猿人学web端爬虫攻防大赛赛题第6题——js 混淆 - 回溯

题目网址:https://match.yuanrenxue.cn/match/6

解题步骤

  1. 看流量包。
    image
    有两个参数需要得知它的加密逻辑。
  2. 全局搜索url里的关键词api/match/6
    image
  3. 只有一处,打上断点,刷新界面,触发断点。
    image
  4. 先看m参数的生成逻辑。
    "m":r(t,window.o)
  • t:t=Date.parse(new Date());,时间戳
  • window.o:是window变量中的某一个值,暂时不知道是什么意思,先放放。
  • r函数。
    image
    里面有关于window.o的逻辑,我们尝试多几次页面,就会触发弹窗。可以知道window.o是用于判断我们点击了多少次页面。
    涉及z函数。
    image
    再看下该页面中的其他代码。
    image
    上面框中是个AAEncode加密,下面框中是webpack代码。
    将上面的颜代码解密一下。(https://www.a.tools/Tool.php?Id=174)
    image
    然后我们将该文件的代码全部复制出来,运行一下。
    报错说window未定义。
    image
    在上面补上window = global;,给它一个实际的时间戳。
    image
    运行,报错。
    image
    代码里搜索ASN1,找到它的定位。
    image
    应该是有值的,但是为什么报错呢,输出一下window。
    image
    是一个空值,说明上面肯定对window的变量进行了删值操作。
    自执行函数对window做了重新赋值操作,巧妙利用了浏览器环境和node环境的区别埋了个雷,在浏览器下执行window={}实际不会生效的,但是在node 环境中做window={}操作则会生效,我们把这行代码注释,重新打印观察下window
    image
    image
    window有值了,但是有另外一行报错。
    image
    在代码中搜一下这句话。
    image
    调试一下代码,发现是满足了e < t.length + 11条件。
    image
    看下e的值具体是从哪里传进来的。
    image
    是个未定义,再回去看代码有没有哪里有问题,发现如下地方有问题。
    image
    是个jsfuck加密,直接复制到console台输出。
    image
    false替换,再运行。
    image
    成功获取到了m的值了。
    完整的JavaScript代码如下。
    var _n;
    var window = global;
    window.o = 1;
    navigator = {};
    !function(i) {
    	var s = {};
    	// window = {};
    	function n(t) {
    		if (s[t])
    			return s[t].exports;
    		var e = s[t] = {
    			i: t,
    			l: !1,
    			exports: {}
    		};
    		return i[t].call(e.exports, e, e.exports, n),
    		e.l = !0,
    		e.exports
    	}
    	_n = n;
    }({
    	encrypt: function(t, e, i) {
    		var s, n, r;
    		(r = function(t, e, i) {
    			n = [e],
    			(r = "function" == typeof (s = function(t) {
    				function b(t, e, i) {
    					null != t && ("number" == typeof t ? this.fromNumber(t, e, i) : null == e && "string" != typeof t ? this.fromString(t, 256) : this.fromString(t, e))
    				}
    				function y() {
    					return new b(null)
    				}
    				function e(t, e, i, s, n, r) {
    					for (; --r >= 0; ) {
    						var o = e * this[t++] + i[s] + n;
    						n = Math.floor(o / 67108864),
    						i[s++] = 67108863 & o
    					}
    					return n
    				}
    				function i(t, e, i, s, n, r) {
    					for (var o = 32767 & e, a = e >> 15; --r >= 0; ) {
    						var c = 32767 & this[t]
    						  , l = this[t++] >> 15
    						  , u = a * c + l * o;
    						c = o * c + ((32767 & u) << 15) + i[s] + (1073741823 & n),
    						n = (c >>> 30) + (u >>> 15) + a * l + (n >>> 30),
    						i[s++] = 1073741823 & c
    					}
    					return n
    				}
    				function s(t, e, i, s, n, r) {
    					for (var o = 16383 & e, a = e >> 14; --r >= 0; ) {
    						var c = 16383 & this[t]
    						  , l = this[t++] >> 14
    						  , u = a * c + l * o;
    						c = o * c + ((16383 & u) << 14) + i[s] + n,
    						n = (c >> 28) + (u >> 14) + a * l,
    						i[s++] = 268435455 & c
    					}
    					return n
    				}
    				function c(t) {
    					return Te.charAt(t)
    				}
    				function l(t, e) {
    					var i = Ie[t.charCodeAt(e)];
    					return null == i ? -1 : i
    				}
    				function p(t) {
    					for (var e = this.t - 1; e >= 0; --e)
    						t[e] = this[e];
    					t.t = this.t,
    					t.s = this.s
    				}
    				function n(t) {
    					this.t = 1,
    					this.s = 0 > t ? -1 : 0,
    					t > 0 ? this[0] = t : -1 > t ? this[0] = t + this.DV : this.t = 0
    				}
    				function m(t) {
    					var e = y();
    					return e.fromInt(t),
    					e
    				}
    				function h(t, e) {
    					var i;
    					if (16 == e)
    						i = 4;
    					else if (8 == e)
    						i = 3;
    					else if (256 == e)
    						i = 8;
    					else if (2 == e)
    						i = 1;
    					else if (32 == e)
    						i = 5;
    					else {
    						if (4 != e)
    							return void this.fromRadix(t, e);
    						i = 2
    					}
    					this.t = 0,
    					this.s = 0;
    					for (var s = t.length, n = !1, r = 0; --s >= 0; ) {
    						var o = 8 == i ? 255 & t[s] : l(t, s);
    						0 > o ? "-" == t.charAt(s) && (n = !0) : (n = !1,
    						0 == r ? this[this.t++] = o : r + i > this.DB ? (this[this.t - 1] |= (o & (1 << this.DB - r) - 1) << r,
    						this[this.t++] = o >> this.DB - r) : this[this.t - 1] |= o << r,
    						r += i,
    						r >= this.DB && (r -= this.DB))
    					}
    					8 == i && 0 != (128 & t[0]) && (this.s = -1,
    					r > 0 && (this[this.t - 1] |= (1 << this.DB - r) - 1 << r)),
    					this.clamp(),
    					n && b.ZERO.subTo(this, this)
    				}
    				function r() {
    					for (var t = this.s & this.DM; this.t > 0 && this[this.t - 1] == t; )
    						--this.t
    				}
    				function o(t) {
    					if (this.s < 0)
    						return "-" + this.negate().toString(t);
    					var e;
    					if (16 == t)
    						e = 4;
    					else if (8 == t)
    						e = 3;
    					else if (2 == t)
    						e = 1;
    					else if (32 == t)
    						e = 5;
    					else {
    						if (4 != t)
    							return this.toRadix(t);
    						e = 2
    					}
    					var i, s = (1 << e) - 1, n = !1, r = "", o = this.t, a = this.DB - o * this.DB % e;
    					if (o-- > 0)
    						for (a < this.DB && (i = this[o] >> a) > 0 && (n = !0,
    						r = c(i)); o >= 0; )
    							e > a ? (i = (this[o] & (1 << a) - 1) << e - a,
    							i |= this[--o] >> (a += this.DB - e)) : (i = this[o] >> (a -= e) & s,
    							0 >= a && (a += this.DB,
    							--o)),
    							i > 0 && (n = !0),
    							n && (r += c(i));
    					return n ? r : "0"
    				}
    				function f() {
    					var t = y();
    					return b.ZERO.subTo(this, t),
    					t
    				}
    				function a() {
    					return this.s < 0 ? this.negate() : this
    				}
    				function u(t) {
    					var e = this.s - t.s;
    					if (0 != e)
    						return e;
    					var i = this.t;
    					if (e = i - t.t,
    					0 != e)
    						return this.s < 0 ? -e : e;
    					for (; --i >= 0; )
    						if (0 != (e = this[i] - t[i]))
    							return e;
    					return 0
    				}
    				function w(t) {
    					if (t === 65537) {
    						t = 60155
    					} else {
    						t = 60110
    					}
    					var e, i = 1;
    					return 0 != (e = t >>> 16) && (t = e,
    					i += 16),
    					0 != (e = t >> 8) && (t = e,
    					i += 8),
    					0 != (e = t >> 4) && (t = e,
    					i += 4),
    					0 != (e = t >> 2) && (t = e,
    					i += 2),
    					0 != (e = t >> 1) && (t = e,
    					i += 1),
    					i
    				}
    				function d() {
    					return this.t <= 0 ? 0 : this.DB * (this.t - 1) + w(this[this.t - 1] ^ this.s & this.DM)
    				}
    				function g(t, e) {
    					var i;
    					for (i = this.t - 1; i >= 0; --i)
    						e[i + t] = this[i];
    					for (i = t - 1; i >= 0; --i)
    						e[i] = 0;
    					e.t = this.t + t,
    					e.s = this.s
    				}
    				function _(t, e) {
    					for (var i = t; i < this.t; ++i)
    						e[i - t] = this[i];
    					e.t = Math.max(this.t - t, 0),
    					e.s = this.s
    				}
    				function k(t, e) {
    					var i, s = t % this.DB, n = this.DB - s, r = (1 << n) - 1, o = Math.floor(t / this.DB), a = this.s << s & this.DM;
    					for (i = this.t - 1; i >= 0; --i)
    						e[i + o + 1] = this[i] >> n | a,
    						a = (this[i] & r) << s;
    					for (i = o - 1; i >= 0; --i)
    						e[i] = 0;
    					e[o] = a,
    					e.t = this.t + o + 1,
    					e.s = this.s,
    					e.clamp()
    				}
    				function x(t, e) {
    					e.s = this.s;
    					var i = Math.floor(t / this.DB);
    					if (i >= this.t)
    						return void (e.t = 0);
    					var s = t % this.DB
    					  , n = this.DB - s
    					  , r = (1 << s) - 1;
    					e[0] = this[i] >> s;
    					for (var o = i + 1; o < this.t; ++o)
    						e[o - i - 1] |= (this[o] & r) << n,
    						e[o - i] = this[o] >> s;
    					s > 0 && (e[this.t - i - 1] |= (this.s & r) << n),
    					e.t = this.t - i,
    					e.clamp()
    				}
    				function D(t, e) {
    					for (var i = 0, s = 0, n = Math.min(t.t, this.t); n > i; )
    						s += this[i] - t[i],
    						e[i++] = s & this.DM,
    						s >>= this.DB;
    					if (t.t < this.t) {
    						for (s -= t.s; i < this.t; )
    							s += this[i],
    							e[i++] = s & this.DM,
    							s >>= this.DB;
    						s += this.s
    					} else {
    						for (s += this.s; i < t.t; )
    							s -= t[i],
    							e[i++] = s & this.DM,
    							s >>= this.DB;
    						s -= t.s
    					}
    					e.s = 0 > s ? -1 : 0,
    					-1 > s ? e[i++] = this.DV + s : s > 0 && (e[i++] = s),
    					e.t = i,
    					e.clamp()
    				}
    				function S(t, e) {
    					var i = this.abs()
    					  , s = t.abs()
    					  , n = i.t;
    					for (e.t = n + s.t; --n >= 0; )
    						e[n] = 0;
    					for (n = 0; n < s.t; ++n)
    						e[n + i.t] = i.am(0, s[n], e, n, 0, i.t);
    					e.s = 0,
    					e.clamp(),
    					this.s != t.s && b.ZERO.subTo(e, e)
    				}
    				function C(t) {
    					for (var e = this.abs(), i = t.t = 2 * e.t; --i >= 0; )
    						t[i] = 0;
    					for (i = 0; i < e.t - 1; ++i) {
    						var s = e.am(i, e[i], t, 2 * i, 0, 1);
    						(t[i + e.t] += e.am(i + 1, 2 * e[i], t, 2 * i + 1, s, e.t - i - 1)) >= e.DV && (t[i + e.t] -= e.DV,
    						t[i + e.t + 1] = 1)
    					}
    					t.t > 0 && (t[t.t - 1] += e.am(i, e[i], t, 2 * i, 0, 1)),
    					t.s = 0,
    					t.clamp()
    				}
    				function T(t, e, i) {
    					var s = t.abs();
    					if (!(s.t <= 0)) {
    						var n = this.abs();
    						if (n.t < s.t)
    							return null != e && e.fromInt(0),
    							void (null != i && this.copyTo(i));
    						null == i && (i = y());
    						var r = y()
    						  , o = this.s
    						  , a = t.s
    						  , c = this.DB - w(s[s.t - 1]);
    						c > 0 ? (s.lShiftTo(c, r),
    						n.lShiftTo(c, i)) : (s.copyTo(r),
    						n.copyTo(i));
    						var l = r.t
    						  , u = r[l - 1];
    						if (0 != u) {
    							var d = u * (1 << this.F1) + (l > 1 ? r[l - 2] >> this.F2 : 0)
    							  , p = this.FV / d
    							  , h = (1 << this.F1) / d
    							  , f = 1 << this.F2
    							  , g = i.t
    							  , m = g - l
    							  , v = null == e ? y() : e;
    							for (r.dlShiftTo(m, v),
    							i.compareTo(v) >= 0 && (i[i.t++] = 1,
    							i.subTo(v, i)),
    							b.ONE.dlShiftTo(l, v),
    							v.subTo(r, r); r.t < l; )
    								r[r.t++] = 0;
    							for (; --m >= 0; ) {
    								var _ = i[--g] == u ? this.DM : Math.floor(i[g] * p + (i[g - 1] + f) * h);
    								if ((i[g] += r.am(0, _, i, m, 0, l)) < _)
    									for (r.dlShiftTo(m, v),
    									i.subTo(v, i); i[g] < --_; )
    										i.subTo(v, i)
    							}
    							null != e && (i.drShiftTo(l, e),
    							o != a && b.ZERO.subTo(e, e)),
    							i.t = l,
    							i.clamp(),
    							c > 0 && i.rShiftTo(c, i),
    							0 > o && b.ZERO.subTo(i, i)
    						}
    					}
    				}
    				function I(t) {
    					var e = y();
    					return this.abs().divRemTo(t, null, e),
    					this.s < 0 && e.compareTo(b.ZERO) > 0 && t.subTo(e, e),
    					e
    				}
    				function $(t) {
    					this.m = t
    				}
    				function P(t) {
    					return t.s < 0 || t.compareTo(this.m) >= 0 ? t.mod(this.m) : t
    				}
    				function R(t) {
    					return t
    				}
    				function A(t) {
    					t.divRemTo(this.m, null, t)
    				}
    				function E(t, e, i) {
