g_eli.h revision 329099
174462Salfred/*- 280029Sobrien * Copyright (c) 2005-2011 Pawel Jakub Dawidek <pawel@dawidek.net> 374462Salfred * All rights reserved. 4156813Sru * 580029Sobrien * Redistribution and use in source and binary forms, with or without 674462Salfred * modification, are permitted provided that the following conditions 774816Sru * are met: 874462Salfred * 1. Redistributions of source code must retain the above copyright 9156528Sdeischen * notice, this list of conditions and the following disclaimer. 1074462Salfred * 2. Redistributions in binary form must reproduce the above copyright 11156528Sdeischen * notice, this list of conditions and the following disclaimer in the 1274462Salfred * documentation and/or other materials provided with the distribution. 13156813Sru * 14156337Smatteo * THIS SOFTWARE IS PROVIDED BY THE AUTHORS AND CONTRIBUTORS ``AS IS'' AND 15156337Smatteo * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 16156337Smatteo * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 17201390Sed * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHORS OR CONTRIBUTORS BE LIABLE 18201390Sed * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 19113091Sobrien * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 2080029Sobrien * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 2174462Salfred * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 2274462Salfred * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 23 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 24 * SUCH DAMAGE. 25 * 26 * $FreeBSD: stable/11/sys/geom/eli/g_eli.h 329099 2018-02-10 04:37:44Z kevans $ 27 */ 28 29#ifndef _G_ELI_H_ 30#define _G_ELI_H_ 31 32#include <sys/endian.h> 33#include <sys/errno.h> 34#include <sys/malloc.h> 35#include <crypto/sha2/sha256.h> 36#include <crypto/sha2/sha512.h> 37#include <opencrypto/cryptodev.h> 38#ifdef _KERNEL 39#include <sys/bio.h> 40#include <sys/libkern.h> 41#include <sys/lock.h> 42#include <sys/mutex.h> 43#include <geom/geom.h> 44#include <crypto/intake.h> 45#else 46#include <assert.h> 47#include <stdio.h> 48#include <string.h> 49#include <strings.h> 50#endif 51#include <sys/queue.h> 52#include <sys/tree.h> 53#ifndef _OpenSSL_ 54#include <sys/md5.h> 55#endif 56 57#define G_ELI_CLASS_NAME "ELI" 58#define G_ELI_MAGIC "GEOM::ELI" 59#define G_ELI_SUFFIX ".eli" 60 61/* 62 * Version history: 63 * 0 - Initial version number. 64 * 1 - Added data authentication support (md_aalgo field and 65 * G_ELI_FLAG_AUTH flag). 66 * 2 - Added G_ELI_FLAG_READONLY. 67 * 3 - Added 'configure' subcommand. 68 * 4 - IV is generated from offset converted to little-endian 69 * (the G_ELI_FLAG_NATIVE_BYTE_ORDER flag will be set for older versions). 70 * 5 - Added multiple encrypton keys and AES-XTS support. 71 * 6 - Fixed usage of multiple keys for authenticated providers (the 72 * G_ELI_FLAG_FIRST_KEY flag will be set for older versions). 