.segments[M]) ? (this._pendingSeekTime = A, this._internalAbort(), this._remuxer.seek(), this._remuxer.insertDiscontinuity(), this._loadSegment(M)) : (g = g.getNearestKeyframe(A), this._internalAbort(), this._remuxer.seek(A), this._remuxer.insertDiscontinuity(), this._demuxer.resetMediaInfo(), this._demuxer.timestampBase = this._mediaDataSource.segments[M].timestampBase, this._loadSegment(M, g.fileposition), this._pendingResolveSeekPoint = g.milliseconds, this._reportSegmentMediaInfo(M)), this._enableStatisticsReporter()) + }, + M._searchSegmentIndexContains = function (A) { + for (var M = this._mediaDataSource.segments, t = M.length - 1, g = 0; g < M.length; g++) + if (A < M[g].timestampBase) { + t = g - 1; + break + } + return t + }, + M._onInitChunkArrival = function (A, M) { + var t = this; + if (this._isM3u8) { + if (null == A && M < 0) + this._emitter.emit(v.RECONNECT_ING, M); + else if (!(null == A && 0 < M)) + return 0 < M ? (this._demuxer.bindDataSource(this._ioctl), this._demuxer.timestampBase = this._mediaDataSource.segments[this._currentSegmentIndex].timestampBase) : (this._demuxer = new V.a(this._config, this._callbackMediaData, this._callbackUserPtr), this._remuxer || (this._remuxer = new y(this._config)), null == (g = this._mediaDataSource).duration || isNaN(g.duration) || (this._demuxer.overridedDuration = g.duration), "boolean" == typeof g.hasAudio && (this._demuxer.overridedHasAudio = g.hasAudio), "boolean" == typeof g.hasVideo && (this._demuxer.overridedHasVideo = g.hasVideo), this._demuxer.timestampBase = g.segments[this._currentSegmentIndex].timestampBase, this._demuxer.onError = this._onDemuxException.bind(this), this._demuxer.onMediaInfo = this._onMediaInfo.bind(this), this._demuxer.onMetaDataArrived = this._onMetaDataArrived.bind(this), this._demuxer.onScriptDataArrived = this._onScriptDataArrived.bind(this), this._remuxer.bindDataSource(this._demuxer.bindDataSource(this._ioctl)), this._remuxer.onInitSegment = this._onRemuxerInitSegmentArrival.bind(this), this._remuxer.onMediaSegment = this._onRemuxerMediaSegmentArrival.bind(this)), this._demuxer.append(A, M, 0), A.length + } else { + var g, + I = null, + e = 0; + if (null == A && M < 0) + this._emitter.emit(v.RECONNECT_ING, M); + else if (!(null == A && 0 < M)) + return 0 < M ? (this._demuxer.bindDataSource(this._ioctl), this._demuxer.timestampBase = this._mediaDataSource.segments[this._currentSegmentIndex].timestampBase, e = this._demuxer.parseChunks(A, M)) : (I = o.a.probe(A)).match ? (this._demuxer = new o.a(I, this._config, this._callbackMediaData, this._callbackUserPtr), this._remuxer || (this._remuxer = new y(this._config)), null == (g = this._mediaDataSource).duration || isNaN(g.duration) || (this._demuxer.overridedDuration = g.duration), "boolean" == typeof g.hasAudio && (this._demuxer.overridedHasAudio = g.hasAudio), "boolean" == typeof g.hasVideo && (this._demuxer.overridedHasVideo = g.hasVideo), this._demuxer.timestampBase = g.segments[this._currentSegmentIndex].timestampBase, this._demuxer.onError = this._onDemuxException.bind(this), this._demuxer.onMediaInfo = this._onMediaInfo.bind(this), this._demuxer.onMetaDataArrived = this._onMetaDataArrived.bind(this), this._demuxer.onScriptDataArrived = this._onScriptDataArrived.bind(this), this._remuxer.bindDataSource(this._demuxer.bindDataSource(this._ioctl)), this._remuxer.onInitSegment = this._onRemuxerInitSegmentArrival.bind(this), this._remuxer.onMediaSegment = this._onRemuxerMediaSegmentArrival.bind(this), e = this._demuxer.parseChunks(A, M), this._reconnectTimes++, 0 < this._reconnectTimes && this._emitter.emit(v.RECONNECT_SUCCESS, this._reconnectTimes)) : (I = null, k.a.e(this.TAG, "Non-FLV, Unsupported media type!"), Promise.resolve().then(function () { + t._internalAbort() + }), this._emitter.emit(v.DEMUX_ERROR, w.a.FORMAT_UNSUPPORTED, "Non-FLV, Unsupported media type"), e = 0), e + } + }, + M._GetM3u8Loader = function () { + if (null == this._ioctl) + return null; + var A = this._ioctl._GetM3u8Loader(); + return A || null + }, + M._GetM3u8TotalDuration = function () { + if (null == this._ioctl) + return 0; + var A = this._ioctl._GetM3u8Loader(); + return A ? A.GetM3u8TotalDuration() : 0 + }, + M._onMediaInfo = function (A) { + var M = this; + null == this._mediaInfo && (this._mediaInfo = Object.assign({}, A), this._mediaInfo.keyframesIndex = null, this._mediaInfo.segments = [], this._mediaInfo.segmentCount = this._mediaDataSource.segments.length, Object.setPrototypeOf(this._mediaInfo, c.a.prototype)); + A = Object.assign({}, A); + Object.setPrototypeOf(A, c.a.prototype), + this._mediaInfo.segments[this._currentSegmentIndex] = A, + this._reportSegmentMediaInfo(this._currentSegmentIndex), + null != this._pendingSeekTime && Promise.resolve().then(function () { + var A = M._pendingSeekTime; + M._pendingSeekTime = null, + M.seek(A) + }) + }, + M._onMetaDataArrived = function (A) { + this._emitter.emit(v.METADATA_ARRIVED, A) + }, + M._onScriptDataArrived = function (A) { + this._emitter.emit(v.SCRIPTDATA_ARRIVED, A) + }, + M._onIOSeeked = function () { + this._remuxer.insertDiscontinuity() + }, + M._onIOComplete = function (A) { + var M, + t, + g = A + 1; + this._ioctl && this._ioctl._IsM3u8Loader() ? (this._ioctl._GetM3u8Loader(), R.d() && (this._emitter.emit(v.RECONNECT_SUCCESS, 2), this._demuxer && (this._demuxer.destroy(), this._demuxer = null), this._remuxer && (this._remuxer.destroy(), this._remuxer = null), this._ioctl && (this._ioctl.destroy(), this._ioctl = null), this.start())) : g < this._mediaDataSource.segments.length ? (this._internalAbort(), this._remuxer && this._remuxer.flushStashedSamples(), -1 === A && (this._demuxer && (this._demuxer.destroy(), this._demuxer = null), this._remuxer && (this._remuxer.destroy(), this._remuxer = null), this._ioctl && (this._ioctl.destroy(), this._ioctl = null), M = this, R.j(3e3).then(function () { + M.start() + }))) : (this._remuxer && (this._remuxer.flushStashedSamples(), this._emitter.emit(v.LOADING_COMPLETE), this._disableStatisticsReporter()), -1 === A && (this._demuxer && (this._demuxer.destroy(), this._demuxer = null), this._remuxer && (this._remuxer.destroy(), this._remuxer = null), this._ioctl && (this._ioctl.destroy(), this._ioctl = null), t = this, R.j(3e3).then(function () { + t.start() + }))) + }, + M._onIORedirect = function (A) { + var M = this._ioctl.extraData; + this._mediaDataSource.segments[M].redirectedURL = A + }, + M._onIORecoveredEarlyEof = function () { + this._emitter.emit(v.RECOVERED_EARLY_EOF) + }, + M._onIOException = function (A, M) { + k.a.e(this.TAG, "IOException: type = " + A + ", code = " + M.code + ", msg = " + M.msg), + this._emitter.emit(v.IO_ERROR, A, M), + this._disableStatisticsReporter() + }, + M._onDemuxException = function (A, M) { + k.a.e(this.TAG, "DemuxException: type = " + A + ", info = " + M), + this._emitter.emit(v.DEMUX_ERROR, A, M) + }, + M._onRemuxerInitSegmentArrival = function (A, M) { + this._emitter.emit(v.INIT_SEGMENT, A, M) + }, + M._onRemuxerMediaSegmentArrival = function (A, M) { + null == this._pendingSeekTime && (this._emitter.emit(v.MEDIA_SEGMENT, A, M), null != this._pendingResolveSeekPoint && "video" === A && (A = M.info.syncPoints, M = this._pendingResolveSeekPoint, this._pendingResolveSeekPoint = null, p.safari && 0 < A.length && A[0].originalDts === M && (M = A[0].pts), this._emitter.emit(v.RECOMMEND_SEEKPOINT, M))) + }, + M._enableStatisticsReporter = function () { + null == this._statisticsReporter && (this._statisticsReporter = self.setInterval(this._reportStatisticsInfo.bind(this), this._config.statisticsInfoReportInterval)) + }, + M._disableStatisticsReporter = function () { + this._statisticsReporter && (self.clearInterval(this._statisticsReporter), this._statisticsReporter = null) + }, + M._reportSegmentMediaInfo = function (A) { + A = this._mediaInfo.segments[A], + A = Object.assign({}, A); + A.duration = this._mediaInfo.duration, + A.segmentCount = this._mediaInfo.segmentCount, + delete A.segments, + delete A.keyframesIndex, + this._emitter.emit(v.MEDIA_INFO, A) + }, + M._reportStatisticsInfo = function () { + var A = {}; + null != this._ioctl && (A.url = this._ioctl.currentURL, A.hasRedirect = this._ioctl.hasRedirect, A.hasRedirect && (A.redirectedURL = this._ioctl.currentRedirectedURL), A.speed = this._ioctl.currentSpeed, A.loaderType = this._ioctl.loaderType, A.currentSegmentIndex = this._currentSegmentIndex, A.totalSegmentCount = this._mediaDataSource.segments.length, this._emitter.emit(v.STATISTICS_INFO, A)) + }, + A + } + (), + C = function () { + function A() {} + return A.install = function () { + Object.setPrototypeOf = Object.setPrototypeOf || function (A, M) { + return A.__proto__ = M, + A + }, + Object.assign = Object.assign || function (A) { + if (null == A) + throw new TypeError("Cannot convert undefined or null to object"); + for (var M = Object(A), t = 1; t < arguments.length; t++) { + var g = arguments[t]; + if (null != g) + for (var I in g) + g.hasOwnProperty(I) && (M[I] = g[I]) + } + return M + }, + "function" != typeof self.Promise && E(114).polyfill() + }, + A + } + (); + C.install(); + function P(t) { + var g = null, + I = function (A, M) { + t.postMessage({ + msg: "logcat_callback", + data: { + type: A, + logcat: M + } + }) + } + .bind(this); + Z.install(), + t.addEventListener("message", function (A) { + switch (A.data.cmd) { + case "init": + (g = new W(A.data.param[0], A.data.param[1])).on(v.IO_ERROR, function (A, M) { + t.postMessage({ + msg: v.IO_ERROR, + data: { + type: A, + info: M + } + }) + } + .bind(this)), + g.on(v.DEMUX_ERROR, function (A, M) { + t.postMessage({ + msg: v.DEMUX_ERROR, + data: { + type: A, + info: M + } + }) + } + .bind(this)), + g.on(v.INIT_SEGMENT, function (A, M) { + A = { + msg: v.INIT_SEGMENT, + data: { + type: A, + data: M + } + }; + t.postMessage(A, [M.data]) + } + .bind(this)), + g.on(v.MEDIA_SEGMENT, function (A, M) { + A = { + msg: v.MEDIA_SEGMENT, + data: { + type: A, + data: M + } + }; + t.postMessage(A, [M.data]) + } + .bind(this)), + g.on(v.LOADING_COMPLETE, function () { + var A = { + msg: v.LOADING_COMPLETE + }; + t.postMessage(A) + } + .bind(this)), + g.on(v.RECOVERED_EARLY_EOF, function () { + var A = { + msg: v.RECOVERED_EARLY_EOF + }; + t.postMessage(A) + } + .bind(this)), + g.on(v.MEDIA_INFO, function (A) { + A = { + msg: v.MEDIA_INFO, + data: A + }; + t.postMessage(A) + } + .bind(this)), + g.on(v.METADATA_ARRIVED, function (A) { + A = { + msg: v.METADATA_ARRIVED, + data: A + }; + t.postMessage(A) + } + .bind(this)), + g.on(v.SCRIPTDATA_ARRIVED, function (A) { + A = { + msg: v.SCRIPTDATA_ARRIVED, + data: A + }; + t.postMessage(A) + } + .bind(this)), + g.on(v.STATISTICS_INFO, function (A) { + A = { + msg: v.STATISTICS_INFO, + data: A + }; + t.postMessage(A) + } + .bind(this)), + g.on(v.RECOMMEND_SEEKPOINT, function (A) { + t.postMessage({ + msg: v.RECOMMEND_SEEKPOINT, + data: A + }) + } + .bind(this)); + break; + case "destroy": + g && (g.destroy(), g = null), + t.postMessage({ + msg: "destroyed" + }); + break; + case "start": + g.start(); + break; + case "stop": + g.stop(); + break; + case "seek": + g.seek(A.data.param); + break; + case "pause": + g.pause(); + break; + case "resume": + g.resume(); + break; + case "logging_config": + var M = A.data.param; + r.applyConfig(M), + !0 === M.enableCallback ? r.addLogListener(I) : r.removeLogListener(I) + } + }) + } + var Z = C, + K = { + ERROR: "error", + SOURCE_OPEN: "source_open", + UPDATE_END: "update_end", + BUFFER_FULL: "buffer_full", + CB_PLAY_INFO: "play_info", + CHANGE_SPEED: "change_speed" + }, + q = function () { + function A(M, t, A, g, I, e, i) { + this.TAG = "Transmuxer", + this._emitter = new N.a, + this._config = t, + this.soundPlayer = null, + this._webGLPlayer = null, + this._mediaCanvas = A, + this.pauseDisplay = !1, + this.enableAudio = !1, + this.audioFmt = 0, + this.audioSamplerate = 0, + this.audioChannelNum = 2, + this.initAudioPlayer = !1, + this.totalDuration = 0, + this.initDuration = 0, + this.currentPlayTime = 0, + "m3u8" === M.type && (this.currentPlayTime = M.startPlaySecs); + A = navigator.userAgent; + this.isAndroid = -1 < A.indexOf("Android") || -1 < A.indexOf("Adr"), + this.isiOS = !!A.match(/\(i[^;]+;( U;)? CPU.+Mac OS X/), + this.isiPad = !1; + A = navigator.userAgent; + if (("iPad" == A.match(/iPad/i) || -1 < A.indexOf("Macintosh;") && A.indexOf("AppleWebKit/")) && (this.isiPad = !0), this._callbackUserPtr = g, this._callbackWasmTypePtr = I, this._callbackVideoTimestampPtr = e, this._callbackParentUserPtr = i, t.enableWorker && "undefined" != typeof Worker) + try { + var T = E(115); + this._worker = T(P), + this._workerDestroying = !1, + this._worker.addEventListener("message", this._onWorkerMessage.bind(this)), + this._worker.postMessage({ + cmd: "init", + param: [M, t] + }), + this.e = { + onLoggingConfigChanged: this._onLoggingConfigChanged.bind(this) + }, + r.registerListener(this.e.onLoggingConfigChanged), + this._worker.postMessage({ + cmd: "logging_config", + param: r.getConfig() + }) + } catch (A) { + k.a.e(this.TAG, "Error while initialize transmuxing worker, fallback to inline transmuxing"), + this._worker = null, + this._controller = new W(M, t) + } + else + this._controller = new W(M, t); + this._controller && ((i = this._controller).on(v.IO_ERROR, this._onIOError.bind(this)), i.on(v.DEMUX_ERROR, this._onDemuxError.bind(this)), i.on(v.INIT_SEGMENT, this._onInitSegment.bind(this)), i.on(v.MEDIA_SEGMENT, this._onMediaSegment.bind(this)), i.on(v.LOADING_COMPLETE, this._onLoadingComplete.bind(this)), i.on(v.RECOVERED_EARLY_EOF, this._onRecoveredEarlyEof.bind(this)), i.on(v.MEDIA_INFO, this._onMediaInfo.bind(this)), i.on(v.METADATA_ARRIVED, this._onMetaDataArrived.bind(this)), i.on(v.SCRIPTDATA_ARRIVED, this._onScriptDataArrived.bind(this)), i.on(v.STATISTICS_INFO, this._onStatisticsInfo.bind(this)), i.on(v.RECOMMEND_SEEKPOINT, this._onRecommendSeekpoint.bind(this)), i.on(v.RECONNECT_ING, this._onReconnecting.bind(this)), i.on(v.RECONNECT_SUCCESS, this._onReconnectSuccess.bind(this))) + } + var M = A.prototype; + return M.destroy = function () { + this._worker ? this._workerDestroying || (this._workerDestroying = !0, this._worker.postMessage({ + cmd: "destroy" + }), r.removeListener(this.e.onLoggingConfigChanged), this.e = null) : (this._controller.destroy(), this._controller = null), + this._emitter.removeAllListeners(), + this._emitter = null, + this.soundPlayer && (this.soundPlayer.destroy(), delete this.soundPlayer, this.soundPlayer = null) + }, + M.on = function (A, M) { + this._emitter.addListener(A, M) + }, + M.off = function (A, M) { + this._emitter.removeListener(A, M) + }, + M.hasWorker = function () { + return null != this._worker + }, + M.OpenAudioPlayer = function (A, M, t) { + var g; + null == this.soundPlayer && (g = g = "16bitInt", this.soundPlayer = new e.a, this.soundPlayer.init({ + encoding: g, + channels: M, + sampleRate: t, + flushingTime: 1e3 + }), this.initAudioPlayer = !0) + }, + M.createDecodeWorker = function () { + var A; + if (this.decodeWorker = null, "undefined" != typeof Worker) + try { + A = this.decodeWorker = I(61), + this.onwmsg = this.onWorkerMessage.bind(this); + var M = { + cmd: R.v, + url: R.g(), + isFlv: !this._controller._isM3u8 + }; + A.postMessage(M), + A.addEventListener("message", this.onwmsg), + A.onerror = function (A) {} + } catch (A) { + this.w = void 0 + } + else + this.decodeWorker = null; + this.decodeWorker && null == this._webGLPlayer && (this._webGLPlayer = new t(this._mediaCanvas), this._webGLPlayer.initGL({ + preserveDrawingBuffer: !1 + })) + }, + M.getCurrentPlayTime = function () { + return this.currentPlayTime + }, + M.getTotalDuration = function () { + return this._controller ? this._controller._GetM3u8TotalDuration() : this.totalDuration + }, + M._onMediaDataCallback = function (A, M, t, g, I, e, i, T, E, N) { + g < 1 && !M && 1 === i || (1 == t && 0 < T && A._callbackVideoTimestampPtr(A._callbackParentUserPtr, T), M ? (null == A.decodeWorker && (A.createDecodeWorker(), A._callbackWasmTypePtr && A._callbackWasmTypePtr(A._callbackUserPtr, !0)), e = new Uint8Array(e), A.decodeWorker && (e = { + cmd: R.p, + mediaType: t, + codecId: g, + frameType: I, + samplerate: T, + channelNum: E, + bitPerSample: N, + playTimeSec: T, + dat: e + }, A.decodeWorker.postMessage(e, [e.dat.buffer]))) : A._callbackWasmTypePtr && 0 == T && A._callbackWasmTypePtr(A._callbackUserPtr, !1)) + }, + M.onWorkerMessage = function (A) { + var M = A.data; + switch (M.cmd) { + case R.o: + var t = { + cmd: R.x + }; + this.downloadWorker.postMessage(t); + break; + case R.l: + M.workerId == R.b ? (this.downloadWorker.terminate(), this.downloadWorker = null) : M.workerId == R.a ? (this.decodeWorker.terminate(), this.decodeWorker = null, this.soundPlayer && (this.soundPlayer.destroy(), delete this.soundPlayer, this.soundPlayer = null), this._webGLPlayer && this._webGLPlayer.renderVideoFrame(null, 0, 0)) : M.workerId == R.f && (this.renderWorker.terminate(), this.renderWorker = null); + break; + case R.n: + this.enableAudio && this.openAudio(); + break; + case R.p: + if (M.workerId == R.b) + this.decodeWorker; + else if (M.workerId == R.a) { + if (this.pauseDisplay) + break; + 1 == M.mediaType ? (this._mediaCanvas.width = M.width, this._mediaCanvas.height = M.height, 0 < M.playTimeSec && (t = Math.floor((M.playTimeSec + 1e3) / 1e3), this.currentPlayTime !== t && (0 < this.initDuration && (this.currentPlayTime += t - this.initDuration), this.initDuration !== t && (this.initDuration = t, this._emitter && this._emitter.emit(K.CB_PLAY_INFO)))), this._webGLPlayer.renderVideoFrame(M.dat, M.width, M.height)) : 2 == M.mediaType && (null == this.soundPlayer && (null != this.soundPlayer || this.isiOS || this.isiPad ? (this.audioFmt = M.fmt, this.audioSamplerate = M.samplerate, this.audioChannelNum = M.ch, 44100 == this.audioSamplerate && (this.audioFmt = 1)) : this.OpenAudioPlayer(M.fmt, 16e3 <= M.samplerate ? 2 : M.ch, M.samplerate)), this.enableAudio && this.soundPlayer && this.initAudioPlayer && this.soundPlayer.play(M.dat)) + } + break; + case R.m: + 0 < this.avQueue.length && this.pauseDisplay + } + }, + M.openAudio = function () { + var A = { + cmd: R.u + }; + if (this.decodeWorker && void 0 !== this.decodeWorker && this.decodeWorker.postMessage(A), this.enableAudio = !0, null == this.soundPlayer && (this.isiOS || this.isiPad)) { + if (!(0 < this.audioSamplerate)) + return !1; + this.OpenAudioPlayer(this.audioFmt, 16e3 <= this.audioSamplerate ? 2 : this.audioChannelNum, this.audioSamplerate) + } + return !0 + }, + M.closeAudio = function () { + var A = { + cmd: R.k + }; + return this.decodeWorker && void 0 !== this.decodeWorker && this.decodeWorker.postMessage(A), + this.soundPlayer && this.initAudioPlayer && this.soundPlayer.clearAudioBuffer(), + !(this.enableAudio = !1) + }, + M.open = function () { + this._worker ? this._worker.postMessage({ + cmd: "start" + }) : (this._controller.setMediaSourceCallback(this._onMediaDataCallback, this), this._controller.start()) + }, + M.close = function () { + var A = { + cmd: R.l + }; + this.decodeWorker && void 0 !== this.decodeWorker && this.decodeWorker.postMessage(A), + this._webGLPlayer && this._webGLPlayer.renderVideoFrame(null, 0, 0), + this._worker ? this._worker.postMessage({ + cmd: "stop" + }) : this._controller.stop() + }, + M.changeSpeed = function (A) { + this._controller && this._controller.changeSpeed(A) + }, + M.seekToSecs = function (A, M) { + var t = { + cmd: R.A, + type: M, + time: A + }; + this.decodeWorker && void 0 !== this.decodeWorker && this.decodeWorker.postMessage(t), + this._controller.seekToSecs(A, M) + }, + M.seek = function (A) { + this._worker ? this._worker.postMessage({ + cmd: "seek", + param: A + }) : this._controller.seek(A) + }, + M.isPaused = function () { + return this.pauseDisplay + }, + M.pause = function () { + this.pauseDisplay = !0; + var A = { + cmd: R.w + }; + this.decodeWorker && void 0 !== this.decodeWorker && this.decodeWorker.postMessage(A), + this._controller && ((A = this._controller._GetM3u8Loader()) ? A.pause() : this._controller.pauseOrResume(!0)), + this._worker && this._worker.postMessage({ + cmd: "pause" + }) + }, + M.resume = function () { + this.pauseDisplay = !1; + var A = { + cmd: R.z + }; + this.decodeWorker && void 0 !== this.decodeWorker && this.decodeWorker.postMessage(A), + this._controller && ((A = this._controller._GetM3u8Loader()) ? A.resume() : this._controller.pauseOrResume(!1)), + this._worker ? this._worker.postMessage({ + cmd: "resume" + }) : this._controller.resume() + }, + M._onReconnecting = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.RECONNECT_ING, A) + }) + }, + M._onReconnectSuccess = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.RECONNECT_SUCCESS, A) + }) + }, + M._onInitSegment = function (A, M) { + var t = this; + Promise.resolve().then(function () { + t._emitter.emit(v.INIT_SEGMENT, A, M) + }) + }, + M._onMediaSegment = function (A, M) { + var t = this; + Promise.resolve().then(function () { + t._emitter.emit(v.MEDIA_SEGMENT, A, M) + }) + }, + M._onLoadingComplete = function () { + var A = this; + Promise.resolve().then(function () { + A._emitter.emit(v.LOADING_COMPLETE) + }) + }, + M._onRecoveredEarlyEof = function () { + var A = this; + Promise.resolve().then(function () { + A._emitter.emit(v.RECOVERED_EARLY_EOF) + }) + }, + M._onMediaInfo = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.MEDIA_INFO, A) + }) + }, + M._onMetaDataArrived = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.METADATA_ARRIVED, A) + }) + }, + M._onScriptDataArrived = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.SCRIPTDATA_ARRIVED, A) + }) + }, + M._onStatisticsInfo = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.STATISTICS_INFO, A) + }) + }, + M._onIOError = function (A, M) { + var t = this; + Promise.resolve().then(function () { + t._emitter.emit(v.IO_ERROR, A, M) + }) + }, + M._onDemuxError = function (A, M) { + var t = this; + Promise.resolve().then(function () { + t._emitter.emit(v.DEMUX_ERROR, A, M) + }) + }, + M._onRecommendSeekpoint = function (A) { + var M = this; + Promise.resolve().then(function () { + M._emitter.emit(v.RECOMMEND_SEEKPOINT, A) + }) + }, + M._onLoggingConfigChanged = function (A) { + this._worker && this._worker.postMessage({ + cmd: "logging_config", + param: A + }) + }, + M._onWorkerMessage = function (A) { + var M = A.data, + t = M.data; + if ("destroyed" === M.msg || this._workerDestroying) + return this._workerDestroying = !1, this._worker.terminate(), void(this._worker = null); + switch (M.msg) { + case v.INIT_SEGMENT: + case v.MEDIA_SEGMENT: + this._emitter.emit(M.msg, t.type, t.data); + break; + case v.LOADING_COMPLETE: + case v.RECOVERED_EARLY_EOF: + this._emitter.emit(M.msg); + break; + case v.MEDIA_INFO: + Object.setPrototypeOf(t, c.a.prototype), + this._emitter.emit(M.msg, t); + break; + case v.METADATA_ARRIVED: + case v.SCRIPTDATA_ARRIVED: + case v.STATISTICS_INFO: + this._emitter.emit(M.msg, t); + break; + case v.IO_ERROR: + case v.DEMUX_ERROR: + this._emitter.emit(M.msg, t.type, t.info); + break; + case v.RECOMMEND_SEEKPOINT: + this._emitter.emit(M.msg, t); + break; + case "logcat_callback": + k.a.emitter.emit("log", t.type, t.logcat) + } + }, + A + } + (), + _ = function () { + function A(A) { + this.TAG = "MSEController", + this._config = A, + this._emitter = new N.a, + this._currentPlayTime = 0, + this._hlsSeekTime = 0, + this._lastPlayTime = 0, + this._pause = !1, + this._config.isLive && null == this._config.autoCleanupSourceBuffer && (this._config.autoCleanupSourceBuffer = !0), + this.e = { + onSourceOpen: this._onSourceOpen.bind(this), + onSourceEnded: this._onSourceEnded.bind(this), + onSourceClose: this._onSourceClose.bind(this), + onSourceBufferError: this._onSourceBufferError.bind(this), + onSourceBufferUpdateEnd: this._onSourceBufferUpdateEnd.bind(this) + }, + this._mediaSource = null, + this._mediaSourceObjectURL = null, + this._mediaElement = null, + this._isBufferFull = !1, + this._hasPendingEos = !1, + this._seek = !1, + this._requireSetMediaDuration = !1, + this._pendingMediaDuration = 0, + this._pendingSourceBufferInit = [], + this._mimeTypes = { + video: null, + audio: null + }, + this._sourceBuffers = { + video: null, + audio: null + }, + this._lastInitSegments = { + video: null, + audio: null + }, + this._pendingSegments = { + video: [], + audio: [] + }, + this._pendingRemoveRanges = { + video: [], + audio: [] + }, + this._idrList = new Q + } + var M = A.prototype; + return M.destroy = function () { + (this._mediaElement || this._mediaSource) && this.detachMediaElement(), + this.e = null, + this._emitter.removeAllListeners(), + this._emitter = null + }, + M.on = function (A, M) { + this._emitter.addListener(A, M) + }, + M.off = function (A, M) { + this._emitter.removeListener(A, M) + }, + M.setSeekPlayTime = function (A) { + this._mediaElement && (this._lastPlayTime = Math.floor(this._mediaElement.currentTime)), + this._hlsSeekTime = A + }, + M.pause = function () { + this._pause = !0 + }, + M.resume = function () { + this._pause = !1 + }, + M.attachMediaElement = function (M) { + if (this._mediaSource) + throw new h.a("MediaSource has been attached to an HTMLMediaElement!"); + var A = this._mediaSource = new window.MediaSource; + A.addEventListener("sourceopen", this.e.onSourceOpen), + A.addEventListener("sourceended", this.e.onSourceEnded), + A.addEventListener("sourceclose", this.e.onSourceClose), + this._mediaElement = M, + this._mediaSourceObjectURL = window.URL.createObjectURL(this._mediaSource), + M.src = this._mediaSourceObjectURL; + var t = this; + M.addEventListener("timeupdate", function () { + var A = Math.floor(M.currentTime); + 0 < t._hlsSeekTime && (A = A - t._lastPlayTime + t._hlsSeekTime), + t._currentPlayTime != A && (t._currentPlayTime = A, t._emitter && t._emitter.emit(K.CB_PLAY_INFO)) + }, !1), + M.addEventListener("pause", function () {}), + M.addEventListener("play", function () {}) + }, + M.getCurrentPlayTime = function () { + return this._currentPlayTime + }, + M.getTotalDuration = function () { + return this._mediaElement.duration + }, + M.detachMediaElement = function () { + if (this._mediaSource) { + var A, + M = this._mediaSource; + for (A in this._sourceBuffers) { + var t = this._pendingSegments[A]; + t.splice(0, t.length), + this._pendingSegments[A] = null, + this._pendingRemoveRanges[A] = null, + this._lastInitSegments[A] = null; + var g = this._sourceBuffers[A]; + if (g) { + if ("closed" !== M.readyState) { + try { + M.removeSourceBuffer(g) + } catch (A) { + k.a.e(this.TAG, A.message) + } + g.removeEventListener("error", this.e.onSourceBufferError), + g.removeEventListener("updateend", this.e.onSourceBufferUpdateEnd) + } + this._mimeTypes[A] = null, + this._sourceBuffers[A] = null + } + } + if ("open" === M.readyState) + try { + M.endOfStream() + } catch (A) { + k.a.e(this.TAG, A.message) + } + M.removeEventListener("sourceopen", this.e.onSourceOpen), + M.removeEventListener("sourceended", this.e.onSourceEnded), + M.removeEventListener("sourceclose", this.e.onSourceClose), + this._pendingSourceBufferInit = [], + this._isBufferFull = !1, + this._idrList.clear(), + this._mediaSource = null + } + this._mediaElement && (this._mediaElement.src = "", this._mediaElement.removeAttribute("src"), this._mediaElement = null), + this._mediaSourceObjectURL && (window.URL.revokeObjectURL(this._mediaSourceObjectURL), this._mediaSourceObjectURL = null) + }, + M.appendInitSegment = function (A, M) { + if (!this._mediaSource || "open" !== this._mediaSource.readyState) + return this._pendingSourceBufferInit.push(A), void this._pendingSegments[A.type].push(A); + var t = A, + g = "" + t.container; + t.codec && 0 < t.codec.length && (g += ";codecs=" + t.codec); + A = !1; + if (k.a.v(this.TAG, "Received Initialization Segment, mimeType: " + g), this._lastInitSegments[t.type] = t, g !== this._mimeTypes[t.type]) { + if (this._mimeTypes[t.type]) + k.a.v(this.TAG, "Notice: " + t.type + " mimeType changed, origin: " + this._mimeTypes[t.type] + ", target: " + g); + else { + A = !0; + try { + var I = this._sourceBuffers[t.type] = this._mediaSource.addSourceBuffer(g); + I.addEventListener("error", this.e.onSourceBufferError), + I.addEventListener("updateend", this.e.onSourceBufferUpdateEnd) + } catch (A) { + return k.a.e(this.TAG, A.message), + void this._emitter.emit(K.ERROR, { + code: A.code, + msg: A.message + }) + } + } + this._mimeTypes[t.type] = g + } + M || this._pendingSegments[t.type].push(t), + A || this._sourceBuffers[t.type] && !this._sourceBuffers[t.type].updating && this._doAppendSegments(), + p.safari && "audio/mpeg" === t.container && 0 < t.mediaDuration && (this._requireSetMediaDuration = !0, this._pendingMediaDuration = t.mediaDuration / 1e3, this._updateMediaSourceDuration()) + }, + M.appendMediaSegment = function (A) { + this._pendingSegments[A.type].push(A), + (this._config.autoCleanupSourceBuffer && this._needCleanupSourceBuffer() || this._seek) && (this._doCleanupSourceBuffer(), this._seek = !1); + A = this._sourceBuffers[A.type]; + !A || A.updating || this._hasPendingRemoveRanges() || this._doAppendSegments() + }, + M.reset = function (A) { + for (var M in this._sourceBuffers) { + var t = this._sourceBuffers[M]; + if (t) { + for (var g = t.buffered, I = !1, e = 0; e < g.length; e++) { + var i = g.start(e), + T = g.end(e), + I = !0; + this._pendingRemoveRanges[M].push({ + start: i, + end: T + }) + } + I && !t.updating && this._doRemoveRanges() + } + } + this._mediaElement.currentTime = 1, + A && this._mediaElement.play() + }, + M.seek = function (A) { + for (var M in this._sourceBuffers) + if (this._sourceBuffers[M]) { + var t = this._sourceBuffers[M]; + if ("open" === this._mediaSource.readyState) + try { + t.abort() + } catch (A) { + k.a.e(this.TAG, A.message) + } + this._idrList.clear(); + var g = this._pendingSegments[M]; + if (g.splice(0, g.length), "closed" !