source: trip-planner-front/node_modules/node-forge/lib/rc2.js@ fa375fe

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[6a3a178]1/**
2 * RC2 implementation.
3 *
4 * @author Stefan Siegl
5 *
6 * Copyright (c) 2012 Stefan Siegl <stesie@brokenpipe.de>
7 *
8 * Information on the RC2 cipher is available from RFC #2268,
9 * http://www.ietf.org/rfc/rfc2268.txt
10 */
11var forge = require('./forge');
12require('./util');
13
14var piTable = [
15 0xd9, 0x78, 0xf9, 0xc4, 0x19, 0xdd, 0xb5, 0xed, 0x28, 0xe9, 0xfd, 0x79, 0x4a, 0xa0, 0xd8, 0x9d,
16 0xc6, 0x7e, 0x37, 0x83, 0x2b, 0x76, 0x53, 0x8e, 0x62, 0x4c, 0x64, 0x88, 0x44, 0x8b, 0xfb, 0xa2,
17 0x17, 0x9a, 0x59, 0xf5, 0x87, 0xb3, 0x4f, 0x13, 0x61, 0x45, 0x6d, 0x8d, 0x09, 0x81, 0x7d, 0x32,
18 0xbd, 0x8f, 0x40, 0xeb, 0x86, 0xb7, 0x7b, 0x0b, 0xf0, 0x95, 0x21, 0x22, 0x5c, 0x6b, 0x4e, 0x82,
19 0x54, 0xd6, 0x65, 0x93, 0xce, 0x60, 0xb2, 0x1c, 0x73, 0x56, 0xc0, 0x14, 0xa7, 0x8c, 0xf1, 0xdc,
20 0x12, 0x75, 0xca, 0x1f, 0x3b, 0xbe, 0xe4, 0xd1, 0x42, 0x3d, 0xd4, 0x30, 0xa3, 0x3c, 0xb6, 0x26,
21 0x6f, 0xbf, 0x0e, 0xda, 0x46, 0x69, 0x07, 0x57, 0x27, 0xf2, 0x1d, 0x9b, 0xbc, 0x94, 0x43, 0x03,
22 0xf8, 0x11, 0xc7, 0xf6, 0x90, 0xef, 0x3e, 0xe7, 0x06, 0xc3, 0xd5, 0x2f, 0xc8, 0x66, 0x1e, 0xd7,
23 0x08, 0xe8, 0xea, 0xde, 0x80, 0x52, 0xee, 0xf7, 0x84, 0xaa, 0x72, 0xac, 0x35, 0x4d, 0x6a, 0x2a,
24 0x96, 0x1a, 0xd2, 0x71, 0x5a, 0x15, 0x49, 0x74, 0x4b, 0x9f, 0xd0, 0x5e, 0x04, 0x18, 0xa4, 0xec,
25 0xc2, 0xe0, 0x41, 0x6e, 0x0f, 0x51, 0xcb, 0xcc, 0x24, 0x91, 0xaf, 0x50, 0xa1, 0xf4, 0x70, 0x39,
26 0x99, 0x7c, 0x3a, 0x85, 0x23, 0xb8, 0xb4, 0x7a, 0xfc, 0x02, 0x36, 0x5b, 0x25, 0x55, 0x97, 0x31,
27 0x2d, 0x5d, 0xfa, 0x98, 0xe3, 0x8a, 0x92, 0xae, 0x05, 0xdf, 0x29, 0x10, 0x67, 0x6c, 0xba, 0xc9,
28 0xd3, 0x00, 0xe6, 0xcf, 0xe1, 0x9e, 0xa8, 0x2c, 0x63, 0x16, 0x01, 0x3f, 0x58, 0xe2, 0x89, 0xa9,
29 0x0d, 0x38, 0x34, 0x1b, 0xab, 0x33, 0xff, 0xb0, 0xbb, 0x48, 0x0c, 0x5f, 0xb9, 0xb1, 0xcd, 0x2e,
30 0xc5, 0xf3, 0xdb, 0x47, 0xe5, 0xa5, 0x9c, 0x77, 0x0a, 0xa6, 0x20, 0x68, 0xfe, 0x7f, 0xc1, 0xad
31];
32
33var s = [1, 2, 3, 5];
34
35/**
36 * Rotate a word left by given number of bits.
