annotate x/static/js/9831.de8b3aa9.chunk.js.map @ 125:49f3d3878413 draft

planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/jbrowse2 commit 5ea1f9c1eef1de76232e69aa6d34cda77d90d566
author fubar
date Sat, 05 Oct 2024 23:58:05 +0000
parents
children
Ignore whitespace changes - Everywhere: Within whitespace: At end of lines:
rev   line source
125
49f3d3878413 planemo upload for repository https://github.com/galaxyproject/tools-iuc/tree/master/tools/jbrowse2 commit 5ea1f9c1eef1de76232e69aa6d34cda77d90d566
fubar
parents:
diff changeset
1 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(root, factory, undef) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"), require(\"./enc-base64\"), require(\"./md5\"), require(\"./evpkdf\"), require(\"./cipher-core\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\", \"./enc-base64\", \"./md5\", \"./evpkdf\", \"./cipher-core\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t(function () {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var BlockCipher = C_lib.BlockCipher;\n\t var C_algo = C.algo;\n\n\t // Lookup tables\n\t var SBOX = [];\n\t var INV_SBOX = [];\n\t var SUB_MIX_0 = [];\n\t var SUB_MIX_1 = [];\n\t var SUB_MIX_2 = [];\n\t var SUB_MIX_3 = [];\n\t var INV_SUB_MIX_0 = [];\n\t var INV_SUB_MIX_1 = [];\n\t var INV_SUB_MIX_2 = [];\n\t var INV_SUB_MIX_3 = [];\n\n\t // Compute lookup tables\n\t (function () {\n\t // Compute double table\n\t var d = [];\n\t for (var i = 0; i < 256; i++) {\n\t if (i < 128) {\n\t d[i] = i << 1;\n\t } else {\n\t d[i] = (i << 1) ^ 0x11b;\n\t }\n\t }\n\n\t // Walk GF(2^8)\n\t var x = 0;\n\t var xi = 0;\n\t for (var i = 0; i < 256; i++) {\n\t // Compute sbox\n\t var sx = xi ^ (xi << 1) ^ (xi << 2) ^ (xi << 3) ^ (xi << 4);\n\t sx = (sx >>> 8) ^ (sx & 0xff) ^ 0x63;\n\t SBOX[x] = sx;\n\t INV_SBOX[sx] = x;\n\n\t // Compute multiplication\n\t var x2 = d[x];\n\t var x4 = d[x2];\n\t var x8 = d[x4];\n\n\t // Compute sub bytes, mix columns tables\n\t var t = (d[sx] * 0x101) ^ (sx * 0x1010100);\n\t SUB_MIX_0[x] = (t << 24) | (t >>> 8);\n\t SUB_MIX_1[x] = (t << 16) | (t >>> 16);\n\t SUB_MIX_2[x] = (t << 8) | (t >>> 24);\n\t SUB_MIX_3[x] = t;\n\n\t // Compute inv sub bytes, inv mix columns tables\n\t var t = (x8 * 0x1010101) ^ (x4 * 0x10001) ^ (x2 * 0x101) ^ (x * 0x1010100);\n\t INV_SUB_MIX_0[sx] = (t << 24) | (t >>> 8);\n\t INV_SUB_MIX_1[sx] = (t << 16) | (t >>> 16);\n\t INV_SUB_MIX_2[sx] = (t << 8) | (t >>> 24);\n\t INV_SUB_MIX_3[sx] = t;\n\n\t // Compute next counter\n\t if (!x) {\n\t x = xi = 1;\n\t } else {\n\t x = x2 ^ d[d[d[x8 ^ x2]]];\n\t xi ^= d[d[xi]];\n\t }\n\t }\n\t }());\n\n\t // Precomputed Rcon lookup\n\t var RCON = [0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36];\n\n\t /**\n\t * AES block cipher algorithm.\n\t */\n\t var AES = C_algo.AES = BlockCipher.extend({\n\t _doReset: function () {\n\t var t;\n\n\t // Skip reset of nRounds has been set before and key did not change\n\t if (this._nRounds && this._keyPriorReset === this._key) {\n\t return;\n\t }\n\n\t // Shortcuts\n\t var key = this._keyPriorReset = this._key;\n\t var keyWords = key.words;\n\t var keySize = key.sigBytes / 4;\n\n\t // Compute number of rounds\n\t var nRounds = this._nRounds = keySize + 6;\n\n\t // Compute number of key schedule rows\n\t var ksRows = (nRounds + 1) * 4;\n\n\t // Compute key schedule\n\t var keySchedule = this._keySchedule = [];\n\t for (var ksRow = 0; ksRow < ksRows; ksRow++) {\n\t if (ksRow < keySize) {\n\t keySchedule[ksRow] = keyWords[ksRow];\n\t } else {\n\t t = keySchedule[ksRow - 1];\n\n\t if (!(ksRow % keySize)) {\n\t // Rot word\n\t t = (t << 8) | (t >>> 24);\n\n\t // Sub word\n\t t = (SBOX[t >>> 24] << 24) | (SBOX[(t >>> 16) & 0xff] << 16) | (SBOX[(t >>> 8) & 0xff] << 8) | SBOX[t & 0xff];\n\n\t // Mix Rcon\n\t t ^= RCON[(ksRow / keySize) | 0] << 24;\n\t } else if (keySize > 6 && ksRow % keySize == 4) {\n\t // Sub word\n\t t = (SBOX[t >>> 24] << 24) | (SBOX[(t >>> 16) & 0xff] << 16) | (SBOX[(t >>> 8) & 0xff] << 8) | SBOX[t & 0xff];\n\t }\n\n\t keySchedule[ksRow] = keySchedule[ksRow - keySize] ^ t;\n\t }\n\t }\n\n\t // Compute inv key schedule\n\t var invKeySchedule = this._invKeySchedule = [];\n\t for (var invKsRow = 0; invKsRow < ksRows; invKsRow++) {\n\t var ksRow = ksRows - invKsRow;\n\n\t if (invKsRow % 4) {\n\t var t = keySchedule[ksRow];\n\t } else {\n\t var t = keySchedule[ksRow - 4];\n\t }\n\n\t if (invKsRow < 4 || ksRow <= 4) {\n\t invKeySchedule[invKsRow] = t;\n\t } else {\n\t invKeySchedule[invKsRow] = INV_SUB_MIX_0[SBOX[t >>> 24]] ^ INV_SUB_MIX_1[SBOX[(t >>> 16) & 0xff]] ^\n\t INV_SUB_MIX_2[SBOX[(t >>> 8) & 0xff]] ^ INV_SUB_MIX_3[SBOX[t & 0xff]];\n\t }\n\t }\n\t },\n\n\t encryptBlock: function (M, offset) {\n\t this._doCryptBlock(M, offset, this._keySchedule, SUB_MIX_0, SUB_MIX_1, SUB_MIX_2, SUB_MIX_3, SBOX);\n\t },\n\n\t decryptBlock: function (M, offset) {\n\t // Swap 2nd and 4th rows\n\t var t = M[offset + 1];\n\t M[offset + 1] = M[offset + 3];\n\t M[offset + 3] = t;\n\n\t this._doCryptBlock(M, offset, this._invKeySchedule, INV_SUB_MIX_0, INV_SUB_MIX_1, INV_SUB_MIX_2, INV_SUB_MIX_3, INV_SBOX);\n\n\t // Inv swap 2nd and 4th rows\n\t var t = M[offset + 1];\n\t M[offset + 1] = M[offset + 3];\n\t M[offset + 3] = t;\n\t },\n\n\t _doCryptBlock: function (M, offset, keySchedule, SUB_MIX_0, SUB_MIX_1, SUB_MIX_2, SUB_MIX_3, SBOX) {\n\t // Shortcut\n\t var nRounds = this._nRounds;\n\n\t // Get input, add round key\n\t var s0 = M[offset] ^ keySchedule[0];\n\t var s1 = M[offset + 1] ^ keySchedule[1];\n\t var s2 = M[offset + 2] ^ keySchedule[2];\n\t var s3 = M[offset + 3] ^ keySchedule[3];\n\n\t // Key schedule row counter\n\t var ksRow = 4;\n\n\t // Rounds\n\t for (var round = 1; round < nRounds; round++) {\n\t // Shift rows, sub bytes, mix columns, add round key\n\t var t0 = SUB_MIX_0[s0 >>> 24] ^ SUB_MIX_1[(s1 >>> 16) & 0xff] ^ SUB_MIX_2[(s2 >>> 8) & 0xff] ^ SUB_MIX_3[s3 & 0xff] ^ keySchedule[ksRow++];\n\t var t1 = SUB_MIX_0[s1 >>> 24] ^ SUB_MIX_1[(s2 >>> 16) & 0xff] ^ SUB_MIX_2[(s3 >>> 8) & 0xff] ^ SUB_MIX_3[s0 & 0xff] ^ keySchedule[ksRow++];\n\t var t2 = SUB_MIX_0[s2 >>> 24] ^ SUB_MIX_1[(s3 >>> 16) & 0xff] ^ SUB_MIX_2[(s0 >>> 8) & 0xff] ^ SUB_MIX_3[s1 & 0xff] ^ keySchedule[ksRow++];\n\t var t3 = SUB_MIX_0[s3 >>> 24] ^ SUB_MIX_1[(s0 >>> 16) & 0xff] ^ SUB_MIX_2[(s1 >>> 8) & 0xff] ^ SUB_MIX_3[s2 & 0xff] ^ keySchedule[ksRow++];\n\n\t // Update state\n\t s0 = t0;\n\t s1 = t1;\n\t s2 = t2;\n\t s3 = t3;\n\t }\n\n\t // Shift rows, sub bytes, add round key\n\t var t0 = ((SBOX[s0 >>> 24] << 24) | (SBOX[(s1 >>> 16) & 0xff] << 16) | (SBOX[(s2 >>> 8) & 0xff] << 8) | SBOX[s3 & 0xff]) ^ keySchedule[ksRow++];\n\t var t1 = ((SBOX[s1 >>> 24] << 24) | (SBOX[(s2 >>> 16) & 0xff] << 16) | (SBOX[(s3 >>> 8) & 0xff] << 8) | SBOX[s0 & 0xff]) ^ keySchedule[ksRow++];\n\t var t2 = ((SBOX[s2 >>> 24] << 24) | (SBOX[(s3 >>> 16) & 0xff] << 16) | (SBOX[(s0 >>> 8) & 0xff] << 8) | SBOX[s1 & 0xff]) ^ keySchedule[ksRow++];\n\t var t3 = ((SBOX[s3 >>> 24] << 24) | (SBOX[(s0 >>> 16) & 0xff] << 16) | (SBOX[(s1 >>> 8) & 0xff] << 8) | SBOX[s2 & 0xff]) ^ keySchedule[ksRow++];\n\n\t // Set output\n\t M[offset] = t0;\n\t M[offset + 1] = t1;\n\t M[offset + 2] = t2;\n\t M[offset + 3] = t3;\n\t },\n\n\t keySize: 256/32\n\t });\n\n\t /**\n\t * Shortcut functions to the cipher's object interface.