cryptosoft.c revision 1.38.2.1
1 1.38.2.1 yamt /* $NetBSD: cryptosoft.c,v 1.38.2.1 2012/04/17 00:08:48 yamt Exp $ */ 2 1.1 jonathan /* $FreeBSD: src/sys/opencrypto/cryptosoft.c,v 1.2.2.1 2002/11/21 23:34:23 sam Exp $ */ 3 1.1 jonathan /* $OpenBSD: cryptosoft.c,v 1.35 2002/04/26 08:43:50 deraadt Exp $ */ 4 1.1 jonathan 5 1.1 jonathan /* 6 1.1 jonathan * The author of this code is Angelos D. Keromytis (angelos (at) cis.upenn.edu) 7 1.1 jonathan * 8 1.1 jonathan * This code was written by Angelos D. Keromytis in Athens, Greece, in 9 1.1 jonathan * February 2000. Network Security Technologies Inc. (NSTI) kindly 10 1.1 jonathan * supported the development of this code. 11 1.1 jonathan * 12 1.1 jonathan * Copyright (c) 2000, 2001 Angelos D. Keromytis 13 1.1 jonathan * 14 1.1 jonathan * Permission to use, copy, and modify this software with or without fee 15 1.1 jonathan * is hereby granted, provided that this entire notice is included in 16 1.1 jonathan * all source code copies of any software which is or includes a copy or 17 1.1 jonathan * modification of this software. 18 1.1 jonathan * 19 1.1 jonathan * THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR 20 1.1 jonathan * IMPLIED WARRANTY. IN PARTICULAR, NONE OF THE AUTHORS MAKES ANY 21 1.1 jonathan * REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE 22 1.1 jonathan * MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR 23 1.1 jonathan * PURPOSE. 24 1.1 jonathan */ 25 1.1 jonathan 26 1.1 jonathan #include <sys/cdefs.h> 27 1.38.2.1 yamt __KERNEL_RCSID(0, "$NetBSD: cryptosoft.c,v 1.38.2.1 2012/04/17 00:08:48 yamt Exp $"); 28 1.1 jonathan 29 1.1 jonathan #include <sys/param.h> 30 1.1 jonathan #include <sys/systm.h> 31 1.1 jonathan #include <sys/malloc.h> 32 1.1 jonathan #include <sys/mbuf.h> 33 1.1 jonathan #include <sys/sysctl.h> 34 1.1 jonathan #include <sys/errno.h> 35 1.5 jonathan 36 1.20 tls #include "opt_ocf.h" 37 1.1 jonathan #include <opencrypto/cryptodev.h> 38 1.1 jonathan #include <opencrypto/cryptosoft.h> 39 1.1 jonathan #include <opencrypto/xform.h> 40 1.1 jonathan 41 1.10 thorpej #include <opencrypto/cryptosoft_xform.c> 42 1.1 jonathan 43 1.10 thorpej union authctx { 44 1.10 thorpej MD5_CTX md5ctx; 45 1.10 thorpej SHA1_CTX sha1ctx; 46 1.10 thorpej RMD160_CTX rmd160ctx; 47 1.10 thorpej SHA256_CTX sha256ctx; 48 1.10 thorpej SHA384_CTX sha384ctx; 49 1.10 thorpej SHA512_CTX sha512ctx; 50 1.36 drochner aesxcbc_ctx aesxcbcctx; 51 1.37 drochner AES_GMAC_CTX aesgmacctx; 52 1.1 jonathan }; 53 1.1 jonathan 54 1.1 jonathan struct swcr_data **swcr_sessions = NULL; 55 1.1 jonathan u_int32_t swcr_sesnum = 0; 56 1.1 jonathan int32_t swcr_id = -1; 57 1.1 jonathan 58 1.1 jonathan #define COPYBACK(x, a, b, c, d) \ 59 1.1 jonathan (x) == CRYPTO_BUF_MBUF ? m_copyback((struct mbuf *)a,b,c,d) \ 60 1.1 jonathan : cuio_copyback((struct uio *)a,b,c,d) 61 1.1 jonathan #define COPYDATA(x, a, b, c, d) \ 62 1.1 jonathan (x) == CRYPTO_BUF_MBUF ? m_copydata((struct mbuf *)a,b,c,d) \ 63 1.1 jonathan : cuio_copydata((struct uio *)a,b,c,d) 64 1.1 jonathan 65 1.27 drochner static int swcr_encdec(struct cryptodesc *, const struct swcr_data *, void *, int); 66 1.27 drochner static int swcr_compdec(struct cryptodesc *, const struct swcr_data *, void *, int, int *); 67 1.37 drochner static int swcr_combined(struct cryptop *, int); 68 1.1 jonathan static int swcr_process(void *, struct cryptop *, int); 69 1.1 jonathan static int swcr_newsession(void *, u_int32_t *, struct cryptoini *); 70 1.1 jonathan static int swcr_freesession(void *, u_int64_t); 71 1.1 jonathan 72 1.1 jonathan /* 73 1.1 jonathan * Apply a symmetric encryption/decryption algorithm. 74 1.1 jonathan */ 75 1.1 jonathan static int 76 1.27 drochner swcr_encdec(struct cryptodesc *crd, const struct swcr_data *sw, void *bufv, 77 1.1 jonathan int outtype) 78 1.1 jonathan { 79 1.17 christos char *buf = bufv; 80 1.1 jonathan unsigned char iv[EALG_MAX_BLOCK_LEN], blk[EALG_MAX_BLOCK_LEN], *idat; 81 1.1 jonathan unsigned char *ivp, piv[EALG_MAX_BLOCK_LEN]; 82 1.10 thorpej const struct swcr_enc_xform *exf; 83 1.32 drochner int i, k, j, blks, ivlen; 84 1.1 jonathan int count, ind; 85 1.1 jonathan 86 1.1 jonathan exf = sw->sw_exf; 87 1.10 thorpej blks = exf->enc_xform->blocksize; 88 1.32 drochner ivlen = exf->enc_xform->ivsize; 89 1.32 drochner KASSERT(exf->reinit ? ivlen <= blks : ivlen == blks); 90 1.1 jonathan 91 1.1 jonathan /* Check for non-padded data */ 92 1.1 jonathan if (crd->crd_len % blks) 93 1.1 jonathan return EINVAL; 94 1.1 jonathan 95 1.1 jonathan /* Initialize the IV */ 96 1.1 jonathan if (crd->crd_flags & CRD_F_ENCRYPT) { 97 1.1 jonathan /* IV explicitly provided ? */ 98 1.34 drochner if (crd->crd_flags & CRD_F_IV_EXPLICIT) { 99 1.32 drochner memcpy(iv, crd->crd_iv, ivlen); 100 1.34 drochner if (exf->reinit) 101 1.34 drochner exf->reinit(sw->sw_kschedule, iv, 0); 102 1.34 drochner } else if (exf->reinit) { 103 1.34 drochner exf->reinit(sw->sw_kschedule, 0, iv); 104 1.34 drochner } else { 105 1.1 jonathan /* Get random IV */ 106 1.1 jonathan for (i = 0; 107 1.31 drochner i + sizeof (u_int32_t) <= EALG_MAX_BLOCK_LEN; 108 1.1 jonathan i += sizeof (u_int32_t)) { 109 1.38.2.1 yamt u_int32_t temp = cprng_fast32(); 110 1.1 jonathan 111 1.25 tsutsui memcpy(iv + i, &temp, sizeof(u_int32_t)); 112 1.1 jonathan } 113 1.1 jonathan /* 114 1.1 jonathan * What if the block size is not a multiple 115 1.1 jonathan * of sizeof (u_int32_t), which is the size of 116 1.1 jonathan * what arc4random() returns ? 117 1.1 jonathan */ 118 1.1 jonathan if (EALG_MAX_BLOCK_LEN % sizeof (u_int32_t) != 0) { 119 1.38.2.1 yamt u_int32_t temp = cprng_fast32(); 120 1.1 jonathan 121 1.1 jonathan bcopy (&temp, iv + i, 122 1.1 jonathan EALG_MAX_BLOCK_LEN - i); 123 1.1 jonathan } 124 1.1 jonathan } 125 1.1 jonathan 126 1.1 jonathan /* Do we need to write the IV */ 127 1.1 jonathan if (!