本文介绍: 前提JavaWeb环境前端代码window.sm2 = function (t) { function i(e) { if (r[e]) return r[e].exports; var n = r[e] = {i: e, l: !1, exports: {}}; return t[e].call(n.exports, n, n.exports, i), n.l = !0, n.exports } var r = {};

前提JavaWeb环境

前端代码

window.sm2 = function (t) {
    function i(e) {
        if (r[e]) return r[e].exports;
        var n = r[e] = {i: e, l: !1, exports: {}};
        return t[e].call(n.exports, n, n.exports, i), n.l = !0, n.exports
    }

    var r = {};
    return i.m = t, i.c = r, i.d = function (t, r, e) {
        i.o(t, r) || Object.defineProperty(t, r, {configurable: !1, enumerable: !0, get: e})
    }, i.n = function (t) {
        var r = t && t.__esModule ? function () {
            return t.default
        } : function () {
            return t
        };
        return i.d(r, "a", r), r
    }, i.o = function (t, i) {
        return Object.prototype.hasOwnProperty.call(t, i)
    }, i.p = "", i(i.s = 2)
}([function (t, i, r) {
    (function () {
        function r(t, i, r) {
            null != t && ("number" == typeof t ? this.fromNumber(t, i, r) : null == i && "string" != typeof t ? this.fromString(t, 256) : this.fromString(t, i))
        }

        function e() {
            return new r(null)
        }

        function n(t, i, r, e, n, o) {
            for (; --o >= 0;) {
                var s = i * this[t++] + r[e] + n;
                n = Math.floor(s / 67108864), r[e++] = 67108863 & s
            }
            return n
        }

        function o(t, i, r, e, n, o) {
            for (var s = 32767 & i, u = i >> 15; --o >= 0;) {
                var h = 32767 & this[t], a = this[t++] >> 15, f = u * h + a * s;
                h = s * h + ((32767 &amp; f) << 15) + r[e] + (1073741823 & n), n = (h >>> 30) + (f >>> 15) + u * a + (n >>> 30), r[e++] = 1073741823 & h
            }
            return n
        }

        function s(t, i, r, e, n, o) {
            for (var s = 16383 & i, u = i >> 14; --o >= 0;) {
                var h = 16383 & this[t], a = this[t++] >> 14, f = u * h + a * s;
                h = s * h + ((16383 & f) << 14) + r[e] + n, n = (h >> 28) + (f >> 14) + u * a, r[e++] = 268435455 & h
            }
            return n
        }

        function u(t) {
            return pi.charAt(t)
        }

        function h(t, i) {
            var r = vi[t.charCodeAt(i)];
            return null == r ? -1 : r
        }

        function a(t) {
            for (var i = this.t - 1; i >= 0; --i) t[i] = this[i];
            t.t = this.t, t.s = this.s
        }

        function f(t) {
            this.t = 1, this.s = t < 0 ? -1 : 0, t > 0 ? this[0] = t : t < -1 ? this[0] = t + this.DV : this.t = 0
        }

        function l(t) {
            var i = e();
            return i.fromInt(t), i
        }

        function c(t, i) {
            var e;
            if (16 == i) e = 4; else if (8 == i) e = 3; else if (256 == i) e = 8; else if (2 == i) e = 1; else if (32 == i) e = 5; else {
                if (4 != i) return void this.fromRadix(t, i);
                e = 2
            }
            this.t = 0, this.s = 0;
            for (var n = t.length, o = !1, s = 0; --n >= 0;) {
                var u = 8 == e ? 255 & t[n] : h(t, n);
                u < 0 ? "-" == t.charAt(n) && (o = !0) : (o = !1, 0 == s ? this[this.t++] = u : s + e > this.DB ? (this[this.t - 1] |= (u & (1 << this.DB - s) - 1) << s, this[this.t++] = u >> this.DB - s) : this[this.t - 1] |= u << s, (s += e) >= this.DB && (s -= this.DB))
            }
            8 == e && 0 != (128 & t[0]) && (this.s = -1, s > 0 && (this[this.t - 1] |= (1 << this.DB - s) - 1 << s)), this.clamp(), o && r.ZERO.subTo(this, this)
        }

        function p() {
            for (var t = this.s & this.DM; this.t > 0 && this[this.t - 1] == t;) --this.t
        }

        function v(t) {
            if (this.s < 0) return "-" + this.negate().toString(t);
            var i;
            if (16 == t) i = 4; else if (8 == t) i = 3; else if (2 == t) i = 1; else if (32 == t) i = 5; else {
                if (4 != t) return this.toRadix(t);
                i = 2
            }
            var r, e = (1 << i) - 1, n = !1, o = "", s = this.t, h = this.DB - s * this.DB % i;
            if (s-- > 0) for (h < this.DB && (r = this[s] >> h) > 0 && (n = !0, o = u(r)); s >= 0;) h < i ? (r = (this[s] & (1 << h) - 1) << i - h, r |= this[--s] >> (h += this.DB - i)) : (r = this[s] >> (h -= i) & e, h <= 0 && (h += this.DB, --s)), r > 0 && (n = !0), n && (o += u(r));
            return n ? o : "0"
        }

        function y() {
            var t = e();
            return r.ZERO.subTo(this, t), t
        }

        function m() {
            return this.s < 0 ? this.negate() : this
        }

        function g(t) {
            var i = this.s - t.s;
            if (0 != i) return i;
            var r = this.t;
            if (0 != (i = r - t.t)) return this.s < 0 ? -i : i;
            for (; --r >= 0;) if (0 != (i = this[r] - t[r])) return i;
            return 0
        }

        function d(t) {
            var i, r = 1;
            return 0 != (i = t >>> 16) && (t = i, r += 16), 0 != (i = t >> 8) && (t = i, r += 8), 0 != (i = t >> 4) && (t = i, r += 4), 0 != (i = t >> 2) && (t = i, r += 2), 0 != (i = t >> 1) && (t = i, r += 1), r
        }

        function T() {
            return this.t <= 0 ? 0 : this.DB * (this.t - 1) + d(this[this.t - 1] ^ this.s & this.DM)
        }

        function F(t, i) {
            var r;
            for (r = this.t - 1; r >= 0; --r) i[r + t] = this[r];
            for (r = t - 1; r >= 0; --r) i[r] = 0;
            i.t = this.t + t, i.s = this.s
        }

        function b(t, i) {
            for (var r = t; r < this.t; ++r) i[r - t] = this[r];
            i.t = Math.max(this.t - t, 0), i.s = this.s
        }

        function B(t, i) {
            var r, e = t % this.DB, n = this.DB - e, o = (1 << n) - 1, s = Math.floor(t / this.DB),
                u = this.s << e & this.DM;
            for (r = this.t - 1; r >= 0; --r) i[r + s + 1] = this[r] >> n | u, u = (this[r] & o) << e;
            for (r = s - 1; r >= 0; --r) i[r] = 0;
            i[s] = u, i.t = this.t + s + 1, i.s = this.s, i.clamp()
        }

        function w(t, i) {
            i.s = this.s;
            var r = Math.floor(t / this.DB);
            if (r >= this.t) return void (i.t = 0);
            var e = t % this.DB, n = this.DB - e, o = (1 << e) - 1;
            i[0] = this[r] >> e;
            for (var s = r + 1; s < this.t; ++s) i[s - r - 1] |= (this[s] & o) << n, i[s - r] = this[s] >> e;
            e > 0 && (i[this.t - r - 1] |= (this.s & o) << n), i.t = this.t - r, i.clamp()
        }

        function x(t, i) {
            for (var r = 0, e = 0, n = Math.min(t.t, this.t); r < n;) e += this[r] - t[r], i[r++] = e & this.DM, e >>= this.DB;
            if (t.t < this.t) {
                for (e -= t.s; r < this.t;) e += this[r], i[r++] = e & this.DM, e >>= this.DB;
                e += this.s
            } else {
                for (e += this.s; r < t.t;) e -= t[r], i[r++] = e & this.DM, e >>= this.DB;
                e -= t.s
            }
            i.s = e < 0 ? -1 : 0, e < -1 ? i[r++] = this.DV + e : e > 0 && (i[r++] = e), i.t = r, i.clamp()
        }

        function D(t, i) {
            var e = this.abs(), n = t.abs(), o = e.t;
            for (i.t = o + n.t; --o >= 0;) i[o] = 0;
            for (o = 0; o < n.t; ++o) i[o + e.t] = e.am(0, n[o], i, o, 0, e.t);
            i.s = 0, i.clamp(), this.s != t.s && r.ZERO.subTo(i, i)
        }

        function S(t) {
            for (var i = this.abs(), r = t.t = 2 * i.t; --r >= 0;) t[r] = 0;
            for (r = 0; r < i.t - 1; ++r) {
                var e = i.am(r, i[r], t, 2 * r, 0, 1);
                (t[r + i.t] += i.am(r + 1, 2 * i[r], t, 2 * r + 1, e, i.t - r - 1)) >= i.DV && (t[r + i.t] -= i.DV, t[r + i.t + 1] = 1)
            }
            t.t > 0 && (t[t.t - 1] += i.am(r, i[r], t, 2 * r, 0, 1)), t.s = 0, t.clamp()
        }

        function I(t, i, n) {
            var o = t.abs();
            if (!(o.t <= 0)) {
                var s = this.abs();
                if (s.t < o.t) return null != i && i.fromInt(0), void (null != n && this.copyTo(n));
                null == n && (n = e());
                var u = e(), h = this.s, a = t.s, f = this.DB - d(o[o.t - 1]);
                f > 0 ? (o.lShiftTo(f, u), s.lShiftTo(f, n)) : (o.copyTo(u), s.copyTo(n));
                var l = u.t, c = u[l - 1];
                if (0 != c) {
                    var p = c * (1 << this.F1) + (l > 1 ? u[l - 2] >> this.F2 : 0), v = this.FV / p,
                        y = (1 << this.F1) / p, m = 1 << this.F2, g = n.t, T = g - l, F = null == i ? e() : i;
                    for (u.dlShiftTo(T, F), n.compareTo(F) >= 0 && (n[n.t++] = 1, n.subTo(F, n)), r.ONE.dlShiftTo(l, F), F.subTo(u, u); u.t < l;) u[u.t++] = 0;
                    for (; --T >= 0;) {
                        var b = n[--g] == c ? this.DM : Math.floor(n[g] * v + (n[g - 1] + m) * y);
                        if ((n[g] += u.am(0, b, n, T, 0, l)) < b) for (u.dlShiftTo(T, F), n.subTo(F, n); n[g] < --b;) n.subTo(F, n)
                    }
                    null != i && (n.drShiftTo(l, i), h != a && r.ZERO.subTo(i, i)), n.t = l, n.clamp(), f > 0 && n.rShiftTo(f, n), h < 0 && r.ZERO.subTo(n, n)
                }
            }
        }

        function E(t) {
            var i = e();
            return this.abs().divRemTo(t, null, i), this.s < 0 && i.compareTo(r.ZERO) > 0 && t.subTo(i, i), i
        }

        function q(t) {
            this.m = t
        }

        function O(t) {
            return t.s < 0 || t.compareTo(this.m) >= 0 ? t.mod(this.m) : t
        }

        function A(t) {
            return t
        }

        function R(t) {
            t.divRemTo(this.m, null, t)
        }

        function M(t, i, r) {
            t.multiplyTo(i, r), this.reduce(r)
        }

        function P(t, i) {
            t.squareTo(i), this.reduce(i)
        }

        function C() {
            if (this.t < 1) return 0;
            var t = this[0];
            if (0 == (1 & t)) return 0;
            var i = 3 & t;
            return i = i * (2 - (15 & t) * i) & 15, i = i * (2 - (255 & t) * i) & 255, i = i * (2 - ((65535 & t) * i & 65535)) & 65535, i = i * (2 - t * i % this.DV) % this.DV, i > 0 ? this.DV - i : -i
        }

        function k(t) {
            this.m = t, this.mp = t.invDigit(), this.mpl = 32767 & this.mp, this.mph = this.mp >> 15, this.um = (1 << t.DB - 15) - 1, this.mt2 = 2 * t.t
        }

        function V(t) {
            var i = e();
            return t.abs().dlShiftTo(this.m.t, i), i.divRemTo(this.m, null, i), t.s < 0 && i.compareTo(r.ZERO) > 0 && this.m.subTo(i, i), i
        }

        function H(t) {
            var i = e();
            return t.copyTo(i), this.reduce(i), i
        }

