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Data are read in "prefetch_cluster" chunks from the * hash device. Setting this greatly improves performance when data and hash * are on the same disk on different partitions on devices with poor random * access behavior. */ #include "dm-verity.h" #include "dm-verity-fec.h" #include <linux/module.h> #include <linux/reboot.h> #define DM_MSG_PREFIX "verity" #define DM_VERITY_ENV_LENGTH 42 #define DM_VERITY_ENV_VAR_NAME "DM_VERITY_ERR_BLOCK_NR" #define DM_VERITY_DEFAULT_PREFETCH_SIZE 262144 #define DM_VERITY_MAX_CORRUPTED_ERRS 100 #define DM_VERITY_OPT_LOGGING "ignore_corruption" #define DM_VERITY_OPT_RESTART "restart_on_corruption" #define DM_VERITY_OPT_IGN_ZEROES "ignore_zero_blocks" #define DM_VERITY_OPTS_MAX (2 + DM_VERITY_OPTS_FEC) static unsigned dm_verity_prefetch_cluster = DM_VERITY_DEFAULT_PREFETCH_SIZE; module_param_named(prefetch_cluster, dm_verity_prefetch_cluster, uint, S_IRUGO | S_IWUSR); struct dm_verity_prefetch_work { struct work_struct work; struct dm_verity *v; sector_t block; unsigned n_blocks; }; /* * Auxiliary structure appended to each dm-bufio buffer. If the value * hash_verified is nonzero, hash of the block has been verified. * * The variable hash_verified is set to 0 when allocating the buffer, then * it can be changed to 1 and it is never reset to 0 again. * * There is no lock around this value, a race condition can at worst cause * that multiple processes verify the hash of the same buffer simultaneously * and write 1 to hash_verified simultaneously. * This condition is harmless, so we don't need locking. */ struct buffer_aux { int hash_verified; }; /* * Initialize struct buffer_aux for a freshly created buffer. */ static void dm_bufio_alloc_callback(struct dm_buffer *buf) { struct buffer_aux *aux = dm_bufio_get_aux_data(buf); aux->hash_verified = 0; } /* * Translate input sector number to the sector number on the target device. */ static sector_t verity_map_sector(struct dm_verity *v, sector_t bi_sector) { return v->data_start + dm_target_offset(v->ti, bi_sector); } /* * Return hash position of a specified block at a specified tree level * (0 is the lowest level). * The lowest "hash_per_block_bits"-bits of the result denote hash position * inside a hash block. The remaining bits denote location of the hash block. */ static sector_t verity_position_at_level(struct dm_verity *v, sector_t block, int level) { return block >> (level * v->hash_per_block_bits); } /* * Wrapper for crypto_shash_init, which handles verity salting. */ static int verity_hash_init(struct dm_verity *v, struct shash_desc *desc) { int r; desc->tfm = v->tfm; desc->flags = CRYPTO_TFM_REQ_MAY_SLEEP; r = crypto_shash_init(desc); if (unlikely(r < 0)) { DMERR("crypto_shash_init failed: %d", r); return r; } if (likely(v->version >= 1)) { r = crypto_shash_update(desc, v->salt, v->salt_size); if (unlikely(r < 0)) { DMERR("crypto_shash_update failed: %d", r); return r; } } return 0; } static int verity_hash_update(struct dm_verity *v, struct shash_desc *desc, const u8 *data, size_t len) { int r = crypto_shash_update(desc, data, len); if (unlikely(r < 0)) DMERR("crypto_shash_update failed: %d", r); return r; } static int verity_hash_final(struct dm_verity *v, struct shash_desc *desc, u8 *digest) { int r; if (unlikely(!v->version)) { r = crypto_shash_update(desc, v->salt, v->salt_size); if (r < 0) { DMERR("crypto_shash_update failed: %d", r); return r; } } r = crypto_shash_final(desc, digest); if (unlikely(r < 0)) DMERR("crypto_shash_final failed: %d", r); return r; } int verity_hash(struct dm_verity *v, struct shash_desc *desc, const u8 *data, size_t len, u8 *digest) { int r; r = verity_hash_init(v, desc); if (unlikely(r < 0)) return r; r = verity_hash_update(v, desc, data, len); if (unlikely(r < 0)) return r; return verity_hash_final(v, desc, digest); } static void verity_hash_at_level(struct dm_verity *v, sector_t block, int level, sector_t *hash_block, unsigned *offset) { sector_t position = verity_position_at_level(v, block, level); unsigned idx; *hash_block = v->hash_level_block[level] + (position >> v->hash_per_block_bits); if (!offset) return; idx = position & ((1 << v->hash_per_block_bits) - 1); if (!v->version) *offset = idx * v->digest_size; else *offset = idx << (v->hash_dev_block_bits - v->hash_per_block_bits); } /* * Handle verification errors. */ static int verity_handle_err(struct dm_verity *v, enum verity_block_type type, unsigned long long block) { char verity_env[DM_VERITY_ENV_LENGTH]; char *envp[] = { verity_env, NULL }; const char *type_str = ""; struct mapped_device *md = dm_table_get_md(v->ti->table); /* Corruption should be visible in device status in all modes */ v->hash_failed = 1; if (v->corrupted_errs >= DM_VERITY_MAX_CORRUPTED_ERRS) goto out; v->corrupted_errs++; switch (type) { case DM_VERITY_BLOCK_TYPE_DATA: type_str = "data"; break; case DM_VERITY_BLOCK_TYPE_METADATA: type_str = "metadata"; break; default: BUG(); } DMERR("%s: %s block %llu is corrupted", v->data_dev->name, type_str, block); if (v->corrupted_errs == DM_VERITY_MAX_CORRUPTED_ERRS) DMERR("%s: reached maximum errors", v->data_dev->name); snprintf(verity_env, DM_VERITY_ENV_LENGTH, "%s=%d,%llu", DM_VERITY_ENV_VAR_NAME, type, block); kobject_uevent_env(&disk_to_dev(dm_disk(md))->kobj, KOBJ_CHANGE, envp); out: if (v->mode == DM_VERITY_MODE_LOGGING) return 0; if (v->mode == DM_VERITY_MODE_RESTART) kernel_restart("dm-verity device corrupted"); return 1; } /* * Verify hash of a metadata block pertaining to the specified data block * ("block" argument) at a specified level ("level" argument). * * On successful return, verity_io_want_digest(v, io) contains the hash value * for a lower tree level or for the data block (if we're at the lowest level). * * If "skip_unverified" is true, unverified buffer is skipped and 1 is returned. * If "skip_unverified" is false, unverified buffer is hashed and verified * against current value of verity_io_want_digest(v, io). */ static int verity_verify_level(struct dm_verity *v, struct dm_verity_io *io, sector_t block, int level, bool skip_unverified, u8 *want_digest) { struct dm_buffer *buf; struct buffer_aux *aux; u8 *data; int r; sector_t hash_block; unsigned offset; verity_hash_at_level(v, block, level, &hash_block, &offset); data = dm_bufio_read(v->bufio, hash_block, &buf); if (IS_ERR(data)) return PTR_ERR(data); aux = dm_bufio_get_aux_data(buf); if (!aux->hash_verified) { if (skip_unverified) { r = 1; goto release_ret_r; } r = verity_hash(v, verity_io_hash_desc(v, io), data, 1 << v->hash_dev_block_bits, verity_io_real_digest(v, io)); if (unlikely(r < 0)) goto release_ret_r; if (likely(memcmp(verity_io_real_digest(v, io), want_digest, v->digest_size) == 0)) aux->hash_verified = 1; else if (verity_fec_decode(v, io, DM_VERITY_BLOCK_TYPE_METADATA, hash_block, data, NULL) == 