== this._mediaSource.readyState) { + for (var I = 0; I < t.buffered.length; I++) { + var e = t.buffered.start(I), + i = t.buffered.end(I); + this._pendingRemoveRanges[M].push({ + start: e, + end: i + }) + } + t.updating || this._doRemoveRanges(), + !p.safari || (g = this._lastInitSegments[M]) && (this._pendingSegments[M].push(g), t.updating || this._doAppendSegments()) + } + } + }, + M.endOfStream = function () { + var A = this._mediaSource, + M = this._sourceBuffers; + A && "open" === A.readyState ? M.video && M.video.updating || M.audio && M.audio.updating ? this._hasPendingEos = !0 : (this._hasPendingEos = !1, A.endOfStream()) : A && "closed" === A.readyState && this._hasPendingSegments() && (this._hasPendingEos = !0) + }, + M.getNearestKeyframe = function (A) { + return this._idrList.getLastSyncPointBeforeDts(A) + }, + M._needCleanupSourceBuffer = function () { + if (!this._config.autoCleanupSourceBuffer) + return !1; + var A, + M = this._mediaElement.currentTime; + for (A in this._sourceBuffers) { + var t = this._sourceBuffers[A]; + if (t) { + t = t.buffered; + if (1 <= t.length && M - t.start(0) >= this._config.autoCleanupMaxBackwardDuration) + return !0 + } + } + return !1 + }, + M.AdjustPlayTimeToEnd = function () { + if (null != this._emitter && null != this._emitter) { + var A, + M, + t = this._mediaElement.currentTime; + for (A in this._sourceBuffers) + "video" === A && (!(M = this._sourceBuffers[A]) || M.updating || 0 < (M = M.buffered).length && (2 < (M = M.end(M.length - 1)) - t && (this._mediaElement.pause(), 0 < (M = t + (M - t) / 2) && (this._mediaElement.currentTime = M), this._mediaElement.play()))) + } + }, + M.GetSourceBufferStartTime = function () { + for (var A in this._sourceBuffers) { + var M = this._sourceBuffers[A]; + if (M) + for (var t = M.buffered, g = 0; g < t.length; g++) { + var I = t.start(g); + return I + (t.end(g) - I) / 2 + } + } + }, + M._doCleanupSourceBuffer = function () { + var A, + M = this._mediaElement.currentTime; + for (A in this._sourceBuffers) { + var t = this._sourceBuffers[A]; + if (t) { + for (var g = t.buffered, I = !1, e = 0; e < g.length; e++) { + var i, + T = g.start(e), + E = g.end(e); + T <= M && M < E + 3 ? M - T >= this._config.autoCleanupMaxBackwardDuration && (I = !0, i = M - this._config.autoCleanupMinBackwardDuration, this._pendingRemoveRanges[A].push({ + start: T, + end: i + })) : E < M && (I = !0, this._pendingRemoveRanges[A].push({ + start: T, + end: E + })) + } + I && !t.updating && this._doRemoveRanges() + } + } + }, + M.__ClearAllSourceBuffer = function () { + for (var A in this._sourceBuffers) { + var M = this._sourceBuffers[A]; + if (M) { + for (var t = M.buffered, g = !1, I = 0; I < t.length; I++) { + var e = t.start(I), + i = t.end(I), + g = !0; + this._pendingRemoveRanges[A].push({ + start: e, + end: i + }) + } + g && !M.updating && this._doRemoveRanges() + } + } + }, + M._updateMediaSourceDuration = function () { + var A, + M = this._sourceBuffers; + 0 !== this._mediaElement.readyState && "open" === this._mediaSource.readyState && (M.video && M.video.updating || M.audio && M.audio.updating || (A = this._mediaSource.duration, 0 < (M = this._pendingMediaDuration) && (isNaN(A) || A < M) && (k.a.v(this.TAG, "Update MediaSource duration from " + A + " to " + M), this._mediaSource.duration = M), this._requireSetMediaDuration = !1, this._pendingMediaDuration = 0)) + }, + M._doRemoveRanges = function () { + for (var A in this._pendingRemoveRanges) + if (this._sourceBuffers[A] && !this._sourceBuffers[A].updating) + for (var M = this._sourceBuffers[A], t = this._pendingRemoveRanges[A]; t.length && !M.updating; ) { + var g = t.shift(); + M.remove(g.start, g.end) + } + }, + M._doAppendSegments = function () { + var M, + A = this._pendingSegments; + for (M in R.d() && !this._pause && this.AdjustPlayTimeToEnd(), A) + if (this._sourceBuffers[M] && !this._sourceBuffers[M].updating && 0 < A[M].length) { + var t, + g, + I = A[M].shift(); + if (I.timestampOffset && (t = this._sourceBuffers[M].timestampOffset, g = I.timestampOffset / 1e3, .1 < Math.abs(t - g) && (k.a.v(this.TAG, "Update MPEG audio timestampOffset from " + t + " to " + g), this._sourceBuffers[M].timestampOffset = g), delete I.timestampOffset), I.data && 0 !== I.data.byteLength) + try { + this._sourceBuffers[M].appendBuffer(I.data), + this._isBufferFull = !1, + "video" === M && I.hasOwnProperty("info") && this._idrList.appendArray(I.info.syncPoints) + } catch (A) { + this._pendingSegments[M].unshift(I), + this.__ClearAllSourceBuffer(), + 22 === A.code ? (this._isBufferFull || this._emitter.emit(K.BUFFER_FULL), this._isBufferFull = !0) : (k.a.e(this.TAG, A.message), this._emitter.emit(K.ERROR, { + code: A.code, + msg: A.message + })) + } + } + }, + M._onSourceOpen = function () { + if (k.a.v(this.TAG, "MediaSource onSourceOpen"), this._mediaSource.removeEventListener("sourceopen", this.e.onSourceOpen), 0 < this._pendingSourceBufferInit.length) + for (var A = this._pendingSourceBufferInit; A.length; ) { + var M = A.shift(); + this.appendInitSegment(M, !0) + } + this._hasPendingSegments() && this._doAppendSegments(), + this._emitter.emit(K.SOURCE_OPEN) + }, + M._onSourceEnded = function () { + k.a.v(this.TAG, "MediaSource onSourceEnded") + }, + M._onSourceClose = function () { + k.a.v(this.TAG, "MediaSource onSourceClose"), + this._mediaSource && null != this.e && (this._mediaSource.removeEventListener("sourceopen", this.e.onSourceOpen), this._mediaSource.removeEventListener("sourceended", this.e.onSourceEnded), this._mediaSource.removeEventListener("sourceclose", this.e.onSourceClose)) + }, + M._hasPendingSegments = function () { + var A = this._pendingSegments; + return 0 < A.video.length || 0 < A.audio.length + }, + M._hasPendingRemoveRanges = function () { + var A = this._pendingRemoveRanges; + return 0 < A.video.length || 0 < A.audio.length + }, + M._onSourceBufferUpdateEnd = function () { + this._requireSetMediaDuration ? this._updateMediaSourceDuration() : this._hasPendingRemoveRanges() ? this._doRemoveRanges() : this._hasPendingSegments() ? this._doAppendSegments() : this._hasPendingEos && this.endOfStream(), + this._emitter.emit(K.UPDATE_END) + }, + M._onSourceBufferError = function (A) { + k.a.e(this.TAG, "SourceBuffer Error: " + A) + }, + A + } + (), + $ = { + NETWORK_ERROR: "NetworkError", + MEDIA_ERROR: "MediaError", + OTHER_ERROR: "OtherError" + }, + M = { + NETWORK_EXCEPTION: Y.EXCEPTION, + NETWORK_STATUS_CODE_INVALID: Y.HTTP_STATUS_CODE_INVALID, + NETWORK_TIMEOUT: Y.CONNECTING_TIMEOUT, + NETWORK_UNRECOVERABLE_EARLY_EOF: Y.UNRECOVERABLE_EARLY_EOF, + MEDIA_MSE_ERROR: "MediaMSEError", + MEDIA_FORMAT_ERROR: w.a.FORMAT_ERROR, + MEDIA_FORMAT_UNSUPPORTED: w.a.FORMAT_UNSUPPORTED, + MEDIA_CODEC_UNSUPPORTED: w.a.CODEC_UNSUPPORTED + }, + AA = { + enableWorker: !1, + enableStashBuffer: !0, + stashInitialSize: void 0, + isLive: !1, + lazyLoad: !0, + lazyLoadMaxDuration: 180, + lazyLoadRecoverDuration: 30, + deferLoadAfterSourceOpen: !0, + autoCleanupMaxBackwardDuration: 180, + autoCleanupMinBackwardDuration: 120, + statisticsInfoReportInterval: 600, + fixAudioTimestampGap: !0, + accurateSeek: !1, + seekType: "range", + seekParamStart: "bstart", + seekParamEnd: "bend", + rangeLoadZeroStart: !1, + customSeekHandler: void 0, + reuseRedirectedURL: !1, + headers: void 0, + customLoader: void 0 + }; + function MA() { + return Object.assign({}, AA) + } + function tA(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var gA = function () { + function A(A, M) { + if (this.TAG = "FlvPlayer", this._type = "FlvPlayer", this._emitter = new N.a, this._IsWasm = !1, this.callbackFunc = null, this.callbackPlayTimeFunc = null, this.callbackConnectStatusFunc = null, this.callbackUserPtr = null, this.callbackVideoTimestamp = null, this.needCallPlay = !1, this.waitingForData = !1, this.playTally = 0, this._config = MA(), "object" == typeof M && Object.assign(this._config, M), "soft" === M.decodeType && (this._IsWasm = !0), "flv" !== A.type.toLowerCase() && "m3u8" !== A.type.toLowerCase()) + throw new h.b("FlvPlayer requires an flv MediaDataSource input!"); + this.isFlv = !0, + "m3u8" === A.type.toLowerCase() && (this.isFlv = !1), + !0 === A.isLive && (this._config.isLive = !0), + this.e = { + onvLoadedMetadata: this._onvLoadedMetadata.bind(this), + onvSeeking: this._onvSeeking.bind(this), + onvCanPlay: this._onvCanPlay.bind(this), + onvStalled: this._onvStalled.bind(this), + onvProgress: this._onvProgress.bind(this), + onvWaiting: this._onvWaiting.bind(this), + onvPlaying: this._onvPlaying.bind(this) + }, + self.performance && self.performance.now ? this._now = self.performance.now.bind(self.performance) : this._now = Date.now, + this._pendingSeekTime = null, + this._requestSetTime = !1, + this._seekpointRecord = null, + this._progressChecker = null, + this._mediaDataSource = A, + this._mediaCanvas = null, + this._mediaElement = null, + this._msectl = null, + this._transmuxer = null, + this._initFlag = !1, + this._msectlInitSegmentVideoParams = null, + this._msectlInitSegmentAudioParams = null, + this._msectlResetComplete = !0, + this._mseSourceOpened = !1, + this._hasPendingLoad = !1, + this._receivedCanPlay = !1, + this._mediaInfo = null, + this._statisticsInfo = null; + A = p.chrome && (p.version.major < 50 || 50 === p.version.major && p.version.build < 2661); + this._alwaysSeekKeyframe = !!(A || p.msedge || p.msie), + this._alwaysSeekKeyframe && (this._config.accurateSeek = !1) + } + var M, + t, + g = A.prototype; + return g.destroy = function () { + null != this._progressChecker && (window.clearInterval(this._progressChecker), this._progressChecker = null), + this._transmuxer && this.unload(), + this._mediaElement && this.detachMediaElement(), + this.e = null, + this._mediaDataSource = null, + this._emitter.removeAllListeners(), + this._emitter = null + }, + g.on = function (A, M) { + var t = this; + A === n.MEDIA_INFO ? null != this._mediaInfo && Promise.resolve().then(function () { + t._emitter.emit(n.MEDIA_INFO, t.mediaInfo) + }) : A === n.STATISTICS_INFO && null != this._statisticsInfo && Promise.resolve().then(function () { + t._emitter.emit(n.STATISTICS_INFO, t.statisticsInfo) + }), + this._emitter.addListener(A, M) + }, + g.off = function (A, M) { + this._emitter.removeListener(A, M) + }, + g.attachMediaElement = function (A, M) { + var t = this; + if (this._mediaCanvas = M, !this._IsWasm && ((this._mediaElement = A).addEventListener("loadedmetadata", this.e.onvLoadedMetadata), A.addEventListener("seeking", this.e.onvSeeking), A.addEventListener("canplay", this.e.onvCanPlay), A.addEventListener("stalled", this.e.onvStalled), A.addEventListener("progress", this.e.onvProgress), A.addEventListener("waiting", this.e.onvWaiting), A.addEventListener("playing", this.e.onvPlaying), this._msectl = new _(this._config), this._msectl.setSeekPlayTime(this._mediaDataSource.startPlaySecs), this._msectl.on(K.CB_PLAY_INFO, this._onmseCbPlayInfo.bind(this)), this._msectl.on(K.UPDATE_END, this._onmseUpdateEnd.bind(this)), this._msectl.on(K.BUFFER_FULL, this._onmseBufferFull.bind(this)), this._msectl.on(K.SOURCE_OPEN, function () { + t._mseSourceOpened = !0, + t._hasPendingLoad && (t._hasPendingLoad = !1, t.load()) + }), this._msectl.on(K.ERROR, function (A) { + t.ReCreateMSECtl() + }), this._msectl.on(K.CHANGE_SPEED, function (A) { + t._transmuxer && t._transmuxer.changeSpeed(A.speed) + }), this._msectl.attachMediaElement(A), null != this._pendingSeekTime)) + try { + A.currentTime = this._pendingSeekTime, + this._pendingSeekTime = null + } catch (A) {} + }, + g.detachMediaElement = function () { + this._IsWasm || (this._mediaElement && (this._msectl.detachMediaElement(), this._mediaElement.removeEventListener("loadedmetadata", this.e.onvLoadedMetadata), this._mediaElement.removeEventListener("seeking", this.e.onvSeeking), this._mediaElement.removeEventListener("canplay", this.e.onvCanPlay), this._mediaElement.removeEventListener("stalled", this.e.onvStalled), this._mediaElement.removeEventListener("progress", this.e.onvProgress), this._mediaElement = null), this._msectl && (this._msectl.destroy(), this._msectl = null)) + }, + g.ReCreateMSECtl = function () { + var M = this; + this._msectlResetComplete = !1, + this._msectl && (this._mediaElement && this._msectl.detachMediaElement(), this._msectl.destroy(), this._msectl = null), + this._msectl = new _(this._config), + this._msectl.setSeekPlayTime(this._mediaDataSource.startPlaySecs), + this._msectl.on(K.CB_PLAY_INFO, this._onmseCbPlayInfo.bind(this)), + this._msectl.on(K.UPDATE_END, this._onmseUpdateEnd.bind(this)), + this._msectl.on(K.BUFFER_FULL, this._onmseBufferFull.bind(this)), + this._msectl.on(K.SOURCE_OPEN, function () { + M._mseSourceOpened = !0, + M._msectlInitSegmentVideoParams && M._msectl.appendInitSegment(M._msectlInitSegmentVideoParams), + M._msectlInitSegmentAudioParams && M._msectl.appendInitSegment(M._msectlInitSegmentAudioParams), + M._msectlResetComplete = !0 + }), + this._msectl.on(K.ERROR, function (A) { + M.ReCreateMSECtl() + }), + this._msectl.on(K.CHANGE_SPEED, function (A) { + M._transmuxer && M._transmuxer.changeSpeed(A.speed) + }), + this._msectl.attachMediaElement(this._mediaElement), + this._transmuxer && this._transmuxer.seekToSecs(0, 0) + }, + g.callbackWasmType = function (A, M) { + A._IsWasm = M, + A.callbackToParent(), + A.needCallPlay && (A.needCallPlay = !1, M || A.play()) + }, + g.callbackToParent = function () { + this.callbackFunc && this.callbackFunc(this.callbackUserPtr, this.isFlv ? "flv" : "m3u8", this._IsWasm) + }, + g.setCallback = function (A, M, t, g, I) { + this.callbackFunc = A, + this.callbackPlayTimeFunc = M, + this.callbackConnectStatusFunc = t, + this.callbackUserPtr = I, + this.callbackVideoTimestamp = g + }, + g.load = function () { + var g = this; + if (!this._IsWasm) { + if (!this._mediaElement) + throw new h.a("HTMLMediaElement must be attached before load()!"); + if (this._transmuxer) + throw new h.a("FlvPlayer.load() has been called, please call unload() first!"); + if (this._hasPendingLoad) + return; + if (this._config.deferLoadAfterSourceOpen && !1 === this._mseSourceOpened) + return void(this._hasPendingLoad = !0); + 0 < this._mediaElement.readyState && (this._requestSetTime = !0, this._mediaElement.currentTime = 0) + } + this._transmuxer = new q(this._mediaDataSource, this._config, this._mediaCanvas, this, this.callbackWasmType, this.callbackVideoTimestamp, this.callbackUserPtr), + this._transmuxer.on(v.INIT_SEGMENT, function (A, M) { + g._IsWasm || (g._initFlag = !0, g._msectl.appendInitSegment(M), "video" === A ? g._msectlInitSegmentVideoParams = M : "audio" === A && (g._msectlInitSegmentAudioParams = M)) + }), + this._transmuxer.on(v.MEDIA_SEGMENT, function (A, M) { + var t; + g._IsWasm || g._msectlResetComplete && g._msectl.appendMediaSegment(M), + g._config.lazyLoad && !g._config.isLive && (t = g._mediaElement.currentTime, M.info.endDts >= 1e3 * (t + g._config.lazyLoadMaxDuration) && null == g._progressChecker && (k.a.v(g.TAG, "Maximum buffering duration exceeded, suspend transmuxing task"), g._suspendTransmuxer())) + }), + this._transmuxer.on(v.LOADING_COMPLETE, function () { + g._IsWasm || g._msectl.endOfStream(), + g._emitter.emit(n.LOADING_COMPLETE) + }), + this._transmuxer.on(v.RECOVERED_EARLY_EOF, function () { + g._emitter.emit(n.RECOVERED_EARLY_EOF) + }), + this._transmuxer.on(v.IO_ERROR, function (A, M) { + g._emitter.emit(n.ERROR, $.NETWORK_ERROR, A, M) + }), + this._transmuxer.on(v.DEMUX_ERROR, function (A, M) { + g._emitter.emit(n.ERROR, $.MEDIA_ERROR, A, { + code: -1, + msg: M + }) + }), + this._transmuxer.on(v.MEDIA_INFO, function (A) { + g._mediaInfo = A, + g._emitter.emit(n.MEDIA_INFO, Object.assign({}, A)) + }), + this._transmuxer.on(v.METADATA_ARRIVED, function (A) { + g._emitter.emit(n.METADATA_ARRIVED, A) + }), + this._transmuxer.on(v.SCRIPTDATA_ARRIVED, function (A) { + g._emitter.emit(n.SCRIPTDATA_ARRIVED, A) + }), + this._transmuxer.on(v.STATISTICS_INFO, function (A) { + g._statisticsInfo = g._fillStatisticsInfo(A), + g._emitter.emit(n.STATISTICS_INFO, Object.assign({}, g._statisticsInfo)) + }), + this._transmuxer.on(v.RECOMMEND_SEEKPOINT, function (A) { + g._mediaElement && !g._config.accurateSeek && (g._requestSetTime = !0, g._mediaElement.currentTime = A / 1e3) + }), + this._transmuxer.on(v.RECONNECT_ING, function (A) { + g.callbackConnectStatusFunc && g.callbackConnectStatusFunc(g.callbackUserPtr, 0) + }), + this._transmuxer.on(v.RECONNECT_SUCCESS, function (A) { + g._IsWasm || (1 < A && g._msectl && (g._transmuxer.seekToSecs(0, 0), g._msectl.reset(!0)), g._mediaElement), + g.callbackConnectStatusFunc && g.callbackConnectStatusFunc(g.callbackUserPtr, 1) + }), + this._transmuxer.on(K.CB_PLAY_INFO, this._onmseCbPlayInfo.bind(this)), + this._transmuxer.open() + }, + g.unload = function () { + this._IsWasm || (this._mediaElement && this._mediaElement.pause(), this._msectl && this._msectl.seek(0)), + this._transmuxer && (this._transmuxer.close(), this._transmuxer.destroy(), this._transmuxer = null), + this._initFlag = !1 + }, + g.play = function () { + return null == this._transmuxer ? (this.needCallPlay = !0, this._mediaElement && (this._mediaElement.volume = 0), !1) : this._mediaElement ? (this.needCallPlay = !1, this._mediaElement.play()) : void 0 + }, + g.pause = function () { + this._transmuxer && this._transmuxer.pause(), + this._mediaElement && this._mediaElement.pause(), + this._msectl && this._msectl.pause() + }, + g.resume = function () { + this._transmuxer && this._transmuxer.resume(), + this._msectl && (R.d() && this._msectl.reset(!1), this._msectl.resume()), + this._mediaElement && this._mediaElement.play() + }, + g.openAudio = function () { + if (this._IsWasm) { + if (this._transmuxer) + return this._transmuxer.openAudio() + } else if (this._mediaElement) + return this._mediaElement.volume = 1, !0; + return !1 + }, + g.closeAudio = function () { + if (this._IsWasm) { + if (this._transmuxer) + return this._transmuxer.closeAudio() + } else if (this._mediaElement) + return !(this._mediaElement.volume = 0); + return !1 + }, + g.seek = function (A, M) { + if (!this._IsWasm && this.isFlv && this._mediaElement && 0 < this._mediaElement.duration) { + var t = Math.floor(A / 100 * this._mediaElement.duration); + return this._mediaElement ? this._internalSeek(t) : this._pendingSeekTime = t, + !0 + } + if (this._transmuxer) { + t = Math.floor(A / 100 * this._transmuxer.getTotalDuration()); + return this._msectl && this._msectl.getCurrentPlayTime() == t ? !0 : (this._transmuxer.seekToSecs(A, M), this._msectl && (this._msectl.setSeekPlayTime(t), this._msectl.reset(!0)), this._mediaElement ? (Math.floor(this._mediaElement.currentTime), Math.floor(t), this._progressChecker) : this._pendingSeekTime = t, !0) + } + }, + g._fillStatisticsInfo = function (A) { + if (A.playerType = this._type, !(this._mediaElement instanceof HTMLVideoElement)) + return A; + var M, + t = !0, + g = 0, + I = 0; + return this._mediaElement.getVideoPlaybackQuality ? (g = (M = this._mediaElement.getVideoPlaybackQuality()).totalVideoFrames, I = M.droppedVideoFrames) : null != this._mediaElement.webkitDecodedFrameCount ? (g = this._mediaElement.webkitDecodedFrameCount, I = this._mediaElement.webkitDroppedFrameCount) : t = !1, + t && (A.decodedFrames = g, A.droppedFrames = I), + A + }, + g._onmseCbPlayInfo = function () { + var A, + M; + this._transmuxer && (M = A = 0, !this._IsWasm && this._msectl ? (A = this._msectl.getCurrentPlayTime(), (M = this._msectl.getTotalDuration()) != 1 / 0 || R.d() || (M = this._transmuxer.getTotalDuration())) : ((A = this._transmuxer.getCurrentPlayTime()) < 0 && (A = 0), M = this._transmuxer.getTotalDuration()), this.callbackPlayTimeFunc && this.callbackPlayTimeFunc(this.callbackUserPtr, this.isFlv ? "flv" : "m3u8", A, M)) + }, + g._onmseUpdateEnd = function () { + if (this._config.lazyLoad && !this._config.isLive) { + for (var A = this._mediaElement.buffered, M = this._mediaElement.currentTime, t = 0, g = 0; g < A.length; g++) { + var I = A.start(g), + e = A.end(g); + if (I <= M && M < e) { + t = e; + break + } + } + t >= M + this._config.lazyLoadMaxDuration && null == this._progressChecker && (k.a.v(this.TAG, "onmseUpdateEnd::Maximum buffering duration exceeded, suspend transmuxing task"), this._suspendTransmuxer()) + } + }, + g._onmseBufferFull = function () { + k.a.v(this.TAG, "MSE SourceBuffer is full, suspend transmuxing task"), + null == this._progressChecker && this._suspendTransmuxer() + }, + g._suspendTransmuxer = function () { + this._transmuxer && (this._transmuxer.pause(), null == this._progressChecker && (this._progressChecker = window.setInterval(this._checkProgressAndResume.bind(this), 1e3))) + }, + g._checkProgressAndResume = function () { + if (null != this._mediaElement) { + for (var A = this._mediaElement.currentTime, M = this._mediaElement.buffered, t = !1, g = 0; g < M.length; g++) { + var I = M.start(g), + e = M.end(g); + if (I <= A && A < e) { + A >= e - this._config.lazyLoadRecoverDuration && (t = !0); + break + } + } + t && (window.clearInterval(this._progressChecker), this._progressChecker = null, t && (k.a.v(this.TAG, "Continue loading from paused position"), this._transmuxer.resume())) + } + }, + g._isTimepointBuffered = function (A) { + for (var M = this._mediaElement.buffered, t = 0; t < M.length; t++) { + var g = M.start(t), + I = M.end(t); + if (g <= A && A < I) + return !0 + } + return !1 + }, + g._internalSeek = function (A) { + var M, + t = this._isTimepointBuffered(A), + g = !1, + I = 0; + A < 1 && 0 < this._mediaElement.buffered.length && (((M = this._mediaElement.buffered.start(0)) < 1 && A < M || p.safari) && (g = !0, I = p.safari ? .1 : M)), + g ? (this._requestSetTime = !0, this._mediaElement.currentTime = I) : t ? (this._alwaysSeekKeyframe ? (t = this._msectl.getNearestKeyframe(Math.floor(1e3 * A)), this._requestSetTime = !0, this._mediaElement.currentTime = null != t ? t.dts / 1e3 : A) : (this._requestSetTime = !0, this._mediaElement.currentTime = A), null != this._progressChecker && this._checkProgressAndResume()) : (null != this._progressChecker && (window.clearInterval(this._progressChecker), this._progressChecker = null), this._msectl.seek(A), this._transmuxer.seek(Math.floor(1e3 * A)), this._config.accurateSeek && (this._requestSetTime = !0, this._mediaElement.currentTime = A)) + }, + g._checkAndApplyUnbufferedSeekpoint = function () { + if (this.isFlv && 0 < this.playTally && R.d()) { + null != this._progressChecker && (window.clearTimeout(this._progressChecker), this._progressChecker = null); + var A = !1; + return this._transmuxer && (A = this._transmuxer.isPaused()), + void(this._mediaElement && !A && this._mediaElement.play()) + } + this._seekpointRecord && (this._seekpointRecord.recordTime <= this._now() - 100 ? (A = this._mediaElement.currentTime, this._seekpointRecord = null, this._isTimepointBuffered(A) || (null != this._progressChecker && (window.clearTimeout(this._progressChecker), this._progressChecker = null), this._msectl.seek(A), this._transmuxer.seek(Math.floor(1e3 * A)), this._config.accurateSeek && (this._requestSetTime = !0, this._mediaElement.currentTime = A))) : window.setTimeout(this._checkAndApplyUnbufferedSeekpoint.bind(this), 50)) + }, + g._checkAndResumeStuckPlayback = function (A) { + var M = this._mediaElement; + A || !this._receivedCanPlay || M.readyState < 2 ? 0 < (A = M.buffered).length && M.currentTime < A.start(0) && (k.a.w(this.TAG, "Playback seems stuck at " + M.currentTime + ", seek to " + A.start(0)), this._requestSetTime = !0, this._mediaElement.currentTime = A.start(0), this._mediaElement.removeEventListener("progress", this.e.onvProgress)) : this._mediaElement.removeEventListener("progress", this.e.onvProgress) + }, + g._onvLoadedMetadata = function (A) { + null != this._pendingSeekTime && (this._mediaElement.currentTime = this._pendingSeekTime, this._pendingSeekTime = null) + }, + g._onvSeeking = function (A) { + var M = this._mediaElement.currentTime, + t = this._mediaElement.buffered; + if (this._requestSetTime) + this._requestSetTime = !1; + else { + if (M < 1 && 0 < t.length) { + var g = t.start(0); + if (g < 1 && M < g || p.safari) + return this._requestSetTime = !0, void(this._mediaElement.currentTime = p.safari ? .1 : g) + } + if (this._isTimepointBuffered(M)) + return !this._alwaysSeekKeyframe || null != (g = this._msectl.getNearestKeyframe(Math.floor(1e3 * M))) && (this._requestSetTime = !0, this._mediaElement.currentTime = g.dts / 1e3), void(null != this._progressChecker && this._checkProgressAndResume()); + this._seekpointRecord = { + seekPoint: M, + recordTime: this._now() + }, + window.setTimeout(this._checkAndApplyUnbufferedSeekpoint.bind(this), 50) + } + }, + g._onvCanPlay = function (A) { + this._receivedCanPlay = !0, + this._mediaElement.removeEventListener("canplay", this.e.onvCanPlay) + }, + g._onvStalled = function (A) { + this._checkAndResumeStuckPlayback(!0) + }, + g._onvProgress = function (A) { + this._checkAndResumeStuckPlayback() + }, + g._onvWaiting = function (A) {}, + g._onvPlaying = function (A) { + this.waitingForData = !1, + this.playTally++, + this.callbackConnectStatusFunc(this.callbackUserPtr, 1) + }, + M = A, + (g = [{ + key: "type", + get: function () { + return this._type + } + }, { + key: "buffered", + get: function () { + return this._mediaElement.buffered + } + }, { + key: "duration", + get: function () { + return this._mediaElement.duration + } + }, { + key: "volume", + get: function () { + return this._mediaElement.volume + }, + set: function (A) { + this._mediaElement.volume = A + } + }, { + key: "muted", + get: function () { + return this._mediaElement.muted + }, + set: function (A) { + this._mediaElement.muted = A + } + }, { + key: "currentTime", + get: function () { + return this._mediaElement ? this._mediaElement.currentTime : 0 + }, + set: function (A) { + this._mediaElement ? this._internalSeek(A) : this._pendingSeekTime = A + } + }, { + key: "mediaInfo", + get: function () { + return Object.assign({}, this._mediaInfo) + } + }, { + key: "statisticsInfo", + get: function () { + return null == this._statisticsInfo && (this._statisticsInfo = {}), + this._statisticsInfo = this._fillStatisticsInfo(this._statisticsInfo), + Object.assign({}, this._statisticsInfo) + } + } + ]) && tA(M.prototype, g), + t && tA(M, t), + A + } + (), + IA = function () { + function M() {} + return M.supportMSEH264Playback = function () { + return window.MediaSource && window.MediaSource.isTypeSupported('video/mp4; codecs="avc1.42E01E,mp4a.40.2"') + }, + M.supportNetworkStreamIO = function () { + var A = new X({}, MA()), + M = A.loaderType; + return A.destroy(), + "fetch-stream-loader" == M || "xhr-moz-chunked-loader" == M + }, + M.getNetworkLoaderTypeName = function () { + var A = new X({}, MA()), + M = A.loaderType; + return A.destroy(), + M + }, + M.supportNativeMediaPlayback = function (A) { + null == M.videoElement && (M.videoElement = window.document.createElement("video")); + A = M.videoElement.canPlayType(A); + return "probably" === A || "maybe" == A + }, + M.getFeatureList = function () { + var A = { + mseFlvPlayback: !1, + mseLiveFlvPlayback: !1, + networkStreamIO: !1, + networkLoaderName: "", + nativeMP4H264Playback: !1, + nativeWebmVP8Playback: !1, + nativeWebmVP9Playback: !1 + }; + return A.mseFlvPlayback = M.supportMSEH264Playback(), + A.networkStreamIO = M.supportNetworkStreamIO(), + A.networkLoaderName = M.getNetworkLoaderTypeName(), + A.mseLiveFlvPlayback = A.mseFlvPlayback && A.networkStreamIO, + A.nativeMP4H264Playback = M.supportNativeMediaPlayback('video/mp4; codecs="avc1.42001E, mp4a.40.2"'), + A.nativeWebmVP8Playback = M.supportNativeMediaPlayback('video/webm; codecs="vp8.0, vorbis"'), + A.nativeWebmVP9Playback = M.supportNativeMediaPlayback('video/webm; codecs="vp9"'), + A + }, + M + } + (); + function eA(A, M) { + for (var t = 0; t < M.length; t++) { + var g = M[t]; + g.enumerable = g.enumerable || !1, + g.configurable = !0, + "value" in g && (g.writable = !0), + Object.defineProperty(A, g.key, g) + } + } + var iA = function () { + function A(A, M, t, g, I) { + if (this.TAG = "NativePlayer", this._type = "NativePlayer", this._emitter = new N.a, this._config = MA(), "object" == typeof I && Object.assign(this._config, I), "flv" === A.type.toLowerCase()) + throw new h.b("NativePlayer does't support flv MediaDataSource input!"); + if (A.hasOwnProperty("segments")) + throw new h.b("NativePlayer(" + A.type + ") doesn't support multipart playback!"); + this.e = { + onvLoadedMetadata: this._onvLoadedMetadata.bind(this) + }, + this._pendingSeekTime = null, + this._statisticsReporter = null, + this._mediaDataSource = A, + this._mediaElement = null, + this.pauseDisplay = !1, + this.h5Video = M, + this.callbackPlayTimeFunc = t, + this.callbackUserPtr = g + } + var M, + t, + g = A.prototype; + return g.destroy = function () { + this._mediaElement && (this.unload(), this.detachMediaElement()), + this.e = null, + this._mediaDataSource = null, + this._emitter.removeAllListeners(), + this._emitter = null + }, + g.on = function (A, M) { + var t = this; + A === n.MEDIA_INFO ? null != this._mediaElement && 0 !== this._mediaElement.readyState && Promise.resolve().then(function () { + t._emitter.emit(n.MEDIA_INFO, t.mediaInfo) + }) : A === n.STATISTICS_INFO && null != this._mediaElement && 0 !