73 * 7 - Encryption keys are now generated from the Data Key and not from the 74 * IV Key (the G_ELI_FLAG_ENC_IVKEY flag will be set for older versions). 75 */ 76#define G_ELI_VERSION_00 0 77#define G_ELI_VERSION_01 1 78#define G_ELI_VERSION_02 2 79#define G_ELI_VERSION_03 3 80#define G_ELI_VERSION_04 4 81#define G_ELI_VERSION_05 5 82#define G_ELI_VERSION_06 6 83#define G_ELI_VERSION_07 7 84#define G_ELI_VERSION G_ELI_VERSION_07 85 86/* ON DISK FLAGS. */ 87/* Use random, onetime keys. */ 88#define G_ELI_FLAG_ONETIME 0x00000001 89/* Ask for the passphrase from the kernel, before mounting root. */ 90#define G_ELI_FLAG_BOOT 0x00000002 91/* Detach on last close, if we were open for writing. */ 92#define G_ELI_FLAG_WO_DETACH 0x00000004 93/* Detach on last close. */ 94#define G_ELI_FLAG_RW_DETACH 0x00000008 95/* Provide data authentication. */ 96#define G_ELI_FLAG_AUTH 0x00000010 97/* Provider is read-only, we should deny all write attempts. */ 98#define G_ELI_FLAG_RO 0x00000020 99/* Don't pass through BIO_DELETE requests. */ 100#define G_ELI_FLAG_NODELETE 0x00000040 101/* This GELI supports GELIBoot */ 102#define G_ELI_FLAG_GELIBOOT 0x00000080 103/* RUNTIME FLAGS. */ 104/* Provider was open for writing. */ 105#define G_ELI_FLAG_WOPEN 0x00010000 106/* Destroy device. */ 107#define G_ELI_FLAG_DESTROY 0x00020000 108/* Provider uses native byte-order for IV generation. */ 109#define G_ELI_FLAG_NATIVE_BYTE_ORDER 0x00040000 110/* Provider uses single encryption key. */ 111#define G_ELI_FLAG_SINGLE_KEY 0x00080000 112/* Device suspended. */ 113#define G_ELI_FLAG_SUSPEND 0x00100000 114/* Provider uses first encryption key. */ 115#define G_ELI_FLAG_FIRST_KEY 0x00200000 116/* Provider uses IV-Key for encryption key generation. */ 117#define G_ELI_FLAG_ENC_IVKEY 0x00400000 118 119#define G_ELI_NEW_BIO 255 120 121#define SHA512_MDLEN 64 122#define G_ELI_AUTH_SECKEYLEN SHA256_DIGEST_LENGTH 123 124#define G_ELI_MAXMKEYS 2 125#define G_ELI_MAXKEYLEN 64 126#define G_ELI_USERKEYLEN G_ELI_MAXKEYLEN 127#define G_ELI_DATAKEYLEN G_ELI_MAXKEYLEN 128#define G_ELI_AUTHKEYLEN G_ELI_MAXKEYLEN 129#define G_ELI_IVKEYLEN G_ELI_MAXKEYLEN 130#define G_ELI_SALTLEN 64 131#define G_ELI_DATAIVKEYLEN (G_ELI_DATAKEYLEN + G_ELI_IVKEYLEN) 132/* Data-Key, IV-Key, HMAC_SHA512(Derived-Key, Data-Key+IV-Key) */ 133#define G_ELI_MKEYLEN (G_ELI_DATAIVKEYLEN + SHA512_MDLEN) 134#define G_ELI_OVERWRITES 5 135/* Switch data encryption key every 2^20 blocks. */ 136#define G_ELI_KEY_SHIFT 20 137 138#define G_ELI_CRYPTO_UNKNOWN 0 139#define G_ELI_CRYPTO_HW 1 140#define G_ELI_CRYPTO_SW 2 141 142#ifdef _KERNEL 143#if (MAX_KEY_BYTES < G_ELI_DATAIVKEYLEN) 144#error "MAX_KEY_BYTES is less than G_ELI_DATAKEYLEN" 145#endif 146 147extern int g_eli_debug; 148extern u_int g_eli_overwrites; 149extern u_int g_eli_batch; 150 151#define G_ELI_DEBUG(lvl, ...) do { \ 152 if (g_eli_debug >= (lvl)) { \ 153 printf("GEOM_ELI"); \ 154 if (g_eli_debug > 0) \ 155 printf("[%u]", lvl); \ 156 printf(": "); \ 157 