\n\t *\n\t * @example\n\t *\n\t * var ciphertext = CryptoJS.AES.encrypt(message, key, cfg);\n\t * var plaintext = CryptoJS.AES.decrypt(ciphertext, key, cfg);\n\t */\n\t C.AES = BlockCipher._createHelper(AES);\n\t}());\n\n\n\treturn CryptoJS.AES;\n\n}));",";(function (root, factory, undef) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"), require(\"./evpkdf\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\", \"./evpkdf\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t/**\n\t * Cipher core components.\n\t */\n\tCryptoJS.lib.Cipher || (function (undefined) {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var Base = C_lib.Base;\n\t var WordArray = C_lib.WordArray;\n\t var BufferedBlockAlgorithm = C_lib.BufferedBlockAlgorithm;\n\t var C_enc = C.enc;\n\t var Utf8 = C_enc.Utf8;\n\t var Base64 = C_enc.Base64;\n\t var C_algo = C.algo;\n\t var EvpKDF = C_algo.EvpKDF;\n\n\t /**\n\t * Abstract base cipher template.\n\t *\n\t * @property {number} keySize This cipher's key size. Default: 4 (128 bits)\n\t * @property {number} ivSize This cipher's IV size. Default: 4 (128 bits)\n\t * @property {number} _ENC_XFORM_MODE A constant representing encryption mode.\n\t * @property {number} _DEC_XFORM_MODE A constant representing decryption mode.\n\t */\n\t var Cipher = C_lib.Cipher = BufferedBlockAlgorithm.extend({\n\t /**\n\t * Configuration options.\n\t *\n\t * @property {WordArray} iv The IV to use for this operation.\n\t */\n\t cfg: Base.extend(),\n\n\t /**\n\t * Creates this cipher in encryption mode.\n\t *\n\t * @param {WordArray} key The key.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @return {Cipher} A cipher instance.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var cipher = CryptoJS.algo.AES.createEncryptor(keyWordArray, { iv: ivWordArray });\n\t */\n\t createEncryptor: function (key, cfg) {\n\t return this.create(this._ENC_XFORM_MODE, key, cfg);\n\t },\n\n\t /**\n\t * Creates this cipher in decryption mode.\n\t *\n\t * @param {WordArray} key The key.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @return {Cipher} A cipher instance.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var cipher = CryptoJS.algo.AES.createDecryptor(keyWordArray, { iv: ivWordArray });\n\t */\n\t createDecryptor: function (key, cfg) {\n\t return this.create(this._DEC_XFORM_MODE, key, cfg);\n\t },\n\n\t /**\n\t * Initializes a newly created cipher.\n\t *\n\t * @param {number} xformMode Either the encryption or decryption transormation mode constant.\n\t * @param {WordArray} key The key.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @example\n\t *\n\t * var cipher = CryptoJS.algo.AES.create(CryptoJS.algo.AES._ENC_XFORM_MODE, keyWordArray, { iv: ivWordArray });\n\t */\n\t init: function (xformMode, key, cfg) {\n\t // Apply config defaults\n\t this.cfg = this.cfg.extend(cfg);\n\n\t // Store transform mode and key\n\t this._xformMode = xformMode;\n\t this._key = key;\n\n\t // Set initial values\n\t this.reset();\n\t },\n\n\t /**\n\t * Resets this cipher to its initial state.\n\t *\n\t * @example\n\t *\n\t * cipher.reset();\n\t */\n\t reset: function () {\n\t // Reset data buffer\n\t BufferedBlockAlgorithm.reset.call(this);\n\n\t // Perform concrete-cipher logic\n\t this._doReset();\n\t },\n\n\t /**\n\t * Adds data to be encrypted or decrypted.\n\t *\n\t * @param {WordArray|string} dataUpdate The data to encrypt or decrypt.\n\t *\n\t * @return {WordArray} The data after processing.\n\t *\n\t * @example\n\t *\n\t * var encrypted = cipher.process('data');\n\t * var encrypted = cipher.process(wordArray);\n\t */\n\t process: function (dataUpdate) {\n\t // Append\n\t this._append(dataUpdate);\n\n\t // Process available blocks\n\t return this._process();\n\t },\n\n\t /**\n\t * Finalizes the encryption or decryption process.\n\t * Note that the finalize operation is effectively a destructive, read-once operation.\n\t *\n\t * @param {WordArray|string} dataUpdate The final data to encrypt or decrypt.\n\t *\n\t * @return {WordArray} The data after final processing.\n\t *\n\t * @example\n\t *\n\t * var encrypted = cipher.finalize();\n\t * var encrypted = cipher.finalize('data');\n\t * var encrypted = cipher.finalize(wordArray);\n\t */\n\t finalize: function (dataUpdate) {\n\t // Final data update\n\t if (dataUpdate) {\n\t this._append(dataUpdate);\n\t }\n\n\t // Perform concrete-cipher logic\n\t var finalProcessedData = this._doFinalize();\n\n\t return finalProcessedData;\n\t },\n\n\t keySize: 128/32,\n\n\t ivSize: 128/32,\n\n\t _ENC_XFORM_MODE: 1,\n\n\t _DEC_XFORM_MODE: 2,\n\n\t /**\n\t * Creates shortcut functions to a cipher's object interface.\n\t *\n\t * @param {Cipher} cipher The cipher to create a helper for.\n\t *\n\t * @return {Object} An object with encrypt and decrypt shortcut functions.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var AES = CryptoJS.lib.Cipher._createHelper(CryptoJS.algo.AES);\n\t */\n\t _createHelper: (function () {\n\t function selectCipherStrategy(key) {\n\t if (typeof key == 'string') {\n\t return PasswordBasedCipher;\n\t } else {\n\t return SerializableCipher;\n\t }\n\t }\n\n\t return function (cipher) {\n\t return {\n\t encrypt: function (message, key, cfg) {\n\t return selectCipherStrategy(key).encrypt(cipher, message, key, cfg);\n\t },\n\n\t decrypt: function (ciphertext, key, cfg) {\n\t return selectCipherStrategy(key).decrypt(cipher, ciphertext, key, cfg);\n\t }\n\t };\n\t };\n\t }())\n\t });\n\n\t /**\n\t * Abstract base stream cipher template.\n\t *\n\t * @property {number} blockSize The number of 32-bit words this cipher operates on. Default: 1 (32 bits)\n\t */\n\t var StreamCipher = C_lib.StreamCipher = Cipher.extend({\n\t _doFinalize: function () {\n\t // Process partial blocks\n\t var finalProcessedBlocks = this._process(!!'flush');\n\n\t return finalProcessedBlocks;\n\t },\n\n\t blockSize: 1\n\t });\n\n\t /**\n\t * Mode namespace.\n\t */\n\t var C_mode = C.mode = {};\n\n\t /**\n\t * Abstract base block cipher mode template.\n\t */\n\t var BlockCipherMode = C_lib.BlockCipherMode = Base.extend({\n\t /**\n\t * Creates this mode for encryption.\n\t *\n\t * @param {Cipher} cipher A block cipher instance.\n\t * @param {Array} iv The IV words.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var mode = CryptoJS.mode.CBC.createEncryptor(cipher, iv.words);\n\t */\n\t createEncryptor: function (cipher, iv) {\n\t return this.Encryptor.create(cipher, iv);\n\t },\n\n\t /**\n\t * Creates this mode for decryption.