首页 > 其他分享 >JSEncrypt 传输加密 -前端

JSEncrypt 传输加密 -前端

时间:2024-08-01 17:19:46浏览次数:13  
标签:function case return 传输 length && var 加密 JSEncrypt

1.有些特殊要求,要求前端传给后端参数时把一些密码,手机号等加密,具体使用方式如下

引入 jsencrypt.min.js ,我是在app中使用,有些 jsencrypt.min.js文件只支持h5,使用的时候会报错,这个jsh5,app都可以使用,js文件内容在最下面

import {  JSEncrypt  } from '@/common/utils/jsencrypt.min.js'

 

2.获取后端创建的密钥,密钥是随机的。

getgongyao(){
                this.$api.post(global.apiUrls.post66889d1e36e33).then(res =>{
                    res = res.data;
                    if(res.code == '1'){
                        this.publicKey = res.data.public_key;
                    }
                })
            },

 

3.创建加密方法

var encrypt = new JSEncrypt();
encrypt.setPublicKey(this.publicKey);

 

4.传输时加密

mobile: encrypt.encrypt(this.mobile),
password: encrypt.encrypt(this.password)

 

引入的 js

jsencrypt.min.js

! function(t, e) {
    "object" == typeof exports && "undefined" != typeof module ? e(exports) : "function" == typeof define && define
        .amd ? define(["exports"], e) : e(t.JSEncrypt = {})
}(this, function(t) {
    "use strict";
    var e = "0123456789abcdefghijklmnopqrstuvwxyz";

    function a(t) {
        return e.charAt(t)
    }

    function i(t, e) {
        return t & e
    }

    function u(t, e) {
        return t | e
    }

    function r(t, e) {
        return t ^ e
    }

    function n(t, e) {
        return t & ~e
    }

    function s(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 o(t) {
        for (var e = 0; 0 != t;) t &= t - 1, ++e;
        return e
    }
    var h = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";

    function c(t) {
        var e, i, r = "";
        for (e = 0; e + 3 <= t.length; e += 3) i = parseInt(t.substring(e, e + 3), 16), r += h.charAt(i >> 6) + h
            .charAt(63 & i);
        for (e + 1 == t.length ? (i = parseInt(t.substring(e, e + 1), 16), r += h.charAt(i << 2)) : e + 2 == t
            .length && (i = parseInt(t.substring(e, e + 2), 16), r += h.charAt(i >> 2) + h.charAt((3 & i) <<
            4)); 0 < (3 & r.length);) r += "=";
        return r
    }

    function f(t) {
        var e, i = "",
            r = 0,
            n = 0;
        for (e = 0; e < t.length && "=" != t.charAt(e); ++e) {
            var s = h.indexOf(t.charAt(e));
            s < 0 || (0 == r ? (i += a(s >> 2), n = 3 & s, r = 1) : 1 == r ? (i += a(n << 2 | s >> 4), n = 15 & s,
                r = 2) : 2 == r ? (i += a(n), i += a(s >> 2), n = 3 & s, r = 3) : (i += a(n << 2 | s >> 4),
                i += a(15 & s), r = 0))
        }
        return 1 == r && (i += a(n << 2)), i
    }
    var l, p = function(t, e) {
        return (p = Object.setPrototypeOf || {
                __proto__: []
            }
            instanceof Array && function(t, e) {
                t.__proto__ = e
            } || function(t, e) {
                for (var i in e) e.hasOwnProperty(i) && (t[i] = e[i])
            })(t, e)
    };
    var g, d = function(t) {
            var e;
            if (void 0 === l) {
                var i = "0123456789ABCDEF",
                    r = " \f\n\r\t \u2028\u2029";
                for (l = {}, e = 0; e < 16; ++e) l[i.charAt(e)] = e;
                for (i = i.toLowerCase(), e = 10; e < 16; ++e) l[i.charAt(e)] = e;
                for (e = 0; e < r.length; ++e) l[r.charAt(e)] = -1
            }
            var n = [],
                s = 0,
                o = 0;
            for (e = 0; e < t.length; ++e) {
                var h = t.charAt(e);
                if ("=" == h) break;
                if (-1 != (h = l[h])) {
                    if (void 0 === h) throw new Error("Illegal character at offset " + e);
                    s |= h, 2 <= ++o ? (n[n.length] = s, o = s = 0) : s <<= 4
                }
            }
            if (o) throw new Error("Hex encoding incomplete: 4 bits missing");
            return n
        },
        v = {
            decode: function(t) {
                var e;
                if (void 0 === g) {
                    var i = "= \f\n\r\t \u2028\u2029";
                    for (g = Object.create(null), e = 0; e < 64; ++e) g[
                        "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/".charAt(e)] = e;
                    for (e = 0; e < i.length; ++e) g[i.charAt(e)] = -1
                }
                var r = [],
                    n = 0,
                    s = 0;
                for (e = 0; e < t.length; ++e) {
                    var o = t.charAt(e);
                    if ("=" == o) break;
                    if (-1 != (o = g[o])) {
                        if (void 0 === o) throw new Error("Illegal character at offset " + e);
                        n |= o, 4 <= ++s ? (r[r.length] = n >> 16, r[r.length] = n >> 8 & 255, r[r.length] =
                            255 & n, s = n = 0) : n <<= 6
                    }
                }
                switch (s) {
                    case 1:
                        throw new Error("Base64 encoding incomplete: at least 2 bits missing");
                    case 2:
                        r[r.length] = n >> 10;
                        break;
                    case 3:
                        r[r.length] = n >> 16, r[r.length] = n >> 8 & 255
                }
                return r
            },
            re: /-----BEGIN [^-]+-----([A-Za-z0-9+\/=\s]+)-----END [^-]+-----|begin-base64[^\n]+\n([A-Za-z0-9+\/=\s]+)====/,
            unarmor: function(t) {
                var e = v.re.exec(t);
                if (e)
                    if (e[1]) t = e[1];
                    else {
                        if (!e[2]) throw new Error("RegExp out of sync");
                        t = e[2]
                    } return v.decode(t)
            }
        },
        m = 1e13,
        y = function() {
            function t(t) {
                this.buf = [+t || 0]
            }
            return t.prototype.mulAdd = function(t, e) {
                var i, r, n = this.buf,
                    s = n.length;
                for (i = 0; i < s; ++i)(r = n[i] * t + e) < m ? e = 0 : r -= (e = 0 | r / m) * m, n[i] = r;
                0 < e && (n[i] = e)
            }, t.prototype.sub = function(t) {
                var e, i, r = this.buf,
                    n = r.length;
                for (e = 0; e < n; ++e)(i = r[e] - t) < 0 ? (i += m, t = 1) : t = 0, r[e] = i;
                for (; 0 === r[r.length - 1];) r.pop()
            }, t.prototype.toString = function(t) {
                if (10 != (t || 10)) throw new Error("only base 10 is supported");
                for (var e = this.buf, i = e[e.length - 1].toString(), r = e.length - 2; 0 <= r; --r) i += (m +
                    e[r]).toString().substring(1);
                return i
            }, t.prototype.valueOf = function() {
                for (var t = this.buf, e = 0, i = t.length - 1; 0 <= i; --i) e = e * m + t[i];
                return e
            }, t.prototype.simplify = function() {
                var t = this.buf;
                return 1 == t.length ? t[0] : this
            }, t
        }(),
        b = "…",
        T =
        /^(\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)?)?$/,
        S =
        /^(\d\d\d\d)(0[1-9]|1[0-2])(0[1-9]|[12]\d|3[01])([01]\d|2[0-3])(?:([0-5]\d)(?:([0-5]\d)(?:[.,](\d{1,3}))?)?)?(Z|[-+](?:[0]\d|1[0-2])([0-5]\d)?)?$/;