(crd->crd_flags & CRD_F_IV_PRESENT)) { 128 1.32 drochner COPYBACK(outtype, buf, crd->crd_inject, ivlen, iv); 129 1.1 jonathan } 130 1.1 jonathan 131 1.1 jonathan } else { /* Decryption */ 132 1.1 jonathan /* IV explicitly provided ? */ 133 1.1 jonathan if (crd->crd_flags & CRD_F_IV_EXPLICIT) 134 1.32 drochner memcpy(iv, crd->crd_iv, ivlen); 135 1.1 jonathan else { 136 1.1 jonathan /* Get IV off buf */ 137 1.32 drochner COPYDATA(outtype, buf, crd->crd_inject, ivlen, iv); 138 1.1 jonathan } 139 1.34 drochner if (exf->reinit) 140 1.34 drochner exf->reinit(sw->sw_kschedule, iv, 0); 141 1.1 jonathan } 142 1.1 jonathan 143 1.1 jonathan ivp = iv; 144 1.1 jonathan 145 1.1 jonathan if (outtype == CRYPTO_BUF_CONTIG) { 146 1.32 drochner if (exf->reinit) { 147 1.32 drochner for (i = crd->crd_skip; 148 1.32 drochner i < crd->crd_skip + crd->crd_len; i += blks) { 149 1.32 drochner if (crd->crd_flags & CRD_F_ENCRYPT) { 150 1.32 drochner exf->encrypt(sw->sw_kschedule, buf + i); 151 1.32 drochner } else { 152 1.32 drochner exf->decrypt(sw->sw_kschedule, buf + i); 153 1.32 drochner } 154 1.32 drochner } 155 1.32 drochner } else if (crd->crd_flags & CRD_F_ENCRYPT) { 156 1.1 jonathan for (i = crd->crd_skip; 157 1.1 jonathan i < crd->crd_skip + crd->crd_len; i += blks) { 158 1.1 jonathan /* XOR with the IV/previous block, as appropriate. */ 159 1.1 jonathan if (i == crd->crd_skip) 160 1.1 jonathan for (k = 0; k < blks; k++) 161 1.1 jonathan buf[i + k] ^= ivp[k]; 162 1.1 jonathan else 163 1.1 jonathan for (k = 0; k < blks; k++) 164 1.1 jonathan buf[i + k] ^= buf[i + k - blks]; 165 1.1 jonathan exf->encrypt(sw->sw_kschedule, buf + i); 166 1.1 jonathan } 167 1.1 jonathan } else { /* Decrypt */ 168 1.1 jonathan /* 169 1.1 jonathan * Start at the end, so we don't need to keep the encrypted 170 1.1 jonathan * block as the IV for the next block. 171 1.1 jonathan */ 172 1.1 jonathan for (i = crd->crd_skip + crd->crd_len - blks; 173 1.1 jonathan i >= crd->crd_skip; i -= blks) { 174 1.1 jonathan exf->decrypt(sw->sw_kschedule, buf + i); 175 1.1 jonathan 176 1.1 jonathan /* XOR with the IV/previous block, as appropriate */ 177 1.1 jonathan if (i == crd->crd_skip) 178 1.1 jonathan for (k = 0; k < blks; k++) 179 1.1 jonathan buf[i + k] ^= ivp[k]; 180 1.1 jonathan else 181 1.1 jonathan for (k = 0; k < blks; k++) 182 1.1 jonathan buf[i + k] ^= buf[i + k - blks]; 183 1.1 jonathan } 184 1.1 jonathan } 185 1.1 jonathan 186 1.1 jonathan return 0; 187 1.1 jonathan } else if (outtype == CRYPTO_BUF_MBUF) { 188 1.1 jonathan struct mbuf *m = (struct mbuf *) buf; 189 1.1 jonathan 190 1.1 jonathan /* Find beginning of data */ 191 1.1 jonathan m = m_getptr(m, crd->crd_skip, &k); 192 1.1 jonathan if (m == NULL) 193 1.1 jonathan return EINVAL; 194 1.1 jonathan 195 1.1 jonathan i = crd->crd_len; 196 1.1 jonathan 197 1.1 jonathan while (i > 0) { 198 1.1 jonathan /* 199 1.1 jonathan * If there's insufficient data at the end of 200 1.1 jonathan * an mbuf, we have to do some copying. 201 1.1 jonathan */ 202 1.1 jonathan if (m->m_len < k + blks && m->m_len != k) { 203 1.1 jonathan m_copydata(m, k, blks, blk); 204 1.1 jonathan 205 1.1 jonathan /* Actual encryption/decryption */ 206 1.32 drochner if (exf->reinit) { 207 1.32 drochner if (crd->crd_flags & CRD_F_ENCRYPT) { 208 1.32 drochner exf->encrypt(sw->sw_kschedule, 209 1.32 drochner blk); 210 1.32 drochner } else { 211 1.32 drochner exf->decrypt(sw->sw_kschedule, 212 1.32 drochner blk); 213 1.32 drochner } 214 1.32 drochner } else if (crd->crd_flags & CRD_F_ENCRYPT) { 215 1.1 jonathan /* XOR with previous block */ 216 1.1 jonathan for (j = 0; j < blks; j++) 217 1.1 jonathan blk[j] ^= ivp[j]; 218 1.1 jonathan 219 1.1 jonathan exf->encrypt(sw->sw_kschedule, blk); 220 1.1 jonathan 221 1.1 jonathan /* 222 1.1 jonathan * Keep encrypted block for XOR'ing 223 1.1 jonathan * with next block 224 1.1 jonathan */ 225 1.25 tsutsui memcpy(iv, blk, blks); 226 1.1 jonathan ivp = iv; 227 1.1 jonathan } else { /* decrypt */ 228 1.1 jonathan /* 229 1.1 jonathan * Keep encrypted block for XOR'ing 230 1.1 jonathan * with next block 231 1.1 jonathan */ 232 1.1 jonathan if (ivp == iv) 233 1.25 tsutsui memcpy(piv, blk, blks); 234 1.1 jonathan else 235 1.25 tsutsui memcpy(iv, blk, blks); 236 1.1 jonathan 237 1.1 jonathan exf->decrypt(sw->sw_kschedule, blk); 238 1.1 jonathan 239 1.1 jonathan /* XOR with previous block */ 240 1.1 jonathan for (j = 0; j < blks; j++) 241 1.1 jonathan blk[j] ^= ivp[j]; 242 1.1 jonathan 243 1.1 jonathan if (ivp == iv) 244 1.25 tsutsui memcpy(iv, piv, blks); 245 1.1 jonathan else 246 1.1 jonathan ivp = iv; 247 1.1 jonathan } 248 1.1 jonathan 249 1.1 jonathan /* Copy back decrypted block */ 250 1.1 jonathan m_copyback(m, k, blks, blk); 251 1.1 jonathan 252 1.1 jonathan /* Advance pointer */ 253 1.1 jonathan m = m_getptr(m, k + blks, &k); 254 1.1 jonathan if (m == NULL) 255 1.1 jonathan return EINVAL; 256 1.1 jonathan 257 1.1 jonathan i -= blks; 258 1.1 jonathan 259 1.1 jonathan /* Could be done... */ 260 1.1 jonathan if (i == 0) 261 1.1 jonathan break; 262 1.1 jonathan } 263 1.1 jonathan 264 1.1 jonathan /* Skip possibly empty mbufs */ 265 1.1 jonathan if (k == m->m_len) { 266 1.1 jonathan for (m = m->m_next; m && m->m_len == 0; 267 1.1 jonathan m = m->m_next) 268 1.1 jonathan ; 269 1.1 jonathan k = 0; 270 1.1 jonathan } 271 1.1 jonathan 272 1.1 jonathan /* Sanity check */ 273 1.1 jonathan if (m == NULL) 274 1.1 jonathan return EINVAL; 275 1.1 jonathan 276 1.1 jonathan /* 277 1.1 jonathan * Warning: idat may point to garbage here, but 278 1.1 jonathan * we only use it in the while() loop, only if 279 1.1 jonathan * there are indeed enough data. 280 1.1 jonathan */ 281 1.1 jonathan idat = mtod(m, unsigned char *) + k; 282 1.1 jonathan 283 1.1 jonathan while (m->m_len >= k + blks && i > 0) { 284 1.32 drochner if (exf->reinit) { 285 1.32 drochner if (crd->crd_flags & CRD_F_ENCRYPT) { 286 1.32 drochner exf->encrypt(sw->sw_kschedule, 287 1.32 drochner idat); 288 1.32 drochner } else { 289 1.32 drochner exf->decrypt(sw->sw_kschedule, 290 1.32 drochner idat); 291 1.32 drochner } 292 1.32 drochner } else if (crd->crd_flags & CRD_F_ENCRYPT) { 293 1.1 jonathan /* XOR with previous block/IV */ 294 1.1 jonathan for (j = 0; j < blks; j++) 295 1.1 jonathan idat[j] ^= ivp[j]; 296 1.1 jonathan 297 1.1 jonathan exf->encrypt(sw->sw_kschedule, idat); 298 1.1 jonathan ivp = idat; 299 1.1 jonathan } else { /* decrypt */ 300 1.1 jonathan /* 301 1.1 jonathan * Keep encrypted block to be used 302 1.1 jonathan * in next block's processing. 