微信小程序--AES加密解密 ----ECS,Pkcs7,Hex,Utf8

1. 需求

AES加密解密:模式ECB,填充Pkcs7,输出Hex,字符集Utf8

如需输出Base64,请查看AES.Utils.js 代码中有隐藏部分

 

2. 新增AES.js

微信小程序--AES加密解密 ----ECS,Pkcs7,Hex,Utf8
var t = t || function (t, e) { var r = {}, i = r.lib = {}, n = function () { }, o = i.Base = { extend: function (t) { n.prototype = this; var e = new n(); return t && e.mixIn(t), e.hasOwnProperty("init") || (e.init = function () { e.$super.init.apply(this, arguments) }), e.init.prototype = e, e.$super = this, e }, create: function () { var t = this.extend(); return t.init.apply(t, arguments), t }, init: function () { }, mixIn: function (t) { for (var e in t) t.hasOwnProperty(e) && (this[e] = t[e]); t.hasOwnProperty("toString") && (this.toString = t.toString) }, clone: function () { return this.init.prototype.extend(this) } }, s = i.WordArray = o.extend({ init: function (t, e) { t = this.words = t || [], this.sigBytes = void 0 != e ? e : 4 * t.length }, toString: function (t) { return (t || a).stringify(this) }, concat: function (t) { var e = this.words, r = t.words, i = this.sigBytes; if (t = t.sigBytes, this.clamp(), i % 4) for (var n = 0; n < t; n++)e[i + n >>> 2] |= (r[n >>> 2] >>> 24 - n % 4 * 8 & 255) << 24 - (i + n) % 4 * 8; else if (65535 < r.length) for (n = 0; n < t; n += 4)e[i + n >>> 2] = r[n >>> 2]; else e.push.apply(e, r); return this.sigBytes += t, this }, clamp: function () { var e = this.words, r = this.sigBytes; e[r >>> 2] &= 4294967295 << 32 - r % 4 * 8, e.length = t.ceil(r / 4) }, clone: function () { var t = o.clone.call(this); return t.words = this.words.slice(0), t }, random: function (e) { for (var r = [], i = 0; i < e; i += 4)r.push(4294967296 * t.random() | 0); return new s.init(r, e) } }), c = r.enc = {}, a = c.Hex = { stringify: function (t) { var e = t.words; t = t.sigBytes; for (var r = [], i = 0; i < t; i++) { var n = e[i >>> 2] >>> 24 - i % 4 * 8 & 255; r.push((n >>> 4).toString(16)), r.push((15 & n).toString(16)) } return r.join("") }, parse: function (t) { for (var e = t.length, r = [], i = 0; i < e; i += 2)r[i >>> 3] |= parseInt(t.substr(i, 2), 16) << 24 - i % 8 * 4; return new s.init(r, e / 2) } }, f = c.Latin1 = { stringify: function (t) { var e = t.words; t = t.sigBytes; for (var r = [], i = 0; i < t; i++)r.push(String.fromCharCode(e[i >>> 2] >>> 24 - i % 4 * 8 & 255)); return r.join("") }, parse: function (t) { for (var e = t.length, r = [], i = 0; i < e; i++)r[i >>> 2] |= (255 & t.charCodeAt(i)) << 24 - i % 4 * 8; return new s.init(r, e) } }, h = c.Utf8 = { stringify: function (t) { try { return decodeURIComponent(escape(f.stringify(t))) } catch (t) { throw Error("Malformed UTF-8 data"); } }, parse: function (t) { return f.parse(unescape(encodeURIComponent(t))) } }, u = i.BufferedBlockAlgorithm = o.extend({ reset: function () { this._data = new s.init(), this._nDataBytes = 0 }, _append: function (t) { "string" == typeof t && (t = h.parse(t)), this._data.concat(t), this._nDataBytes += t.sigBytes }, _process: function (e) { var r = this._data, i = r.words, n = r.sigBytes, o = this.blockSize, c = n / (4 * o); if (e = (c = e ? t.ceil(c) : t.max((0 | c) - this._minBufferSize, 