    function E(t, e) {
        return t.length > e && (t = t.substring(0, e) + b), t
    }
    var w, D = function() {
            function i(t, e) {
                this.hexDigits = "0123456789ABCDEF", t instanceof i ? (this.enc = t.enc, this.pos = t.pos) : (this
                    .enc = t, this.pos = e)
            }
            return i.prototype.get = function(t) {
                if (void 0 === t && (t = this.pos++), t >= this.enc.length) throw new Error(
                    "Requesting byte offset " + t + " on a stream of length " + this.enc.length);
                return "string" == typeof this.enc ? this.enc.charCodeAt(t) : this.enc[t]
            }, i.prototype.hexByte = function(t) {
                return this.hexDigits.charAt(t >> 4 & 15) + this.hexDigits.charAt(15 & t)
            }, i.prototype.hexDump = function(t, e, i) {
                for (var r = "", n = t; n < e; ++n)
                    if (r += this.hexByte(this.get(n)), !0 !== i) switch (15 & n) {
                        case 7:
                            r += "  ";
                            break;
                        case 15:
                            r += "\n";
                            break;
                        default:
                            r += " "
                    }
                return r
            }, i.prototype.isASCII = function(t, e) {
                for (var i = t; i < e; ++i) {
                    var r = this.get(i);
                    if (r < 32 || 176 < r) return !1
                }
                return !0
            }, i.prototype.parseStringISO = function(t, e) {
                for (var i = "", r = t; r < e; ++r) i += String.fromCharCode(this.get(r));
                return i
            }, i.prototype.parseStringUTF = function(t, e) {
                for (var i = "", r = t; r < e;) {
                    var n = this.get(r++);
                    i += n < 128 ? String.fromCharCode(n) : 191 < n && n < 224 ? String.fromCharCode((31 & n) <<
                        6 | 63 & this.get(r++)) : String.fromCharCode((15 & n) << 12 | (63 & this.get(
                        r++)) << 6 | 63 & this.get(r++))
                }
                return i
            }, i.prototype.parseStringBMP = function(t, e) {
                for (var i, r, n = "", s = t; s < e;) i = this.get(s++), r = this.get(s++), n += String
                    .fromCharCode(i << 8 | r);
                return n
            }, i.prototype.parseTime = function(t, e, i) {
                var r = this.parseStringISO(t, e),
                    n = (i ? T : S).exec(r);
                return n ? (i && (n[1] = +n[1], n[1] += +n[1] < 70 ? 2e3 : 1900), r = n[1] + "-" + n[2] + "-" +
                    n[3] + " " + n[4], n[5] && (r += ":" + n[5], n[6] && (r += ":" + n[6], n[7] && (r +=
                        "." + n[7]))), n[8] && (r += " UTC", "Z" != n[8] && (r += n[8], n[9] && (r += ":" +
                        n[9]))), r) : "Unrecognized time: " + r
            }, i.prototype.parseInteger = function(t, e) {
                for (var i, r = this.get(t), n = 127 < r, s = n ? 255 : 0, o = ""; r == s && ++t < e;) r = this
                    .get(t);
                if (0 === (i = e - t)) return n ? -1 : 0;
                if (4 < i) {
                    for (o = r, i <<= 3; 0 == (128 & (+o ^ s));) o = +o << 1, --i;
                    o = "(" + i + " bit)\n"
                }
                n && (r -= 256);
                for (var h = new y(r), a = t + 1; a < e; ++a) h.mulAdd(256, this.get(a));
                return o + h.toString()
            }, i.prototype.parseBitString = function(t, e, i) {
                for (var r = this.get(t), n = "(" + ((e - t - 1 << 3) - r) + " bit)\n", s = "", o = t + 1; o <
                    e; ++o) {
                    for (var h = this.get(o), a = o == e - 1 ? r : 0, u = 7; a <= u; --u) s += h >> u & 1 ?
                        "1" : "0";
                    if (s.length > i) return n + E(s, i)
                }
                return n + s
            }, i.prototype.parseOctetString = function(t, e, i) {
                if (this.isASCII(t, e)) return E(this.parseStringISO(t, e), i);
                var r = e - t,
                    n = "(" + r + " byte)\n";
                (i /= 2) < r && (e = t + i);
                for (var s = t; s < e; ++s) n += this.hexByte(this.get(s));
                return i < r && (n += b), n
            }, i.prototype.parseOID = function(t, e, i) {
                for (var r = "", n = new y, s = 0, o = t; o < e; ++o) {
                    var h = this.get(o);
                    if (n.mulAdd(128, 127 & h), s += 7, !(128 & h)) {
                        if ("" === r)
                            if ((n = n.simplify()) instanceof y) n.sub(80), r = "2." + n.toString();
                            else {
                                var a = n < 80 ? n < 40 ? 0 : 1 : 2;
                                r = a + "." + (n - 40 * a)
                            }
                        else r += "." + n.toString();
                        if (r.length > i) return E(r, i);
                        n = new y, s = 0
                    }
                }
                return 0 < s && (r += ".incomplete"), r
            }, i
        }(),
        x = function() {
            function c(t, e, i, r, n) {
                if (!(r instanceof R)) throw new Error("Invalid tag value.");
                this.stream = t, this.header = e, this.length = i, this.tag = r, this.sub = n
            }
            return c.prototype.typeName = function() {
                switch (this.tag.tagClass) {
                    case 0:
                        switch (this.tag.tagNumber) {
                            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"
                        }
                        return "Universal_" + this.tag.tagNumber.toString();
                    case 1:
                        return "Application_" + this.tag.tagNumber.toString();
                    case 2:
                        return "[" + this.tag.tagNumber.toString() + "]";
                    case 3:
                        return "Private_" + this.tag.tagNumber.toString()
                }
            }, c.prototype.content = function(t) {
                if (void 0 === this.tag) return null;
                void 0 === t && (t = 1 / 0);
                var e = this.posContent(),
                    i = Math.abs(this.length);
                if (!this.tag.isUniversal()) return null !== this.sub ? "(" + this.sub.length + " elem)" : this
                    .stream.parseOctetString(e, e + i, t);
                switch (this.tag.tagNumber) {
                    case 1:
                        return 0 === this.stream.get(e) ? "false" : "true";
                    case 2:
                        return this.stream.parseInteger(e, e + i);
                    case 3:
                        return this.sub ? "(" + this.sub.length + " elem)" : this.stream.parseBitString(e, e +
                            i, t);
                    case 4:
                        return this.sub ? "(" + this.sub.length + " elem)" : this.stream.parseOctetString(e, e +
                            i, t);
                    case 6:
                        return this.stream.parseOID(e, e + i, t);
                    case 16:
                    case 17:
                        return null !== this.sub ? "(" + this.sub.length + " elem)" : "(no elem)";
                    case 12:
                        return E(this.stream.parseStringUTF(e, e + i), t);
                    case 18:
                    case 19:
                    case 20:
                    case 21:
                    case 22:
                    case 26:
                        return E(this.stream.parseStringISO(e, e + i), t);
                    case 30:
                        return E(this.stream.parseStringBMP(e, e + i), t);
                    case 23:
                    case 24:
                        return this.stream.parseTime(e, e + i, 23 == this.tag.tagNumber)
                }
                return null
            }, c.prototype.toString = function() {
                return this.typeName() + "@" + this.stream.pos + "[header:" + this.header + ",length:" + this
                    .length + ",sub:" + (null === this.sub ? "null" : this.sub.length) + "]"
            }, c.prototype.toPrettyString = function(t) {
                void 0 === t && (t = "");
                var e = t + this.typeName() + " @" + this.stream.pos;
                if (0 <= this.length && (e += "+"), e += this.length, this.tag.tagConstructed ? e +=
                    " (constructed)" : !this.tag.isUniversal() || 3 != this.tag.tagNumber && 4 != this.tag
                    .tagNumber || null === this.sub || (e += " (encapsulates)"), e += "\n", null !== this.sub) {
                    t += "  ";
                    for (var i = 0, r = this.sub.length; i < r; ++i) e += this.sub[i].toPrettyString(t)
                }
                return e
            }, c.prototype.posStart = function() {
                return this.stream.pos
            }, c.prototype.posContent = function() {
                return this.stream.pos + this.header
            }, c.prototype.posEnd = function() {
                return this.stream.pos + this.header + Math.abs(this.length)
            }, c.prototype.toHexString = function() {
                return this.stream.hexDump(this.posStart(), this.posEnd(), !0)
            }, c.decodeLength = function(t) {
                var e = t.get(),
                    i = 127 & e;
                if (i == e) return i;
                if (6 < i) throw new Error("Length over 48 bits not supported at position " + (t.pos - 1));
                if (0 === i) return null;
                for (var r = e = 0; r < i; ++r) e = 256 * e + t.get();
                return e
            }, c.prototype.getHexStringValue = function() {
                var t = this.toHexString(),
                    e = 2 * this.header,
                    i = 2 * this.length;
                return t.substr(e, i)
            }, c.decode = function(t) {
                var r;
                r = t instanceof D ? t : new D(t, 0);
                var e = new D(r),
                    i = new R(r),
                    n = c.decodeLength(r),
                    s = r.pos,
                    o = s - e.pos,
                    h = null,
                    a = function() {
                        var t = [];
                        if (null !== n) {
                            for (var e = s + n; r.pos < e;) t[t.length] = c.decode(r);
                            if (r.pos != e) throw new Error(
                                "Content size is not correct for container starting at offset " + s)
                        } else try {
                            for (;;) {
                                var i = c.decode(r);
                                if (i.tag.isEOC()) break;
                                t[t.length] = i
                            }
                            n = s - r.pos
                        } catch (t) {
                            throw new Error("Exception while decoding undefined length content: " + t)
                        }
                        return t
                    };
                if (i.tagConstructed) h = a();
                else if (i.isUniversal() && (3 == i.tagNumber || 4 == i.tagNumber)) try {
                    if (3 == i.tagNumber && 0 != r.get()) throw new Error(
                        "BIT STRINGs with unused bits cannot encapsulate.");
                    h = a();
                    for (var u = 0; u < h.length; ++u)
                        if (h[u].tag.isEOC()) throw new Error("EOC is not supposed to be actual content.")
                } catch (t) {
                    h = null
                }
                if (null === h) {
                    if (null === n) throw new Error(
                        "We can't skip over an invalid tag with undefined length at offset " + s);
                    r.pos = s + Math.abs(n)
                }
                return new c(e, o, n, i, h)
            }, c
        }(),
        R = function() {
            function t(t) {
                var e = t.get();
                if (this.tagClass = e >> 6, this.tagConstructed = 0 != (32 & e), this.tagNumber = 31 & e, 31 == this
                    .tagNumber) {
                    for (var i = new y; e = t.get(), i.mulAdd(128, 127 & e), 128 & e;);
                    this.tagNumber = i.simplify()
                }
            }
            return t.prototype.isUniversal = function() {
                return 0 === this.tagClass
            }, t.prototype.isEOC = function() {
                return 0 === this.tagClass && 0 === this.tagNumber
            }, t
        }(),
        B = [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, 997
        ],
        A = (1 << 26) / B[B.length - 1],
        O = function() {
            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))
            }
            return b.prototype.toString = function(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, r = (1 << e) - 1,
                    n = !1,
                    s = "",
                    o = this.t,
                    h = this.DB - o * this.DB % e;
                if (0 < o--)
                    for (h < this.DB && 0 < (i = this[o] >> h) && (n = !0, s = a(i)); 0 <= o;) h < e ? (i = (
                        this[o] & (1 << h) - 1) << e - h, i |= this[--o] >> (h += this.DB - e)) : (i = this[
                        o] >> (h -= e) & r, h <= 0 && (h += this.DB, --o)), 0 < i && (n = !0), n && (s += a(
                        i));
                return n ? s : "0"
            }, b.prototype.negate = function() {
                var t = M();