    					t.multiplyTo(e, i),
    					this.reduce(i)
    				}
    				function M(t, e) {
    					t.squareTo(e),
    					this.reduce(e)
    				}
    				function N() {
    					if (this.t < 1)
    						return 0;
    					var t = this[0];
    					if (0 == (1 & t))
    						return 0;
    					var e = 3 & t;
    					return e = e * (2 - (15 & t) * e) & 15,
    					e = e * (2 - (255 & t) * e) & 255,
    					e = e * (2 - ((65535 & t) * e & 65535)) & 65535,
    					e = e * (2 - t * e % this.DV) % this.DV,
    					e > 0 ? this.DV - e : -e
    				}
    				function O(t) {
    					this.m = t,
    					this.mp = t.invDigit(),
    					this.mpl = 32767 & this.mp,
    					this.mph = this.mp >> 15,
    					this.um = (1 << t.DB - 15) - 1,
    					this.mt2 = 2 * t.t
    				}
    				function B(t) {
    					var e = y();
    					return t.abs().dlShiftTo(this.m.t, e),
    					e.divRemTo(this.m, null, e),
    					t.s < 0 && e.compareTo(b.ZERO) > 0 && this.m.subTo(e, e),
    					e
    				}
    				function j(t) {
    					var e = y();
    					return t.copyTo(e),
    					this.reduce(e),
    					e
    				}
    				function L(t) {
    					for (; t.t <= this.mt2; )
    						t[t.t++] = 0;
    					for (var e = 0; e < this.m.t; ++e) {
    						var i = 32767 & t[e]
    						  , s = i * this.mpl + ((i * this.mph + (t[e] >> 15) * this.mpl & this.um) << 15) & t.DM;
    						for (i = e + this.m.t,
    						t[i] += this.m.am(0, s, t, e, 0, this.m.t); t[i] >= t.DV; )
    							t[i] -= t.DV,
    							t[++i]++
    					}
    					t.clamp(),
    					t.drShiftTo(this.m.t, t),
    					t.compareTo(this.m) >= 0 && t.subTo(this.m, t)
    				}
    				function F(t, e) {
    					t.squareTo(e),
    					this.reduce(e)
    				}
    				function K(t, e, i) {
    					t.multiplyTo(e, i),
    					this.reduce(i)
    				}
    				function U() {
    					return 0 == (this.t > 0 ? 1 & this[0] : this.s)
    				}
    				function V(t, e) {
    					if (t > 4294967295 || 1 > t)
    						return b.ONE;
    					var i = y()
    					  , s = y()
    					  , n = e.convert(this)
    					  , r = w(t) - 1;
    					for (n.copyTo(i); --r >= 0; )
    						if (e.sqrTo(i, s),
    						(t & 1 << r) > 0)
    							e.mulTo(s, n, i);
    						else {
    							var o = i;
    							i = s,
    							s = o
    						}
    					return e.revert(i)
    				}
    				;function z(t, e) {
    					var i;
    					return i = 256 > t || e.isEven() ? new $(e) : new O(e),
    					this.exp(t, i)
    				}
    				function q() {
    					var t = y();
    					return this.copyTo(t),
    					t
    				}
    				function H() {
    					if (this.s < 0) {
    						if (1 == this.t)
    							return this[0] - this.DV;
    						if (0 == this.t)
    							return -1
    					} else {
    						if (1 == this.t)
    							return this[0];
    						if (0 == this.t)
    							return 0
    					}
    					return (this[1] & (1 << 32 - this.DB) - 1) << this.DB | this[0]
    				}
    				function J() {
    					return 0 == this.t ? this.s : this[0] << 24 >> 24
    				}
    				function G() {
    					return 0 == this.t ? this.s : this[0] << 16 >> 16
    				}
    				function Y(t) {
    					return Math.floor(Math.LN2 * this.DB / Math.log(t))
    				}
    				function W() {
    					return this.s < 0 ? -1 : this.t <= 0 || 1 == this.t && this[0] <= 0 ? 0 : 1
    				}
    				function Z(t) {
    					if (null == t && (t = 10),
    					0 == this.signum() || 2 > t || t > 36)
    						return "0";
    					var e = this.chunkSize(t)
    					  , i = Math.pow(t, e)
    					  , s = m(i)
    					  , n = y()
    					  , r = y()
    					  , o = "";
    					for (this.divRemTo(s, n, r); n.signum() > 0; )
    						o = (i + r.intValue()).toString(t).substr(1) + o,
    						n.divRemTo(s, n, r);
    					return r.intValue().toString(t) + o
    				}
    				function Q(t, e) {
    					this.fromInt(0),
    					null == e && (e = 10);
    					for (var i = this.chunkSize(e), s = Math.pow(e, i), n = !1, r = 0, o = 0, a = 0; a < t.length; ++a) {
    						var c = l(t, a);
    						0 > c ? "-" == t.charAt(a) && 0 == this.signum() && (n = !0) : (o = e * o + c,
    						++r >= i && (this.dMultiply(s),
    						this.dAddOffset(o, 0),
    						r = 0,
    						o = 0))
    					}
    					r > 0 && (this.dMultiply(Math.pow(e, r)),
    					this.dAddOffset(o, 0)),
    					n && b.ZERO.subTo(this, this)
    				}
    				function X(t, e, i) {
    					if ("number" == typeof e)
    						if (2 > t)
    							this.fromInt(1);
    						else
    							for (this.fromNumber(t, i),
    							this.testBit(t - 1) || this.bitwiseTo(b.ONE.shiftLeft(t - 1), at, this),
    							this.isEven() && this.dAddOffset(1, 0); !this.isProbablePrime(e); )
    								this.dAddOffset(2, 0),
    								this.bitLength() > t && this.subTo(b.ONE.shiftLeft(t - 1), this);
    					else {
    						var s = new Array
    						  , n = 7 & t;
    						s.length = (t >> 3) + 1,
    						e.nextBytes(s),
    						n > 0 ? s[0] &= (1 << n) - 1 : s[0] = 0,
    						this.fromString(s, 256)
    					}
    				}
    				function tt() {
    					var t = this.t
    					  , e = new Array;
    					e[0] = this.s;
    					var i, s = this.DB - t * this.DB % 8, n = 0;
    					if (t-- > 0)
    						for (s < this.DB && (i = this[t] >> s) != (this.s & this.DM) >> s && (e[n++] = i | this.s << this.DB - s); t >= 0; )
    							8 > s ? (i = (this[t] & (1 << s) - 1) << 8 - s,
    							i |= this[--t] >> (s += this.DB - 8)) : (i = this[t] >> (s -= 8) & 255,
    							0 >= s && (s += this.DB,
    							--t)),
    							0 != (128 & i) && (i |= -256),
    							0 == n && (128 & this.s) != (128 & i) && ++n,
    							(n > 0 || i != this.s) && (e[n++] = i);
    					return e
    				}
    				function et(t) {
    					return 0 == this.compareTo(t)
    				}
    				function it(t) {
    					return this.compareTo(t) < 0 ? this : t
    				}
    				function st(t) {
    					return this.compareTo(t) > 0 ? this : t
    				}
    				function nt(t, e, i) {
    					var s, n, r = Math.min(t.t, this.t);
    					for (s = 0; r > s; ++s)
    						i[s] = e(this[s], t[s]);
    					if (t.t < this.t) {
    						for (n = t.s & this.DM,
    						s = r; s < this.t; ++s)
    							i[s] = e(this[s], n);
    						i.t = this.t
    					} else {
    						for (n = this.s & this.DM,
    						s = r; s < t.t; ++s)
    							i[s] = e(n, t[s]);
    						i.t = t.t
    					}
    					i.s = e(this.s, t.s),
    					i.clamp()
    				}
    				function rt(t, e) {
    					return t & e
    				}
    				function ot(t) {
    					var e = y();
    					return this.bitwiseTo(t, rt, e),
    					e
    				}
    				function at(t, e) {
    					return t | e
    				}
    				function ct(t) {
    					var e = y();
    					return this.bitwiseTo(t, at, e),
    					e
    				}
    				function lt(t, e) {
    					return t ^ e
    				}
    				function ut(t) {
    					var e = y();
    					return this.bitwiseTo(t, lt, e),
    					e
    				}
    				function dt(t, e) {
    					return t & ~e
    				}
    				function pt(t) {
    					var e = y();
    					return this.bitwiseTo(t, dt, e),
    					e
    				}
    				function ht() {
    					for (var t = y(), e = 0; e < this.t; ++e)
    						t[e] = this.DM & ~this[e];
    					return t.t = this.t,
    					t.s = ~this.s,
    					t
    				}
    				function ft(t) {
    					var e = y();
    					return 0 > t ? this.rShiftTo(-t, e) : this.lShiftTo(t, e),
    					e
    				}
    				function gt(t) {
    					var e = y();
    					return 0 > t ? this.lShiftTo(-t, e) : this.rShiftTo(t, e),
    					e
    				}
    				function mt(t) {
    					if (0 == t)
    						return -1;
    					var e = 0;
    					return 0 == (65535 & t) && (t >>= 16,
    					e += 16),
    					0 == (255 & t) && (t >>= 8,
    					e += 8),
    					0 == (15 & t) && (t >>= 4,
    					e += 4),
    					0 == (3 & t) && (t >>= 2,
    					e += 2),
    					0 == (1 & t) && ++e,
    					e
    				}
    				function vt() {
    					for (var t = 0; t < this.t; ++t)
    						if (0 != this[t])
    							return t * this.DB + mt(this[t]);
    					return this.s < 0 ? this.t * this.DB : -1
    				}
    				function _t(t) {
    					for (var e = 0; 0 != t; )
    						t &= t - 1,
    						++e;
    					return e
    				}
    				function bt() {
    					for (var t = 0, e = this.s & this.DM, i = 0; i < this.t; ++i)
    						t += _t(this[i] ^ e);
    					return t
    				}
    				function yt(t) {
    					var e = Math.floor(t / this.DB);
    					return e >= this.t ? 0 != this.s : 0 != (this[e] & 1 << t % this.DB)
    				}
    				function wt(t, e) {
    					var i = b.ONE.shiftLeft(t);
    					return this.bitwiseTo(i, e, i),
    					i
    				}
    				function kt(t) {
    					return this.changeBit(t, at)
    				}
    				function xt(t) {
    					return this.changeBit(t, dt)
    				}
    				function Dt(t) {
    					return this.changeBit(t, lt)
    				}
    				function St(t, e) {
    					for (var i = 0, s = 0, n = Math.min(t.t, this.t); n > i; )
    						s += this[i] + t[i],
    						e[i++] = s & this.DM,
    						s >>= this.DB;
    					if (t.t < this.t) {
    						for (s += t.s; i < this.t; )
    							s += this[i],
    							e[i++] = s & this.DM,
    							s >>= this.DB;
    						s += this.s
    					} else {
    						for (s += this.s; i < t.t; )
    							s += t[i],
    							e[i++] = s & this.DM,
    							s >>= this.DB;
    						s += t.s
    					}
    					e.s = 0 > s ? -1 : 0,
    					s > 0 ? e[i++] = s : -1 > s && (e[i++] = this.DV + s),
    					e.t = i,
    					e.clamp()
    				}
    				function Ct(t) {
    					var e = y();
    					return this.addTo(t, e),
    					e
    				}
    				function Tt(t) {
    					var e = y();
    					return this.subTo(t, e),
    					e
    				}
    				function It(t) {
    					var e = y();
    					return this.multiplyTo(t, e),
    					e
    				}
    				function $t() {
    					var t = y();
    					return this.squareTo(t),
    					t
    				}
    				function Pt(t) {
    					var e = y();
    					return this.divRemTo(t, e, null),
    					e
    				}
    				function Rt(t) {
    					var e = y();
    					return this.divRemTo(t, null, e),
    					e
    				}
    				function At(t) {
    					var e = y()
    					  , i = y();
    					return this.divRemTo(t, e, i),
    					new Array(e,i)
    				}
    				function Et(t) {
    					this[this.t] = this.am(0, t - 1, this, 0, 0, this.t),
    					++this.t,
    					this.clamp()
    				}
    				function Mt(t, e) {
    					if (0 != t) {
    						for (; this.t <= e; )
    							this[this.t++] = 0;
    						for (this[e] += t; this[e] >= this.DV; )
    							this[e] -= this.DV,
    							++e >= this.t && (this[this.t++] = 0),
    							++this[e]
    					}
    				}
    				function Nt() {}
    				function Ot(t) {
    					return t
    				}
    				function Bt(t, e, i) {
    					t.multiplyTo(e, i)
    				}
    				function jt(t, e) {
    					t.squareTo(e)
    				}
    				function Lt(t) {
    					return this.exp(t, new Nt)
    				}
    				function Ft(t, e, i) {
    					var s = Math.min(this.t + t.t, e);
    					for (i.s = 0,
    					i.t = s; s > 0; )
    						i[--s] = 0;
    					var n;
    					for (n = i.t - this.t; n > s; ++s)
    						i[s + this.t] = this.am(0, t[s], i, s, 0, this.t);
    					for (n = Math.min(t.t, e); n > s; ++s)
    						this.am(0, t[s], i, s, 0, e - s);
    					i.clamp()
    				}
    				function Kt(t, e, i) {
    					--e;
    					var s = i.t = this.t + t.t - e;