printf(__VA_ARGS__); \ 158 printf("\n"); \ 159 } \ 160} while (0) 161#define G_ELI_LOGREQ(lvl, bp, ...) do { \ 162 if (g_eli_debug >= (lvl)) { \ 163 printf("GEOM_ELI"); \ 164 if (g_eli_debug > 0) \ 165 printf("[%u]", lvl); \ 166 printf(": "); \ 167 printf(__VA_ARGS__); \ 168 printf(" "); \ 169 g_print_bio(bp); \ 170 printf("\n"); \ 171 } \ 172} while (0) 173 174struct g_eli_worker { 175 struct g_eli_softc *w_softc; 176 struct proc *w_proc; 177 u_int w_number; 178 uint64_t w_sid; 179 boolean_t w_active; 180 LIST_ENTRY(g_eli_worker) w_next; 181}; 182 183#endif /* _KERNEL */ 184 185struct g_eli_softc { 186 struct g_geom *sc_geom; 187 u_int sc_version; 188 u_int sc_crypto; 189 uint8_t sc_mkey[G_ELI_DATAIVKEYLEN]; 190 uint8_t sc_ekey[G_ELI_DATAKEYLEN]; 191 TAILQ_HEAD(, g_eli_key) sc_ekeys_queue; 192 RB_HEAD(g_eli_key_tree, g_eli_key) sc_ekeys_tree; 193 struct mtx sc_ekeys_lock; 194 uint64_t sc_ekeys_total; 195 uint64_t sc_ekeys_allocated; 196 u_int sc_ealgo; 197 u_int sc_ekeylen; 198 uint8_t sc_akey[G_ELI_AUTHKEYLEN]; 199 u_int sc_aalgo; 200 u_int sc_akeylen; 201 u_int sc_alen; 202 SHA256_CTX sc_akeyctx; 203 uint8_t sc_ivkey[G_ELI_IVKEYLEN]; 204 SHA256_CTX sc_ivctx; 205 int sc_nkey; 206 uint32_t sc_flags; 207 int sc_inflight; 208 off_t sc_mediasize; 209 size_t sc_sectorsize; 210 u_int sc_bytes_per_sector; 211 u_int sc_data_per_sector; 212#ifndef _KERNEL 213 int sc_cpubind; 214#else /* _KERNEL */ 215 boolean_t sc_cpubind; 216 217 /* Only for software cryptography. */ 218 struct bio_queue_head sc_queue; 219 struct mtx sc_queue_mtx; 220 LIST_HEAD(, g_eli_worker) sc_workers; 221#endif /* _KERNEL */ 222}; 223#define sc_name sc_geom->name 224 225#define G_ELI_KEY_MAGIC 0xe11341c 226 227struct g_eli_key { 228 /* Key value, must be first in the structure. */ 229 uint8_t gek_key[G_ELI_DATAKEYLEN]; 230 /* Magic. */ 231 int gek_magic; 232 /* Key number. */ 233 uint64_t gek_keyno; 234 /* Reference counter. */ 235 int gek_count; 236 /* Keeps keys sorted by most recent use. */ 237 TAILQ_ENTRY(g_eli_key) gek_next; 238 /* Keeps keys sorted by number. */ 239 RB_ENTRY(g_eli_key) gek_link; 240}; 241 242struct g_eli_metadata { 243 char md_magic[16]; /* Magic value. */ 244 uint32_t md_version; /* Version number. */ 245 uint32_t md_flags; /* Additional flags. */ 246 uint16_t md_ealgo; /* Encryption algorithm. */ 247 uint16_t md_keylen; /* Key length. */ 248 uint16_t md_aalgo; /* Authentication algorithm. */ 249 uint64_t md_provsize; /* Provider's size. */ 250 uint32_t md_sectorsize; /* Sector size. */ 251 uint8_t md_keys; /* Available keys. */ 252 int32_t md_iterations; /* Number of iterations for PKCS#5v2. */ 253 uint8_t md_salt[G_ELI_SALTLEN]; /* Salt. */ 254 /* Encrypted master key (IV-key, Data-key, HMAC). */ 255 uint8_t md_mkeys[G_ELI_MAXMKEYS * G_ELI_MKEYLEN]; 256 u_char md_hash[16]; /* MD5 hash. */ 257} __packed; 258#ifndef _OpenSSL_ 259static __inline void 260eli_metadata_encode_v0(struct g_eli_metadata *md, u_char **datap) 261{ 262 u_char *p; 263 264 p = *datap; 265 le32enc(p, md->md_flags); p += sizeof(md->md_flags); 266 le16enc(p, md->md_ealgo); p += sizeof(md->md_ealgo); 267 le16enc(p, md->md_keylen); p += sizeof(md->md_keylen); 268 le64enc(p, md->md_provsize); p += sizeof(md->md_provsize); 269 le32enc(p, md->md_sectorsize); p += sizeof(md->md_sectorsize); 270 *p = md->md_keys; p += sizeof(md->md_keys); 271 le32enc(p, md->md_iterations); p += sizeof(md->md_iterations); 272 bcopy(md->md_salt, p, sizeof(md->md_salt)); p += sizeof(md->md_salt); 273 bcopy(md->md_mkeys, p, sizeof(md->md_mkeys)); p += sizeof(md->md_mkeys); 274 *datap = p; 275} 276static __inline void 277eli_metadata_encode_v1v2v3v4v5v6v7(struct g_eli_metadata *md, u_char **datap) 278{ 279 u_char *p; 280 281 p = *datap; 282 le32enc(p, md->md_flags); p += sizeof(md->md_flags); 283 le16enc(p, md->md_ealgo); p += sizeof(md->md_ealgo); 284 le16enc(p, md->md_keylen); p += sizeof(md->md_keylen); 285 le16enc(p, md->md_aalgo); p += sizeof(md->md_aalgo); 286 le64enc(p, md->md_provsize); p += sizeof(md->md_provsize); 287 le32enc(p, md->md_sectorsize); p += sizeof(md->md_sectorsize); 288 *p = md->md_keys; p += sizeof(md->md_keys); 289 le32enc(p, md->md_iterations); p += sizeof(md->md_iterations); 290 bcopy(md->md_salt, p, sizeof(md->md_salt)); p += sizeof(md->md_salt); 291 bcopy(md->md_mkeys, p, sizeof(md->md_mkeys)); p += sizeof(md->md_mkeys); 292 *datap = p; 293} 294static __inline void 295eli_metadata_encode(struct g_eli_metadata *md, u_char *data) 296{ 297 MD5_CTX ctx; 298 u_char *p; 299 300 p = data; 301 bcopy(md->md_magic, p, sizeof(md->md_magic)); 302 p += sizeof(md->md_magic); 303 le32enc(p, md->md_version); 304 p += sizeof(md->md_version); 305 switch (md->md_version) { 306 case G_ELI_VERSION_00: 307 eli_metadata_encode_v0(md, &p); 308 break; 309 case G_ELI_VERSION_01: 310 case G_ELI_VERSION_02: 311 case G_ELI_VERSION_03: 312 case G_ELI_VERSION_04: 313 case G_ELI_VERSION_05: 314 case G_ELI_VERSION_06: 315 case G_ELI_VERSION_07: 316 eli_metadata_encode_v1v2v3v4v5v6v7(md, &p); 317 break; 318 default: 319#ifdef _KERNEL 320 panic("%s: Unsupported version %u.", __func__, 321 (u_int)md->md_version); 322#else 323 assert(!"Unsupported metadata version."); 324#endif 325 } 326 MD5Init(&ctx); 327 MD5Update(&ctx, data, p - data); 328 MD5Final(md->md_hash, &ctx); 329 bcopy(md->md_hash, p, sizeof(md->md_hash)); 330} 331static __inline int 332eli_metadata_decode_v0(const u_char *data, struct g_eli_metadata *md) 333{ 334 MD5_CTX ctx; 335 const u_char *p; 336 337 p = data + sizeof(md->md_magic) + sizeof(md->md_version); 338 md->md_flags = le32dec(p); p += sizeof(md->md_flags); 339 md->md_ealgo = le16dec(p); p += sizeof(md->md_ealgo); 340 md->md_keylen = le16dec(p); p += sizeof(md->md_keylen); 341 md->md_provsize = le64dec(p); p += sizeof(md->md_provsize); 342 md->md_sectorsize = le32dec(p); p += sizeof(md->md_sectorsize); 343 md->md_keys = *p; p += sizeof(md->md_keys); 