0)) * o, n = t.min(4 * e, n), e) { for (var a = 0; a < e; a += o)this._doProcessBlock(i, a); a = i.splice(0, e), r.sigBytes -= n } return new s.init(a, n) }, clone: function () { var t = o.clone.call(this); return t._data = this._data.clone(), t }, _minBufferSize: 0 }); i.Hasher = u.extend({ cfg: o.extend(), init: function (t) { this.cfg = this.cfg.extend(t), this.reset() }, reset: function () { u.reset.call(this), this._doReset() }, update: function (t) { return this._append(t), this._process(), this }, finalize: function (t) { return t && this._append(t), this._doFinalize() }, blockSize: 16, _createHelper: function (t) { return function (e, r) { return new t.init(r).finalize(e) } }, _createHmacHelper: function (t) { return function (e, r) { return new p.HMAC.init(t, r).finalize(e) } } }); var p = r.algo = {}; return r }(Math); !function () { var e = t, r = e.lib.WordArray; e.enc.Base64 = { stringify: function (t) { var e = t.words, r = t.sigBytes, i = this._map; t.clamp(), t = []; for (var n = 0; n < r; n += 3)for (var o = (e[n >>> 2] >>> 24 - n % 4 * 8 & 255) << 16 | (e[n + 1 >>> 2] >>> 24 - (n + 1) % 4 * 8 & 255) << 8 | e[n + 2 >>> 2] >>> 24 - (n + 2) % 4 * 8 & 255, s = 0; 4 > s && n + .75 * s < r; s++)t.push(i.charAt(o >>> 6 * (3 - s) & 63)); if (e = i.charAt(64)) for (; t.length % 4;)t.push(e); return t.join("") }, parse: function (t) { var e = t.length, i = this._map; (n = i.charAt(64)) && -1 != (n = t.indexOf(n)) && (e = n); for (var n = [], o = 0, s = 0; s < e; s++)if (s % 4) { var c = i.indexOf(t.charAt(s - 1)) << s % 4 * 2, a = i.indexOf(t.charAt(s)) >>> 6 - s % 4 * 2; n[o >>> 2] |= (c | a) << 24 - o % 4 * 8, o++ } return r.create(n, o) }, _map: "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=" } }(), function (e) { function r(t, e, r, i, n, o, s) { return ((t = t + (e & r | ~e & i) + n + s) << o | t >>> 32 - o) + e } function i(t, e, r, i, n, o, s) { return ((t = t + (e & i | r & ~i) + n + s) << o | t >>> 32 - o) + e } function n(t, e, r, i, n, o, s) { return ((t = t + (e ^ r ^ i) + n + s) << o | t >>> 32 - o) + e } function o(t, e, r, i, n, o, s) { return ((t = t + (r ^ (e | ~i)) + n + s) << o | t >>> 32 - o) + e } for (var s = t, c = (f = s.lib).WordArray, a = f.Hasher, f = s.algo, h = [], u = 0; 64 > u; u++)h[u] = 4294967296 * e.abs(e.sin(u + 1)) | 0; f = f.MD5 = a.extend({ _doReset: function () { this._hash = new c.init([1732584193, 4023233417, 2562383102, 271733878]) }, _doProcessBlock: function (t, e) { for (s = 0; 16 > s; s++) { a = t[c = e + s]; t[c] = 16711935 & (a << 8 | a >>> 24) | 4278255360 & (a << 24 | a >>> 8) } var s = this._hash.words, c = t[e + 0], a = t[e + 1], f = t[e + 2], u = t[e + 3], p = t[e + 4], d = t[e + 5], l = t[e + 6], y = t[e + 7], v = t[e + 8], _ = t[e + 9], g = t[e + 10], B = t[e + 11], k = t[e + 12], x = t[e + 13], m = t[e + 14], S = t[e + 15], w = s[0], z = s[1], C = s[2], E = s[3], z = o(z = o(z = o(z = o(z = n(z = n(z = n(z = n(z = i(z = i(z = i(z = i(z = r(z = r(z = r(z = r(z, C = r(C, E = r(E, w = r(w, z, C, E, c, 7, h[0]), z, C, a, 12, h[1]), w, z, f, 17, h[2]), E, w, u, 22, h[3]), C = r(C, E = r(E, w = r(w, z, C, E, p, 