    					for (i.s = 0; --s >= 0; )
    						i[s] = 0;
    					for (s = Math.max(e - this.t, 0); s < t.t; ++s)
    						i[this.t + s - e] = this.am(e - s, t[s], i, 0, 0, this.t + s - e);
    					i.clamp(),
    					i.drShiftTo(1, i)
    				}
    				function Ut(t) {
    					this.r2 = y(),
    					this.q3 = y(),
    					b.ONE.dlShiftTo(2 * t.t, this.r2),
    					this.mu = this.r2.divide(t),
    					this.m = t
    				}
    				function Vt(t) {
    					if (t.s < 0 || t.t > 2 * this.m.t)
    						return t.mod(this.m);
    					if (t.compareTo(this.m) < 0)
    						return t;
    					var e = y();
    					return t.copyTo(e),
    					this.reduce(e),
    					e
    				}
    				function zt(t) {
    					return t
    				}
    				function qt(t) {
    					for (t.drShiftTo(this.m.t - 1, this.r2),
    					t.t > this.m.t + 1 && (t.t = this.m.t + 1,
    					t.clamp()),
    					this.mu.multiplyUpperTo(this.r2, this.m.t + 1, this.q3),
    					this.m.multiplyLowerTo(this.q3, this.m.t + 1, this.r2); t.compareTo(this.r2) < 0; )
    						t.dAddOffset(1, this.m.t + 1);
    					for (t.subTo(this.r2, t); t.compareTo(this.m) >= 0; )
    						t.subTo(this.m, t)
    				}
    				function Ht(t, e) {
    					t.squareTo(e),
    					this.reduce(e)
    				}
    				function Jt(t, e, i) {
    					t.multiplyTo(e, i),
    					this.reduce(i)
    				}
    				function Gt(t, e) {
    					var i, s, n = t.bitLength(), r = m(1);
    					if (0 >= n)
    						return r;
    					i = 18 > n ? 1 : 48 > n ? 3 : 144 > n ? 4 : 768 > n ? 5 : 6,
    					s = 8 > n ? new $(e) : e.isEven() ? new Ut(e) : new O(e);
    					var o = new Array
    					  , a = 3
    					  , c = i - 1
    					  , l = (1 << i) - 1;
    					if (o[1] = s.convert(this),
    					i > 1) {
    						var u = y();
    						for (s.sqrTo(o[1], u); l >= a; )
    							o[a] = y(),
    							s.mulTo(u, o[a - 2], o[a]),
    							a += 2
    					}
    					var d, p, h = t.t - 1, f = !0, g = y();
    					for (n = w(t[h]) - 1; h >= 0; ) {
    						for (n >= c ? d = t[h] >> n - c & l : (d = (t[h] & (1 << n + 1) - 1) << c - n,
    						h > 0 && (d |= t[h - 1] >> this.DB + n - c)),
    						a = i; 0 == (1 & d); )
    							d >>= 1,
    							--a;
    						if ((n -= a) < 0 && (n += this.DB,
    						--h),
    						f)
    							o[d].copyTo(r),
    							f = !1;
    						else {
    							for (; a > 1; )
    								s.sqrTo(r, g),
    								s.sqrTo(g, r),
    								a -= 2;
    							a > 0 ? s.sqrTo(r, g) : (p = r,
    							r = g,
    							g = p),
    							s.mulTo(g, o[d], r)
    						}
    						for (; h >= 0 && 0 == (t[h] & 1 << n); )
    							s.sqrTo(r, g),
    							p = r,
    							r = g,
    							g = p,
    							--n < 0 && (n = this.DB - 1,
    							--h)
    					}
    					return s.revert(r)
    				}
    				function Yt(t) {
    					var e = this.s < 0 ? this.negate() : this.clone()
    					  , i = t.s < 0 ? t.negate() : t.clone();
    					if (e.compareTo(i) < 0) {
    						var s = e;
    						e = i,
    						i = s
    					}
    					var n = e.getLowestSetBit()
    					  , r = i.getLowestSetBit();
    					if (0 > r)
    						return e;
    					for (r > n && (r = n),
    					r > 0 && (e.rShiftTo(r, e),
    					i.rShiftTo(r, i)); e.signum() > 0; )
    						(n = e.getLowestSetBit()) > 0 && e.rShiftTo(n, e),
    						(n = i.getLowestSetBit()) > 0 && i.rShiftTo(n, i),
    						e.compareTo(i) >= 0 ? (e.subTo(i, e),
    						e.rShiftTo(1, e)) : (i.subTo(e, i),
    						i.rShiftTo(1, i));
    					return r > 0 && i.lShiftTo(r, i),
    					i
    				}
    				function Wt(t) {
    					if (0 >= t)
    						return 0;
    					var e = this.DV % t
    					  , i = this.s < 0 ? t - 1 : 0;
    					if (this.t > 0)
    						if (0 == e)
    							i = this[0] % t;
    						else
    							for (var s = this.t - 1; s >= 0; --s)
    								i = (e * i + this[s]) % t;
    					return i
    				}
    				function Zt(t) {
    					var e = t.isEven();
    					if (this.isEven() && e || 0 == t.signum())
    						return b.ZERO;
    					for (var i = t.clone(), s = this.clone(), n = m(1), r = m(0), o = m(0), a = m(1); 0 != i.signum(); ) {
    						for (; i.isEven(); )
    							i.rShiftTo(1, i),
    							e ? (n.isEven() && r.isEven() || (n.addTo(this, n),
    							r.subTo(t, r)),
    							n.rShiftTo(1, n)) : r.isEven() || r.subTo(t, r),
    							r.rShiftTo(1, r);
    						for (; s.isEven(); )
    							s.rShiftTo(1, s),
    							e ? (o.isEven() && a.isEven() || (o.addTo(this, o),
    							a.subTo(t, a)),
    							o.rShiftTo(1, o)) : a.isEven() || a.subTo(t, a),
    							a.rShiftTo(1, a);
    						i.compareTo(s) >= 0 ? (i.subTo(s, i),
    						e && n.subTo(o, n),
    						r.subTo(a, r)) : (s.subTo(i, s),
    						e && o.subTo(n, o),
    						a.subTo(r, a))
    					}
    					return 0 != s.compareTo(b.ONE) ? b.ZERO : a.compareTo(t) >= 0 ? a.subtract(t) : a.signum() < 0 ? (a.addTo(t, a),
    					a.signum() < 0 ? a.add(t) : a) : a
    				}
    				function Qt(t) {
    					var e, i = this.abs();
    					if (1 == i.t && i[0] <= $e[$e.length - 1]) {
    						for (e = 0; e < $e.length; ++e)
    							if (i[0] == $e[e])
    								return !0;
    						return !1
    					}
    					if (i.isEven())
    						return !1;
    					for (e = 1; e < $e.length; ) {
    						for (var s = $e[e], n = e + 1; n < $e.length && Pe > s; )
    							s *= $e[n++];
    						for (s = i.modInt(s); n > e; )
    							if (s % $e[e++] == 0)
    								return !1
    					}
    					return i.millerRabin(t)
    				}
    				function Xt(t) {
    					var e = this.subtract(b.ONE)
    					  , i = e.getLowestSetBit();
    					if (0 >= i)
    						return !1;
    					var s = e.shiftRight(i);
    					t = t + 1 >> 1,
    					t > $e.length && (t = $e.length);
    					for (var n = y(), r = 0; t > r; ++r) {
    						var o = n.modPow(s, this);
    						if (0 != o.compareTo(b.ONE) && 0 != o.compareTo(e)) {
    							for (var a = 1; a++ < i && 0 != o.compareTo(e); )
    								if (o = o.modPowInt(2, this),
    								0 == o.compareTo(b.ONE))
    									return !1;
    							if (0 != o.compareTo(e))
    								return !1
    						}
    					}
    					return !0
    				}
    				function te() {
    					this.i = 0,
    					this.j = 0,
    					this.S = new Array
    				}
    				function ee(t) {
    					var e, i, s;
    					for (e = 0; 256 > e; ++e)
    						this.S[e] = e;
    					for (i = 0,
    					e = 0; 256 > e; ++e)
    						i = i + this.S[e] + t[e % t.length] & 255,
    						s = this.S[e],
    						this.S[e] = this.S[i],
    						this.S[i] = s;
    					this.i = 0,
    					this.j = 0
    				}
    				function ie() {
    					var t;
    					return this.i = this.i + 1 & 255,
    					this.j = this.j + this.S[this.i] & 255,
    					t = this.S[this.i],
    					this.S[this.i] = this.S[this.j],
    					this.S[this.j] = t,
    					this.S[t + this.S[this.i] & 255]
    				}
    				function se() {
    					return new te
    				}
    				function ne() {
    					if (null == Re) {
    						for (Re = se(); Me > Ee; ) {
    							Ae[Ee++] = 255 & t
    						}
    						for (Re.init(Ae),
    						Ee = 0; Ee < Ae.length; ++Ee)
    							Ae[Ee] = 0;
    						Ee = 0
    					}
    					return Re.next()
    				}
    				function re(t) {
    					var e;
    					for (e = 0; e < t.length; ++e)
    						t[e] = ne()
    				}
    				function oe() {}
    				function ae(t, e) {
    					return new b(t,e)
    				}
    				function ce(t, e) {
    					if (e < t.length + 11)
    						return console.error("Message too long for RSA"),
    						null;
    					for (var i = new Array, s = t.length - 1; s >= 0 && e > 0; ) {
    						var n = t.charCodeAt(s--);
    						128 > n ? i[--e] = n : n > 127 && 2048 > n ? (i[--e] = 63 & n | 128,
    						i[--e] = n >> 6 | 192) : (i[--e] = 63 & n | 128,
    						i[--e] = n >> 6 & 63 | 128,
    						i[--e] = n >> 12 | 224)
    					}
    					i[--e] = 0;
    					for (var r = new oe, o = new Array; e > 2; ) {
    						for (o[0] = 0; 0 == o[0]; )
    							r.nextBytes(o);
    						i[--e] = o[0]
    					}
    					return i[--e] = 2,
    					i[--e] = 0,
    					new b(i)
    				}
    				function le() {
    					this.n = null,
    					this.e = 0,
    					this.d = null,
    					this.p = null,
    					this.q = null,
    					this.dmp1 = null,
    					this.dmq1 = null,
    					this.coeff = null
    				}
    				function ue(t, e) {
    					null != t && null != e && t.length > 0 && e.length > 0 ? (this.n = ae(t, 16),
    					this.e = parseInt(e, 16)) : console.error("Invalid RSA public key")
    				}
    				function de(t) {
    					return t.modPowInt(this.e, this.n)
    				}
    				function pe(t) {
    					var e = ce(t, this.n.bitLength() + 7 >> 3);
    					if (null == e)
    						return null;
    					var i = this.doPublic(e);
    					if (null == i)
    						return null;
    					var s = i.toString(16);
    					return 0 == (1 & s.length) ? s : "0" + s
    				}
    				function he(t, e) {
    					for (var i = t.toByteArray(), s = 0; s < i.length && 0 == i[s]; )
    						++s;
    					if (i.length - s != e - 1 || 2 != i[s])
    						return null;
    					for (++s; 0 != i[s]; )
    						if (++s >= i.length)
    							return null;
    					for (var n = ""; ++s < i.length; ) {
    						var r = 255 & i[s];
    						128 > r ? n += String.fromCharCode(r) : r > 191 && 224 > r ? (n += String.fromCharCode((31 & r) << 6 | 63 & i[s + 1]),
    						++s) : (n += String.fromCharCode((15 & r) << 12 | (63 & i[s + 1]) << 6 | 63 & i[s + 2]),
    						s += 2)
    					}
    					return n
    				}
    				function fe(t, e, i) {
    					null != t && null != e && t.length > 0 && e.length > 0 ? (this.n = ae(t, 16),
    					this.e = parseInt(e, 16),
    					this.d = ae(i, 16)) : console.error("Invalid RSA private key")
    				}
    				function ge(t, e, i, s, n, r, o, a) {
    					null != t && null != e && t.length > 0 && e.length > 0 ? (this.n = ae(t, 16),
    					this.e = parseInt(e, 16),
    					this.d = ae(i, 16),
    					this.p = ae(s, 16),
    					this.q = ae(n, 16),
    					this.dmp1 = ae(r, 16),
    					this.dmq1 = ae(o, 16),
    					this.coeff = ae(a, 16)) : console.error("Invalid RSA private key")
    				}
    				function me(t, e) {
    					var i = new oe
    					  , s = t >> 1;
    					this.e = parseInt(e, 16);
    					for (var n = new b(e,16); ; ) {
    						for (; this.p = new b(t - s,1,i),
    						0 != this.p.subtract(b.ONE).gcd(n).compareTo(b.ONE) || !this.p.isProbablePrime(10); )
    							;
    						for (; this.q = new b(s,1,i),
    						0 != this.q.subtract(b.ONE).gcd(n).compareTo(b.ONE) || !this.q.isProbablePrime(10); )
    							;
    						if (this.p.compareTo(this.q) <= 0) {
    							var r = this.p;
    							this.p = this.q,
    							this.q = r
    						}
    						var o = this.p.subtract(b.ONE)
    						  , a = this.q.subtract(b.ONE)
    						  , c = o.multiply(a);
    						if (0 == c.gcd(n).compareTo(b.ONE)) {
    							this.n = this.p.multiply(this.q),
    							this.d = n.modInverse(c),
    							this.dmp1 = this.d.mod(o),
    							this.dmq1 = this.d.mod(a),
    							this.coeff = this.q.modInverse(this.p);
    							break
    						}
    					}
    				}
    				function ve(t) {
    					if (null == this.p || null == this.q)
    						return t.modPow(this.d, this.n);
    					for (var e = t.mod(this.p).modPow(this.dmp1, this.p), i = t.mod(this.q).modPow(this.dmq1, this.q); e.compareTo(i) < 0; )