        function N(t) {
            for (; t.t <= this.mt2;) t[t.t++] = 0;
            for (var i = 0; i < this.m.t; ++i) {
                var r = 32767 & t[i],
                    e = r * this.mpl + ((r * this.mph + (t[i] >> 15) * this.mpl & this.um) << 15) & t.DM;
                for (r = i + this.m.t, t[r] += this.m.am(0, e, t, i, 0, this.m.t); t[r] >= t.DV;) t[r] -= t.DV, t[++r]++
            }
            t.clamp(), t.drShiftTo(this.m.t, t), t.compareTo(this.m) >= 0 && t.subTo(this.m, t)
        }

        function L(t, i) {
            t.squareTo(i), this.reduce(i)
        }

        function z(t, i, r) {
            t.multiplyTo(i, r), this.reduce(r)
        }

        function j() {
            return 0 == (this.t > 0 ? 1 & this[0] : this.s)
        }

        function Z(t, i) {
            if (t > 4294967295 || t < 1) return r.ONE;
            var n = e(), o = e(), s = i.convert(this), u = d(t) - 1;
            for (s.copyTo(n); --u >= 0;) if (i.sqrTo(n, o), (t & 1 << u) > 0) i.mulTo(o, s, n); else {
                var h = n;
                n = o, o = h
            }
            return i.revert(n)
        }

        function _(t, i) {
            var r;
            return r = t < 256 || i.isEven() ? new q(i) : new k(i), this.exp(t, r)
        }

        function K() {
            var t = e();
            return this.copyTo(t), t
        }

        function U() {
            if (this.s < 0) {
                if (1 == this.t) return this[0] - this.DV;
                if (0 == this.t) return -1
            } else {
                if (1 == this.t) return this[0];
                if (0 == this.t) return 0
            }
            return (this[1] & (1 << 32 - this.DB) - 1) << this.DB | this[0]
        }

        function X() {
            return 0 == this.t ? this.s : this[0] << 24 >> 24
        }

        function G() {
            return 0 == this.t ? this.s : this[0] << 16 >> 16
        }

        function Y(t) {
            return Math.floor(Math.LN2 * this.DB / Math.log(t))
        }

        function J() {
            return this.s < 0 ? -1 : this.t <= 0 || 1 == this.t && this[0] <= 0 ? 0 : 1
        }

        function Q(t) {
            if (null == t && (t = 10), 0 == this.signum() || t < 2 || t > 36) return "0";
            var i = this.chunkSize(t), r = Math.pow(t, i), n = l(r), o = e(), s = e(), u = "";
            for (this.divRemTo(n, o, s); o.signum() > 0;) u = (r + s.intValue()).toString(t).substr(1) + u, o.divRemTo(n, o, s);
            return s.intValue().toString(t) + u
        }

        function W(t, i) {
            this.fromInt(0), null == i && (i = 10);
            for (var e = this.chunkSize(i), n = Math.pow(i, e), o = !1, s = 0, u = 0, a = 0; a < t.length; ++a) {
                var f = h(t, a);
                f < 0 ? "-" == t.charAt(a) && 0 == this.signum() && (o = !0) : (u = i * u + f, ++s >= e && (this.dMultiply(n), this.dAddOffset(u, 0), s = 0, u = 0))
            }
            s > 0 && (this.dMultiply(Math.pow(i, s)), this.dAddOffset(u, 0)), o && r.ZERO.subTo(this, this)
        }

        function $(t, i, e) {
            if ("number" == typeof i) if (t < 2) this.fromInt(1); else for (this.fromNumber(t, e), this.testBit(t - 1) || this.bitwiseTo(r.ONE.shiftLeft(t - 1), ut, this), this.isEven() && this.dAddOffset(1, 0); !this.isProbablePrime(i);) this.dAddOffset(2, 0), this.bitLength() > t && this.subTo(r.ONE.shiftLeft(t - 1), this); else {
                var n = new Array, o = 7 & t;
                n.length = 1 + (t >> 3), i.nextBytes(n), o > 0 ? n[0] &= (1 << o) - 1 : n[0] = 0, this.fromString(n, 256)
            }
        }

        function tt() {
            var t = this.t, i = new Array;
            i[0] = this.s;
            var r, e = this.DB - t * this.DB % 8, n = 0;
            if (t-- > 0) for (e < this.DB && (r = this[t] >> e) != (this.s & this.DM) >> e && (i[n++] = r | this.s << this.DB - e); t >= 0;) e < 8 ? (r = (this[t] & (1 << e) - 1) << 8 - e, r |= this[--t] >> (e += this.DB - 8)) : (r = this[t] >> (e -= 8) & 255, e <= 0 && (e += this.DB, --t)), 0 != (128 & r) && (r |= -256), 0 == n && (128 & this.s) != (128 & r) && ++n, (n > 0 || r != this.s) && (i[n++] = r);
            return i
        }

        function it(t) {
            return 0 == this.compareTo(t)
        }

        function rt(t) {
            return this.compareTo(t) < 0 ? this : t
        }

        function et(t) {
            return this.compareTo(t) > 0 ? this : t
        }

        function nt(t, i, r) {
            var e, n, o = Math.min(t.t, this.t);
            for (e = 0; e < o; ++e) r[e] = i(this[e], t[e]);
            if (t.t < this.t) {
                for (n = t.s & this.DM, e = o; e < this.t; ++e) r[e] = i(this[e], n);
                r.t = this.t
            } else {
                for (n = this.s & this.DM, e = o; e < t.t; ++e) r[e] = i(n, t[e]);
                r.t = t.t
            }
            r.s = i(this.s, t.s), r.clamp()
        }

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

        function st(t) {
            var i = e();
            return this.bitwiseTo(t, ot, i), i
        }

        function ut(t, i) {
            return t | i
        }

        function ht(t) {
            var i = e();
            return this.bitwiseTo(t, ut, i), i
        }

        function at(t, i) {
            return t ^ i
        }

        function ft(t) {
            var i = e();
            return this.bitwiseTo(t, at, i), i
        }

        function lt(t, i) {
            return t & ~i
        }

        function ct(t) {
            var i = e();
            return this.bitwiseTo(t, lt, i), i
        }

        function pt() {
            for (var t = e(), i = 0; i < this.t; ++i) t[i] = this.DM & ~this[i];
            return t.t = this.t, t.s = ~this.s, t
        }

        function vt(t) {
            var i = e();
            return t < 0 ? this.rShiftTo(-t, i) : this.lShiftTo(t, i), i
        }

        function yt(t) {
            var i = e();
            return t < 0 ? this.lShiftTo(-t, i) : this.rShiftTo(t, i), i
        }

        function mt(t) {
            if (0 == t) return -1;
            var i = 0;
            return 0 == (65535 & t) && (t >>= 16, i += 16), 0 == (255 & t) && (t >>= 8, i += 8), 0 == (15 & t) && (t >>= 4, i += 4), 0 == (3 & t) && (t >>= 2, i += 2), 0 == (1 & t) && ++i, i
        }

        function gt() {
            for (var t = 0; t < this.t; ++t) if (0 != this[t]) return t * this.DB + mt(this[t]);
            return this.s < 0 ? this.t * this.DB : -1
        }

        function dt(t) {
            for (var i = 0; 0 != t;) t &= t - 1, ++i;
            return i
        }

        function Tt() {
            for (var t = 0, i = this.s & this.DM, r = 0; r < this.t; ++r) t += dt(this[r] ^ i);
            return t
        }

        function Ft(t) {
            var i = Math.floor(t / this.DB);
            return i >= this.t ? 0 != this.s : 0 != (this[i] & 1 << t % this.DB)
        }

        function bt(t, i) {
            var e = r.ONE.shiftLeft(t);
            return this.bitwiseTo(e, i, e), e
        }

        function Bt(t) {
            return this.changeBit(t, ut)
        }

        function wt(t) {
            return this.changeBit(t, lt)
        }

        function xt(t) {
            return this.changeBit(t, at)
        }

        function Dt(t, i) {
            for (var r = 0, e = 0, n = Math.min(t.t, this.t); r < n;) e += this[r] + t[r], i[r++] = e & this.DM, e >>= this.DB;
            if (t.t < this.t) {
                for (e += t.s; r < this.t;) e += this[r], i[r++] = e & this.DM, e >>= this.DB;
                e += this.s
            } else {
                for (e += this.s; r < t.t;) e += t[r], i[r++] = e & this.DM, e >>= this.DB;
                e += t.s
            }
            i.s = e < 0 ? -1 : 0, e > 0 ? i[r++] = e : e < -1 && (i[r++] = this.DV + e), i.t = r, i.clamp()
        }

        function St(t) {
            var i = e();
            return this.addTo(t, i), i
        }

        function It(t) {
            var i = e();
            return this.subTo(t, i), i
        }

        function Et(t) {
            var i = e();
            return this.multiplyTo(t, i), i
        }

        function qt() {
            var t = e();
            return this.squareTo(t), t
        }

        function Ot(t) {
            var i = e();
            return this.divRemTo(t, i, null), i
        }

        function At(t) {
            var i = e();
            return this.divRemTo(t, null, i), i
        }

        function Rt(t) {
            var i = e(), r = e();
            return this.divRemTo(t, i, r), new Array(i, r)
        }

        function Mt(t) {
            this[this.t] = this.am(0, t - 1, this, 0, 0, this.t), ++this.t, this.clamp()
        }

        function Pt(t, i) {
            if (0 != t) {
                for (; this.t <= i;) this[this.t++] = 0;
                for (this[i] += t; this[i] >= this.DV;) this[i] -= this.DV, ++i >= this.t && (this[this.t++] = 0), ++this[i]
            }
        }

        function Ct() {
        }

        function kt(t) {
            return t
        }

        function Vt(t, i, r) {
            t.multiplyTo(i, r)
        }

        function Ht(t, i) {
            t.squareTo(i)
        }

        function Nt(t) {
            return this.exp(t, new Ct)
        }

        function Lt(t, i, r) {
            var e = Math.min(this.t + t.t, i);
            for (r.s = 0, r.t = e; e > 0;) r[--e] = 0;
            var n;
            for (n = r.t - this.t; e < n; ++e) r[e + this.t] = this.am(0, t[e], r, e, 0, this.t);
            for (n = Math.min(t.t, i); e < n; ++e) this.am(0, t[e], r, e, 0, i - e);
            r.clamp()
        }

        function zt(t, i, r) {
            --i;
            var e = r.t = this.t + t.t - i;
            for (r.s = 0; --e >= 0;) r[e] = 0;
            for (e = Math.max(i - this.t, 0); e < t.t; ++e) r[this.t + e - i] = this.am(i - e, t[e], r, 0, 0, this.t + e - i);
            r.clamp(), r.drShiftTo(1, r)
        }

        function jt(t) {
            this.r2 = e(), this.q3 = e(), r.ONE.dlShiftTo(2 * t.t, this.r2), this.mu = this.r2.divide(t), this.m = t
        }

        function Zt(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 i = e();
            return t.copyTo(i), this.reduce(i), i
        }

        function _t(t) {
            return t
        }

        function Kt(t) {
            for (t.drShiftTo(this.m.t - 1, this.r2), t.t > this.m.t + 1 && (t.t = this.m.t + 1, t.clamp()), this.mu.multiplyUpperTo(this.r2, this.m.t + 1, this.q3), this.m.multiplyLowerTo(this.q3, this.m.t + 1, this.r2); t.compareTo(this.r2) < 0;) t.dAddOffset(1, this.m.t + 1);
            for (t.subTo(this.r2, t); t.compareTo(this.m) >= 0;) t.subTo(this.m, t)
        }

        function Ut(t, i) {
            t.squareTo(i), this.reduce(i)
        }

        function Xt(t, i, r) {
            t.multiplyTo(i, r), this.reduce(r)
        }

        function Gt(t, i) {
            var r, n, o = t.bitLength(), s = l(1);
            if (o <= 0) return s;
            r = o < 18 ? 1 : o < 48 ? 3 : o < 144 ? 4 : o < 768 ? 5 : 6, n = o < 8 ? new q(i) : i.isEven() ? new jt(i) : new k(i);
            var u = new Array, h = 3, a = r - 1, f = (1 << r) - 1;
            if (u[1] = n.convert(this), r > 1) {
                var c = e();
                for (n.sqrTo(u[1], c); h <= f;) u[h] = e(), n.mulTo(c, u[h - 2], u[h]), h += 2
            }
            var p, v, y = t.t - 1, m = !0, g = e();
            for (o = d(t[y]) - 1; y >= 0;) {
                for (o >= a ? p = t[y] >> o - a & f : (p = (t[y] & (1 << o + 1) - 1) << a - o, y > 0 && (p |= t[y - 1] >> this.DB + o - a)), h = r; 0 == (1 & p);) p >>= 1, --h;
                if ((o -= h) < 0 && (o += this.DB, --y), m) u[p].copyTo(s), m = !1; else {
                    for (; h > 1;) n.sqrTo(s, g), n.sqrTo(g, s), h -= 2;
                    h > 0 ? n.sqrTo(s, g) : (v = s, s = g, g = v), n.mulTo(g, u[p], s)
                }
                for (; y >= 0 && 0 == (t[y] & 1 << o);) n.sqrTo(s, g), v = s, s = g, g = v, --o < 0 && (o = this.DB - 1, --y)
            }
            return n.revert(s)
        }