303 1.1 jonathan */ 304 1.1 jonathan if (ivp == iv) 305 1.25 tsutsui memcpy(piv, idat, blks); 306 1.1 jonathan else 307 1.25 tsutsui memcpy(iv, idat, blks); 308 1.1 jonathan 309 1.1 jonathan exf->decrypt(sw->sw_kschedule, idat); 310 1.1 jonathan 311 1.1 jonathan /* XOR with previous block/IV */ 312 1.1 jonathan for (j = 0; j < blks; j++) 313 1.1 jonathan idat[j] ^= ivp[j]; 314 1.1 jonathan 315 1.1 jonathan if (ivp == iv) 316 1.25 tsutsui memcpy(iv, piv, blks); 317 1.1 jonathan else 318 1.1 jonathan ivp = iv; 319 1.1 jonathan } 320 1.1 jonathan 321 1.1 jonathan idat += blks; 322 1.1 jonathan k += blks; 323 1.1 jonathan i -= blks; 324 1.1 jonathan } 325 1.1 jonathan } 326 1.1 jonathan 327 1.1 jonathan return 0; /* Done with mbuf encryption/decryption */ 328 1.1 jonathan } else if (outtype == CRYPTO_BUF_IOV) { 329 1.1 jonathan struct uio *uio = (struct uio *) buf; 330 1.1 jonathan 331 1.1 jonathan /* Find beginning of data */ 332 1.1 jonathan count = crd->crd_skip; 333 1.1 jonathan ind = cuio_getptr(uio, count, &k); 334 1.1 jonathan if (ind == -1) 335 1.1 jonathan return EINVAL; 336 1.1 jonathan 337 1.1 jonathan i = crd->crd_len; 338 1.1 jonathan 339 1.1 jonathan while (i > 0) { 340 1.1 jonathan /* 341 1.1 jonathan * If there's insufficient data at the end, 342 1.1 jonathan * we have to do some copying. 343 1.1 jonathan */ 344 1.1 jonathan if (uio->uio_iov[ind].iov_len < k + blks && 345 1.1 jonathan uio->uio_iov[ind].iov_len != k) { 346 1.1 jonathan cuio_copydata(uio, k, blks, blk); 347 1.1 jonathan 348 1.1 jonathan /* Actual encryption/decryption */ 349 1.32 drochner if (exf->reinit) { 350 1.32 drochner if (crd->crd_flags & CRD_F_ENCRYPT) { 351 1.32 drochner exf->encrypt(sw->sw_kschedule, 352 1.32 drochner blk); 353 1.32 drochner } else { 354 1.32 drochner exf->decrypt(sw->sw_kschedule, 355 1.32 drochner blk); 356 1.32 drochner } 357 1.32 drochner } else if (crd->crd_flags & CRD_F_ENCRYPT) { 358 1.1 jonathan /* XOR with previous block */ 359 1.1 jonathan for (j = 0; j < blks; j++) 360 1.1 jonathan blk[j] ^= ivp[j]; 361 1.1 jonathan 362 1.1 jonathan exf->encrypt(sw->sw_kschedule, blk); 363 1.1 jonathan 364 1.1 jonathan /* 365 1.1 jonathan * Keep encrypted block for XOR'ing 366 1.1 jonathan * with next block 367 1.1 jonathan */ 368 1.25 tsutsui memcpy(iv, blk, blks); 369 1.1 jonathan ivp = iv; 370 1.1 jonathan } else { /* decrypt */ 371 1.1 jonathan /* 372 1.1 jonathan * Keep encrypted block for XOR'ing 373 1.1 jonathan * with next block 374 1.1 jonathan */ 375 1.1 jonathan if (ivp == iv) 376 1.25 tsutsui memcpy(piv, blk, blks); 377 1.1 jonathan else 378 1.25 tsutsui memcpy(iv, blk, blks); 379 1.1 jonathan 380 1.1 jonathan exf->decrypt(sw->sw_kschedule, blk); 381 1.1 jonathan 382 1.1 jonathan /* XOR with previous block */ 383 1.1 jonathan for (j = 0; j < blks; j++) 384 1.1 jonathan blk[j] ^= ivp[j]; 385 1.1 jonathan 386 1.1 jonathan if (ivp == iv) 387 1.25 tsutsui memcpy(iv, piv, blks); 388 1.1 jonathan else 389 1.1 jonathan ivp = iv; 390 1.1 jonathan } 391 1.1 jonathan 392 1.1 jonathan /* Copy back decrypted block */ 393 1.1 jonathan cuio_copyback(uio, k, blks, blk); 394 1.1 jonathan 395 1.1 jonathan count += blks; 396 1.1 jonathan 397 1.1 jonathan /* Advance pointer */ 398 1.1 jonathan ind = cuio_getptr(uio, count, &k); 399 1.1 jonathan if (ind == -1) 400 1.1 jonathan return (EINVAL); 401 1.1 jonathan 402 1.1 jonathan i -= blks; 403 1.1 jonathan 404 1.1 jonathan /* Could be done... */ 405 1.1 jonathan if (i == 0) 406 1.1 jonathan break; 407 1.1 jonathan } 408 1.1 jonathan 409 1.1 jonathan /* 410 1.1 jonathan * Warning: idat may point to garbage here, but 411 1.1 jonathan * we only use it in the while() loop, only if 412 1.1 jonathan * there are indeed enough data. 413 1.1 jonathan */ 414 1.17 christos idat = ((char *)uio->uio_iov[ind].iov_base) + k; 415 1.1 jonathan 416 1.1 jonathan while (uio->uio_iov[ind].iov_len >= k + blks && 417 1.1 jonathan i > 0) { 418 1.32 drochner if (exf->reinit) { 419 1.32 drochner if (crd->crd_flags & CRD_F_ENCRYPT) { 420 1.32 drochner exf->encrypt(sw->sw_kschedule, 421 1.32 drochner idat); 422 1.32 drochner } else { 423 1.32 drochner exf->decrypt(sw->sw_kschedule, 424 1.32 drochner idat); 425 1.32 drochner } 426 1.32 drochner } else if (crd->crd_flags & CRD_F_ENCRYPT) { 427 1.1 jonathan /* XOR with previous block/IV */ 428 1.1 jonathan for (j = 0; j < blks; j++) 429 1.1 jonathan idat[j] ^= ivp[j]; 430 1.1 jonathan 431 1.1 jonathan exf->encrypt(sw->sw_kschedule, idat); 432 1.1 jonathan ivp = idat; 433 1.1 jonathan } else { /* decrypt */ 434 1.1 jonathan /* 435 1.1 jonathan * Keep encrypted block to be used 436 1.1 jonathan * in next block's processing. 437 1.1 jonathan */ 438 1.1 jonathan if (ivp == iv) 439 1.25 tsutsui memcpy(piv, idat, blks); 440 1.1 jonathan else 441 1.25 tsutsui memcpy(iv, idat, blks); 442 1.1 jonathan 443 1.1 jonathan exf->decrypt(sw->sw_kschedule, idat); 444 1.1 jonathan 445 1.1 jonathan /* XOR with previous block/IV */ 446 1.1 jonathan for (j = 0; j < blks; j++) 447 1.1 jonathan idat[j] ^= ivp[j]; 448 1.1 jonathan 449 1.1 jonathan if (ivp == iv) 450 1.25 tsutsui memcpy(iv, piv, blks); 451 1.1 jonathan else 452 1.1 jonathan ivp = iv; 453 1.1 jonathan } 454 1.1 jonathan 455 1.1 jonathan idat += blks; 456 1.1 jonathan count += blks; 457 1.1 jonathan k += blks; 458 1.1 jonathan i -= blks; 459 1.1 jonathan } 460 1.1 jonathan } 461 1.1 jonathan return 0; /* Done with mbuf encryption/decryption */ 462 1.1 jonathan } 463 1.1 jonathan 464 1.1 jonathan /* Unreachable */ 465 1.1 jonathan return EINVAL; 466 1.1 jonathan } 467 1.1 jonathan 468 1.1 jonathan /* 469 1.1 jonathan * Compute keyed-hash authenticator. 470 1.1 jonathan */ 471 1.16 daniel int 472 1.1 jonathan swcr_authcompute(struct cryptop *crp, struct cryptodesc *crd, 473 1.27 drochner const struct swcr_data *sw, void *buf, int outtype) 474 1.1 jonathan { 475 1.1 jonathan unsigned char aalg[AALG_MAX_RESULT_LEN]; 476 1.10 thorpej const struct swcr_auth_hash *axf; 477 1.1 jonathan union authctx ctx; 478 1.1 jonathan int err; 479 1.1 jonathan 480 1.1 jonathan if (sw->sw_ictx == 0) 481 1.1 jonathan return EINVAL; 482 1.1 jonathan 483 1.1 jonathan axf = sw->sw_axf; 484 1.1 jonathan 485 1.35 drochner memcpy(&ctx, sw->sw_ictx, axf->ctxsize); 486 1.1 jonathan 487 1.1 jonathan switch (outtype) { 488 1.1 jonathan case CRYPTO_BUF_CONTIG: 489 1.17 christos axf->Update(&ctx, (char *)buf + crd->crd_skip, crd->crd_len); 490 1.1 jonathan break; 491 1.1 jonathan case CRYPTO_BUF_MBUF: 492 1.1 jonathan err = m_apply((struct mbuf *) buf, crd->crd_skip, crd->crd_len, 493 1.17 christos (int (*)(void*, void *, unsigned int)) axf->Update, 494 1.17 christos (void *) &ctx); 495 1.1 jonathan if (err) 496 1.1 jonathan return err; 497 1.1 jonathan break; 498 1.1 jonathan case CRYPTO_BUF_IOV: 499 1.2 jonathan err = cuio_apply((struct uio *) buf, crd->crd_skip, 500 1.2 jonathan crd->crd_len, 501 1.17 christos (int (*)(void *, void *, unsigned int)) axf->Update, 502 1.17 christos (void *) &ctx); 503 1.2 jonathan if (err) { 504 1.2 jonathan return err; 505 1.2 jonathan } 