0) aux->hash_verified = 1; else if (verity_handle_err(v, DM_VERITY_BLOCK_TYPE_METADATA, hash_block)) { r = -EIO; goto release_ret_r; } } data += offset; memcpy(want_digest, data, v->digest_size); r = 0; release_ret_r: dm_bufio_release(buf); return r; } /* * Find a hash for a given block, write it to digest and verify the integrity * of the hash tree if necessary. */ int verity_hash_for_block(struct dm_verity *v, struct dm_verity_io *io, sector_t block, u8 *digest, bool *is_zero) { int r = 0, i; if (likely(v->levels)) { /* * First, we try to get the requested hash for * the current block. If the hash block itself is * verified, zero is returned. If it isn't, this * function returns 1 and we fall back to whole * chain verification. */ r = verity_verify_level(v, io, block, 0, true, digest); if (likely(r <= 0)) goto out; } memcpy(digest, v->root_digest, v->digest_size); for (i = v->levels - 1; i >= 0; i--) { r = verity_verify_level(v, io, block, i, false, digest); if (unlikely(r)) goto out; } out: if (!r && v->zero_digest) *is_zero = !memcmp(v->zero_digest, digest, v->digest_size); else *is_zero = false; return r; } /* * Calls function process for 1 << v->data_dev_block_bits bytes in the bio_vec * starting from iter. */ int verity_for_bv_block(struct dm_verity *v, struct dm_verity_io *io, struct bvec_iter *iter, int (*process)(struct dm_verity *v, struct dm_verity_io *io, u8 *data, size_t len)) { unsigned todo = 1 << v->data_dev_block_bits; struct bio *bio = dm_bio_from_per_bio_data(io, v->ti->per_io_data_size); do { int r; u8 *page; unsigned len; struct bio_vec bv = bio_iter_iovec(bio, *iter); page = kmap_atomic(bv.bv_page); len = bv.bv_len; if (likely(len >= todo)) len = todo; r = process(v, io, page + bv.bv_offset, len); kunmap_atomic(page); if (r < 0) return r; bio_advance_iter(bio, iter, len); todo -= len; } while (todo); return 0; } static int verity_bv_hash_update(struct dm_verity *v, struct dm_verity_io *io, u8 *data, size_t len) { return verity_hash_update(v, verity_io_hash_desc(v, io), data, len); } static int verity_bv_zero(struct dm_verity *v, struct dm_verity_io *io, u8 *data, size_t len) { memset(data, 0, len); return 0; } /* * Verify one "dm_verity_io" structure. */ static int verity_verify_io(struct dm_verity_io *io) { bool is_zero; struct dm_verity *v = io->v; struct bvec_iter start; unsigned b; for (b = 0; b < io->n_blocks; b++) { int r; struct shash_desc *desc = verity_io_hash_desc(v, io); r = verity_hash_for_block(v, io, io->block + b, verity_io_want_digest(v, io), &is_zero); if (unlikely(r < 0)) return r; if (is_zero) { /* * If we expect a zero block, don't validate, just * return zeros. */ r = verity_for_bv_block(v, io, &io->iter, verity_bv_zero); if (unlikely(r < 0)) return r; continue; } r = verity_hash_init(v, desc); if (unlikely(r < 0)) return r; start = io->iter; r = verity_for_bv_block(v, io, &io->iter, verity_bv_hash_update); if (unlikely(r < 0)) return r; r = verity_hash_final(v, desc, verity_io_real_digest(v, io)); if (unlikely(r < 0)) return r; if (likely(memcmp(verity_io_real_digest(v, io), verity_io_want_digest(v, io), v->digest_size) == 0)) continue; else if (verity_fec_decode(v, io, DM_VERITY_BLOCK_TYPE_DATA, io->block + b, NULL, &start) == 0) continue; else if (verity_handle_err(v, DM_VERITY_BLOCK_TYPE_DATA, io->block + b)) return -EIO; } return 0; } /* * End one "io" structure with a given error. */ static void verity_finish_io(struct