\n\t *\n\t * @param {Cipher} cipher A block cipher instance.\n\t * @param {Array} iv The IV words.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var mode = CryptoJS.mode.CBC.createDecryptor(cipher, iv.words);\n\t */\n\t createDecryptor: function (cipher, iv) {\n\t return this.Decryptor.create(cipher, iv);\n\t },\n\n\t /**\n\t * Initializes a newly created mode.\n\t *\n\t * @param {Cipher} cipher A block cipher instance.\n\t * @param {Array} iv The IV words.\n\t *\n\t * @example\n\t *\n\t * var mode = CryptoJS.mode.CBC.Encryptor.create(cipher, iv.words);\n\t */\n\t init: function (cipher, iv) {\n\t this._cipher = cipher;\n\t this._iv = iv;\n\t }\n\t });\n\n\t /**\n\t * Cipher Block Chaining mode.\n\t */\n\t var CBC = C_mode.CBC = (function () {\n\t /**\n\t * Abstract base CBC mode.\n\t */\n\t var CBC = BlockCipherMode.extend();\n\n\t /**\n\t * CBC encryptor.\n\t */\n\t CBC.Encryptor = CBC.extend({\n\t /**\n\t * Processes the data block at offset.\n\t *\n\t * @param {Array} words The data words to operate on.\n\t * @param {number} offset The offset where the block starts.\n\t *\n\t * @example\n\t *\n\t * mode.processBlock(data.words, offset);\n\t */\n\t processBlock: function (words, offset) {\n\t // Shortcuts\n\t var cipher = this._cipher;\n\t var blockSize = cipher.blockSize;\n\n\t // XOR and encrypt\n\t xorBlock.call(this, words, offset, blockSize);\n\t cipher.encryptBlock(words, offset);\n\n\t // Remember this block to use with next block\n\t this._prevBlock = words.slice(offset, offset + blockSize);\n\t }\n\t });\n\n\t /**\n\t * CBC decryptor.\n\t */\n\t CBC.Decryptor = CBC.extend({\n\t /**\n\t * Processes the data block at offset.\n\t *\n\t * @param {Array} words The data words to operate on.\n\t * @param {number} offset The offset where the block starts.\n\t *\n\t * @example\n\t *\n\t * mode.processBlock(data.words, offset);\n\t */\n\t processBlock: function (words, offset) {\n\t // Shortcuts\n\t var cipher = this._cipher;\n\t var blockSize = cipher.blockSize;\n\n\t // Remember this block to use with next block\n\t var thisBlock = words.slice(offset, offset + blockSize);\n\n\t // Decrypt and XOR\n\t cipher.decryptBlock(words, offset);\n\t xorBlock.call(this, words, offset, blockSize);\n\n\t // This block becomes the previous block\n\t this._prevBlock = thisBlock;\n\t }\n\t });\n\n\t function xorBlock(words, offset, blockSize) {\n\t var block;\n\n\t // Shortcut\n\t var iv = this._iv;\n\n\t // Choose mixing block\n\t if (iv) {\n\t block = iv;\n\n\t // Remove IV for subsequent blocks\n\t this._iv = undefined;\n\t } else {\n\t block = this._prevBlock;\n\t }\n\n\t // XOR blocks\n\t for (var i = 0; i < blockSize; i++) {\n\t words[offset + i] ^= block[i];\n\t }\n\t }\n\n\t return CBC;\n\t }());\n\n\t /**\n\t * Padding namespace.\n\t */\n\t var C_pad = C.pad = {};\n\n\t /**\n\t * PKCS #5/7 padding strategy.\n\t */\n\t var Pkcs7 = C_pad.Pkcs7 = {\n\t /**\n\t * Pads data using the algorithm defined in PKCS #5/7.\n\t *\n\t * @param {WordArray} data The data to pad.\n\t * @param {number} blockSize The multiple that the data should be padded to.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * CryptoJS.pad.Pkcs7.pad(wordArray, 4);\n\t */\n\t pad: function (data, blockSize) {\n\t // Shortcut\n\t var blockSizeBytes = blockSize * 4;\n\n\t // Count padding bytes\n\t var nPaddingBytes = blockSizeBytes - data.sigBytes % blockSizeBytes;\n\n\t // Create padding word\n\t var paddingWord = (nPaddingBytes << 24) | (nPaddingBytes << 16) | (nPaddingBytes << 8) | nPaddingBytes;\n\n\t // Create padding\n\t var paddingWords = [];\n\t for (var i = 0; i < nPaddingBytes; i += 4) {\n\t paddingWords.push(paddingWord);\n\t }\n\t var padding = WordArray.create(paddingWords, nPaddingBytes);\n\n\t // Add padding\n\t data.concat(padding);\n\t },\n\n\t /**\n\t * Unpads data that had been padded using the algorithm defined in PKCS #5/7.\n\t *\n\t * @param {WordArray} data The data to unpad.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * CryptoJS.pad.Pkcs7.unpad(wordArray);\n\t */\n\t unpad: function (data) {\n\t // Get number of padding bytes from last byte\n\t var nPaddingBytes = data.words[(data.sigBytes - 1) >>> 2] & 0xff;\n\n\t // Remove padding\n\t data.sigBytes -= nPaddingBytes;\n\t }\n\t };\n\n\t /**\n\t * Abstract base block cipher template.\n\t *\n\t * @property {number} blockSize The number of 32-bit words this cipher operates on. Default: 4 (128 bits)\n\t */\n\t var BlockCipher = C_lib.BlockCipher = Cipher.extend({\n\t /**\n\t * Configuration options.\n\t *\n\t * @property {Mode} mode The block mode to use. Default: CBC\n\t * @property {Padding} padding The padding strategy to use. Default: Pkcs7\n\t */\n\t cfg: Cipher.cfg.extend({\n\t mode: CBC,\n\t padding: Pkcs7\n\t }),\n\n\t reset: function () {\n\t var modeCreator;\n\n\t // Reset cipher\n\t Cipher.reset.call(this);\n\n\t // Shortcuts\n\t var cfg = this.cfg;\n\t var iv = cfg.iv;\n\t var mode = cfg.mode;\n\n\t // Reset block mode\n\t if (this._xformMode == this._ENC_XFORM_MODE) {\n\t modeCreator = mode.createEncryptor;\n\t } else /* if (this._xformMode == this._DEC_XFORM_MODE) */ {\n\t modeCreator = mode.createDecryptor;\n\t // Keep at least one block in the buffer for unpadding\n\t this._minBufferSize = 1;\n\t }\n\n\t if (this._mode && this._mode.__creator == modeCreator) {\n\t this._mode.init(this, iv && iv.words);\n\t } else {\n\t this._mode = modeCreator.call(mode, this, iv && iv.words);\n\t this._mode.__creator = modeCreator;\n\t }\n\t },\n\n\t _doProcessBlock: function (words, offset) {\n\t this._mode.processBlock(words, offset);\n\t },\n\n\t _doFinalize: function () {\n\t var finalProcessedBlocks;\n\n\t // Shortcut\n\t var padding = this.cfg.padding;\n\n\t // Finalize\n\t if (this._xformMode == this._ENC_XFORM_MODE) {\n\t // Pad data\n\t padding.pad(this._data, this.blockSize);\n\n\t // Process final blocks\n\t finalProcessedBlocks = this._process(!!'flush');\n\t } else /* if (this._xformMode == this._DEC_XFORM_MODE) */ {\n\t // Process final blocks\n\t finalProcessedBlocks = this._process(!!'flush');\n\n\t // Unpad data\n\t padding.unpad(finalProcessedBlocks);\n\t }\n\n\t return finalProcessedBlocks;\n\t },\n\n\t blockSize: 128/32\n\t });\n\n\t /**\n\t * A collection of cipher parameters.\n\t *\n\t * @property {WordArray} ciphertext The raw ciphertext.\n\t * @property {WordArray} key The key to this ciphertext.\n\t * @property {WordArray} iv The IV used in the ciphering operation.\n\t * @property {WordArray} salt The salt used with a key derivation function.\n\t * @property {Cipher} algorithm The cipher algorithm.\n\t * @property {Mode} mode The block mode used in the ciphering operation.