== this._mediaElement.readyState && Promise.resolve().then(function () { + t._emitter.emit(n.STATISTICS_INFO, t.statisticsInfo) + }), + this._emitter.addListener(A, M) + }, + g.off = function (A, M) { + this._emitter.removeListener(A, M) + }, + g.attachMediaElement = function (A) { + if ((this._mediaElement = A).addEventListener("loadedmetadata", this.e.onvLoadedMetadata), null != this._pendingSeekTime) + try { + A.currentTime = this._pendingSeekTime, + this._pendingSeekTime = null + } catch (A) {} + }, + g.detachMediaElement = function () { + this._mediaElement && (this._mediaElement.src = "", this._mediaElement.removeAttribute("src"), this._mediaElement.removeEventListener("loadedmetadata", this.e.onvLoadedMetadata), this._mediaElement = null), + null != this._statisticsReporter && (window.clearInterval(this._statisticsReporter), this._statisticsReporter = null) + }, + g.load = function () { + if (!this._mediaElement) + throw new h.a("HTMLMediaElement must be attached before load()!"); + this._mediaElement.src = this._mediaDataSource.url, + 0 < this._mediaElement.readyState && (this._mediaElement.currentTime = 0), + this._mediaElement.preload = "auto", + this._mediaElement.load(), + this._statisticsReporter = window.setInterval(this._reportStatisticsInfo.bind(this), this._config.statisticsInfoReportInterval) + }, + g.unload = function () { + this._mediaElement && (this._mediaElement.src = "", this._mediaElement.removeAttribute("src")), + null != this._statisticsReporter && (window.clearInterval(this._statisticsReporter), this._statisticsReporter = null) + }, + g.play = function () { + return this.pauseDisplay || (this.attachMediaElement(this.h5Video), this.load()), + this.pauseDisplay = !1, + this._mediaElement.play() + }, + g.stop = function () { + this.unload(), + this.detachMediaElement() + }, + g.pause = function () { + this._mediaElement.pause(), + this.pauseDisplay = !0 + }, + g.isPause = function () { + return this.pauseDisplay + }, + g.openAudio = function () { + return this._mediaElement.volume = 1, + !0 + }, + g.closeAudio = function () { + return !(this._mediaElement.volume = 0) + }, + g.seek = function (A, M) { + var t = A; + 1 == M && (t = A / 100 * this._mediaElement.duration), + this._mediaElement ? this._mediaElement.currentTime = t : this._pendingSeekTime = t + }, + g._onvLoadedMetadata = function (A) { + null != this._pendingSeekTime && (this._mediaElement.currentTime = this._pendingSeekTime, this._pendingSeekTime = null), + this._emitter.emit(n.MEDIA_INFO, this.mediaInfo) + }, + g._reportStatisticsInfo = function () { + this._emitter.emit(n.STATISTICS_INFO, this.statisticsInfo) + }, + M = A, + (g = [{ + key: "type", + get: function () { + return this._type + } + }, { + key: "buffered", + get: function () { + return this._mediaElement.buffered + } + }, { + key: "duration", + get: function () { + return this._mediaElement.duration + } + }, { + key: "volume", + get: function () { + return this._mediaElement.volume + }, + set: function (A) { + this._mediaElement.volume = A + } + }, { + key: "muted", + get: function () { + return this._mediaElement.muted + }, + set: function (A) { + this._mediaElement.muted = A + } + }, { + key: "currentTime", + get: function () { + return this._mediaElement ? this._mediaElement.currentTime : 0 + }, + set: function (A) { + this._mediaElement ? this._mediaElement.currentTime = A : this._pendingSeekTime = A + } + }, { + key: "mediaInfo", + get: function () { + var M, + t, + g, + A = { + mimeType: (this._mediaElement instanceof HTMLAudioElement ? "audio/" : "video/") + this._mediaDataSource.type + }; + return this._mediaElement && (A.duration = Math.floor(1e3 * this._mediaElement.duration), this._mediaElement instanceof HTMLVideoElement && (A.width = this._mediaElement.videoWidth, A.height = this._mediaElement.videoHeight), this.callbackPlayTimeFunc && this.callbackPlayTimeFunc(this.callbackUserPtr, "mp4", this._mediaElement.currentTime, A.duration / 1e3), M = this, t = 0, g = A.duration / 1e3, this._mediaElement.addEventListener("timeupdate", function () { + var A; + !M._mediaElement || null != (A = M._mediaElement.currentTime) && (A = Math.floor(A), t != A && (t = A, M.callbackPlayTimeFunc(M.callbackUserPtr, "mp4", t, g))) + }, !1)), + A + } + }, { + key: "statisticsInfo", + get: function () { + var A = { + playerType: this._type, + url: this._mediaDataSource.url + }; + if (!(this._mediaElement instanceof HTMLVideoElement)) + return A; + var M, + t = !0, + g = 0, + I = 0; + return this._mediaElement.getVideoPlaybackQuality ? (g = (M = this._mediaElement.getVideoPlaybackQuality()).totalVideoFrames, I = M.droppedVideoFrames) : null != this._mediaElement.webkitDecodedFrameCount ? (g = this._mediaElement.webkitDecodedFrameCount, I = this._mediaElement.webkitDroppedFrameCount) : t = !1, + t && (A.decodedFrames = g, A.droppedFrames = I), + A + } + } + ]) && eA(M.prototype, g), + t && eA(M, t), + A + } + (); + Z.install(); + C = { + createPlayer: function (A, M) { + if (null == A || "object" != typeof A) + throw new h.b("MediaDataSource must be an javascript object!"); + if (!A.hasOwnProperty("type")) + throw new h.b("MediaDataSource must has type field to indicate video file type!"); + return new("flv" !== A.type ? iA : gA)(A, M) + }, + isSupported: function () { + return IA.supportMSEH264Playback() + }, + getFeatureList: function () { + return IA.getFeatureList() + }, + setExportVideoTrackFunction: function (A) { + 0 + } + }; + C.BaseLoader = g, + C.LoaderStatus = x, + C.LoaderErrors = Y, + C.Events = n, + C.ErrorTypes = $, + C.ErrorDetails = M, + C.FlvPlayer = gA, + C.NativePlayer = iA, + C.LoggingControl = r, + Object.defineProperty(C, "version", { + enumerable: !0, + get: function () { + return "1.5.0" + } + }); + var TA = C, + EA = function () { + function A(A, M, t, g, I, e, i, T, E, N, n, D) { + this.url = "", + this.hasVideos = N, + this.downloadWorker = null, + this.decodeWorker = null, + this.renderWorker = null, + this.audioWorker = null, + this.printStatInfo = !1, + this.pauseDisplay = !1, + this.enableLog = !1, + this.streamType = A, + this.h5Video = M, + this.canvas = t, + this.flvPlayer = null, + this.decodeType = g, + this.callbackFunc = I, + this.cbFunc = n, + this.callbackRect = D, + this.callbackPlayTimeFunc = e, + this.callbackConnectStatusFunc = i, + this.callbackVideoTimestampFunc = T, + this.callbackUserPtr = E, + this.avQueue = [], + this.webGLPlayer = null, + this.soundPlayer = null, + this.fullScreenFlag = !1 + } + var M = A.prototype; + return M.destroy = function () { + var A; + this.webGLPlayer && this.webGLPlayer.renderVideoFrame(null, 0, 0), + this.renderWorker && void 0 !== this.renderWorker && (A = { + cmd: R.l + }, this.renderWorker.postMessage(A)), + this.soundPlayer && (this.soundPlayer.destroy(), delete this.soundPlayer, this.soundPlayer = null), + this.flvPlayer && (this.flvPlayer.destroy(), this.flvPlayer = null) + }, + M.logD = function (A) { + this.enableLog + }, + M.createDecodeWorker = function () { + var A; + if (this.logD("create decode worker..."), this.decodeWorker = void 0, "undefined" != typeof Worker) + try { + A = this.decodeWorker = I(61), + this.onwmsg = this.onWorkerMessage.bind(this); + var M = { + cmd: R.v, + url: R.g(), + isFlv: !0 + }; + A.postMessage(M), + A.addEventListener("message", this.onwmsg), + A.onerror = function (A) {} + } catch (A) { + this.w = void 0 + } + }, + M.createAudioWorker = function () { + var A; + if (this.logD("create audio play worker..."), this.audioWorker = void 0, "undefined" != typeof Worker) + try { + A = this.audioWorker = I(205), + this.onwmsg = this.onWorkerMessage.bind(this); + var M = { + cmd: R.v + }; + A.postMessage(M), + A.addEventListener("message", this.onwmsg), + A.onerror = function (A) {} + } catch (A) { + this.audioWorker = void 0 + } + this.audioWorker + }, + M.decodeAndDisplayLoop = function () { + if (!(this.avQueue.length < 1)) + for (; 0 < this.avQueue.length; ) { + this.avQueue[0]; + this.avQueue.shift() + } + }, + M.play = function (A, M) { + return this.pauseDisplay ? this.resume() : (this.url = A, null == this.flvPlayer && (this.flvPlayer = new gA({ + type: this.streamType, + isLive: !0, + url: A, + startPlaySecs: M + }, { + callbackFunc: this.cbFunc, + callbackRect: this.callbackRect, + streamType: this.streamType, + enableWorker: !1, + lazyLoadMaxDuration: "flv" === this.streamType ? 1 : 180, + lazyLoadRecoverDuration: "flv" === this.streamType ? 1 : 30, + deferLoadAfterSourceOpen: !0, + autoCleanupMaxBackwardDuration: "flv" === this.streamType ? 120 : 180, + autoCleanupMinBackwardDuration: "flv" === this.streamType ? 60 : 120, + seekType: "range", + enableStashBuffer: !1, + decodeType: this.decodeType + }), "flv" === this.streamType && R.i(!0)), this.flvPlayer.setCallback(this.callbackFunc, this.callbackPlayTimeFunc, this.callbackConnectStatusFunc, this.callbackVideoTimestampFunc, this.callbackUserPtr), this.flvPlayer.attachMediaElement(this.h5Video, this.canvas), this.flvPlayer.load(), this.flvPlayer.play(), this.flvPlayer.on(TA.Events.ERROR, this.flvPlayerErrorHandler)), + !0 + }, + M.stop = function () { + return this.pauseDisplay = !1, + this.closeAudio(), + this.flvPlayer && (this.flvPlayer.off(TA.Events.ERROR, this.flvPlayerErrorHandler), this.flvPlayer.unload(), this.flvPlayer.detachMediaElement()), + !0 + }, + M.isPause = function () { + return this.pauseDisplay + }, + M.pause = function () { + this.pauseDisplay = !0, + this.flvPlayer && this.flvPlayer.pause() + }, + M.resume = function () { + this.pauseDisplay = !1, + this.flvPlayer && this.flvPlayer.resume() + }, + M.seek = function (A, M) { + this.pauseDisplay = !1, + this.flvPlayer && this.flvPlayer.seek(A, M) + }, + M.setTrack = function (A, M) {}, + M.openAudio = function () { + return !!this.flvPlayer && this.flvPlayer.openAudio() + }, + M.closeAudio = function () { + return !!this.flvPlayer && this.flvPlayer.closeAudio() + }, + M.openStatinfo = function () { + return this.printStatInfo = !0 + }, + M.closeStatinfo = function () { + return !(this.printStatInfo = !1) + }, + M.isFullScreen = function () { + return this.fullScreenFlag + }, + M.canvasFullscreen = function () { + var A = this.canvas; + A.RequestFullScreen ? A.RequestFullScreen() : A.webkitRequestFullScreen ? A.webkitRequestFullScreen() : A.mozRequestFullScreen ? A.mozRequestFullScreen() : A.msRequestFullscreen ? A.msRequestFullscreen() : R.e("This browser doesn't supporter fullscreen") + }, + M.canvasExitFullscreen = function () { + document.exitFullscreen ? document.exitFullscreen() : document.webkitExitFullscreen ? document.webkitExitFullscreen() : document.mozCancelFullScreen ? document.mozCancelFullScreen() : document.msExitFullscreen ? document.msExitFullscreen() : R.e("Exit fullscreen doesn't work") + }, + M.fullscreen = function (A) { + if (1 == A) { + if (!this.fullScreenFlag) + return this.canvasFullscreen(), this.fullScreenFlag = !0 + } else if (this.fullScreenFlag) + return this.canvasExitFullscreen(), !(this.fullScreenFlag = !1); + return !1 + }, + M.flvPlayerErrorHandler = function (A, M, t) {}, + A + } + (), + NA = function () { + function A(A, M, t) { + this.TAG = "WebRTCPlayer", + this.url = A, + this.h5Video = M, + this.errorFunc = t + } + var M = A.prototype; + return M.destroy = function () { + this.stop() + }, + M.stop = function () { + this.sendChannelTicker && (clearInterval(this.sendChannelTicker), this.sendChannelTicker = 0), + this.sendChannel && (this.sendChannel.close(), this.sendChannel = null), + this.h5Video && this.h5Video.srcObject && (this.h5Video.srcObject.getTracks().forEach(function (A) { + return A.stop() + }), this.h5Video.srcObject = null, this.h5Video.removeAttribute("src"), this.h5Video.removeAttribute("srcObject"), this.h5Video.removeAttribute("autoplay")), + this.pc && (this.pc.close(), this.pc = null) + }, + M.play = function () { + this.h5Video.setAttribute("autoplay", "autoplay"), + this.url = this.url.replace("webrtc", "http"); + this.pc = new RTCPeerConnection({}), + this.rtcStream = new MediaStream; + var M = this; + this.pc.addTransceiver("video", { + direction: "sendrecv" + }), + this.pc.addTransceiver("audio", { + direction: "sendrecv" + }), + this.pc.ontrack = function (A) { + k.a.d(M.TAG, A.streams.length + "track" + A.track.kind + "is delivered"), + M.rtcStream.addTrack(A.track), + M.h5Video.srcObject != M.rtcStream && (M.h5Video.srcObject = M.rtcStream) + }, + this.pc.oniceconnectionstatechange = function (A) { + "disconnected" == M.pc.iceConnectionState && M.sendChannelTicker && (M.errorFunc("error", "ice disconnected"), clearInterval(M.sendChannelTicker), M.sendChannelTicker = 0), + k.a.d(M.TAG, "ice connection state change: " + M.pc.iceConnectionState) + }, + this.pc.onnegotiationneeded = function (A) { + M.pc.createOffer({ + offerToReceiveVideo: !0, + offerToReceiveAudio: !0 + }).then(function (A) { + M.pc.setLocalDescription(A).then(function () { + var A = new XMLHttpRequest; + A.open("POST", M.url, !0), + A.onreadystatechange = function () { + if (4 === A.readyState) + if (200 <= A.status && A.status < 300 || 304 === A.status) + try { + M.pc.setRemoteDescription(new RTCSessionDescription({ + type: "answer", + sdp: atob(A.responseText) + })), + k.a.d(M.TAG, "setRemoteDescription sdp:" + atob(A.responseText)) + } catch (A) { + M.errorFunc("error", "set rtc remote sdp failed"), + k.a.e(M.TAG, "setRemoteDescription sdp:" + A) + } + else + M.errorFunc("error", "post rtc status " + A.status), k.a.e(M.TAG, "setRemoteDescription xhr status:" + A.status + ",statusText:" + A.statusText) + }, + A.send(btoa(M.pc.localDescription.sdp)), + k.a.d(M.TAG, "setLocalDescription sdp:" + M.pc.localDescription.sdp) + }).catch(function (A) { + k.a.e(M.TAG, "setLocalDescription error:" + A) + }) + }).catch(function (A) { + k.a.e(M.TAG, "createOffer error:" + A) + }) + }, + this.sendChannel = this.pc.createDataChannel("keepalive"), + this.sendChannel.onclose = function () { + k.a.d(M.TAG, "sendChannel has closed"), + M.sendChannelTicker && (M.errorFunc("error", "send channel closed"), clearInterval(M.sendChannelTicker), M.sendChannelTicker = 0) + }, + this.sendChannel.onopen = function () { + k.a.d(M.TAG, "sendChannel has opened"), + M.sendChannel.send("ping"), + M.sendChannelTicker = setInterval(function () { + k.a.d(M.TAG, "sendChannel ping..."), + M.sendChannel.send("ping") + }, 1e3) + }, + this.sendChannel.onmessage = function (A) { + k.a.d(M.TAG, "sendChannel message" + A.data) + } + }, + A + } + (); + E(206), + E(214), + E(220); + var nA = function () { + function A(A, M, t, g) { + void 0 === g && (g = {}), + this.playerInstance = null, + this.WebRTCPlayerInstance = null; + var I, + e, + i, + T = g.cbUserPtr, + E = g.decodeType, + N = g.openAudio, + n = g.BigPlay, + D = g.Height, + C = g.UnLogo, + r = g.HideKbs, + g = g.cfKbs; + this.url = A, + this.UnLogo = C, + this.callbackFunc = t || function () {}, + this.fulls = !0, + this.callbackUserPtr = T, + this.decodeType = "auto", + this.version = "v2.1.20210523", + this.timeKbps = null, + this.HideKbs = r, + this.cfKbs = g || function () {}, + "auto" !== E && "soft" !