                return b.ZERO.subTo(this, t), t
            }, b.prototype.abs = function() {
                return this.s < 0 ? this.negate() : this
            }, b.prototype.compareTo = function(t) {
                var e = this.s - t.s;
                if (0 != e) return e;
                var i = this.t;
                if (0 != (e = i - t.t)) return this.s < 0 ? -e : e;
                for (; 0 <= --i;)
                    if (0 != (e = this[i] - t[i])) return e;
                return 0
            }, b.prototype.bitLength = function() {
                return this.t <= 0 ? 0 : this.DB * (this.t - 1) + U(this[this.t - 1] ^ this.s & this.DM)
            }, b.prototype.mod = function(t) {
                var e = M();
                return this.abs().divRemTo(t, null, e), this.s < 0 && 0 < e.compareTo(b.ZERO) && t.subTo(e, e),
                    e
            }, b.prototype.modPowInt = function(t, e) {
                var i;
                return i = t < 256 || e.isEven() ? new I(e) : new N(e), this.exp(t, i)
            }, b.prototype.clone = function() {
                var t = M();
                return this.copyTo(t), t
            }, b.prototype.intValue = function() {
                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]
            }, b.prototype.byteValue = function() {
                return 0 == this.t ? this.s : this[0] << 24 >> 24
            }, b.prototype.shortValue = function() {
                return 0 == this.t ? this.s : this[0] << 16 >> 16
            }, b.prototype.signum = function() {
                return this.s < 0 ? -1 : this.t <= 0 || 1 == this.t && this[0] <= 0 ? 0 : 1
            }, b.prototype.toByteArray = function() {
                var t = this.t,
                    e = [];
                e[0] = this.s;
                var i, r = this.DB - t * this.DB % 8,
                    n = 0;
                if (0 < t--)
                    for (r < this.DB && (i = this[t] >> r) != (this.s & this.DM) >> r && (e[n++] = i | this.s <<
                            this.DB - r); 0 <= t;) r < 8 ? (i = (this[t] & (1 << r) - 1) << 8 - r, i |= this[--
                            t] >> (r += this.DB - 8)) : (i = this[t] >> (r -= 8) & 255, r <= 0 && (r += this.DB,
                            --t)), 0 != (128 & i) && (i |= -256), 0 == n && (128 & this.s) != (128 & i) && ++n,
                        (0 < n || i != this.s) && (e[n++] = i);
                return e
            }, b.prototype.equals = function(t) {
                return 0 == this.compareTo(t)
            }, b.prototype.min = function(t) {
                return this.compareTo(t) < 0 ? this : t
            }, b.prototype.max = function(t) {
                return 0 < this.compareTo(t) ? this : t
            }, b.prototype.and = function(t) {
                var e = M();
                return this.bitwiseTo(t, i, e), e
            }, b.prototype.or = function(t) {
                var e = M();
                return this.bitwiseTo(t, u, e), e
            }, b.prototype.xor = function(t) {
                var e = M();
                return this.bitwiseTo(t, r, e), e
            }, b.prototype.andNot = function(t) {
                var e = M();
                return this.bitwiseTo(t, n, e), e
            }, b.prototype.not = function() {
                for (var t = M(), e = 0; e < this.t; ++e) t[e] = this.DM & ~this[e];
                return t.t = this.t, t.s = ~this.s, t
            }, b.prototype.shiftLeft = function(t) {
                var e = M();
                return t < 0 ? this.rShiftTo(-t, e) : this.lShiftTo(t, e), e
            }, b.prototype.shiftRight = function(t) {
                var e = M();
                return t < 0 ? this.lShiftTo(-t, e) : this.rShiftTo(t, e), e
            }, b.prototype.getLowestSetBit = function() {
                for (var t = 0; t < this.t; ++t)
                    if (0 != this[t]) return t * this.DB + s(this[t]);
                return this.s < 0 ? this.t * this.DB : -1
            }, b.prototype.bitCount = function() {
                for (var t = 0, e = this.s & this.DM, i = 0; i < this.t; ++i) t += o(this[i] ^ e);
                return t
            }, b.prototype.testBit = function(t) {
                var e = Math.floor(t / this.DB);
                return e >= this.t ? 0 != this.s : 0 != (this[e] & 1 << t % this.DB)
            }, b.prototype.setBit = function(t) {
                return this.changeBit(t, u)
            }, b.prototype.clearBit = function(t) {
                return this.changeBit(t, n)
            }, b.prototype.flipBit = function(t) {
                return this.changeBit(t, r)
            }, b.prototype.add = function(t) {
                var e = M();
                return this.addTo(t, e), e
            }, b.prototype.subtract = function(t) {
                var e = M();
                return this.subTo(t, e), e
            }, b.prototype.multiply = function(t) {
                var e = M();
                return this.multiplyTo(t, e), e
            }, b.prototype.divide = function(t) {
                var e = M();
                return this.divRemTo(t, e, null), e
            }, b.prototype.remainder = function(t) {
                var e = M();
                return this.divRemTo(t, null, e), e
            }, b.prototype.divideAndRemainder = function(t) {
                var e = M(),
                    i = M();
                return this.divRemTo(t, e, i), [e, i]
            }, b.prototype.modPow = function(t, e) {
                var i, r, n = t.bitLength(),
                    s = F(1);
                if (n <= 0) return s;
                i = n < 18 ? 1 : n < 48 ? 3 : n < 144 ? 4 : n < 768 ? 5 : 6, r = n < 8 ? new I(e) : e.isEven() ?
                    new P(e) : new N(e);
                var o = [],
                    h = 3,
                    a = i - 1,
                    u = (1 << i) - 1;
                if (o[1] = r.convert(this), 1 < i) {
                    var c = M();
                    for (r.sqrTo(o[1], c); h <= u;) o[h] = M(), r.mulTo(c, o[h - 2], o[h]), h += 2
                }
                var f, l, p = t.t - 1,
                    g = !0,
                    d = M();
                for (n = U(t[p]) - 1; 0 <= p;) {
                    for (a <= n ? f = t[p] >> n - a & u : (f = (t[p] & (1 << n + 1) - 1) << a - n, 0 < p && (
                            f |= t[p - 1] >> this.DB + n - a)), h = i; 0 == (1 & f);) f >>= 1, --h;
                    if ((n -= h) < 0 && (n += this.DB, --p), g) o[f].copyTo(s), g = !1;
                    else {
                        for (; 1 < h;) r.sqrTo(s, d), r.sqrTo(d, s), h -= 2;
                        0 < h ? r.sqrTo(s, d) : (l = s, s = d, d = l), r.mulTo(d, o[f], s)
                    }
                    for (; 0 <= p && 0 == (t[p] & 1 << n);) r.sqrTo(s, d), l = s, s = d, d = l, --n < 0 && (n =
                        this.DB - 1, --p)
                }
                return r.revert(s)
            }, b.prototype.modInverse = function(t) {
                var e = t.isEven();
                if (this.isEven() && e || 0 == t.signum()) return b.ZERO;
                for (var i = t.clone(), r = this.clone(), n = F(1), s = F(0), o = F(0), h = F(1); 0 != i
                    .signum();) {
                    for (; i.isEven();) i.rShiftTo(1, i), e ? (n.isEven() && s.isEven() || (n.addTo(this, n), s
                        .subTo(t, s)), n.rShiftTo(1, n)) : s.isEven() || s.subTo(t, s), s.rShiftTo(1, s);
                    for (; r.isEven();) r.rShiftTo(1, r), e ? (o.isEven() && h.isEven() || (o.addTo(this, o), h
                        .subTo(t, h)), o.rShiftTo(1, o)) : h.isEven() || h.subTo(t, h), h.rShiftTo(1, h);
                    0 <= i.compareTo(r) ? (i.subTo(r, i), e && n.subTo(o, n), s.subTo(h, s)) : (r.subTo(i, r),
                        e && o.subTo(n, o), h.subTo(s, h))
                }
                return 0 != r.compareTo(b.ONE) ? b.ZERO : 0 <= h.compareTo(t) ? h.subtract(t) : h.signum() < 0 ?
                    (h.addTo(t, h), h.signum() < 0 ? h.add(t) : h) : h
            }, b.prototype.pow = function(t) {
                return this.exp(t, new V)
            }, b.prototype.gcd = function(t) {
                var e = this.s < 0 ? this.negate() : this.clone(),
                    i = t.s < 0 ? t.negate() : t.clone();
                if (e.compareTo(i) < 0) {
                    var r = e;
                    e = i, i = r
                }
                var n = e.getLowestSetBit(),
                    s = i.getLowestSetBit();
                if (s < 0) return e;
                for (n < s && (s = n), 0 < s && (e.rShiftTo(s, e), i.rShiftTo(s, i)); 0 < e.signum();) 0 < (n =
                    e.getLowestSetBit()) && e.rShiftTo(n, e), 0 < (n = i.getLowestSetBit()) && i.rShiftTo(n,
                    i), 0 <= e.compareTo(i) ? (e.subTo(i, e), e.rShiftTo(1, e)) : (i.subTo(e, i), i
                    .rShiftTo(1, i));
                return 0 < s && i.lShiftTo(s, i), i
            }, b.prototype.isProbablePrime = function(t) {
                var e, i = this.abs();
                if (1 == i.t && i[0] <= B[B.length - 1]) {
                    for (e = 0; e < B.length; ++e)
                        if (i[0] == B[e]) return !0;
                    return !1
                }
                if (i.isEven()) return !1;
                for (e = 1; e < B.length;) {
                    for (var r = B[e], n = e + 1; n < B.length && r < A;) r *= B[n++];
                    for (r = i.modInt(r); e < n;)
                        if (r % B[e++] == 0) return !1
                }
                return i.millerRabin(t)
            }, b.prototype.copyTo = function(t) {
                for (var e = this.t - 1; 0 <= e; --e) t[e] = this[e];
                t.t = this.t, t.s = this.s
            }, b.prototype.fromInt = function(t) {
                this.t = 1, this.s = t < 0 ? -1 : 0, 0 < t ? this[0] = t : t < -1 ? this[0] = t + this.DV : this
                    .t = 0
            }, b.prototype.fromString = function(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 r = t.length, n = !1, s = 0; 0 <= --r;) {
                    var o = 8 == i ? 255 & +t[r] : C(t, r);
                    o < 0 ? "-" == t.charAt(r) && (n = !0) : (n = !1, 0 == s ? this[this.t++] = o : s + i > this
                        .DB ? (this[this.t - 1] |= (o & (1 << this.DB - s) - 1) << s, this[this.t++] = o >>
                            this.DB - s) : this[this.t - 1] |= o << s, (s += i) >= this.DB && (s -= this.DB)
                        )
                }
                8 == i && 0 != (128 & +t[0]) && (this.s = -1, 0 < s && (this[this.t - 1] |= (1 << this.DB - s) -
                    1 << s)), this.clamp(), n && b.ZERO.subTo(this, this)
            }, b.prototype.clamp = function() {
                for (var t = this.s & this.DM; 0 < this.t && this[this.t - 1] == t;) --this.t
            }, b.prototype.dlShiftTo = function(t, e) {
                var i;
                for (i = this.t - 1; 0 <= i; --i) e[i + t] = this[i];
                for (i = t - 1; 0 <= i; --i) e[i] = 0;
                e.t = this.t + t, e.s = this.s
            }, b.prototype.drShiftTo = 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
            }, b.prototype.lShiftTo = function(t, e) {
                for (var i = t % this.DB, r = this.DB - i, n = (1 << r) - 1, s = Math.floor(t / this.DB), o =
                        this.s << i & this.DM, h = this.t - 1; 0 <= h; --h) e[h + s + 1] = this[h] >> r | o, o =
                    (this[h] & n) << i;
                for (h = s - 1; 0 <= h; --h) e[h] = 0;
                e[s] = o, e.t = this.t + s + 1, e.s = this.s, e.clamp()
            }, b.prototype.rShiftTo = function(t, e) {
                e.s = this.s;
                var i = Math.floor(t / this.DB);
                if (i >= this.t) e.t = 0;
                else {
                    var r = t % this.DB,
                        n = this.DB - r,
                        s = (1 << r) - 1;
                    e[0] = this[i] >> r;
                    for (var o = i + 1; o < this.t; ++o) e[o - i - 1] |= (this[o] & s) << n, e[o - i] = this[
                        o] >> r;
                    0 < r && (e[this.t - i - 1] |= (this.s & s) << n), e.t = this.t - i, e.clamp()
                }
            }, b.prototype.subTo = function(t, e) {
                for (var i = 0, r = 0, n = Math.min(t.t, this.t); i < n;) r += this[i] - t[i], e[i++] = r & this
                    .DM, r >>= this.DB;
                if (t.t < this.t) {
                    for (r -= t.s; i < this.t;) r += this[i], e[i++] = r & this.DM, r >>= this.DB;
                    r += this.s
                } else {
                    for (r += this.s; i < t.t;) r -= t[i], e[i++] = r & this.DM, r >>= this.DB;
                    r -= t.s
                }
                e.s = r < 0 ? -1 : 0, r < -1 ? e[i++] = this.DV + r : 0 < r && (e[i++] = r), e.t = i, e.clamp()
            }, b.prototype.multiplyTo = function(t, e) {
                var i = this.abs(),
                    r = t.abs(),
                    n = i.t;
                for (e.t = n + r.t; 0 <= --n;) e[n] = 0;
                for (n = 0; n < r.t; ++n) e[n + i.t] = i.am(0, r[n], e, n, 0, i.t);
                e.s = 0, e.clamp(), this.s != t.s && b.ZERO.subTo(e, e)
            }, b.prototype.squareTo = function(t) {
                for (var e = this.abs(), i = t.t = 2 * e.t; 0 <= --i;) t[i] = 0;
                for (i = 0; i < e.t - 1; ++i) {
                    var r = 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, r, e.t - i - 1)) >= e.DV && (t[i + e
                        .t] -= e.DV, t[i + e.t + 1] = 1)
                }
                0 < t.t && (t[t.t - 1] += e.am(i, e[i], t, 2 * i, 0, 1)), t.s = 0, t.clamp()
            }, b.prototype.divRemTo = function(t, e, i) {