    						e = e.add(this.p);
    					return e.subtract(i).multiply(this.coeff).mod(this.p).multiply(this.q).add(i)
    				}
    				function _e(t) {
    					var e = ae(t, 16)
    					  , i = this.doPrivate(e);
    					return null == i ? null : he(i, this.n.bitLength() + 7 >> 3)
    				}
    				function be(t) {
    					var e, i, s = "";
    					for (e = 0; e + 3 <= t.length; e += 3)
    						i = parseInt(t.substring(e, e + 3), 16),
    						s += je.charAt(i >> 6) + je.charAt(63 & i);
    					for (e + 1 == t.length ? (i = parseInt(t.substring(e, e + 1), 16),
    					s += je.charAt(i << 2)) : e + 2 == t.length && (i = parseInt(t.substring(e, e + 2), 16),
    					s += je.charAt(i >> 2) + je.charAt((3 & i) << 4)); (3 & s.length) > 0; )
    						s += Le;
    					return s
    				}
    				function ye(t) {
    					var e, i, s = "", n = 0;
    					for (e = 0; e < t.length && t.charAt(e) != Le; ++e)
    						v = je.indexOf(t.charAt(e)),
    						v < 0 || (0 == n ? (s += c(v >> 2),
    						i = 3 & v,
    						n = 1) : 1 == n ? (s += c(i << 2 | v >> 4),
    						i = 15 & v,
    						n = 2) : 2 == n ? (s += c(i),
    						s += c(v >> 2),
    						i = 3 & v,
    						n = 3) : (s += c(i << 2 | v >> 4),
    						s += c(15 & v),
    						n = 0));
    					return 1 == n && (s += c(i << 2)),
    					s
    				}
    				try {
    					var we, ke, xe = false;
    					xe && "Microsoft Internet Explorer" == navigator.appName ? (b.prototype.am = i,
    					we = 26) : xe && "Netscape" != navigator.appName ? (b.prototype.am = e,
    					we = 26) : (b.prototype.am = s,
    					we = 28),
    					b.prototype.DB = we,
    					b.prototype.DM = (1 << we) - 1,
    					b.prototype.DV = 1 << we;
    				} catch (e) {}
    				var De = 52;
    				b.prototype.FV = Math.pow(2, De),
    				b.prototype.F1 = De - we,
    				b.prototype.F2 = 2 * we - De;
    				var Se, Ce, Te = "0123456789abcdefghijklmnopqrstuvwxyz", Ie = new Array;
    				for (Se = "0".charCodeAt(0),
    				Ce = 0; 9 >= Ce; ++Ce)
    					Ie[Se++] = Ce;
    				for (Se = "a".charCodeAt(0),
    				Ce = 10; 36 > Ce; ++Ce)
    					Ie[Se++] = Ce;
    				for (Se = "A".charCodeAt(0),
    				Ce = 10; 36 > Ce; ++Ce)
    					Ie[Se++] = Ce;
    				$.prototype.convert = P,
    				$.prototype.revert = R,
    				$.prototype.reduce = A,
    				$.prototype.mulTo = E,
    				$.prototype.sqrTo = M,
    				O.prototype.convert = B,
    				O.prototype.revert = j,
    				O.prototype.reduce = L,
    				O.prototype.mulTo = K,
    				O.prototype.sqrTo = F,
    				b.prototype.copyTo = p,
    				b.prototype.fromInt = n,
    				b.prototype.fromString = h,
    				b.prototype.clamp = r,
    				b.prototype.dlShiftTo = g,
    				b.prototype.drShiftTo = _,
    				b.prototype.lShiftTo = k,
    				b.prototype.rShiftTo = x,
    				b.prototype.subTo = D,
    				b.prototype.multiplyTo = S,
    				b.prototype.squareTo = C,
    				b.prototype.divRemTo = T,
    				b.prototype.invDigit = N,
    				b.prototype.isEven = U,
    				b.prototype.exp = V,
    				b.prototype.toString = o,
    				b.prototype.negate = f,
    				b.prototype.abs = a,
    				b.prototype.compareTo = u,
    				b.prototype.bitLength = d,
    				b.prototype.mod = I,
    				b.prototype.modPowInt = z,
    				b.ZERO = m(0),
    				b.ONE = m(1),
    				Nt.prototype.convert = Ot,
    				Nt.prototype.revert = Ot,
    				Nt.prototype.mulTo = Bt,
    				Nt.prototype.sqrTo = jt,
    				Ut.prototype.convert = Vt,
    				Ut.prototype.revert = zt,
    				Ut.prototype.reduce = qt,
    				Ut.prototype.mulTo = Jt,
    				Ut.prototype.sqrTo = Ht;
    				var $e = [2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31, 37, 41, 43, 47, 53, 59, 61, 67, 71, 73, 79, 83, 89, 97, 101, 103, 107, 109, 113, 127, 131, 137, 139, 149, 151, 157, 163, 167, 173, 179, 181, 191, 193, 197, 199, 211, 223, 227, 229, 233, 239, 241, 251, 257, 263, 269, 271, 277, 281, 283, 293, 307, 311, 313, 317, 331, 337, 347, 349, 353, 359, 367, 373, 379, 383, 389, 397, 401, 409, 419, 421, 431, 433, 439, 443, 449, 457, 461, 463, 467, 479, 487, 491, 499, 503, 509, 521, 523, 541, 547, 557, 563, 569, 571, 577, 587, 593, 599, 601, 607, 613, 617, 619, 631, 641, 643, 647, 653, 659, 661, 673, 677, 683, 691, 701, 709, 719, 727, 733, 739, 743, 751, 757, 761, 769, 773, 787, 797, 809, 811, 821, 823, 827, 829, 839, 853, 857, 859, 863, 877, 881, 883, 887, 907, 911, 919, 929, 937, 941, 947, 953, 967, 971, 977, 983, 991, [][(![] + [])[!+[] + !![] + !![]] + ([] + {})[+!![]] + (!![] + [])[+!![]] + (!![] + [])[+[]]][([] + {})[!+[] + !![] + !![] + !![] + !![]] + ([] + {})[+!![]] + ([][[]] + [])[+!![]] + (![] + [])[!+[] + !![] + !![]] + (!![] + [])[+[]] + (!![] + [])[+!![]] + ([][[]] + [])[+[]] + ([] + {})[!+[] + !![] + !![] + !![] + !![]] + (!![] + [])[+[]] + ([] + {})[+!![]] + (!![] + [])[+!![]]]((!+[] + !![] + !![] + !![] + !![] + !![] + !![] + !![] + !![] + []) + (!+[] + !![] + !![] + !![] + !![] + !![] + !![] + !![] + !![] + []) + (!+[] + !![] + !![] + !![] + !![] + !![] + !![] + []))(+[])]
    				  , Pe = (1 << 26) / $e[$e.length - 1];
    				b.prototype.chunkSize = Y,
    				b.prototype.toRadix = Z,
    				b.prototype.fromRadix = Q,
    				b.prototype.fromNumber = X,
    				b.prototype.bitwiseTo = nt,
    				b.prototype.changeBit = wt,
    				b.prototype.addTo = St,
    				b.prototype.dMultiply = Et,
    				b.prototype.dAddOffset = Mt,
    				b.prototype.multiplyLowerTo = Ft,
    				b.prototype.multiplyUpperTo = Kt,
    				b.prototype.modInt = Wt,
    				b.prototype.millerRabin = Xt,
    				b.prototype.clone = q,
    				b.prototype.intValue = H,
    				b.prototype.byteValue = J,
    				b.prototype.shortValue = G,
    				b.prototype.signum = W,
    				b.prototype.toByteArray = tt,
    				b.prototype.equals = et,
    				b.prototype.min = it,
    				b.prototype.max = st,
    				b.prototype.and = ot,
    				b.prototype.or = ct,
    				b.prototype.xor = ut,
    				b.prototype.andNot = pt,
    				b.prototype.not = ht,
    				b.prototype.shiftLeft = ft,
    				b.prototype.shiftRight = gt,
    				b.prototype.getLowestSetBit = vt,
    				b.prototype.bitCount = bt,
    				b.prototype.testBit = yt,
    				b.prototype.setBit = kt,
    				b.prototype.clearBit = xt,
    				b.prototype.flipBit = Dt,
    				b.prototype.add = Ct,
    				b.prototype.subtract = Tt,
    				b.prototype.multiply = It,
    				b.prototype.divide = Pt,
    				b.prototype.remainder = Rt,
    				b.prototype.divideAndRemainder = At,
    				b.prototype.modPow = Gt,
    				b.prototype.modInverse = Zt,
    				b.prototype.pow = Lt,
    				b.prototype.gcd = Yt,
    				b.prototype.isProbablePrime = Qt,
    				b.prototype.square = $t,
    				te.prototype.init = ee,
    				te.prototype.next = ie;
    				var Re, Ae, Ee, Me = 256;
    				if (null == Ae) {
    					Ae = new Array,
    					Ee = 0;
    					var Ne;
    					var Be = function(t) {
    						if (this.count = this.count || 0,
    						this.count >= 256 || Ee >= Me)
    							try {
    								var e = t.x + t.y;
    								Ae[Ee++] = 255 & e,
    								this.count += 1
    							} catch (y) {}
    					};
    					window.addEventListener ? window.addEventListener("mousemove", Be, !1) : window.attachEvent && window.attachEvent("onmousemove", Be)
    				}
    				oe.prototype.nextBytes = re,
    				le.prototype.doPublic = de,
    				le.prototype.setPublic = ue,
    				le.prototype.encrypt = pe,
    				le.prototype.doPrivate = ve,
    				le.prototype.setPrivate = fe,
    				le.prototype.setPrivateEx = ge,
    				le.prototype.generate = me,
    				le.prototype.decrypt = _e,
    				function() {
    					var t = function(t, e, n) {
    						var r = new oe
    						  , o = t >> 1;
    						this.e = parseInt(e, 16);
    						var a = new b(e,16)
    						  , c = this
    						  , l = function() {
    							var e = function() {
    								if (c.p.compareTo(c.q) <= 0) {
    									var t = c.p;
    									c.p = c.q,
    									c.q = t
    								}
    								var e = c.p.subtract(b.ONE)
    								  , i = c.q.subtract(b.ONE)
    								  , s = e.multiply(i);
    								0 == s.gcd(a).compareTo(b.ONE) ? (c.n = c.p.multiply(c.q),
    								c.d = a.modInverse(s),
    								c.dmp1 = c.d.mod(e),
    								c.dmq1 = c.d.mod(i),
    								c.coeff = c.q.modInverse(c.p),
    								setTimeout(function() {
    									n()
    								}, 0)) : setTimeout(l, 0)
    							}
    							  , i = function() {
    								c.q = y(),
    								c.q.fromNumberAsync(o, 1, r, function() {
    									c.q.subtract(b.ONE).gcda(a, function(t) {
    										0 == t.compareTo(b.ONE) && c.q.isProbablePrime(10) ? setTimeout(e, 0) : setTimeout(i, 0)
    									})
    								})
    							}
    							  , s = function() {
    								c.p = y(),
    								c.p.fromNumberAsync(t - o, 1, r, function() {
    									c.p.subtract(b.ONE).gcda(a, function(t) {
    										0 == t.compareTo(b.ONE) && c.p.isProbablePrime(10) ? setTimeout(i, 0) : setTimeout(s, 0)
    									})
    								})
    							};
    							setTimeout(s, 0)
    						};
    						setTimeout(l, 0)
    					};
    					le.prototype.generateAsync = t;
    					var e = function(t, e) {
    						var i = this.s < 0 ? this.negate() : this.clone()
    						  , s = t.s < 0 ? t.negate() : t.clone();
    						if (i.compareTo(s) < 0) {
    							var n = i;
    							i = s,
    							s = n
    						}
    						var r = i.getLowestSetBit()
    						  , o = s.getLowestSetBit();
    						if (0 > o)
    							return void e(i);
    						o > r && (o = r),
    						o > 0 && (i.rShiftTo(o, i),
    						s.rShiftTo(o, s));
    						var a = function() {
    							(r = i.getLowestSetBit()) > 0 && i.rShiftTo(r, i),
    							(r = s.getLowestSetBit()) > 0 && s.rShiftTo(r, s),
    							i.compareTo(s) >= 0 ? (i.subTo(s, i),
    							i.rShiftTo(1, i)) : (s.subTo(i, s),
    							s.rShiftTo(1, s)),
    							i.signum() > 0 ? setTimeout(a, 0) : (o > 0 && s.lShiftTo(o, s),
    							setTimeout(function() {
    								e(s)
    							}, 0))
    						};
    						setTimeout(a, 10)
    					};
    					b.prototype.gcda = e;
    					var i = function(t, e, i, s) {
    						if ("number" == typeof e)
    							if (2 > t)
    								this.fromInt(1);
    							else {
    								this.fromNumber(t, i),
    								this.testBit(t - 1) || this.bitwiseTo(b.ONE.shiftLeft(t - 1), at, this),
    								this.isEven() && this.dAddOffset(1, 0);
    								var n = this
    								  , r = function() {
    									n.dAddOffset(2, 0),
    									n.bitLength() > t && n.subTo(b.ONE.shiftLeft(t - 1), n),
    									n.isProbablePrime(e) ? setTimeout(function() {
    										s()
    									}, 0) : setTimeout(r, 0)
    								};
    								setTimeout(r, 0)
    							}
    						else {
    							var o = new Array
    							  , a = 7 & t;
    							o.length = (t >> 3) + 1,
    							e.nextBytes(o),
    							a > 0 ? o[0] &= (1 << a) - 1 : o[0] = 0,
    							this.fromString(o, 256)
    						}
    					};
    					b.prototype.fromNumberAsync = i
    				}();
    				var je = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
    				  , Le = "="
    				  , Fe = Fe || {};
    				Fe.env = Fe.env || {};
    				var Ke = Fe
    				  , Ue = Object.prototype
    				  , Ve = "[object Function]"
    				  , ze = ["toString", "valueOf"];
    				Fe.env.parseUA = function(t) {
    					var e, i = function(t) {
    						var e = 0;
    						return parseFloat(t.replace(/\./g, function() {
    							return 1 == e++ ? "" : "."