        function Yt(t) {
            var i = this.s < 0 ? this.negate() : this.clone(), r = t.s < 0 ? t.negate() : t.clone();
            if (i.compareTo(r) < 0) {
                var e = i;
                i = r, r = e
            }
            var n = i.getLowestSetBit(), o = r.getLowestSetBit();
            if (o < 0) return i;
            for (n < o && (o = n), o > 0 && (i.rShiftTo(o, i), r.rShiftTo(o, r)); i.signum() > 0;) (n = i.getLowestSetBit()) > 0 && i.rShiftTo(n, i), (n = r.getLowestSetBit()) > 0 && r.rShiftTo(n, r), i.compareTo(r) >= 0 ? (i.subTo(r, i), i.rShiftTo(1, i)) : (r.subTo(i, r), r.rShiftTo(1, r));
            return o > 0 && r.lShiftTo(o, r), r
        }

        function Jt(t) {
            if (t <= 0) return 0;
            var i = this.DV % t, r = this.s < 0 ? t - 1 : 0;
            if (this.t > 0) if (0 == i) r = this[0] % t; else for (var e = this.t - 1; e >= 0; --e) r = (i * r + this[e]) % t;
            return r
        }

        function Qt(t) {
            var i = t.isEven();
            if (this.isEven() && i || 0 == t.signum()) return r.ZERO;
            for (var e = t.clone(), n = this.clone(), o = l(1), s = l(0), u = l(0), h = l(1); 0 != e.signum();) {
                for (; e.isEven();) e.rShiftTo(1, e), i ? (o.isEven() && s.isEven() || (o.addTo(this, o), s.subTo(t, s)), o.rShiftTo(1, o)) : s.isEven() || s.subTo(t, s), s.rShiftTo(1, s);
                for (; n.isEven();) n.rShiftTo(1, n), i ? (u.isEven() && h.isEven() || (u.addTo(this, u), h.subTo(t, h)), u.rShiftTo(1, u)) : h.isEven() || h.subTo(t, h), h.rShiftTo(1, h);
                e.compareTo(n) >= 0 ? (e.subTo(n, e), i && o.subTo(u, o), s.subTo(h, s)) : (n.subTo(e, n), i && u.subTo(o, u), h.subTo(s, h))
            }
            return 0 != n.compareTo(r.ONE) ? r.ZERO : h.compareTo(t) >= 0 ? h.subtract(t) : h.signum() < 0 ? (h.addTo(t, h), h.signum() < 0 ? h.add(t) : h) : h
        }

        function Wt(t) {
            var i, r = this.abs();
            if (1 == r.t && r[0] <= yi[yi.length - 1]) {
                for (i = 0; i < yi.length; ++i) if (r[0] == yi[i]) return !0;
                return !1
            }
            if (r.isEven()) return !1;
            for (i = 1; i < yi.length;) {
                for (var e = yi[i], n = i + 1; n < yi.length && e < mi;) e *= yi[n++];
                for (e = r.modInt(e); i < n;) if (e % yi[i++] == 0) return !1
            }
            return r.millerRabin(t)
        }

        function $t(t) {
            var i = this.subtract(r.ONE), n = i.getLowestSetBit();
            if (n <= 0) return !1;
            var o = i.shiftRight(n);
            (t = t + 1 >> 1) > yi.length && (t = yi.length);
            for (var s = e(), u = 0; u < t; ++u) {
                s.fromInt(yi[Math.floor(Math.random() * yi.length)]);
                var h = s.modPow(o, this);
                if (0 != h.compareTo(r.ONE) && 0 != h.compareTo(i)) {
                    for (var a = 1; a++ < n && 0 != h.compareTo(i);) if (h = h.modPowInt(2, this), 0 == h.compareTo(r.ONE)) return !1;
                    if (0 != h.compareTo(i)) return !1
                }
            }
            return !0
        }

        function ti(t) {
            di[Ti++] ^= 255 & t, di[Ti++] ^= t >> 8 & 255, di[Ti++] ^= t >> 16 & 255, di[Ti++] ^= t >> 24 & 255, Ti >= wi && (Ti -= wi)
        }

        function ii() {
            ti((new Date).getTime())
        }

        function ri() {
            if (null == gi) {
                for (ii(), gi = hi(), gi.init(di), Ti = 0; Ti < di.length; ++Ti) di[Ti] = 0;
                Ti = 0
            }
            return gi.next()
        }

        function ei(t) {
            var i;
            for (i = 0; i < t.length; ++i) t[i] = ri()
        }

        function ni() {
        }

        function oi() {
            this.i = 0, this.j = 0, this.S = new Array
        }

        function si(t) {
            var i, r, e;
            for (i = 0; i < 256; ++i) this.S[i] = i;
            for (r = 0, i = 0; i < 256; ++i) r = r + this.S[i] + t[i % t.length] & 255, e = this.S[i], this.S[i] = this.S[r], this.S[r] = e;
            this.i = 0, this.j = 0
        }

        function ui() {
            var t;
            return this.i = this.i + 1 & 255, this.j = this.j + this.S[this.i] & 255, t = this.S[this.i], this.S[this.i] = this.S[this.j], this.S[this.j] = t, this.S[t + this.S[this.i] & 255]
        }

        function hi() {
            return new oi
        }

        var ai, fi = "undefined" != typeof navigator;
        fi && "Microsoft Internet Explorer" == navigator.appName ? (r.prototype.am = o, ai = 30) : fi && "Netscape" != navigator.appName ? (r.prototype.am = n, ai = 26) : (r.prototype.am = s, ai = 28), r.prototype.DB = ai, r.prototype.DM = (1 << ai) - 1, r.prototype.DV = 1 << ai;
        r.prototype.FV = Math.pow(2, 52), r.prototype.F1 = 52 - ai, r.prototype.F2 = 2 * ai - 52;
        var li, ci, pi = "0123456789abcdefghijklmnopqrstuvwxyz", vi = new Array;
        for (li = "0".charCodeAt(0), ci = 0; ci <= 9; ++ci) vi[li++] = ci;
        for (li = "a".charCodeAt(0), ci = 10; ci < 36; ++ci) vi[li++] = ci;
        for (li = "A".charCodeAt(0), ci = 10; ci < 36; ++ci) vi[li++] = ci;
        q.prototype.convert = O, q.prototype.revert = A, q.prototype.reduce = R, q.prototype.mulTo = M, q.prototype.sqrTo = P, k.prototype.convert = V, k.prototype.revert = H, k.prototype.reduce = N, k.prototype.mulTo = z, k.prototype.sqrTo = L, r.prototype.copyTo = a, r.prototype.fromInt = f, r.prototype.fromString = c, r.prototype.clamp = p, r.prototype.dlShiftTo = F, r.prototype.drShiftTo = b, r.prototype.lShiftTo = B, r.prototype.rShiftTo = w, r.prototype.subTo = x, r.prototype.multiplyTo = D, r.prototype.squareTo = S, r.prototype.divRemTo = I, r.prototype.invDigit = C, r.prototype.isEven = j, r.prototype.exp = Z, r.prototype.toString = v, r.prototype.negate = y, r.prototype.abs = m, r.prototype.compareTo = g, r.prototype.bitLength = T, r.prototype.mod = E, r.prototype.modPowInt = _, r.ZERO = l(0), r.ONE = l(1), Ct.prototype.convert = kt, Ct.prototype.revert = kt, Ct.prototype.mulTo = Vt, Ct.prototype.sqrTo = Ht, jt.prototype.convert = Zt, jt.prototype.revert = _t, jt.prototype.reduce = Kt, jt.prototype.mulTo = Xt, jt.prototype.sqrTo = Ut;
        var yi = [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],
            mi = (1 << 26) / yi[yi.length - 1];
        r.prototype.chunkSize = Y, r.prototype.toRadix = Q, r.prototype.fromRadix = W, r.prototype.fromNumber = $, r.prototype.bitwiseTo = nt, r.prototype.changeBit = bt, r.prototype.addTo = Dt, r.prototype.dMultiply = Mt, r.prototype.dAddOffset = Pt, r.prototype.multiplyLowerTo = Lt, r.prototype.multiplyUpperTo = zt, r.prototype.modInt = Jt, r.prototype.millerRabin = $t, r.prototype.clone = K, r.prototype.intValue = U, r.prototype.byteValue = X, r.prototype.shortValue = G, r.prototype.signum = J, r.prototype.toByteArray = tt, r.prototype.equals = it, r.prototype.min = rt, r.prototype.max = et, r.prototype.and = st, r.prototype.or = ht, r.prototype.xor = ft, r.prototype.andNot = ct, r.prototype.not = pt, r.prototype.shiftLeft = vt, r.prototype.shiftRight = yt, r.prototype.getLowestSetBit = gt, r.prototype.bitCount = Tt, r.prototype.testBit = Ft, r.prototype.setBit = Bt, r.prototype.clearBit = wt, r.prototype.flipBit = xt, r.prototype.add = St, r.prototype.subtract = It, r.prototype.multiply = Et, r.prototype.divide = Ot, r.prototype.remainder = At, r.prototype.divideAndRemainder = Rt, r.prototype.modPow = Gt, r.prototype.modInverse = Qt, r.prototype.pow = Nt, r.prototype.gcd = Yt, r.prototype.isProbablePrime = Wt, r.prototype.square = qt, r.prototype.Barrett = jt;
        var gi, di, Ti;
        if (null == di) {
            di = new Array, Ti = 0;
            var Fi;
            if ("undefined" != typeof window && window.crypto) if (window.crypto.getRandomValues) {
                var bi = new Uint8Array(32);
                for (window.crypto.getRandomValues(bi), Fi = 0; Fi < 32; ++Fi) di[Ti++] = bi[Fi]
            } else if ("Netscape" == navigator.appName && navigator.appVersion < "5") {
                var Bi = window.crypto.random(32);
                for (Fi = 0; Fi < Bi.length; ++Fi) di[Ti++] = 255 & Bi.charCodeAt(Fi)
            }
            for (; Ti < wi;) Fi = Math.floor(65536 * Math.random()), di[Ti++] = Fi >>> 8, di[Ti++] = 255 & Fi;
            Ti = 0, ii()
        }
        ni.prototype.nextBytes = ei, oi.prototype.init = si, oi.prototype.next = ui;
        var wi = 256;
        i = t.exports = {default: r, BigInteger: r, SecureRandom: ni}
    }).call(this)
}, function (t, i, r) {
    "use strict";

    function e(t, i) {
        for (var r = [], e = ~~(i / 8), n = i % 8, o = 0, s = t.length; o < s; o++) r[o] = (t[(o + e) % s] << n & 255) + (t[(o + e + 1) % s] >>> 8 - n & 255);
        return r
    }

    function n(t, i) {
        for (var r = [], e = t.length - 1; e >= 0; e--) r[e] = 255 & (t[e] ^ i[e]);
        return r
    }

    function o(t, i) {
        for (var r = [], e = t.length - 1; e >= 0; e--) r[e] = t[e] & i[e] & 255;
        return r
    }

    function s(t, i) {
        for (var r = [], e = t.length - 1; e >= 0; e--) r[e] = 255 & (t[e] | i[e]);
        return r
    }

    function u(t, i) {
        for (var r = [], e = 0, n = t.length - 1; n >= 0; n--) {
            var o = t[n] + i[n] + e;
            o > 255 ? (e = 1, r[n] = 255 & o) : (e = 0, r[n] = 255 & o)
        }
        return r
    }

    function h(t) {
        for (var i = [], r = t.length - 1; r >= 0; r--) i[r] = 255 & ~t[r];
        return i
    }

    function a(t) {
        return n(n(t, e(t, 9)), e(t, 17))
    }

    function f(t) {
        return n(n(t, e(t, 15)), e(t, 23))
    }

    function l(t, i, r, e) {
        return e >= 0 && e <= 15 ? n(n(t, i), r) : s(s(o(t, i), o(t, r)), o(i, r))
    }