                var r = t.abs();
                if (!(r.t <= 0)) {
                    var n = this.abs();
                    if (n.t < r.t) return null != e && e.fromInt(0), void(null != i && this.copyTo(i));
                    null == i && (i = M());
                    var s = M(),
                        o = this.s,
                        h = t.s,
                        a = this.DB - U(r[r.t - 1]);
                    0 < a ? (r.lShiftTo(a, s), n.lShiftTo(a, i)) : (r.copyTo(s), n.copyTo(i));
                    var u = s.t,
                        c = s[u - 1];
                    if (0 != c) {
                        var f = c * (1 << this.F1) + (1 < u ? s[u - 2] >> this.F2 : 0),
                            l = this.FV / f,
                            p = (1 << this.F1) / f,
                            g = 1 << this.F2,
                            d = i.t,
                            v = d - u,
                            m = null == e ? M() : e;
                        for (s.dlShiftTo(v, m), 0 <= i.compareTo(m) && (i[i.t++] = 1, i.subTo(m, i)), b.ONE
                            .dlShiftTo(u, m), m.subTo(s, s); s.t < u;) s[s.t++] = 0;
                        for (; 0 <= --v;) {
                            var y = i[--d] == c ? this.DM : Math.floor(i[d] * l + (i[d - 1] + g) * p);
                            if ((i[d] += s.am(0, y, i, v, 0, u)) < y)
                                for (s.dlShiftTo(v, m), i.subTo(m, i); i[d] < --y;) i.subTo(m, i)
                        }
                        null != e && (i.drShiftTo(u, e), o != h && b.ZERO.subTo(e, e)), i.t = u, i.clamp(), 0 <
                            a && i.rShiftTo(a, i), o < 0 && b.ZERO.subTo(i, i)
                    }
                }
            }, b.prototype.invDigit = function() {
                if (this.t < 1) return 0;
                var t = this[0];
                if (0 == (1 & t)) return 0;
                var e = 3 & t;
                return 0 < (e = (e = (e = (e = e * (2 - (15 & t) * e) & 15) * (2 - (255 & t) * e) & 255) * (2 -
                        ((65535 & t) * e & 65535)) & 65535) * (2 - t * e % this.DV) % this.DV) ? this.DV - e : -
                    e
            }, b.prototype.isEven = function() {
                return 0 == (0 < this.t ? 1 & this[0] : this.s)
            }, b.prototype.exp = function(t, e) {
                if (4294967295 < t || t < 1) return b.ONE;
                var i = M(),
                    r = M(),
                    n = e.convert(this),
                    s = U(t) - 1;
                for (n.copyTo(i); 0 <= --s;)
                    if (e.sqrTo(i, r), 0 < (t & 1 << s)) e.mulTo(r, n, i);
                    else {
                        var o = i;
                        i = r, r = o
                    } return e.revert(i)
            }, b.prototype.chunkSize = function(t) {
                return Math.floor(Math.LN2 * this.DB / Math.log(t))
            }, b.prototype.toRadix = function(t) {
                if (null == t && (t = 10), 0 == this.signum() || t < 2 || 36 < t) return "0";
                var e = this.chunkSize(t),
                    i = Math.pow(t, e),
                    r = F(i),
                    n = M(),
                    s = M(),
                    o = "";
                for (this.divRemTo(r, n, s); 0 < n.signum();) o = (i + s.intValue()).toString(t).substr(1) + o,
                    n.divRemTo(r, n, s);
                return s.intValue().toString(t) + o
            }, b.prototype.fromRadix = function(t, e) {
                this.fromInt(0), null == e && (e = 10);
                for (var i = this.chunkSize(e), r = Math.pow(e, i), n = !1, s = 0, o = 0, h = 0; h < t
                    .length; ++h) {
                    var a = C(t, h);
                    a < 0 ? "-" == t.charAt(h) && 0 == this.signum() && (n = !0) : (o = e * o + a, ++s >= i && (
                        this.dMultiply(r), this.dAddOffset(o, 0), o = s = 0))
                }
                0 < s && (this.dMultiply(Math.pow(e, s)), this.dAddOffset(o, 0)), n && b.ZERO.subTo(this, this)
            }, b.prototype.fromNumber = function(t, e, i) {
                if ("number" == typeof e)
                    if (t < 2) this.fromInt(1);
                    else
                        for (this.fromNumber(t, i), this.testBit(t - 1) || this.bitwiseTo(b.ONE.shiftLeft(t -
                                1), u, 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 r = [],
                        n = 7 & t;
                    r.length = 1 + (t >> 3), e.nextBytes(r), 0 < n ? r[0] &= (1 << n) - 1 : r[0] = 0, this
                        .fromString(r, 256)
                }
            }, b.prototype.bitwiseTo = function(t, e, i) {
                var r, n, s = Math.min(t.t, this.t);
                for (r = 0; r < s; ++r) i[r] = e(this[r], t[r]);
                if (t.t < this.t) {
                    for (n = t.s & this.DM, r = s; r < this.t; ++r) i[r] = e(this[r], n);
                    i.t = this.t
                } else {
                    for (n = this.s & this.DM, r = s; r < t.t; ++r) i[r] = e(n, t[r]);
                    i.t = t.t
                }
                i.s = e(this.s, t.s), i.clamp()
            }, b.prototype.changeBit = function(t, e) {
                var i = b.ONE.shiftLeft(t);
                return this.bitwiseTo(i, e, i), i
            }, b.prototype.addTo = function(t, e) {
                for (var i = 0, r = 0, n = Math.min(t.t, this.t); i < n;) r += this[i] + t[i], e[i++] = r & this
                    .DM, r >>= this.DB;
                if (t.t < this.t) {
                    for (r += t.s; i < this.t;) r += this[i], e[i++] = r & this.DM, r >>= this.DB;
                    r += this.s
                } else {
                    for (r += this.s; i < t.t;) r += t[i], e[i++] = r & this.DM, r >>= this.DB;
                    r += t.s
                }
                e.s = r < 0 ? -1 : 0, 0 < r ? e[i++] = r : r < -1 && (e[i++] = this.DV + r), e.t = i, e.clamp()
            }, b.prototype.dMultiply = function(t) {
                this[this.t] = this.am(0, t - 1, this, 0, 0, this.t), ++this.t, this.clamp()
            }, b.prototype.dAddOffset = function(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]
                }
            }, b.prototype.multiplyLowerTo = function(t, e, i) {
                var r = Math.min(this.t + t.t, e);
                for (i.s = 0, i.t = r; 0 < r;) i[--r] = 0;
                for (var n = i.t - this.t; r < n; ++r) i[r + this.t] = this.am(0, t[r], i, r, 0, this.t);
                for (n = Math.min(t.t, e); r < n; ++r) this.am(0, t[r], i, r, 0, e - r);
                i.clamp()
            }, b.prototype.multiplyUpperTo = function(t, e, i) {
                --e;
                var r = i.t = this.t + t.t - e;
                for (i.s = 0; 0 <= --r;) i[r] = 0;
                for (r = Math.max(e - this.t, 0); r < t.t; ++r) i[this.t + r - e] = this.am(e - r, t[r], i, 0,
                    0, this.t + r - e);
                i.clamp(), i.drShiftTo(1, i)
            }, b.prototype.modInt = function(t) {
                if (t <= 0) return 0;
                var e = this.DV % t,
                    i = this.s < 0 ? t - 1 : 0;
                if (0 < this.t)
                    if (0 == e) i = this[0] % t;
                    else
                        for (var r = this.t - 1; 0 <= r; --r) i = (e * i + this[r]) % t;
                return i
            }, b.prototype.millerRabin = function(t) {
                var e = this.subtract(b.ONE),
                    i = e.getLowestSetBit();
                if (i <= 0) return !1;
                var r = e.shiftRight(i);
                B.length < (t = t + 1 >> 1) && (t = B.length);
                for (var n = M(), s = 0; s < t; ++s) {
                    n.fromInt(B[Math.floor(Math.random() * B.length)]);
                    var o = n.modPow(r, this);
                    if (0 != o.compareTo(b.ONE) && 0 != o.compareTo(e)) {
                        for (var h = 1; h++ < i && 0 != o.compareTo(e);)
                            if (0 == (o = o.modPowInt(2, this)).compareTo(b.ONE)) return !1;
                        if (0 != o.compareTo(e)) return !1
                    }
                }
                return !0
            }, b.prototype.square = function() {
                var t = M();
                return this.squareTo(t), t
            }, b.prototype.gcda = function(t, e) {
                var i = this.s < 0 ? this.negate() : this.clone(),
                    r = t.s < 0 ? t.negate() : t.clone();
                if (i.compareTo(r) < 0) {
                    var n = i;
                    i = r, r = n
                }
                var s = i.getLowestSetBit(),
                    o = r.getLowestSetBit();
                if (o < 0) e(i);
                else {
                    s < o && (o = s), 0 < o && (i.rShiftTo(o, i), r.rShiftTo(o, r));
                    var h = function() {
                        0 < (s = i.getLowestSetBit()) && i.rShiftTo(s, i), 0 < (s = r.getLowestSetBit()) &&
                            r.rShiftTo(s, r), 0 <= i.compareTo(r) ? (i.subTo(r, i), i.rShiftTo(1, i)) : (r
                                .subTo(i, r), r.rShiftTo(1, r)), 0 < i.signum() ? setTimeout(h, 0) : (0 <
                                o && r.lShiftTo(o, r), setTimeout(function() {
                                    e(r)
                                }, 0))
                    };
                    setTimeout(h, 10)
                }
            }, b.prototype.fromNumberAsync = function(t, e, i, r) {
                if ("number" == typeof e)
                    if (t < 2) this.fromInt(1);
                    else {
                        this.fromNumber(t, i), this.testBit(t - 1) || this.bitwiseTo(b.ONE.shiftLeft(t - 1), u,
                            this), this.isEven() && this.dAddOffset(1, 0);
                        var n = this,
                            s = function() {
                                n.dAddOffset(2, 0), n.bitLength() > t && n.subTo(b.ONE.shiftLeft(t - 1), n), n
                                    .isProbablePrime(e) ? setTimeout(function() {
                                        r()
                                    }, 0) : setTimeout(s, 0)
                            };
                        setTimeout(s, 0)
                    }
                else {
                    var o = [],
                        h = 7 & t;
                    o.length = 1 + (t >> 3), e.nextBytes(o), 0 < h ? o[0] &= (1 << h) - 1 : o[0] = 0, this
                        .fromString(o, 256)
                }
            }, b
        }(),
        V = function() {
            function t() {}
            return t.prototype.convert = function(t) {
                return t
            }, t.prototype.revert = function(t) {
                return t
            }, t.prototype.mulTo = function(t, e, i) {
                t.multiplyTo(e, i)
            }, t.prototype.sqrTo = function(t, e) {
                t.squareTo(e)
            }, t
        }(),
        I = function() {
            function t(t) {
                this.m = t
            }
            return t.prototype.convert = function(t) {
                return t.s < 0 || 0 <= t.compareTo(this.m) ? t.mod(this.m) : t
            }, t.prototype.revert = function(t) {
                return t
            }, t.prototype.reduce = function(t) {
                t.divRemTo(this.m, null, t)
            }, t.prototype.mulTo = function(t, e, i) {
                t.multiplyTo(e, i), this.reduce(i)
            }, t.prototype.sqrTo = function(t, e) {
                t.squareTo(e), this.reduce(e)
            }, t
        }(),
        N = function() {
            function t(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
            }
            return t.prototype.convert = function(t) {
                var e = M();
                return t.abs().dlShiftTo(this.m.t, e), e.divRemTo(this.m, null, e), t.s < 0 && 0 < e.compareTo(O
                    .ZERO) && this.m.subTo(e, e), e
            }, t.prototype.revert = function(t) {
                var e = M();
                return t.copyTo(e), this.reduce(e), e
            }, t.prototype.reduce = function(t) {
                for (; t.t <= this.mt2;) t[t.t++] = 0;
                for (var e = 0; e < this.m.t; ++e) {
                    var i = 32767 & t[e],
                        r = i * this.mpl + ((i * this.mph + (t[e] >> 15) * this.mpl & this.um) << 15) & t.DM;
                    for (t[i = e + this.m.t] += this.m.am(0, r, t, e, 0, this.m.t); t[i] >= t.DV;) t[i] -= t.DV,
                        t[++i]++
                }
                t.clamp(), t.drShiftTo(this.m.t, t), 0 <= t.compareTo(this.m) && t.subTo(this.m, t)
            }, t.prototype.mulTo = function(t, e, i) {
                t.multiplyTo(e, i), this.reduce(i)
            }, t.prototype.sqrTo = function(t, e) {
                t.squareTo(e), this.reduce(e)
            }, t
        }(),
        P = function() {
            function t(t) {
                this.m = t, this.r2 = M(), this.q3 = M(), O.ONE.dlShiftTo(2 * t.t, this.r2), this.mu = this.r2
                    .divide(t)
            }
            return t.prototype.convert = function(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 = M();
                return t.copyTo(e), this.reduce(e), e
            }, t.prototype.revert = function(t) {
                return t
            }, t.prototype.reduce = function(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); 0 <= t.compareTo(this.m);) t.subTo(this.m, t)
            }, t.prototype.mulTo = function(t, e, i) {
                t.multiplyTo(e, i), this.reduce(i)
            }, t.prototype.sqrTo = function(t, e) {
                t.squareTo(e), this.reduce(e)
            }, t
        }();