37 *
38 * Bits that are shifted out on the left are put back in on the right
39 * hand side.
40 *
41 * @param word The word to shift left.
42 * @param bits The number of bits to shift by.
43 * @return The rotated word.
44 */
45var rol = function(word, bits) {
46 return ((word << bits) & 0xffff) | ((word & 0xffff) >> (16 - bits));
47};
48
49/**
50 * Rotate a word right by given number of bits.
51 *
52 * Bits that are shifted out on the right are put back in on the left
53 * hand side.
54 *
55 * @param word The word to shift right.
56 * @param bits The number of bits to shift by.
57 * @return The rotated word.
58 */
59var ror = function(word, bits) {
60 return ((word & 0xffff) >> bits) | ((word << (16 - bits)) & 0xffff);
61};
62
63/* RC2 API */
64module.exports = forge.rc2 = forge.rc2 || {};
65
66/**
67 * Perform RC2 key expansion as per RFC #2268, section 2.
68 *
69 * @param key variable-length user key (between 1 and 128 bytes)
70 * @param effKeyBits number of effective key bits (default: 128)
71 * @return the expanded RC2 key (ByteBuffer of 128 bytes)
72 */
73forge.rc2.expandKey = function(key, effKeyBits) {
74 if(typeof key === 'string') {
75 key = forge.util.createBuffer(key);
76 }
77 effKeyBits = effKeyBits || 128;
78
79 /* introduce variables that match the names used in RFC #2268 */
80 var L = key;
81 var T = key.length();
82 var T1 = effKeyBits;
83 var T8 = Math.ceil(T1 / 8);
84 var TM = 0xff >> (T1 & 0x07);
85 var i;
86
87 for(i = T; i < 128; i++) {
88 L.putByte(piTable[(L.at(i - 1) + L.at(i - T)) & 0xff]);
89 }
90
91 L.setAt(128 - T8, piTable[L.at(128 - T8) & TM]);
92
93 for(i = 127 - T8; i >= 0; i--) {
94 L.setAt(i, piTable[L.at(i + 1) ^ L.at(i + T8)]);
95 }
96
97 return L;
98};
99
100/**
101 * Creates a RC2 cipher object.
102 *
103 * @param key the symmetric key to use (as base for key generation).
104 * @param bits the number of effective key bits.
105 * @param encrypt false for decryption, true for encryption.
106 *
107 * @return the cipher.
108 */
109var createCipher = function(key, bits, encrypt) {
110 var _finish = false, _input = null, _output = null, _iv = null;
111 var mixRound, mashRound;
112 var i, j, K = [];
113
114 /* Expand key and fill into K[] Array */
115 key = forge.rc2.expandKey(key, bits);
116 for(i = 0; i < 64; i++) {
117 K.push(key.getInt16Le());
118 }
119
120 if(encrypt) {
121 /**
122 * Perform one mixing round "in place".
123 *
124 * @param R Array of four words to perform mixing on.
125 */
126 mixRound = function(R) {
127 for(i = 0; i < 4; i++) {
128 R[i] += K[j] + (R[(i + 3) % 4] & R[(i + 2) % 4]) +
129 ((~R[(i + 3) % 4]) & R[(i + 1) % 4]);
130 R[i] = rol(R[i], s[i]);
131 j++;
132 }
133 };
134
135 /**
136 * Perform one mashing round "in place".
137 *
138 * @param R Array of four words to perform mashing on.
139 */
140 mashRound = function(R) {
141 for(i = 0; i < 4; i++) {
142 R[i] += K[R[(i + 3) % 4] & 63];
143 }
144 };
145 } else {
146 /**
147 * Perform one r-mixing round "in place".