7, h[4]), z, C, d, 12, h[5]), w, z, l, 17, h[6]), E, w, y, 22, h[7]), C = r(C, E = r(E, w = r(w, z, C, E, v, 7, h[8]), z, C, _, 12, h[9]), w, z, g, 17, h[10]), E, w, B, 22, h[11]), C = r(C, E = r(E, w = r(w, z, C, E, k, 7, h[12]), z, C, x, 12, h[13]), w, z, m, 17, h[14]), E, w, S, 22, h[15]), C = i(C, E = i(E, w = i(w, z, C, E, a, 5, h[16]), z, C, l, 9, h[17]), w, z, B, 14, h[18]), E, w, c, 20, h[19]), C = i(C, E = i(E, w = i(w, z, C, E, d, 5, h[20]), z, C, g, 9, h[21]), w, z, S, 14, h[22]), E, w, p, 20, h[23]), C = i(C, E = i(E, w = i(w, z, C, E, _, 5, h[24]), z, C, m, 9, h[25]), w, z, u, 14, h[26]), E, w, v, 20, h[27]), C = i(C, E = i(E, w = i(w, z, C, E, x, 5, h[28]), z, C, f, 9, h[29]), w, z, y, 14, h[30]), E, w, k, 20, h[31]), C = n(C, E = n(E, w = n(w, z, C, E, d, 4, h[32]), z, C, v, 11, h[33]), w, z, B, 16, h[34]), E, w, m, 23, h[35]), C = n(C, E = n(E, w = n(w, z, C, E, a, 4, h[36]), z, C, p, 11, h[37]), w, z, y, 16, h[38]), E, w, g, 23, h[39]), C = n(C, E = n(E, w = n(w, z, C, E, x, 4, h[40]), z, C, c, 11, h[41]), w, z, u, 16, h[42]), E, w, l, 23, h[43]), C = n(C, E = n(E, w = n(w, z, C, E, _, 4, h[44]), z, C, k, 11, h[45]), w, z, S, 16, h[46]), E, w, f, 23, h[47]), C = o(C, E = o(E, w = o(w, z, C, E, c, 6, h[48]), z, C, y, 10, h[49]), w, z, m, 15, h[50]), E, w, d, 21, h[51]), C = o(C, E = o(E, w = o(w, z, C, E, k, 6, h[52]), z, C, u, 10, h[53]), w, z, g, 15, h[54]), E, w, a, 21, h[55]), C = o(C, E = o(E, w = o(w, z, C, E, v, 6, h[56]), z, C, S, 10, h[57]), w, z, l, 15, h[58]), E, w, x, 21, h[59]), C = o(C, E = o(E, w = o(w, z, C, E, p, 6, h[60]), z, C, B, 10, h[61]), w, z, f, 15, h[62]), E, w, _, 21, h[63]); s[0] = s[0] + w | 0, s[1] = s[1] + z | 0, s[2] = s[2] + C | 0, s[3] = s[3] + E | 0 }, _doFinalize: function () { var t = this._data, r = t.words, i = 8 * this._nDataBytes, n = 8 * t.sigBytes; r[n >>> 5] |= 128 << 24 - n % 32; var o = e.floor(i / 4294967296); for (r[15 + (n + 64 >>> 9 << 4)] = 16711935 & (o << 8 | o >>> 24) | 4278255360 & (o << 24 | o >>> 8), r[14 + (n + 64 >>> 9 << 4)] = 16711935 & (i << 8 | i >>> 24) | 4278255360 & (i << 24 | i >>> 8), t.sigBytes = 4 * (r.length + 1), this._process(), r = (t = this._hash).words, i = 0; 4 > i; i++)n = r[i], r[i] = 16711935 & (n << 8 | n >>> 24) | 4278255360 & (n << 24 | n >>> 8); return t }, clone: function () { var t = a.clone.call(this); return t._hash = this._hash.clone(), t } }), s.MD5 = a._createHelper(f), s.HmacMD5 = a._createHmacHelper(f) }(Math), function () { var e = t, r = e.lib, i = r.Base, n = r.WordArray, o = (r = e.algo).EvpKDF = i.extend({ cfg: i.extend({ keySize: 4, hasher: r.MD5, iterations: 1 }), init: function (t) { this.cfg = this.cfg.extend(t) }, compute: function (t, e) { for (var r = (c = this.cfg).hasher.create(), i = n.create(), o = i.words, s = c.keySize, c = c.iterations; o.length < s;) { a && r.update(a); var a = r.update(t).finalize(e); r.reset(); for (var f = 1; f < c; f++)a = r.finalize(a), r.reset(); i.concat(a) } return i.sigBytes = 4 * s, i } }); e.EvpKDF = function (t, e, r) { return o.create(r).compute(t, e) } }(), t.lib.Cipher || function (e) { var r = (l = t).lib, i = r.Base, n = r.WordArray, o = r.BufferedBlockAlgorithm, s = l.enc.Base64, c = l.algo.EvpKDF, a = r.Cipher = o.extend({ cfg: i.extend(), createEncryptor: function (t, e) { return this.create(this._ENC_XFORM_MODE, t, e) }, createDecryptor: function (t, e) { return this.create(this._DEC_XFORM_MODE, t, e) }, init: function (t, e, r) { this.cfg = this.cfg.extend(r), this._xformMode = t, this._key = e, this.reset() }, reset: function () { o.reset.call(this), this._doReset() }, process: function (t) { return this._append(t), this._process() }, finalize: function (t) { return t && this._append(t), this._doFinalize() }, keySize: 4, ivSize: 4, _ENC_XFORM_MODE: 1, _DEC_XFORM_MODE: 2, _createHelper: function (t) { return { encrypt: function (e, r, i) { return ("string" == typeof r ? y : d).encrypt(t, e, r, i) }, decrypt: function (e, r, i) { return ("string" == typeof r ? y : d).decrypt(t, e, r, i) } } } }); r.StreamCipher = a.extend({ _doFinalize: function () { return this._process(!0) }, blockSize: 1 }); var f = l.mode = {}, h = function (t, e, r) { var i = this._iv; i ? this._iv = void 0 : i = this._prevBlock; for (var n = 0; n < r; n++)t[e + n] ^= i[n] }, u = (r.BlockCipherMode = i.extend({ createEncryptor: function (t, e) { return this.Encryptor.create(t, e) }, createDecryptor: function (t, e) { return this.Decryptor.create(t, e) }, init: function (t, e) { this._cipher = t, this._iv = e } })).extend(); u.Encryptor = u.extend({ processBlock: function (t, e) { var r = this._cipher, i = r.blockSize; h.call(this, t, e, i), r.encryptBlock(t, e), this._prevBlock = t.slice(e, e + i) } }), u.Decryptor = u.extend({ processBlock: function (t, e) { var r = this._cipher, i = r.blockSize, n = t.slice(e, e + i); r.decryptBlock(t, e), h.call(this, t, e, i), this._prevBlock = n } }), f = f.CBC = u, u = (l.pad = {}).Pkcs7 = { pad: function (t, e) { for (var r = 4 * e, i = (r = r - t.sigBytes % r) << 24 | r << 16 | r << 8 | r, o = [], s = 0; s < r; s += 4)o.push(i); r = n.create(o, r), t.concat(r) }, unpad: function (t) { t.sigBytes -= 255 & t.words[t.sigBytes - 1 >>> 2] } }, r.BlockCipher = a.extend({ cfg: a.cfg.extend({ mode: f, padding: u }), reset: function () { a.reset.call(this); var t = (e = this.cfg).iv, e = e.mode; if (this._xformMode == this._ENC_XFORM_MODE) var r = e.createEncryptor; else r = e.createDecryptor, this._minBufferSize = 1; this._mode = r.call(e, this, t && t.words) }, _doProcessBlock: function (t, e) { this._mode.processBlock(t, e) }, _doFinalize: function () { var t = this.cfg.padding; if (this._xformMode == this._ENC_XFORM_MODE) { t.pad(this._data, this.blockSize); var e = this._process(!0) } else e = this._process(!0), t.unpad(e); return e }, blockSize: 4 }); var p = r.CipherParams = i.extend({ init: function (t) { this.mixIn(t) }, toString: function (t) { return (t || this.formatter).stringify(this) } }), f = (l.format = {}).OpenSSL = { stringify: function (t) { var e = t.ciphertext; return ((t = t.salt) ? n.create([1398893684, 1701076831]).concat(t).concat(e) : e).toString(s) }, parse: function (t) { var e = (t = s.parse(t)).words; if (1398893684 == e[0] && 1701076831 == e[1]) { var r = n.create(e.slice(2, 4)); e.splice(0, 4), t.sigBytes -= 16 } return p.create({ ciphertext: t, salt: r }) } }, d = r.SerializableCipher = i.extend({ cfg: i.extend({ format: f }), encrypt: function (t, e, r, i) { i = this.cfg.extend(i); var n = t.createEncryptor(r, i); return e = n.finalize(e), n = n.cfg, p.create({ ciphertext: e, key: r, iv: n.iv, algorithm: t, mode: n.mode, padding: n.padding, blockSize: t.blockSize, formatter: i.format }) }, decrypt: function (t, e, r, i) { return i = this.cfg.extend(i), e = this._parse(e, i.format), t.createDecryptor(r, i).finalize(e.ciphertext) }, _parse: function (t, e) { return "string" == typeof t ? e.parse(t, this) : t } }), l = (l.kdf = {}).OpenSSL = { execute: function (t, e, r, i) { return i || (i = n.random(8)), t = c.create({ keySize: e + r }).compute(t, i), r = n.create(t.words.slice(e), 4 * r), t.sigBytes = 4 * e, p.create({ key: t, iv: r, salt: i }) } }, y = r.PasswordBasedCipher = d.extend({ cfg: d.cfg.extend({ kdf: l }), encrypt: function (t, e, r, i) { return i = this.cfg.extend(i), r = i.kdf.execute(r, t.keySize, t.ivSize), i.iv = r.iv, (t = d.encrypt.call(this, t, e, r.key, i)).mixIn(r), t }, decrypt: function (t, e, r, i) { return i = this.cfg.extend(i), e = this._parse(e, i.format), r = i.kdf.execute(r, t.keySize, t.ivSize, e.salt), i.iv = r.iv, d.decrypt.call(this, t, e, r.key, i) } }) }(), function () { for (var e = t, r = e.lib.BlockCipher, i = e.algo, n = [], o = [], s = [], c = [], a = [], f = [], h = [], u = [], p = [], d = [], l = [], y = 0; 256 > y; y++)l[y] = 128 > y ? y << 1 : y << 1 ^ 283; for (var v = 0, _ = 0, y = 0; 256 > y; y++) { var g = (g = _ ^ _ << 1 ^ _ << 2 ^ _ << 3 ^ _ << 4) >>> 8 ^ 255 & g ^ 99; n[v] = g, o[g] = v; var B = l[v], k = l[B], x = l[k], m = 257 * l[g] ^ 16843008 * g; s[v] = m << 24 | m >>> 8, c[v] = m << 16 | m >>> 16, a[v] = m << 8 | m >>> 24, f[v] = m, m = 16843009 * x ^ 65537 * k ^ 257 * B ^ 16843008 * v, h[g] = m << 24 | m >>> 8, u[g] = m << 16 | m >>> 16, p[g] = m << 8 | m >>> 24, d[g] = m, v ? (v = B ^ l[l[l[x ^ B]]], _ ^= l[l[_]]) : v = _ = 1 } var S = [0, 1, 2, 4, 8, 16, 32, 64, 128, 27, 54], i = i.AES = r.extend({ _doReset: function () { for (var t = (r = this._key).words, e = r.sigBytes / 4, r = 4 * ((this._nRounds = e + 6) + 1), i = this._keySchedule = [], o = 0; o < r; o++)if (o < e) i[o] = t[o]; else { var s = i[o - 1]; o % e ? 6 < e && 4 == o % e && (s = n[s >>> 24] << 24 | n[s >>> 16 & 255] << 16 | n[s >>> 8 & 255] << 8 | n[255 & s]) : (s = s << 8 | s >>> 24, s = n[s >>> 24] << 24 | n[s >>> 16 & 255] << 16 | n[s >>> 8 & 255] << 8 | n[255 & s], s ^= S[o / e | 0] << 24), i[o] = i[o - e] ^ s } for (t = this._invKeySchedule = [], e = 0; e < r; e++)o = r - e, s = e % 4 ? i[o] : i[o - 4], t[e] = 4 > e || 4 >= o ? s : h[n[s >>> 24]] ^ u[n[s >>> 16 & 255]] ^ p[n[s >>> 8 & 255]] ^ d[n[255 & s]] }, encryptBlock: function (t, e) { this._doCryptBlock(t, e, this._keySchedule, s, c, a, f, n) }, decryptBlock: function (t, e) { var r = t[e + 1]; t[e + 1] = t[e + 3], t[e + 3] = r, this._doCryptBlock(t, e, this._invKeySchedule, h, u, p, d, o), r = t[e + 1], t[e + 1] = t[e + 