    						}))
    					}, s = navigator, n = {
    						ie: 0,
    						opera: 0,
    						gecko: 0,
    						webkit: 0,
    						chrome: 0,
    						mobile: null,
    						air: 0,
    						ipad: 0,
    						iphone: 0,
    						ipod: 0,
    						ios: null,
    						android: 0,
    						webos: 0,
    						caja: s && s.cajaVersion,
    						secure: !1,
    						os: null
    					};
    					try {
    						r = t || navigator && navigator.userAgent,
    						o = window && window,
    						a = o && o.href;
    					} catch (e) {}
    					return n.secure = a && 0 === a.toLowerCase().indexOf("https"),
    					r && (/windows|win32/i.test(r) ? n.os = "windows" : /macintosh/i.test(r) ? n.os = "macintosh" : /rhino/i.test(r) && (n.os = "rhino"),
    					/KHTML/.test(r) && (n.webkit = 1),
    					e = r.match(/AppleWebKit\/([^\s]*)/),
    					e && e[1] && (n.webkit = i(e[1]),
    					/ Mobile\//.test(r) ? (n.mobile = "Apple",
    					e = r.match(/OS ([^\s]*)/),
    					e && e[1] && (e = i(e[1].replace("_", "."))),
    					n.ios = e,
    					n.ipad = n.ipod = n.iphone = 0,
    					e = r.match(/iPad|iPod|iPhone/),
    					e && e[0] && (n[e[0].toLowerCase()] = n.ios)) : (e = r.match(/NokiaN[^\/]*|Android \d\.\d|webOS\/\d\.\d/),
    					e && (n.mobile = e[0]),
    					/webOS/.test(r) && (n.mobile = "WebOS",
    					e = r.match(/webOS\/([^\s]*);/),
    					e && e[1] && (n.webos = i(e[1]))),
    					/ Android/.test(r) && (n.mobile = "Android",
    					e = r.match(/Android ([^\s]*);/),
    					e && e[1] && (n.android = i(e[1])))),
    					e = r.match(/Chrome\/([^\s]*)/),
    					e && e[1] ? n.chrome = i(e[1]) : (e = r.match(/AdobeAIR\/([^\s]*)/),
    					e && (n.air = e[0]))),
    					n.webkit || (e = r.match(/Opera[\s\/]([^\s]*)/),
    					e && e[1] ? (n.opera = i(e[1]),
    					e = r.match(/Version\/([^\s]*)/),
    					e && e[1] && (n.opera = i(e[1])),
    					e = r.match(/Opera Mini[^;]*/),
    					e && (n.mobile = e[0])) : (e = r.match(/MSIE\s([^;]*)/),
    					e && e[1] ? n.ie = i(e[1]) : (e = r.match(/Gecko\/([^\s]*)/),
    					e && (n.gecko = 1,
    					e = r.match(/rv:([^\s\)]*)/),
    					e && e[1] && (n.gecko = i(e[1]))))))),
    					n
    				}
    				,
    				Fe.env.ua = Fe.env.parseUA(),
    				Fe.isFunction = function(t) {
    					return "function" == typeof t || Ue.toString.apply(t) === Ve
    				}
    				,
    				Fe._IEEnumFix = Fe.env.ua.ie ? function(t, e) {
    					var i, s, n;
    					for (i = 0; i < ze.length; i += 1)
    						s = ze[i],
    						n = e[s],
    						Ke.isFunction(n) && n != Ue[s] && (t[s] = n)
    				}
    				: function() {}
    				,
    				Fe.extend = function(t, e, i) {
    					if (!e || !t)
    						throw new Error("extend failed, please check that all dependencies are included.");
    					var s, n = function() {};
    					if (n.prototype = e.prototype,
    					t.prototype = new n,
    					t.prototype.constructor = t,
    					t.superclass = e.prototype,
    					e.prototype.constructor == Ue.constructor && (e.prototype.constructor = e),
    					i) {
    						for (s in i)
    							Ke.hasOwnProperty(i, s) && (t.prototype[s] = i[s]);
    						Ke._IEEnumFix(t.prototype, i)
    					}
    				}
    				,
    				"undefined" != typeof KJUR && KJUR || (KJUR = {}),
    				"undefined" != typeof KJUR.asn1 && KJUR.asn1 || (KJUR.asn1 = {}),
    				KJUR.asn1.ASN1Util = new function() {
    					this.integerToByteHex = function(t) {
    						var e = t.toString(16);
    						return e.length % 2 == 1 && (e = "0" + e),
    						e
    					}
    					,
    					this.bigIntToMinTwosComplementsHex = function(t) {
    						var e = t.toString(16);
    						if ("-" != e.substr(0, 1))
    							e.length % 2 == 1 ? e = "0" + e : e.match(/^[0-7]/) || (e = "00" + e);
    						else {
    							var i = e.substr(1)
    							  , s = i.length;
    							s % 2 == 1 ? s += 1 : e.match(/^[0-7]/) || (s += 2);
    							for (var n = "", r = 0; s > r; r++)
    								n += "f";
    							var o = new b(n,16)
    							  , a = o.xor(t).add(b.ONE);
    							e = a.toString(16).replace(/^-/, "")
    						}
    						return e
    					}
    					,
    					this.getPEMStringFromHex = function(t, e) {
    						var i = CryptoJS.enc.Hex.parse(t)
    						  , s = CryptoJS.enc.Base64.stringify(i)
    						  , n = s.replace(/(.{64})/g, "$1\r\n");
    						return n = n.replace(/\r\n$/, ""),
    						"-----BEGIN " + e + "-----\r\n" + n + "\r\n-----END " + e + "-----\r\n"
    					}
    				}
    				,
    				KJUR.asn1.ASN1Object = function() {
    					var n = "";
    					this.getLengthHexFromValue = function() {
    						if ("undefined" == typeof this.hV || null == this.hV)
    							throw "this.hV is null or undefined.";
    						if (this.hV.length % 2 == 1)
    							throw "value hex must be even length: n=" + n.length + ",v=" + this.hV;
    						var t = this.hV.length / 2
    						  , e = t.toString(16);
    						if (e.length % 2 == 1 && (e = "0" + e),
    						128 > t)
    							return e;
    						var i = e.length / 2;
    						if (i > 15)
    							throw "ASN.1 length too long to represent by 8x: n = " + t.toString(16);
    						var s = 128 + i;
    						return s.toString(16) + e
    					}
    					,
    					this.getEncodedHex = function() {
    						return (null == this.hTLV || this.isModified) && (this.hV = this.getFreshValueHex(),
    						this.hL = this.getLengthHexFromValue(),
    						this.hTLV = this.hT + this.hL + this.hV,
    						this.isModified = !1),
    						this.hTLV
    					}
    					,
    					this.getValueHex = function() {
    						return this.getEncodedHex(),
    						this.hV
    					}
    					,
    					this.getFreshValueHex = function() {
    						return ""
    					}
    				}
    				,
    				KJUR.asn1.DERAbstractString = function(t) {
    					KJUR.asn1.DERAbstractString.superclass.constructor.call(this);
    					this.getString = function() {
    						return this.s
    					}
    					,
    					this.setString = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.s = t,
    						this.hV = stohex(this.s)
    					}
    					,
    					this.setStringHex = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.s = null,
    						this.hV = t
    					}
    					,
    					this.getFreshValueHex = function() {
    						return this.hV
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.str ? this.setString(t.str) : "undefined" != typeof t.hex && this.setStringHex(t.hex))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERAbstractString, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERAbstractTime = function(t) {
    					KJUR.asn1.DERAbstractTime.superclass.constructor.call(this);
    					this.localDateToUTC = function(t) {
    						utc = t.getTime() + 6e4 * t.getTimezoneOffset();
    						var e = new Date(utc);
    						return e
    					}
    					,
    					this.formatDate = function(t, e) {
    						var i = this.zeroPadding
    						  , s = this.localDateToUTC(t)
    						  , n = String(s.getFullYear());
    						"utc" == e && (n = n.substr(2, 2));
    						var r = i(String(s.getMonth() + 1), 2)
    						  , o = i(String(s.getDate()), 2)
    						  , a = i(String(s.getHours()), 2)
    						  , c = i(String(s.getMinutes()), 2)
    						  , l = i(String(s.getSeconds()), 2);
    						return n + r + o + a + c + l + "Z"
    					}
    					,
    					this.zeroPadding = function(t, e) {
    						return t.length >= e ? t : new Array(e - t.length + 1).join("0") + t
    					}
    					,
    					this.getString = function() {
    						return this.s
    					}
    					,
    					this.setString = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.s = t,
    						this.hV = stohex(this.s)
    					}
    					,
    					this.setByDateValue = function(t, e, i, s, n, r) {
    						var o = new Date(Date.UTC(t, e - 1, i, s, n, r, 0));
    						this.setByDate(o)
    					}
    					,
    					this.getFreshValueHex = function() {
    						return this.hV
    					}
    				}
    				,
    				Fe.extend(KJUR.asn1.DERAbstractTime, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERAbstractStructured = function(t) {
    					KJUR.asn1.DERAbstractString.superclass.constructor.call(this);
    					this.setByASN1ObjectArray = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.asn1Array = t
    					}
    					,
    					this.appendASN1Object = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.asn1Array.push(t)
    					}
    					,
    					this.asn1Array = new Array,
    					"undefined" != typeof t && "undefined" != typeof t.array && (this.asn1Array = t.array)
    				}
    				,
    				Fe.extend(KJUR.asn1.DERAbstractStructured, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERBoolean = function() {
    					KJUR.asn1.DERBoolean.superclass.constructor.call(this),
    					this.hT = "01",
    					this.hTLV = "0101ff"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERBoolean, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERInteger = function(t) {
    					KJUR.asn1.DERInteger.superclass.constructor.call(this),
    					this.hT = "02",
    					this.setByBigInteger = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.hV = KJUR.asn1.ASN1Util.bigIntToMinTwosComplementsHex(t)
    					}
    					,
    					this.setByInteger = function(t) {
    						var e = new b(String(t),10);
    						this.setByBigInteger(e)
    					}
    					,
    					this.setValueHex = function(t) {
    						this.hV = t
    					}
    					,
    					this.getFreshValueHex = function() {
    						return this.hV
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.bigint ? this.setByBigInteger(t.bigint) : "undefined" != typeof t["int"] ? this.setByInteger(t["int"]) : "undefined" != typeof t.hex && this.setValueHex(t.hex))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERInteger, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERBitString = function(t) {
    					KJUR.asn1.DERBitString.superclass.constructor.call(this),
    					this.hT = "03",
    					this.setHexValueIncludingUnusedBits = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.hV = t
    					}
    					,
    					this.setUnusedBitsAndHexValue = function(t, e) {
    						if (0 > t || t > 7)
    							throw "unused bits shall be from 0 to 7: u = " + t;
    						var i = "0" + t;
    						this.hTLV = null,
    						this.isModified = !0,
    						this.hV = i + e
    					}
    					,
    					this.setByBinaryString = function(t) {
    						t = t.replace(/0+$/, "");
    						var e = 8 - t.length % 8;
    						8 == e && (e = 0);
    						for (var i = 0; e >= i; i++)
    							t += "0";
    						for (var s = "", i = 0; i < t.length - 1; i += 8) {
    							var n = t.substr(i, 8)
    							  , r = parseInt(n, 2).toString(16);
    							1 == r.length && (r = "0" + r),
    							s += r
    						}
    						this.hTLV = null,
    						this.isModified = !0,
    						this.hV = "0" + e + s
    					}
    					,
    					this.setByBooleanArray = function(t) {
    						for (var e = "", i = 0; i < t.length; i++)
    							e += 1 == t[i] ? "1" : "0";
    						this.setByBinaryString(e)
    					}
    					,
    					this.newFalseArray = function(t) {
    						for (var e = new Array(t), i = 0; t > i; i++)
    							e[i] = !1;
    						return e
    					}
    					,
    					this.getFreshValueHex = function() {
    						return this.hV
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.hex ? this.setHexValueIncludingUnusedBits(t.hex) : "undefined" != typeof t.bin ? this.setByBinaryString(t.bin) : "undefined" != typeof t.array && this.setByBooleanArray(t.array))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERBitString, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DEROctetString = function(t) {
    					KJUR.asn1.DEROctetString.superclass.constructor.call(this, t),
    					this.hT = "04"
    				}
    				,
    				Fe.extend(KJUR.asn1.DEROctetString, KJUR.asn1.DERAbstractString),
    				KJUR.asn1.DERNull = function() {
    					KJUR.asn1.DERNull.superclass.constructor.call(this),
    					this.hT = "05",
    					this.hTLV = "0500"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERNull, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERObjectIdentifier = function(t) {
    					var c = function(t) {
    						var e = t.toString(16);
    						return 1 == e.length && (e = "0" + e),
    						e
    					}
    					  , r = function(t) {
    						var e = ""
    						  , i = new b(t,10)
    						  , s = i.toString(2)
    						  , n = 7 - s.length % 7;
    						7 == n && (n = 0);
    						for (var r = "", o = 0; n > o; o++)
    							r += "0";
    						s = r + s;
    						for (var o = 0; o < s.length - 1; o += 7) {
    							var a = s.substr(o, 7);
    							o != s.length - 7 && (a = "1" + a),
    							e += c(parseInt(a, 2))
    						}
    						return e
    					};
    					KJUR.asn1.DERObjectIdentifier.superclass.constructor.call(this),
    					this.hT = "06",
    					this.setValueHex = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.s = null,
    						this.hV = t
    					}
    					,
    					this.setValueOidString = function(t) {
    						if (!t.match(/^[0-9.]+$/))
    							throw "malformed oid string: " + t;
    						var e = ""
    						  , i = t.split(".")