    function c(t, i, r, e) {
        return e >= 0 && e <= 15 ? n(n(t, i), r) : s(o(t, i), o(h(t), r))
    }

    function p(t, i) {
        for (var r = [], o = [], s = 0; s < 16; s++) {
            var h = 4 * s;
            r.push(i.slice(h, h + 4))
        }
        for (var p = 16; p < 68; p++) r.push(n(n(f(n(n(r[p - 16], r[p - 9]), e(r[p - 3], 15))), e(r[p - 13], 7)), r[p - 6]));
        for (var v = 0; v < 64; v++) o.push(n(r[v], r[v + 4]));
        for (var y = [121, 204, 69, 25], m = [122, 135, 157, 138], g = t.slice(0, 4), d = t.slice(4, 8), T = t.slice(8, 12), F = t.slice(12, 16), b = t.slice(16, 20), B = t.slice(20, 24), w = t.slice(24, 28), x = t.slice(28, 32), D = void 0, S = void 0, I = void 0, E = void 0, q = 0; q < 64; q++) {
            var O = q >= 0 && q <= 15 ? y : m;
            D = e(u(u(e(g, 12), b), e(O, q)), 7), S = n(D, e(g, 12)), I = u(u(u(l(g, d, T, q), F), S), o[q]), E = u(u(u(c(b, B, w, q), x), D), r[q]), F = T, T = e(d, 9), d = g, g = I, x = w, w = e(B, 19), B = b, b = a(E)
        }
        return n([].concat(g, d, T, F, b, B, w, x), t)
    }

    t.exports = function (t) {
        var i = 8 * t.length, r = i % 512;
        r = r >= 448 ? 512 - r % 448 - 1 : 448 - r - 1;
        for (var e = new Array((r - 7) / 8), n = 0, o = e.length; n < o; n++) e[n] = 0;
        var s = [];
        i = i.toString(2);
        for (var u = 7; u >= 0; u--) if (i.length > 8) {
            var h = i.length - 8;
            s[u] = parseInt(i.substr(h), 2), i = i.substr(0, h)
        } else i.length > 0 ? (s[u] = parseInt(i, 2), i = "") : s[u] = 0;
        for (var a = [].concat(t, [128], e, s), f = a.length / 64, l = [115, 128, 22, 111, 73, 20, 178, 185, 23, 36, 66, 215, 218, 138, 6, 0, 169, 111, 48, 188, 22, 49, 56, 170, 227, 141, 238, 77, 176, 251, 14, 78], c = 0; c < f; c++) {
            var v = 64 * c;
            l = p(l, a.slice(v, v + 64))
        }
        return l
    }
}, function (t, i, r) {
    "use strict";

    function e(t) {
        if (Array.isArray(t)) {
            for (var i = 0, r = Array(t.length); i < t.length; i++) r[i] = t[i];
            return r
        }
        return Array.from(t)
    }

    function n(t, i) {
        var r = arguments.length > 2 && void 0 !== arguments[2] ? arguments[2] : 1;
        t = m.hexToArray(m.utf8ToHex(t)), i = m.getGlobalCurve().decodePointHex(i);
        var n = m.generateKeyPairHex(), o = new c(n.privateKey, 16), s = n.publicKey;
        s.length > 128 && (s = s.substr(s.length - 128));
        var u = i.multiply(o), h = m.hexToArray(m.leftPad(u.getX().toBigInteger().toRadix(16), 64)),
            a = m.hexToArray(m.leftPad(u.getY().toBigInteger().toRadix(16), 64)),
            f = m.arrayToHex(g([].concat(h, t, a))), l = 1, p = 0, v = [], y = [].concat(h, a), d = function () {
                v = g([].concat(e(y), [l >> 24 & 255, l >> 16 & 255, l >> 8 & 255, 255 & l])), l++, p = 0
            };
        d();
        for (var T = 0, F = t.length; T < F; T++) p === v.length && d(), t[T] ^= 255 & v[p++];
        var b = m.arrayToHex(t);
        return r === B ? s + b + f : s + f + b
    }

    function o(t, i) {
        var r = arguments.length > 2 && void 0 !== arguments[2] ? arguments[2] : 1;
        i = new c(i, 16);
        var n = t.substr(128, 64), o = t.substr(192);
        r === B && (n = t.substr(t.length - 64), o = t.substr(128, t.length - 128 - 64));
        var s = m.hexToArray(o), u = m.getGlobalCurve().decodePointHex("04" + t.substr(0, 128)), h = u.multiply(i),
            a = m.hexToArray(m.leftPad(h.getX().toBigInteger().toRadix(16), 64)),
            f = m.hexToArray(m.leftPad(h.getY().toBigInteger().toRadix(16), 64)), l = 1, p = 0, v = [],
            y = [].concat(a, f), d = function () {
                v = g([].concat(e(y), [l >> 24 & 255, l >> 16 & 255, l >> 8 & 255, 255 & l])), l++, p = 0
            };
        d();
        for (var T = 0, F = s.length; T < F; T++) p === v.length && d(), s[T] ^= 255 & v[p++];
        return m.arrayToHex(g([].concat(a, s, f))) === n ? m.arrayToUtf8(s) : ""
    }

    function s(t, i) {
        var r = arguments.length > 2 && void 0 !== arguments[2] ? arguments[2] : {}, e = r.pointPool, n = r.der,
            o = r.hash, s = r.publicKey, u = r.userId, l = "string" == typeof t ? m.utf8ToHex(t) : m.arrayToHex(t);
        o && (s = s || a(i), l = h(l, s, u));
        var p = new c(i, 16), y = new c(l, 16), g = null, d = null, T = null;
        do {
            do {
                var F = void 0;
                F = e && e.length ? e.pop() : f(), g = F.k, d = y.add(F.x1).mod(b)
            } while (d.equals(c.ZERO) || d.add(g).equals(b));
            T = p.add(c.ONE).modInverse(b).multiply(g.subtract(d.multiply(p))).mod(b)
        } while (T.equals(c.ZERO));
        return n ? v(d, T) : m.leftPad(d.toString(16), 64) + m.leftPad(T.toString(16), 64)
    }

    function u(t, i, r) {
        var e = arguments.length > 3 && void 0 !== arguments[3] ? arguments[3] : {}, n = e.der, o = e.hash,
            s = e.userId, u = "string" == typeof t ? m.utf8ToHex(t) : m.arrayToHex(t);
        o && (u = h(u, r, s));
        var a = void 0, f = void 0;
        if (n) {
            var l = y(i);
            a = l.r, f = l.s
        } else a = new c(i.substring(0, 64), 16), f = new c(i.substring(64), 16);
        var p = F.decodePointHex(r), v = new c(u, 16), g = a.add(f).mod(b);
        if (g.equals(c.ZERO)) return !1;
        var d = T.multiply(f).add(p.multiply(g)), B = v.add(d.getX().toBigInteger()).mod(b);
        return a.equals(B)
    }

    function h(t, i) {
        var r = arguments.length > 2 && void 0 !== arguments[2] ? arguments[2] : "1234567812345678";
        r = m.utf8ToHex(r);
        var e = m.leftPad(T.curve.a.toBigInteger().toRadix(16), 64),
            n = m.leftPad(T.curve.b.toBigInteger().toRadix(16), 64),
            o = m.leftPad(T.getX().toBigInteger().toRadix(16), 64),
            s = m.leftPad(T.getY().toBigInteger().toRadix(16), 64);
        i.length > 128 && (i = i.substr(2, 128));
        var u = i.substr(0, 64), h = i.substr(64, 64), a = m.hexToArray(r + e + n + o + s + u + h), f = 4 * r.length;
        a.unshift(255 & f), a.unshift(f >> 8 & 255);
        var l = g(a);
        return m.arrayToHex(g(l.concat(m.hexToArray(t))))
    }

    function a(t) {
        var i = T.multiply(new c(t, 16));
        return "04" + m.leftPad(i.getX().toBigInteger().toString(16), 64) + m.leftPad(i.getY().toBigInteger().toString(16), 64)
    }

    function f() {
        var t = m.generateKeyPairHex(), i = F.decodePointHex(t.publicKey);
        return t.k = new c(t.privateKey, 16), t.x1 = i.getX().toBigInteger(), t
    }

    var l = r(0), c = l.BigInteger, p = r(3), v = p.encodeDer, y = p.decodeDer, m = r(4), g = r(1),
        d = m.generateEcparam(), T = d.G, F = d.curve, b = d.n, B = 0;
    t.exports = {
        generateKeyPairHex: m.generateKeyPairHex,
        doEncrypt: n,
        doDecrypt: o,
        doSignature: s,
        doVerifySignature: u,
        getPoint: f
    }
}, function (t, i, r) {
    "use strict";

    function e(t, i) {
        if (!t) throw new ReferenceError("this hasn't been initialised - super() hasn't been called");
        return !i || "object" != typeof i && "function" != typeof i ? t : i
    }

    function n(t, i) {
        if ("function" != typeof i && null !== i) throw new TypeError("Super expression must either be null or a function, not " + typeof i);
        t.prototype = Object.create(i && i.prototype, {
            constructor: {
                value: t,
                enumerable: !1,
                writable: !0,
                configurable: !0
            }
        }), i && (Object.setPrototypeOf ? Object.setPrototypeOf(t, i) : t.__proto__ = i)
    }

    function o(t, i) {
        if (!(t instanceof i)) throw new TypeError("Cannot call a class as a function")
    }

    function s(t) {
        var i = t.toString(16);
        if ("-" !== i[0]) i.length % 2 == 1 ? i = "0" + i : i.match(/^[0-7]/) || (i = "00" + i); else {
            i = i.substr(1);
            var r = i.length;
            r % 2 == 1 ? r += 1 : i.match(/^[0-7]/) || (r += 2);
            for (var e = "", n = 0; n < r; n++) e += "f";
            e = new c(e, 16), i = e.xor(t).add(c.ONE), i = i.toString(16).replace(/^-/, "")
        }
        return i
    }

    function u(t, i) {
        return +t[i + 2] < 8 ? 1 : 128 & +t.substr(i + 2, 2)
    }

    function h(t, i) {
        var r = u(t, i), e = t.substr(i + 2, 2 * r);
        return e ? (+e[0] < 8 ? new c(e, 16) : new c(e.substr(2), 16)).intValue() : -1
    }

    function a(t, i) {
        return i + 2 * (u(t, i) + 1)
    }

    var f = function () {
        function t(t, i) {
            for (var r = 0; r < i.length; r++) {
                var e = i[r];
                e.enumerable = e.enumerable || !1, e.configurable = !0, "value" in e && (e.writable = !0), Object.defineProperty(t, e.key, e)
            }
        }

        return function (i, r, e) {
            return r && t(i.prototype, r), e && t(i, e), i
        }
    }(), l = r(0), c = l.BigInteger, p = function () {
        function t() {
            o(this, t), this.tlv = null, this.t = "00", this.l = "00", this.v = ""
        }

        return f(t, [{
            key: "getEncodedHex", value: function () {
                return this.tlv || (this.v = this.getValue(), this.l = this.getLength(), this.tlv = this.t + this.l + this.v), this.tlv
            }
        }, {
            key: "getLength", value: function () {
                var t = this.v.length / 2, i = t.toString(16);
                return i.length % 2 == 1 && (i = "0" + i), t < 128 ? i : (128 + i.length / 2).toString(16) + i
            }
        }, {
            key: "getValue", value: function () {
                return ""
            }
        }]), t
    }(), v = function (t) {
        function i(t) {
            o(this, i);
            var r = e(this, (i.__proto__ || Object.getPrototypeOf(i)).call(this));
            return r.t = "02", t && (r.v = s(t)), r
        }

        return n(i, t), f(i, [{
            key: "getValue", value: function () {
                return this.v
            }
        }]), i
    }(p), y = function (t) {
        function i(t) {
            o(this, i);
            var r = e(this, (i.__proto__ || Object.getPrototypeOf(i)).call(this));
            return r.t = "30", r.asn1Array = t, r
        }

        return n(i, t), f(i, [{
            key: "getValue", value: function () {
                return this.v = this.asn1Array.map(function (t) {
                    return t.getEncodedHex()
                }).join(""), this.v
            }
        }]), i
    }(p);
    t.exports = {
        encodeDer: function (t, i) {
            var r = new v(t), e = new v(i);
            return new y([r, e]).getEncodedHex()
        }, decodeDer: function (t) {
            var i = a(t, 0), r = a(t, i), e = h(t, i), n = t.substr(r, 2 * e), o = r + n.length, s = a(t, o),
                u = h(t, o), f = t.substr(s, 2 * u);
            return {r: new c(n, 16), s: new c(f, 16)}
        }
    }
}, function (t, i, r) {
    "use strict";