344 md->md_iterations = le32dec(p); p += sizeof(md->md_iterations); 345 bcopy(p, md->md_salt, sizeof(md->md_salt)); p += sizeof(md->md_salt); 346 bcopy(p, md->md_mkeys, sizeof(md->md_mkeys)); p += sizeof(md->md_mkeys); 347 MD5Init(&ctx); 348 MD5Update(&ctx, data, p - data); 349 MD5Final(md->md_hash, &ctx); 350 if (bcmp(md->md_hash, p, 16) != 0) 351 return (EINVAL); 352 return (0); 353} 354 355static __inline int 356eli_metadata_decode_v1v2v3v4v5v6v7(const u_char *data, struct g_eli_metadata *md) 357{ 358 MD5_CTX ctx; 359 const u_char *p; 360 361 p = data + sizeof(md->md_magic) + sizeof(md->md_version); 362 md->md_flags = le32dec(p); p += sizeof(md->md_flags); 363 md->md_ealgo = le16dec(p); p += sizeof(md->md_ealgo); 364 md->md_keylen = le16dec(p); p += sizeof(md->md_keylen); 365 md->md_aalgo = le16dec(p); p += sizeof(md->md_aalgo); 366 md->md_provsize = le64dec(p); p += sizeof(md->md_provsize); 367 md->md_sectorsize = le32dec(p); p += sizeof(md->md_sectorsize); 368 md->md_keys = *p; p += sizeof(md->md_keys); 369 md->md_iterations = le32dec(p); p += sizeof(md->md_iterations); 370 bcopy(p, md->md_salt, sizeof(md->md_salt)); p += sizeof(md->md_salt); 371 bcopy(p, md->md_mkeys, sizeof(md->md_mkeys)); p += sizeof(md->md_mkeys); 372 MD5Init(&ctx); 373 MD5Update(&ctx, data, p - data); 374 MD5Final(md->md_hash, &ctx); 375 if (bcmp(md->md_hash, p, 16) != 0) 376 return (EINVAL); 377 return (0); 378} 379static __inline int 380eli_metadata_decode(const u_char *data, struct g_eli_metadata *md) 381{ 382 int error; 383 384 bcopy(data, md->md_magic, sizeof(md->md_magic)); 385 if (strcmp(md->md_magic, G_ELI_MAGIC) != 0) 386 return (EINVAL); 387 md->md_version = le32dec(data + sizeof(md->md_magic)); 388 switch (md->md_version) { 389 case G_ELI_VERSION_00: 390 error = eli_metadata_decode_v0(data, md); 391 break; 392 case G_ELI_VERSION_01: 393 case G_ELI_VERSION_02: 394 case G_ELI_VERSION_03: 395 case G_ELI_VERSION_04: 396 case G_ELI_VERSION_05: 397 case G_ELI_VERSION_06: 398 case G_ELI_VERSION_07: 399 error = eli_metadata_decode_v1v2v3v4v5v6v7(data, md); 400 break; 401 default: 402 error = EOPNOTSUPP; 403 break; 404 } 405 return (error); 406} 407#endif /* !_OpenSSL */ 408 409static __inline u_int 410g_eli_str2ealgo(const char *name) 411{ 412 413 if (strcasecmp("null", name) == 0) 414 return (CRYPTO_NULL_CBC); 415 else if (strcasecmp("null-cbc", name) == 0) 416 return (CRYPTO_NULL_CBC); 417 else if (strcasecmp("aes", name) == 0) 418 return (CRYPTO_AES_XTS); 419 else if (strcasecmp("aes-cbc", name) == 0) 420 return (CRYPTO_AES_CBC); 421 else if (strcasecmp("aes-xts", name) == 0) 422 return (CRYPTO_AES_XTS); 423 else if (strcasecmp("blowfish", name) == 0) 424 return (CRYPTO_BLF_CBC); 425 else if (strcasecmp("blowfish-cbc", name) == 0) 426 return (CRYPTO_BLF_CBC); 427 else if (strcasecmp("camellia", name) == 0) 428 return (CRYPTO_CAMELLIA_CBC); 429 else if (strcasecmp("camellia-cbc", name) == 0) 430 return (CRYPTO_CAMELLIA_CBC); 431 else if (strcasecmp("3des", name) == 0) 432 return (CRYPTO_3DES_CBC); 433 else if (strcasecmp("3des-cbc", name) == 0) 434 return (CRYPTO_3DES_CBC); 435 return (CRYPTO_ALGORITHM_MIN - 1); 436} 437 438static __inline u_int 439g_eli_str2aalgo(const char *name) 440{ 441 442 if (strcasecmp("hmac/md5", name) == 0) 443 return (CRYPTO_MD5_HMAC); 444 else if (strcasecmp("hmac/sha1", name) == 0) 445 return (CRYPTO_SHA1_HMAC); 446 else if (strcasecmp("hmac/ripemd160", name) == 0) 447 return (CRYPTO_RIPEMD160_HMAC); 448 else if (strcasecmp("hmac/sha256", name) == 0) 449 return (CRYPTO_SHA2_256_HMAC); 450 else if (strcasecmp("hmac/sha384", name) == 0) 451 return (CRYPTO_SHA2_384_HMAC); 452 else if (strcasecmp("hmac/sha512", name) == 0) 453 return (CRYPTO_SHA2_512_HMAC); 454 return (CRYPTO_ALGORITHM_MIN - 1); 455} 456 457static __inline const char * 458g_eli_algo2str(u_int algo) 459{ 460 461 switch (algo) { 462 case CRYPTO_NULL_CBC: 463 return ("NULL"); 464 case CRYPTO_AES_CBC: 465 return ("AES-CBC"); 466 case CRYPTO_AES_XTS: 467 return ("AES-XTS"); 468 case CRYPTO_BLF_CBC: 469 return ("Blowfish-CBC"); 470 case CRYPTO_CAMELLIA_CBC: 471 return ("CAMELLIA-CBC"); 472 case CRYPTO_3DES_CBC: 473 return ("3DES-CBC"); 474 case CRYPTO_MD5_HMAC: 475 return ("HMAC/MD5"); 476 case CRYPTO_SHA1_HMAC: 477 return ("HMAC/SHA1"); 478 case CRYPTO_RIPEMD160_HMAC: 479 return ("HMAC/RIPEMD160"); 480 case CRYPTO_SHA2_256_HMAC: 481 return ("HMAC/SHA256"); 482 case CRYPTO_SHA2_384_HMAC: 483 return ("HMAC/SHA384"); 484 case CRYPTO_SHA2_512_HMAC: 485 return ("HMAC/SHA512"); 486 } 487 return ("unknown"); 488} 489 490static __inline void 491eli_metadata_dump(const struct g_eli_metadata *md) 492{ 493 static const char hex[] = "0123456789abcdef"; 494 char str[sizeof(md->md_mkeys) * 2 + 1]; 495 u_int i; 496 497 printf(" magic: %s\n", md->md_magic); 498 printf(" version: %u\n", (u_int)md->md_version); 499 printf(" flags: 0x%x\n", (u_int)md->md_flags); 500 printf(" ealgo: %s\n", g_eli_algo2str(md->md_ealgo)); 501 printf(" keylen: %u\n", (u_int)md->md_keylen); 502 if (md->md_flags & G_ELI_FLAG_AUTH) 503 printf(" aalgo: %s\n", g_eli_algo2str(md->md_aalgo)); 504 printf(" provsize: %ju\n", (uintmax_t)md->md_provsize); 505 printf("sectorsize: %u\n", (u_int)md->md_sectorsize); 506 printf(" keys: 0x%02x\n", (u_int)md->md_keys); 507 printf("iterations: %d\n", (int)md->md_iterations); 508 bzero(str, sizeof(str)); 509 for (i = 0; i < sizeof(md->md_salt); i++) { 510 str[i * 2] = hex[md->md_salt[i] >> 4]; 511 str[i * 2 + 1] = hex[md->md_salt[i] & 0x0f]; 512 } 513 printf(" Salt: %s\n", str); 514 bzero(str, sizeof(str)); 515 for (i = 0; i < sizeof(md->md_mkeys); i++) { 516 str[i * 2] = hex[md->md_mkeys[i] >> 4]; 517 str[i * 2 + 1] = hex[md->md_mkeys[i] & 0x0f]; 518 } 519 printf("Master Key: %s\n", str); 520 bzero(str, sizeof(str)); 521 for (i = 0; i < 16; i++) { 522 str[i * 2] = hex[md->md_hash[i] >> 4]; 523 str[i * 2 + 