/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2003,2007,2010,2011 Free Software Foundation, Inc. * * GRUB is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * GRUB is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GRUB. If not, see . */ #include #include #include #include #include #include #include #include #include #ifdef GRUB_UTIL #include #include #include #include #include #include #include #endif GRUB_MOD_LICENSE ("GPLv3+"); grub_cryptodisk_dev_t grub_cryptodisk_list; static const struct grub_arg_option options[] = { {"uuid", 'u', 0, N_("Mount by UUID."), 0, 0}, /* TRANSLATORS: It's still restricted to cryptodisks only. */ {"all", 'a', 0, N_("Mount all."), 0, 0}, {"boot", 'b', 0, N_("Mount all volumes with `boot' flag set."), 0, 0}, {0, 0, 0, 0, 0, 0} }; /* Our irreducible polynom is x^128+x^7+x^2+x+1. Lowest byte of it is: */ #define GF_POLYNOM 0x87 static inline int GF_PER_SECTOR (const struct grub_cryptodisk *dev) { return 1U << (dev->log_sector_size - GRUB_CRYPTODISK_GF_LOG_BYTES); } static grub_cryptodisk_t cryptodisk_list = NULL; static grub_uint8_t n = 0; static void gf_mul_x (grub_uint8_t *g) { int over = 0, over2 = 0; unsigned j; for (j = 0; j < GRUB_CRYPTODISK_GF_BYTES; j++) { over2 = !!(g[j] & 0x80); g[j] <<= 1; g[j] |= over; over = over2; } if (over) g[0] ^= GF_POLYNOM; } static void gf_mul_x_be (grub_uint8_t *g) { int over = 0, over2 = 0; int j; for (j = (int) GRUB_CRYPTODISK_GF_BYTES - 1; j >= 0; j--) { over2 = !!(g[j] & 0x80); g[j] <<= 1; g[j] |= over; over = over2; } if (over) g[GRUB_CRYPTODISK_GF_BYTES - 1] ^= GF_POLYNOM; } static void gf_mul_be (grub_uint8_t *o, const grub_uint8_t *a, const grub_uint8_t *b) { unsigned i; grub_uint8_t t[GRUB_CRYPTODISK_GF_BYTES]; grub_memset (o, 0, GRUB_CRYPTODISK_GF_BYTES); grub_memcpy (t, b, GRUB_CRYPTODISK_GF_BYTES); for (i = 0; i < GRUB_CRYPTODISK_GF_SIZE; i++) { if (((a[GRUB_CRYPTODISK_GF_BYTES - i / GRUB_CHAR_BIT - 1] >> (i % GRUB_CHAR_BIT))) & 1) grub_crypto_xor (o, o, t, GRUB_CRYPTODISK_GF_BYTES); gf_mul_x_be (t); } } static gcry_err_code_t grub_crypto_pcbc_decrypt (grub_crypto_cipher_handle_t cipher, void *out, void *in, grub_size_t size, void *iv) { grub_uint8_t *inptr, *outptr, *end; grub_uint8_t ivt[cipher->cipher->blocksize]; if (!cipher->cipher->decrypt) return GPG_ERR_NOT_SUPPORTED; if (size % cipher->cipher->blocksize != 0) return GPG_ERR_INV_ARG; end = (grub_uint8_t *) in + size; for (inptr = in, outptr = out; inptr < end; inptr += cipher->cipher->blocksize, outptr += cipher->cipher->blocksize) { grub_memcpy (ivt, inptr, cipher->cipher->blocksize); cipher->cipher->decrypt (cipher->ctx, outptr, inptr); grub_crypto_xor (outptr, outptr, iv, cipher->cipher->blocksize); grub_crypto_xor (iv, ivt, outptr, cipher->cipher->blocksize); } return GPG_ERR_NO_ERROR; } static gcry_err_code_t grub_crypto_pcbc_encrypt (grub_crypto_cipher_handle_t cipher, void *out, void *in, grub_size_t size, void *iv) { grub_uint8_t *inptr, *outptr, *end; grub_uint8_t ivt[cipher->cipher->blocksize]; if (!cipher->cipher->decrypt) return GPG_ERR_NOT_SUPPORTED; if (size % cipher->cipher->blocksize != 0) return GPG_ERR_INV_ARG; end = (grub_uint8_t *) in + size; for (inptr = in, outptr = out; inptr < end; inptr += cipher->cipher->blocksize, outptr += cipher->cipher->blocksize) { grub_memcpy (ivt, inptr, cipher->cipher->blocksize); grub_crypto_xor (outptr, outptr, iv, cipher->cipher->blocksize); cipher->cipher->encrypt (cipher->ctx, outptr, inptr); grub_crypto_xor (iv, ivt, outptr, cipher->cipher->blocksize); } return GPG_ERR_NO_ERROR; } struct lrw_sector { grub_uint8_t low[GRUB_CRYPTODISK_GF_BYTES]; grub_uint8_t high[GRUB_CRYPTODISK_GF_BYTES]; grub_uint8_t low_byte, low_byte_c; }; static void generate_lrw_sector (struct lrw_sector *sec, const struct grub_cryptodisk *dev, const grub_uint8_t *iv) { grub_uint8_t idx[GRUB_CRYPTODISK_GF_BYTES]; grub_uint16_t c; int j; grub_memcpy (idx, iv, GRUB_CRYPTODISK_GF_BYTES); sec->low_byte = (idx[GRUB_CRYPTODISK_GF_BYTES - 1] & (GF_PER_SECTOR (dev) - 1)); sec->low_byte_c = (((GF_PER_SECTOR (dev) - 1) & ~sec->low_byte) + 1); idx[GRUB_CRYPTODISK_GF_BYTES - 1] &= ~(GF_PER_SECTOR (dev) - 1); gf_mul_be (sec->low, dev->lrw_key, idx); if (!sec->low_byte) return; c = idx[GRUB_CRYPTODISK_GF_BYTES - 1] + GF_PER_SECTOR (dev); if (c & 0x100) { for (j = GRUB_CRYPTODISK_GF_BYTES - 2; j >= 0; j--) { idx[j]++; if (idx[j] != 0) break; } } idx[GRUB_CRYPTODISK_GF_BYTES - 1] = c; gf_mul_be (sec->high, dev->lrw_key, idx); } static void __attribute__ ((unused)) lrw_xor (const struct lrw_sector *sec, const struct grub_cryptodisk *dev, grub_uint8_t *b) { unsigned i; for (i = 0; i < sec->low_byte_c * GRUB_CRYPTODISK_GF_BYTES; i += GRUB_CRYPTODISK_GF_BYTES) grub_crypto_xor (b + i, b + i, sec->low, GRUB_CRYPTODISK_GF_BYTES); grub_crypto_xor (b, b, dev->lrw_precalc + GRUB_CRYPTODISK_GF_BYTES * sec->low_byte, sec->low_byte_c * GRUB_CRYPTODISK_GF_BYTES); if (!sec->low_byte) return; for (i = sec->low_byte_c * GRUB_CRYPTODISK_GF_BYTES; i < (1U << dev->log_sector_size); i += GRUB_CRYPTODISK_GF_BYTES) grub_crypto_xor (b + i, b + i, sec->high, GRUB_CRYPTODISK_GF_BYTES); grub_crypto_xor (b + sec->low_byte_c * GRUB_CRYPTODISK_GF_BYTES, b + sec->low_byte_c * GRUB_CRYPTODISK_GF_BYTES, dev->lrw_precalc, sec->low_byte * GRUB_CRYPTODISK_GF_BYTES); } static gcry_err_code_t grub_cryptodisk_endecrypt (struct grub_cryptodisk *dev, grub_uint8_t * data, grub_size_t len, grub_disk_addr_t sector, int do_encrypt) { grub_size_t i; gcry_err_code_t err; /* The only mode without IV. */ if (dev->mode == GRUB_CRYPTODISK_MODE_ECB && !dev->rekey) return (do_encrypt ? grub_crypto_ecb_encrypt (dev->cipher, data, data, len) : grub_crypto_ecb_decrypt (dev->cipher, data, data, len)); for (i = 0; i < len; i += (1U << dev->log_sector_size)) { grub_size_t sz = ((dev->cipher->cipher->blocksize + sizeof (grub_uint32_t) - 1) / sizeof (grub_uint32_t)); grub_uint32_t iv[sz]; if (dev->rekey) { grub_uint64_t zone = sector >> dev->rekey_shift; if (zone != dev->last_rekey) { err = dev->rekey (dev, zone); if (err) return err; dev->last_rekey = zone; } } grub_memset (iv, 0, sz * sizeof (iv[0])); switch (dev->mode_iv) { case GRUB_CRYPTODISK_MODE_IV_NULL: break; case GRUB_CRYPTODISK_MODE_IV_BYTECOUNT64_HASH: { grub_uint64_t tmp; GRUB_PROPERLY_ALIGNED_ARRAY (ctx, dev->iv_hash->contextsize); grub_memset (ctx, 0, sizeof (ctx)); tmp = grub_cpu_to_le64 (sector << dev->log_sector_size); dev->iv_hash->init (ctx); dev->iv_hash->write (ctx, dev->iv_prefix, dev->iv_prefix_len); dev->iv_hash->write (ctx, &tmp, sizeof (tmp)); dev->iv_hash->final (ctx); grub_memcpy (iv, dev->iv_hash->read (ctx), sizeof (iv)); } break; case GRUB_CRYPTODISK_MODE_IV_PLAIN64: iv[1] = grub_cpu_to_le32 (sector >> 32); case GRUB_CRYPTODISK_MODE_IV_PLAIN: iv[0] = grub_cpu_to_le32 (sector & 0xFFFFFFFF); break; case GRUB_CRYPTODISK_MODE_IV_BYTECOUNT64: iv[1] = grub_cpu_to_le32 (sector >> (32 - dev->log_sector_size)); iv[0] = grub_cpu_to_le32 ((sector << dev->log_sector_size) & 0xFFFFFFFF); break; case GRUB_CRYPTODISK_MODE_IV_BENBI: { grub_uint64_t num = (sector << dev->benbi_log) + 1; iv[sz - 2] = grub_cpu_to_be32 (num >> 32); iv[sz - 1] = grub_cpu_to_be32 (num & 0xFFFFFFFF); } break; case GRUB_CRYPTODISK_MODE_IV_ESSIV: iv[0] = grub_cpu_to_le32 (sector & 0xFFFFFFFF); err = grub_crypto_ecb_encrypt (dev->essiv_cipher, iv, iv, dev->cipher->cipher->blocksize); if (err) return err; } switch (dev->mode) { case GRUB_CRYPTODISK_MODE_CBC: if (do_encrypt) err = grub_crypto_cbc_encrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size), iv); else err = grub_crypto_cbc_decrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size), iv); if (err) return err; break; case GRUB_CRYPTODISK_MODE_PCBC: if (do_encrypt) err = grub_crypto_pcbc_encrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size), iv); else err = grub_crypto_pcbc_decrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size), iv); if (err) return err; break; case GRUB_CRYPTODISK_MODE_XTS: { unsigned j; err = grub_crypto_ecb_encrypt (dev->secondary_cipher, iv, iv, dev->cipher->cipher->blocksize); if (err) return err; for (j = 0; j < (1U << dev->log_sector_size); j += dev->cipher->cipher->blocksize) { grub_crypto_xor (data + i + j, data + i + j, iv, dev->cipher->cipher->blocksize); if (do_encrypt) err = grub_crypto_ecb_encrypt (dev->cipher, data + i + j, data + i + j, dev->cipher->cipher->blocksize); else err = grub_crypto_ecb_decrypt (dev->cipher, data + i + j, data + i + j, dev->cipher->cipher->blocksize); if (err) return err; grub_crypto_xor (data + i + j, data + i + j, iv, dev->cipher->cipher->blocksize); gf_mul_x ((grub_uint8_t *) iv); } } break; case GRUB_CRYPTODISK_MODE_LRW: { struct lrw_sector sec; generate_lrw_sector (&sec, dev, (grub_uint8_t *) iv); lrw_xor (&sec, dev, data + i); if (do_encrypt) err = grub_crypto_ecb_encrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size)); else err = grub_crypto_ecb_decrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size)); if (err) return err; lrw_xor (&sec, dev, data + i); } break; case GRUB_CRYPTODISK_MODE_ECB: if (do_encrypt) grub_crypto_ecb_encrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size)); else grub_crypto_ecb_decrypt (dev->cipher, data + i, data + i, (1U << dev->log_sector_size)); break; default: return GPG_ERR_NOT_IMPLEMENTED; } sector++; } return GPG_ERR_NO_ERROR; } gcry_err_code_t grub_cryptodisk_decrypt (struct grub_cryptodisk *dev, grub_uint8_t * data, grub_size_t len, grub_disk_addr_t sector) { return grub_cryptodisk_endecrypt (dev, data, len, sector, 0); } gcry_err_code_t grub_cryptodisk_setkey (grub_cryptodisk_t dev, grub_uint8_t *key, grub_size_t keysize) { gcry_err_code_t err; int real_keysize; real_keysize = keysize; if (dev->mode == GRUB_CRYPTODISK_MODE_XTS) real_keysize /= 2; if (dev->mode == GRUB_CRYPTODISK_MODE_LRW) real_keysize -= dev->cipher->cipher->blocksize; /* Set the PBKDF2 output as the cipher key. */ err = grub_crypto_cipher_set_key (dev->cipher, key, real_keysize); if (err) return err; grub_memcpy (dev->key, key, keysize); dev->keysize = keysize; /* Configure ESSIV if necessary. */ if (dev->mode_iv == GRUB_CRYPTODISK_MODE_IV_ESSIV) { grub_size_t essiv_keysize = dev->essiv_hash->mdlen; grub_uint8_t hashed_key[essiv_keysize]; grub_crypto_hash (dev->essiv_hash, hashed_key, key, keysize); err = grub_crypto_cipher_set_key (dev->essiv_cipher, hashed_key, essiv_keysize); if (err) return err; } if (dev->mode == GRUB_CRYPTODISK_MODE_XTS) { err = grub_crypto_cipher_set_key (dev->secondary_cipher, key + real_keysize, keysize / 2); if (err) return err; } if (dev->mode == GRUB_CRYPTODISK_MODE_LRW) { unsigned i; grub_uint8_t idx[GRUB_CRYPTODISK_GF_BYTES]; grub_free (dev->lrw_precalc); grub_memcpy (dev->lrw_key, key + real_keysize, dev->cipher->cipher->blocksize); dev->lrw_precalc = grub_malloc ((1U << dev->log_sector_size)); if (!dev->lrw_precalc) return GPG_ERR_OUT_OF_MEMORY; grub_memset (idx, 0, GRUB_CRYPTODISK_GF_BYTES); for (i = 0; i < (1U << dev->log_sector_size); i += GRUB_CRYPTODISK_GF_BYTES) { idx[GRUB_CRYPTODISK_GF_BYTES - 1] = i / GRUB_CRYPTODISK_GF_BYTES; gf_mul_be (dev->lrw_precalc + i, idx, dev->lrw_key); } } return GPG_ERR_NO_ERROR; } static int grub_cryptodisk_iterate (grub_disk_dev_iterate_hook_t hook, void *hook_data, grub_disk_pull_t pull) { grub_cryptodisk_t i; if (pull != GRUB_DISK_PULL_NONE) return 0; for (i = cryptodisk_list; i != NULL; i = i->next) { char buf[30]; grub_snprintf (buf, sizeof (buf), "crypto%lu", i->id); if (hook (buf, hook_data)) return 1; } return GRUB_ERR_NONE; } static grub_err_t grub_cryptodisk_open (const char *name, grub_disk_t disk) { grub_cryptodisk_t dev; if (grub_memcmp (name, "crypto", sizeof ("crypto") - 1) != 0) return grub_error (GRUB_ERR_UNKNOWN_DEVICE, "No such device"); if (grub_memcmp (name, "cryptouuid/", sizeof ("cryptouuid/") - 1) == 0) { for (dev = cryptodisk_list; dev != NULL; dev = dev->next) if (grub_strcasecmp (name + sizeof ("cryptouuid/") - 1, dev->uuid) == 0) break; } else { unsigned long id = grub_strtoul (name + sizeof ("crypto") - 1, 0, 0); if (grub_errno) return grub_error (GRUB_ERR_UNKNOWN_DEVICE, "No such device"); /* Search for requested device in the list of CRYPTODISK devices. */ for (dev = cryptodisk_list; dev != NULL; dev = dev->next) if (dev->id == id) break; } if (!dev) return grub_error (GRUB_ERR_UNKNOWN_DEVICE, "No such device"); disk->log_sector_size = dev->log_sector_size; #ifdef GRUB_UTIL if (dev->cheat) { if (dev->cheat_fd == -1) dev->cheat_fd = open (dev->cheat, O_RDONLY); if (dev->cheat_fd == -1) return grub_error (GRUB_ERR_IO, N_("cannot open `%s': %s"), dev->cheat, strerror (errno)); } #endif if (!dev->source_disk) { grub_dprintf ("cryptodisk", "Opening device %s\n", name); /* Try to open the source disk and populate the requested disk. */ dev->source_disk = grub_disk_open (dev->source); if (!dev->source_disk) return grub_errno; } disk->data = dev; disk->total_sectors = dev->total_length; disk->id = dev->id; dev->ref++; return GRUB_ERR_NONE; } static void grub_cryptodisk_close (grub_disk_t disk) { grub_cryptodisk_t dev = (grub_cryptodisk_t) disk->data; grub_dprintf ("cryptodisk", "Closing disk\n"); dev->ref--; if (dev->ref != 0) return; #ifdef GRUB_UTIL if (dev->cheat) { close (dev->cheat_fd); dev->cheat_fd = -1; } #endif grub_disk_close (dev->source_disk); dev->source_disk = NULL; } static grub_err_t grub_cryptodisk_read (grub_disk_t disk, grub_disk_addr_t sector, grub_size_t size, char *buf) { grub_cryptodisk_t dev = (grub_cryptodisk_t) disk->data; grub_err_t err; gcry_err_code_t gcry_err; #ifdef GRUB_UTIL if (dev->cheat) { err = grub_util_fd_seek (dev->cheat_fd, dev->cheat, sector << disk->log_sector_size); if (err) return err; if (grub_util_fd_read (dev->cheat_fd, buf, size << disk->log_sector_size) != (ssize_t) (size << disk->log_sector_size)) return grub_error (GRUB_ERR_READ_ERROR, N_("cannot read `%s': %s"), dev->cheat, strerror (errno)); return GRUB_ERR_NONE; } #endif grub_dprintf ("cryptodisk", "Reading %" PRIuGRUB_SIZE " sectors from sector 0x%" PRIxGRUB_UINT64_T " with offset of %" PRIuGRUB_UINT64_T "\n", size, sector, dev->offset); err = grub_disk_read (dev->source_disk, (sector << (disk->log_sector_size - GRUB_DISK_SECTOR_BITS)) + dev->offset, 0, size << disk->log_sector_size, buf); if (err) { grub_dprintf ("cryptodisk", "grub_disk_read failed with error %d\n", err); return err; } gcry_err = grub_cryptodisk_endecrypt (dev, (grub_uint8_t *) buf, size << disk->log_sector_size, sector, 0); return grub_crypto_gcry_error (gcry_err); } static grub_err_t grub_cryptodisk_write (grub_disk_t disk, grub_disk_addr_t sector, grub_size_t size, const char *buf) { grub_cryptodisk_t dev = (grub_cryptodisk_t) disk->data; gcry_err_code_t gcry_err; char *tmp; grub_err_t err; #ifdef GRUB_UTIL if (dev->cheat) { err = grub_util_fd_seek (dev->cheat_fd, dev->cheat, sector << disk->log_sector_size); if (err) return err; if (grub_util_fd_write (dev->cheat_fd, buf, size << disk->log_sector_size) != (ssize_t) (size << disk->log_sector_size)) return grub_error (GRUB_ERR_READ_ERROR, N_("cannot read `%s': %s"), dev->cheat, strerror (errno)); return GRUB_ERR_NONE; } #endif tmp = grub_malloc (size << disk->log_sector_size); if (!tmp) return grub_errno; grub_memcpy (tmp, buf, size << disk->log_sector_size); grub_dprintf ("cryptodisk", "Writing %" PRIuGRUB_SIZE " sectors to sector 0x%" PRIxGRUB_UINT64_T " with offset of %" PRIuGRUB_UINT64_T "\n", size, sector, dev->offset); gcry_err = grub_cryptodisk_endecrypt (dev, (grub_uint8_t *) tmp, size << disk->log_sector_size, sector, 1); if (gcry_err) { grub_free (tmp); return grub_crypto_gcry_error (gcry_err); } err = grub_disk_write (dev->source_disk, (sector << (disk->log_sector_size - GRUB_DISK_SECTOR_BITS)) + dev->offset, 0, size << disk->log_sector_size, tmp); grub_free (tmp); return err; } #ifdef GRUB_UTIL static grub_disk_memberlist_t grub_cryptodisk_memberlist (grub_disk_t disk) { grub_cryptodisk_t dev = (grub_cryptodisk_t) disk->data; grub_disk_memberlist_t list = NULL; list = grub_malloc (sizeof (*list)); if (list) { list->disk = dev->source_disk; list->next = NULL; } return list; } #endif static void cryptodisk_cleanup (void) { #if 0 grub_cryptodisk_t dev = cryptodisk_list; grub_cryptodisk_t tmp; while (dev != NULL) { grub_free (dev->source); grub_free (dev->cipher); grub_free (dev->secondary_cipher); grub_free (dev->essiv_cipher); tmp = dev->next; grub_free (dev); dev = tmp; } #endif } grub_err_t grub_cryptodisk_insert (grub_cryptodisk_t newdev, const char *name, grub_disk_t source) { newdev->source = grub_strdup (name); if (!newdev->source) { grub_free (newdev); return grub_errno; } newdev->id = n++; newdev->source_id = source->id; newdev->source_dev_id = source->dev->id; newdev->next = cryptodisk_list; cryptodisk_list = newdev; return GRUB_ERR_NONE; } grub_cryptodisk_t grub_cryptodisk_get_by_uuid (const char *uuid) { grub_cryptodisk_t dev; for (dev = cryptodisk_list; dev != NULL; dev = dev->next) if (grub_strcasecmp (dev->uuid, uuid) == 0) return dev; return NULL; } grub_cryptodisk_t grub_cryptodisk_get_by_source_disk (grub_disk_t disk) { grub_cryptodisk_t dev; for (dev = cryptodisk_list; dev != NULL; dev = dev->next) if (dev->source_id == disk->id && dev->source_dev_id == disk->dev->id) return dev; return NULL; } #ifdef GRUB_UTIL grub_err_t grub_cryptodisk_cheat_insert (grub_cryptodisk_t newdev, const char *name, grub_disk_t source, const char *cheat) { newdev->cheat = grub_strdup (cheat); newdev->source = grub_strdup (name); if (!newdev->source || !newdev->cheat) { grub_free (newdev->source); grub_free (newdev->cheat); return grub_errno; } newdev->cheat_fd = -1; newdev->source_id = source->id; newdev->source_dev_id = source->dev->id; newdev->id = n++; newdev->next = cryptodisk_list; cryptodisk_list = newdev; return GRUB_ERR_NONE; } void grub_util_cryptodisk_print_abstraction (grub_disk_t disk) { grub_cryptodisk_t dev = (grub_cryptodisk_t) disk->data; grub_printf ("cryptodisk %s ", dev->modname); if (dev->cipher) grub_printf ("%s ", dev->cipher->cipher->modname); if (dev->secondary_cipher) grub_printf ("%s ", dev->secondary_cipher->cipher->modname); if (dev->essiv_cipher) grub_printf ("%s ", dev->essiv_cipher->cipher->modname); if (dev->hash) grub_printf ("%s ", dev->hash->modname); if (dev->essiv_hash) grub_printf ("%s ", dev->essiv_hash->modname); if (dev->iv_hash) grub_printf ("%s ", dev->iv_hash->modname); } void grub_util_cryptodisk_print_uuid (grub_disk_t disk) { grub_cryptodisk_t dev = (grub_cryptodisk_t) disk->data; grub_printf ("%s ", dev->uuid); } #endif static int check_boot, have_it; static char *search_uuid; static void cryptodisk_close (grub_cryptodisk_t dev) { grub_crypto_cipher_close (dev->cipher); grub_crypto_cipher_close (dev->secondary_cipher); grub_crypto_cipher_close (dev->essiv_cipher); grub_free (dev); } static grub_err_t