dm_verity_io *io, int error) { struct dm_verity *v = io->v; struct bio *bio = dm_bio_from_per_bio_data(io, v->ti->per_io_data_size); bio->bi_end_io = io->orig_bi_end_io; bio->bi_error = error; verity_fec_finish_io(io); bio_endio(bio); } static void verity_work(struct work_struct *w) { struct dm_verity_io *io = container_of(w, struct dm_verity_io, work); verity_finish_io(io, verity_verify_io(io)); } static void verity_end_io(struct bio *bio) { struct dm_verity_io *io = bio->bi_private; if (bio->bi_error && !verity_fec_is_enabled(io->v)) { verity_finish_io(io, bio->bi_error); return; } INIT_WORK(&io->work, verity_work); queue_work(io->v->verify_wq, &io->work); } /* * Prefetch buffers for the specified io. * The root buffer is not prefetched, it is assumed that it will be cached * all the time. */ static void verity_prefetch_io(struct work_struct *work) { struct dm_verity_prefetch_work *pw = container_of(work, struct dm_verity_prefetch_work, work); struct dm_verity *v = pw->v; int i; for (i = v->levels - 2; i >= 0; i--) { sector_t hash_block_start; sector_t hash_block_end; verity_hash_at_level(v, pw->block, i, &hash_block_start, NULL); verity_hash_at_level(v, pw->block + pw->n_blocks - 1, i, &hash_block_end, NULL); if (!i) { unsigned cluster = ACCESS_ONCE(dm_verity_prefetch_cluster); cluster >>= v->data_dev_block_bits; if (unlikely(!cluster)) goto no_prefetch_cluster; if (unlikely(cluster & (cluster - 1))) cluster = 1 << __fls(cluster); hash_block_start &= ~(sector_t)(cluster - 1); hash_block_end |= cluster - 1; if (unlikely(hash_block_end >= v->hash_blocks)) hash_block_end = v->hash_blocks - 1; } no_prefetch_cluster: dm_bufio_prefetch(v->bufio, hash_block_start, hash_block_end - hash_block_start + 1); } kfree(pw); } static void verity_submit_prefetch(struct dm_verity *v, struct dm_verity_io *io) { struct dm_verity_prefetch_work *pw; pw = kmalloc(sizeof(struct dm_verity_prefetch_work), GFP_NOIO | __GFP_NORETRY | __GFP_NOMEMALLOC | __GFP_NOWARN); if (!pw) return; INIT_WORK(&pw->work, verity_prefetch_io); pw->v = v; pw->block = io->block; pw->n_blocks = io->n_blocks; queue_work(v->verify_wq, &pw->work); } /* * Bio map function. It allocates dm_verity_io structure and bio vector and * fills them. Then it issues prefetches and the I/O. */ static int verity_map(struct dm_target *ti, struct bio *bio) { struct dm_verity *v = ti->private; struct dm_verity_io *io; bio->bi_bdev = v->data_dev->bdev; bio->bi_iter.bi_sector = verity_map_sector(v, bio->bi_iter.bi_sector); if (((unsigned)bio->bi_iter.bi_sector | bio_sectors(bio)) & ((1 << (v->data_dev_block_bits - SECTOR_SHIFT)) - 1)) { DMERR_LIMIT("unaligned io"); return -EIO; } if (bio_end_sector(bio) >> (v->data_dev_block_bits - SECTOR_SHIFT) > v->data_blocks) { DMERR_LIMIT("io out of range"); return -EIO; } if (bio_data_dir(bio) == WRITE) return -EIO; io = dm_per_bio_data(bio, ti->per_io_data_size); io->v = v; io->orig_bi_end_io = bio->bi_end_io; io->block = bio->bi_iter.bi_sector >> (v->data_dev_block_bits - SECTOR_SHIFT); io->n_blocks = bio->bi_iter.bi_size >> v->data_dev_block_bits; bio->bi_end_io = verity_end_io; bio->bi_private = io; io->iter = bio->bi_iter; verity_fec_init_io(io); verity_submit_prefetch(v, io); generic_make_request(bio); return DM_MAPIO_SUBMITTED; } /* * Status: V (valid) or C (corruption found) */ static void verity_status(struct dm_target *ti, status_type_t type, unsigned status_flags, char *result, unsigned maxlen) { struct dm_verity *v = ti->private; unsigned args = 0; unsigned sz = 0; unsigned x; switch (type) { case STATUSTYPE_INFO: DMEMIT("%c", v->hash_failed ? 