506 1.2 jonathan break; 507 1.1 jonathan default: 508 1.1 jonathan return EINVAL; 509 1.1 jonathan } 510 1.1 jonathan 511 1.1 jonathan switch (sw->sw_alg) { 512 1.1 jonathan case CRYPTO_MD5_HMAC: 513 1.19 tls case CRYPTO_MD5_HMAC_96: 514 1.1 jonathan case CRYPTO_SHA1_HMAC: 515 1.19 tls case CRYPTO_SHA1_HMAC_96: 516 1.29 drochner case CRYPTO_SHA2_256_HMAC: 517 1.29 drochner case CRYPTO_SHA2_384_HMAC: 518 1.29 drochner case CRYPTO_SHA2_512_HMAC: 519 1.1 jonathan case CRYPTO_RIPEMD160_HMAC: 520 1.19 tls case CRYPTO_RIPEMD160_HMAC_96: 521 1.1 jonathan if (sw->sw_octx == NULL) 522 1.1 jonathan return EINVAL; 523 1.1 jonathan 524 1.1 jonathan axf->Final(aalg, &ctx); 525 1.35 drochner memcpy(&ctx, sw->sw_octx, axf->ctxsize); 526 1.10 thorpej axf->Update(&ctx, aalg, axf->auth_hash->hashsize); 527 1.1 jonathan axf->Final(aalg, &ctx); 528 1.1 jonathan break; 529 1.1 jonathan 530 1.1 jonathan case CRYPTO_MD5_KPDK: 531 1.1 jonathan case CRYPTO_SHA1_KPDK: 532 1.1 jonathan if (sw->sw_octx == NULL) 533 1.1 jonathan return EINVAL; 534 1.1 jonathan 535 1.1 jonathan axf->Update(&ctx, sw->sw_octx, sw->sw_klen); 536 1.1 jonathan axf->Final(aalg, &ctx); 537 1.1 jonathan break; 538 1.1 jonathan 539 1.1 jonathan case CRYPTO_NULL_HMAC: 540 1.1 jonathan case CRYPTO_MD5: 541 1.1 jonathan case CRYPTO_SHA1: 542 1.36 drochner case CRYPTO_AES_XCBC_MAC_96: 543 1.1 jonathan axf->Final(aalg, &ctx); 544 1.1 jonathan break; 545 1.1 jonathan } 546 1.1 jonathan 547 1.1 jonathan /* Inject the authentication data */ 548 1.2 jonathan switch (outtype) { 549 1.2 jonathan case CRYPTO_BUF_CONTIG: 550 1.17 christos (void)memcpy((char *)buf + crd->crd_inject, aalg, 551 1.17 christos axf->auth_hash->authsize); 552 1.2 jonathan break; 553 1.2 jonathan case CRYPTO_BUF_MBUF: 554 1.1 jonathan m_copyback((struct mbuf *) buf, crd->crd_inject, 555 1.10 thorpej axf->auth_hash->authsize, aalg); 556 1.2 jonathan break; 557 1.2 jonathan case CRYPTO_BUF_IOV: 558 1.25 tsutsui memcpy(crp->crp_mac, aalg, axf->auth_hash->authsize); 559 1.2 jonathan break; 560 1.2 jonathan default: 561 1.2 jonathan return EINVAL; 562 1.2 jonathan } 563 1.1 jonathan return 0; 564 1.1 jonathan } 565 1.1 jonathan 566 1.1 jonathan /* 567 1.37 drochner * Apply a combined encryption-authentication transformation 568 1.37 drochner */ 569 1.37 drochner static int 570 1.37 drochner swcr_combined(struct cryptop *crp, int outtype) 571 1.37 drochner { 572 1.37 drochner uint32_t blkbuf[howmany(EALG_MAX_BLOCK_LEN, sizeof(uint32_t))]; 573 1.37 drochner u_char *blk = (u_char *)blkbuf; 574 1.37 drochner u_char aalg[AALG_MAX_RESULT_LEN]; 575 1.37 drochner u_char iv[EALG_MAX_BLOCK_LEN]; 576 1.37 drochner union authctx ctx; 577 1.37 drochner struct cryptodesc *crd, *crda = NULL, *crde = NULL; 578 1.37 drochner struct swcr_data *sw, *swa, *swe = NULL; 579 1.37 drochner const struct swcr_auth_hash *axf = NULL; 580 1.37 drochner const struct swcr_enc_xform *exf = NULL; 581 1.37 drochner void *buf = (void *)crp->crp_buf; 582 1.37 drochner uint32_t *blkp; 583 1.37 drochner int i, blksz = 0, ivlen = 0, len; 584 1.37 drochner 585 1.37 drochner for (crd = crp->crp_desc; crd; crd = crd->crd_next) { 586 1.37 drochner for (sw = swcr_sessions[crp->crp_sid & 0xffffffff]; 587 1.37 drochner sw && sw->sw_alg != crd->crd_alg; 588 1.37 drochner sw = sw->sw_next) 589 1.37 drochner ; 590 1.37 drochner if (sw == NULL) 591 1.37 drochner return (EINVAL); 592 1.37 drochner 593 1.37 drochner switch (sw->sw_alg) { 594 1.37 drochner case CRYPTO_AES_GCM_16: 595 1.37 drochner case CRYPTO_AES_GMAC: 596 1.37 drochner swe = sw; 597 1.37 drochner crde = crd; 598 1.37 drochner exf = swe->sw_exf; 599 1.37 drochner ivlen = exf->enc_xform->ivsize; 600 1.37 drochner break; 601 1.37 drochner case CRYPTO_AES_128_GMAC: 602 1.37 drochner case CRYPTO_AES_192_GMAC: 603 1.37 drochner case CRYPTO_AES_256_GMAC: 604 1.37 drochner swa = sw; 605 1.37 drochner crda = crd; 606 1.37 drochner axf = swa->sw_axf; 607 1.37 drochner if (swa->sw_ictx == 0) 608 1.37 drochner return (EINVAL); 609 1.37 drochner memcpy(&ctx, swa->sw_ictx, axf->ctxsize); 610 1.37 drochner blksz = axf->auth_hash->blocksize; 611 1.37 drochner break; 612 1.37 drochner default: 613 1.37 drochner return (EINVAL); 614 1.37 drochner } 615 1.37 drochner } 616 1.37 drochner if (crde == NULL || crda == NULL) 617 1.37 drochner return (EINVAL); 618 1.37 drochner if (outtype == CRYPTO_BUF_CONTIG) 619 1.37 drochner return (EINVAL); 620 1.37 drochner 621 1.37 drochner /* Initialize the IV */ 622 1.37 drochner if (crde->crd_flags & CRD_F_ENCRYPT) { 623 1.37 drochner /* IV explicitly provided ? */ 624 1.37 drochner if (crde->crd_flags & CRD_F_IV_EXPLICIT) { 625 1.37 drochner memcpy(iv, crde->crd_iv, ivlen); 626 1.37 drochner if (exf->reinit) 627 1.37 drochner exf->reinit(swe->sw_kschedule, iv, 0); 628 1.37 drochner } else if (exf->reinit) 629 1.37 drochner exf->reinit(swe->sw_kschedule, 0, iv); 630 1.37 drochner else 631 1.38.2.1 yamt cprng_fast(iv, ivlen); 632 1.37 drochner 633 1.37 drochner /* Do we need to write the IV */ 634 1.37 drochner if (!(crde->crd_flags & CRD_F_IV_PRESENT)) 635 1.37 drochner COPYBACK(outtype, buf, crde->crd_inject, ivlen, iv); 636 1.37 drochner 637 1.37 drochner } else { /* Decryption */ 638 1.37 drochner /* IV explicitly provided ? */ 639 1.37 drochner if (crde->crd_flags & CRD_F_IV_EXPLICIT) 640 1.37 drochner memcpy(iv, crde->crd_iv, ivlen); 641 1.37 drochner else { 642 1.37 drochner /* Get IV off buf */ 643 1.37 drochner COPYDATA(outtype, buf, crde->crd_inject, ivlen, iv); 644 1.37 drochner } 645 1.37 drochner if (exf->reinit) 646 1.37 drochner exf->reinit(swe->sw_kschedule, iv, 0); 647 1.37 drochner } 648 1.37 drochner 649 1.37 drochner /* Supply MAC with IV */ 650 1.37 drochner if (axf->Reinit) 651 1.37 drochner axf->Reinit(&ctx, iv, ivlen); 652 1.37 drochner 653 1.37 drochner /* Supply MAC with AAD */ 654 1.37 drochner for (i = 0; i < crda->crd_len; i += blksz) { 655 1.37 drochner len = MIN(crda->crd_len - i, blksz); 656 1.37 drochner COPYDATA(outtype, buf, crda->crd_skip + i, len, blk); 657 1.37 drochner axf->Update(&ctx, blk, len); 658 1.37 drochner } 659 1.37 drochner 660 1.37 drochner /* Do encryption/decryption with MAC */ 661 1.37 drochner for (i = 0; i < crde->crd_len; i += blksz) { 662 1.37 drochner len = MIN(crde->crd_len - i, blksz); 663 1.37 drochner if (len < blksz) 664 1.37 drochner memset(blk, 0, blksz); 665 1.37 drochner COPYDATA(outtype, buf, crde->crd_skip + i, len, blk); 666 1.37 drochner if (crde->crd_flags & CRD_F_ENCRYPT) { 667 1.37 drochner exf->encrypt(swe->sw_kschedule, blk); 668 1.37 drochner axf->Update(&ctx, blk, len); 669 1.37 drochner } else { 670 1.37 drochner axf->Update(&ctx, blk, len); 671 1.37 drochner exf->decrypt(swe->sw_kschedule, blk); 672 1.37 drochner } 673 1.37 drochner COPYBACK(outtype, buf, crde->crd_skip + i, len, blk); 674 1.37 drochner } 675 1.37 drochner 676 1.37 drochner /* Do any required special finalization */ 677 1.37 drochner switch (crda->crd_alg) { 678 1.37 drochner case CRYPTO_AES_128_GMAC: 679 1.37 drochner case CRYPTO_AES_192_GMAC: 680 1.37 drochner case CRYPTO_AES_256_GMAC: 681 1.37 drochner /* length block */ 682 1.37 drochner memset(blk, 0, blksz); 683 1.37 drochner blkp = (uint32_t *)blk + 1; 684 1.37 drochner *blkp = htobe32(crda->crd_len * 8); 685 1.37 drochner blkp = (uint32_t *)blk + 3; 686 1.37 drochner *blkp = htobe32(crde->crd_len * 8); 687 1.37 drochner axf->Update(&ctx, blk, blksz); 688 1.37 drochner break; 689 1.37 drochner } 690 1.37 drochner 691 1.37 drochner /* Finalize MAC */ 692 1.37 drochner axf->Final(aalg, &ctx); 693 1.37 drochner 694 1.37 drochner /* Inject the authentication data */ 695 1.37 drochner if (outtype == CRYPTO_BUF_MBUF) 696 1.37 drochner COPYBACK(outtype, buf, crda->crd_inject, axf->auth_hash->authsize, aalg); 697 1.37 drochner else 698 1.37 drochner memcpy(crp->crp_mac, aalg, axf->auth_hash->authsize); 699 1.37 drochner 700 1.37 drochner return (0); 701 1.37 drochner } 702 1.37 drochner 703 1.37 drochner /* 704 1.1 jonathan * Apply a compression/decompression algorithm 705 1.1 jonathan */ 706 1.1 jonathan static int 707 1.27 drochner swcr_compdec(struct cryptodesc *crd, const struct swcr_data *sw, 708 1.27 drochner void *buf, int outtype, int *res_size) 709 1.1 jonathan { 710 1.1 jonathan u_int8_t *data, *out; 711 1.10 thorpej const struct swcr_comp_algo *cxf; 712 1.1 jonathan int adj; 713 1.1 jonathan u_int32_t result; 714 1.1 jonathan 715 1.1 jonathan cxf = sw->sw_cxf; 716 1.1 jonathan 717 1.1 jonathan /* We must handle the whole buffer of data in one time 718 1.1 jonathan * then if there is not all the data in the mbuf, we must 719 1.1 jonathan * copy in a buffer. 720 1.1 jonathan */ 721 1.1 jonathan 722 1.12 christos data = malloc(crd->crd_len, M_CRYPTO_DATA, M_NOWAIT); 723 1.1 jonathan if (data == NULL) 724 1.1 jonathan return (EINVAL); 725 1.1 jonathan COPYDATA(outtype, buf, crd->crd_skip, crd->crd_len, data); 726 1.1 jonathan 727 1.1 jonathan if (crd->crd_flags & CRD_F_COMP) 728 1.1 jonathan result = cxf->compress(data, crd->crd_len, &out); 729 1.1 jonathan else 730 1.28 drochner result = cxf->decompress(data, crd->crd_len, &out, 731 1.28 drochner *res_size); 732 1.1 jonathan 733 1.21 cegger free(data, M_CRYPTO_DATA); 734 1.1 jonathan if (result == 0) 735 1.1 jonathan return EINVAL; 736 1.1 jonathan 737 1.1 jonathan /* Copy back the (de)compressed data. m_copyback is 738 1.1 jonathan * extending the mbuf as necessary. 739 1.1 jonathan */ 740 1.27 drochner *res_size = (int)result; 741 1.1 jonathan /* Check the compressed size when doing compression */ 742 1.28 drochner if (crd->crd_flags & CRD_F_COMP && 743 1.28 drochner sw->sw_alg == CRYPTO_DEFLATE_COMP_NOGROW && 744 1.28 drochner result >= crd->crd_len) { 745 1.1 jonathan /* Compression was useless, we lost time */ 746 1.21 cegger free(out, M_CRYPTO_DATA); 747 1.1 jonathan return 0; 748 1.1 jonathan } 749 1.1 jonathan 750 1.1 jonathan COPYBACK(outtype, buf, crd->crd_skip, result, out); 751 1.1 jonathan if (result < crd->crd_len) { 752 1.1 jonathan adj = result - crd->crd_len; 753 1.1 jonathan if (outtype == CRYPTO_BUF_MBUF) { 754 1.1 jonathan adj = result - crd->crd_len; 755 1.1 jonathan m_adj((struct mbuf *)buf, adj); 756 1.1 jonathan } 757 1.24 darran /* Don't adjust the iov_len, it breaks the kmem_free */ 758 1.1 jonathan } 759 1.21 cegger free(out, M_CRYPTO_DATA); 760 1.1 jonathan return 0; 761 1.1 jonathan } 762 1.1 jonathan 763 1.1 jonathan /* 764 1.1 jonathan * Generate a new software session. 765 1.1 jonathan */ 766 1.1 jonathan static int 767 1.15 christos swcr_newsession(void *arg, u_int32_t *sid, struct cryptoini *cri) 768 1.1 jonathan { 769 1.1 jonathan struct swcr_data **swd; 770 1.10 thorpej const struct swcr_auth_hash *axf; 771 1.10 thorpej const struct swcr_enc_xform *txf; 772 1.10 thorpej const struct swcr_comp_algo *cxf; 773 1.1 jonathan u_int32_t i; 774 1.1 jonathan int k, error; 775 1.1 jonathan 776 1.1 jonathan if (sid == NULL || cri == NULL) 777 1.1 jonathan return EINVAL; 778 1.1 jonathan 779 1.1 jonathan if (swcr_sessions) { 780 1.1 jonathan for (i = 1; i < swcr_sesnum; i++) 781 1.1 jonathan if (swcr_sessions[i] == NULL) 782 1.1 jonathan break; 783 1.1 jonathan } else 784 1.1 jonathan i = 1; /* NB: to silence compiler warning */ 785 1.1 jonathan 786 1.1 jonathan if (swcr_sessions == NULL || i == swcr_sesnum) { 787 1.1 jonathan if (swcr_sessions == NULL) { 788 1.1 jonathan i = 1; /* We leave swcr_sessions[0] empty */ 789 1.1 jonathan swcr_sesnum = CRYPTO_SW_SESSIONS; 790 1.1 jonathan } else 791 1.1 jonathan swcr_sesnum *= 2; 792 1.1 jonathan 793 1.1 jonathan swd = malloc(swcr_sesnum * sizeof(struct swcr_data *), 794 1.1 jonathan M_CRYPTO_DATA, M_NOWAIT); 795 1.1 jonathan if (swd == NULL) { 796 1.1 jonathan /* Reset session number */ 797 1.1 jonathan if (swcr_sesnum == CRYPTO_SW_SESSIONS) 798 1.1 jonathan swcr_sesnum = 0; 799 1.1 jonathan else 800 1.1 jonathan swcr_sesnum /= 2; 801 1.1 jonathan return ENOBUFS; 802 1.1 jonathan } 803 1.1 jonathan 804 1.22 cegger memset(swd, 0, swcr_sesnum * sizeof(struct swcr_data *)); 805 1.1 jonathan 806 1.1 jonathan /* Copy existing sessions */ 807 1.1 jonathan if (swcr_sessions) { 808 1.25 tsutsui memcpy(swd, swcr_sessions, 809 1.1 jonathan (swcr_sesnum / 2) * sizeof(struct swcr_data *)); 810 1.1 jonathan free(swcr_sessions, M_CRYPTO_DATA); 811 1.1 jonathan } 812 1.1 jonathan 813 1.1 jonathan swcr_sessions = swd; 814 1.1 jonathan } 815 1.1 jonathan 816 1.1 jonathan swd = &swcr_sessions[i]; 817 1.1 jonathan *sid = i; 818 1.1 jonathan 819 1.1 jonathan while (cri) { 820 1.13 dsl *swd = malloc(sizeof **swd, M_CRYPTO_DATA, M_NOWAIT); 821 1.1 jonathan if (*swd == NULL) { 822 1.1 jonathan swcr_freesession(NULL, i); 823 1.1 jonathan return ENOBUFS; 824 1.1 jonathan } 825 1.22 cegger memset(*swd, 0, sizeof(struct swcr_data)); 826 1.1 jonathan 827 1.1 jonathan switch (cri->cri_alg) { 828 1.1 jonathan case CRYPTO_DES_CBC: 829 1.10 thorpej txf = &swcr_enc_xform_des; 830 1.1 jonathan goto