3 * $Id: crypt.c,v 1.2 1997/08/04 10:24:21 mdw Exp $
5 * Cryptographic transfer of `become' requests
10 /*----- Licensing notice --------------------------------------------------*
12 * This file is part of `become'
14 * `Become' is free software; you can redistribute it and/or modify
15 * it under the terms of the GNU General Public License as published by
16 * the Free Software Foundation; either version 2 of the License, or
17 * (at your option) any later version.
19 * `Become' is distributed in the hope that it will be useful,
20 * but WITHOUT ANY WARRANTY; without even the implied warranty of
21 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22 * GNU General Public License for more details.
24 * You should have received a copy of the GNU General Public License
25 * along with `become'; if not, write to the Free Software Foundation,
26 * Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
29 /*----- Revision history --------------------------------------------------*
32 * Revision 1.2 1997/08/04 10:24:21 mdw
33 * Sources placed under CVS control.
35 * Revision 1.1 1997/07/21 13:47:51 mdw
40 /*----- Header files ------------------------------------------------------*/
42 /* --- ANSI headers --- */
51 /* --- Unix headers --- */
53 #include <sys/types.h>
59 /* --- Local headers --- */
72 /*----- Magic numbers -----------------------------------------------------*/
74 #define crypt__timeError 60 /* Seconds error to permit */
76 /*----- Main code ---------------------------------------------------------*/
78 /* --- @crypt__sessionKey@ --- *
80 * Arguments: @const char *seedfile@ = pointer to name of seed file
81 * @unsigned char *k@ = our secret key
82 * @unsigned *sk@ = where to store the session key
83 * @unsigned char *iv@ = where to store the IV
87 * Use: Decides on a random session key and initialisation vector.
90 static void crypt__sessionKey(const char *seedfile, unsigned char *k,
91 unsigned char *sk, unsigned char *iv)
93 FILE *fp; /* File handle for reading */
97 /* --- Open the random seed file --- *
99 * If I can't manage that, create a new one.
102 if ((fp = fopen(seedfile, "r+")) == 0) {
104 if ((fp = fopen(seedfile, "w+")) == 0)
105 die("can't create random number file: %s", strerror(errno));
109 /* --- Lock the seed file against concurrency problems --- */
112 l.l_whence = SEEK_SET;
115 if (fcntl(fileno(fp), F_SETLKW, &l) < 0)
116 die("can't lock random number file: %s", strerror(errno));
118 /* --- Now read the file, and launder the seed --- */
123 /* --- Encrypt the pool using the secret key --- */
127 icrypt_init(&j, k, 0);
132 /* --- Generate the session key and IV --- */
135 rand_extract(sk, IDEA_KEYSIZE);
136 rand_extract(iv, IDEA_BLKSIZE);
138 IF_TRACING(TRACE_CRYPTO,
139 traceblk(TRACE_CRYPTO, "crypto: session key:", sk, IDEA_KEYSIZE);
140 traceblk(TRACE_CRYPTO, "crypto: initialisation vector:",
144 /* --- Write the seed back --- */
152 /* --- @crypt_packRequest@ --- *
154 * Arguments: @request *rq@ = pointer to request block
155 * @unsigned char *buff@ = pointer to a buffer
156 * @time_t t@ = the current time
157 * @pid_t pid@ = my process ID
158 * @unsigned char *k@ = pointer to 128-bit key
159 * @unsigned char *sk@ = where to put the session key
163 * Use: Packs a request block into a buffer. The buffer should have
164 * space for at least @crq_size@ bytes. The buffer comes back
165 * encrypted and ready to send.
168 void crypt_packRequest(request *rq, unsigned char *buff,
170 unsigned char *k, unsigned char *sk)
172 /* --- First, build the easy stuff in the block --- */
174 buff[crq_cryptType] = cryptType_idea;
175 store32(buff + crq_time, t);
176 store32(buff + crq_pid, pid);
177 store32(buff + crq_from, rq->from);
178 store32(buff + crq_to, rq->to);
180 /* --- Now generate session keys and things --- */
182 crypt__sessionKey(file_RANDSEED, k, sk, buff + crq_iv);
183 memcpy(buff + crq_session, sk, IDEA_KEYSIZE);
185 /* --- The string causes a few problems --- *
187 * There's a good chance that the string will be a good deal shorter than
188 * the space allowed for it. This will probably mean lots of zeroes, and a
189 * very easy known-plaintext job for a potential attacker. (An early
190 * version of this code used @strncpy@ which is even worse!)