== E || (this.decodeType = E), + IA.supportMSEH264Playback() || (this.decodeType = "soft"), + this.internalTriggerPlay = !1, + this.showTimeLabel = !1, + this.seeking = !1, + this.callbackEnd = !1, + this.initH5Flag = !1, + this.currentH5Status = !1, + this.seekTimeSecs = 0, + this.fullScreenFlag = !1, + this.playerUI = document.getElementById(M), + null != this.playerUI && (this.playerUI.classList = D ? "player-box" : "player-content", this.Snap = document.createElement("img"), this.Snap.src = "", this.Snap.alt = "", this.Snap.style = "position:absolute;top:0px;left:0px;width:100%;height:100%;z-index:1;display:none", this.playerUI.appendChild(this.Snap), this.h5Video = null, this.h5Video = document.createElement("VIDEO"), this.h5Video.style = "width:0%;height:0%;position:absolute;top:0px;left:0px;background: black;", this.h5Video.setAttribute("oncontextmenu", "return false"), this.playerUI.appendChild(this.h5Video), null != n && n && (this.bigPlayBox = document.createElement("div"), this.bigPlayBox.style = "display:block", this.bigPlayBox.classList = "bigPlayBox fa fa-play", this.playerUI.appendChild(this.bigPlayBox), (I = this).bigPlayBox.onclick = function () { + "" !== I.url && (I.playFlag ? (I.internalTriggerPlay = !1, I.play(I.url, 1, I.seekTimeSecs)) : I.pause()) + }), this.loadingBox = document.createElement("div"), this.loadingBox.style = "width:100%;height:100%;position: absolute;left:0px;top:0px;background:rgba(0,0,0,0.6);z-index:9;display:none", this.loadingBox.classList = "loadingBox", this.playerUI.appendChild(this.loadingBox), this.conter = document.createElement("div"), this.conter.classList = "conter", this.loadingBox.appendChild(this.conter), this.loading = document.createElement("div"), this.loading.id = "load5", this.conter.appendChild(this.loading), this.offscreenCanvas = null, this.canvas = document.createElement("canvas"), this.canvas.style = "width:100%;height:100%;position:absolute;top:0px;left:0px;background: black;", this.playerUI.appendChild(this.canvas), this.timeBox = document.createElement("div"), this.timeBox.style = "position: absolute;left: 0px;bottom: 0px;display:flex;width: 100%;display:none;background-color: black;z-index:10;", this.playerUI.appendChild(this.timeBox), this.playBtn = document.createElement("span"), this.playFlag = !0, this.playBtn.classList = "fa fa-play", this.playBtn.title = "Play", this.playBtn.style = "display:inine-block;width: 20px;color: #fff;line-height: 27px;margin: 0 10px;padding:0px 2px;cursor:pointer;text-align:center", this.timeRule = null, this.timeTrack = null, this.timeLabel = null, (e = this).playBtn.onclick = function () { + "" !== e.url && (e.playFlag ? (e.internalTriggerPlay = !1, e.play(e.url, 1, e.seekTimeSecs)) : e.pause()) + }, this.timeBox.appendChild(this.playBtn), (n = document.createElement("span")).classList = "fa fa-stop", n.title = "Stop", n.onclick = function () { + e.stop(), + e.playBtn.classList.remove("fa-pause"), + e.playBtn.classList.add("fa-play"), + e.playBtn.title = "Play", + null != e.bigPlayBox && (e.bigPlayBox.classList.remove("fa-pause"), e.bigPlayBox.classList.add("fa-play"), e.bigPlayBox.style = "display:block", e.bigPlayBox.title = "Play"), + e.playFlag = !0, + e.timeTrack && (e.timeTrack.value = 0, e.timeLabel.innerHTML = "00:00:00/00:00:00") + }, n.style = "display:inine-block;width: 15px;color: #fff;line-height: 27px;margin-right:10px;padding:0px 2px;cursor:pointer;", this.timeBox.appendChild(n), this.soundButton = document.createElement("span"), this.defaultAudioStatus = 1 == N, this.enableAudio = 1 == N, this.enableAudio ? this.soundButton.classList = "fa fa-volume-up " : this.soundButton.classList = "fa fa-volume-off ", this.soundButton.style = "display:inine-block;width:23px;color:#fff;line-height: 27px;margin-right:10px; text-align:center;cursor:pointer;", this.soundButton.onclick = function () { + e.enableAudio ? e.closeAudio() : e.openAudio() + }, this.timeBox.appendChild(this.soundButton), (n = document.createElement("span")).classList = "no-padding", n.style = "display:inine-block;width:100%;display:flex;", this.timeBox.appendChild(n), (N = document.createElement("input")).classList = "timeTrack", N.id = "timeTrack", N.type = "range", N.style = "width:100%;-webkit-appearance: none;height:3px;border-radius:3px;cursor:pointer;margin:auto;display:none", N.value = 0, n.appendChild(N), this.timeTrack = N, this.timeRule = n, (N = document.createElement("span")).classList = "padding", N.style = "display:inine-block;padding-left:10px;", this.timeBox.appendChild(N), (n = document.createElement("label")).style = "color: #fff;margin: 0 40px 0px 10px;line-height:27px;display:none", n.innerHTML = "00:00:00/00:00:00", N.appendChild(n), this.timeLabel = n, this.timeTrack && (this.timeTrack.oninput = function () { + e.seeking || e.seekToPercent(e.timeTrack.value, 1) + }, this.timeTrack.onchange = function () {}), C && void 0 !== C || (this.logo = document.createElement("a"), this.logo.classList = "iconfont iconqingxiLOGO", this.logo.title = "青犀视频", this.logo.href = "http://www.tsingsee.com", this.logo.target = "_blank", this.logo.style = "display:inline-block;color: #fff;font-size:70px;margin-right:40px;line-height: 27px;text-align:center;position:absolute;top:1px;right:0px;cursor:pointer;overflow: hidden;opacity: 1;", this.timeBox.appendChild(this.logo), this.detectionLogo()), this.domKbps = document.createElement("div"), this.timeBox.appendChild(this.domKbps), this.full = document.createElement("span"), this.full.classList = "fa fa-expand", this.full.title = "Fullscreen", this.full.onclick = function () { + e.fullScreen() + }, this.full.style = "color: #fff;width:20px;margin-right: 10px;line-height: 27px;text-align:center;position:absolute;top:0px;right:0px;cursor:pointer", this.timeBox.appendChild(this.full), this.Menu = document.createElement("div"), this.Menu.style = " position: absolute;left: 0;top: 0;min-width:140px;border-radius: 4px;background:rgba(43, 51, 63, 0.7); color:#fff;font-size:12px;padding:5px 10px;display: none;z-index: 9;", this.playerUI.appendChild(this.Menu), (C = document.createElement("div")).innerHTML = "版本号:" + this.version, this.Menu.appendChild(C), (i = this).playerUI.oncontextmenu = function (A) { + var M = A.offsetX, + t = A.offsetY; + return i.Menu.style.display = "block", + "RectBox" === A.target.className ? (i.Menu.style.left = A.x - 8 + "px", i.Menu.style.top = A.y - 38 + "px") : (i.Menu.style.left = M + "px", i.Menu.style.top = t + "px"), + !1 + }, this.playerUI.onclick = function (A) { + A = A || window.event; + i.Menu.style.display = "none" + }, i.Menu.onclick = function (A) { + (A = A || window.event).cancelBubble = !0 + }, this.playerUI.onmousemove = function () { + e.timeBox.style = "position: absolute;left: 0px;bottom: 0px;display:flex;width: 100%;background-color: rgba(43,51,63,.7);z-index:10;", + clearTimeout(this.Timer), + this.Timer = setTimeout(function () { + e.timeBox.style = "position: absolute;left: 0px;bottom: 0px;display:flex;width: 100%;background-color: rgba(43,51,63,.7);z-index:10;opacity:0;" + }, 3e3) + }, this.playerUI.onmouseout = function () { + clearTimeout(this.Timer), + this.Timer = setTimeout(function () { + e.timeBox.style = "position: absolute;left: 0px;bottom: 0px;display:flex;width: 100%;background-color: rgba(43,51,63,.7);z-index:10;opacity:0;" + }, 3e3) + }, document.addEventListener("fullscreenchange", function (A) { + document.fullscreenElement || (i.full.classList.remove("fa-compress"), i.full.classList.add("fa-expand"), document.exitFullScreen ? document.exitFullScreen() : document.mozCancelFullScreen ? document.mozCancelFullScreen() : document.webkitExitFullscreen ? document.webkitExitFullscreen() : element.msExitFullscreen && element.msExitFullscreen(), i.fulls = !0, i.full.title = "Fullscreen") + })) + } + var M = A.prototype; + return M.normal = function () { + this.timeRule.innerHTML = "", + this.timeRule.style = "color:#fff;line-height: 27px;font-size=16px;width:100%;display:flex;", + this.timeLabel.style = " color: #fff;margin: 0 120px 0px 10px;display:none" + }, + M.live = function () { + this.timeRule.innerHTML = "LIVE", + this.timeRule.style = "color:#fff;line-height: 27px;font-size=16px;width:100%;display:flex;", + this.timeLabel.style = " color: #fff;margin: 0 120px 0px 10px;display:none" + }, + M.playback = function () { + this.timeRule.innerHTML = "", + this.timeTrack.style = "width:100%;-webkit-appearance:none;height:3px;border-radius:3px;cursor:pointer;margin:auto;", + this.timeTrack.value = 0, + this.timeRule.appendChild(this.timeTrack), + this.UnLogo || this.HideKbs ? this.UnLogo ? this.timeLabel.style = "color: #fff;margin: 0 40px 0px 10px;dispplay:block;line-height:27px;" : this.timeLabel.style = "color: #fff;margin: 0 120px 0px 10px;dispplay:block;line-height:27px;" : this.timeLabel.style = "color: #fff;margin: 0 174px 0px 10px;dispplay:block;line-height:27px;" + }, + M.onUpdateTrackPos = function (A) {}, + M.removeAllChilds = function (A) { + for (var M = A.childNodes.length - 1; 0 <= M; M--) + this.removeAllChilds(A.childNodes[M]), A.removeChild(A.childNodes[M]) + }, + M.destroy = function () { + this.playerUI && this.removeAllChilds(this.playerUI), + this.stop(), + this.destroyPlayerInstance(), + this.destroyWebRTCPlayerInstance(), + clearInterval(this.LogoTimer), + clearInterval(this.timeKbps) + }, + M.destroyPlayerInstance = function () { + this.playerInstance && (this.playerInstance.stop(), this.playerInstance.destroy(), delete this.playerInstance, this.playerInstance = null) + }, + M.destroyWebRTCPlayerInstance = function () { + this.WebRTCPlayerInstance && (this.WebRTCPlayerInstance.stop(), this.WebRTCPlayerInstance.destroy(), delete this.WebRTCPlayerInstance, this.WebRTCPlayerInstance = null) + }, + M.changeToH5Video = function (A) { + if (this.initH5Flag) { + if (A == this.currentH5Status) + return + } else + this.initH5Flag = !0; + (this.currentH5Status = A) ? (this.canvas && (this.playerUI.removeChild(this.canvas), this.playerUI.removeChild(this.timeBox)), null == this.h5Video && (this.h5Video = document.createElement("VIDEO")), this.h5Video.style = "width:100%;height:100%;position:absolute;top:0px;left:0px;background: black;object-fit:fill;", this.h5Video.setAttribute("oncontextmenu", "return false"), this.playerUI.appendChild(this.h5Video)) : (this.h5Video && (this.playerUI.removeChild(this.h5Video), this.playerUI.removeChild(this.timeBox)), null == this.canvas && (this.canvas = document.createElement("canvas")), this.canvas.style = "width:100%;height:100%;position:absolute;top:0px;left:0px;background: black;", this.playerUI.appendChild(this.canvas)), + this.playerUI.appendChild(this.timeBox) + }, + M._onConnectStatus = function (A, M) { + A.loadingBox.style = 1 == M ? "display:none" : "width:100%;height:100%;position: absolute;left:0px;top:0px;background:rgba(0,0,0,0.6);z-index:9;display:block" + }, + M._onChangeTypeCallback = function (A, M, t) { + A.changeToH5Video(!t) + }, + M.formatTime = function (A) { + return (Math.floor(A / 3600) < 10 ? "0" + Math.floor(A / 3600) : Math.floor(A / 3600)) + ":" + (Math.floor(A / 60 % 60) < 10 ? "0" + Math.floor(A / 60 % 60) : Math.floor(A / 60 % 60)) + ":" + (A = Math.floor(A % 60) < 10 ? "0" + Math.floor(A % 60) : Math.floor(A % 60)) + }, + M._onVideoTimestamp = function (A, M) { + A.callbackFunc && A.callbackFunc("videoTimestamp", M) + }, + M._onUpdatePlayTime = function (A, M, t, g) { + var I; + 0 == t && A.endLoading(), + A.showTimeLabel || (A.showTimeLabel = !0, g !== 1 / 0 && 0 < g ? A.playback() : A.live()), + g !== 1 / 0 && (g < 1 || A.showTimeLabel && A.timeTrack && 0 < g && ((I = parseInt((t + 1) / g * 100)) !== parseInt(A.timeTrack.value) && (A.timeTrack.value = I), A.onUpdateTrackPos(I), A.timeLabel && void 0 !== A.timeLabel && (t < 1 ? t = 0 : g < t && (t = g), A.timeLabel.innerHTML = A.formatTime(t) + "/" + A.formatTime(g)), A.callbackFunc && !this.callbackEnd && (A.callbackFunc("playbackTime", t), 100 != I || this.callbackEnd || (A.callbackFunc("ended", 0), this.callbackEnd = !0)))) + }, + M.startLoading = function () { + this.callbackFunc("startLoading"), + this.loadingBox.style = "width:100%;height:100%;position: absolute;left:0px;top:0px;background:rgba(0,0,0,0.6);z-index:9;" + }, + M.endLoading = function () { + this.callbackFunc("endLoading"), + this.loadingBox.style = "display:none" + }, + M.detectionLogo = function () { + var A = this; + this.LogoTimer = setInterval(function () { + null != A.logo && "青犀视频" == A.logo.title && "http://www.tsingsee.com/" === A.logo.href && "inline-block" == A.logo.style.display && "1" == A.logo.style.opacity || A.stop() + }, 1e3) + }, + M.setSnap = function (A) { + this.startLoading(), + this.Snap.src = A, + this.Snap.style = "position:absolute;top:0px;left:0px;width:100%;height:100%;z-index:1;display:block" + }, + M.endSnap = function () { + this.endLoading(), + this.Snap.style = "display:none" + }, + M.play = function (A, M, t) { + var g = this; + if (this.endSnap(), null != this.playerUI) { + if (this.callbackFunc("play"), 0 == M && null != this.bigPlayBox && (this.bigPlayBox.style = "display:block"), A && (this.url = A), null != t && (this.seekTimeSecs = t), !