grub_cryptodisk_scan_device_real (const char *name, grub_disk_t source) { grub_err_t err; grub_cryptodisk_t dev; grub_cryptodisk_dev_t cr; dev = grub_cryptodisk_get_by_source_disk (source); if (dev) return GRUB_ERR_NONE; FOR_CRYPTODISK_DEVS (cr) { dev = cr->scan (source, search_uuid, check_boot); if (grub_errno) return grub_errno; if (!dev) continue; err = cr->recover_key (source, dev); if (err) { cryptodisk_close (dev); return err; } grub_cryptodisk_insert (dev, name, source); have_it = 1; return GRUB_ERR_NONE; } return GRUB_ERR_NONE; } #ifdef GRUB_UTIL #include grub_err_t grub_cryptodisk_cheat_mount (const char *sourcedev, const char *cheat) { grub_err_t err; grub_cryptodisk_t dev; grub_cryptodisk_dev_t cr; grub_disk_t source; /* Try to open disk. */ source = grub_disk_open (sourcedev); if (!source) return grub_errno; dev = grub_cryptodisk_get_by_source_disk (source); if (dev) { grub_disk_close (source); return GRUB_ERR_NONE; } FOR_CRYPTODISK_DEVS (cr) { dev = cr->scan (source, search_uuid, check_boot); if (grub_errno) return grub_errno; if (!dev) continue; grub_util_info ("cheatmounted %s (%s) at %s", sourcedev, dev->modname, cheat); err = grub_cryptodisk_cheat_insert (dev, sourcedev, source, cheat); grub_disk_close (source); if (err) grub_free (dev); return GRUB_ERR_NONE; } grub_disk_close (source); return GRUB_ERR_NONE; } #endif static int grub_cryptodisk_scan_device (const char *name, void *data __attribute__ ((unused))) { grub_err_t err; grub_disk_t source; /* Try to open disk. */ source = grub_disk_open (name); if (!source) { grub_print_error (); return 0; } err = grub_cryptodisk_scan_device_real (name, source); grub_disk_close (source); if (err) grub_print_error (); return have_it && search_uuid ? 1 : 0; } static grub_err_t grub_cmd_cryptomount (grub_extcmd_context_t ctxt, int argc, char **args) { struct grub_arg_list *state = ctxt->state; if (argc < 1 && !state[1].set && !state[2].set) return grub_error (GRUB_ERR_BAD_ARGUMENT, "device name required"); have_it = 0; if (state[0].set) { grub_cryptodisk_t dev; dev = grub_cryptodisk_get_by_uuid (args[0]); if (dev) { grub_dprintf ("cryptodisk", "already mounted as crypto%lu\n", dev->id); return GRUB_ERR_NONE; } check_boot = state[2].set; search_uuid = args[0]; grub_device_iterate (&grub_cryptodisk_scan_device, NULL); search_uuid = NULL; if (!have_it) return grub_error (GRUB_ERR_BAD_ARGUMENT, "no such cryptodisk found"); return GRUB_ERR_NONE; } else if (state[1].set || (argc == 0 && state[2].set)) { search_uuid = NULL; check_boot = state[2].set; grub_device_iterate (&grub_cryptodisk_scan_device, NULL); search_uuid = NULL; return GRUB_ERR_NONE; } else { grub_err_t err; grub_disk_t disk; grub_cryptodisk_t dev; char *diskname; char *disklast; search_uuid = NULL; check_boot = state[2].set; diskname = args[0]; if (diskname[0] == '(' && *(disklast = &diskname[grub_strlen (diskname) - 1]) == ')') { *disklast = '\0'; disk = grub_disk_open (diskname + 1); *disklast = ')'; } else disk = grub_disk_open (diskname); if (!disk) return grub_errno; dev = grub_cryptodisk_get_by_source_disk (disk); if (dev) { grub_dprintf ("cryptodisk", "already