1] = hex[md->md_hash[i] & 0x0f]; 524 } 525 printf(" MD5 hash: %s\n", str); 526} 527 528static __inline u_int 529g_eli_keylen(u_int algo, u_int keylen) 530{ 531 532 switch (algo) { 533 case CRYPTO_NULL_CBC: 534 if (keylen == 0) 535 keylen = 64 * 8; 536 else { 537 if (keylen > 64 * 8) 538 keylen = 0; 539 } 540 return (keylen); 541 case CRYPTO_AES_CBC: 542 case CRYPTO_CAMELLIA_CBC: 543 switch (keylen) { 544 case 0: 545 return (128); 546 case 128: 547 case 192: 548 case 256: 549 return (keylen); 550 default: 551 return (0); 552 } 553 case CRYPTO_AES_XTS: 554 switch (keylen) { 555 case 0: 556 return (128); 557 case 128: 558 case 256: 559 return (keylen); 560 default: 561 return (0); 562 } 563 case CRYPTO_BLF_CBC: 564 if (keylen == 0) 565 return (128); 566 if (keylen < 128 || keylen > 448) 567 return (0); 568 if ((keylen % 32) != 0) 569 return (0); 570 return (keylen); 571 case CRYPTO_3DES_CBC: 572 if (keylen == 0 || keylen == 192) 573 return (192); 574 return (0); 575 default: 576 return (0); 577 } 578} 579 580static __inline u_int 581g_eli_hashlen(u_int algo) 582{ 583 584 switch (algo) { 585 case CRYPTO_MD5_HMAC: 586 return (16); 587 case CRYPTO_SHA1_HMAC: 588 return (20); 589 case CRYPTO_RIPEMD160_HMAC: 590 return (20); 591 case CRYPTO_SHA2_256_HMAC: 592 return (32); 593 case CRYPTO_SHA2_384_HMAC: 594 return (48); 595 case CRYPTO_SHA2_512_HMAC: 596 return (64); 597 } 598 return (0); 599} 600 601static __inline void 602eli_metadata_softc(struct g_eli_softc *sc, const struct g_eli_metadata *md, 603 u_int sectorsize, off_t mediasize) 604{ 605 606 sc->sc_version = md->md_version; 607 sc->sc_inflight = 0; 608 sc->sc_crypto = G_ELI_CRYPTO_UNKNOWN; 609 sc->sc_flags = md->md_flags; 610 /* Backward compatibility. */ 611 if (md->md_version < G_ELI_VERSION_04) 612 sc->sc_flags |= G_ELI_FLAG_NATIVE_BYTE_ORDER; 613 if (md->md_version < G_ELI_VERSION_05) 614 sc->sc_flags |= G_ELI_FLAG_SINGLE_KEY; 615 if (md->md_version < G_ELI_VERSION_06 && 616 (sc->sc_flags & G_ELI_FLAG_AUTH) != 0) { 617 sc->sc_flags |= G_ELI_FLAG_FIRST_KEY; 618 } 619 if (md->md_version < G_ELI_VERSION_07) 620 sc->sc_flags |= G_ELI_FLAG_ENC_IVKEY; 621 sc->sc_ealgo = md->md_ealgo; 622 623 if (sc->sc_flags & G_ELI_FLAG_AUTH) { 624 sc->sc_akeylen = sizeof(sc->sc_akey) * 8; 625 sc->sc_aalgo = md->md_aalgo; 626 sc->sc_alen = g_eli_hashlen(sc->sc_aalgo); 627 628 sc->sc_data_per_sector = sectorsize - sc->sc_alen; 629 /* 630 * Some hash functions (like SHA1 and RIPEMD160) generates hash 631 * which length is not multiple of 128 bits, but we want data 632 * length to be multiple of 128, so we can encrypt without 633 * padding. The line below rounds down data length to multiple 634 * of 128 bits. 635 */ 636 sc->sc_data_per_sector -= sc->sc_data_per_sector % 16; 637 638 sc->sc_bytes_per_sector = 639 (md->md_sectorsize - 1) / sc->sc_data_per_sector + 1; 640 sc->sc_bytes_per_sector *= sectorsize; 641 } 642 sc->sc_sectorsize = md->md_sectorsize; 643 sc->sc_mediasize = mediasize; 644 if (!