    function M() {
        return new O(null)
    }

    function q(t, e) {
        return new O(t, e)
    }(O.prototype.am = function(t, e, i, r, n, s) {
        for (var o = 16383 & e, h = e >> 14; 0 <= --s;) {
            var a = 16383 & this[t],
                u = this[t++] >> 14,
                c = h * a + u * o;
            n = ((a = o * a + ((16383 & c) << 14) + i[r] + n) >> 28) + (c >> 14) + h * u, i[r++] = 268435455 & a
        }
        return n
    }, w = 28), O.prototype.DB = w, O.prototype.DM = (1 << w) - 1, O.prototype.DV = 1 << w;
    O.prototype.FV = Math.pow(2, 52), O.prototype.F1 = 52 - w, O.prototype.F2 = 2 * w - 52;
    var j, L, H = [];
    for (j = "0".charCodeAt(0), L = 0; L <= 9; ++L) H[j++] = L;
    for (j = "a".charCodeAt(0), L = 10; L < 36; ++L) H[j++] = L;
    for (j = "A".charCodeAt(0), L = 10; L < 36; ++L) H[j++] = L;

    function C(t, e) {
        var i = H[t.charCodeAt(e)];
        return null == i ? -1 : i
    }

    function F(t) {
        var e = M();
        return e.fromInt(t), e
    }

    function U(t) {
        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
    }
    O.ZERO = F(0), O.ONE = F(1);
    var K = function() {
        function t() {
            this.i = 0, this.j = 0, this.S = []
        }
        return t.prototype.init = function(t) {
            var e, i, r;
            for (e = 0; e < 256; ++e) this.S[e] = e;
            for (e = i = 0; e < 256; ++e) i = i + this.S[e] + t[e % t.length] & 255, r = this.S[e], this.S[
                e] = this.S[i], this.S[i] = r;
            this.i = 0, this.j = 0
        }, t.prototype.next = function() {
            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]
        }, t
    }();
    var k, _, z = 256,
        Z = null;
    if (null == Z) {
        Z = [];
        var G = void(_ = 0);
        var grm = function(array) {
            for (var i = 0, l = array.length; i < l; i++) {
                array[i] = Math.floor(Math.random() * 256);
            }
            return array;
        };
        var z = new Uint32Array(256);
        grm(z);
        var Y = function(t) {
            if (this.count = this.count || 0, 256 <= this.count || z <= _) return;
            try {
                var e = t.x + t.y;
                Z[_++] = 255 & e, this.count += 1
            } catch (t) {}
        };
    }