3], t[e + 3] = r }, _doCryptBlock: function (t, e, r, i, n, o, s, c) { for (var a = this._nRounds, f = t[e] ^ r[0], h = t[e + 1] ^ r[1], u = t[e + 2] ^ r[2], p = t[e + 3] ^ r[3], d = 4, l = 1; l < a; l++)var y = i[f >>> 24] ^ n[h >>> 16 & 255] ^ o[u >>> 8 & 255] ^ s[255 & p] ^ r[d++], v = i[h >>> 24] ^ n[u >>> 16 & 255] ^ o[p >>> 8 & 255] ^ s[255 & f] ^ r[d++], _ = i[u >>> 24] ^ n[p >>> 16 & 255] ^ o[f >>> 8 & 255] ^ s[255 & h] ^ r[d++], p = i[p >>> 24] ^ n[f >>> 16 & 255] ^ o[h >>> 8 & 255] ^ s[255 & u] ^ r[d++], f = y, h = v, u = _; y = (c[f >>> 24] << 24 | c[h >>> 16 & 255] << 16 | c[u >>> 8 & 255] << 8 | c[255 & p]) ^ r[d++], v = (c[h >>> 24] << 24 | c[u >>> 16 & 255] << 16 | c[p >>> 8 & 255] << 8 | c[255 & f]) ^ r[d++], _ = (c[u >>> 24] << 24 | c[p >>> 16 & 255] << 16 | c[f >>> 8 & 255] << 8 | c[255 & h]) ^ r[d++], p = (c[p >>> 24] << 24 | c[f >>> 16 & 255] << 16 | c[h >>> 8 & 255] << 8 | c[255 & u]) ^ r[d++], t[e] = y, t[e + 1] = v, t[e + 2] = _, t[e + 3] = p }, keySize: 8 }); e.AES = r._createHelper(i) }(), t.enc.u8array = { stringify: function (t) { for (var e = t.words, r = t.sigBytes, i = new Uint8Array(r), n = 0; n < r; n++) { var o = e[n >>> 2] >>> 24 - n % 4 * 8 & 255; i[n] = o } return i }, parse: function (e) { for (var r = e.length, i = [], n = 0; n < r; n++)i[n >>> 2] |= (255 & e[n]) << 24 - n % 4 * 8; return t.lib.WordArray.create(i, r) } }, t.enc.int8array = { stringify: function (t) { for (var e = t.words, r = t.sigBytes, i = new Int8Array(r), n = 0; n < r; n++) { var o = e[n >>> 2] >> 24 - n % 4 * 8 & 255; i[n] = o } return i }, parse: function (e) { for (var r = e.length, i = [], n = 0; n < r; n++)i[n >>> 2] |= (255 & e[n]) << 24 - n % 4 * 8; return t.lib.WordArray.create(i, r) } }, t.enc.int16array = { stringify: function (t) { for (var e = t.words, r = t.sigBytes, i = new Uint8Array(r), n = 0; n < r; n++) { var o = e[n >>> 2] >>> 24 - n % 4 * 8 & 255; i[n] = o } return i }, parse: function (e) { for (var r = e.length, i = [], n = 0; n < r; n++)i[n >>> 2] |= (255 & e[n]) << 24 - n % 4 * 8; return t.lib.WordArray.create(i, r) } }, t.mode.CFB = function () { function e(t, e, r, i) { var n = this._iv; if (n) { o = n.slice(0); this._iv = void 0 } else var o = this._prevBlock; i.encryptBlock(o, 0); for (var s = 0; s < r; s++)t[e + s] ^= o[s] } var r = t.lib.BlockCipherMode.extend(); return r.Encryptor = r.extend({ processBlock: function (t, r) { var i = this._cipher, n = i.blockSize; e.call(this, t, r, n, i), this._prevBlock = t.slice(r, r + n) } }), r.Decryptor = r.extend({ processBlock: function (t, r) { var i = this._cipher, n = i.blockSize, o = t.slice(r, r + n); e.call(this, t, r, n, i), this._prevBlock = o } }), r }(), t.mode.ECB = function () { var e = t.lib.BlockCipherMode.extend(); return e.Encryptor = e.extend({ processBlock: function (t, e) { this._cipher.encryptBlock(t, e) } }), e.Decryptor = e.extend({ processBlock: function (t, e) { this._cipher.decryptBlock(t, e) } }), e }(), t.pad.NoPadding = { pad: function () { }, unpad: function () { } }, module.exports = { CryptoJS: t };
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3. 新增 AES_Utils.js