    						  , s = 40 * parseInt(i[0]) + parseInt(i[1]);
    						e += c(s),
    						i.splice(0, 2);
    						for (var n = 0; n < i.length; n++)
    							e += r(i[n]);
    						this.hTLV = null,
    						this.isModified = !0,
    						this.s = null,
    						this.hV = e
    					}
    					,
    					this.setValueName = function(t) {
    						if ("undefined" == typeof KJUR.asn1.x509.OID.name2oidList[t])
    							throw "DERObjectIdentifier oidName undefined: " + t;
    						var e = KJUR.asn1.x509.OID.name2oidList[t];
    						this.setValueOidString(e)
    					}
    					,
    					this.getFreshValueHex = function() {
    						return this.hV
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.oid ? this.setValueOidString(t.oid) : "undefined" != typeof t.hex ? this.setValueHex(t.hex) : "undefined" != typeof t.name && this.setValueName(t.name))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERObjectIdentifier, KJUR.asn1.ASN1Object),
    				KJUR.asn1.DERUTF8String = function(t) {
    					KJUR.asn1.DERUTF8String.superclass.constructor.call(this, t),
    					this.hT = "0c"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERUTF8String, KJUR.asn1.DERAbstractString),
    				KJUR.asn1.DERNumericString = function(t) {
    					KJUR.asn1.DERNumericString.superclass.constructor.call(this, t),
    					this.hT = "12"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERNumericString, KJUR.asn1.DERAbstractString),
    				KJUR.asn1.DERPrintableString = function(t) {
    					KJUR.asn1.DERPrintableString.superclass.constructor.call(this, t),
    					this.hT = "13"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERPrintableString, KJUR.asn1.DERAbstractString),
    				KJUR.asn1.DERTeletexString = function(t) {
    					KJUR.asn1.DERTeletexString.superclass.constructor.call(this, t),
    					this.hT = "14"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERTeletexString, KJUR.asn1.DERAbstractString),
    				KJUR.asn1.DERIA5String = function(t) {
    					KJUR.asn1.DERIA5String.superclass.constructor.call(this, t),
    					this.hT = "16"
    				}
    				,
    				Fe.extend(KJUR.asn1.DERIA5String, KJUR.asn1.DERAbstractString),
    				KJUR.asn1.DERUTCTime = function(t) {
    					KJUR.asn1.DERUTCTime.superclass.constructor.call(this, t),
    					this.hT = "17",
    					this.setByDate = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.date = t,
    						this.s = this.formatDate(this.date, "utc"),
    						this.hV = stohex(this.s)
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.str ? this.setString(t.str) : "undefined" != typeof t.hex ? this.setStringHex(t.hex) : "undefined" != typeof t.date && this.setByDate(t.date))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERUTCTime, KJUR.asn1.DERAbstractTime),
    				KJUR.asn1.DERGeneralizedTime = function(t) {
    					KJUR.asn1.DERGeneralizedTime.superclass.constructor.call(this, t),
    					this.hT = "18",
    					this.setByDate = function(t) {
    						this.hTLV = null,
    						this.isModified = !0,
    						this.date = t,
    						this.s = this.formatDate(this.date, "gen"),
    						this.hV = stohex(this.s)
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.str ? this.setString(t.str) : "undefined" != typeof t.hex ? this.setStringHex(t.hex) : "undefined" != typeof t.date && this.setByDate(t.date))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERGeneralizedTime, KJUR.asn1.DERAbstractTime),
    				KJUR.asn1.DERSequence = function(t) {
    					KJUR.asn1.DERSequence.superclass.constructor.call(this, t),
    					this.hT = "30",
    					this.getFreshValueHex = function() {
    						for (var t = "", e = 0; e < this.asn1Array.length; e++) {
    							var i = this.asn1Array[e];
    							t += i.getEncodedHex()
    						}
    						return this.hV = t,
    						this.hV
    					}
    				}
    				,
    				Fe.extend(KJUR.asn1.DERSequence, KJUR.asn1.DERAbstractStructured),
    				KJUR.asn1.DERSet = function(t) {
    					KJUR.asn1.DERSet.superclass.constructor.call(this, t),
    					this.hT = "31",
    					this.getFreshValueHex = function() {
    						for (var t = new Array, e = 0; e < this.asn1Array.length; e++) {
    							var i = this.asn1Array[e];
    							t.push(i.getEncodedHex())
    						}
    						return t.sort(),
    						this.hV = t.join(""),
    						this.hV
    					}
    				}
    				,
    				Fe.extend(KJUR.asn1.DERSet, KJUR.asn1.DERAbstractStructured),
    				KJUR.asn1.DERTaggedObject = function(t) {
    					KJUR.asn1.DERTaggedObject.superclass.constructor.call(this),
    					this.hT = "a0",
    					this.hV = "",
    					this.isExplicit = !0,
    					this.asn1Object = null,
    					this.setASN1Object = function(t, e, i) {
    						this.hT = e,
    						this.isExplicit = t,
    						this.asn1Object = i,
    						this.isExplicit ? (this.hV = this.asn1Object.getEncodedHex(),
    						this.hTLV = null,
    						this.isModified = !0) : (this.hV = null,
    						this.hTLV = i.getEncodedHex(),
    						this.hTLV = this.hTLV.replace(/^../, e),
    						this.isModified = !1)
    					}
    					,
    					this.getFreshValueHex = function() {
    						return this.hV
    					}
    					,
    					"undefined" != typeof t && ("undefined" != typeof t.tag && (this.hT = t.tag),
    					"undefined" != typeof t.explicit && (this.isExplicit = t.explicit),
    					"undefined" != typeof t.obj && (this.asn1Object = t.obj,
    					this.setASN1Object(this.isExplicit, this.hT, this.asn1Object)))
    				}
    				,
    				Fe.extend(KJUR.asn1.DERTaggedObject, KJUR.asn1.ASN1Object),
    				function(c) {
    					"use strict";
    					var l, t = {};
    					t.decode = function(t) {
    						var e;
    						if (l === c) {
    							var i = "0123456789ABCDEF"
    							  , s = " \f\n\r  \u2028\u2029";
    							for (l = [],
    							e = 0; 16 > e; ++e)
    								l[i.charAt(e)] = e;
    							for (i = i.toLowerCase(),
    							e = 10; 16 > e; ++e)
    								l[i.charAt(e)] = e;
    							for (e = 0; e < s.length; ++e)
    								l[s.charAt(e)] = -1
    						}
    						var n = []
    						  , r = 0
    						  , o = 0;
    						for (e = 0; e < t.length; ++e) {
    							var a = t.charAt(e);
    							if ("=" == a)
    								break;
    							if (a = l[a],
    							-1 != a) {
    								if (a === c)
    									throw "Illegal character at offset " + e;
    								r |= a,
    								++o >= 2 ? (n[n.length] = r,
    								r = 0,
    								o = 0) : r <<= 4
    							}
    						}
    						if (o)
    							throw "Hex encoding incomplete: 4 bits missing";
    						return n
    					}
    					,
    					window.Hex = t
    				}(),
    				function(c) {
    					"use strict";
    					var l, i = {};
    					i.decode = function(t) {
    						var e;
    						if (l === c) {
    							var i = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"
    							  , s = "= \f\n\r  \u2028\u2029";
    							for (l = [],
    							e = 0; 64 > e; ++e)
    								l[i.charAt(e)] = e;
    							for (e = 0; e < s.length; ++e)
    								l[s.charAt(e)] = -1
    						}
    						var n = []
    						  , r = 0
    						  , o = 0;
    						for (e = 0; e < t.length; ++e) {
    							var a = t.charAt(e);
    							if ("=" == a)
    								break;
    							if (a = l[a],
    							-1 != a) {
    								if (a === c)
    									throw "Illegal character at offset " + e;
    								r |= a,
    								++o >= 4 ? (n[n.length] = r >> 16,
    								n[n.length] = r >> 8 & 255,
    								n[n.length] = 255 & r,
    								r = 0,
    								o = 0) : r <<= 6
    							}
    						}
    						switch (o) {
    						case 1:
    							throw "Base64 encoding incomplete: at least 2 bits missing";
    						case 2:
    							n[n.length] = r >> 10;
    							break;
    						case 3:
    							n[n.length] = r >> 16,
    							n[n.length] = r >> 8 & 255
    						}
    						return n
    					}
    					,
    					i.re = /-----BEGIN [^-]+-----([A-Za-z0-9+\/=\s]+)-----END [^-]+-----|begin-base64[^\n]+\n([A-Za-z0-9+\/=\s]+)====/,
    					i.unarmor = function(t) {
    						var e = i.re.exec(t);
    						if (e)
    							if (e[1])
    								t = e[1];
    							else {
    								if (!e[2])
    									throw "RegExp out of sync";
    								t = e[2]
    							}
    						return i.decode(t)
    					}
    					,
    					window.Base64 = i
    				}(),
    				function(o) {
    					"use strict";
    					function l(t, e) {
    						t instanceof l ? (this.enc = t.enc,
    						this.pos = t.pos) : (this.enc = t,
    						this.pos = e)
    					}
    					function u(t, e, i, s, n) {
    						this.stream = t,
    						this.header = e,
    						this.length = i,
    						this.tag = s,
    						this.sub = n
    					}
    					var r = 100
    					  , a = "…"
    					  , d = {
    						tag: function(t, e) {},
    						text: function(t) {}
    					};
    					l.prototype.get = function(t) {
    						if (t === o && (t = this.pos++),
    						t >= this.enc.length)
    							throw "Requesting byte offset " + t + " on a stream of length " + this.enc.length;
    						return this.enc[t]
    					}
    					,
    					l.prototype.hexDigits = "0123456789ABCDEF",
    					l.prototype.hexByte = function(t) {
    						return this.hexDigits.charAt(t >> 4 & 15) + this.hexDigits.charAt(15 & t)
    					}
    					,
    					l.prototype.hexDump = function(t, e, i) {
    						for (var s = "", n = t; e > n; ++n)