    function J() {
        if (null == k) {
            for (k = new K; _ < z;) {
                var t = Math.floor(65536 * Math.random());
                Z[_++] = 255 & t
            }
            for (k.init(Z), _ = 0; _ < Z.length; ++_) Z[_] = 0;
            _ = 0
        }
        return k.next()
    }
    var X = function() {
        function t() {}
        return t.prototype.nextBytes = function(t) {
            for (var e = 0; e < t.length; ++e) t[e] = J()
        }, t
    }();
    var Q = function() {
        function t() {
            this.n = null, this.e = 0, this.d = null, this.p = null, this.q = null, this.dmp1 = null, this
                .dmq1 = null, this.coeff = null
        }
        return t.prototype.doPublic = function(t) {
            return t.modPowInt(this.e, this.n)
        }, t.prototype.doPrivate = function(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)
        }, t.prototype.setPublic = function(t, e) {
            null != t && null != e && 0 < t.length && 0 < e.length ? (this.n = q(t, 16), this.e = parseInt(
                e, 16)) : console.error("Invalid RSA public key")
        }, t.prototype.encrypt = function(t) {
            var e = function(t, e) {
                if (e < t.length + 11) return console.error("Message too long for RSA"), null;
                for (var i = [], r = t.length - 1; 0 <= r && 0 < e;) {
                    var n = t.charCodeAt(r--);
                    n < 128 ? i[--e] = n : 127 < n && n < 2048 ? (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 s = new X, o = []; 2 < e;) {
                    for (o[0] = 0; 0 == o[0];) s.nextBytes(o);
                    i[--e] = o[0]
                }
                return i[--e] = 2, i[--e] = 0, new O(i)
            }(t, this.n.bitLength() + 7 >> 3);
            if (null == e) return null;
            var i = this.doPublic(e);
            if (null == i) return null;
            var r = i.toString(16);
            return 0 == (1 & r.length) ? r : "0" + r
        }, t.prototype.setPrivate = function(t, e, i) {
            null != t && null != e && 0 < t.length && 0 < e.length ? (this.n = q(t, 16), this.e = parseInt(
                e, 16), this.d = q(i, 16)) : console.error("Invalid RSA private key")
        }, t.prototype.setPrivateEx = function(t, e, i, r, n, s, o, h) {
            null != t && null != e && 0 < t.length && 0 < e.length ? (this.n = q(t, 16), this.e = parseInt(
                e, 16), this.d = q(i, 16), this.p = q(r, 16), this.q = q(n, 16), this.dmp1 = q(s,
                16), this.dmq1 = q(o, 16), this.coeff = q(h, 16)) : console.error(
                "Invalid RSA private key")
        }, t.prototype.generate = function(t, e) {
            var i = new X,
                r = t >> 1;
            this.e = parseInt(e, 16);
            for (var n = new O(e, 16);;) {
                for (; this.p = new O(t - r, 1, i), 0 != this.p.subtract(O.ONE).gcd(n).compareTo(O.ONE) || !
                    this.p.isProbablePrime(10););
                for (; this.q = new O(r, 1, i), 0 != this.q.subtract(O.ONE).gcd(n).compareTo(O.ONE) || !this
                    .q.isProbablePrime(10););
                if (this.p.compareTo(this.q) <= 0) {
                    var s = this.p;
                    this.p = this.q, this.q = s
                }
                var o = this.p.subtract(O.ONE),
                    h = this.q.subtract(O.ONE),
                    a = o.multiply(h);
                if (0 == a.gcd(n).compareTo(O.ONE)) {
                    this.n = this.p.multiply(this.q), this.d = n.modInverse(a), this.dmp1 = this.d.mod(o),
                        this.dmq1 = this.d.mod(h), this.coeff = this.q.modInverse(this.p);
                    break
                }
            }
        }, t.prototype.decrypt = function(t) {
            var e = q(t, 16),
                i = this.doPrivate(e);
            return null == i ? null : function(t, e) {
                var i = t.toByteArray(),
                    r = 0;
                for (; r < i.length && 0 == i[r];) ++r;
                if (i.length - r != e - 1 || 2 != i[r]) return null;
                ++r;
                for (; 0 != i[r];)
                    if (++r >= i.length) return null;
                var n = "";
                for (; ++r < i.length;) {
                    var s = 255 & i[r];
                    s < 128 ? n += String.fromCharCode(s) : 191 < s && s < 224 ? (n += String
                        .fromCharCode((31 & s) << 6 | 63 & i[r + 1]), ++r) : (n += String
                        .fromCharCode((15 & s) << 12 | (63 & i[r + 1]) << 6 | 63 & i[r + 2]), r += 2
                        )
                }
                return n
            }(i, this.n.bitLength() + 7 >> 3)
        }, t.prototype.generateAsync = function(t, e, n) {
            var s = new X,
                o = t >> 1;
            this.e = parseInt(e, 16);
            var h = new O(e, 16),
                a = this,
                u = function() {
                    var e = function() {
                            if (a.p.compareTo(a.q) <= 0) {
                                var t = a.p;
                                a.p = a.q, a.q = t
                            }
                            var e = a.p.subtract(O.ONE),
                                i = a.q.subtract(O.ONE),
                                r = e.multiply(i);
                            0 == r.gcd(h).compareTo(O.ONE) ? (a.n = a.p.multiply(a.q), a.d = h.modInverse(
                                r), a.dmp1 = a.d.mod(e), a.dmq1 = a.d.mod(i), a.coeff = a.q.modInverse(a
                                    .p), setTimeout(function() {
                                    n()
                                }, 0)) : setTimeout(u, 0)
                        },
                        i = function() {
                            a.q = M(), a.q.fromNumberAsync(o, 1, s, function() {
                                a.q.subtract(O.ONE).gcda(h, function(t) {
                                    0 == t.compareTo(O.ONE) && a.q.isProbablePrime(10) ?
                                        setTimeout(e, 0) : setTimeout(i, 0)
                                })
                            })
                        },
                        r = function() {
                            a.p = M(), a.p.fromNumberAsync(t - o, 1, s, function() {
                                a.p.subtract(O.ONE).gcda(h, function(t) {
                                    0 == t.compareTo(O.ONE) && a.p.isProbablePrime(10) ?
                                        setTimeout(i, 0) : setTimeout(r, 0)
                                })
                            })
                        };
                    setTimeout(r, 0)
                };
            setTimeout(u, 0)
        }, t.prototype.sign = function(t, e, i) {
            var r = function(t, e) {
                if (e < t.length + 22) return console.error("Message too long for RSA"), null;
                for (var i = e - t.length - 6, r = "", n = 0; n < i; n += 2) r += "ff";
                return q("0001" + r + "00" + t, 16)
            }((W[i] || "") + e(t).toString(), this.n.bitLength() / 4);
            if (null == r) return null;
            var n = this.doPrivate(r);
            if (null == n) return null;
            var s = n.toString(16);
            return 0 == (1 & s.length) ? s : "0" + s
        }, t.prototype.verify = function(t, e, i) {
            var r = q(e, 16),
                n = this.doPublic(r);
            return null == n ? null : function(t) {
                for (var e in W)
                    if (W.hasOwnProperty(e)) {
                        var i = W[e],
                            r = i.length;
                        if (t.substr(0, r) == i) return t.substr(r)
                    } return t
            }(n.toString(16).replace(/^1f+00/, "")) == i(t).toString()
        }, t
    }();
    var W = {
        md2: "3020300c06082a864886f70d020205000410",
        md5: "3020300c06082a864886f70d020505000410",
        sha1: "3021300906052b0e03021a05000414",
        sha224: "302d300d06096086480165030402040500041c",
        sha256: "3031300d060960864801650304020105000420",
        sha384: "3041300d060960864801650304020205000430",
        sha512: "3051300d060960864801650304020305000440",
        ripemd160: "3021300906052b2403020105000414"
    };
    var tt = {};
    tt.lang = {
        extend: function(t, e, i) {
            if (!e || !t) throw new Error(
                "YAHOO.lang.extend failed, please check that all dependencies are included.");
            var r = function() {};
            if (r.prototype = e.prototype, t.prototype = new r, (t.prototype.constructor = t).superclass = e
                .prototype, e.prototype.constructor == Object.prototype.constructor && (e.prototype
                    .constructor = e), i) {
                var n;
                for (n in i) t.prototype[n] = i[n];
                var s = function() {},
                    o = ["toString", "valueOf"];
                s(t.prototype, i)
            }
        }
    };
    var et = {};
    void 0 !== et.asn1 && et.asn1 || (et.asn1 = {}), et.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).length;
                    i % 2 == 1 ? i += 1 : e.match(/^[0-7]/) || (i += 2);
                    for (var r = "", n = 0; n < i; n++) r += "f";
                    e = new O(r, 16).xor(t).add(O.ONE).toString(16).replace(/^-/, "")
                }
                return e
            }, this.getPEMStringFromHex = function(t, e) {
                return hextopem(t, e)
            }, this.newObject = function(t) {
                var e = et.asn1,
                    i = e.DERBoolean,
                    r = e.DERInteger,
                    n = e.DERBitString,
                    s = e.DEROctetString,
                    o = e.DERNull,
                    h = e.DERObjectIdentifier,
                    a = e.DEREnumerated,
                    u = e.DERUTF8String,
                    c = e.DERNumericString,
                    f = e.DERPrintableString,
                    l = e.DERTeletexString,
                    p = e.DERIA5String,
                    g = e.DERUTCTime,
                    d = e.DERGeneralizedTime,
                    v = e.DERSequence,
                    m = e.DERSet,
                    y = e.DERTaggedObject,
                    b = e.ASN1Util.newObject,
                    T = Object.keys(t);
                if (1 != T.length) throw "key of param shall be only one.";
                var S = T[0];
                if (-1 ==
                    ":bool:int:bitstr:octstr:null:oid:enum:utf8str:numstr:prnstr:telstr:ia5str:utctime:gentime:seq:set:tag:"
                    .indexOf(":" + S + ":")) throw "undefined key: " + S;
                if ("bool" == S) return new i(t[S]);
                if ("int" == S) return new r(t[S]);
                if ("bitstr" == S) return new n(t[S]);
                if ("octstr" == S) return new s(t[S]);
                if ("null" == S) return new o(t[S]);
                if ("oid" == S) return new h(t[S]);
                if ("enum" == S) return new a(t[S]);
                if ("utf8str" == S) return new u(t[S]);
                if ("numstr" == S) return new c(t[S]);
                if ("prnstr" == S) return new f(t[S]);
                if ("telstr" == S) return new l(t[S]);
                if ("ia5str" == S) return new p(t[S]);
                if ("utctime" == S) return new g(t[S]);
                if ("gentime" == S) return new d(t[S]);
                if ("seq" == S) {
                    for (var E = t[S], w = [], D = 0; D < E.length; D++) {
                        var x = b(E[D]);
                        w.push(x)
                    }
                    return new v({
                        array: w
                    })
                }
                if ("set" == S) {
                    for (E = t[S], w = [], D = 0; D < E.length; D++) {
                        x = b(E[D]);
                        w.push(x)
                    }
                    return new m({
                        array: w
                    })
                }
                if ("tag" == S) {
                    var R = t[S];
                    if ("[object Array]" === Object.prototype.toString.call(R) && 3 == R.length) {
                        var B = b(R[2]);
                        return new y({
                            tag: R[0],
                            explicit: R[1],
                            obj: B
                        })
                    }
                    var A = {};
                    if (void 0 !== R.explicit && (A.explicit = R.explicit), void 0 !== R.tag && (A.tag = R.tag),
                        void 0 === R.obj) throw "obj shall be specified for 'tag'.";
                    return A.obj = b(R.obj), new y(A)
                }
            }, this.jsonToASN1HEX = function(t) {
                return this.newObject(t).getEncodedHex()
            }
        }, et.asn1.ASN1Util.oidHexToInt = function(t) {
            for (var e = "", i = parseInt(t.substr(0, 2), 16), r = (e = Math.floor(i / 40) + "." + i % 40, ""), n =
                    2; n < t.length; n += 2) {
                var s = ("00000000" + parseInt(t.substr(n, 2), 16).toString(2)).slice(-8);
                if (r += s.substr(1, 7), "0" == s.substr(0, 1)) e = e + "." + new O(r, 2).toString(10), r = ""
            }
            return e
        }, et.asn1.ASN1Util.oidIntToHex = function(t) {
            var h = function(t) {
                    var e = t.toString(16);
                    return 1 == e.length && (e = "0" + e), e
                },
                e = function(t) {
                    var e = "",
                        i = new O(t, 10).toString(2),
                        r = 7 - i.length % 7;
                    7 == r && (r = 0);
                    for (var n = "", s = 0; s < r; s++) n += "0";
                    i = n + i;
                    for (s = 0; s < i.length - 1; s += 7) {
                        var o = i.substr(s, 7);
                        s != i.length - 7 && (o = "1" + o), e += h(parseInt(o, 2))
                    }
                    return e
                };
            if (!t.match(/^[0-9.]+$/)) throw "malformed oid string: " + t;
            var i = "",
                r = t.split("."),
                n = 40 * parseInt(r[0]) + parseInt(r[1]);
            i += h(n), r.splice(0, 2);
            for (var s = 0; s < r.length; s++) i += e(r[s]);
            return i
        }, et.asn1.ASN1Object = function() {
            this.getLengthHexFromValue = function() {
                if (void 0 === 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=" + "".length + ",v=" +
                    this.hV;
                var t = this.hV.length / 2,
                    e = t.toString(16);
                if (e.length % 2 == 1 && (e = "0" + e), t < 128) return e;
                var i = e.length / 2;
                if (15 < i) throw "ASN.1 length too long to represent by 8x: n = " + t.toString(16);
                return (128 + i).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 ""
            }
        }, et.asn1.DERAbstractString = function(t) {
            et.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
            }, void 0 !== t && ("string" == typeof t ? this.setString(t) : void 0 !== t.str ? this.setString(t
                .str) : void 0 !== t.hex && this.setStringHex(t.hex))
        }, tt.lang.extend(et.asn1.DERAbstractString, et.asn1.ASN1Object), et.asn1.DERAbstractTime = function(t) {
            et.asn1.DERAbstractTime.superclass.constructor.call(this), this.localDateToUTC = function(t) {
                return utc = t.getTime() + 6e4 * t.getTimezoneOffset(), new Date(utc)
            }, this.formatDate = function(t, e, i) {
                var r = this.zeroPadding,
                    n = this.localDateToUTC(t),
                    s = String(n.getFullYear());
                "utc" == e && (s = s.substr(2, 2));
                var o = s + r(String(n.getMonth() + 1), 2) + r(String(n.getDate()), 2) + r(String(n.getHours()),
                    2) + r(String(n.getMinutes()), 2) + r(String(n.getSeconds()), 2);
                if (!0 === i) {
                    var h = n.getMilliseconds();
                    if (0 != h) {
                        var a = r(String(h), 3);
                        o = o + "." + (a = a.replace(/[0]+$/, ""))
                    }
                }
                return o + "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(t)
            }, this.setByDateValue = function(t, e, i, r, n, s) {
                var o = new Date(Date.UTC(t, e - 1, i, r, n, s, 0));
                this.setByDate(o)
            }, this.getFreshValueHex = function() {
                return this.hV
            }
        }, tt.lang.extend(et.asn1.DERAbstractTime, et.asn1.ASN1Object), et.asn1.DERAbstractStructured = function(
        t) {
            et.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, void 0 !== t && void 0 !== t.array && (this.asn1Array = t.array)
        }, tt.lang.extend(et.asn1.DERAbstractStructured, et.asn1.ASN1Object), et.asn1.DERBoolean = function() {
            et.asn1.DERBoolean.superclass.constructor.call(this), this.hT = "01", this.hTLV = "0101ff"
        }, tt.lang.extend(et.asn1.DERBoolean, et.asn1.ASN1Object), et.asn1.DERInteger = function(t) {
            et.asn1.DERInteger.superclass.constructor.call(this), this.hT = "02", this.setByBigInteger = function(
            t) {
                this.hTLV = null, this.isModified = !0, this.hV = et.asn1.ASN1Util