192 * I'll fill the block with random (from @rand@(3) -- nothing too
193 * elaborate) and then encrypt it using IDEA in CFB mode, using the first
194 * few bytes as the key. This should provide a sufficiently unpredictable
195 * background for the block.
203 unsigned char qk[IDEA_KEYSIZE];
205 /* --- Initialise the buffer with junk --- */
207 srand((unsigned int)(t ^ pid)); /* Seed the (bad) RNG */
208 for (p = buff + crq_cmd; p < buff + crq_cmd + CMDLEN_MAX; p++) {
209 u = rand(); *p = u ^ (u >> 8);
212 /* --- Now make the junk a whole lot harder to predict --- */
215 md5_init(&md); md5_buffer(&md, p, CMDLEN_MAX); md5_final(&md, qk);
216 icrypt_init(&j, qk, 0); icrypt_encrypt(&j, p, p, CMDLEN_MAX);
217 burn(j); burn(qk); burn(md);
219 /* --- Copy the string into here --- */
221 strcpy((char *)buff + crq_cmd, rq->cmd);
224 /* --- Checksum the finished data --- */
228 unsigned char mdbuf[MD5_HASHSIZE];
231 md5_buffer(&md, buff + crq_cipher, crq_check - crq_cipher);
232 md5_final(&md, mdbuf);
233 memcpy(buff + crq_check, mdbuf, 4);
234 burn(md); burn(mdbuf);
237 /* --- Encrypt the block --- *
239 * First, encrypt the session key using the master key. Since the session
240 * key is effectively random, this makes cracking the master key much
241 * harder. The rest of the block is then encrypted with the session key,
242 * using the IV left over from encrypting the session key.
248 T( traceblk(TRACE_CRYPTO, "crypto: plaintext request:",
251 icrypt_init(&j, k, buff + crq_iv);
252 icrypt_encrypt(&j, buff + crq_session, buff + crq_session, IDEA_KEYSIZE);
253 icrypt_reset(&j, sk, 0);
254 icrypt_encrypt(&j, buff + crq_cipher,
255 buff + crq_cipher, crq_size - crq_cipher);
258 T( traceblk(TRACE_CRYPTO, "crypto: ciphertext request:",
263 /* --- @crypt_unpackRequest@ --- *
265 * Arguments: @reqest *rq@ = pointer to destination request block
266 * @unsigned char *buff@ = pointer to source buffer
267 * @unsigned char *k@ = pointer to encryption key
268 * @unsigned char *sk@ = pointer to where to store session key
269 * @unsigned char *rpl@ = where to start building reply
271 * Returns: Nonzero if it was decrypted OK
273 * Use: Decrypts and unpacks a request buffer.
276 int crypt_unpackRequest(request *rq, unsigned char *buff,
277 unsigned char *k, unsigned char *sk,
281 /* --- Check the encryption format --- */
283 if (buff[crq_cryptType] != cryptType_idea)
288 /* --- First things first: decrypt the block --- */
292 T( traceblk(TRACE_CRYPTO, "crypto: ciphertext request:",
295 icrypt_init(&j, k, buff + crq_iv);
296 icrypt_decrypt(&j, buff + crq_session, buff + crq_session, IDEA_KEYSIZE);
297 memcpy(sk, buff + crq_session, IDEA_KEYSIZE);
298 icrypt_reset(&j, sk, 0);
299 icrypt_decrypt(&j, buff + crq_cipher,
300 buff + crq_cipher, crq_size - crq_cipher);
301 icrypt_saveIV(&j, rpl + crp_iv);
303 memset(buff + crq_session, 0, IDEA_KEYSIZE); /* Burn, baby, burn */
306 T( traceblk(TRACE_CRYPTO, "crypto: plaintext request:",
311 /* --- Check the validity of the data therein --- */
314 unsigned char mdbuf[MD5_HASHSIZE];
317 md5_buffer(&md, buff + crq_cipher, crq_check - crq_cipher);
318 md5_final(&md, mdbuf);
319 if (memcmp(mdbuf, buff + crq_check, 4) != 0) {
320 syslog(LOG_INFO, "packet rejected: bad checksum");
321 T( trace(TRACE_CRYPTO, "crypto: bad checksum on incoming request"); )
324 burn(md); burn(mdbuf);
328 /* --- Extract fields from the block --- */
330 rq->from = load32(buff + crq_from);
331 rq->to = load32(buff + crq_to);
332 memcpy(rq->cmd, buff + crq_cmd, CMDLEN_MAX);
336 /* --- Fill in bits of the reply block --- */
338 long t = (long)time(0);
339 long u = (long)load32(buff + crq_time);
341 if (t - u > crypt__timeError || u - t > crypt__timeError) {
342 syslog(LOG_INFO, "packet rejected: bad time");
343 T( trace(TRACE_CRYPTO, "crypto: bad time on incoming request"); )
346 memcpy(rpl + crp_time, buff + crq_time, 8);
351 T( trace(TRACE_CRYPTO, "crypto: valid request received"); )
355 /* --- @crypt_packReply@ --- *
357 * Arguments: @char *buff@ = pointer to reply block
358 * @unsigned char *sk@ = pointer to session key
359 * @int answer@ = yes or no
363 * Use: Packs and encrypts a reply block.