\n\t * @property {Padding} padding The padding scheme used in the ciphering operation.\n\t * @property {number} blockSize The block size of the cipher.\n\t * @property {Format} formatter The default formatting strategy to convert this cipher params object to a string.\n\t */\n\t var CipherParams = C_lib.CipherParams = Base.extend({\n\t /**\n\t * Initializes a newly created cipher params object.\n\t *\n\t * @param {Object} cipherParams An object with any of the possible cipher parameters.\n\t *\n\t * @example\n\t *\n\t * var cipherParams = CryptoJS.lib.CipherParams.create({\n\t * ciphertext: ciphertextWordArray,\n\t * key: keyWordArray,\n\t * iv: ivWordArray,\n\t * salt: saltWordArray,\n\t * algorithm: CryptoJS.algo.AES,\n\t * mode: CryptoJS.mode.CBC,\n\t * padding: CryptoJS.pad.PKCS7,\n\t * blockSize: 4,\n\t * formatter: CryptoJS.format.OpenSSL\n\t * });\n\t */\n\t init: function (cipherParams) {\n\t this.mixIn(cipherParams);\n\t },\n\n\t /**\n\t * Converts this cipher params object to a string.\n\t *\n\t * @param {Format} formatter (Optional) The formatting strategy to use.\n\t *\n\t * @return {string} The stringified cipher params.\n\t *\n\t * @throws Error If neither the formatter nor the default formatter is set.\n\t *\n\t * @example\n\t *\n\t * var string = cipherParams + '';\n\t * var string = cipherParams.toString();\n\t * var string = cipherParams.toString(CryptoJS.format.OpenSSL);\n\t */\n\t toString: function (formatter) {\n\t return (formatter || this.formatter).stringify(this);\n\t }\n\t });\n\n\t /**\n\t * Format namespace.\n\t */\n\t var C_format = C.format = {};\n\n\t /**\n\t * OpenSSL formatting strategy.\n\t */\n\t var OpenSSLFormatter = C_format.OpenSSL = {\n\t /**\n\t * Converts a cipher params object to an OpenSSL-compatible string.\n\t *\n\t * @param {CipherParams} cipherParams The cipher params object.\n\t *\n\t * @return {string} The OpenSSL-compatible string.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var openSSLString = CryptoJS.format.OpenSSL.stringify(cipherParams);\n\t */\n\t stringify: function (cipherParams) {\n\t var wordArray;\n\n\t // Shortcuts\n\t var ciphertext = cipherParams.ciphertext;\n\t var salt = cipherParams.salt;\n\n\t // Format\n\t if (salt) {\n\t wordArray = WordArray.create([0x53616c74, 0x65645f5f]).concat(salt).concat(ciphertext);\n\t } else {\n\t wordArray = ciphertext;\n\t }\n\n\t return wordArray.toString(Base64);\n\t },\n\n\t /**\n\t * Converts an OpenSSL-compatible string to a cipher params object.\n\t *\n\t * @param {string} openSSLStr The OpenSSL-compatible string.\n\t *\n\t * @return {CipherParams} The cipher params object.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var cipherParams = CryptoJS.format.OpenSSL.parse(openSSLString);\n\t */\n\t parse: function (openSSLStr) {\n\t var salt;\n\n\t // Parse base64\n\t var ciphertext = Base64.parse(openSSLStr);\n\n\t // Shortcut\n\t var ciphertextWords = ciphertext.words;\n\n\t // Test for salt\n\t if (ciphertextWords[0] == 0x53616c74 && ciphertextWords[1] == 0x65645f5f) {\n\t // Extract salt\n\t salt = WordArray.create(ciphertextWords.slice(2, 4));\n\n\t // Remove salt from ciphertext\n\t ciphertextWords.splice(0, 4);\n\t ciphertext.sigBytes -= 16;\n\t }\n\n\t return CipherParams.create({ ciphertext: ciphertext, salt: salt });\n\t }\n\t };\n\n\t /**\n\t * A cipher wrapper that returns ciphertext as a serializable cipher params object.\n\t */\n\t var SerializableCipher = C_lib.SerializableCipher = Base.extend({\n\t /**\n\t * Configuration options.\n\t *\n\t * @property {Formatter} format The formatting strategy to convert cipher param objects to and from a string. Default: OpenSSL\n\t */\n\t cfg: Base.extend({\n\t format: OpenSSLFormatter\n\t }),\n\n\t /**\n\t * Encrypts a message.\n\t *\n\t * @param {Cipher} cipher The cipher algorithm to use.\n\t * @param {WordArray|string} message The message to encrypt.\n\t * @param {WordArray} key The key.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @return {CipherParams} A cipher params object.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var ciphertextParams = CryptoJS.lib.SerializableCipher.encrypt(CryptoJS.algo.AES, message, key);\n\t * var ciphertextParams = CryptoJS.lib.SerializableCipher.encrypt(CryptoJS.algo.AES, message, key, { iv: iv });\n\t * var ciphertextParams = CryptoJS.lib.SerializableCipher.encrypt(CryptoJS.algo.AES, message, key, { iv: iv, format: CryptoJS.format.OpenSSL });\n\t */\n\t encrypt: function (cipher, message, key, cfg) {\n\t // Apply config defaults\n\t cfg = this.cfg.extend(cfg);\n\n\t // Encrypt\n\t var encryptor = cipher.createEncryptor(key, cfg);\n\t var ciphertext = encryptor.finalize(message);\n\n\t // Shortcut\n\t var cipherCfg = encryptor.cfg;\n\n\t // Create and return serializable cipher params\n\t return CipherParams.create({\n\t ciphertext: ciphertext,\n\t key: key,\n\t iv: cipherCfg.iv,\n\t algorithm: cipher,\n\t mode: cipherCfg.mode,\n\t padding: cipherCfg.padding,\n\t blockSize: cipher.blockSize,\n\t formatter: cfg.format\n\t });\n\t },\n\n\t /**\n\t * Decrypts serialized ciphertext.\n\t *\n\t * @param {Cipher} cipher The cipher algorithm to use.\n\t * @param {CipherParams|string} ciphertext The ciphertext to decrypt.\n\t * @param {WordArray} key The key.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @return {WordArray} The plaintext.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var plaintext = CryptoJS.lib.SerializableCipher.decrypt(CryptoJS.algo.AES, formattedCiphertext, key, { iv: iv, format: CryptoJS.format.OpenSSL });\n\t * var plaintext = CryptoJS.lib.SerializableCipher.decrypt(CryptoJS.algo.AES, ciphertextParams, key, { iv: iv, format: CryptoJS.format.OpenSSL });\n\t */\n\t decrypt: function (cipher, ciphertext, key, cfg) {\n\t // Apply config defaults\n\t cfg = this.cfg.extend(cfg);\n\n\t // Convert string to CipherParams\n\t ciphertext = this._parse(ciphertext, cfg.format);\n\n\t // Decrypt\n\t var plaintext = cipher.createDecryptor(key, cfg).finalize(ciphertext.ciphertext);\n\n\t return plaintext;\n\t },\n\n\t /**\n\t * Converts serialized ciphertext to CipherParams,\n\t * else assumed CipherParams already and returns ciphertext unchanged.\n\t *\n\t * @param {CipherParams|string} ciphertext The ciphertext.\n\t * @param {Formatter} format The formatting strategy to use to parse serialized ciphertext.\n\t *\n\t * @return {CipherParams} The unserialized ciphertext.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var ciphertextParams = CryptoJS.lib.SerializableCipher._parse(ciphertextStringOrParams, format);\n\t */\n\t _parse: function (ciphertext, format) {\n\t if (typeof ciphertext == 'string') {\n\t return format.parse(ciphertext, this);\n\t } else {\n\t return ciphertext;\n\t }\n\t }\n\t });\n\n\t /**\n\t * Key derivation function namespace.