148 *
149 * @param R Array of four words to perform mixing on.
150 */
151 mixRound = function(R) {
152 for(i = 3; i >= 0; i--) {
153 R[i] = ror(R[i], s[i]);
154 R[i] -= K[j] + (R[(i + 3) % 4] & R[(i + 2) % 4]) +
155 ((~R[(i + 3) % 4]) & R[(i + 1) % 4]);
156 j--;
157 }
158 };
159
160 /**
161 * Perform one r-mashing round "in place".
162 *
163 * @param R Array of four words to perform mashing on.
164 */
165 mashRound = function(R) {
166 for(i = 3; i >= 0; i--) {
167 R[i] -= K[R[(i + 3) % 4] & 63];
168 }
169 };
170 }
171
172 /**
173 * Run the specified cipher execution plan.
174 *
175 * This function takes four words from the input buffer, applies the IV on
176 * it (if requested) and runs the provided execution plan.
177 *
178 * The plan must be put together in form of a array of arrays. Where the
179 * outer one is simply a list of steps to perform and the inner one needs
180 * to have two elements: the first one telling how many rounds to perform,
181 * the second one telling what to do (i.e. the function to call).
182 *
183 * @param {Array} plan The plan to execute.
184 */
185 var runPlan = function(plan) {
186 var R = [];
187
188 /* Get data from input buffer and fill the four words into R */
189 for(i = 0; i < 4; i++) {
190 var val = _input.getInt16Le();
191
192 if(_iv !== null) {
193 if(encrypt) {
194 /* We're encrypting, apply the IV first. */
195 val ^= _iv.getInt16Le();
196 } else {
197 /* We're decryption, keep cipher text for next block. */
198 _iv.putInt16Le(val);
199 }
200 }
201
202 R.push(val & 0xffff);
203 }
204
205 /* Reset global "j" variable as per spec. */
206 j = encrypt ? 0 : 63;
207
208 /* Run execution plan. */
209 for(var ptr = 0; ptr < plan.length; ptr++) {
210 for(var ctr = 0; ctr < plan[ptr][0]; ctr++) {
211 plan[ptr][1](R);
212 }
213 }
214
215 /* Write back result to output buffer. */
216 for(i = 0; i < 4; i++) {
217 if(_iv !== null) {
218 if(encrypt) {
219 /* We're encrypting in CBC-mode, feed back encrypted bytes into
220 IV buffer to carry it forward to next block. */
221 _iv.putInt16Le(R[i]);
222 } else {
223 R[i] ^= _iv.getInt16Le();
224 }
225 }
226
227 _output.putInt16Le(R[i]);
228 }
229 };
230
231 /* Create cipher object */
232 var cipher = null;
233 cipher = {
234 /**
235 * Starts or restarts the encryption or decryption process, whichever
236 * was previously configured.
237 *
238 * To use the cipher in CBC mode, iv may be given either as a string
239 * of bytes, or as a byte buffer. For ECB mode, give null as iv.
240 *
241 * @param iv the initialization vector to use, null for ECB mode.
242 * @param output the output the buffer to write to, null to create one.
243 */
244 start: function(iv, output) {
245 if(iv) {
246 /* CBC mode */
247 if(typeof iv === 'string') {
248 iv = forge.util.createBuffer(iv);
249 }
250 }
251
252 _finish = false;
253 _input = forge.util.createBuffer();
254 _output = output || new forge.util.createBuffer();
255 _iv = iv;
256
257 cipher.output = _output;
258 },
259
260 /**
261 * Updates the next block.
262 *
263 * @param input the buffer to read from.
264 */
265 update: function(input) {
266 if(!_finish) {
267 // not finishing, so fill the input buffer with more input
268 _input.putBuffer(input);
269 }
270
271 while(_input.length() >= 8) {
272 runPlan([
273 [ 5, mixRound ],
274 [ 1, mashRound ],
275 [ 6, mixRound ],
276 [ 1, mashRound ],
277 [ 5, mixRound ]
278 ]);
279 }
280 },
281
282 /**
283 * Finishes encrypting or decrypting.