mounted as crypto%lu\n", dev->id); grub_disk_close (disk); return GRUB_ERR_NONE; } err = grub_cryptodisk_scan_device_real (args[0], disk); grub_disk_close (disk); return err; } } static struct grub_disk_dev grub_cryptodisk_dev = { .name = "cryptodisk", .id = GRUB_DISK_DEVICE_CRYPTODISK_ID, .iterate = grub_cryptodisk_iterate, .open = grub_cryptodisk_open, .close = grub_cryptodisk_close, .read = grub_cryptodisk_read, .write = grub_cryptodisk_write, #ifdef GRUB_UTIL .memberlist = grub_cryptodisk_memberlist, #endif .next = 0 }; static char hex (grub_uint8_t val) { if (val < 10) return '0' + val; return 'a' + val - 10; } /* Open a file named NAME and initialize FILE. */ static char * luks_script_get (void) { grub_cryptodisk_t i; grub_size_t size = 0; char *ptr, *ret; for (i = cryptodisk_list; i != NULL; i = i->next) if (grub_strcmp (i->modname, "luks") == 0) { size += sizeof ("luks_mount "); size += grub_strlen (i->uuid); size += grub_strlen (i->cipher->cipher->name); size += 54; if (i->essiv_hash) size += grub_strlen (i->essiv_hash->name); size += i->keysize * 2; } ret = grub_malloc (size + 1); if (!ret) return 0; ptr = ret; for (i = cryptodisk_list; i != NULL; i = i->next) if (grub_strcmp (i->modname, "luks") == 0) { unsigned j; const char *iptr; ptr = grub_stpcpy (ptr, "luks_mount "); ptr = grub_stpcpy (ptr, i->uuid); *ptr++ = ' '; grub_snprintf (ptr, 21, "%" PRIuGRUB_UINT64_T " ", i->offset); while (*ptr) ptr++; for (iptr = i->cipher->cipher->name; *iptr; iptr++) *ptr++ = grub_tolower (*iptr); switch (i->mode) { case GRUB_CRYPTODISK_MODE_ECB: ptr = grub_stpcpy (ptr, "-ecb"); break; case GRUB_CRYPTODISK_MODE_CBC: ptr = grub_stpcpy (ptr, "-cbc"); break; case GRUB_CRYPTODISK_MODE_PCBC: ptr = grub_stpcpy (ptr, "-pcbc"); break; case GRUB_CRYPTODISK_MODE_XTS: ptr = grub_stpcpy (ptr, "-xts"); break; case GRUB_CRYPTODISK_MODE_LRW: ptr = grub_stpcpy (ptr, "-lrw"); break; } switch (i->mode_iv) { case GRUB_CRYPTODISK_MODE_IV_NULL: ptr = grub_stpcpy (ptr, "-null"); break; case GRUB_CRYPTODISK_MODE_IV_PLAIN: ptr = grub_stpcpy (ptr, "-plain"); break; case GRUB_CRYPTODISK_MODE_IV_PLAIN64: ptr = grub_stpcpy (ptr, "-plain64"); break; case GRUB_CRYPTODISK_MODE_IV_BENBI: ptr = grub_stpcpy (ptr, "-benbi"); break; case GRUB_CRYPTODISK_MODE_IV_ESSIV: ptr = grub_stpcpy (ptr, "-essiv:"); ptr = grub_stpcpy (ptr, i->essiv_hash->name); break; case GRUB_CRYPTODISK_MODE_IV_BYTECOUNT64: case GRUB_CRYPTODISK_MODE_IV_BYTECOUNT64_HASH: break; } *ptr++ = ' '; for (j = 0; j < i->keysize; j++) { *ptr++ = hex (i->key[j] >> 4); *ptr++ = hex (i->key[j] & 0xf); } *ptr++ = '\n'; } *ptr = '\0'; return ret; } struct grub_procfs_entry luks_script = { .name = "luks_script", .get_contents = luks_script_get }; static grub_extcmd_t cmd; GRUB_MOD_INIT (cryptodisk) { grub_disk_dev_register (&grub_cryptodisk_dev); cmd = grub_register_extcmd ("cryptomount", grub_cmd_cryptomount, 0, N_("SOURCE|-u UUID|-a|-b"), N_("Mount a crypto device."), options); grub_procfs_register ("luks_script", &luks_script); } GRUB_MOD_FINI (cryptodisk) { grub_disk_dev_unregister (&grub_cryptodisk_dev); cryptodisk_cleanup (); grub_procfs_unregister (&luks_script); }