'C' : 'V'); break; case STATUSTYPE_TABLE: DMEMIT("%u %s %s %u %u %llu %llu %s ", v->version, v->data_dev->name, v->hash_dev->name, 1 << v->data_dev_block_bits, 1 << v->hash_dev_block_bits, (unsigned long long)v->data_blocks, (unsigned long long)v->hash_start, v->alg_name ); for (x = 0; x < v->digest_size; x++) DMEMIT("%02x", v->root_digest[x]); DMEMIT(" "); if (!v->salt_size) DMEMIT("-"); else for (x = 0; x < v->salt_size; x++) DMEMIT("%02x", v->salt[x]); if (v->mode != DM_VERITY_MODE_EIO) args++; if (verity_fec_is_enabled(v)) args += DM_VERITY_OPTS_FEC; if (v->zero_digest) args++; if (!args) return; DMEMIT(" %u", args); if (v->mode != DM_VERITY_MODE_EIO) { DMEMIT(" "); switch (v->mode) { case DM_VERITY_MODE_LOGGING: DMEMIT(DM_VERITY_OPT_LOGGING); break; case DM_VERITY_MODE_RESTART: DMEMIT(DM_VERITY_OPT_RESTART); break; default: BUG(); } } if (v->zero_digest) DMEMIT(" " DM_VERITY_OPT_IGN_ZEROES); sz = verity_fec_status_table(v, sz, result, maxlen); break; } } static int verity_prepare_ioctl(struct dm_target *ti, struct block_device **bdev, fmode_t *mode) { struct dm_verity *v = ti->private; *bdev = v->data_dev->bdev; if (v->data_start || ti->len != i_size_read(v->data_dev->bdev->bd_inode) >> SECTOR_SHIFT) return 1; return 0; } static int verity_iterate_devices(struct dm_target *ti, iterate_devices_callout_fn fn, void *data) { struct dm_verity *v = ti->private; return fn(ti, v->data_dev, v->data_start, ti->len, data); } static void verity_io_hints(struct dm_target *ti, struct queue_limits *limits) { struct dm_verity *v = ti->private; if (limits->logical_block_size < 1 << v->data_dev_block_bits) limits->logical_block_size = 1 << v->data_dev_block_bits; if (limits->physical_block_size < 1 << v->data_dev_block_bits) limits->physical_block_size = 1 << v->data_dev_block_bits; blk_limits_io_min(limits, limits->logical_block_size); } static void verity_dtr(struct dm_target *ti) { struct dm_verity *v = ti->private; if (v->verify_wq) destroy_workqueue(v->verify_wq); if (v->bufio) dm_bufio_client_destroy(v->bufio); kfree(v->salt); kfree(v->root_digest); kfree(v->zero_digest); if (v->tfm) crypto_free_shash(v->tfm); kfree(v->alg_name); if (v->hash_dev) dm_put_device(ti, v->hash_dev); if (v->data_dev) dm_put_device(ti, v->data_dev); verity_fec_dtr(v); kfree(v); } static int verity_alloc_zero_digest(struct dm_verity *v) { int r = -ENOMEM; struct shash_desc *desc; u8 *zero_data; v->zero_digest = kmalloc(v->digest_size, GFP_KERNEL); if (!v->zero_digest) return r; desc = kmalloc(v->shash_descsize, GFP_KERNEL); if (!desc) return r; /* verity_dtr will free zero_digest */ zero_data = kzalloc(1 << v->data_dev_block_bits, GFP_KERNEL); if (!zero_data) goto out; r = verity_hash(v, desc, zero_data, 1 << v->data_dev_block_bits, v->zero_digest); out: kfree(desc); kfree(zero_data); return r; } static int verity_parse_opt_args(struct dm_arg_set *as, struct dm_verity *v) { int r; unsigned argc; struct dm_target *ti = v->ti; const char *arg_name; static struct dm_arg _args[] = { {0, DM_VERITY_OPTS_MAX, "Invalid number of feature args"}, }; r = dm_read_arg_group(_args, as, &argc, &ti->error); if (r) return -EINVAL; if (!argc) return 0; do { arg_name = dm_shift_arg(as); argc--; if (!strcasecmp(arg_name, DM_VERITY_OPT_LOGGING)) { v->mode = DM_VERITY_MODE_LOGGING; continue; } else if (!strcasecmp(arg_name, DM_VERITY_OPT_RESTART)) { v->mode = DM_VERITY_MODE_RESTART; continue; } else if (!strcasecmp(arg_name, DM_VERITY_OPT_IGN_ZEROES)) { r = verity_alloc_zero_digest(v); if (r) { ti->error = "Cannot allocate zero digest"; return r; } continue; } else if (verity_is_fec_opt_arg(arg_name)) { r = verity_fec_parse_opt_args(as, v, &argc, arg_name); if (r) return r; continue; } ti->error = "Unrecognized verity feature request"; return -EINVAL; } while (argc && !r); return r; } /* * Target parameters: * <version> The current format is version 1. * Vsn 0 is compatible with original Chromium OS releases. * <data device> * <hash device> * <data block size> * <hash block size> * <the number of data blocks> * <hash start block> * <algorithm> * <digest> * <salt> Hex string or "-" if no salt. */ static int verity_ctr(struct dm_target *ti, unsigned argc, char **argv) { struct dm_verity *v; struct dm_arg_set as; unsigned int num; unsigned long long num_ll; int r; int i; sector_t hash_position; char dummy; v = kzalloc(sizeof(struct dm_verity), GFP_KERNEL); if (!v) { ti->error = "Cannot allocate verity structure"; return -ENOMEM; } ti->private = v; v->ti = ti; r = verity_fec_ctr_alloc(v); if (r) goto bad; if ((dm_table_get_mode(ti->table) & ~FMODE_READ)) { ti->error = "Device must be readonly"; r = -EINVAL; goto bad; } if (argc < 10) { ti->error = "Not enough arguments"; r = -EINVAL; goto bad; } if (sscanf(argv[0], "%u%c", &num, &dummy) != 1 || num > 1) { ti->error = "Invalid version"; r = -EINVAL; goto bad; } v->version = num; r = dm_get_device(ti, argv[1], FMODE_READ, &v->data_dev); if (r) { ti->error = "Data device lookup failed"; goto bad; } r = dm_get_device(ti, argv[2], FMODE_READ, &v->hash_dev); if (r) { ti->error = "Data device lookup failed"; goto bad; } if (sscanf(argv[3], "%u%c", &num, &dummy) != 1 || !num || (num & (num - 1)) || num < bdev_logical_block_size(v->data_dev->bdev) || num > PAGE_SIZE) { ti->error = "Invalid data device block size"; r = -EINVAL; goto bad; } v->data_dev_block_bits = __ffs(num); if (sscanf(argv[4], "%u%c", &num, &dummy) != 1 || !num || (num & (num - 1)) || num < bdev_logical_block_size(v->hash_dev->bdev) || num > INT_MAX) { ti->error = "Invalid hash device block size"; r = -EINVAL; goto bad; } v->hash_dev_block_bits = __ffs(num); if (sscanf(argv[5], "%llu%c", &num_ll, &dummy) != 1 || (sector_t)(num_ll << (v->data_dev_block_bits - SECTOR_SHIFT)) >> (v->data_dev_block_bits - SECTOR_SHIFT) != num_ll) { ti->error = "Invalid data blocks"; r = -EINVAL; goto bad; } v->data_blocks = num_ll; if (ti->len > (v->data_blocks << (v->data_dev_block_bits - SECTOR_SHIFT))) { ti->error = "Data device is too small"; r = -EINVAL; goto bad; } if (sscanf(argv[6], "%llu%c", &num_ll, &dummy) != 1 || (sector_t)(num_ll << (v->hash_dev_block_bits - SECTOR_SHIFT)) >> (v->hash_dev_block_bits - SECTOR_SHIFT) != num_ll) { ti->error = "Invalid hash start"; r = -EINVAL; goto bad; } v->hash_start = num_ll; v->alg_name = kstrdup(argv[7], GFP_KERNEL); if (!v->alg_name) { ti->error = "Cannot allocate algorithm name"; r = -ENOMEM; goto bad; } v->tfm = crypto_alloc_shash(v->alg_name, 0, 0); if (IS_ERR(v->tfm)) { ti->error = "Cannot initialize hash function"; r = PTR_ERR(v->tfm); v->tfm = NULL; goto bad; } v->digest_size = crypto_shash_digestsize(v->tfm); if ((1 << v->hash_dev_block_bits) < v->digest_size * 2) { ti->error = "Digest