    function e() {
        return d
    }

    function n() {
        var t = new c("FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFF", 16),
            i = new c("FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF00000000FFFFFFFFFFFFFFFC", 16),
            r = new c("28E9FA9E9D9F5E344D5A9E4BCF6509A7F39789F515AB8F92DDBCBD414D940E93", 16), e = new y(t, i, r);
        return {
            curve: e,
            G: e.decodePointHex("0432C4AE2C1F1981195F9904466A39C9948FE30BBFF2660BE1715A4589334C74C7BC3736A2F4F6779C59BDCEE36B692153D0A9877CC62A474002DF32E52139F0A0"),
            n: new c("FFFFFFFEFFFFFFFFFFFFFFFFFFFFFFFF7203DF6B21C6052B53BBF40939D54123", 16)
        }
    }

    function o() {
        var t = new c(F.bitLength(), m).mod(F.subtract(c.ONE)).add(c.ONE), i = u(t.toString(16), 64), r = T.multiply(t);
        return {
            privateKey: i,
            publicKey: "04" + u(r.getX().toBigInteger().toString(16), 64) + u(r.getY().toBigInteger().toString(16), 64)
        }
    }

    function s(t) {
        t = unescape(encodeURIComponent(t));
        for (var i = t.length, r = [], e = 0; e < i; e++) r[e >>> 2] |= (255 & t.charCodeAt(e)) << 24 - e % 4 * 8;
        for (var n = [], o = 0; o < i; o++) {
            var s = r[o >>> 2] >>> 24 - o % 4 * 8 & 255;
            n.push((s >>> 4).toString(16)), n.push((15 & s).toString(16))
        }
        return n.join("")
    }

    function u(t, i) {
        return t.length >= i ? t : new Array(i - t.length + 1).join("0") + t
    }

    function h(t) {
        return t.map(function (t) {
            return t = t.toString(16), 1 === t.length ? "0" + t : t
        }).join("")
    }

    function a(t) {
        for (var i = [], r = 0, e = 0; e < 2 * t.length; e += 2) i[e >>> 3] |= parseInt(t[r], 10) << 24 - e % 8 * 4, r++;
        try {
            for (var n = [], o = 0; o < t.length; o++) {
                var s = i[o >>> 2] >>> 24 - o % 4 * 8 & 255;
                n.push(String.fromCharCode(s))
            }
            return decodeURIComponent(escape(n.join("")))
        } catch (t) {
            throw new Error("Malformed UTF-8 data")
        }
    }

    function f(t) {
        var i = [], r = t.length;
        r % 2 != 0 && (t = u(t, r + 1)), r = t.length;
        for (var e = 0; e < r; e += 2) i.push(parseInt(t.substr(e, 2), 16));
        return i
    }

    var l = r(0), c = l.BigInteger, p = l.SecureRandom, v = r(5), y = v.ECCurveFp, m = new p, g = n(), d = g.curve,
        T = g.G, F = g.n;
    t.exports = {
        getGlobalCurve: e,
        generateEcparam: n,
        generateKeyPairHex: o,
        utf8ToHex: s,
        leftPad: u,
        arrayToHex: h,
        arrayToUtf8: a,
        hexToArray: f
    }
}, function (t, i, r) {
    "use strict";

    function e(t, i) {
        if (!(t instanceof i)) throw new TypeError("Cannot call a class as a function")
    }

    var n = function () {
        function t(t, i) {
            for (var r = 0; r < i.length; r++) {
                var e = i[r];
                e.enumerable = e.enumerable || !1, e.configurable = !0, "value" in e && (e.writable = !0), Object.defineProperty(t, e.key, e)
            }
        }

        return function (i, r, e) {
            return r && t(i.prototype, r), e && t(i, e), i
        }
    }(), o = r(0), s = o.BigInteger, u = new s("3"), h = function () {
        function t(i, r) {
            e(this, t), this.x = r, this.q = i
        }

        return n(t, [{
            key: "equals", value: function (t) {
                return t === this || this.q.equals(t.q) && this.x.equals(t.x)
            }
        }, {
            key: "toBigInteger", value: function () {
                return this.x
            }
        }, {
            key: "negate", value: function () {
                return new t(this.q, this.x.negate().mod(this.q))
            }
        }, {
            key: "add", value: function (i) {
                return new t(this.q, this.x.add(i.toBigInteger()).mod(this.q))
            }
        }, {
            key: "subtract", value: function (i) {
                return new t(this.q, this.x.subtract(i.toBigInteger()).mod(this.q))
            }
        }, {
            key: "multiply", value: function (i) {
                return new t(this.q, this.x.multiply(i.toBigInteger()).mod(this.q))
            }
        }, {
            key: "divide", value: function (i) {
                return new t(this.q, this.x.multiply(i.toBigInteger().modInverse(this.q)).mod(this.q))
            }
        }, {
            key: "square", value: function () {
                return new t(this.q, this.x.square().mod(this.q))
            }
        }]), t
    }(), a = function () {
        function t(i, r, n, o) {
            e(this, t), this.curve = i, this.x = r, this.y = n, this.z = null == o ? s.ONE : o, this.zinv = null
        }

        return n(t, [{
            key: "getX", value: function () {
                return null === this.zinv && (this.zinv = this.z.modInverse(this.curve.q)), this.curve.fromBigInteger(this.x.toBigInteger().multiply(this.zinv).mod(this.curve.q))
            }
        }, {
            key: "getY", value: function () {
                return null === this.zinv && (this.zinv = this.z.modInverse(this.curve.q)), this.curve.fromBigInteger(this.y.toBigInteger().multiply(this.zinv).mod(this.curve.q))
            }
        }, {
            key: "equals", value: function (t) {
                return t === this || (this.isInfinity() ? t.isInfinity() : t.isInfinity() ? this.isInfinity() : !!t.y.toBigInteger().multiply(this.z).subtract(this.y.toBigInteger().multiply(t.z)).mod(this.curve.q).equals(s.ZERO) && t.x.toBigInteger().multiply(this.z).subtract(this.x.toBigInteger().multiply(t.z)).mod(this.curve.q).equals(s.ZERO))
            }
        }, {
            key: "isInfinity", value: function () {
                return null === this.x && null === this.y || this.z.equals(s.ZERO) && !this.y.toBigInteger().equals(s.ZERO)
            }
        }, {
            key: "negate", value: function () {
                return new t(this.curve, this.x, this.y.negate(), this.z)
            }
        }, {
            key: "add", value: function (i) {
                if (this.isInfinity()) return i;
                if (i.isInfinity()) return this;
                var r = this.x.toBigInteger(), e = this.y.toBigInteger(), n = this.z, o = i.x.toBigInteger(),
                    u = i.y.toBigInteger(), h = i.z, a = this.curve.q, f = r.multiply(h).mod(a),
                    l = o.multiply(n).mod(a), c = f.subtract(l), p = e.multiply(h).mod(a), v = u.multiply(n).mod(a),
                    y = p.subtract(v);
                if (s.ZERO.equals(c)) return s.ZERO.equals(y) ? this.twice() : this.curve.infinity;
                var m = f.add(l), g = n.multiply(h).mod(a), d = c.square().mod(a), T = c.multiply(d).mod(a),
                    F = g.multiply(y.square()).subtract(m.multiply(d)).mod(a), b = c.multiply(F).mod(a),
                    B = y.multiply(d.multiply(f).subtract(F)).subtract(p.multiply(T)).mod(a), w = T.multiply(g).mod(a);
                return new t(this.curve, this.curve.fromBigInteger(b), this.curve.fromBigInteger(B), w)
            }
        }, {
            key: "twice", value: function () {
                if (this.isInfinity()) return this;
                if (!this.y.toBigInteger().signum()) return this.curve.infinity;
                var i = this.x.toBigInteger(), r = this.y.toBigInteger(), e = this.z, n = this.curve.q,
                    o = this.curve.a.toBigInteger(), s = i.square().multiply(u).add(o.multiply(e.square())).mod(n),
                    h = r.shiftLeft(1).multiply(e).mod(n), a = r.square().mod(n), f = a.multiply(i).multiply(e).mod(n),
                    l = h.square().mod(n), c = s.square().subtract(f.shiftLeft(3)).mod(n), p = h.multiply(c).mod(n),
                    v = s.multiply(f.shiftLeft(2).subtract(c)).subtract(l.shiftLeft(1).multiply(a)).mod(n),
                    y = h.multiply(l).mod(n);
                return new t(this.curve, this.curve.fromBigInteger(p), this.curve.fromBigInteger(v), y)
            }
        }, {
            key: "multiply", value: function (t) {
                if (this.isInfinity()) return this;
                if (!t.signum()) return this.curve.infinity;
                for (var i = t.multiply(u), r = this.negate(), e = this, n = i.bitLength() - 2; n > 0; n--) {
                    e = e.twice();
                    var o = i.testBit(n);
                    o !== t.testBit(n) && (e = e.add(o ? this : r))
                }
                return e
            }
        }]), t
    }(), f = function () {
        function t(i, r, n) {
            e(this, t), this.q = i, this.a = this.fromBigInteger(r), this.b = this.fromBigInteger(n), this.infinity = new a(this, null, null)
        }

        return n(t, [{
            key: "equals", value: function (t) {
                return t === this || this.q.equals(t.q) && this.a.equals(t.a) && this.b.equals(t.b)
            }
        }, {
            key: "fromBigInteger", value: function (t) {
                return new h(this.q, t)
            }
        }, {
            key: "decodePointHex", value: function (t) {
                switch (parseInt(t.substr(0, 2), 16)) {
                    case 0:
                        return this.infinity;
                    case 2:
                    case 3:
                        return null;
                    case 4:
                    case 6:
                    case 7:
                        var i = (t.length - 2) / 2, r = t.substr(2, i), e = t.substr(i + 2, i);
                        return new a(this, this.fromBigInteger(new s(r, 16)), this.fromBigInteger(new s(e, 16)));
                    default:
                        return null
                }
            }
        }]), t
    }();
    t.exports = {ECPointFp: a, ECCurveFp: f}
}]);

实现步骤

<script src='sm2.js'></script>
//sm2加密
var doEncrypt = '04' + sm2.doEncrypt(Tools.json2str(params), publicKey, 0);
console.log("加密数据:", doEncrypt );
var doDecrypt = sm2.doDecrypt(jsonData.dataHex.substr(2), Global.SM2_PRIVAREKEY, 0);
console.log("解密数据:", doDecrypt);

java

package com.kayak.mtl.util;

import cn.hutool.core.util.HexUtil;
import cn.hutool.crypto.BCUtil;
import cn.hutool.crypto.SmUtil;
import cn.hutool.crypto.asymmetric.SM2;
import com.alibaba.fastjson.JSON;
import com.alibaba.fastjson.JSONObject;
import com.kayak.web.base.exception.KPromptException;
import com.kayak.web.base.system.Global;
import org.apache.commons.lang.StringUtils;
import org.apache.log4j.Logger;
import org.bouncycastle.asn1.gm.GMNamedCurves;
import org.bouncycastle.asn1.x9.X9ECParameters;
import org.bouncycastle.crypto.AsymmetricCipherKeyPair;
import org.bouncycastle.crypto.InvalidCipherTextException;
import org.bouncycastle.crypto.engines.SM2Engine;
import org.bouncycastle.crypto.generators.ECKeyPairGenerator;
import org.bouncycastle.crypto.params.ECDomainParameters;
import org.bouncycastle.crypto.params.ECKeyGenerationParameters;
import org.bouncycastle.crypto.params.ECPrivateKeyParameters;
import org.bouncycastle.crypto.params.ECPublicKeyParameters;
import org.bouncycastle.crypto.signers.PlainDSAEncoding;
import org.bouncycastle.jcajce.provider.asymmetric.ec.BCECPublicKey;
import org.bouncycastle.math.ec.ECPoint;
import org.bouncycastle.util.encoders.Hex;

import java.math.BigInteger;
import java.nio.charset.StandardCharsets;
import java.security.NoSuchAlgorithmException;
import java.security.SecureRandom;
import java.util.Base64;
import java.util.Map;

/**
 * SM2工具类
 */
public class SM2Utils {

    private static Logger log = Logger.getLogger(SM2Utils.class);