\n\t */\n\t var C_kdf = C.kdf = {};\n\n\t /**\n\t * OpenSSL key derivation function.\n\t */\n\t var OpenSSLKdf = C_kdf.OpenSSL = {\n\t /**\n\t * Derives a key and IV from a password.\n\t *\n\t * @param {string} password The password to derive from.\n\t * @param {number} keySize The size in words of the key to generate.\n\t * @param {number} ivSize The size in words of the IV to generate.\n\t * @param {WordArray|string} salt (Optional) A 64-bit salt to use. If omitted, a salt will be generated randomly.\n\t *\n\t * @return {CipherParams} A cipher params object with the key, IV, and salt.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var derivedParams = CryptoJS.kdf.OpenSSL.execute('Password', 256/32, 128/32);\n\t * var derivedParams = CryptoJS.kdf.OpenSSL.execute('Password', 256/32, 128/32, 'saltsalt');\n\t */\n\t execute: function (password, keySize, ivSize, salt, hasher) {\n\t // Generate random salt\n\t if (!salt) {\n\t salt = WordArray.random(64/8);\n\t }\n\n\t // Derive key and IV\n\t if (!hasher) {\n\t var key = EvpKDF.create({ keySize: keySize + ivSize }).compute(password, salt);\n\t } else {\n\t var key = EvpKDF.create({ keySize: keySize + ivSize, hasher: hasher }).compute(password, salt);\n\t }\n\n\n\t // Separate key and IV\n\t var iv = WordArray.create(key.words.slice(keySize), ivSize * 4);\n\t key.sigBytes = keySize * 4;\n\n\t // Return params\n\t return CipherParams.create({ key: key, iv: iv, salt: salt });\n\t }\n\t };\n\n\t /**\n\t * A serializable cipher wrapper that derives the key from a password,\n\t * and returns ciphertext as a serializable cipher params object.\n\t */\n\t var PasswordBasedCipher = C_lib.PasswordBasedCipher = SerializableCipher.extend({\n\t /**\n\t * Configuration options.\n\t *\n\t * @property {KDF} kdf The key derivation function to use to generate a key and IV from a password. Default: OpenSSL\n\t */\n\t cfg: SerializableCipher.cfg.extend({\n\t kdf: OpenSSLKdf\n\t }),\n\n\t /**\n\t * Encrypts a message using a password.\n\t *\n\t * @param {Cipher} cipher The cipher algorithm to use.\n\t * @param {WordArray|string} message The message to encrypt.\n\t * @param {string} password The password.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @return {CipherParams} A cipher params object.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var ciphertextParams = CryptoJS.lib.PasswordBasedCipher.encrypt(CryptoJS.algo.AES, message, 'password');\n\t * var ciphertextParams = CryptoJS.lib.PasswordBasedCipher.encrypt(CryptoJS.algo.AES, message, 'password', { format: CryptoJS.format.OpenSSL });\n\t */\n\t encrypt: function (cipher, message, password, cfg) {\n\t // Apply config defaults\n\t cfg = this.cfg.extend(cfg);\n\n\t // Derive key and other params\n\t var derivedParams = cfg.kdf.execute(password, cipher.keySize, cipher.ivSize, cfg.salt, cfg.hasher);\n\n\t // Add IV to config\n\t cfg.iv = derivedParams.iv;\n\n\t // Encrypt\n\t var ciphertext = SerializableCipher.encrypt.call(this, cipher, message, derivedParams.key, cfg);\n\n\t // Mix in derived params\n\t ciphertext.mixIn(derivedParams);\n\n\t return ciphertext;\n\t },\n\n\t /**\n\t * Decrypts serialized ciphertext using a password.\n\t *\n\t * @param {Cipher} cipher The cipher algorithm to use.\n\t * @param {CipherParams|string} ciphertext The ciphertext to decrypt.\n\t * @param {string} password The password.\n\t * @param {Object} cfg (Optional) The configuration options to use for this operation.\n\t *\n\t * @return {WordArray} The plaintext.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var plaintext = CryptoJS.lib.PasswordBasedCipher.decrypt(CryptoJS.algo.AES, formattedCiphertext, 'password', { format: CryptoJS.format.OpenSSL });\n\t * var plaintext = CryptoJS.lib.PasswordBasedCipher.decrypt(CryptoJS.algo.AES, ciphertextParams, 'password', { format: CryptoJS.format.OpenSSL });\n\t */\n\t decrypt: function (cipher, ciphertext, password, cfg) {\n\t // Apply config defaults\n\t cfg = this.cfg.extend(cfg);\n\n\t // Convert string to CipherParams\n\t ciphertext = this._parse(ciphertext, cfg.format);\n\n\t // Derive key and other params\n\t var derivedParams = cfg.kdf.execute(password, cipher.keySize, cipher.ivSize, ciphertext.salt, cfg.hasher);\n\n\t // Add IV to config\n\t cfg.iv = derivedParams.iv;\n\n\t // Decrypt\n\t var plaintext = SerializableCipher.decrypt.call(this, cipher, ciphertext, derivedParams.key, cfg);\n\n\t return plaintext;\n\t }\n\t });\n\t}());\n\n\n}));",";(function (root, factory) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t(function () {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var WordArray = C_lib.WordArray;\n\t var C_enc = C.enc;\n\n\t /**\n\t * Base64 encoding strategy.\n\t */\n\t var Base64 = C_enc.Base64 = {\n\t /**\n\t * Converts a word array to a Base64 string.\n\t *\n\t * @param {WordArray} wordArray The word array.\n\t *\n\t * @return {string} The Base64 string.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var base64String = CryptoJS.enc.Base64.stringify(wordArray);\n\t */\n\t stringify: function (wordArray) {\n\t // Shortcuts\n\t var words = wordArray.words;\n\t var sigBytes = wordArray.sigBytes;\n\t var map = this._map;\n\n\t // Clamp excess bits\n\t wordArray.clamp();\n\n\t // Convert\n\t var base64Chars = [];\n\t for (var i = 0; i < sigBytes; i += 3) {\n\t var byte1 = (words[i >>> 2] >>> (24 - (i % 4) * 8)) & 0xff;\n\t var byte2 = (words[(i + 1) >>> 2] >>> (24 - ((i + 1) % 4) * 8)) & 0xff;\n\t var byte3 = (words[(i + 2) >>> 2] >>> (24 - ((i + 2) % 4) * 8)) & 0xff;\n\n\t var triplet = (byte1 << 16) | (byte2 << 8) | byte3;\n\n\t for (var j = 0; (j < 4) && (i + j * 0.75 < sigBytes); j++) {\n\t base64Chars.push(map.charAt((triplet >>> (6 * (3 - j))) & 0x3f));\n\t }\n\t }\n\n\t // Add padding\n\t var paddingChar = map.charAt(64);\n\t if (paddingChar) {\n\t while (base64Chars.length % 4) {\n\t base64Chars.push(paddingChar);\n\t }\n\t }\n\n\t return base64Chars.join('');\n\t },\n\n\t /**\n\t * Converts a Base64 string to a word array.\n\t *\n\t * @param {string} base64Str The Base64 string.\n\t *\n\t * @return {WordArray} The word array.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var wordArray = CryptoJS.enc.Base64.parse(base64String);\n\t */\n\t parse: function (base64Str) {\n\t // Shortcuts\n\t var base64StrLength = base64Str.length;\n\t var map = this._map;\n\t var reverseMap = this._reverseMap;\n\n\t if (!reverseMap) {\n\t reverseMap = this._reverseMap = [];\n\t for (var j = 0; j < map.length; j++) {\n\t reverseMap[map.charCodeAt(j)] = j;\n\t }\n\t }\n\n\t // Ignore padding\n\t var paddingChar = map.charAt(64);\n\t if (paddingChar) {\n\t var paddingIndex = base64Str.indexOf(paddingChar);\n\t if (paddingIndex !