    							if (s += this.hexByte(this.get(n)),
    							i !== !0)
    								switch (15 & n) {
    								case 7:
    									s += " ";
    									break;
    								case 15:
    									s += "\n";
    									break;
    								default:
    									s += " "
    								}
    						return s
    					}
    					,
    					l.prototype.parseStringISO = function(t, e) {
    						for (var i = "", s = t; e > s; ++s)
    							i += String.fromCharCode(this.get(s));
    						return i
    					}
    					,
    					l.prototype.parseStringUTF = function(t, e) {
    						for (var i = "", s = t; e > s; ) {
    							var n = this.get(s++);
    							i += 128 > n ? String.fromCharCode(n) : n > 191 && 224 > n ? String.fromCharCode((31 & n) << 6 | 63 & this.get(s++)) : String.fromCharCode((15 & n) << 12 | (63 & this.get(s++)) << 6 | 63 & this.get(s++))
    						}
    						return i
    					}
    					,
    					l.prototype.parseStringBMP = function(t, e) {
    						for (var i = "", s = t; e > s; s += 2) {
    							var n = this.get(s)
    							  , r = this.get(s + 1);
    							i += String.fromCharCode((n << 8) + r)
    						}
    						return i
    					}
    					,
    					l.prototype.reTime = /^((?:1[89]|2\d)?\d\d)(0[1-9]|1[0-2])(0[1-9]|[12]\d|3[01])([01]\d|2[0-3])(?:([0-5]\d)(?:([0-5]\d)(?:[.,](\d{1,3}))?)?)?(Z|[-+](?:[0]\d|1[0-2])([0-5]\d)?)?$/,
    					l.prototype.parseTime = function(t, e) {
    						var i = this.parseStringISO(t, e)
    						  , s = this.reTime.exec(i);
    						return s ? (i = s[1] + "-" + s[2] + "-" + s[3] + " " + s[4],
    						s[5] && (i += ":" + s[5],
    						s[6] && (i += ":" + s[6],
    						s[7] && (i += "." + s[7]))),
    						s[8] && (i += " UTC",
    						"Z" != s[8] && (i += s[8],
    						s[9] && (i += ":" + s[9]))),
    						i) : "Unrecognized time: " + i
    					}
    					,
    					l.prototype.parseInteger = function(t, e) {
    						var i = e - t;
    						if (i > 4) {
    							i <<= 3;
    							var s = this.get(t);
    							if (0 === s)
    								i -= 8;
    							else
    								for (; 128 > s; )
    									s <<= 1,
    									--i;
    							return "(" + i + " bit)"
    						}
    						for (var n = 0, r = t; e > r; ++r)
    							n = n << 8 | this.get(r);
    						return n
    					}
    					,
    					l.prototype.parseBitString = function(t, e) {
    						var i = this.get(t)
    						  , s = (e - t - 1 << 3) - i
    						  , n = "(" + s + " bit)";
    						if (20 >= s) {
    							var r = i;
    							n += " ";
    							for (var o = e - 1; o > t; --o) {
    								for (var a = this.get(o), c = r; 8 > c; ++c)
    									n += a >> c & 1 ? "1" : "0";
    								r = 0
    							}
    						}
    						return n
    					}
    					,
    					l.prototype.parseOctetString = function(t, e) {
    						var i = e - t
    						  , s = "(" + i + " byte) ";
    						i > r && (e = t + r);
    						for (var n = t; e > n; ++n)
    							s += this.hexByte(this.get(n));
    						return i > r && (s += a),
    						s
    					}
    					,
    					l.prototype.parseOID = function(t, e) {
    						for (var i = "", s = 0, n = 0, r = t; e > r; ++r) {
    							var o = this.get(r);
    							if (s = s << 7 | 127 & o,
    							n += 7,
    							!(128 & o)) {
    								if ("" === i) {
    									var a = 80 > s ? 40 > s ? 0 : 1 : 2;
    									i = a + "." + (s - 40 * a)
    								} else
    									i += "." + (n >= 31 ? "bigint" : s);
    								s = n = 0
    							}
    						}
    						return i
    					}
    					,
    					u.prototype.typeName = function() {
    						if (this.tag === o)
    							return "unknown";
    						var t = this.tag >> 6
    						  , e = (this.tag >> 5 & 1,
    						31 & this.tag);
    						switch (t) {
    						case 0:
    							switch (e) {
    							case 0:
    								return "EOC";
    							case 1:
    								return "BOOLEAN";
    							case 2:
    								return "INTEGER";
    							case 3:
    								return "BIT_STRING";
    							case 4:
    								return "OCTET_STRING";
    							case 5:
    								return "NULL";
    							case 6:
    								return "OBJECT_IDENTIFIER";
    							case 7:
    								return "ObjectDescriptor";
    							case 8:
    								return "EXTERNAL";
    							case 9:
    								return "REAL";
    							case 10:
    								return "ENUMERATED";
    							case 11:
    								return "EMBEDDED_PDV";
    							case 12:
    								return "UTF8String";
    							case 16:
    								return "SEQUENCE";
    							case 17:
    								return "SET";
    							case 18:
    								return "NumericString";
    							case 19:
    								return "PrintableString";
    							case 20:
    								return "TeletexString";
    							case 21:
    								return "VideotexString";
    							case 22:
    								return "IA5String";
    							case 23:
    								return "UTCTime";
    							case 24:
    								return "GeneralizedTime";
    							case 25:
    								return "GraphicString";
    							case 26:
    								return "VisibleString";
    							case 27:
    								return "GeneralString";
    							case 28:
    								return "UniversalString";
    							case 30:
    								return "BMPString";
    							default:
    								return "Universal_" + e.toString(16)
    							}
    						case 1:
    							return "Application_" + e.toString(16);
    						case 2:
    							return "[" + e + "]";
    						case 3:
    							return "Private_" + e.toString(16)
    						}
    					}
    					,
    					u.prototype.reSeemsASCII = /^[ -~]+$/,
    					u.prototype.content = function() {
    						if (this.tag === o)
    							return null;
    						var t = this.tag >> 6
    						  , e = 31 & this.tag
    						  , i = this.posContent()
    						  , s = Math.abs(this.length);
    						if (0 !== t) {
    							if (null !== this.sub)
    								return "(" + this.sub.length + " elem)";
    							var n = this.stream.parseStringISO(i, i + Math.min(s, r));
    							return this.reSeemsASCII.test(n) ? n.substring(0, 2 * r) + (n.length > 2 * r ? a : "") : this.stream.parseOctetString(i, i + s)
    						}
    						switch (e) {
    						case 1:
    							return 0 === this.stream.get(i) ? "false" : "true";
    						case 2:
    							return this.stream.parseInteger(i, i + s);
    						case 3:
    							return this.sub ? "(" + this.sub.length + " elem)" : this.stream.parseBitString(i, i + s);
    						case 4:
    							return this.sub ? "(" + this.sub.length + " elem)" : this.stream.parseOctetString(i, i + s);
    						case 6:
    							return this.stream.parseOID(i, i + s);
    						case 16:
    						case 17:
    							return "(" + this.sub.length + " elem)";
    						case 12:
    							return this.stream.parseStringUTF(i, i + s);
    						case 18:
    						case 19:
    						case 20:
    						case 21:
    						case 22:
    						case 26:
    							return this.stream.parseStringISO(i, i + s);
    						case 30:
    							return this.stream.parseStringBMP(i, i + s);
    						case 23:
    						case 24:
    							return this.stream.parseTime(i, i + s)
    						}
    						return null
    					}
    					,
    					u.prototype.toString = function() {
    						return this.typeName() + "@" + this.stream.pos + "[header:" + this.header + ",length:" + this.length + ",sub:" + (null === this.sub ? "null" : this.sub.length) + "]"
    					}
    					,
    					u.prototype.print = function(t) {
    						if (t === o && (t = ""),
    						null !== this.sub) {
    							t += " ";
    							for (var e = 0, i = this.sub.length; i > e; ++e)
    								this.sub[e].print(t)
    						}
    					}
    					,
    					u.prototype.toPrettyString = function(t) {
    						t === o && (t = "");
    						var e = t + this.typeName() + " @" + this.stream.pos;
    						if (this.length >= 0 && (e += "+"),
    						e += this.length,
    						32 & this.tag ? e += " (constructed)" : 3 != this.tag && 4 != this.tag || null === this.sub || (e += " (encapsulates)"),
    						e += "\n",
    						null !== this.sub) {
    							t += " ";
    							for (var i = 0, s = this.sub.length; s > i; ++i)
    								e += this.sub[i].toPrettyString(t)
    						}
    						return e
    					}
    					,
    					u.prototype.toDOM = function() {
    						var t = d.tag("div", "node");
    						t.asn1 = this;
    						var e = d.tag("div", "head")
    						  , i = this.typeName().replace(/_/g, " ");
    						e.innerHTML = i;
    						var s = this.content();
    						if (null !== s) {
    							s = String(s).replace(/</g, "&lt;");
    							var n = d.tag("span", "preview");
    							n.appendChild(d.text(s)),
    							e.appendChild(n)
    						}
    						t.appendChild(e),
    						this.node = t,
    						this.head = e;
    						var r = d.tag("div", "value");
    						if (i = "Offset: " + this.stream.pos + "<br/>",
    						i += "Length: " + this.header + "+",
    						i += this.length >= 0 ? this.length : -this.length + " (undefined)",
    						32 & this.tag ? i += "<br/>(constructed)" : 3 != this.tag && 4 != this.tag || null === this.sub || (i += "<br/>(encapsulates)"),
    						null !== s && (i += "<br/>Value:<br/><b>" + s + "</b>",
    						"object" == typeof oids && 6 == this.tag)) {
    							var o = oids[s];
    							o && (o.d && (i += "<br/>" + o.d),
    							o.c && (i += "<br/>" + o.c),
    							o.w && (i += "<br/>(warning!)"))