    /**
     * 验密验签逻辑
     *
     * @param parameters
     * @return
     * @throws KPromptException
     */
    public static Map sm2Md5Check(Map parameters) throws KPromptException {
        try {
            // 验密验签
            // 默认验签失败
            boolean verify = false;
            // sm2加签信息
            String md5 = (String) parameters.get("sign");
            // sm2加密信息
            String cipherData = (String) parameters.get("dataHex");
            // 获取md5盐
            String md5Slat = Global.getGlobalConf("Global.md5_slat");
            // 获取时间
            String timestamp = (String) parameters.get("timestamp");
            // 加密私钥
            String privateKey = Global.getGlobalConf("Global.PRIVATE_KEY");

            //判断加签信息是否为空,不为空则验签!
            if (!StringUtils.isEmpty(md5) && !StringUtils.isEmpty(cipherData) &&
                    !StringUtils.isEmpty(md5Slat) && !StringUtils.isEmpty(timestamp)) {
                //校验时间戳(毫秒)
                long limit = System.currentTimeMillis() - Long.parseLong(timestamp);
                if (limit > 2000) {
                    throw new KPromptException("验签失败,无效时间戳!");
                }

                // 解密  备注解密后明文数据
                String requestParam = SM2SecrityUtils.decrypt(privateKey, cipherData);
                log.info("解密后的明文数据:" + requestParam);
                //md5验签
                String chkMd5 = Md5Utils.md5Secret(requestParam, md5Slat);
                log.info("md5验签: " + chkMd5);
                log.info("md5加签: " + md5);
                if (!StringUtils.isEmpty(chkMd5) && StringUtils.equals(md5, chkMd5)) {
                    // 校验通过
                    verify = true;
                    // 解密后将json串转为map替换params参数
                    parameters = JSON.parseObject(requestParam, Map.class);
                }
                // 验签失败
                if (!verify) {
                    throw new KPromptException("验签失败!");
                }

            }
        } catch (KPromptException e) {
            throw new KPromptException(e.getMessage());
        } catch (Exception e) {
            throw new KPromptException("验密验签流程处理失败!");
        }
        return parameters;
    }


    /**
     * 加密加签
     *
     * @return 加密加签后结果数据
     */
    public static Map sm2Md5Sign(Map parameters, Map respMap) throws KPromptException {
        // 获取md5盐
        String md5Slat = Global.getGlobalConf("Global.md5_slat");
        // 加密公钥
        String publicKey = Global.getGlobalConf("Global.SM2_PUBLIC_KEY");

        if (md5Slat.isEmpty() || publicKey.isEmpty()) {
            throw new KPromptException("加密加签参数信息获取失败!");
        }

        // 请求参数
        String data = JSONObject.toJSONString(parameters);
        log.info("请求参数:" + data);
        // 加签
        if (!StringUtils.isEmpty(data)) {
            // md5加签
            String signVal = Md5Utils.md5Secret(data, md5Slat);
            respMap.put("sign", signVal);
            log.info("md5加签:" + signVal);
        }

        String encrypt = "";
        // 加密
        if (!StringUtils.isEmpty(publicKey) && !StringUtils.isEmpty(data)) {
            encrypt = SM2SecrityUtils.encrypt(publicKey, data);
            respMap.put("dataHex", encrypt);
            log.info("sm2加密串:" + encrypt);
        }

        // 时间戳
        respMap.put("timestamp", String.valueOf(System.currentTimeMillis()));

        return respMap;
    }


    /**
     * sm2 解密 (前端js实现加密,后台Java实现解密)
     *
     * @param cipherData 加密数据
     * @param privateKey 解密私钥
     * @return 解密后的结果数据
     */
    public static String sm2Decrypt(String cipherData, String privateKey) throws KPromptException {
        //processBlock得到Base64格式,记得解码
        byte[] arrayOfBytes = new byte[0];
        try {
            byte[] cipherDataByte = Hex.decode(cipherData);

            //刚才的私钥Hex,先还原私钥
            BigInteger privateKeyD = new BigInteger(privateKey, 16);

            X9ECParameters sm2ECParameters = GMNamedCurves.getByName("sm2p256v1");
            ECDomainParameters domainParameters = new ECDomainParameters(sm2ECParameters.getCurve(), sm2ECParameters.getG(), sm2ECParameters.getN());
            ECPrivateKeyParameters privateKeyParameters = new ECPrivateKeyParameters(privateKeyD, domainParameters);

            //用私钥解密
            SM2Engine sm2Engine = new SM2Engine();
            sm2Engine.init(false, privateKeyParameters);

            try {
                arrayOfBytes = Base64.getDecoder().decode(sm2Engine.processBlock(cipherDataByte, 0, cipherDataByte.length));
            } catch (InvalidCipherTextException e) {
                e.printStackTrace();
            }

            //得到明文:SM2 Encryption Test
            String data = new String(arrayOfBytes);
            log.info("解密后明文数据:" + data);

        } catch (Exception e) {
            throw new KPromptException("sm2解密失败!");
        }
        return new String(arrayOfBytes);
    }

    /**
     * sm2 加签
     */
    public static String signSm2Key(String privateKey, String text) {
        //需要加密的明文,得到明文对应的字节数组
        byte[] dataBytes = text.getBytes();
        //创建sm2 对象
        ECPrivateKeyParameters privateKeyParameters = BCUtil.toSm2Params(privateKey);
        //创建sm2 对象
        SM2 sm2 = new SM2(privateKeyParameters, null);
        //这里需要手动设置,sm2 对象的默认值我们期望的不一致 , 使用明文编码
        sm2.usePlainEncoding();
        sm2.setMode(SM2Engine.Mode.C1C2C3);
        byte[] sign = sm2.sign(dataBytes, null);
        log.debug("data: " + HexUtil.encodeHexStr(dataBytes));
        log.debug("sign: " + HexUtil.encodeHexStr(sign));
        return HexUtil.encodeHexStr(sign);

    }


    /**
     * sm2 验签
     *
     * @param publicKeyHex 验签公钥
     * @param data         明文数据
     * @param signHex      加签数据
     * @return 验签结果
     */
    public static boolean verify(String publicKeyHex, String data, String signHex) throws KPromptException {
        boolean verify = false;
        try {
            //这里需要根据公钥的长度进行加工
            if (publicKeyHex.length() == 130) {
                //这里需要去掉开始第一个字节 第一个字节表示标记
                publicKeyHex = publicKeyHex.substring(2);
            }
            String xhex = publicKeyHex.substring(0, 64);
            String yhex = publicKeyHex.substring(64, 128);
            ECPublicKeyParameters ecPublicKeyParameters = BCUtil.toSm2Params(xhex, yhex);
            //创建sm2 对象
            SM2 sm2 = new SM2(null, ecPublicKeyParameters);
            //这里需要手动设置,sm2 对象的默认值我们期望的不一致 , 使用明文编码
            sm2.usePlainEncoding();
            sm2.setMode(SM2Engine.Mode.C1C2C3); // 非标准模式
            verify = sm2.verify(data.getBytes(), HexUtil.decodeHex(signHex));
            log.info("sm2验签结果: " + verify);
        } catch (Exception e) {
            throw new KPromptException("sm2验签失败!");
        }

        return verify;
    }

    /**
     * SM2加密解密生成公钥私钥 测试方法
     *
     * @return
     * @throws NoSuchAlgorithmException
     */
    public void sm2Encode() throws NoSuchAlgorithmException {

        X9ECParameters sm2ECParameters = GMNamedCurves.getByName("sm2p256v1");
        ECDomainParameters domainParameters = new ECDomainParameters(sm2ECParameters.getCurve(), sm2ECParameters.getG(), sm2ECParameters.getN());
        ECKeyPairGenerator keyPairGenerator = new ECKeyPairGenerator();
        keyPairGenerator.init(new ECKeyGenerationParameters(domainParameters, SecureRandom.getInstance("SHA1PRNG")));
        AsymmetricCipherKeyPair asymmetricCipherKeyPair = keyPairGenerator.generateKeyPair();

        //上面的代码都是直接用maven依赖中的包直接import就可以用了
        //还有一些更底层写法可以自己搜索一下,图方便的这个挺好的


        //私钥,16进制格式,自己保存
        BigInteger privatekey = ((ECPrivateKeyParameters) asymmetricCipherKeyPair.getPrivate()).getD();
        String privateKeyHex = privatekey.toString(16);
        System.out.println("private Key :" + privateKeyHex);

        //公钥,16进制格式,发给前端
        ECPoint ecPoint = ((ECPublicKeyParameters) asymmetricCipherKeyPair.getPublic()).getQ();
        String publicKeyHex = Hex.toHexString(ecPoint.getEncoded(false));
        System.out.println("Public Key :" + publicKeyHex);

    }

    /**
     * sm2 加签验签生成公钥私钥测试 测试方法
     */
    public static void createSm2Key() {
        //需要加密的明文
        String text = "{"api":"TG00902", "method":"post", "query_begin_line":0, "query_num":10, "SYSTEM_MENUNAME":"产品信息设置"}";
        //创建sm2 对象
        SM2 sm2 = SmUtil.sm2();
        //这里会自动生成对应的随机秘钥对 , 注意! 这里一定要强转,才能得到对应有效的秘钥信息
        byte[] privateKey = BCUtil.encodeECPrivateKey(sm2.getPrivateKey());
        //这里公钥不压缩  公钥的第一个字节用于表示是否压缩  可以不要
        byte[] publicKey = ((BCECPublicKey) sm2.getPublicKey()).getQ().getEncoded(false);
        //这里得到的 压缩后的公钥   ((BCECPublicKey) sm2.getPublicKey()).getQ().getEncoded(true);
        byte[] publicKeyEc = BCUtil.encodeECPublicKey(sm2.getPublicKey());
        //打印当前的公私秘钥
        System.out.println("私钥: " + HexUtil.encodeHexStr(privateKey));
        System.out.println("公钥: " + HexUtil.encodeHexStr(publicKey));
        //得到明文对应的字节数组
        byte[] dateBytes = text.getBytes();
        System.out.println("数据: " + HexUtil.encodeHexStr(dateBytes));
        //这里需要手动设置,sm2 对象的默认值我们期望的不一致
        sm2.setMode(SM2Engine.Mode.C1C2C3);
        sm2.setEncoding(new PlainDSAEncoding());
        //计算签名
        byte[] sign = sm2.sign(dateBytes, null);
        System.out.println("签名: " + HexUtil.encodeHexStr(sign));
        // 校验  验签
        boolean verify = sm2.verify(dateBytes, sign);
        System.out.println(verify);
    }

    /**
     * 指定私钥签名测试
     */
    public static String sign(String privateKeyHex, String data) {
        //指定的私钥
//        String privateKeyHex = "3a6e3fe10746cc790f57fbfb09e99979f18eb28a100b786af007b6f2e214ca42";
        //需要加密的明文,得到明文对应的字节数组
//        byte[] dataBytes = "我是一段测试".getBytes();
        ECPrivateKeyParameters privateKeyParameters = BCUtil.toSm2Params(privateKeyHex);
        //创建sm2 对象
        SM2 sm2 = new SM2(privateKeyParameters, null);
        //这里需要手动设置,sm2 对象的默认值我们期望的不一致 , 使用明文编码
        sm2.usePlainEncoding();
        sm2.setMode(SM2Engine.Mode.C1C2C3);
        byte[] sign = sm2.sign(data.getBytes(), null);
        System.out.println("data: " + HexUtil.encodeHexStr(data.getBytes(StandardCharsets.UTF_8)));
        System.out.println("sign: " + HexUtil.encodeHexStr(sign));
        return HexUtil.encodeHexStr(sign);
    }


    /**
     * 指定私钥签名测试
     */
    public static String signPoint() {
        //指定的私钥
        String privateKeyHex = "3a6e3fe10746cc790f57fbfb09e99979f18eb28a100b786af007b6f2e214ca42";
        //需要加密的明文,得到明文对应的字节数组
        byte[] dataBytes = "{"api":"TG00902", "method":"post", "query_begin_line":0, "query_num":10, "SYSTEM_MENUNAME":"产品信息设置"}".getBytes();
        ECPrivateKeyParameters privateKeyParameters = BCUtil.toSm2Params(privateKeyHex);
        //创建sm2 对象
        SM2 sm2 = new SM2(privateKeyParameters, null);
        //这里需要手动设置,sm2 对象的默认值我们期望的不一致 , 使用明文编码
        sm2.usePlainEncoding();
        sm2.setMode(SM2Engine.Mode.C1C2C3);
        byte[] sign = sm2.sign(dataBytes, null);
        System.out.println("data: " + HexUtil.encodeHexStr(dataBytes));
        System.out.println("sign: " + HexUtil.encodeHexStr(sign));
        return HexUtil.encodeHexStr(sign);
    }