enccommon; 831 1.1 jonathan case CRYPTO_3DES_CBC: 832 1.10 thorpej txf = &swcr_enc_xform_3des; 833 1.1 jonathan goto enccommon; 834 1.1 jonathan case CRYPTO_BLF_CBC: 835 1.10 thorpej txf = &swcr_enc_xform_blf; 836 1.1 jonathan goto enccommon; 837 1.1 jonathan case CRYPTO_CAST_CBC: 838 1.10 thorpej txf = &swcr_enc_xform_cast5; 839 1.1 jonathan goto enccommon; 840 1.1 jonathan case CRYPTO_SKIPJACK_CBC: 841 1.10 thorpej txf = &swcr_enc_xform_skipjack; 842 1.1 jonathan goto enccommon; 843 1.1 jonathan case CRYPTO_RIJNDAEL128_CBC: 844 1.10 thorpej txf = &swcr_enc_xform_rijndael128; 845 1.1 jonathan goto enccommon; 846 1.30 drochner case CRYPTO_CAMELLIA_CBC: 847 1.30 drochner txf = &swcr_enc_xform_camellia; 848 1.30 drochner goto enccommon; 849 1.33 drochner case CRYPTO_AES_CTR: 850 1.33 drochner txf = &swcr_enc_xform_aes_ctr; 851 1.33 drochner goto enccommon; 852 1.37 drochner case CRYPTO_AES_GCM_16: 853 1.37 drochner txf = &swcr_enc_xform_aes_gcm; 854 1.37 drochner goto enccommon; 855 1.38 drochner case CRYPTO_AES_GMAC: 856 1.38 drochner txf = &swcr_enc_xform_aes_gmac; 857 1.38 drochner goto enccommon; 858 1.1 jonathan case CRYPTO_NULL_CBC: 859 1.10 thorpej txf = &swcr_enc_xform_null; 860 1.1 jonathan goto enccommon; 861 1.1 jonathan enccommon: 862 1.1 jonathan error = txf->setkey(&((*swd)->sw_kschedule), 863 1.1 jonathan cri->cri_key, cri->cri_klen / 8); 864 1.1 jonathan if (error) { 865 1.1 jonathan swcr_freesession(NULL, i); 866 1.1 jonathan return error; 867 1.1 jonathan } 868 1.1 jonathan (*swd)->sw_exf = txf; 869 1.1 jonathan break; 870 1.1 jonathan 871 1.1 jonathan case CRYPTO_MD5_HMAC: 872 1.19 tls axf = &swcr_auth_hash_hmac_md5; 873 1.19 tls goto authcommon; 874 1.19 tls case CRYPTO_MD5_HMAC_96: 875 1.10 thorpej axf = &swcr_auth_hash_hmac_md5_96; 876 1.1 jonathan goto authcommon; 877 1.1 jonathan case CRYPTO_SHA1_HMAC: 878 1.19 tls axf = &swcr_auth_hash_hmac_sha1; 879 1.19 tls goto authcommon; 880 1.19 tls case CRYPTO_SHA1_HMAC_96: 881 1.10 thorpej axf = &swcr_auth_hash_hmac_sha1_96; 882 1.1 jonathan goto authcommon; 883 1.29 drochner case CRYPTO_SHA2_256_HMAC: 884 1.29 drochner axf = &swcr_auth_hash_hmac_sha2_256; 885 1.29 drochner goto authcommon; 886 1.29 drochner case CRYPTO_SHA2_384_HMAC: 887 1.29 drochner axf = &swcr_auth_hash_hmac_sha2_384; 888 1.29 drochner goto authcommon; 889 1.29 drochner case CRYPTO_SHA2_512_HMAC: 890 1.29 drochner axf = &swcr_auth_hash_hmac_sha2_512; 891 1.1 jonathan goto authcommon; 892 1.1 jonathan case CRYPTO_NULL_HMAC: 893 1.10 thorpej axf = &swcr_auth_hash_null; 894 1.1 jonathan goto authcommon; 895 1.1 jonathan case CRYPTO_RIPEMD160_HMAC: 896 1.19 tls axf = &swcr_auth_hash_hmac_ripemd_160; 897 1.19 tls goto authcommon; 898 1.19 tls case CRYPTO_RIPEMD160_HMAC_96: 899 1.10 thorpej axf = &swcr_auth_hash_hmac_ripemd_160_96; 900 1.19 tls goto authcommon; /* leave this for safety */ 901 1.1 jonathan authcommon: 902 1.35 drochner (*swd)->sw_ictx = malloc(axf->ctxsize, 903 1.10 thorpej M_CRYPTO_DATA, M_NOWAIT); 904 1.1 jonathan if ((*swd)->sw_ictx == NULL) { 905 1.1 jonathan swcr_freesession(NULL, i); 906 1.1 jonathan return ENOBUFS; 907 1.1 jonathan } 908 1.1 jonathan 909 1.35 drochner (*swd)->sw_octx = malloc(axf->ctxsize, 910 1.10 thorpej M_CRYPTO_DATA, M_NOWAIT); 911 1.1 jonathan if ((*swd)->sw_octx == NULL) { 912 1.1 jonathan swcr_freesession(NULL, i); 913 1.1 jonathan return ENOBUFS; 914 1.1 jonathan } 915 1.1 jonathan 916 1.1 jonathan for (k = 0; k < cri->cri_klen / 8; k++) 917 1.1 jonathan cri->cri_key[k] ^= HMAC_IPAD_VAL; 918 1.1 jonathan 919 1.1 jonathan axf->Init((*swd)->sw_ictx); 920 1.1 jonathan axf->Update((*swd)->sw_ictx, cri->cri_key, 921 1.1 jonathan cri->cri_klen / 8); 922 1.1 jonathan axf->Update((*swd)->sw_ictx, hmac_ipad_buffer, 923 1.29 drochner axf->auth_hash->blocksize - (cri->cri_klen / 8)); 924 1.1 jonathan 925 1.1 jonathan for (k = 0; k < cri->cri_klen / 8; k++) 926 1.1 jonathan cri->cri_key[k] ^= (HMAC_IPAD_VAL ^ HMAC_OPAD_VAL); 927 1.1 jonathan 928 1.1 jonathan axf->Init((*swd)->sw_octx); 929 1.1 jonathan axf->Update((*swd)->sw_octx, cri->cri_key, 930 1.1 jonathan cri->cri_klen / 8); 931 1.1 jonathan axf->Update((*swd)->sw_octx, hmac_opad_buffer, 932 1.29 drochner axf->auth_hash->blocksize - (cri->cri_klen / 8)); 933 1.1 jonathan 934 1.1 jonathan for (k = 0; k < cri->cri_klen / 8; k++) 935 1.1 jonathan cri->cri_key[k] ^= HMAC_OPAD_VAL; 936 1.1 jonathan (*swd)->sw_axf = axf; 937 1.1 jonathan break; 938 1.1 jonathan 939 1.1 jonathan case CRYPTO_MD5_KPDK: 940 1.10 thorpej axf = &swcr_auth_hash_key_md5; 941 1.1 jonathan goto auth2common; 942 1.1 jonathan 943 1.1 jonathan case CRYPTO_SHA1_KPDK: 944 1.10 thorpej axf = &swcr_auth_hash_key_sha1; 945 1.1 jonathan auth2common: 946 1.35 drochner (*swd)->sw_ictx = malloc(axf->ctxsize, 947 1.10 thorpej M_CRYPTO_DATA, M_NOWAIT); 948 1.1 jonathan if ((*swd)->sw_ictx == NULL) { 949 1.1 jonathan swcr_freesession(NULL, i); 950 1.1 jonathan return ENOBUFS; 951 1.1 jonathan } 952 1.1 jonathan 953 1.1 jonathan /* Store the key so we can "append" it to the payload */ 954 1.1 jonathan (*swd)->sw_octx = malloc(cri->cri_klen / 8, M_CRYPTO_DATA, 955 1.1 jonathan M_NOWAIT); 956 1.1 jonathan if ((*swd)->sw_octx == NULL) { 957 1.1 jonathan swcr_freesession(NULL, i); 958 1.1 jonathan return ENOBUFS; 959 1.1 jonathan } 960 1.1 jonathan 961 1.1 jonathan (*swd)->sw_klen = cri->cri_klen / 8; 962 1.25 tsutsui memcpy((*swd)->sw_octx, cri->cri_key, cri->cri_klen / 8); 963 1.1 jonathan axf->Init((*swd)->sw_ictx); 964 1.1 jonathan axf->Update((*swd)->sw_ictx, cri->cri_key, 965 1.1 jonathan cri->cri_klen / 8); 966 1.1 jonathan axf->Final(NULL, (*swd)->sw_ictx); 967 1.1 jonathan (*swd)->sw_axf = axf; 968 1.1 jonathan break; 969 1.1 jonathan 970 1.1 jonathan case CRYPTO_MD5: 971 1.10 thorpej axf = &swcr_auth_hash_md5; 972 1.1 jonathan goto auth3common; 973 1.1 jonathan 974 1.1 jonathan case CRYPTO_SHA1: 975 1.10 thorpej axf = &swcr_auth_hash_sha1; 976 1.1 jonathan auth3common: 977 1.35 drochner (*swd)->sw_ictx = malloc(axf->ctxsize, 978 1.10 thorpej M_CRYPTO_DATA, M_NOWAIT); 979 1.1 jonathan if ((*swd)->sw_ictx == NULL) { 980 1.1 jonathan swcr_freesession(NULL, i); 981 1.1 jonathan return ENOBUFS; 982 1.1 jonathan } 983 1.1 jonathan 984 1.1 jonathan axf->Init((*swd)->sw_ictx); 985 1.1 jonathan (*swd)->sw_axf = axf; 986 1.1 jonathan break; 987 1.1 jonathan 988 1.36 drochner case CRYPTO_AES_XCBC_MAC_96: 989 1.36 drochner axf = &swcr_auth_hash_aes_xcbc_mac; 990 1.37 drochner goto auth4common; 991 1.37 