== -1) {\n\t base64StrLength = paddingIndex;\n\t }\n\t }\n\n\t // Convert\n\t return parseLoop(base64Str, base64StrLength, reverseMap);\n\n\t },\n\n\t _map: 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/='\n\t };\n\n\t function parseLoop(base64Str, base64StrLength, reverseMap) {\n\t var words = [];\n\t var nBytes = 0;\n\t for (var i = 0; i < base64StrLength; i++) {\n\t if (i % 4) {\n\t var bits1 = reverseMap[base64Str.charCodeAt(i - 1)] << ((i % 4) * 2);\n\t var bits2 = reverseMap[base64Str.charCodeAt(i)] >>> (6 - (i % 4) * 2);\n\t var bitsCombined = bits1 | bits2;\n\t words[nBytes >>> 2] |= bitsCombined << (24 - (nBytes % 4) * 8);\n\t nBytes++;\n\t }\n\t }\n\t return WordArray.create(words, nBytes);\n\t }\n\t}());\n\n\n\treturn CryptoJS.enc.Base64;\n\n}));",";(function (root, factory, undef) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"), require(\"./sha1\"), require(\"./hmac\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\", \"./sha1\", \"./hmac\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t(function () {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var Base = C_lib.Base;\n\t var WordArray = C_lib.WordArray;\n\t var C_algo = C.algo;\n\t var MD5 = C_algo.MD5;\n\n\t /**\n\t * This key derivation function is meant to conform with EVP_BytesToKey.\n\t * www.openssl.org/docs/crypto/EVP_BytesToKey.html\n\t */\n\t var EvpKDF = C_algo.EvpKDF = Base.extend({\n\t /**\n\t * Configuration options.\n\t *\n\t * @property {number} keySize The key size in words to generate. Default: 4 (128 bits)\n\t * @property {Hasher} hasher The hash algorithm to use. Default: MD5\n\t * @property {number} iterations The number of iterations to perform. Default: 1\n\t */\n\t cfg: Base.extend({\n\t keySize: 128/32,\n\t hasher: MD5,\n\t iterations: 1\n\t }),\n\n\t /**\n\t * Initializes a newly created key derivation function.\n\t *\n\t * @param {Object} cfg (Optional) The configuration options to use for the derivation.\n\t *\n\t * @example\n\t *\n\t * var kdf = CryptoJS.algo.EvpKDF.create();\n\t * var kdf = CryptoJS.algo.EvpKDF.create({ keySize: 8 });\n\t * var kdf = CryptoJS.algo.EvpKDF.create({ keySize: 8, iterations: 1000 });\n\t */\n\t init: function (cfg) {\n\t this.cfg = this.cfg.extend(cfg);\n\t },\n\n\t /**\n\t * Derives a key from a password.\n\t *\n\t * @param {WordArray|string} password The password.\n\t * @param {WordArray|string} salt A salt.\n\t *\n\t * @return {WordArray} The derived key.\n\t *\n\t * @example\n\t *\n\t * var key = kdf.compute(password, salt);\n\t */\n\t compute: function (password, salt) {\n\t var block;\n\n\t // Shortcut\n\t var cfg = this.cfg;\n\n\t // Init hasher\n\t var hasher = cfg.hasher.create();\n\n\t // Initial values\n\t var derivedKey = WordArray.create();\n\n\t // Shortcuts\n\t var derivedKeyWords = derivedKey.words;\n\t var keySize = cfg.keySize;\n\t var iterations = cfg.iterations;\n\n\t // Generate key\n\t while (derivedKeyWords.length < keySize) {\n\t if (block) {\n\t hasher.update(block);\n\t }\n\t block = hasher.update(password).finalize(salt);\n\t hasher.reset();\n\n\t // Iterations\n\t for (var i = 1; i < iterations; i++) {\n\t block = hasher.finalize(block);\n\t hasher.reset();\n\t }\n\n\t derivedKey.concat(block);\n\t }\n\t derivedKey.sigBytes = keySize * 4;\n\n\t return derivedKey;\n\t }\n\t });\n\n\t /**\n\t * Derives a key from a password.\n\t *\n\t * @param {WordArray|string} password The password.\n\t * @param {WordArray|string} salt A salt.\n\t * @param {Object} cfg (Optional) The configuration options to use for this computation.\n\t *\n\t * @return {WordArray} The derived key.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var key = CryptoJS.EvpKDF(password, salt);\n\t * var key = CryptoJS.EvpKDF(password, salt, { keySize: 8 });\n\t * var key = CryptoJS.EvpKDF(password, salt, { keySize: 8, iterations: 1000 });\n\t */\n\t C.EvpKDF = function (password, salt, cfg) {\n\t return EvpKDF.create(cfg).compute(password, salt);\n\t };\n\t}());\n\n\n\treturn CryptoJS.EvpKDF;\n\n}));",";(function (root, factory) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t(function () {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var Base = C_lib.Base;\n\t var C_enc = C.enc;\n\t var Utf8 = C_enc.Utf8;\n\t var C_algo = C.algo;\n\n\t /**\n\t * HMAC algorithm.\n\t */\n\t var HMAC = C_algo.HMAC = Base.extend({\n\t /**\n\t * Initializes a newly created HMAC.\n\t *\n\t * @param {Hasher} hasher The hash algorithm to use.\n\t * @param {WordArray|string} key The secret key.\n\t *\n\t * @example\n\t *\n\t * var hmacHasher = CryptoJS.algo.HMAC.create(CryptoJS.algo.SHA256, key);\n\t */\n\t init: function (hasher, key) {\n\t // Init hasher\n\t hasher = this._hasher = new hasher.init();\n\n\t // Convert string to WordArray, else assume WordArray already\n\t if (typeof key == 'string') {\n\t key = Utf8.parse(key);\n\t }\n\n\t // Shortcuts\n\t var hasherBlockSize = hasher.blockSize;\n\t var hasherBlockSizeBytes = hasherBlockSize * 4;\n\n\t // Allow arbitrary length keys\n\t if (key.sigBytes > hasherBlockSizeBytes) {\n\t key = hasher.finalize(key);\n\t }\n\n\t // Clamp excess bits\n\t key.clamp();\n\n\t // Clone key for inner and outer pads\n\t var oKey = this._oKey = key.clone();\n\t var iKey = this._iKey = key.clone();\n\n\t // Shortcuts\n\t var oKeyWords = oKey.words;\n\t var iKeyWords = iKey.words;\n\n\t // XOR keys with pad constants\n\t for (var i = 0; i < hasherBlockSize; i++) {\n\t oKeyWords[i] ^= 0x5c5c5c5c;\n\t iKeyWords[i] ^= 0x36363636;\n\t }\n\t oKey.sigBytes = iKey.sigBytes = hasherBlockSizeBytes;\n\n\t // Set initial values\n\t this.reset();\n\t },\n\n\t /**\n\t * Resets this HMAC to its initial state.\n\t *\n\t * @example\n\t *\n\t * hmacHasher.reset();\n\t */\n\t reset: function () {\n\t // Shortcut\n\t var hasher = this._hasher;\n\n\t // Reset\n\t hasher.reset();\n\t hasher.update(this._iKey);\n\t },\n\n\t /**\n\t * Updates this HMAC with a message.\n\t *\n\t * @param {WordArray|string} messageUpdate The message to append.\n\t *\n\t * @return {HMAC} This HMAC instance.\n\t *\n\t * @example\n\t *\n\t * hmacHasher.update('message');\n\t * hmacHasher.update(wordArray);\n\t */\n\t update: function (messageUpdate) {\n\t this._hasher.update(messageUpdate);\n\n\t // Chainable\n\t return this;\n\t },\n\n\t /**\n\t * Finalizes the HMAC computation.\n\t * Note that the finalize operation is effectively a destructive, read-once operation.\n\t *\n\t * @param {WordArray|string} messageUpdate (Optional) A final message update.\n\t *\n\t * @return {WordArray} The HMAC.