284 *
285 * @param pad a padding function to use, null for PKCS#7 padding,
286 * signature(blockSize, buffer, decrypt).
287 *
288 * @return true if successful, false on error.
289 */
290 finish: function(pad) {
291 var rval = true;
292
293 if(encrypt) {
294 if(pad) {
295 rval = pad(8, _input, !encrypt);
296 } else {
297 // add PKCS#7 padding to block (each pad byte is the
298 // value of the number of pad bytes)
299 var padding = (_input.length() === 8) ? 8 : (8 - _input.length());
300 _input.fillWithByte(padding, padding);
301 }
302 }
303
304 if(rval) {
305 // do final update
306 _finish = true;
307 cipher.update();
308 }
309
310 if(!encrypt) {
311 // check for error: input data not a multiple of block size
312 rval = (_input.length() === 0);
313 if(rval) {
314 if(pad) {
315 rval = pad(8, _output, !encrypt);
316 } else {
317 // ensure padding byte count is valid
318 var len = _output.length();
319 var count = _output.at(len - 1);
320
321 if(count > len) {
322 rval = false;
323 } else {
324 // trim off padding bytes
325 _output.truncate(count);
326 }
327 }
328 }
329 }
330
331 return rval;
332 }
333 };
334
335 return cipher;
336};
337
338/**
339 * Creates an RC2 cipher object to encrypt data in ECB or CBC mode using the
340 * given symmetric key. The output will be stored in the 'output' member
341 * of the returned cipher.
342 *
343 * The key and iv may be given as a string of bytes or a byte buffer.
344 * The cipher is initialized to use 128 effective key bits.
345 *
346 * @param key the symmetric key to use.
347 * @param iv the initialization vector to use.
348 * @param output the buffer to write to, null to create one.
349 *
350 * @return the cipher.
351 */
352forge.rc2.startEncrypting = function(key, iv, output) {
353 var cipher = forge.rc2.createEncryptionCipher(key, 128);
354 cipher.start(iv, output);
355 return cipher;
356};
357
358/**
359 * Creates an RC2 cipher object to encrypt data in ECB or CBC mode using the
360 * given symmetric key.
361 *
362 * The key may be given as a string of bytes or a byte buffer.
363 *
364 * To start encrypting call start() on the cipher with an iv and optional
365 * output buffer.
366 *
367 * @param key the symmetric key to use.
368 *
369 * @return the cipher.
370 */
371forge.rc2.createEncryptionCipher = function(key, bits) {
372 return createCipher(key, bits, true);
373};
374
375/**
376 * Creates an RC2 cipher object to decrypt data in ECB or CBC mode using the
377 * given symmetric key. The output will be stored in the 'output' member
378 * of the returned cipher.
379 *
380 * The key and iv may be given as a string of bytes or a byte buffer.
381 * The cipher is initialized to use 128 effective key bits.
382 *
383 * @param key the symmetric key to use.
384 * @param iv the initialization vector to use.
385 * @param output the buffer to write to, null to create one.
386 *
387 * @return the cipher.
388 */
389forge.rc2.startDecrypting = function(key, iv, output) {
390 var cipher = forge.rc2.createDecryptionCipher(key, 128);
391 cipher.start(iv, output);
392 return cipher;
393};
394
395/**
396 * Creates an RC2 cipher object to decrypt data in ECB or CBC mode using the
397 * given symmetric key.
398 *
399 * The key may be given as a string of bytes or a byte buffer.
400 *
401 * To start decrypting call start() on the cipher with an iv and optional
402 * output buffer.
403 *
404 * @param key the symmetric key to use.
405 *
406 * @return the cipher.
407 */
408forge.rc2.createDecryptionCipher = function(key, bits) {
409 return createCipher(key, bits, false);
410};
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