190 lines
6.6 KiB
JavaScript
190 lines
6.6 KiB
JavaScript
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;(function (root, factory, undef) {
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if (typeof exports === "object") {
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// CommonJS
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module.exports = exports = factory(require("./core"), require("./enc-base64"), require("./md5"), require("./evpkdf"), require("./cipher-core"));
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}
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else if (typeof define === "function" && define.amd) {
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// AMD
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define(["./core", "./enc-base64", "./md5", "./evpkdf", "./cipher-core"], factory);
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}
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else {
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// Global (browser)
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factory(root.CryptoJS);
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}
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}(this, function (CryptoJS) {
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(function () {
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// Shortcuts
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var C = CryptoJS;
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var C_lib = C.lib;
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var StreamCipher = C_lib.StreamCipher;
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var C_algo = C.algo;
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// Reusable objects
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var S = [];
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var C_ = [];
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var G = [];
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/**
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* Rabbit stream cipher algorithm.
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*
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* This is a legacy version that neglected to convert the key to little-endian.
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* This error doesn't affect the cipher's security,
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* but it does affect its compatibility with other implementations.
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*/
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var RabbitLegacy = C_algo.RabbitLegacy = StreamCipher.extend({
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_doReset: function () {
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// Shortcuts
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var K = this._key.words;
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var iv = this.cfg.iv;
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// Generate initial state values
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var X = this._X = [
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K[0], (K[3] << 16) | (K[2] >>> 16),
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K[1], (K[0] << 16) | (K[3] >>> 16),
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K[2], (K[1] << 16) | (K[0] >>> 16),
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K[3], (K[2] << 16) | (K[1] >>> 16)
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];
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// Generate initial counter values
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var C = this._C = [
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(K[2] << 16) | (K[2] >>> 16), (K[0] & 0xffff0000) | (K[1] & 0x0000ffff),
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(K[3] << 16) | (K[3] >>> 16), (K[1] & 0xffff0000) | (K[2] & 0x0000ffff),
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(K[0] << 16) | (K[0] >>> 16), (K[2] & 0xffff0000) | (K[3] & 0x0000ffff),
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(K[1] << 16) | (K[1] >>> 16), (K[3] & 0xffff0000) | (K[0] & 0x0000ffff)
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];
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// Carry bit
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this._b = 0;
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// Iterate the system four times
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for (var i = 0; i < 4; i++) {
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nextState.call(this);
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}
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// Modify the counters
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for (var i = 0; i < 8; i++) {
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C[i] ^= X[(i + 4) & 7];
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}
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// IV setup
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if (iv) {
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// Shortcuts
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var IV = iv.words;
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var IV_0 = IV[0];
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var IV_1 = IV[1];
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// Generate four subvectors
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var i0 = (((IV_0 << 8) | (IV_0 >>> 24)) & 0x00ff00ff) | (((IV_0 << 24) | (IV_0 >>> 8)) & 0xff00ff00);
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var i2 = (((IV_1 << 8) | (IV_1 >>> 24)) & 0x00ff00ff) | (((IV_1 << 24) | (IV_1 >>> 8)) & 0xff00ff00);
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var i1 = (i0 >>> 16) | (i2 & 0xffff0000);
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var i3 = (i2 << 16) | (i0 & 0x0000ffff);
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// Modify counter values
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C[0] ^= i0;
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C[1] ^= i1;
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C[2] ^= i2;
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C[3] ^= i3;
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C[4] ^= i0;
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C[5] ^= i1;
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C[6] ^= i2;
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C[7] ^= i3;
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// Iterate the system four times
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for (var i = 0; i < 4; i++) {