(i = this.url) || "" === i || void 0 === i || -1 == i.indexOf("webrtc:") && -1 == i.indexOf("webrtcs:") && (-1 != i.indexOf("rtmp:") || -1 != i.indexOf("rtsp:") || -1 == i.indexOf("http:") && -1 == i.indexOf("https:") && -1 == i.indexOf("ws://") && -1 == i.indexOf("wss://"))) + return !1; + if (1 != M) + return !0; + null != this.bigPlayBox && (this.bigPlayBox.style = "display:none"), + this._onConnectStatus(this, 1); + var I = !1, + e = !1, + t = !1, + i = !1, + M = this.url.substr(this.url.lastIndexOf(".") + 1); + -1 != this.url.indexOf("webrtc:") || -1 != this.url.indexOf("webrtcs:") ? i = !0 : M ? (-1 < (T = M.toLowerCase()).indexOf("m3u8") ? I = !0 : -1 < T.indexOf("flv") ? e = !0 : -1 < T.indexOf("mp4") && (t = !0), I || e || t || (-1 < this.url.indexOf(".flv") ? e = !0 : -1 < this.url.indexOf(".m3u8") ? I = !0 : -1 < this.url.indexOf(".mp4") && (t = !0))) : e = !0, + i ? this.destroyPlayerInstance() : this.destroyWebRTCPlayerInstance(); + var T = this.callbackEnd = !1; + return (I ? (this._onConnectStatus(this, 0), this.showTimeLabel = !1, null != this.playerInstance && this.playerInstance.isPause() || this.live(), this.isHLS = !1, null == this.playerInstance && (this.playerInstance = new EA("m3u8", this.h5Video, null == this.offscreenCanvas ? this.canvas : this.offscreenCanvas, this.decodeType, this._onChangeTypeCallback, this._onUpdatePlayTime, this._onConnectStatus, this._onVideoTimestamp, this, this.enableAudio, this.callbackFunc, this.callbackRect.bind(this))), T = this.playerInstance.play(this.url, this.seekTimeSecs), this.enableAudio = this.defaultAudioStatus, !this.internalTriggerPlay && this.enableAudio && this.openAudio(), this.seekTimeSecs = 0) : t ? (this.changeToH5Video(!0), this.showTimeLabel = !1, null != this.playerInstance && this.playerInstance.isPause() || this.live(), this.isHLS = !1, null == this.playerInstance && (this.playerInstance = new iA({ + type: "mp4", + url: A + }, this.h5Video, this._onUpdatePlayTime, this)), this.enableAudio = this.defaultAudioStatus, !this.internalTriggerPlay && this.enableAudio ? this.openAudio() : this.closeAudio(), T = !0) : e ? ("undefined" != typeof OffscreenCanvas && this.offscreenCanvas, this.isHLS, this.showTimeLabel = !1, this.live(), this.isHLS = !1, null == this.playerInstance && (this.playerInstance = new EA("flv", this.h5Video, null == this.offscreenCanvas ? this.canvas : this.offscreenCanvas, this.decodeType, this._onChangeTypeCallback, this._onUpdatePlayTime, this._onConnectStatus, this._onVideoTimestamp, this, this.enableAudio, this.callbackFunc, this.callbackRect.bind(this))), T = this.playerInstance.play(this.url, 0), this.enableAudio = this.defaultAudioStatus, !this.internalTriggerPlay && this.enableAudio && this.openAudio()) : i && (this.changeToH5Video(!0), this.HideKbs = !0, this.WebRTCPlayerInstance = new NA(this.url, this.h5Video, this.callbackFunc), this.WebRTCPlayerInstance.play(), T = !0), this.HideKbs || (this.domKbps.style = "position:absolute;top:6px;right:112px;z-index: 19;font-size: 12px;color: #fff;", this.timeKbps = setInterval(function () { + var A, + M; + g.playerInstance.flvPlayer && g.playerInstance.flvPlayer._transmuxer && g.playerInstance.flvPlayer._transmuxer._controller && g.playerInstance.flvPlayer._transmuxer._controller._ioctl && (A = parseInt(g.playerInstance.flvPlayer._transmuxer._controller._ioctl.currentSpeed), M = parseInt(g.playerInstance.flvPlayer._transmuxer._controller._ioctl.averageKBps), g.domKbps.innerText = 1024 <= 8 * M ? (8 * M / 1024).toFixed(2) + "Mb/s" : 8 * M + "Kb/s", g.cfKbs({ + currentKbs: 8 * A, + averageKbs: 8 * M, + currentKbps: A, + averageKbps: M + })) + }, 1e3)), null == this.playerInstance && null == this.WebRTCPlayerInstance) ? !1 : (T && (this.playBtn.classList.remove("fa-play"), this.playBtn.classList.add("fa-pause"), this.playBtn.title = "Pause", null != this.bigPlayBox && (this.bigPlayBox.classList.remove("fa-play"), this.bigPlayBox.classList.add("fa-pause"), this.bigPlayBox.style = "display:none", this.bigPlayBox.title = "Pause"), this.playFlag = !1), T) + } + }, + M.callbackRect = function (A) { + if (null != this.playerUI) { + for (var M = 0; M < this.playerUI.childNodes.length; M++) + "RectBox" == this.playerUI.childNodes[M].className && this.playerUI.childNodes[M].parentNode.removeChild(this.playerUI.childNodes[M]); + if (0 !== A.Rect.length) + for (var t = 0; t < A.Rect.length; t++) { + var g = A.Rect[t], + I = g.W, + e = g.H, + i = g.X, + T = g.Y, + E = A.height, + N = A.width, + n = document.createElement("div"), + D = 0, + g = 0; + Math.round(E / N * 1e4) / 100 != 56.25 && (56.25 < Math.round(E / N * 1e4) / 100 ? D = Math.round((N - E) / N * 1e4) / 100 / 2 : g = (100 - Math.round(E / (N - E) * 1e4) / 100) / 2 - 2), + n.style = "width:" + Math.round(I / N * 1e4) / 100 + "%;\n\t\t\t\t\theight:" + Math.round(e / E * 1e4) / 100 + "%;\n\t\t\t\t\tleft:" + (Math.round(i / N * 1e4) / 100 + D) + "%;\n\t\t\t\t\ttop:" + (Math.round(T / E * 1e4) / 100 + g) + "%;\n\t\t\t\t\tposition: absolute; box-sizing: border-box;\n\t\t\t\t\tborder: 1px solid red;z-index:8;", + n.classList = "RectBox", + this.playerUI.appendChild(n) + } + } + }, + M.stop = function () { + if (null != this.playerUI) + return this.callbackFunc("stop"), this.callbackEnd = !1, this._onConnectStatus(this, 1), !!this.playerInstance && (this.closeAudio(), this.playerInstance.stop(), this.showTimeLabel = !1, this.normal(), !0) + }, + M.pause = function () { + this.callbackFunc("pause"), + this.playerInstance && (this.playerInstance.pause(), this.playBtn.classList.remove("fa-pause"), this.playBtn.classList.add("fa-play"), this.playBtn.title = "Play", null != this.bigPlayBox && (this.bigPlayBox.classList.remove("fa-pause"), this.bigPlayBox.classList.add("fa-play"), this.bigPlayBox.style = "display:block", this.bigPlayBox.title = "Play"), this.playFlag = !0) + }, + M.resume = function () { + this.callbackFunc("resume"), + this.playerInstance && this.playerInstance.resume() + }, + M.seekToSecs = function (A) { + this.playerInstance && this.playerInstance.seek(A, 0) + }, + M.seekToPercent = function (A) { + this.playerInstance && this.playerInstance.seek(A, 1) + }, + M.setTrack = function (A, M) { + this.playerInstance && this.playerInstance.setTrack(A, M) + }, + M.openAudio = function () { + return this.callbackFunc("openAudio"), + this.playerInstance && (this.playerInstance.openAudio() ? (this.soundButton.classList.add("fa-volume-up"), this.soundButton.classList.remove("fa-volume-off"), this.enableAudio = !0) : (this.soundButton.classList.add("fa-volume-off"), this.soundButton.classList.remove("fa-volume-up"), this.enableAudio = !1)), + this.enableAudio + }, + M.closeAudio = function () { + if (this.callbackFunc("closeAudio"), this.playerInstance) { + if (!this.enableAudio) + return !0; + this.playerInstance.closeAudio() ? (this.soundButton.classList.add("fa-volume-off"), this.soundButton.classList.remove("fa-volume-up"), this.enableAudio = !1) : (this.soundButton.classList.add("fa-volume-up"), this.soundButton.classList.remove("fa-volume-off"), this.enableAudio = !0) + } + return !this.enableAudio + }, + M.showStaticsInfo = function (A) { + return null != this.playerInstance && (A ? this.playerInstance.openStatinfo() : this.playerInstance.closeStatinfo()) + }, + M.fullScreen = function () { + var A, + M = this; + M.fulls ? (M.callbackFunc("full"), M.full.classList.remove("fa-expand"), M.full.classList.add("fa-compress"), M.playerUI.requestFullscreen ? M.playerUI.requestFullscreen() : M.playerUI.mozRequestFullScreen ? M.playerUI.mozRequestFullScreen() : M.playerUI.webkitRequestFullscreen ? M.playerUI.webkitRequestFullscreen() : M.playerUI.msRequestFullscreen && M.playerUI.msRequestFullscreen(), M.fulls = !1, M.full.title = "Exit Fullscreen", -1 < (A = navigator.userAgent).indexOf("Android") || A.indexOf("Adr"), A.match(/\(i[^;]+;( U;)? CPU.+Mac OS X/)) : (M.callbackFunc("unFull"), M.full.classList.remove("fa-compress"), M.full.classList.add("fa-expand"), document.exitFullScreen ? document.exitFullScreen() : document.mozCancelFullScreen ? document.mozCancelFullScreen() : document.webkitExitFullscreen ? document.webkitExitFullscreen() : element.msExitFullscreen && element.msExitFullscreen(), M.fulls = !0, M.full.title = "Fullscreen") + }, + A + } + () + }, function (A, M, t) { + "use strict"; + t.r(M); + var B = t(1), + g = (t(59), t(22)), + I = t.n(g); + function E(A) { + for (var M, t = A.split(new RegExp('(?:^|,)((?:[^=]*)=(?:"[^"]*"|[^,]*))')), g = {}, I = t.length; I--; ) + "" !== t[I] && ((M = /([^=]*)=(.*)/.exec(t[I]).slice(1))[0] = M[0].replace(/^\s+|\s+$/g, ""), M[1] = M[1].replace(/^\s+|\s+$/g, ""), M[1] = M[1].replace(/^['"](.*)['"]$/g, "$1"), g[M[0]] = M[1]); + return g + } + var D = function (M) { + var A; + function t() { + var A = M.call(this) || this; + return A.customParsers = [], + A.tagMappers = [], + A + } + g = M, + (A = t).prototype = Object.create(g.prototype), + (A.prototype.constructor = A).__proto__ = g; + var g = t.prototype; + return g.push = function (t) { + var e, + i, + T = this; + 0 !== (t = t.trim()).length && ("#" === t[0] ? this.tagMappers.reduce(function (A, M) { + M = M(t); + return M === t ? A : A.concat([M]) + }, [t]).forEach(function (A) { + for (var M, t, g, I = 0; I < T.customParsers.length; I++) + if (T.customParsers[I].call(T, A)) + return; + if (0 === A.indexOf("#EXT")) + if (A = A.replace("\r", ""), e = /^#EXTM3U/.exec(A)) + T.trigger("data", { + type: "tag", + tagType: "m3u" + }); + else { + if (e = /^#EXTINF:?([0-9\.]*)?,?(.*)?$/.exec(A)) + return i = { + type: "tag", + tagType: "inf" + }, + e[1] && (i.duration = parseFloat(e[1])), + e[2] && (i.title = e[2]), + void T.trigger("data", i); + if (e = /^#EXT-X-TARGETDURATION:?([0-9.]*)?/.exec(A)) + return i = { + type: "tag", + tagType: "targetduration" + }, + e[1] && (i.duration = parseInt(e[1], 10)), + void T.trigger("data", i); + if (e = /^#ZEN-TOTAL-DURATION:?([0-9.]*)?/.exec(A)) + return i = { + type: "tag", + tagType: "totalduration" + }, + e[1] && (i.duration = parseInt(e[1], 10)), + void T.trigger("data", i); + if (e = /^#EXT-X-VERSION:?([0-9.]*)?/.exec(A)) + return i = { + type: "tag", + tagType: "version" + }, + e[1] && (i.version = parseInt(e[1], 10)), + void T.trigger("data", i); + if (e = /^#EXT-X-MEDIA-SEQUENCE:?(\-?[0-9.]*)?/.exec(A)) + return i = { + type: "tag", + tagType: "media-sequence" + }, + e[1] && (i.number = parseInt(e[1], 10)), + void T.trigger("data", i); + if (e = /^#EXT-X-DISCONTINUITY-SEQUENCE:?(\-?[0-9.]*)?/.exec(A)) + return i = { + type: "tag", + tagType: "discontinuity-sequence" + }, + e[1] && (i.number = parseInt(e[1], 10)), + void T.trigger("data", i); + if (e = /^#EXT-X-PLAYLIST-TYPE:?(.*)?$/.exec(A)) + return i = { + type: "tag", + tagType: "playlist-type" + }, + e[1] && (i.playlistType = e[1]), + void T.trigger("data", i); + if (e = /^#EXT-X-BYTERANGE:?([0-9.]*)?@?([0-9.]*)?/.exec(A)) + return i = { + type: "tag", + tagType: "byterange" + }, + e[1] && (i.length = parseInt(e[1], 10)), + e[2] && (i.offset = parseInt(e[2], 10)), + void T.trigger("data", i); + if (e = /^#EXT-X-ALLOW-CACHE:?(YES|NO)?/.exec(A)) + return i = { + type: "tag", + tagType: "allow-cache" + }, + e[1] && (i.allowed = !/NO/.test(e[1])), + void T.trigger("data", i); + if (e = /^#EXT-X-MAP:?(.*)$/.exec(A), e) + return i = { + type: "tag", + tagType: "map" + }, + e[1] && ((M = E(e[1])).URI && (i.uri = M.URI), M.BYTERANGE && (g = (t = M.BYTERANGE.split("@"))[0], t = t[1], i.byterange = {}, g && (i.byterange.length = parseInt(g, 10)), t && (i.byterange.offset = parseInt(t, 10)))), + void T.trigger("data", i); + if (e = /^#EXT-X-STREAM-INF:?(.*)$/.exec(A), e) + return i = { + type: "tag", + tagType: "stream-inf" + }, + e[1] && (i.attributes = E(e[1]), i.attributes.RESOLUTION && (g = {}, (t = i.attributes.RESOLUTION.split("x"))[0] && (g.width = parseInt(t[0], 10)), t[1] && (g.height = parseInt(t[1], 10)), i.attributes.RESOLUTION = g), i.attributes.BANDWIDTH && (i.attributes.BANDWIDTH = parseInt(i.attributes.BANDWIDTH, 10)), i.attributes["PROGRAM-ID"] && (i.attributes["PROGRAM-ID"] = parseInt(i.attributes["PROGRAM-ID"], 10))), + void T.trigger("data", i); + if (e = /^#EXT-X-MEDIA:?(.*)$/.exec(A)) + return i = { + type: "tag", + tagType: "media" + }, + e[1] && (i.attributes = E(e[1])), + void T.trigger("data", i); + if (e = /^#EXT-X-ENDLIST/.exec(A)) + T.trigger("data", { + type: "tag", + tagType: "endlist" + }); + else { + if (!(e = /^#EXT-X-DISCONTINUITY/.exec(A))) + return (e = /^#EXT-X-PROGRAM-DATE-TIME:?(.*)$/.exec(A)) ? (i = { + type: "tag", + tagType: "program-date-time" + }, e[1] && (i.dateTimeString = e[1], i.dateTimeObject = new Date(e[1])), void T.trigger("data", i)) : (e = /^#EXT-X-KEY:?(.*)$/.exec(A)) ? (i = { + type: "tag", + tagType: "key" + }, e[1] && (i.attributes = E(e[1]), i.attributes.IV && ("0x" === i.attributes.IV.substring(0, 2).toLowerCase() && (i.attributes.IV = i.attributes.IV.substring(2)), i.attributes.IV = i.attributes.IV.match(/.{8}/g), i.attributes.IV[0] = parseInt(i.attributes.IV[0], 16), i.attributes.IV[1] = parseInt(i.attributes.IV[1], 16), i.attributes.IV[2] = parseInt(i.attributes.IV[2], 16), i.attributes.IV[3] = parseInt(i.attributes.IV[3], 16), i.attributes.IV = new Uint32Array(i.attributes.IV))), void T.trigger("data", i)) : (e = /^#EXT-X-START:?(.*)$/.exec(A)) ? (i = { + type: "tag", + tagType: "start" + }, e[1] && (i.attributes = E(e[1]), i.attributes["TIME-OFFSET"] = parseFloat(i.attributes["TIME-OFFSET"]), i.attributes.PRECISE = /YES/.test(i.attributes.PRECISE)), void T.trigger("data", i)) : (e = /^#EXT-X-CUE-OUT-CONT:?(.*)?$/.exec(A)) ? (i = { + type: "tag", + tagType: "cue-out-cont" + }, e[1] ? i.data = e[1] : i.data = "", void T.trigger("data", i)) : (e = /^#EXT-X-CUE-OUT:?(.*)?$/.exec(A)) ? (i = { + type: "tag", + tagType: "cue-out" + }, e[1] ? i.data = e[1] : i.data = "", void T.trigger("data", i)) : (e = /^#EXT-X-CUE-IN:?(.*)?$/.exec(A)) ? (i = { + type: "tag", + tagType: "cue-in" + }, e[1] ? i.data = e[1] : i.data = "", void T.trigger("data", i)) : void T.trigger("data", { + type: "tag", + data: A.slice(4) + }); + T.trigger("data", { + type: "tag", + tagType: "discontinuity" + }) + } + } + else + T.trigger("data", { + type: "comment", + text: A.slice(1) + }) + }) : this.trigger("data", { + type: "uri", + uri: t + })) + }, + g.addParser = function (A) { + var M = this, + t = A.expression, + g = A.customType, + I = A.dataParser, + e = A.segment; + "function" != typeof I && (I = function (A) { + return A + }), + this.customParsers.push(function (A) { + if (t.exec(A)) + return M.trigger("data", { + type: "custom", + data: I(A), + customType: g, + segment: e + }), !0 + }) + }, + g.addTagMapper = function (A) { + var M = A.expression, + t = A.map; + this.tagMappers.push(function (A) { + return M.test(A) ? t(A) : A + }) + }, + t + } + (I.a); + var C = function (M) { + var A, + t; + function g() { + var A = M.call(this) || this; + return A.buffer = "", + A + } + return t = M, + (A = g).prototype = Object.create(t.prototype), + (A.prototype.constructor = A).__proto__ = t, + g.prototype.push = function (A) { + var M; + for (this.buffer += A, M = this.buffer.indexOf("\n"); -1 < M; M = this.buffer.indexOf("\n")) + this.trigger("data", this.buffer.substring(0, M)), this.buffer = this.buffer.substring(M + 1) + }, + g + } + (I.a), + g = t(110), + r = t.n(g); + var Q = function (M) { + var A; + function t() { + var A = M.call(this) || this; + A.lineStream = new C, + A.parseStream = new D, + A.lineStream.pipe(A.parseStream); + var I, + e, + i = function (A) { + if (void 0 === A) + throw new ReferenceError("this hasn't been initialised - super() hasn't been called"); + return A + } + (A), + T = [], + E = {}, + N = { + AUDIO: {}, + VIDEO: {}, + "CLOSED-CAPTIONS": {}, + SUBTITLES: {} + }, + n = 0; + return A.manifest = { + allowCache: !0, + discontinuityStarts: [], + segments: [] + }, + A.parseStream.on("data", function (M) { + var t, + g; + ({ + tag: function () { + ({ + "allow-cache": function () { + this.manifest.allowCache = M.allowed, + "allowed" in M || (this.trigger("info", { + message: "defaulting allowCache to YES" + }), this.manifest.allowCache = !0) + }, + byterange: function () { + var A = {}; + "length" in M && ((E.byterange = A).length = M.length, "offset" in M || (this.trigger("info", { + message: "defaulting offset to zero" + }), M.offset = 0)), + "offset" in M && ((E.byterange = A).offset = M.offset) + }, + endlist: function () { + this.manifest.endList = !0 + }, + inf: function () { + "mediaSequence" in this.manifest || (this.manifest.mediaSequence = 0, this.trigger("info", { + message: "defaulting media sequence to zero" + })), + "discontinuitySequence" in this.manifest || (this.manifest.discontinuitySequence = 0, this.trigger("info", { + message: "defaulting discontinuity sequence to zero" + })), + 0 < M.duration && (E.duration = M.duration), + 0 === M.duration && (E.duration = .01, this.trigger("info", { + message: "updating zero segment duration to a small value" + })), + this.manifest.segments = T + }, + key: function () { + if (M.attributes) + if ("NONE" !