size too big"; r = -EINVAL; goto bad; } v->shash_descsize = sizeof(struct shash_desc) + crypto_shash_descsize(v->tfm); v->root_digest = kmalloc(v->digest_size, GFP_KERNEL); if (!v->root_digest) { ti->error = "Cannot allocate root digest"; r = -ENOMEM; goto bad; } if (strlen(argv[8]) != v->digest_size * 2 || hex2bin(v->root_digest, argv[8], v->digest_size)) { ti->error = "Invalid root digest"; r = -EINVAL; goto bad; } if (strcmp(argv[9], "-")) { v->salt_size = strlen(argv[9]) / 2; v->salt = kmalloc(v->salt_size, GFP_KERNEL); if (!v->salt) { ti->error = "Cannot allocate salt"; r = -ENOMEM; goto bad; } if (strlen(argv[9]) != v->salt_size * 2 || hex2bin(v->salt, argv[9], v->salt_size)) { ti->error = "Invalid salt"; r = -EINVAL; goto bad; } } argv += 10; argc -= 10; /* Optional parameters */ if (argc) { as.argc = argc; as.argv = argv; r = verity_parse_opt_args(&as, v); if (r < 0) goto bad; } v->hash_per_block_bits = __fls((1 << v->hash_dev_block_bits) / v->digest_size); v->levels = 0; if (v->data_blocks) while (v->hash_per_block_bits * v->levels < 64 && (unsigned long long)(v->data_blocks - 1) >> (v->hash_per_block_bits * v->levels)) v->levels++; if (v->levels > DM_VERITY_MAX_LEVELS) { ti->error = "Too many tree levels"; r = -E2BIG; goto bad; } hash_position = v->hash_start; for (i = v->levels - 1; i >= 0; i--) { sector_t s; v->hash_level_block[i] = hash_position; s = (v->data_blocks + ((sector_t)1 << ((i + 1) * v->hash_per_block_bits)) - 1) >> ((i + 1) * v->hash_per_block_bits); if (hash_position + s < hash_position) { ti->error = "Hash device offset overflow"; r = -E2BIG; goto bad; } hash_position += s; } v->hash_blocks = hash_position; v->bufio = dm_bufio_client_create(v->hash_dev->bdev, 1 << v->hash_dev_block_bits, 1, sizeof(struct buffer_aux), dm_bufio_alloc_callback, NULL); if (IS_ERR(v->bufio)) { ti->error = "Cannot initialize dm-bufio"; r = PTR_ERR(v->bufio); v->bufio = NULL; goto bad; } if (dm_bufio_get_device_size(v->bufio) < v->hash_blocks) { ti->error = "Hash device is too small"; r = -E2BIG; goto bad; } /* WQ_UNBOUND greatly improves performance when running on ramdisk */ v->verify_wq = alloc_workqueue("kverityd", WQ_CPU_INTENSIVE | WQ_MEM_RECLAIM | WQ_UNBOUND, num_online_cpus()); if (!v->verify_wq) { ti->error = "Cannot allocate workqueue"; r = -ENOMEM; goto bad; } ti->per_io_data_size = sizeof(struct dm_verity_io) + v->shash_descsize + v->digest_size * 2; r = verity_fec_ctr(v); if (r) goto bad; ti->per_io_data_size = roundup(ti->per_io_data_size, __alignof__(struct dm_verity_io)); return 0; bad: verity_dtr(ti); return r; } static struct target_type verity_target = { .name = "verity", .version = {1, 3, 0}, .module = THIS_MODULE, .ctr = verity_ctr, .dtr = verity_dtr, .map = verity_map, .status = verity_status, .prepare_ioctl = verity_prepare_ioctl, .iterate_devices = verity_iterate_devices, .io_hints = verity_io_hints, }; static int __init dm_verity_init(void) { int r; r = dm_register_target(&verity_target); if (r < 0) DMERR("register failed %d", r); return r; } static void __exit dm_verity_exit(void) { dm_unregister_target(&verity_target); } module_init(dm_verity_init); module_exit(dm_verity_exit); MODULE_AUTHOR("Mikulas Patocka <mpatocka@redhat.com>"); MODULE_AUTHOR("Mandeep Baines <msb@chromium.org>"); MODULE_AUTHOR("Will Drewry <wad@chromium.org>"); MODULE_DESCRIPTION(DM_NAME " target for transparent disk integrity checking"); MODULE_LICENSE("GPL"); |