    /**
     * 指定私钥签名测试
     */
    public static boolean verify() {
        //指定的公钥
        String publicKeyHex = "0441ac04936f79acae69acad19129fb63c7e7fddde4ef63a6a3d0d6f76789b3b852fa5fefd2865ae815ab1857a8a25ba359a76b1786214eef630bdb8f534ed72d9";
        //需要加密的明文,得到明文对应的字节数组
        byte[] dataBytes = "{"api":"TG00902", "method":"post", "query_begin_line":0, "query_num":10, "SYSTEM_MENUNAME":"产品信息设置"}".getBytes();
        //签名值
        String signHex = "3770fd555d468a8db2ff642a32be1af56131a243128c9605e72fe6d4076bff5bdd68d580549b1ce0a373851771204f03ebfe3fef62c447c93d3ad9adb1b20e65";
        //这里需要根据公钥的长度进行加工
        if (publicKeyHex.length() == 130) {
            //这里需要去掉开始第一个字节 第一个字节表示标记
            publicKeyHex = publicKeyHex.substring(2);
        }
        String xhex = publicKeyHex.substring(0, 64);
        String yhex = publicKeyHex.substring(64, 128);
        ECPublicKeyParameters ecPublicKeyParameters = BCUtil.toSm2Params(xhex, yhex);
        //创建sm2 对象
        SM2 sm2 = new SM2(null, ecPublicKeyParameters);
        //这里需要手动设置,sm2 对象的默认值与我们期望的不一致 , 使用明文编码
        sm2.usePlainEncoding();
        sm2.setMode(SM2Engine.Mode.C1C2C3);
        boolean verify = sm2.verify(dataBytes, HexUtil.decodeHex(signHex));
        log.info("数据: " + HexUtil.encodeHexStr(dataBytes));
        log.info("验签结果: " + verify);
        return verify;
    }


    public static void main(String[] args) throws KPromptException {
//        String publicKey = "041e1d82205d07b46767cbefe79039b3252a32744fe4f14284d76c3d32a0fea28dbf9dcfa489271a85811bd4ddadd77486e3a6a371749dc4a7e3bb3d0f53f02c82"   ;
//        String content = "{"api":"TG00902", "method":"post", "query_begin_line":0, "query_num":10, "SYSTEM_MENUNAME":"产品信息设置"}";
//        String sign = "d8b0b5d965a45d30de5eb1cdd6ba0132a0cc4e2dbf41b97e9083210222c8cdc4987dd0c5ac71cf86121a4e4f2bfb80c0a50bde5e2abd5d8214492a7bb27a1390";
//        boolean verifySign = verify(publicKey, Hex.toHexString(content.getBytes()), sign);
//        System.out.println(verifySign);

//        createSm2Key();

//        signPoint();
//
//        verify();

//        String publicKey = "0441ac04936f79acae69acad19129fb63c7e7fddde4ef63a6a3d0d6f76789b3b852fa5fefd2865ae815ab1857a8a25ba359a76b1786214eef630bdb8f534ed72d9";
//        String privateKey = "3a6e3fe10746cc790f57fbfb09e99979f18eb28a100b786af007b6f2e214ca42";
//        String content = "{"api":"TG00902", "method":"post", "query_begin_line":0, "query_num":10, "SYSTEM_MENUNAME":"产品信息设置"}";

//        String publicKey = "0441ac04936f79acae69acad19129fb63c7e7fddde4ef63a6a3d0d6f76789b3b852fa5fefd2865ae815ab1857a8a25ba359a76b1786214eef630bdb8f534ed72d9";
//        String privateKey =  "3a6e3fe10746cc790f57fbfb09e99979f18eb28a100b786af007b6f2e214ca42";
//        String content = "{"api":"TG00927", "method":"post"}";
//
//
//
//        String sign = signSm2Key(privateKey, content);
//        log.info("sign:>>" + sign);
//        Boolean verify = verify(publicKey, content, sign);
//        System.out.println(verify);
    }

}

package com.kayak.mtl.util;

import com.kayak.web.base.exception.KPromptException;
import org.bouncycastle.asn1.gm.GMNamedCurves;
import org.bouncycastle.asn1.x9.X9ECParameters;
import org.bouncycastle.crypto.InvalidCipherTextException;
import org.bouncycastle.crypto.engines.SM2Engine;
import org.bouncycastle.crypto.params.ECDomainParameters;
import org.bouncycastle.crypto.params.ECPrivateKeyParameters;
import org.bouncycastle.crypto.params.ECPublicKeyParameters;
import org.bouncycastle.crypto.params.ParametersWithRandom;
import org.bouncycastle.jcajce.provider.asymmetric.ec.BCECPrivateKey;
import org.bouncycastle.jcajce.provider.asymmetric.ec.BCECPublicKey;
import org.bouncycastle.jce.provider.BouncyCastleProvider;
import org.bouncycastle.jce.spec.ECParameterSpec;
import org.bouncycastle.jce.spec.ECPrivateKeySpec;
import org.bouncycastle.jce.spec.ECPublicKeySpec;
import org.bouncycastle.util.encoders.Hex;

import java.math.BigInteger;
import java.security.*;
import java.security.spec.ECGenParameterSpec;
import java.util.Base64;

/**
 * @ClassName SM2Utils
 * @Description SM2算法工具类 Java写法
 * @Author sx
 * @Date 2021/9/24 16:50
 * @Version 1.0
 */
public class SM2SecrityUtils {

    /**
     * @return KeyPair
     * @Description 生成秘钥对
     * @Author msx
     */
    public static KeyPair createECKeyPair() {
        //使用标准名称创建EC参数生成参数规范
        final ECGenParameterSpec sm2Spec = new ECGenParameterSpec("sm2p256v1");

        // 获取一个椭圆曲线类型密钥生成器
        final KeyPairGenerator kpg;
        try {
            kpg = KeyPairGenerator.getInstance("EC", new BouncyCastleProvider());
            // 使用SM2算法参数初始化密钥生成器默认使用以最高优先级安装的提供者的 SecureRandom 的实现作为随机源)
            // kpg.initialize(sm2Spec);

            // 使用SM2的算法参数集和指定的随机初始化密钥生成
            kpg.initialize(sm2Spec, new SecureRandom());

            // 通过密钥生成生成密钥
            return kpg.generateKeyPair();
        } catch (Exception e) {
            e.printStackTrace();
            return null;
        }
    }

    /**
     * @param publicKeyHex SM2十六进制公钥
     * @param data         明文数据
     * @return String
     * @Description 公钥加密
     * @Author msx
     */
    public static String encrypt(String publicKeyHex, String data) {
        return encrypt(getECPublicKeyByPublicKeyHex(publicKeyHex), data, 0);
    }

    public static String encrypt02(String publicKeyHex, String data) {
        return encrypt02(getECPublicKeyByPublicKeyHex(publicKeyHex), data, 0);
    }

    /**
     * @param publicKey SM2公钥
     * @param data      明文数据
     * @param modeType  加密模式
     * @return String
     * @Description 公钥加密
     * @Author msx
     */
    public static String encrypt(BCECPublicKey publicKey, String data, int modeType) {
        //加密模式
        SM2Engine.Mode mode = SM2Engine.Mode.C1C3C2;
        if (modeType != 1) {
            mode = SM2Engine.Mode.C1C2C3;
        }
        //通过公钥对象获取公钥的基本域参数。
        ECParameterSpec ecParameterSpec = publicKey.getParameters();
        ECDomainParameters ecDomainParameters = new ECDomainParameters(ecParameterSpec.getCurve(),
                ecParameterSpec.getG(), ecParameterSpec.getN());
        //通过公钥值和公钥基本参数创建公钥参数对象
        ECPublicKeyParameters ecPublicKeyParameters = new ECPublicKeyParameters(publicKey.getQ(), ecDomainParameters);
        //根据加密模式实例化SM2公钥加密引擎
        SM2Engine sm2Engine = new SM2Engine(mode);
        //初始化加密引擎
        sm2Engine.init(true, new ParametersWithRandom(ecPublicKeyParameters, new SecureRandom()));
        byte[] arrayOfBytes = null;
        try {
            //将明文字符串转换为指定编码的字节串
            byte[] in = data.getBytes("utf-8");
            //通过加密引擎对字节数串行加密
            arrayOfBytes = sm2Engine.processBlock(in, 0, in.length);
        } catch (Exception e) {
            System.out.println("SM2加密时出现异常:" + e.getMessage());
            e.printStackTrace();
        }
        //将加密后的字节串转换为十六进制字符串
        return Hex.toHexString(arrayOfBytes);
    }

    /**
     * @param publicKey SM2公钥
     * @param data      明文数据
     * @param modeType  加密模式
     * @return String
     * @Description 公钥加密
     * @Author msx
     */
    public static String encrypt02(BCECPublicKey publicKey, String data, int modeType) {
        //加密模式
        SM2Engine.Mode mode = SM2Engine.Mode.C1C3C2;
        if (modeType != 1) {
            mode = SM2Engine.Mode.C1C2C3;
        }
        //通过公钥对象获取公钥的基本域参数。
        ECParameterSpec ecParameterSpec = publicKey.getParameters();
        ECDomainParameters ecDomainParameters = new ECDomainParameters(ecParameterSpec.getCurve(),
                ecParameterSpec.getG(), ecParameterSpec.getN());
        //通过公钥值和公钥基本参数创建公钥参数对象
        ECPublicKeyParameters ecPublicKeyParameters = new ECPublicKeyParameters(publicKey.getQ(), ecDomainParameters);
        //根据加密模式实例化SM2公钥加密引擎
        SM2Engine sm2Engine = new SM2Engine(mode);
        //初始化加密引擎
        sm2Engine.init(true, new ParametersWithRandom(ecPublicKeyParameters, new SecureRandom()));
        byte[] arrayOfBytes = null;
        try {
            //将明文字符串转换为指定编码的字节串
            byte[] in = data.getBytes("utf-8");
            //通过加密引擎对字节数串行加密
            arrayOfBytes = sm2Engine.processBlock(in, 0, in.length);
        } catch (Exception e) {
            System.out.println("SM2加密时出现异常:" + e.getMessage());
            e.printStackTrace();
        }
        //将加密后的字节串转换为十六进制字符串
        return Hex.toHexString(arrayOfBytes);
    }

    /**
     * @param privateKeyHex SM2十六进制私钥
     * @param cipherData    密文数据
     * @return String
     * @Description 私钥解密
     * @Author msx
     */
    public static String decrypt(String privateKeyHex, String cipherData) throws KPromptException {
        return decrypt(getBCECPrivateKeyByPrivateKeyHex(privateKeyHex), cipherData, 0);
//        return sm2Decrypt(cipherData,getBCECPrivateKeyByPrivateKeyHex(privateKeyHex),0);
//        return sm2Decrypt02(cipherData, privateKeyHex);
    }

    public static String decrypt02(String privateKeyHex, String cipherData) {
        return decrypt02(getBCECPrivateKeyByPrivateKeyHex(privateKeyHex), cipherData, 0);
    }

    /**
     * @param privateKey SM私钥
     * @param cipherData 密文数据
     * @param modeType   解密模式
     * @return
     * @Description 私钥解密
     * @Author msx
     */
    public static String decrypt(BCECPrivateKey privateKey, String cipherData, int modeType) {
        //解密模式
        SM2Engine.Mode mode = SM2Engine.Mode.C1C3C2;
        if (modeType != 1)
            mode = SM2Engine.Mode.C1C2C3;
        //将十六进制字符串密文转换为字节数组(需要与加密一致,加密是:加密后的字节数组转换为了十六进制字符串
        byte[] cipherDataByte = Hex.decode(cipherData);
        //通过私钥对象获取私钥的基本域参数。
        ECParameterSpec ecParameterSpec = privateKey.getParameters();
        ECDomainParameters ecDomainParameters = new ECDomainParameters(ecParameterSpec.getCurve(),
                ecParameterSpec.getG(), ecParameterSpec.getN());
        //通过私钥值和私钥钥基本参数创建私钥参数对象
        ECPrivateKeyParameters ecPrivateKeyParameters = new ECPrivateKeyParameters(privateKey.getD(),
                ecDomainParameters);
        //通过解密模式创建解密引擎初始化
        SM2Engine sm2Engine = new SM2Engine(mode);
        sm2Engine.init(false, ecPrivateKeyParameters);
        String result = null;
        try {
            //通过解密引擎对密文字节串进行解密
            byte[] arrayOfBytes = sm2Engine.processBlock(cipherDataByte, 0, cipherDataByte.length);
            //将解密后的字节串转换为utf8字符编码的字符串(需要与明文加密时字符串转换成字节串所指定的字符编码保持一致)
            result = new String(arrayOfBytes, "utf-8");
        } catch (Exception e) {
            System.out.println("SM2解密时出现异常" + e.getMessage());
        }
        return result;
    }