== M.attributes.METHOD) + if (M.attributes.URI) { + if ("urn:uuid:edef8ba9-79d6-4ace-a3c8-27dcd51d21ed" === M.attributes.KEYFORMAT) + return -1 === ["SAMPLE-AES", "SAMPLE-AES-CTR", "SAMPLE-AES-CENC"].indexOf(M.attributes.METHOD) ? void this.trigger("warn", { + message: "invalid key method provided for Widevine" + }) : ("SAMPLE-AES-CENC" === M.attributes.METHOD && this.trigger("warn", { + message: "SAMPLE-AES-CENC is deprecated, please use SAMPLE-AES-CTR instead" + }), "data:text/plain;base64," !== M.attributes.URI.substring(0, 23) ? void this.trigger("warn", { + message: "invalid key URI provided for Widevine" + }) : M.attributes.KEYID && "0x" === M.attributes.KEYID.substring(0, 2) ? void(this.manifest.contentProtection = { + "com.widevine.alpha": { + attributes: { + schemeIdUri: M.attributes.KEYFORMAT, + keyId: M.attributes.KEYID.substring(2) + }, + pssh: r()(M.attributes.URI.split(",")[1]) + } + }) : void this.trigger("warn", { + message: "invalid key ID provided for Widevine" + })); + M.attributes.METHOD || this.trigger("warn", { + message: "defaulting key method to AES-128" + }), + e = { + method: M.attributes.METHOD || "AES-128", + uri: M.attributes.URI + }, + void 0 !== M.attributes.IV && (e.iv = M.attributes.IV) + } else + this.trigger("warn", { + message: "ignoring key declaration without URI" + }); + else + e = null; + else + this.trigger("warn", { + message: "ignoring key declaration without attribute list" + }) + }, + "media-sequence": function () { + isFinite(M.number) ? this.manifest.mediaSequence = M.number : this.trigger("warn", { + message: "ignoring invalid media sequence: " + M.number + }) + }, + "discontinuity-sequence": function () { + isFinite(M.number) ? (this.manifest.discontinuitySequence = M.number, n = M.number) : this.trigger("warn", { + message: "ignoring invalid discontinuity sequence: " + M.number + }) + }, + "playlist-type": function () { + /VOD|EVENT/.test(M.playlistType) ? this.manifest.playlistType = M.playlistType : this.trigger("warn", { + message: "ignoring unknown playlist type: " + M.playlist + }) + }, + map: function () { + I = {}, + M.uri && (I.uri = M.uri), + M.byterange && (I.byterange = M.byterange) + }, + "stream-inf": function () { + this.manifest.playlists = T, + this.manifest.mediaGroups = this.manifest.mediaGroups || N, + M.attributes ? (E.attributes || (E.attributes = {}), Object.assign(E.attributes, M.attributes)) : this.trigger("warn", { + message: "ignoring empty stream-inf attributes" + }) + }, + media: function () { + var A; + this.manifest.mediaGroups = this.manifest.mediaGroups || N, + M.attributes && M.attributes.TYPE && M.attributes["GROUP-ID"] && M.attributes.NAME ? ((A = this.manifest.mediaGroups[M.attributes.TYPE])[M.attributes["GROUP-ID"]] = A[M.attributes["GROUP-ID"]] || {}, t = A[M.attributes["GROUP-ID"]], (g = { + default: + /yes/i.test(M.attributes.DEFAULT) + }).default ? g.autoselect = !0 : g.autoselect = /yes/i.test(M.attributes.AUTOSELECT), M.attributes.LANGUAGE && (g.language = M.attributes.LANGUAGE), M.attributes.URI && (g.uri = M.attributes.URI), M.attributes["INSTREAM-ID"] && (g.instreamId = M.attributes["INSTREAM-ID"]), M.attributes.CHARACTERISTICS && (g.characteristics = M.attributes.CHARACTERISTICS), M.attributes.FORCED && (g.forced = /yes/i.test(M.attributes.FORCED)), t[M.attributes.NAME] = g) : this.trigger("warn", { + message: "ignoring incomplete or missing media group" + }) + }, + discontinuity: function () { + n += 1, + E.discontinuity = !0, + this.manifest.discontinuityStarts.push(T.length) + }, + "program-date-time": function () { + void 0 === this.manifest.dateTimeString && (this.manifest.dateTimeString = M.dateTimeString, this.manifest.dateTimeObject = M.dateTimeObject), + E.dateTimeString = M.dateTimeString, + E.dateTimeObject = M.dateTimeObject + }, + targetduration: function () { + !isFinite(M.duration) || M.duration < 0 ? this.trigger("warn", { + message: "ignoring invalid target duration: " + M.duration + }) : this.manifest.targetDuration = M.duration + }, + totalduration: function () { + !isFinite(M.duration) || M.duration < 0 ? this.trigger("warn", { + message: "ignoring invalid total duration: " + M.duration + }) : this.manifest.totalDuration = M.duration + }, + start: function () { + M.attributes && !isNaN(M.attributes["TIME-OFFSET"]) ? this.manifest.start = { + timeOffset: M.attributes["TIME-OFFSET"], + precise: M.attributes.PRECISE + } + : this.trigger("warn", { + message: "ignoring start declaration without appropriate attribute list" + }) + }, + "cue-out": function () { + E.cueOut = M.data + }, + "cue-out-cont": function () { + E.cueOutCont = M.data + }, + "cue-in": function () { + E.cueIn = M.data + } + } + [M.tagType] || function () {}).call(i) + }, + uri: function () { + E.uri = M.uri, + T.push(E), + !this.manifest.targetDuration || "duration" in E || (this.trigger("warn", { + message: "defaulting segment duration to the target duration" + }), E.duration = this.manifest.targetDuration), + e && (E.key = e), + E.timeline = n, + I && (E.map = I), + E = {} + }, + comment: function () {}, + custom: function () { + M.segment ? (E.custom = E.custom || {}, E.custom[M.customType] = M.data) : (this.manifest.custom = this.manifest.custom || {}, this.manifest.custom[M.customType] = M.data) + } + })[M.type].call(i) + }), + A + } + g = M, + (A = t).prototype = Object.create(g.prototype), + (A.prototype.constructor = A).__proto__ = g; + var g = t.prototype; + return g.push = function (A) { + this.lineStream.push(A) + }, + g.end = function () { + this.lineStream.push("\n") + }, + g.addParser = function (A) { + this.parseStream.addParser(A) + }, + g.addTagMapper = function (A) { + this.parseStream.addTagMapper(A) + }, + t + } + (I.a), + I = new WebAssembly.Memory({ + initial: 256, + maximum: 256 + }); + new WebAssembly.Table({ + initial: 0, + maximum: 0, + element: "anyfunc" + }), + I.buffer.byteLength, + M.default = function (r) { + r.url = "", + r.canvas = null, + r.webGLPlayer = null, + r.videoSampleQueue = [], + r.audioSampleQueue = [], + r.videoInterval = 40, + r.lastRenderTime = 0, + r.intervalVal = 0, + r.renderFrameCount = 0, + r.requestAbort = !1, + r.pause = !1, + r.cbStreamData = !0, + r.reConnect = !0, + r.isLiveStream = !0, + r.seekTime = 0, + r.totalDuration = 0, + r.playDuration = 0, + r.startVideoPts = 0, + r.startAudioPts = 0, + r.tsFileList = [], + r.getFileIndex = 0, + r.lastTsFile = "", + r.playLastTsFile = "", + r.isFirstFile = !0, + r.lastTsFileSequence = 0, + r.sequenceExceptNum = 0, + r.hlsTsPlaybackFileNo = -1, + r.tsDemuxer = null, + r.getFileCount = 100, + r.intervalHandle = -1, + r.intervalValue = 40, + r.startDownloadTimeSecs = 0; + function c(A, M) { + if (0 <= A.indexOf("http")) + return A; + for (var t = M, g = 0, I = 0; 0 <= I; ) + 0 <= (I = t.indexOf("/")) ? (t = t.substring(I + 1), g += I + 1) : t = M.substring(0, g); + return "" !== A ? t + A : t + } + function T() { + var A = { + cmd: B.l, + workerId: B.b + }; + r.postMessage(A), + r.getFileIndex = 0, + r.hlsTsPlaybackFileNo = -1 + } + function o(A, D) { + var C; + r.url = A, + 1 != r._requestAbort ? r.pause || 0 < r.totalDuration && !r.isLiveStream || ((C = new XMLHttpRequest).open("get", A, !0), C.responseType = "text", C.onreadystatechange = function () { + if (4 != C.readyState || 200 != C.status && 304 != C.status) + 4 === C.readyState && 410 === C.status && r.postMessage({ + cmd: 410, + code: C.status, + msg: C.responseText + }), 4 === C.readyState && o(r.url, 1); + else { + var A = new Q; + A.push(C.responseText), + A.end(); + var M = A.manifest; + if ("undefined" !== A.manifest.endList && 1 == A.manifest.endList ? r.isLiveStream = !1 : r.isLiveStream = !0, M.segments.length < 1) { + var t = r; + B.j(3e3).then(function () { + o(t.url, 1) + }) + } else { + var g = 0, + I = 0; + if (r.isLiveStream) + if ("" == r.lastTsFile) { + for (g = 0; g < M.segments.length; g++) { + T = "", + E = { + filename: T = -1 !== M.segments[g].uri.indexOf("http") ? M.segments[g].uri : c(M.segments[g].uri, r.url), + duration: M.segments[g].duration + }; + r.tsFileList.push(E) + } + var e = 0; + 2 < M.segments.length && (e = M.segments.length - 1 - 1), + r.getFileIndex = e, + r.lastTsFile = M.segments[e].uri + } else { + for (var e = -1, i = !1, g = 0; g < M.segments.length; g++) { + T = ""; + T = -1 !== M.segments[g].uri.indexOf("http") ? M.segments[g].uri : c(M.segments[g].uri, r.url), + M.segments[g].uri !== r.lastTsFile ? 0 <= e && (E = { + filename: T, + duration: M.segments[g].duration + }, r.totalDuration += M.segments[g].duration, r.tsFileList.push(E), i || (r.lastTsFile = M.segments[g].uri, i = !0)) : (e = g, r.tsFileList.length = 0, r.tsFileList = [], r.getFileIndex = 0) + } + if (e < 0) + for (r.tsFileList.length = 0, r.tsFileList = [], g = r.getFileIndex = 0; g < M.segments.length; g++) { + T = "", + E = { + filename: T = -1 !== M.segments[g].uri.indexOf("http") ? M.segments[g].uri : c(M.segments[g].uri, r.url), + duration: M.segments[g].duration + }; + r.totalDuration += M.segments[g].duration, + r.tsFileList.push(E), + r.lastTsFile = M.segments[g].uri + } + if (1 === D) + return + } + else { + for (0 < r.seekTime && (r.getFileIndex = -1), g = 0; g < M.segments.length; g++) { + var T = ""; + T = -1 !== M.segments[g].uri.indexOf("http") ? M.segments[g].uri : c(M.segments[g].uri, r.url); + for (var E, N = 0, I = 0; I < r.tsFileList.length; I++) + if (r.tsFileList[I].filename === T) { + N = 1; + break + } + 0 == N && (0 < r.seekTime && r.totalDuration >= r.seekTime && r.getFileIndex < 0 && (r.getFileIndex = g), E = { + filename: T, + duration: M.segments[g].duration + }, r.totalDuration += M.segments[g].duration, 0 !== g || r.isLiveStream || r.tsFileList.push(E), r.tsFileList.push(E)) + } + r.getFileIndex < 0 && (r.getFileIndex = 0); + var n = { + cmd: B.t, + duration: r.totalDuration, + live: r.isLiveStream, + workerId: B.b + }; + r.postMessage(n) + } + 0 < r.tsFileList.length && 1 == D && (n = { + cmd: B.v, + workerId: B.b + }, r.postMessage(n)) + } + } + }, C.send()) : T() + } + function E() { + if (!(r.getFileCount++ < 1)) { + var g = !1; + if (!r.pause) + if (1 != r._requestAbort) { + if (r.isLiveStream) { + if (r.getFileCount = 0, r.getFileIndex >= r.tsFileList.length || 3 == r.getFileCount) + return void o(r.url, 1); + g = !0 + } else if (r.getFileIndex >= r.tsFileList.length) { + r.getFileIndex++; + var A = { + cmd: B.q, + workerId: B.b + }; + return void r.postMessage(A) + } + var M = r.tsFileList[r.getFileIndex].filename; + if (r.isLiveStream) { + if (r.playLastTsFile == M) + return; + var t = function (A) { + var M = A.split("-"), + A = M.length; + if (0 < A) { + A = M[A - 1].split("."); + if (0 < A.length) + return A[0] + } + return "" + } + (r.playLastTsFile = M), + t = parseInt(t); + 0 < t && t > r.lastTsFileSequence + 1 && (r.sequenceExceptNum++, A = { + cmd: B.y, + workerId: B.b, + fileSequence: r.sequenceExceptNum + }, r.postMessage(A)), + r.lastTsFileSequence = t + } else if (r.hlsTsPlaybackFileNo == r.getFileIndex) + return; + var I = new XMLHttpRequest; + I.open("get", M, !0), + I.responseType = "arraybuffer", + I.onreadystatechange = function () { + if (404 == I.status) + return B.e("current file not found. refresh list..."), void o(r.url, 1); + if (4 == I.readyState && (200 == I.status || 304 == I.status)) { + for (var A = new Uint8Array(I.response), M = 0, M = 0; M < r.getFileIndex; M++) + r.tsFileList[M].duration; + var t = { + cmd: B.p, + workerId: B.b, + mediaType: 1, + codecId: 27, + flag: 0, + pts: 0, + playTimeSec: 0, + dat: A + }; + r.postMessage(t, [t.dat.buffer]), + 0 <= r.intervalHandle && (clearInterval(r.intervalHandle), r.intervalHandle = -1), + r.pause || (0 <= (A = r.getFileIndex) && A < r.tsFileList.length ? r.intervalValue = 1e3 * r.tsFileList[A].duration - 600 : r.intervalValue = 2e3, r.isFirstFile && (r.isFirstFile = !1, 900 < r.intervalValue && (r.intervalValue -= 900)), 6100 < r.intervalValue ? r.intervalValue = r.intervalValue - 3e3 : r.intervalValue = r.intervalValue - 1500, r.intervalHandle = setInterval(E, r.intervalValue)), + r.getFileCount = 100, + r.getFileIndex++, + 0 <= r.getFileIndex && (r.getFileIndex, r.tsFileList.length); + t = { + cmd: B.s, + workerId: B.b + }; + r.postMessage(t), + g && o(r.url, 0) + } + }, + I.send(), + r.hlsTsPlaybackFileNo = r.getFileIndex + } else + T() + } + } + r.addEventListener("message", function (A) { + var M = A.data; + switch (M.cmd) { + case B.v: + r.url = M.url, + r.seekTime = M.time, + o(M.url, 1); + break; + case B.r: + 0 == M.t && E(); + break; + case B.x: + o(r.url, 1); + break; + case B.A: + var t = M.time; + 1 == M.type && (t = M.time / 100 * r.totalDuration); + for (var g = !1, I = 0, e = 0, e = 0; e < r.tsFileList.length; e++) + if (t < (I += r.tsFileList[e].duration)) { + r.getFileIndex = e, + E(); + var i = { + cmd: B.A, + type: M.type, + time: t + }; + r.postMessage(i), + g = !0; + break + } + g || (i = { + cmd: B.A, + type: M.type, + time: t + }, r.postMessage(i)); + break; + case B.w: + r.pause = !0; + break; + case B.z: + r.pause = !1, + o(r.url, 1); + break; + case B.l: + r._requestAbort = !0, + r.seekTime = 0, + T() + } + }) + } + } + ], + I.c = g, + I.d = function (A, M, t) { + I.o(A, M) || Object.defineProperty(A, M, { + enumerable: !0, + get: t + }) + }, + I.r = function (A) { + "undefined" != typeof Symbol && Symbol.toStringTag && Object.defineProperty(A, Symbol.toStringTag, { + value: "Module" + }), + Object.defineProperty(A, "__esModule", { + value: !0 + }) + }, + I.t = function (M, A) { + if (1 & A && (M = I(M)), 8 & A) + return M; + if (4 & A && "object" == typeof M && M && M.__esModule) + return M; + var t = Object.create(null); + if (I.r(t), Object.defineProperty(t, "default", { + enumerable: !0, + value: M + }), 2 & A && "string" != typeof M) + for (var g in M) + I.d(t, g, function (A) { + return M[A] + } + .bind(null, g)); + return t + }, + I.n = function (A) { + var M = A && A.__esModule ? function () { + return A.default + } + : function () { + return A + }; + return I.d(M, "a", M), + M + }, + I.o = function (A, M) { + return Object.prototype.hasOwnProperty.call(A, M) + }, + I.p = "", + I(I.s = 222).default; + function I(A) { + if (g[A]) + return g[A].exports; + var M = g[A] = { + i: A, + l: !1, + exports: {} + }; + return t[A].call(M.exports, M, M.exports, I), + M.l = !0, + M.exports + } + var t, + g +}); diff --git a/public/easyplayer/libDecoder.wasm b/public/easyplayer/libDecoder.wasm new file mode 100644 index 0000000..a45028d Binary files /dev/null and b/public/easyplayer/libDecoder.wasm differ diff --git a/public/index.html b/public/index.html index 083cdc8..911af84 100644 --- a/public/index.html +++ b/public/index.html @@ -42,6 +42,7 @@ +