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nextState.call(this);
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}
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}
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},
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_doProcessBlock: function (M, offset) {
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// Shortcut
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var X = this._X;
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// Iterate the system
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nextState.call(this);
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// Generate four keystream words
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S[0] = X[0] ^ (X[5] >>> 16) ^ (X[3] << 16);
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S[1] = X[2] ^ (X[7] >>> 16) ^ (X[5] << 16);
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S[2] = X[4] ^ (X[1] >>> 16) ^ (X[7] << 16);
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S[3] = X[6] ^ (X[3] >>> 16) ^ (X[1] << 16);
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for (var i = 0; i < 4; i++) {
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// Swap endian
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S[i] = (((S[i] << 8) | (S[i] >>> 24)) & 0x00ff00ff) |
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(((S[i] << 24) | (S[i] >>> 8)) & 0xff00ff00);
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// Encrypt
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M[offset + i] ^= S[i];
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}
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},
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blockSize: 128/32,
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ivSize: 64/32
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});
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function nextState() {
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// Shortcuts
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var X = this._X;
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var C = this._C;
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// Save old counter values
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for (var i = 0; i < 8; i++) {
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C_[i] = C[i];
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}
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// Calculate new counter values
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C[0] = (C[0] + 0x4d34d34d + this._b) | 0;
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C[1] = (C[1] + 0xd34d34d3 + ((C[0] >>> 0) < (C_[0] >>> 0) ? 1 : 0)) | 0;
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C[2] = (C[2] + 0x34d34d34 + ((C[1] >>> 0) < (C_[1] >>> 0) ? 1 : 0)) | 0;
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C[3] = (C[3] + 0x4d34d34d + ((C[2] >>> 0) < (C_[2] >>> 0) ? 1 : 0)) | 0;
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C[4] = (C[4] + 0xd34d34d3 + ((C[3] >>> 0) < (C_[3] >>> 0) ? 1 : 0)) | 0;
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C[5] = (C[5] + 0x34d34d34 + ((C[4] >>> 0) < (C_[4] >>> 0) ? 1 : 0)) | 0;
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C[6] = (C[6] + 0x4d34d34d + ((C[5] >>> 0) < (C_[5] >>> 0) ? 1 : 0)) | 0;
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C[7] = (C[7] + 0xd34d34d3 + ((C[6] >>> 0) < (C_[6] >>> 0) ? 1 : 0)) | 0;
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this._b = (C[7] >>> 0) < (C_[7] >>> 0) ? 1 : 0;
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// Calculate the g-values
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for (var i = 0; i < 8; i++) {
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var gx = X[i] + C[i];
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// Construct high and low argument for squaring
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var ga = gx & 0xffff;
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var gb = gx >>> 16;
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// Calculate high and low result of squaring
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var gh = ((((ga * ga) >>> 17) + ga * gb) >>> 15) + gb * gb;
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var gl = (((gx & 0xffff0000) * gx) | 0) + (((gx & 0x0000ffff) * gx) | 0);
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// High XOR low
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G[i] = gh ^ gl;
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}
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// Calculate new state values
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X[0] = (G[0] + ((G[7] << 16) | (G[7] >>> 16)) + ((G[6] << 16) | (G[6] >>> 16))) | 0;
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X[1] = (G[1] + ((G[0] << 8) | (G[0] >>> 24)) + G[7]) | 0;
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X[2] = (G[2] + ((G[1] << 16) | (G[1] >>> 16)) + ((G[0] << 16) | (G[0] >>> 16))) | 0;
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X[3] = (G[3] + ((G[2] << 8) | (G[2] >>> 24)) + G[1]) | 0;
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X[4] = (G[4] + ((G[3] << 16) | (G[3] >>> 16)) + ((G[2] << 16) | (G[2] >>> 16))) | 0;
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X[5] = (G[5] + ((G[4] << 8) | (G[4] >>> 24)) + G[3]) | 0;
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X[6] = (G[6] + ((G[5] << 16) | (G[5] >>> 16)) + ((G[4] << 16) | (G[4] >>> 16))) | 0;
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X[7] = (G[7] + ((G[6] << 8) | (G[6] >>> 24)) + G[5]) | 0;
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}
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/**
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* Shortcut functions to the cipher's object interface.
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*
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* @example
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*
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* var ciphertext = CryptoJS.RabbitLegacy.encrypt(message, key, cfg);
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* var plaintext = CryptoJS.RabbitLegacy.decrypt(ciphertext, key, cfg);
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*/
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C.RabbitLegacy = StreamCipher._createHelper(RabbitLegacy);
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}());
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return CryptoJS.RabbitLegacy;
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}));
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