微信小程序--AES加密解密 ----ECS,Pkcs7,Hex,Utf8
/* 秘钥 */
var _mikey = ****;

/* 引用AES源码js */
var CryptoJS = require(./AES.js).CryptoJS;

/* 加密 */
const aesEncrypt = (word, keyStr) => {
  keyStr = keyStr ? keyStr : _mikey;
  var key = CryptoJS.enc.Utf8.parse(keyStr);
  var srcs = CryptoJS.enc.Utf8.parse(word);
  var encrypted = CryptoJS.AES.encrypt(srcs, key, { mode: CryptoJS.mode.ECB, padding: CryptoJS.pad.Pkcs7 });
  // 输出Base64
  // return encrypted.toString();
  // 输出Hex
  return encrypted.ciphertext.toString().toUpperCase();
}

/* 解密 */
const aesDecrypt = (word, keyStr) => {
  keyStr = keyStr ? keyStr : _mikey;
  // 输出Base64
  // var srcs = word
  // 输出Hex
  var obj = CryptoJS.enc.Hex.parse(word);
  var srcs = CryptoJS.enc.Base64.stringify(obj);

  var key = CryptoJS.enc.Utf8.parse(keyStr);

  var decrypt = CryptoJS.AES.decrypt(srcs, key, { mode: CryptoJS.mode.ECB, padding: CryptoJS.pad.Pkcs7 });

  return CryptoJS.enc.Utf8.stringify(decrypt);
}

/* 暴露接口 */
module.exports = {
  aesEncrypt: aesEncrypt,
  aesDecrypt: aesDecrypt
}
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4. index.js中使用

微信小程序--AES加密解密 ----ECS,Pkcs7,Hex,Utf8
let des3 = require("../../../utils/AES_Util.js")

let params = "abc123"

let data = des3.aesEncrypt(params)
console.log(加密后: , data)

let data1 = des3.aesDecrypt(data)
console.log(解密后: , data1)
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微信小程序--AES加密解密 ----ECS,Pkcs7,Hex,Utf8

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