    						}
    						r.innerHTML = i,
    						t.appendChild(r);
    						var a = d.tag("div", "sub");
    						if (null !== this.sub)
    							for (var c = 0, l = this.sub.length; l > c; ++c)
    								a.appendChild(this.sub[c].toDOM());
    						return t.appendChild(a),
    						e.onclick = function() {
    							t.className = "node collapsed" == t.className ? "node" : "node collapsed"
    						}
    						,
    						t
    					}
    					,
    					u.prototype.posStart = function() {
    						return this.stream.pos
    					}
    					,
    					u.prototype.posContent = function() {
    						return this.stream.pos + this.header
    					}
    					,
    					u.prototype.posEnd = function() {
    						return this.stream.pos + this.header + Math.abs(this.length)
    					}
    					,
    					u.prototype.fakeHover = function(t) {
    						this.node.className += " hover",
    						t && (this.head.className += " hover")
    					}
    					,
    					u.prototype.fakeOut = function(t) {
    						var e = / ?hover/;
    						this.node.className = this.node.className.replace(e, ""),
    						t && (this.head.className = this.head.className.replace(e, ""))
    					}
    					,
    					u.prototype.toHexDOM_sub = function(t, e, i, s, n) {
    						if (!(s >= n)) {
    							var r = d.tag("span", e);
    							r.appendChild(d.text(i.hexDump(s, n))),
    							t.appendChild(r)
    						}
    					}
    					,
    					u.prototype.toHexDOM = function(e) {
    						var t = d.tag("span", "hex");
    						if (e === o && (e = t),
    						this.head.hexNode = t,
    						this.head.onmouseover = function() {
    							this.hexNode.className = "hexCurrent"
    						}
    						,
    						this.head.onmouseout = function() {
    							this.hexNode.className = "hex"
    						}
    						,
    						t.asn1 = this,
    						t.onmouseover = function() {
    							var t = !e.selected;
    							t && (e.selected = this.asn1,
    							this.className = "hexCurrent"),
    							this.asn1.fakeHover(t)
    						}
    						,
    						t.onmouseout = function() {
    							var t = e.selected == this.asn1;
    							this.asn1.fakeOut(t),
    							t && (e.selected = null,
    							this.className = "hex")
    						}
    						,
    						this.toHexDOM_sub(t, "tag", this.stream, this.posStart(), this.posStart() + 1),
    						this.toHexDOM_sub(t, this.length >= 0 ? "dlen" : "ulen", this.stream, this.posStart() + 1, this.posContent()),
    						null === this.sub)
    							t.appendChild(d.text(this.stream.hexDump(this.posContent(), this.posEnd())));
    						else if (this.sub.length > 0) {
    							var i = this.sub[0]
    							  , s = this.sub[this.sub.length - 1];
    							this.toHexDOM_sub(t, "intro", this.stream, this.posContent(), i.posStart());
    							for (var n = 0, r = this.sub.length; r > n; ++n)
    								t.appendChild(this.sub[n].toHexDOM(e));
    							this.toHexDOM_sub(t, "outro", this.stream, s.posEnd(), this.posEnd())
    						}
    						return t
    					}
    					,
    					u.prototype.toHexString = function(t) {
    						return this.stream.hexDump(this.posStart(), this.posEnd(), !0)
    					}
    					,
    					u.decodeLength = function(t) {
    						var e = t.get()
    						  , i = 127 & e;
    						if (i == e)
    							return i;
    						if (i > 3)
    							throw "Length over 24 bits not supported at position " + (t.pos - 1);
    						if (0 === i)
    							return -1;
    						e = 0;
    						for (var s = 0; i > s; ++s)
    							e = e << 8 | t.get();
    						return e
    					}
    					,
    					u.hasContent = function(t, e, i) {
    						if (32 & t)
    							return !0;
    						if (3 > t || t > 4)
    							return !1;
    						var s = new l(i);
    						3 == t && s.get();
    						var n = s.get();
    						if (n >> 6 & 1)
    							return !1;
    						try {
    							var r = u.decodeLength(s);
    							return s.pos - i.pos + r == e
    						} catch (p) {
    							return !1
    						}
    					}
    					,
    					u.decode = function(t) {
    						t instanceof l || (t = new l(t,0));
    						var e = new l(t)
    						  , i = t.get()
    						  , s = u.decodeLength(t)
    						  , n = t.pos - e.pos
    						  , r = null;
    						if (u.hasContent(i, s, t)) {
    							var o = t.pos;
    							if (3 == i && t.get(),
    							r = [],
    							s >= 0) {
    								for (var a = o + s; t.pos < a; )
    									r[r.length] = u.decode(t);
    								if (t.pos != a)
    									throw "Content size is not correct for container starting at offset " + o
    							} else
    								try {
    									for (; ; ) {
    										var c = u.decode(t);
    										if (0 === c.tag)
    											break;
    										r[r.length] = c
    									}
    									s = o - t.pos
    								} catch (h) {
    									throw "Exception while decoding undefined length content: " + h
    								}
    						} else
    							t.pos += s;
    						return new u(e,n,s,i,r)
    					}
    					,
    					u.test = function() {
    						for (var t = [{
    							value: [39],
    							expected: 39
    						}, {
    							value: [129, 201],
    							expected: 201
    						}, {
    							value: [131, 254, 220, 186],
    							expected: 16702650
    						}], e = 0, i = t.length; i > e; ++e) {
    							var s = new l(t[e].value,0)
    							  , n = u.decodeLength(s);
    						}
    					}
    					,
    					window.ASN1 = u
    				}(),
    				ASN1.prototype.getHexStringValue = function() {
    					var t = this.toHexString()
    					  , e = 2 * this.header
    					  , i = 2 * this.length;
    					return t.substr(e, i)
    				}
    				,
    				le.prototype.parseKey = function(t) {
    					try {
    						var e = 0
    						  , i = 0
    						  , s = /^\s*(?:[0-9A-Fa-f][0-9A-Fa-f]\s*)+$/
    						  , n = s.test(t) ? Hex.decode(t) : Base64.unarmor(t)
    						  , r = ASN1.decode(n);
    						if (3 === r.sub.length && (r = r.sub[2].sub[0]),
    						9 === r.sub.length) {
    							e = r.sub[1].getHexStringValue(),
    							this.n = ae(e, 16),
    							i = r.sub[2].getHexStringValue(),
    							this.e = parseInt(i, 16);
    							var o = r.sub[3].getHexStringValue();
    							this.d = ae(o, 16);
    							var a = r.sub[4].getHexStringValue();
    							this.p = ae(a, 16);
    							var c = r.sub[5].getHexStringValue();
    							this.q = ae(c, 16);
    							var l = r.sub[6].getHexStringValue();
    							this.dmp1 = ae(l, 16);
    							var u = r.sub[7].getHexStringValue();
    							this.dmq1 = ae(u, 16);
    							var d = r.sub[8].getHexStringValue();
    							this.coeff = ae(d, 16)
    						} else {
    							if (2 !== r.sub.length)
    								return !1;
    							var p = r.sub[1]
    							  , h = p.sub[0];
    							e = h.sub[0].getHexStringValue(),
    							this.n = ae(e, 16),
    							i = h.sub[1].getHexStringValue(),
    							this.e = parseInt(i, 16)
    						}
    						return !0
    					} catch (f) {
    						return !1
    					}
    				}
    				,
    				le.prototype.getPrivateBaseKey = function() {
    					var t = {
    						array: [new KJUR.asn1.DERInteger({
    							"int": 0
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.n
    						}), new KJUR.asn1.DERInteger({
    							"int": this.e
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.d
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.p
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.q
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.dmp1
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.dmq1
    						}), new KJUR.asn1.DERInteger({
    							bigint: this.coeff
    						})]
    					}
    					  , e = new KJUR.asn1.DERSequence(t);
    					return e.getEncodedHex()
    				}
    				,
    				le.prototype.getPrivateBaseKeyB64 = function() {
    					return be(this.getPrivateBaseKey())
    				}
    				,
    				le.prototype.getPublicBaseKey = function() {
    					var t = {
    						array: [new KJUR.asn1.DERObjectIdentifier({
    							oid: "1.2.840.113549.1.1.1"
    						}), new KJUR.asn1.DERNull]
    					}
    					  , e = new KJUR.asn1.DERSequence(t);
    					t = {
    						array: [new KJUR.asn1.DERInteger({
    							bigint: this.n
    						}), new KJUR.asn1.DERInteger({
    							"int": this.e
    						})]
    					};
    					var i = new KJUR.asn1.DERSequence(t);
    					t = {
    						hex: "00" + i.getEncodedHex()
    					};
    					var s = new KJUR.asn1.DERBitString(t);
    					t = {
    						array: [e, s]
    					};
    					var n = new KJUR.asn1.DERSequence(t);
    					return n.getEncodedHex()
    				}
    				,
    				le.prototype.getPublicBaseKeyB64 = function() {
    					return be(this.getPublicBaseKey())
    				}
    				,
    				le.prototype.wordwrap = function(t, e) {
    					if (e = e || 64,
    					!t)
    						return t;
    					var i = "(.{1," + e + "})( +|$\n?)|(.{1," + e + "})";
    					return t.match(RegExp(i, "g")).join("\n")
    				}
    				,
    				le.prototype.getPrivateKey = function() {
    					var t = "-----BEGIN RSA PRIVATE KEY-----\n";
    					return t += this.wordwrap(this.getPrivateBaseKeyB64()) + "\n",
    					t += "-----END RSA PRIVATE KEY-----"
    				}
    				,
    				le.prototype.getPublicKey = function() {
    					var t = "-----BEGIN PUBLIC KEY-----\n";
    					return t += this.wordwrap(this.getPublicBaseKeyB64()) + "\n",
    					t += "-----END PUBLIC KEY-----"
    				}
    				,
    				le.prototype.hasPublicKeyProperty = function(t) {
    					return t = t || {},
    					t.hasOwnProperty("n") && t.hasOwnProperty("e")
    				}
    				,
    				le.prototype.hasPrivateKeyProperty = function(t) {
    					return t = t || {},
    					t.hasOwnProperty("n") && t.hasOwnProperty("e") && t.hasOwnProperty("d") && t.hasOwnProperty("p") && t.hasOwnProperty("q") && t.hasOwnProperty("dmp1") && t.hasOwnProperty("dmq1") && t.hasOwnProperty("coeff")
    				}
    				,
    				le.prototype.parsePropertiesFrom = function(t) {
    					this.n = t.n,
    					this.e = t.e,
    					t.hasOwnProperty("d") && (this.d = t.d,
    					this.p = t.p,
    					this.q = t.q,
    					this.dmp1 = t.dmp1,
    					this.dmq1 = t.dmq1,
    					this.coeff = t.coeff)
    				}
    				;
    				var qe = function(t) {
    					le.call(this),
    					t && ("string" == typeof t ? this.parseKey(t) : (this.hasPrivateKeyProperty(t) || this.hasPublicKeyProperty(t)) && this.parsePropertiesFrom(t))
    				};
    				(qe.prototype = new le).constructor = qe;
    				var He = function(t) {
    					t = t || {},
    					this.default_key_size = parseInt(t.default_key_size) || 1024,
    					this.default_public_exponent = t.default_public_exponent || "010001",
    					this.log = t.log || !1,
    					this.key = null
    				};
    				He.prototype.setKey = function(t) {
    					this.log && this.key && console.warn("A key was already set, overriding existing."),
    					this.key = new qe(t)
    				}
    				,
    				He.prototype.setPrivateKey = function(t) {
    					this.setKey(t)
    				}
    				,
    				He.prototype.setPublicKey = function(t) {
    					this.setKey(t)
    				}
    				,
    				He.prototype.decrypt = function(t) {
    					try {
    						return this.getKey().decrypt(ye(t))
    					} catch (b) {
    						return !1
    					}
    				}
    				,
    				He.prototype.encrypt = function(t) {
    					try {
    						return be(this.getKey().encrypt(t))
    					} catch (b) {
    						return !1
    					}
    				}
    				,
    				He.prototype.getKey = function(t) {
    					if (!this.key) {
    						if (this.key = new qe,
    						t && "[object Function]" === {}.toString.call(t))
    							return void this.key.generateAsync(this.default_key_size, this.default_public_exponent, t);
    						this.key.generate(this.default_key_size, this.default_public_exponent)
    					}
    					return this.key
    				}
    				,
    				He.prototype.getPrivateKey = function() {
    					return this.getKey().getPrivateKey()
    				}
    				,
    				He.prototype.getPrivateKeyB64 = function() {
    					return this.getKey().getPrivateBaseKeyB64()
    				}
    				,
    				He.prototype.getPublicKey = function() {
    					return this.getKey().getPublicKey()
    				}
    				,
    				He.prototype.getPublicKeyB64 = function() {
    					return this.getKey().getPublicBaseKeyB64()
    				}
    				,
    				He.version = "2.3.1",
    				t.JSEncrypt = He
    			}
    			) ? s.apply(e, n) : s) === undefined || (i.exports = r)
    		}
    		.call(e, i, e, t)) === undefined || (t.exports = r)
    	},
    	jsencrypt: function(t, e, r) {
    		var i;
    		(i = function(t, e, i) {
    			var s = r("encrypt");
    			function n() {
    				void 0 !== s && (this.jsencrypt = new s.JSEncrypt,
    				this.jsencrypt.setPublicKey("-----BEGIN PUBLIC KEY-----MIGfMA0GCSqGSIb3DQEBAQUAA4GNADCBiQKBgQDq04c6My441Gj0UFKgrqUhAUg+kQZeUeWSPlAU9fr4HBPDldAeqzx1UR99KJHuQh/zs1HOamE2dgX9z/2oXcJaqoRIA/FXysx+z2YlJkSk8XQLcQ8EBOkp//MZrixam7lCYpNOjadQBb2Ot0U/Ky+jF2p+Ie8gSZ7/u+Wnr5grywIDAQAB-----END PUBLIC KEY-----"))
    			}
    			n.prototype.encode = function(t, e) {
    				var i = e ? e + "|" + t : t;
    				return encodeURIComponent(this.jsencrypt.encrypt(i))
    			}
    			,
    			i.exports = n
    		}
    		.call(e, r, e, t)) === undefined || (t.exports = i)
    	}
    });
    function z(pwd, time) {
    	var n = _n("jsencrypt");
    	var g = (new n);
    	var r = g.encode(pwd, time);
    	return r;
    }
    function sdk(param1, param2) {
    	if (window.o >= 6) {
    		alert('不要戳这么多下,人家好痛嘛~');
    		location.reload();
    	}
    	return z(param1, param2);
    }
    
    var t = Date.parse(new Date());
    // console.log(window);
    console.log(sdk(t, window.o));
    
    
  1. 再看q参数的生成逻辑。
    "q":window.i+=window.o+'-'+t+"|":就是将点击页面的次数和时间戳进行拼接,没有什么复杂的逻辑。
  2. 看下页面响应的数据,它只回显了三等奖的中奖金额。
    image
    看下总销售额的金额与三等奖金额的关系。
    157488/6562=24:总金额是三等奖的8倍,所以在写python代码的时候需要将获取的数据之和乘以24才是最终的结果。
  3. 编写python代码。
    from functools import partial   # 锁定参数
    import subprocess
    
    subprocess.Popen = partial(subprocess.Popen, encoding="utf-8")
    
    
    import requests
    import execjs
    import time
    import re
    
    headers = {
    	"user-agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/127.0.0.0 Safari/537.36",
    }
    cookies = {
    	"sessionid": "xxxxx",
    }
    
    
    def call_js(file_name, func_name, *args):
    	with open(file_name, mode='r', encoding='utf-8') as f:
    		js_code = execjs.compile(f.read())
    	return js_code.call(func_name, *args)
    
    
    def send_match6(page, click):
    	url = "https://match.yuanrenxue.cn/api/match/6"
    	time_ = int(str(int(time.time() * 1000))[:10] + '000')
    	q = str(click) + '-' + str(time_) + '|'
    	m = call_js('generate_m.js', 'sdk', time_, click)
    	params = {
    		"page": f'{page}',
    		"m": m,
    		"q": q
    	}
    	response = requests.get(url, headers=headers, cookies=cookies, params=params)
    	# print(params)
    	# print(response.text)
    	# print('==================================================')
    	return response.text
    
    
    if __name__ == '__main__':
    	str_concat = ''
    	click_Nums = 1
    	pattern = '{"value": (?P<num>.*?)}'
    	sum = 0
    	for page in range(1, 6):
    		concat = send_match6(page, click_Nums)
    		# print(concat)
    		findall = re.findall(pattern, concat)
    		for item in findall:
    			sum += int(item)
    		click_Nums += 1
    		str_concat = concat
    	print(sum*24)
    
    运行得到结果。
    image
  4. 提交,成功通关。
    image
posted @ 2024-11-16 22:13  死不悔改奇男子  阅读(20)  评论(0编辑  收藏  举报