\n\t *\n\t * @example\n\t *\n\t * var hmac = hmacHasher.finalize();\n\t * var hmac = hmacHasher.finalize('message');\n\t * var hmac = hmacHasher.finalize(wordArray);\n\t */\n\t finalize: function (messageUpdate) {\n\t // Shortcut\n\t var hasher = this._hasher;\n\n\t // Compute HMAC\n\t var innerHash = hasher.finalize(messageUpdate);\n\t hasher.reset();\n\t var hmac = hasher.finalize(this._oKey.clone().concat(innerHash));\n\n\t return hmac;\n\t }\n\t });\n\t}());\n\n\n}));",";(function (root, factory) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t(function (Math) {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var WordArray = C_lib.WordArray;\n\t var Hasher = C_lib.Hasher;\n\t var C_algo = C.algo;\n\n\t // Constants table\n\t var T = [];\n\n\t // Compute constants\n\t (function () {\n\t for (var i = 0; i < 64; i++) {\n\t T[i] = (Math.abs(Math.sin(i + 1)) * 0x100000000) | 0;\n\t }\n\t }());\n\n\t /**\n\t * MD5 hash algorithm.\n\t */\n\t var MD5 = C_algo.MD5 = Hasher.extend({\n\t _doReset: function () {\n\t this._hash = new WordArray.init([\n\t 0x67452301, 0xefcdab89,\n\t 0x98badcfe, 0x10325476\n\t ]);\n\t },\n\n\t _doProcessBlock: function (M, offset) {\n\t // Swap endian\n\t for (var i = 0; i < 16; i++) {\n\t // Shortcuts\n\t var offset_i = offset + i;\n\t var M_offset_i = M[offset_i];\n\n\t M[offset_i] = (\n\t (((M_offset_i << 8) | (M_offset_i >>> 24)) & 0x00ff00ff) |\n\t (((M_offset_i << 24) | (M_offset_i >>> 8)) & 0xff00ff00)\n\t );\n\t }\n\n\t // Shortcuts\n\t var H = this._hash.words;\n\n\t var M_offset_0 = M[offset + 0];\n\t var M_offset_1 = M[offset + 1];\n\t var M_offset_2 = M[offset + 2];\n\t var M_offset_3 = M[offset + 3];\n\t var M_offset_4 = M[offset + 4];\n\t var M_offset_5 = M[offset + 5];\n\t var M_offset_6 = M[offset + 6];\n\t var M_offset_7 = M[offset + 7];\n\t var M_offset_8 = M[offset + 8];\n\t var M_offset_9 = M[offset + 9];\n\t var M_offset_10 = M[offset + 10];\n\t var M_offset_11 = M[offset + 11];\n\t var M_offset_12 = M[offset + 12];\n\t var M_offset_13 = M[offset + 13];\n\t var M_offset_14 = M[offset + 14];\n\t var M_offset_15 = M[offset + 15];\n\n\t // Working variables\n\t var a = H[0];\n\t var b = H[1];\n\t var c = H[2];\n\t var d = H[3];\n\n\t // Computation\n\t a = FF(a, b, c, d, M_offset_0, 7, T[0]);\n\t d = FF(d, a, b, c, M_offset_1, 12, T[1]);\n\t c = FF(c, d, a, b, M_offset_2, 17, T[2]);\n\t b = FF(b, c, d, a, M_offset_3, 22, T[3]);\n\t a = FF(a, b, c, d, M_offset_4, 7, T[4]);\n\t d = FF(d, a, b, c, M_offset_5, 12, T[5]);\n\t c = FF(c, d, a, b, M_offset_6, 17, T[6]);\n\t b = FF(b, c, d, a, M_offset_7, 22, T[7]);\n\t a = FF(a, b, c, d, M_offset_8, 7, T[8]);\n\t d = FF(d, a, b, c, M_offset_9, 12, T[9]);\n\t c = FF(c, d, a, b, M_offset_10, 17, T[10]);\n\t b = FF(b, c, d, a, M_offset_11, 22, T[11]);\n\t a = FF(a, b, c, d, M_offset_12, 7, T[12]);\n\t d = FF(d, a, b, c, M_offset_13, 12, T[13]);\n\t c = FF(c, d, a, b, M_offset_14, 17, T[14]);\n\t b = FF(b, c, d, a, M_offset_15, 22, T[15]);\n\n\t a = GG(a, b, c, d, M_offset_1, 5, T[16]);\n\t d = GG(d, a, b, c, M_offset_6, 9, T[17]);\n\t c = GG(c, d, a, b, M_offset_11, 14, T[18]);\n\t b = GG(b, c, d, a, M_offset_0, 20, T[19]);\n\t a = GG(a, b, c, d, M_offset_5, 5, T[20]);\n\t d = GG(d, a, b, c, M_offset_10, 9, T[21]);\n\t c = GG(c, d, a, b, M_offset_15, 14, T[22]);\n\t b = GG(b, c, d, a, M_offset_4, 20, T[23]);\n\t a = GG(a, b, c, d, M_offset_9, 5, T[24]);\n\t d = GG(d, a, b, c, M_offset_14, 9, T[25]);\n\t c = GG(c, d, a, b, M_offset_3, 14, T[26]);\n\t b = GG(b, c, d, a, M_offset_8, 20, T[27]);\n\t a = GG(a, b, c, d, M_offset_13, 5, T[28]);\n\t d = GG(d, a, b, c, M_offset_2, 9, T[29]);\n\t c = GG(c, d, a, b, M_offset_7, 14, T[30]);\n\t b = GG(b, c, d, a, M_offset_12, 20, T[31]);\n\n\t a = HH(a, b, c, d, M_offset_5, 4, T[32]);\n\t d = HH(d, a, b, c, M_offset_8, 11, T[33]);\n\t c = HH(c, d, a, b, M_offset_11, 16, T[34]);\n\t b = HH(b, c, d, a, M_offset_14, 23, T[35]);\n\t a = HH(a, b, c, d, M_offset_1, 4, T[36]);\n\t d = HH(d, a, b, c, M_offset_4, 11, T[37]);\n\t c = HH(c, d, a, b, M_offset_7, 16, T[38]);\n\t b = HH(b, c, d, a, M_offset_10, 23, T[39]);\n\t a = HH(a, b, c, d, M_offset_13, 4, T[40]);\n\t d = HH(d, a, b, c, M_offset_0, 11, T[41]);\n\t c = HH(c, d, a, b, M_offset_3, 16, T[42]);\n\t b = HH(b, c, d, a, M_offset_6, 23, T[43]);\n\t a = HH(a, b, c, d, M_offset_9, 4, T[44]);\n\t d = HH(d, a, b, c, M_offset_12, 11, T[45]);\n\t c = HH(c, d, a, b, M_offset_15, 16, T[46]);\n\t b = HH(b, c, d, a, M_offset_2, 23, T[47]);\n\n\t a = II(a, b, c, d, M_offset_0, 6, T[48]);\n\t d = II(d, a, b, c, M_offset_7, 10, T[49]);\n\t c = II(c, d, a, b, M_offset_14, 15, T[50]);\n\t b = II(b, c, d, a, M_offset_5, 21, T[51]);\n\t a = II(a, b, c, d, M_offset_12, 6, T[52]);\n\t d = II(d, a, b, c, M_offset_3, 10, T[53]);\n\t c = II(c, d, a, b, M_offset_10, 15, T[54]);\n\t b = II(b, c, d, a, M_offset_1, 21, T[55]);\n\t a = II(a, b, c, d, M_offset_8, 6, T[56]);\n\t d = II(d, a, b, c, M_offset_15, 10, T[57]);\n\t c = II(c, d, a, b, M_offset_6, 15, T[58]);\n\t b = II(b, c, d, a, M_offset_13, 21, T[59]);\n\t a = II(a, b, c, d, M_offset_4, 6, T[60]);\n\t d = II(d, a, b, c, M_offset_11, 10, T[61]);\n\t c = II(c, d, a, b, M_offset_2, 15, T[62]);\n\t b = II(b, c, d, a, M_offset_9, 21, T[63]);\n\n\t // Intermediate hash value\n\t H[0] = (H[0] + a) | 0;\n\t H[1] = (H[1] + b) | 0;\n\t H[2] = (H[2] + c) | 0;\n\t H[3] = (H[3] + d) | 0;\n\t },\n\n\t _doFinalize: function () {\n\t // Shortcuts\n\t var data = this._data;\n\t var dataWords = data.words;\n\n\t var nBitsTotal = this._nDataBytes * 8;\n\t var nBitsLeft = data.sigBytes * 8;\n\n\t // Add padding\n\t dataWords[nBitsLeft >>> 5] |= 0x80 << (24 - nBitsLeft % 32);\n\n\t var nBitsTotalH = Math.floor(nBitsTotal / 0x100000000);\n\t var nBitsTotalL = nBitsTotal;\n\t dataWords[(((nBitsLeft + 64) >>> 9) << 4) + 15] = (\n\t (((nBitsTotalH << 8) | (nBitsTotalH >>> 24)) & 0x00ff00ff) |\n\t (((nBitsTotalH << 24) | (nBitsTotalH >>> 8)) & 0xff00ff00)\n\t );\n\t dataWords[(((nBitsLeft + 64) >>> 9) << 4) + 14] = (\n\t (((nBitsTotalL << 8) | (nBitsTotalL >>> 24)) & 0x00ff00ff) |\n\t (((nBitsTotalL << 24) | (nBitsTotalL >>> 8)) & 0xff00ff00)\n\t );\n\n\t data.sigBytes = (dataWords.length + 1) * 4;\n\n\t // Hash final blocks\n\t this._process();\n\n\t // Shortcuts\n\t var hash = this._hash;\n\t var H = hash.words;\n\n\t // Swap endian\n\t for (var i = 0; i < 4; i++) {\n\t // Shortcut\n\t var H_i = H[i];\n\n\t H[i] = (((H_i << 8) | (H_i >>> 24)) & 0x00ff00ff) |\n\t (((H_i << 24) | (H_i >>> 8)) & 0xff00ff00);\n\t }\n\n\t // Return final computed hash\n\t return hash;\n\t },\n\n\t clone: function () {\n\t var clone = Hasher.clone.call(this);\n\t clone._hash = this._hash.clone();\n\n\t return clone;\n\t }\n\t });\n\n\t function FF(a, b, c, d, x, s, t) {\n\t var n = a + ((b & c) | (~b & d)) + x + t;\n\t return ((n << s) | (n >>> (32 - s))) + b;\n\t }\n\n\t function GG(a, b, c, d, x, s, t) {\n\t var n = a + ((b & d) | (c & ~d)) + x + t;\n\t return ((n << s) | (n >>> (32 - s))) + b;\n\t }\n\n\t function HH(a, b, c, d, x, s, t) {\n\t var n = a + (b ^ c ^ d) + x + t;\n\t return ((n << s) | (n >>> (32 - s))) + b;\n\t }\n\n\t function II(a, b, c, d, x, s, t) {\n\t var n = a + (c ^ (b | ~d)) + x + t;\n\t return ((n << s) | (n >>> (32 - s))) + b;\n\t }\n\n\t /**\n\t * Shortcut function to the hasher's object interface.