drochner case CRYPTO_AES_128_GMAC: 992 1.37 drochner axf = &swcr_auth_hash_gmac_aes_128; 993 1.37 drochner goto auth4common; 994 1.37 drochner case CRYPTO_AES_192_GMAC: 995 1.37 drochner axf = &swcr_auth_hash_gmac_aes_192; 996 1.37 drochner goto auth4common; 997 1.37 drochner case CRYPTO_AES_256_GMAC: 998 1.37 drochner axf = &swcr_auth_hash_gmac_aes_256; 999 1.37 drochner auth4common: 1000 1.36 drochner (*swd)->sw_ictx = malloc(axf->ctxsize, 1001 1.36 drochner M_CRYPTO_DATA, M_NOWAIT); 1002 1.36 drochner if ((*swd)->sw_ictx == NULL) { 1003 1.36 drochner swcr_freesession(NULL, i); 1004 1.36 drochner return ENOBUFS; 1005 1.36 drochner } 1006 1.36 drochner axf->Init((*swd)->sw_ictx); 1007 1.36 drochner axf->Setkey((*swd)->sw_ictx, 1008 1.36 drochner cri->cri_key, cri->cri_klen / 8); 1009 1.36 drochner (*swd)->sw_axf = axf; 1010 1.36 drochner break; 1011 1.36 drochner 1012 1.1 jonathan case CRYPTO_DEFLATE_COMP: 1013 1.10 thorpej cxf = &swcr_comp_algo_deflate; 1014 1.1 jonathan (*swd)->sw_cxf = cxf; 1015 1.1 jonathan break; 1016 1.24 darran 1017 1.28 drochner case CRYPTO_DEFLATE_COMP_NOGROW: 1018 1.28 drochner cxf = &swcr_comp_algo_deflate_nogrow; 1019 1.28 drochner (*swd)->sw_cxf = cxf; 1020 1.28 drochner break; 1021 1.28 drochner 1022 1.24 darran case CRYPTO_GZIP_COMP: 1023 1.24 darran cxf = &swcr_comp_algo_gzip; 1024 1.24 darran (*swd)->sw_cxf = cxf; 1025 1.24 darran break; 1026 1.1 jonathan default: 1027 1.1 jonathan swcr_freesession(NULL, i); 1028 1.1 jonathan return EINVAL; 1029 1.1 jonathan } 1030 1.1 jonathan 1031 1.1 jonathan (*swd)->sw_alg = cri->cri_alg; 1032 1.1 jonathan cri = cri->cri_next; 1033 1.1 jonathan swd = &((*swd)->sw_next); 1034 1.1 jonathan } 1035 1.1 jonathan return 0; 1036 1.1 jonathan } 1037 1.1 jonathan 1038 1.1 jonathan /* 1039 1.1 jonathan * Free a session. 1040 1.1 jonathan */ 1041 1.1 jonathan static int 1042 1.15 christos swcr_freesession(void *arg, u_int64_t tid) 1043 1.1 jonathan { 1044 1.1 jonathan struct swcr_data *swd; 1045 1.10 thorpej const struct swcr_enc_xform *txf; 1046 1.10 thorpej const struct swcr_auth_hash *axf; 1047 1.10 thorpej const struct swcr_comp_algo *cxf; 1048 1.1 jonathan u_int32_t sid = ((u_int32_t) tid) & 0xffffffff; 1049 1.1 jonathan 1050 1.1 jonathan if (sid > swcr_sesnum || swcr_sessions == NULL || 1051 1.1 jonathan swcr_sessions[sid] == NULL) 1052 1.1 jonathan return EINVAL; 1053 1.1 jonathan 1054 1.1 jonathan /* Silently accept and return */ 1055 1.1 jonathan if (sid == 0) 1056 1.1 jonathan return 0; 1057 1.1 jonathan 1058 1.1 jonathan while ((swd = swcr_sessions[sid]) != NULL) { 1059 1.1 jonathan swcr_sessions[sid] = swd->sw_next; 1060 1.1 jonathan 1061 1.1 jonathan switch (swd->sw_alg) { 1062 1.1 jonathan case CRYPTO_DES_CBC: 1063 1.1 jonathan case CRYPTO_3DES_CBC: 1064 1.1 jonathan case CRYPTO_BLF_CBC: 1065 1.1 jonathan case CRYPTO_CAST_CBC: 1066 1.1 jonathan case CRYPTO_SKIPJACK_CBC: 1067 1.1 jonathan case CRYPTO_RIJNDAEL128_CBC: 1068 1.30 drochner case CRYPTO_CAMELLIA_CBC: 1069 1.33 drochner case CRYPTO_AES_CTR: 1070 1.37 drochner case CRYPTO_AES_GCM_16: 1071 1.38 drochner case CRYPTO_AES_GMAC: 1072 1.1 jonathan case CRYPTO_NULL_CBC: 1073 1.1 jonathan txf = swd->sw_exf; 1074 1.1 jonathan 1075 1.1 jonathan if (swd->sw_kschedule) 1076 1.1 jonathan txf->zerokey(&(swd->sw_kschedule)); 1077 1.1 jonathan break; 1078 1.1 jonathan 1079 1.1 jonathan case CRYPTO_MD5_HMAC: 1080 1.19 tls case CRYPTO_MD5_HMAC_96: 1081 1.1 jonathan case CRYPTO_SHA1_HMAC: 1082 1.19 tls case CRYPTO_SHA1_HMAC_96: 1083 1.29 drochner case CRYPTO_SHA2_256_HMAC: 1084 1.29 drochner case CRYPTO_SHA2_384_HMAC: 1085 1.29 drochner case CRYPTO_SHA2_512_HMAC: 1086 1.1 jonathan case CRYPTO_RIPEMD160_HMAC: 1087 1.19 tls case CRYPTO_RIPEMD160_HMAC_96: 1088 1.1 jonathan case CRYPTO_NULL_HMAC: 1089 1.1 jonathan axf = swd->sw_axf; 1090 1.1 jonathan 1091 1.1 jonathan if (swd->sw_ictx) { 1092 1.35 drochner memset(swd->sw_ictx, 0, axf->ctxsize); 1093 1.1 jonathan free(swd->sw_ictx, M_CRYPTO_DATA); 1094 1.1 jonathan } 1095 1.1 jonathan if (swd->sw_octx) { 1096 1.35 drochner memset(swd->sw_octx, 0, axf->ctxsize); 1097 1.1 jonathan free(swd->sw_octx, M_CRYPTO_DATA); 1098 1.1 jonathan } 1099 1.1 jonathan break; 1100 1.1 jonathan 1101 1.1 jonathan case CRYPTO_MD5_KPDK: 1102 1.1 jonathan case CRYPTO_SHA1_KPDK: 1103 1.1 jonathan axf = swd->sw_axf; 1104 1.1 jonathan 1105 1.1 jonathan if (swd->sw_ictx) { 1106 1.35 drochner memset(swd->sw_ictx, 0, axf->ctxsize); 1107 1.1 jonathan free(swd->sw_ictx, M_CRYPTO_DATA); 1108 1.1 jonathan } 1109 1.1 jonathan if (swd->sw_octx) { 1110 1.22 cegger memset(swd->sw_octx, 0, swd->sw_klen); 1111 1.1 jonathan free(swd->sw_octx, M_CRYPTO_DATA); 1112 1.1 jonathan } 1113 1.1 jonathan break; 1114 1.1 jonathan 1115 1.1 jonathan case CRYPTO_MD5: 1116 1.1 jonathan case CRYPTO_SHA1: 1117 1.36 drochner case CRYPTO_AES_XCBC_MAC_96: 1118 1.37 drochner case CRYPTO_AES_128_GMAC: 1119 1.37 drochner case CRYPTO_AES_192_GMAC: 1120 1.37 drochner case CRYPTO_AES_256_GMAC: 1121 1.1 jonathan axf = swd->sw_axf; 1122 1.1 jonathan 1123 1.1 jonathan if (swd->sw_ictx) 1124 1.1 jonathan free(swd->sw_ictx, M_CRYPTO_DATA); 1125 1.1 jonathan break; 1126 1.1 jonathan 1127 1.1 jonathan case CRYPTO_DEFLATE_COMP: 1128 1.28 drochner case CRYPTO_DEFLATE_COMP_NOGROW: 1129 1.24 darran case CRYPTO_GZIP_COMP: 1130 1.1 jonathan cxf = swd->sw_cxf; 1131 1.1 jonathan break; 1132 1.1 jonathan } 1133 1.1 jonathan 1134 1.21 cegger free(swd, M_CRYPTO_DATA); 1135 1.1 jonathan } 1136 1.1 jonathan return 0; 1137 1.1 jonathan } 1138 1.1 jonathan 1139 1.1 jonathan /* 1140 1.1 jonathan * Process a software request. 1141 1.1 jonathan */ 1142 1.1 jonathan static int 1143 1.15 christos swcr_process(void *arg, struct cryptop *crp, int hint) 1144 1.1 jonathan { 1145 1.1 jonathan struct cryptodesc *crd; 1146 1.1 jonathan struct swcr_data *sw; 1147 1.1 jonathan u_int32_t lid; 1148 1.1 jonathan int type; 1149 1.1 jonathan 1150 1.1 jonathan /* Sanity check */ 1151 1.1 jonathan if (crp == NULL) 1152 1.1 jonathan return EINVAL; 1153 1.1 jonathan 1154 1.1 jonathan if (crp->crp_desc == NULL || crp->crp_buf == NULL) { 1155 1.1 jonathan crp->crp_etype = EINVAL; 1156 1.1 jonathan goto done; 1157 1.1 jonathan } 1158 1.1 jonathan 1159 1.1 jonathan lid = crp->crp_sid & 0xffffffff; 1160 1.1 jonathan if (lid >= swcr_sesnum || lid == 0 || swcr_sessions[lid] == NULL) { 1161 1.1 jonathan crp->crp_etype = ENOENT; 1162 1.1 jonathan goto done; 1163 1.1 jonathan } 1164 1.1 jonathan 1165 1.1 jonathan if (crp->crp_flags & CRYPTO_F_IMBUF) { 1166 1.1 jonathan type = CRYPTO_BUF_MBUF; 1167 1.1 jonathan } else if (crp->crp_flags & CRYPTO_F_IOV) { 1168 1.1 jonathan type = CRYPTO_BUF_IOV; 1169 1.1 jonathan } else { 1170 1.1 jonathan type = CRYPTO_BUF_CONTIG; 1171 1.1 jonathan } 1172 1.1 jonathan 1173 1.1 jonathan /* Go through crypto descriptors, processing as we go */ 1174 1.1 jonathan for (crd = crp->crp_desc; crd; crd = crd->crd_next) { 1175 1.1 jonathan /* 1176 1.1 jonathan * Find the crypto context. 