(sc->sc_flags & G_ELI_FLAG_ONETIME)) 645 sc->sc_mediasize -= sectorsize; 646 if (!(sc->sc_flags & G_ELI_FLAG_AUTH)) 647 sc->sc_mediasize -= (sc->sc_mediasize % sc->sc_sectorsize); 648 else { 649 sc->sc_mediasize /= sc->sc_bytes_per_sector; 650 sc->sc_mediasize *= sc->sc_sectorsize; 651 } 652 sc->sc_ekeylen = md->md_keylen; 653} 654 655#ifdef _KERNEL 656int g_eli_read_metadata(struct g_class *mp, struct g_provider *pp, 657 struct g_eli_metadata *md); 658struct g_geom *g_eli_create(struct gctl_req *req, struct g_class *mp, 659 struct g_provider *bpp, const struct g_eli_metadata *md, 660 const u_char *mkey, int nkey); 661int g_eli_destroy(struct g_eli_softc *sc, boolean_t force); 662 663int g_eli_access(struct g_provider *pp, int dr, int dw, int de); 664void g_eli_config(struct gctl_req *req, struct g_class *mp, const char *verb); 665 666void g_eli_read_done(struct bio *bp); 667void g_eli_write_done(struct bio *bp); 668int g_eli_crypto_rerun(struct cryptop *crp); 669 670void g_eli_crypto_read(struct g_eli_softc *sc, struct bio *bp, boolean_t fromworker); 671void g_eli_crypto_run(struct g_eli_worker *wr, struct bio *bp); 672 673void g_eli_auth_read(struct g_eli_softc *sc, struct bio *bp); 674void g_eli_auth_run(struct g_eli_worker *wr, struct bio *bp); 675#endif 676void g_eli_crypto_ivgen(struct g_eli_softc *sc, off_t offset, u_char *iv, 677 size_t size); 678 679void g_eli_mkey_hmac(unsigned char *mkey, const unsigned char *key); 680int g_eli_mkey_decrypt(const struct g_eli_metadata *md, 681 const unsigned char *key, unsigned char *mkey, unsigned *nkeyp); 682int g_eli_mkey_encrypt(unsigned algo, const unsigned char *key, unsigned keylen, 683 unsigned char *mkey); 684#ifdef _KERNEL 685void g_eli_mkey_propagate(struct g_eli_softc *sc, const unsigned char *mkey); 686#endif 687 688int g_eli_crypto_encrypt(u_int algo, u_char *data, size_t datasize, 689 const u_char *key, size_t keysize); 690int g_eli_crypto_decrypt(u_int algo, u_char *data, size_t datasize, 691 const u_char *key, size_t keysize); 692 693struct hmac_ctx { 694 SHA512_CTX innerctx; 695 SHA512_CTX outerctx; 696}; 697 698void g_eli_crypto_hmac_init(struct hmac_ctx *ctx, const uint8_t *hkey, 699 size_t hkeylen); 700void g_eli_crypto_hmac_update(struct hmac_ctx *ctx, const uint8_t *data, 701 size_t datasize); 702void g_eli_crypto_hmac_final(struct hmac_ctx *ctx, uint8_t *md, size_t mdsize); 703void g_eli_crypto_hmac(const uint8_t *hkey, size_t hkeysize, 704 const uint8_t *data, size_t datasize, uint8_t *md, size_t mdsize); 705 706void g_eli_key_fill(struct g_eli_softc *sc, struct g_eli_key *key, 707 uint64_t keyno); 708#ifdef _KERNEL 709void g_eli_key_init(struct g_eli_softc *sc); 710void g_eli_key_destroy(struct g_eli_softc *sc); 711uint8_t *g_eli_key_hold(struct g_eli_softc *sc, off_t offset, size_t blocksize); 712void g_eli_key_drop(struct g_eli_softc *sc, uint8_t *rawkey); 713#endif 714#endif /* !_G_ELI_H_ */ 715