                    .bigIntToMinTwosComplementsHex(t)
            }, this.setByInteger = function(t) {
                var e = new O(String(t), 10);
                this.setByBigInteger(e)
            }, this.setValueHex = function(t) {
                this.hV = t
            }, this.getFreshValueHex = function() {
                return this.hV
            }, void 0 !== t && (void 0 !== t.bigint ? this.setByBigInteger(t.bigint) : void 0 !== t.int ? this
                .setByInteger(t.int) : "number" == typeof t ? this.setByInteger(t) : void 0 !== t.hex && this
                .setValueHex(t.hex))
        }, tt.lang.extend(et.asn1.DERInteger, et.asn1.ASN1Object), et.asn1.DERBitString = function(t) {
            if (void 0 !== t && void 0 !== t.obj) {
                var e = et.asn1.ASN1Util.newObject(t.obj);
                t.hex = "00" + e.getEncodedHex()
            }
            et.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 (t < 0 || 7 < t) 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) {
                    var e = 8 - (t = t.replace(/0+$/, "")).length % 8;
                    8 == e && (e = 0);
                    for (var i = 0; i <= e; i++) t += "0";
                    var r = "";
                    for (i = 0; i < t.length - 1; i += 8) {
                        var n = t.substr(i, 8),
                            s = parseInt(n, 2).toString(16);
                        1 == s.length && (s = "0" + s), r += s
                    }
                    this.hTLV = null, this.isModified = !0, this.hV = "0" + e + r
                }, this.setByBooleanArray = function(t) {
                    for (var e = "", i = 0; i < t.length; i++) 1 == t[i] ? e += "1" : e += "0";
                    this.setByBinaryString(e)
                }, this.newFalseArray = function(t) {
                    for (var e = new Array(t), i = 0; i < t; i++) e[i] = !1;
                    return e
                }, this.getFreshValueHex = function() {
                    return this.hV
                }, void 0 !== t && ("string" == typeof t && t.toLowerCase().match(/^[0-9a-f]+$/) ? this
                    .setHexValueIncludingUnusedBits(t) : void 0 !== t.hex ? this.setHexValueIncludingUnusedBits(t
                        .hex) : void 0 !== t.bin ? this.setByBinaryString(t.bin) : void 0 !== t.array && this
                    .setByBooleanArray(t.array))
        }, tt.lang.extend(et.asn1.DERBitString, et.asn1.ASN1Object), et.asn1.DEROctetString = function(t) {
            if (void 0 !== t && void 0 !== t.obj) {
                var e = et.asn1.ASN1Util.newObject(t.obj);
                t.hex = e.getEncodedHex()
            }
            et.asn1.DEROctetString.superclass.constructor.call(this, t), this.hT = "04"
        }, tt.lang.extend(et.asn1.DEROctetString, et.asn1.DERAbstractString), et.asn1.DERNull = function() {
            et.asn1.DERNull.superclass.constructor.call(this), this.hT = "05", this.hTLV = "0500"
        }, tt.lang.extend(et.asn1.DERNull, et.asn1.ASN1Object), et.asn1.DERObjectIdentifier = function(t) {
            var h = function(t) {
                    var e = t.toString(16);
                    return 1 == e.length && (e = "0" + e), e
                },
                s = function(t) {
                    var e = "",
                        i = new O(t, 10).toString(2),
                        r = 7 - i.length % 7;
                    7 == r && (r = 0);
                    for (var n = "", s = 0; s < r; s++) n += "0";
                    i = n + i;
                    for (s = 0; s < i.length - 1; s += 7) {
                        var o = i.substr(s, 7);
                        s != i.length - 7 && (o = "1" + o), e += h(parseInt(o, 2))
                    }
                    return e
                };
            et.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.]+$/)) throw "malformed oid string: " + t;
                    var e = "",
                        i = t.split("."),
                        r = 40 * parseInt(i[0]) + parseInt(i[1]);
                    e += h(r), i.splice(0, 2);
                    for (var n = 0; n < i.length; n++) e += s(i[n]);
                    this.hTLV = null, this.isModified = !0, this.s = null, this.hV = e
                }, this.setValueName = function(t) {
                    var e = et.asn1.x509.OID.name2oid(t);
                    if ("" === e) throw "DERObjectIdentifier oidName undefined: " + t;
                    this.setValueOidString(e)
                }, this.getFreshValueHex = function() {
                    return this.hV
                }, void 0 !== t && ("string" == typeof t ? t.match(/^[0-2].[0-9.]+$/) ? this.setValueOidString(t) :
                    this.setValueName(t) : void 0 !== t.oid ? this.setValueOidString(t.oid) : void 0 !== t.hex ?
                    this.setValueHex(t.hex) : void 0 !== t.name && this.setValueName(t.name))
        }, tt.lang.extend(et.asn1.DERObjectIdentifier, et.asn1.ASN1Object), et.asn1.DEREnumerated = function(t) {
            et.asn1.DEREnumerated.superclass.constructor.call(this), this.hT = "0a", this.setByBigInteger =
                function(t) {
                    this.hTLV = null, this.isModified = !0, this.hV = et.asn1.ASN1Util
                        .bigIntToMinTwosComplementsHex(t)
                }, this.setByInteger = function(t) {
                    var e = new O(String(t), 10);
                    this.setByBigInteger(e)
                }, this.setValueHex = function(t) {
                    this.hV = t
                }, this.getFreshValueHex = function() {
                    return this.hV
                }, void 0 !== t && (void 0 !== t.int ? this.setByInteger(t.int) : "number" == typeof t ? this
                    .setByInteger(t) : void 0 !== t.hex && this.setValueHex(t.hex))
        }, tt.lang.extend(et.asn1.DEREnumerated, et.asn1.ASN1Object), et.asn1.DERUTF8String = function(t) {
            et.asn1.DERUTF8String.superclass.constructor.call(this, t), this.hT = "0c"
        }, tt.lang.extend(et.asn1.DERUTF8String, et.asn1.DERAbstractString), et.asn1.DERNumericString = function(
        t) {
            et.asn1.DERNumericString.superclass.constructor.call(this, t), this.hT = "12"
        }, tt.lang.extend(et.asn1.DERNumericString, et.asn1.DERAbstractString), et.asn1.DERPrintableString =
        function(t) {
            et.asn1.DERPrintableString.superclass.constructor.call(this, t), this.hT = "13"
        }, tt.lang.extend(et.asn1.DERPrintableString, et.asn1.DERAbstractString), et.asn1.DERTeletexString =
        function(t) {
            et.asn1.DERTeletexString.superclass.constructor.call(this, t), this.hT = "14"
        }, tt.lang.extend(et.asn1.DERTeletexString, et.asn1.DERAbstractString), et.asn1.DERIA5String = function(t) {
            et.asn1.DERIA5String.superclass.constructor.call(this, t), this.hT = "16"
        }, tt.lang.extend(et.asn1.DERIA5String, et.asn1.DERAbstractString), et.asn1.DERUTCTime = function(t) {
            et.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)
            }, this.getFreshValueHex = function() {
                return void 0 === this.date && void 0 === this.s && (this.date = new Date, this.s = this
                    .formatDate(this.date, "utc"), this.hV = stohex(this.s)), this.hV
            }, void 0 !== t && (void 0 !== t.str ? this.setString(t.str) : "string" == typeof t && t.match(
                    /^[0-9]{12}Z$/) ? this.setString(t) : void 0 !== t.hex ? this.setStringHex(t.hex) :
                void 0 !== t.date && this.setByDate(t.date))
        }, tt.lang.extend(et.asn1.DERUTCTime, et.asn1.DERAbstractTime), et.asn1.DERGeneralizedTime = function(t) {
            et.asn1.DERGeneralizedTime.superclass.constructor.call(this, t), this.hT = "18", this.withMillis = !1,
                this.setByDate = function(t) {
                    this.hTLV = null, this.isModified = !0, this.date = t, this.s = this.formatDate(this.date,
                        "gen", this.withMillis), this.hV = stohex(this.s)
                }, this.getFreshValueHex = function() {
                    return void 0 === this.date && void 0 === this.s && (this.date = new Date, this.s = this
                        .formatDate(this.date, "gen", this.withMillis), this.hV = stohex(this.s)), this.hV
                }, void 0 !== t && (void 0 !== t.str ? this.setString(t.str) : "string" == typeof t && t.match(
                        /^[0-9]{14}Z$/) ? this.setString(t) : void 0 !== t.hex ? this.setStringHex(t.hex) :
                    void 0 !== t.date && this.setByDate(t.date), !0 === t.millis && (this.withMillis = !0))
        }, tt.lang.extend(et.asn1.DERGeneralizedTime, et.asn1.DERAbstractTime), et.asn1.DERSequence = function(t) {
            et.asn1.DERSequence.superclass.constructor.call(this, t), this.hT = "30", this.getFreshValueHex =
                function() {
                    for (var t = "", e = 0; e < this.asn1Array.length; e++) {
                        t += this.asn1Array[e].getEncodedHex()
                    }
                    return this.hV = t, this.hV
                }
        }, tt.lang.extend(et.asn1.DERSequence, et.asn1.DERAbstractStructured), et.asn1.DERSet = function(t) {
            et.asn1.DERSet.superclass.constructor.call(this, t), this.hT = "31", this.sortFlag = !0, 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 1 == this.sortFlag && t.sort(), this.hV = t.join(""), this.hV
                }, void 0 !== t && void 0 !== t.sortflag && 0 == t.sortflag && (this.sortFlag = !1)
        }, tt.lang.extend(et.asn1.DERSet, et.asn1.DERAbstractStructured), et.asn1.DERTaggedObject = function(t) {
            et.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
                }, void 0 !== t && (void 0 !== t.tag && (this.hT = t.tag), void 0 !== t.explicit && (this
                    .isExplicit = t.explicit), void 0 !== t.obj && (this.asn1Object = t.obj, this.setASN1Object(
                    this.isExplicit, this.hT, this.asn1Object)))
        }, tt.lang.extend(et.asn1.DERTaggedObject, et.asn1.ASN1Object);
    var it = function(i) {
            function r(t) {
                var e = i.call(this) || this;
                return t && ("string" == typeof t ? e.parseKey(t) : (r.hasPrivateKeyProperty(t) || r
                    .hasPublicKeyProperty(t)) && e.parsePropertiesFrom(t)), e
            }
            return function(t, e) {
                function i() {
                    this.constructor = t
                }
                p(t, e), t.prototype = null === e ? Object.create(e) : (i.prototype = e.prototype, new i)
            }(r, i), r.prototype.parseKey = function(t) {
                try {
                    var e = 0,
                        i = 0,
                        r = /^\s*(?:[0-9A-Fa-f][0-9A-Fa-f]\s*)+$/.test(t) ? d(t) : v.unarmor(t),
                        n = x.decode(r);
                    if (3 === n.sub.length && (n = n.sub[2].sub[0]), 9 === n.sub.length) {
                        e = n.sub[1].getHexStringValue(), this.n = q(e, 16), i = n.sub[2].getHexStringValue(),
                            this.e = parseInt(i, 16);
                        var s = n.sub[3].getHexStringValue();
                        this.d = q(s, 16);
                        var o = n.sub[4].getHexStringValue();
                        this.p = q(o, 16);
                        var h = n.sub[5].getHexStringValue();
                        this.q = q(h, 16);
                        var a = n.sub[6].getHexStringValue();
                        this.dmp1 = q(a, 16);
                        var u = n.sub[7].getHexStringValue();
                        this.dmq1 = q(u, 16);
                        var c = n.sub[8].getHexStringValue();
                        this.coeff = q(c, 16)
                    } else {
                        if (2 !== n.sub.length) return !1;
                        var f = n.sub[1].sub[0];
                        e = f.sub[0].getHexStringValue(), this.n = q(e, 16), i = f.sub[1].getHexStringValue(),
                            this.e = parseInt(i, 16)
                    }
                    return !0
                } catch (t) {
                    return !1
                }
            }, r.prototype.getPrivateBaseKey = function() {
                var t = {
                    array: [new et.asn1.DERInteger({
                        int: 0
                    }), new et.asn1.DERInteger({
                        bigint: this.n
                    }), new et.asn1.DERInteger({
                        int: this.e
                    }), new et.asn1.DERInteger({
                        bigint: this.d
                    }), new et.asn1.DERInteger({
                        bigint: this.p
                    }), new et.asn1.DERInteger({
                        bigint: this.q
                    }), new et.asn1.DERInteger({
                        bigint: this.dmp1
                    }), new et.asn1.DERInteger({
                        bigint: this.dmq1
                    }), new et.asn1.DERInteger({
                        bigint: this.coeff
                    })]
                };
                return new et.asn1.DERSequence(t).getEncodedHex()
            }, r.prototype.getPrivateBaseKeyB64 = function() {
                return c(this.getPrivateBaseKey())
            }, r.prototype.getPublicBaseKey = function() {
                var t = new et.asn1.DERSequence({
                        array: [new et.asn1.DERObjectIdentifier({
                            oid: "1.2.840.113549.1.1.1"
                        }), new et.asn1.DERNull]
                    }),
                    e = new et.asn1.DERSequence({
                        array: [new et.asn1.DERInteger({
                            bigint: this.n
                        }), new et.asn1.DERInteger({
                            int: this.e
                        })]
                    }),
                    i = new et.asn1.DERBitString({
                        hex: "00" + e.getEncodedHex()
                    });
                return new et.asn1.DERSequence({
                    array: [t, i]
                }).getEncodedHex()
            }, r.prototype.getPublicBaseKeyB64 = function() {
                return c(this.getPublicBaseKey())
            }, r.wordwrap = function(t, e) {
                if (!t) return t;
                var i = "(.{1," + (e = e || 64) + "})( +|$\n?)|(.{1," + e + "})";
                return t.match(RegExp(i, "g")).join("\n")
            }, r.prototype.getPrivateKey = function() {
                var t = "-----BEGIN RSA PRIVATE KEY-----\n";
                return t += r.wordwrap(this.getPrivateBaseKeyB64()) + "\n", t += "-----END RSA PRIVATE KEY-----"
            }, r.prototype.getPublicKey = function() {
                var t = "-----BEGIN PUBLIC KEY-----\n";
                return t += r.wordwrap(this.getPublicBaseKeyB64()) + "\n", t += "-----END PUBLIC KEY-----"
            }, r.hasPublicKeyProperty = function(t) {
                return (t = t || {}).hasOwnProperty("n") && t.hasOwnProperty("e")
            }, r.hasPrivateKeyProperty = function(t) {
                return (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")
            }, r.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)
            }, r
        }(Q),
        rt = function() {
            function t(t) {
                t = t || {}, this.default_key_size = parseInt(t.default_key_size, 10) || 1024, this
                    .default_public_exponent = t.default_public_exponent || "010001", this.log = t.log || !1, this
                    .key = null
            }
            return t.prototype.setKey = function(t) {
                this.log && this.key && console.warn("A key was already set, overriding existing."), this.key =
                    new it(t)
            }, t.prototype.setPrivateKey = function(t) {
                this.setKey(t)
            }, t.prototype.setPublicKey = function(t) {
                this.setKey(t)
            }, t.prototype.decrypt = function(t) {
                try {
                    return this.getKey().decrypt(f(t))
                } catch (t) {
                    return !1
                }
            }, t.prototype.encrypt = function(t) {
                try {
                    return c(this.getKey().encrypt(t))
                } catch (t) {
                    return !1
                }
            }, t.prototype.sign = function(t, e, i) {
                try {
                    return c(this.getKey().sign(t, e, i))
                } catch (t) {
                    return !1
                }
            }, t.prototype.verify = function(t, e, i) {
                try {
                    return this.getKey().verify(t, f(e), i)
                } catch (t) {
                    return !1
                }
            }, t.prototype.getKey = function(t) {
                if (!this.key) {
                    if (this.key = new it, 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
            }, t.prototype.getPrivateKey = function() {
                return this.getKey().getPrivateKey()
            }, t.prototype.getPrivateKeyB64 = function() {
                return this.getKey().getPrivateBaseKeyB64()
            }, t.prototype.getPublicKey = function() {
                return this.getKey().getPublicKey()
            }, t.prototype.getPublicKeyB64 = function() {
                return this.getKey().getPublicBaseKeyB64()
            }, t.version = "3.0.0-rc.1", t
        }();
    t.JSEncrypt = rt, t.default = rt, Object.defineProperty(t, "__esModule", {
        value: !0
    })
});