366 void crypt_packReply(unsigned char *buff, unsigned char *sk, int answer)
369 /* --- Store the answer --- */
371 buff[crp_answer] = (answer != 0);
375 /* --- Build the checksum --- */
378 unsigned char mdbuf[MD5_HASHSIZE];
381 md5_buffer(&md, buff + crp_cipher, crp_check - crp_cipher);
382 md5_final(&md, mdbuf);
383 memcpy(buff + crp_check, mdbuf, 4);
384 burn(md); burn(mdbuf);
388 /* --- Encrypt the buffer --- */
392 T( traceblk(TRACE_CRYPTO, "crypto: plaintext reply:", buff, crp_size); )
394 icrypt_init(&j, sk, buff + crp_iv);
395 icrypt_encrypt(&j, buff + crp_cipher,
396 buff + crp_cipher, crp_size - crp_cipher);
399 T( traceblk(TRACE_CRYPTO, "crypto: ciphertext reply:", buff, crp_size); )
403 /* --- @crypt_unpackReply@ --- *
405 * Arguments: @unsigned char *buff@ = pointer to reply buffer
406 * @unsigned char *sk@ = pointer to session key
407 * @time_t t@ = time at which request was sent
408 * @pid_t pid@ = my process ID
410 * Returns: >0 if request granted, zero if denied, <0 if reply rejected
412 * Use: Unpacks a reply block, and informs the caller of the outcome.
415 int crypt_unpackReply(unsigned char *buff, unsigned char *sk,
419 /* --- Decrypt my reply block --- */
423 T( traceblk(TRACE_CRYPTO, "crypto: ciphertext reply:", buff, crp_size); )
425 icrypt_init(&j, sk, buff + crp_iv);
426 icrypt_decrypt(&j, buff + crp_cipher,
427 buff + crp_cipher, crp_size - crp_cipher);
430 T( traceblk(TRACE_CRYPTO, "crypto: plaintext reply:", buff, crp_size); )
434 /* --- Check validity --- */
437 unsigned char mdbuf[MD5_HASHSIZE];
440 /* --- Check the checksum --- */
443 md5_buffer(&md, buff + crp_cipher, crp_check - crp_cipher);
444 md5_final(&md, mdbuf);
445 if (memcmp(buff + crp_check, mdbuf, 4) != 0) {
446 syslog(LOG_INFO, "reply rejected: bad checksum");
447 T( trace(TRACE_CRYPTO, "crypto: bad checksum on reply"); )
451 /* --- Check the identifier --- */
453 store32(b + 0, t); store32(b + 4, pid);
454 if (memcmp(b, buff + crp_time, sizeof(b)) != 0) {
455 syslog(LOG_INFO, "reply rejected: bad identification marker");
456 T( trace(TRACE_CRYPTO, "crypto: bad id on reply"); )
461 /* --- Return the value --- */
463 T( trace(TRACE_CRYPTO, "crypto: valid reply received"); )
464 return (buff[crp_answer]);
467 /*----- Test rig ----------------------------------------------------------*/
471 int main(int argc, char *argv[])
473 unsigned char buff[8];
474 unsigned char sk[IDEA_KEYSIZE], k[IDEA_KEYSIZE];
478 traceon(stdout, TRACE_CRYPTO);
481 fp = fopen(argv[1], "r");
483 die("fopen: %s", strerror(errno));
484 tx_getBits(k, 128, fp);
486 crypt__sessionKey(argv[2], k, sk, buff);
492 /*----- That's all, folks -------------------------------------------------*/