\n\t *\n\t * @param {WordArray|string} message The message to hash.\n\t *\n\t * @return {WordArray} The hash.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var hash = CryptoJS.MD5('message');\n\t * var hash = CryptoJS.MD5(wordArray);\n\t */\n\t C.MD5 = Hasher._createHelper(MD5);\n\n\t /**\n\t * Shortcut function to the HMAC's object interface.\n\t *\n\t * @param {WordArray|string} message The message to hash.\n\t * @param {WordArray|string} key The secret key.\n\t *\n\t * @return {WordArray} The HMAC.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var hmac = CryptoJS.HmacMD5(message, key);\n\t */\n\t C.HmacMD5 = Hasher._createHmacHelper(MD5);\n\t}(Math));\n\n\n\treturn CryptoJS.MD5;\n\n}));",";(function (root, factory) {\n\tif (typeof exports === \"object\") {\n\t\t// CommonJS\n\t\tmodule.exports = exports = factory(require(\"./core\"));\n\t}\n\telse if (typeof define === \"function\" && define.amd) {\n\t\t// AMD\n\t\tdefine([\"./core\"], factory);\n\t}\n\telse {\n\t\t// Global (browser)\n\t\tfactory(root.CryptoJS);\n\t}\n}(this, function (CryptoJS) {\n\n\t(function () {\n\t // Shortcuts\n\t var C = CryptoJS;\n\t var C_lib = C.lib;\n\t var WordArray = C_lib.WordArray;\n\t var Hasher = C_lib.Hasher;\n\t var C_algo = C.algo;\n\n\t // Reusable object\n\t var W = [];\n\n\t /**\n\t * SHA-1 hash algorithm.\n\t */\n\t var SHA1 = C_algo.SHA1 = Hasher.extend({\n\t _doReset: function () {\n\t this._hash = new WordArray.init([\n\t 0x67452301, 0xefcdab89,\n\t 0x98badcfe, 0x10325476,\n\t 0xc3d2e1f0\n\t ]);\n\t },\n\n\t _doProcessBlock: function (M, offset) {\n\t // Shortcut\n\t var H = this._hash.words;\n\n\t // Working variables\n\t var a = H[0];\n\t var b = H[1];\n\t var c = H[2];\n\t var d = H[3];\n\t var e = H[4];\n\n\t // Computation\n\t for (var i = 0; i < 80; i++) {\n\t if (i < 16) {\n\t W[i] = M[offset + i] | 0;\n\t } else {\n\t var n = W[i - 3] ^ W[i - 8] ^ W[i - 14] ^ W[i - 16];\n\t W[i] = (n << 1) | (n >>> 31);\n\t }\n\n\t var t = ((a << 5) | (a >>> 27)) + e + W[i];\n\t if (i < 20) {\n\t t += ((b & c) | (~b & d)) + 0x5a827999;\n\t } else if (i < 40) {\n\t t += (b ^ c ^ d) + 0x6ed9eba1;\n\t } else if (i < 60) {\n\t t += ((b & c) | (b & d) | (c & d)) - 0x70e44324;\n\t } else /* if (i < 80) */ {\n\t t += (b ^ c ^ d) - 0x359d3e2a;\n\t }\n\n\t e = d;\n\t d = c;\n\t c = (b << 30) | (b >>> 2);\n\t b = a;\n\t a = t;\n\t }\n\n\t // Intermediate hash value\n\t H[0] = (H[0] + a) | 0;\n\t H[1] = (H[1] + b) | 0;\n\t H[2] = (H[2] + c) | 0;\n\t H[3] = (H[3] + d) | 0;\n\t H[4] = (H[4] + e) | 0;\n\t },\n\n\t _doFinalize: function () {\n\t // Shortcuts\n\t var data = this._data;\n\t var dataWords = data.words;\n\n\t var nBitsTotal = this._nDataBytes * 8;\n\t var nBitsLeft = data.sigBytes * 8;\n\n\t // Add padding\n\t dataWords[nBitsLeft >>> 5] |= 0x80 << (24 - nBitsLeft % 32);\n\t dataWords[(((nBitsLeft + 64) >>> 9) << 4) + 14] = Math.floor(nBitsTotal / 0x100000000);\n\t dataWords[(((nBitsLeft + 64) >>> 9) << 4) + 15] = nBitsTotal;\n\t data.sigBytes = dataWords.length * 4;\n\n\t // Hash final blocks\n\t this._process();\n\n\t // Return final computed hash\n\t return this._hash;\n\t },\n\n\t clone: function () {\n\t var clone = Hasher.clone.call(this);\n\t clone._hash = this._hash.clone();\n\n\t return clone;\n\t }\n\t });\n\n\t /**\n\t * Shortcut function to the hasher's object interface.\n\t *\n\t * @param {WordArray|string} message The message to hash.\n\t *\n\t * @return {WordArray} The hash.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var hash = CryptoJS.SHA1('message');\n\t * var hash = CryptoJS.SHA1(wordArray);\n\t */\n\t C.SHA1 = Hasher._createHelper(SHA1);\n\n\t /**\n\t * Shortcut function to the HMAC's object interface.\n\t *\n\t * @param {WordArray|string} message The message to hash.\n\t * @param {WordArray|string} key The secret key.\n\t *\n\t * @return {WordArray} The HMAC.\n\t *\n\t * @static\n\t *\n\t * @example\n\t *\n\t * var hmac = CryptoJS.HmacSHA1(message, key);\n\t */\n\t C.HmacSHA1 = Hasher._createHmacHelper(SHA1);\n\t}());\n\n\n\treturn CryptoJS.SHA1;\n\n}));"],"names":["CryptoJS","module","exports","C","BlockCipher","lib","C_algo","algo","SBOX","INV_SBOX","SUB_MIX_0","SUB_MIX_1","SUB_MIX_2","SUB_MIX_3","INV_SUB_MIX_0","INV_SUB_MIX_1","INV_SUB_MIX_2","INV_SUB_MIX_3","d","i","x","xi","sx","x2","x4","x8","t","RCON","AES","extend","_doReset","this","_nRounds","_keyPriorReset","_key","key","keyWords","words","keySize","sigBytes","ksRows","keySchedule","_keySchedule","ksRow","invKeySchedule","_invKeySchedule","invKsRow","encryptBlock","M","offset","_doCryptBlock","decryptBlock","nRounds","s0","s1","s2","s3","round","t0","t1","t2","t3","_createHelper","C_lib","Base","WordArray","BufferedBlockAlgorithm","C_enc","Base64","EvpKDF","Cipher","C_mode","BlockCipherMode","CBC","Pkcs7","CipherParams","OpenSSLFormatter","SerializableCipher","OpenSSLKdf","PasswordBasedCipher","enc","Utf8","cfg","createEncryptor","create","_ENC_XFORM_MODE","createDecryptor","_DEC_XFORM_MODE","init","xformMode","_xformMode","reset","call","process","dataUpdate","_append","_process","finalize","_doFinalize","ivSize","selectCipherStrategy","cipher","encrypt","message","decrypt","ciphertext","StreamCipher","blockSize","mode","iv","Encryptor","Decryptor","_cipher","_iv","xorBlock","block","_prevBlock","processBlock","slice","thisBlock","pad","data","blockSizeBytes","nPaddingBytes","paddingWord","paddingWords","push","padding","concat","unpad","modeCreator","_minBufferSize","_mode","__creator","_doProcessBlock","finalProcessedBlocks","_data","cipherParams","mixIn","toString","formatter","stringify","format","OpenSSL","salt","parse","openSSLStr","ciphertextWords","splice","encryptor","cipherCfg","algorithm","_parse","kdf","execute","password","hasher","random","compute","derivedParams","wordArray","map","_map","clamp","base64Chars","triplet","j","charAt","paddingChar","length","join","base64Str","base64StrLength","reverseMap","_reverseMap","charCodeAt","paddingIndex","indexOf","nBytes","bitsCombined","parseLoop","MD5","iterations","derivedKey","derivedKeyWords","update","HMAC","_hasher","hasherBlockSize","hasherBlockSizeBytes","oKey","_oKey","clone","iKey","_iKey","oKeyWords","iKeyWords","messageUpdate","innerHash","Math","Hasher","T","abs","sin","_hash","offset_i","M_offset_i","H","M_offset_0","M_offset_1","M_offset_2","M_offset_3","M_offset_4","M_offset_5","M_offset_6","M_offset_7","M_offset_8","M_offset_9","M_offset_10","M_offset_11","M_offset_12","M_offset_13","M_offset_14","M_offset_15","a","b","c","FF","GG","HH","II","dataWords","nBitsTotal","_nDataBytes","nBitsLeft","nBitsTotalH","floor","nBitsTotalL","hash","H_i","s","n","HmacMD5","_createHmacHelper","W","SHA1","e","HmacSHA1"],"sourceRoot":""}