 

标签:function,case,return,传输,length,&&,var,加密,JSEncrypt
From: https://www.cnblogs.com/qdjj/p/18337050

相关文章

  • Python爬虫 - js逆向之扣出某平台的_signature加密字段
    前言好久没有做逆向案例分析了,最近都在看同行朋友写好的案例,感觉学到很多,算是取长补短了不多bb,机缘巧合下,拿到个目标网站分析首先抓个包,就看到请求参数里带着这几个参数主要就是_signature了,其他的参数都不重要得想必你一看就知道啥意思了。行,开始分析_signature......
  • 加密解密你了解多少?
    这个题目一写出来,笔者自己也思考了下自己在以前职业生涯中涉及到的加密解密技术,也思考了自己熟知的公知度高的几种加密方式。下面我来说说一些理解上的东西。加密解密中间参与的是一个算法,有这个算法规律你才可以将简单的语言或者数据转换成只有了解此算法的人才能看懂才能知道......
  • 传输层TCP协议
    传输层TCP协议1.TCP协议简介2.TCP特点3.TCP协议段格式4.确认应答(ACK)机制和序列号5.捎带应答6.标志位7.连接管理机制7.1三次握手7.2四次挥手7.3服务端状态转化8.超时重传机制9.流量控制10.滑动窗口11.拥塞控制12.延迟应答13.面向字节流14.粘包问题1......
  • 高效可靠安全的大文件传输系统,了解一下!
    在数字化转型的浪潮中,数据已成为企业不可或缺的宝贵资源,而高效的文件传输机制则是保障数据流通的基石。无论是企业还是个人,经常需要处理大文件、远距离文件的传输任务,需要文件传输系统来处理。在远距离传输大型文件时,我们面临诸多挑战,如网络速度慢、数据量大、电子邮件文件大小......
  • 不知道如何通过OPC文件传输管控,助力企业提高效率与竞争力?
    OPC(OpenPlatformCommunications)是一种用于工业自动化和控制系统中设备与软件之间数据交换的通信协议。以下是一些会涉及到OPC文件传输的行业:工业自动化:用于实现设备、控制系统和软件之间的数据交换,提高生产效率和灵活性。楼宇自控:用于设备控制和数据通信,确保设备之间的互操作......
  • MYSQL 8.0 社区版的透明数据加密
    和MySQL5.0不同,MySQL8.0不再使用keyring插件,而是使用keyringcomponent。这包括:component_keyring_filecomponent_keyring_encrypted_filecomponent_keyring_ociMySQL企业版支持所有3个,MySQL社区版只支持第一个,即component_keyring_file。本文测试的也是这个。MySQL5......
  • 数组加密问题例题day05
    importjava.util.Scanner;/* 某个公司采用公用电话传递数据信息,数据是小于8位的整数,为了确保安全,在传递过程中需要加密,加密规则如下:首先将数据倒序,然后将每位数字都加上5,再用和除以10的余数代替该数字,最后将第一位和最后一位数字交换......
  • 计算机网络基础第五讲 传输层
    计算机网络基础第五讲传输层第一节:传输层概述1.运输层概述2.运输层功能两种不同协议:TCP:面向连接,全双工可靠信道;仅支持单播;复杂UDP:无连接不可靠;支持单播,多播,广播;应用层来负责可靠;简单第二节:端口号1.运输层的端口进程标识符来标记进程;不应该是操作系统提供标识符;为......
  • LKT加密芯片优势
    凌科芯安公司作为加密芯片行业的高新技术企业,通过了ISO9001质量体系标准认证,其芯片操作系统LKCOS,通过了权威部门的严格检测,通过技术自主创新研发,保护了自己的知识产权和经济利益,更有效的保护了行业内的信息安全。凭借多年的智能卡技术的深入研究的同时,以及嵌入式加密领域积累的深......
  • 协议加密
    根据上篇,如果我们通讯协议不进行加密,被人抓包后很容易解析出来,这个时候我们就需要对协议进行加密处理,协议传输本质上是传输的二进制字节流,我们可以考虑用一定的方式修改字节数据,最简单的方式是把0改成1,把1改成0,也就是直接取反,这也是一种加密方式,虽然比较容易被破解,意义不大,我们可......