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authorHaakon Meland Eriksen <haakon.eriksen@far.no>2014-06-24 19:34:36 +0200
committerHaakon Meland Eriksen <haakon.eriksen@far.no>2014-06-24 19:34:36 +0200
commitb8dc9e855af2d30f33d0f90dc13d8cad0a7b3e70 (patch)
tree718df6305bcb82c8dcb4b287a7132422e748cdfb /library/cryptojs/components/sha3.js
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parenta92fb0b04c3e6474ec48faf8e4cc65c382e89d66 (diff)
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+/*
+CryptoJS v3.1.2
+code.google.com/p/crypto-js
+(c) 2009-2013 by Jeff Mott. All rights reserved.
+code.google.com/p/crypto-js/wiki/License
+*/
+(function (Math) {
+ // Shortcuts
+ var C = CryptoJS;
+ var C_lib = C.lib;
+ var WordArray = C_lib.WordArray;
+ var Hasher = C_lib.Hasher;
+ var C_x64 = C.x64;
+ var X64Word = C_x64.Word;
+ var C_algo = C.algo;
+
+ // Constants tables
+ var RHO_OFFSETS = [];
+ var PI_INDEXES = [];
+ var ROUND_CONSTANTS = [];
+
+ // Compute Constants
+ (function () {
+ // Compute rho offset constants
+ var x = 1, y = 0;
+ for (var t = 0; t < 24; t++) {
+ RHO_OFFSETS[x + 5 * y] = ((t + 1) * (t + 2) / 2) % 64;
+
+ var newX = y % 5;
+ var newY = (2 * x + 3 * y) % 5;
+ x = newX;
+ y = newY;
+ }
+
+ // Compute pi index constants
+ for (var x = 0; x < 5; x++) {
+ for (var y = 0; y < 5; y++) {
+ PI_INDEXES[x + 5 * y] = y + ((2 * x + 3 * y) % 5) * 5;
+ }
+ }
+
+ // Compute round constants
+ var LFSR = 0x01;
+ for (var i = 0; i < 24; i++) {
+ var roundConstantMsw = 0;
+ var roundConstantLsw = 0;
+
+ for (var j = 0; j < 7; j++) {
+ if (LFSR & 0x01) {
+ var bitPosition = (1 << j) - 1;
+ if (bitPosition < 32) {
+ roundConstantLsw ^= 1 << bitPosition;
+ } else /* if (bitPosition >= 32) */ {
+ roundConstantMsw ^= 1 << (bitPosition - 32);
+ }
+ }
+
+ // Compute next LFSR
+ if (LFSR & 0x80) {
+ // Primitive polynomial over GF(2): x^8 + x^6 + x^5 + x^4 + 1
+ LFSR = (LFSR << 1) ^ 0x71;
+ } else {
+ LFSR <<= 1;
+ }
+ }
+
+ ROUND_CONSTANTS[i] = X64Word.create(roundConstantMsw, roundConstantLsw);
+ }
+ }());
+
+ // Reusable objects for temporary values
+ var T = [];
+ (function () {
+ for (var i = 0; i < 25; i++) {
+ T[i] = X64Word.create();
+ }
+ }());
+
+ /**
+ * SHA-3 hash algorithm.
+ */
+ var SHA3 = C_algo.SHA3 = Hasher.extend({
+ /**
+ * Configuration options.
+ *
+ * @property {number} outputLength
+ * The desired number of bits in the output hash.
+ * Only values permitted are: 224, 256, 384, 512.
+ * Default: 512
+ */
+ cfg: Hasher.cfg.extend({
+ outputLength: 512
+ }),
+
+ _doReset: function () {
+ var state = this._state = []
+ for (var i = 0; i < 25; i++) {
+ state[i] = new X64Word.init();
+ }
+
+ this.blockSize = (1600 - 2 * this.cfg.outputLength) / 32;
+ },
+
+ _doProcessBlock: function (M, offset) {
+ // Shortcuts
+ var state = this._state;
+ var nBlockSizeLanes = this.blockSize / 2;
+
+ // Absorb
+ for (var i = 0; i < nBlockSizeLanes; i++) {
+ // Shortcuts
+ var M2i = M[offset + 2 * i];
+ var M2i1 = M[offset + 2 * i + 1];
+
+ // Swap endian
+ M2i = (
+ (((M2i << 8) | (M2i >>> 24)) & 0x00ff00ff) |
+ (((M2i << 24) | (M2i >>> 8)) & 0xff00ff00)
+ );
+ M2i1 = (
+ (((M2i1 << 8) | (M2i1 >>> 24)) & 0x00ff00ff) |
+ (((M2i1 << 24) | (M2i1 >>> 8)) & 0xff00ff00)
+ );
+
+ // Absorb message into state
+ var lane = state[i];
+ lane.high ^= M2i1;
+ lane.low ^= M2i;
+ }
+
+ // Rounds
+ for (var round = 0; round < 24; round++) {
+ // Theta
+ for (var x = 0; x < 5; x++) {
+ // Mix column lanes
+ var tMsw = 0, tLsw = 0;
+ for (var y = 0; y < 5; y++) {
+ var lane = state[x + 5 * y];
+ tMsw ^= lane.high;
+ tLsw ^= lane.low;
+ }
+
+ // Temporary values
+ var Tx = T[x];
+ Tx.high = tMsw;
+ Tx.low = tLsw;
+ }
+ for (var x = 0; x < 5; x++) {
+ // Shortcuts
+ var Tx4 = T[(x + 4) % 5];
+ var Tx1 = T[(x + 1) % 5];
+ var Tx1Msw = Tx1.high;
+ var Tx1Lsw = Tx1.low;