1177 1.1 jonathan * 1178 1.1 jonathan * XXX Note that the logic here prevents us from having 1179 1.1 jonathan * XXX the same algorithm multiple times in a session 1180 1.1 jonathan * XXX (or rather, we can but it won't give us the right 1181 1.1 jonathan * XXX results). To do that, we'd need some way of differentiating 1182 1.1 jonathan * XXX between the various instances of an algorithm (so we can 1183 1.1 jonathan * XXX locate the correct crypto context). 1184 1.1 jonathan */ 1185 1.1 jonathan for (sw = swcr_sessions[lid]; 1186 1.1 jonathan sw && sw->sw_alg != crd->crd_alg; 1187 1.1 jonathan sw = sw->sw_next) 1188 1.1 jonathan ; 1189 1.1 jonathan 1190 1.1 jonathan /* No such context ? */ 1191 1.1 jonathan if (sw == NULL) { 1192 1.1 jonathan crp->crp_etype = EINVAL; 1193 1.1 jonathan goto done; 1194 1.1 jonathan } 1195 1.1 jonathan 1196 1.1 jonathan switch (sw->sw_alg) { 1197 1.1 jonathan case CRYPTO_DES_CBC: 1198 1.1 jonathan case CRYPTO_3DES_CBC: 1199 1.1 jonathan case CRYPTO_BLF_CBC: 1200 1.1 jonathan case CRYPTO_CAST_CBC: 1201 1.1 jonathan case CRYPTO_SKIPJACK_CBC: 1202 1.1 jonathan case CRYPTO_RIJNDAEL128_CBC: 1203 1.30 drochner case CRYPTO_CAMELLIA_CBC: 1204 1.33 drochner case CRYPTO_AES_CTR: 1205 1.1 jonathan if ((crp->crp_etype = swcr_encdec(crd, sw, 1206 1.1 jonathan crp->crp_buf, type)) != 0) 1207 1.1 jonathan goto done; 1208 1.1 jonathan break; 1209 1.1 jonathan case CRYPTO_NULL_CBC: 1210 1.1 jonathan crp->crp_etype = 0; 1211 1.1 jonathan break; 1212 1.1 jonathan case CRYPTO_MD5_HMAC: 1213 1.19 tls case CRYPTO_MD5_HMAC_96: 1214 1.1 jonathan case CRYPTO_SHA1_HMAC: 1215 1.19 tls case CRYPTO_SHA1_HMAC_96: 1216 1.29 drochner case CRYPTO_SHA2_256_HMAC: 1217 1.29 drochner case CRYPTO_SHA2_384_HMAC: 1218 1.29 drochner case CRYPTO_SHA2_512_HMAC: 1219 1.1 jonathan case CRYPTO_RIPEMD160_HMAC: 1220 1.19 tls case CRYPTO_RIPEMD160_HMAC_96: 1221 1.1 jonathan case CRYPTO_NULL_HMAC: 1222 1.1 jonathan case CRYPTO_MD5_KPDK: 1223 1.1 jonathan case CRYPTO_SHA1_KPDK: 1224 1.1 jonathan case CRYPTO_MD5: 1225 1.1 jonathan case CRYPTO_SHA1: 1226 1.36 drochner case CRYPTO_AES_XCBC_MAC_96: 1227 1.1 jonathan if ((crp->crp_etype = swcr_authcompute(crp, crd, sw, 1228 1.1 jonathan crp->crp_buf, type)) != 0) 1229 1.1 jonathan goto done; 1230 1.1 jonathan break; 1231 1.1 jonathan 1232 1.37 drochner case CRYPTO_AES_GCM_16: 1233 1.37 drochner case CRYPTO_AES_GMAC: 1234 1.37 drochner case CRYPTO_AES_128_GMAC: 1235 1.37 drochner case CRYPTO_AES_192_GMAC: 1236 1.37 drochner case CRYPTO_AES_256_GMAC: 1237 1.37 drochner crp->crp_etype = swcr_combined(crp, type); 1238 1.37 drochner goto done; 1239 1.37 drochner 1240 1.1 jonathan case CRYPTO_DEFLATE_COMP: 1241 1.28 drochner case CRYPTO_DEFLATE_COMP_NOGROW: 1242 1.24 darran case CRYPTO_GZIP_COMP: 1243 1.24 darran DPRINTF(("swcr_process: compdec for %d\n", sw->sw_alg)); 1244 1.9 perry if ((crp->crp_etype = swcr_compdec(crd, sw, 1245 1.27 drochner crp->crp_buf, type, &crp->crp_olen)) != 0) 1246 1.1 jonathan goto done; 1247 1.1 jonathan break; 1248 1.1 jonathan 1249 1.1 jonathan default: 1250 1.1 jonathan /* Unknown/unsupported algorithm */ 1251 1.1 jonathan crp->crp_etype = EINVAL; 1252 1.1 jonathan goto done; 1253 1.1 jonathan } 1254 1.1 jonathan } 1255 1.1 jonathan 1256 1.1 jonathan done: 1257 1.26 jakllsch DPRINTF(("request %p done\n", crp)); 1258 1.1 jonathan crypto_done(crp); 1259 1.1 jonathan return 0; 1260 1.1 jonathan } 1261 1.1 jonathan 1262 1.10 thorpej static void 1263 1.1 jonathan swcr_init(void) 1264 1.1 jonathan { 1265 1.1 jonathan swcr_id = crypto_get_driverid(CRYPTOCAP_F_SOFTWARE); 1266 1.1 jonathan if (swcr_id < 0) { 1267 1.1 jonathan /* This should never happen */ 1268 1.1 jonathan panic("Software crypto device cannot initialize!"); 1269 1.1 jonathan } 1270 1.1 jonathan 1271 1.1 jonathan crypto_register(swcr_id, CRYPTO_DES_CBC, 1272 1.1 jonathan 0, 0, swcr_newsession, swcr_freesession, swcr_process, NULL); 1273 1.1 jonathan #define REGISTER(alg) \ 1274 1.1 jonathan crypto_register(swcr_id, alg, 0, 0, NULL, NULL, NULL, NULL) 1275 1.1 jonathan 1276 1.1 jonathan REGISTER(CRYPTO_3DES_CBC); 1277 1.1 jonathan REGISTER(CRYPTO_BLF_CBC); 1278 1.1 jonathan REGISTER(CRYPTO_CAST_CBC); 1279 1.1 jonathan REGISTER(CRYPTO_SKIPJACK_CBC); 1280 1.30 drochner REGISTER(CRYPTO_CAMELLIA_CBC); 1281 1.33 drochner REGISTER(CRYPTO_AES_CTR); 1282 1.37 drochner REGISTER(CRYPTO_AES_GCM_16); 1283 1.37 drochner REGISTER(CRYPTO_AES_GMAC); 1284 1.1 jonathan REGISTER(CRYPTO_NULL_CBC); 1285 1.1 jonathan REGISTER(CRYPTO_MD5_HMAC); 1286 1.19 tls REGISTER(CRYPTO_MD5_HMAC_96); 1287 1.1 jonathan REGISTER(CRYPTO_SHA1_HMAC); 1288 1.19 tls REGISTER(CRYPTO_SHA1_HMAC_96); 1289 1.29 drochner REGISTER(CRYPTO_SHA2_256_HMAC); 1290 1.29 drochner REGISTER(CRYPTO_SHA2_384_HMAC); 1291 1.29 drochner REGISTER(CRYPTO_SHA2_512_HMAC); 1292 1.1 jonathan REGISTER(CRYPTO_RIPEMD160_HMAC); 1293 1.19 tls REGISTER(CRYPTO_RIPEMD160_HMAC_96); 1294 1.1 jonathan REGISTER(CRYPTO_NULL_HMAC); 1295 1.1 jonathan REGISTER(CRYPTO_MD5_KPDK); 1296 1.1 jonathan REGISTER(CRYPTO_SHA1_KPDK); 1297 1.1 jonathan REGISTER(CRYPTO_MD5); 1298 1.1 jonathan REGISTER(CRYPTO_SHA1); 1299 1.36 drochner REGISTER(CRYPTO_AES_XCBC_MAC_96); 1300 1.37 drochner REGISTER(CRYPTO_AES_128_GMAC); 1301 1.37 drochner REGISTER(CRYPTO_AES_192_GMAC); 1302 1.37 drochner REGISTER(CRYPTO_AES_256_GMAC); 1303 1.1 jonathan REGISTER(CRYPTO_RIJNDAEL128_CBC); 1304 1.1 jonathan REGISTER(CRYPTO_DEFLATE_COMP); 1305 1.28 drochner REGISTER(CRYPTO_DEFLATE_COMP_NOGROW); 1306 1.24 darran REGISTER(CRYPTO_GZIP_COMP); 1307 1.1 jonathan #undef REGISTER 1308 1.1 jonathan } 1309 1.1 jonathan 1310 1.10 thorpej 1311 1.10 thorpej /* 1312 1.10 thorpej * Pseudo-device init routine for software crypto. 1313 1.10 thorpej */ 1314 1.11 thorpej void swcryptoattach(int); 1315 1.10 thorpej 1316 1.10 thorpej void 1317 1.15 christos swcryptoattach(int num) 1318 1.10 thorpej { 1319 1.10 thorpej 1320 1.10 thorpej swcr_init(); 1321 1.10 thorpej } 1322
Indexes created Tue Sep 30 20:09:53 GMT 2025