    /**
     * @param privateKey SM私钥
     * @param cipherData 密文数据
     * @param modeType   解密模式
     * @return
     * @Description 私钥解密
     * @Author msx
     */
    public static String decrypt02(BCECPrivateKey privateKey, String cipherData, int modeType) {
        //解密模式
        SM2Engine.Mode mode = SM2Engine.Mode.C1C3C2;
        if (modeType != 1)
            mode = SM2Engine.Mode.C1C2C3;
        //将十六进制字符串密文转换为字节数组(需要与加密一致,加密是:加密后的字节数组转换为了十六进制字符串)
        byte[] cipherDataByte = Hex.decode(cipherData);
        //通过私钥对象获取私钥的基本域参数。
        ECParameterSpec ecParameterSpec = privateKey.getParameters();
        ECDomainParameters ecDomainParameters = new ECDomainParameters(ecParameterSpec.getCurve(),
                ecParameterSpec.getG(), ecParameterSpec.getN());
        //通过私钥值和私钥钥基本参数创建私钥参数对象
        ECPrivateKeyParameters ecPrivateKeyParameters = new ECPrivateKeyParameters(privateKey.getD(),
                ecDomainParameters);
        //通过解密模式创建解密引擎并初始化
        SM2Engine sm2Engine = new SM2Engine(mode);
        sm2Engine.init(false, ecPrivateKeyParameters);
        String result = null;
        try {
            //通过解密引擎对密文字节串进行解密
            byte[] arrayOfBytes = sm2Engine.processBlock(cipherDataByte, 0, cipherDataByte.length);
            //将解密后的字节串转换为utf8字符编码的字符串(需要与明文加密时字符串转换成字节串所指定的字符编码保持一致)
            result = new String(arrayOfBytes, "utf-8");
        } catch (Exception e) {
            System.out.println("SM2解密时出现异常" + e.getMessage());
        }
        return result;
    }


    //椭圆曲线ECParameters ASN.1 结构
    private static X9ECParameters x9ECParameters = GMNamedCurves.getByName("sm2p256v1");
    //椭圆曲线公钥或私钥的基本域参数。
    private static ECParameterSpec ecDomainParameters = new ECParameterSpec(x9ECParameters.getCurve(), x9ECParameters.getG(), x9ECParameters.getN());

    /**
     * @param pubKeyHex 64字节十六进制公钥字符串(如果公钥字符串为65字节首个字节为0x04:表示该公钥为非压缩格式,操作时需要删除)
     * @return BCECPublicKey SM2公钥对象
     * @Description 公钥字符串转换为 BCECPublicKey 公钥对象
     * @Author msx
     */
    public static BCECPublicKey getECPublicKeyByPublicKeyHex(String pubKeyHex) {
        //截取64字节有效的SM2公钥(如果公钥首个字节为0x04)
        if (pubKeyHex.length() > 128) {
            pubKeyHex = pubKeyHex.substring(pubKeyHex.length() - 128);
        }
        //将公钥拆分为x,y分量(各32字节)
        String stringX = pubKeyHex.substring(0, 64);
        String stringY = pubKeyHex.substring(stringX.length());
        //将公钥x、y分量转换为BigInteger类型
        BigInteger x = new BigInteger(stringX, 16);
        BigInteger y = new BigInteger(stringY, 16);
        //通过公钥x、y分量创建椭圆曲线公钥规范
        ECPublicKeySpec ecPublicKeySpec = new ECPublicKeySpec(x9ECParameters.getCurve().createPoint(x, y), ecDomainParameters);
        //通过椭圆曲线公钥规范,创建出椭圆曲线公钥对象(可用于SM2加密及验签)
        return new BCECPublicKey("EC", ecPublicKeySpec, BouncyCastleProvider.CONFIGURATION);
    }

    public static String sm2Decrypt(String cipherData, BCECPrivateKey privateKey, int modeType) throws KPromptException {
        byte[] arrayOfBytes = new byte[0];
        try {
            //解密模式
            SM2Engine.Mode mode = SM2Engine.Mode.C1C3C2;
            if (modeType != 1)
                mode = SM2Engine.Mode.C1C2C3;
            //将十六进制字符串密文转换为字节数组(需要与加密一致,加密是:加密后的字节数组转换为了十六进制字符串)
            byte[] cipherDataByte = Hex.decode(cipherData);
            //通过私钥对象获取私钥的基本域参数。
            ECParameterSpec sm2ECParameters = privateKey.getParameters();

            ECDomainParameters domainParameters = new ECDomainParameters(sm2ECParameters.getCurve(), sm2ECParameters.getG(), sm2ECParameters.getN());
            ECPrivateKeyParameters privateKeyParameters = new ECPrivateKeyParameters(privateKey.getD(), domainParameters);

            //用私钥解密
            SM2Engine sm2Engine = new SM2Engine(mode);
            sm2Engine.init(false, privateKeyParameters);

            try {
                arrayOfBytes = sm2Engine.processBlock(cipherDataByte, 0, cipherDataByte.length);
            } catch (InvalidCipherTextException e) {
                e.printStackTrace();
            }

            //得到明文:SM2 Encryption Test
            String data = new String(arrayOfBytes);
            System.out.println("解密后明文数据:" + data);

        } catch (Exception e) {
            throw new KPromptException("sm2解密失败!");
        }
        return new String(arrayOfBytes);
    }

    public static String sm2Decrypt02(String cipherData, String privateKey) throws KPromptException {
        byte[] arrayOfBytes = new byte[0];
        try {
            byte[] cipherDataByte = Hex.decode(cipherData);
            //刚才的私钥Hex,先还原私钥
            BigInteger privateKeyD = new BigInteger(privateKey, 16);
            X9ECParameters sm2ECParameters = GMNamedCurves.getByName("sm2p256v1");

            ECDomainParameters domainParameters = new ECDomainParameters(sm2ECParameters.getCurve(), sm2ECParameters.getG(), sm2ECParameters.getN());
            ECPrivateKeyParameters privateKeyParameters = new ECPrivateKeyParameters(privateKeyD, domainParameters);

            //用私钥解密
            SM2Engine sm2Engine = new SM2Engine();
            sm2Engine.init(false, privateKeyParameters);

            try {
                arrayOfBytes = sm2Engine.processBlock(cipherDataByte, 0, cipherDataByte.length);
            } catch (InvalidCipherTextException e) {
                e.printStackTrace();
            }

            //得到明文:SM2 Encryption Test
            String data = new String(arrayOfBytes);
            System.out.println("解密后明文数据:" + data);

        } catch (Exception e) {
            throw new KPromptException("sm2解密失败!");
        }
        return new String(arrayOfBytes);
    }

    /**
     * @param privateKeyHex 32字节十六进制私钥字符串
     * @return BCECPrivateKey SM2私钥对象
     * @Description 私钥字符串转换为 BCECPrivateKey 私钥对象
     * @Author msx
     */
    public static BCECPrivateKey getBCECPrivateKeyByPrivateKeyHex(String privateKeyHex) {
        //将十六进制私钥字符串转换为BigInteger对象
        BigInteger d = new BigInteger(privateKeyHex, 16);
        //通过私钥和私钥域参数集创建椭圆曲线私钥规范
        ECPrivateKeySpec ecPrivateKeySpec = new ECPrivateKeySpec(d, ecDomainParameters);
        //通过椭圆曲线私钥规范,创建出椭圆曲线私钥对象(可用于SM2解密和签名)
        return new BCECPrivateKey("EC", ecPrivateKeySpec, BouncyCastleProvider.CONFIGURATION);
    }

    public static void main(String[] args) throws KPromptException {
        String publicKeyHex = null;
        String privateKeyHex = null;
        KeyPair keyPair = createECKeyPair();
        PublicKey publicKey = keyPair.getPublic();
        if (publicKey instanceof BCECPublicKey) {
            //获取65字节非压缩缩的十六进制公钥串(0x04)
            publicKeyHex = Hex.toHexString(((BCECPublicKey) publicKey).getQ().getEncoded(false));
            System.out.println("---->SM2公钥:" + publicKeyHex);
        }
        PrivateKey privateKey = keyPair.getPrivate();
        if (privateKey instanceof BCECPrivateKey) {
            //获取32字节十六进制私钥串
            privateKeyHex = ((BCECPrivateKey) privateKey).getD().toString(16);
            System.out.println("---->SM2私钥:" + privateKeyHex);
        }

        /**
         * 公钥加密
         */
        String data = "=========待加密数据=========";

        //将十六进制公钥串转换为 BCECPublicKey 公钥对象
        String encryptData = encrypt(publicKeyHex, data);
        System.out.println("---->加密结果:" + encryptData);

        /**
         * 私钥解密
         */
        //将十六进制私钥串转换为 BCECPrivateKey 私钥对象
        data = decrypt(privateKeyHex, encryptData);
        System.out.println("---->解密结果:" + data);
    }

//    public static void main(String[] args) throws KPromptException {
        "{"api":"TG00927", "method":"post"}"
//        String privateKey = "c64b2ea15d0dac21c0433e754e88e0183485ffb70a2316cddafc7beda489d94c";
//        String cipherData = "04f18d28df17c61ffb8e2cd8f1e7e81390c2047528bbd65436faf005655ade727f958c29b035b4b8b2da32eec5cd65ab74f1f28c90c58d37901b7d72cb098488ab3fa8e661c64ae3e91367a4b706ae61ee715083ad52e6f4dbf21a56116044e0341041e44923a44d1f239987f2253a60b9c4ab4ff43590002c9557f07f00b3133d2715c434090ddc5e87b374cf839a0a97eb1a4bfc00214a2bced9854a6ce187bba46d3529ba08e66ae19434be9281428ace4bcf9aad4cf6839bc826d04d0731b293450b387c4e08da3685747a4e7a90767dd85340783979b79c3ac54d5366ec4026faa88580248ab16bed6e57e31e0d21d3524d3e15be";
//
//        System.out.println("cicps: " + cipherData);
//
//        String decrypt = decrypt02(privateKey, cipherData);
        String decrypt = SM2Utils.sm2Decrypt(cipherData,privateKey);
//        System.out.println(decrypt);
//    }
}


package com.kayak.mtl.util;

import com.kayak.web.base.exception.KPromptException;
import org.apache.commons.codec.digest.DigestUtils;
import org.olap4j.impl.Base64;
import org.springframework.stereotype.Component;

import java.util.Map;

/**
 * MD5工具类
 */
public class Md5Utils {

    /**
     * md5加密算法
     * @param str 加密串
     * @return 加密后字符串
     */
    public static String md5(String str) {
        return DigestUtils.md5Hex(str);
    }

    /**
     * 第一次加密,前端传过来的加密
     * @param str
     * @param salt
     * @return
     */
    public static String md5Secret(String str,String salt) throws KPromptException {
        String encodeBytes = "";

        try {
            //base64编码
            encodeBytes = Base64.encodeBytes(md5(str + salt).getBytes());
        } catch (Exception e) {
            throw new KPromptException("验签失败,请校验验签方式是否正确!");
        }

        return encodeBytes;
    }

    public static void main(String[] args) throws KPromptException {

        String data = "{"method":"POST","loginname":"admin","passwd":"EFD9D1B8BFB00E8E3647990F7D74D1D8","api":"TG00001","ipaddr":"192.168.43.68","macaddr":"00:28:F8:71:E9:A9","timestamp":1679908543750,"target":"CUST"}";
        String publicKey = "04843255d137f6be11efa85c90a977eb5d42d1a27c1c5945a359f440dad805c112559cef72690a85569ef037bee5e2fb778d58cce0fa7301f091a5c79f91ccc5a4";
        String encrypt = SM2SecrityUtils.encrypt(publicKey, data);
        System.out.println("encrypt: " + encrypt);

        encrypt = "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";
//        String param = "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";
        String lsa = Md5Utils.md5Secret(encrypt, "wmp092");
        System.out.println(">>>>>>>" + lsa);


//        String admin = md5Secret("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", "wmp092");
//        System.out.println("encode: " + admin);
//        String password = new String(Base64.decode(admin));
//        System.out.println(password.toUpperCase());
    }
}

原文地址:https://blog.csdn.net/weixin_38717886/article/details/129820971

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