+
+ // Mix surrounding columns
+ var tMsw = Tx4.high ^ ((Tx1Msw << 1) | (Tx1Lsw >>> 31));
+ var tLsw = Tx4.low ^ ((Tx1Lsw << 1) | (Tx1Msw >>> 31));
+ for (var y = 0; y < 5; y++) {
+ var lane = state[x + 5 * y];
+ lane.high ^= tMsw;
+ lane.low ^= tLsw;
+ }
+ }
+
+ // Rho Pi
+ for (var laneIndex = 1; laneIndex < 25; laneIndex++) {
+ // Shortcuts
+ var lane = state[laneIndex];
+ var laneMsw = lane.high;
+ var laneLsw = lane.low;
+ var rhoOffset = RHO_OFFSETS[laneIndex];
+
+ // Rotate lanes
+ if (rhoOffset < 32) {
+ var tMsw = (laneMsw << rhoOffset) | (laneLsw >>> (32 - rhoOffset));
+ var tLsw = (laneLsw << rhoOffset) | (laneMsw >>> (32 - rhoOffset));
+ } else /* if (rhoOffset >= 32) */ {
+ var tMsw = (laneLsw << (rhoOffset - 32)) | (laneMsw >>> (64 - rhoOffset));
+ var tLsw = (laneMsw << (rhoOffset - 32)) | (laneLsw >>> (64 - rhoOffset));
+ }
+
+ // Transpose lanes
+ var TPiLane = T[PI_INDEXES[laneIndex]];
+ TPiLane.high = tMsw;
+ TPiLane.low = tLsw;
+ }
+
+ // Rho pi at x = y = 0
+ var T0 = T[0];
+ var state0 = state[0];
+ T0.high = state0.high;
+ T0.low = state0.low;
+
+ // Chi
+ for (var x = 0; x < 5; x++) {
+ for (var y = 0; y < 5; y++) {
+ // Shortcuts
+ var laneIndex = x + 5 * y;
+ var lane = state[laneIndex];
+ var TLane = T[laneIndex];
+ var Tx1Lane = T[((x + 1) % 5) + 5 * y];
+ var Tx2Lane = T[((x + 2) % 5) + 5 * y];
+
+ // Mix rows
+ lane.high = TLane.high ^ (~Tx1Lane.high & Tx2Lane.high);
+ lane.low = TLane.low ^ (~Tx1Lane.low & Tx2Lane.low);
+ }
+ }
+
+ // Iota
+ var lane = state[0];
+ var roundConstant = ROUND_CONSTANTS[round];
+ lane.high ^= roundConstant.high;
+ lane.low ^= roundConstant.low;;
+ }
+ },
+
+ _doFinalize: function () {
+ // Shortcuts
+ var data = this._data;
+ var dataWords = data.words;
+ var nBitsTotal = this._nDataBytes * 8;
+ var nBitsLeft = data.sigBytes * 8;
+ var blockSizeBits = this.blockSize * 32;
+
+ // Add padding
+ dataWords[nBitsLeft >>> 5] |= 0x1 << (24 - nBitsLeft % 32);
+ dataWords[((Math.ceil((nBitsLeft + 1) / blockSizeBits) * blockSizeBits) >>> 5) - 1] |= 0x80;
+ data.sigBytes = dataWords.length * 4;
+
+ // Hash final blocks
+ this._process();
+
+ // Shortcuts
+ var state = this._state;
+ var outputLengthBytes = this.cfg.outputLength / 8;
+ var outputLengthLanes = outputLengthBytes / 8;
+
+ // Squeeze
+ var hashWords = [];
+ for (var i = 0; i < outputLengthLanes; i++) {
+ // Shortcuts
+ var lane = state[i];
+ var laneMsw = lane.high;
+ var laneLsw = lane.low;
+
+ // Swap endian
+ laneMsw = (
+ (((laneMsw << 8) | (laneMsw >>> 24)) & 0x00ff00ff) |
+ (((laneMsw << 24) | (laneMsw >>> 8)) & 0xff00ff00)
+ );
+ laneLsw = (
+ (((laneLsw << 8) | (laneLsw >>> 24)) & 0x00ff00ff) |
+ (((laneLsw << 24) | (laneLsw >>> 8)) & 0xff00ff00)
+ );
+
+ // Squeeze state to retrieve hash
+ hashWords.push(laneLsw);
+ hashWords.push(laneMsw);
+ }
+
+ // Return final computed hash
+ return new WordArray.init(hashWords, outputLengthBytes);
+ },
+
+ clone: function () {
+ var clone = Hasher.clone.call(this);
+
+ var state = clone._state = this._state.slice(0);
+ for (var i = 0; i < 25; i++) {
+ state[i] = state[i].clone();
+ }
+
+ return clone;
+ }
+ });
+
+ /**
+ * Shortcut function to the hasher's object interface.
+ *
+ * @param {WordArray|string} message The message to hash.
+ *
+ * @return {WordArray} The hash.
+ *
+ * @static
+ *
+ * @example
+ *
+ * var hash = CryptoJS.SHA3('message');
+ * var hash = CryptoJS.SHA3(wordArray);
+ */
+ C.SHA3 = Hasher._createHelper(SHA3);
+
+ /**
+ * Shortcut function to the HMAC's object interface.
+ *
+ * @param {WordArray|string} message The message to hash.
+ * @param {WordArray|string} key The secret key.
+ *
+ * @return {WordArray} The HMAC.
+ *
+ * @static
+ *
+ * @example
+ *
+ * var hmac = CryptoJS.HmacSHA3(message, key);
+ */
+ C.HmacSHA3 = Hasher._createHmacHelper(SHA3);
+}(Math));