/* SPDX-License-Identifier: BSD-3-Clause OR GPL-2.0-or-later */ #include #include static cb_err_t read_next_header(cbfs_dev_t dev, size_t *offset, struct cbfs_file *buffer) { const size_t devsize = cbfs_dev_size(dev); DEBUG("Looking for next file @%#zx...\n", *offset); *offset = ALIGN_UP(*offset, CBFS_ALIGNMENT); while (*offset + sizeof(*buffer) < devsize) { if (cbfs_dev_read(dev, buffer, *offset, sizeof(*buffer)) != sizeof(*buffer)) return CB_CBFS_IO; if (memcmp(buffer->magic, CBFS_FILE_MAGIC, sizeof(buffer->magic)) == 0) return CB_SUCCESS; *offset += CBFS_ALIGNMENT; } DEBUG("End of CBFS reached\n"); return CB_CBFS_NOT_FOUND; } cb_err_t cbfs_walk(cbfs_dev_t dev, cb_err_t (*walker)(cbfs_dev_t dev, size_t offset, const union cbfs_mdata *mdata, size_t already_read, void *arg), void *arg, struct vb2_hash *metadata_hash, enum cbfs_walk_flags flags) { const bool do_hash = CBFS_ENABLE_HASHING && metadata_hash; struct vb2_digest_context dc; vb2_error_t vbrv; assert(CBFS_ENABLE_HASHING || (!metadata_hash && !(flags & CBFS_WALK_WRITEBACK_HASH))); if (do_hash && (vbrv = vb2_digest_init(&dc, metadata_hash->algo))) { ERROR("Metadata hash digest (%d) init error: %#x\n", metadata_hash->algo, vbrv); return CB_ERR_ARG; } size_t offset = 0; cb_err_t ret_header; cb_err_t ret_walker = CB_CBFS_NOT_FOUND; union cbfs_mdata mdata; while ((ret_header = read_next_header(dev, &offset, &mdata.h)) == CB_SUCCESS) { const uint32_t attr_offset = be32toh(mdata.h.attributes_offset); const uint32_t data_offset = be32toh(mdata.h.offset); const uint32_t data_length = be32toh(mdata.h.len); const uint32_t type = be32toh(mdata.h.type); const bool empty = (type == CBFS_TYPE_DELETED || type == CBFS_TYPE_NULL); DEBUG("Found CBFS header @%#zx (type %d, attr +%#x, data +%#x, length %#x)\n", offset, type, attr_offset, data_offset, data_length); if (data_offset > sizeof(mdata)) { ERROR("File metadata @%#zx too large\n", offset); goto next_file; } if (empty && !(flags & CBFS_WALK_INCLUDE_EMPTY)) goto next_file; /* When hashing we need to read everything. Otherwise skip the attributes. attr_offset may be 0, which means there are no attributes. */ ssize_t todo; if (do_hash || attr_offset == 0) todo = data_offset - sizeof(mdata.h); else todo = attr_offset - sizeof(mdata.h); if (todo <= 0 || data_offset < attr_offset) { ERROR("Corrupt file header @%#zx\n", offset); goto next_file; } /* Read the rest of the metadata (filename, and possibly attributes). */ assert(todo > 0 && todo <= sizeof(mdata) - sizeof(mdata.h)); if (cbfs_dev_read(dev, mdata.raw + sizeof(mdata.h), offset + sizeof(mdata.h), todo) != todo) return CB_CBFS_IO; DEBUG("File name: '%s'\n", mdata.h.filename); if (do_hash && !empty && vb2_digest_extend(&dc, mdata.raw, data_offset)) return CB_ERR; if (walker && ret_walker == CB_CBFS_NOT_FOUND) ret_walker = walker(dev, offset, &mdata, sizeof(mdata.h) + todo, arg); /* Return IO errors immediately. For others, finish the hash first if needed. */ if (ret_walker == CB_CBFS_IO || (ret_walker != CB_CBFS_NOT_FOUND && !do_hash)) return ret_walker; next_file: offset += data_offset + data_length; } if (ret_header != CB_CBFS_NOT_FOUND) return ret_header; if (do_hash) { uint8_t real_hash[VB2_MAX_DIGEST_SIZE]; size_t hash_size = vb2_digest_size(metadata_hash->algo); if (vb2_digest_finalize(&dc, real_hash, hash_size)) return CB_ERR; if (flags & CBFS_WALK_WRITEBACK_HASH) memcpy(metadata_hash->raw, real_hash, hash_size); else if (memcmp(metadata_hash->raw, real_hash, hash_size) != 0) return CB_CBFS_HASH_MISMATCH; } return ret_walker; } cb_err_t cbfs_copy_fill_metadata(union cbfs_mdata *dst, const union cbfs_mdata *src, size_t already_read, cbfs_dev_t dev, size_t offset) { /* First, copy the stuff that cbfs_walk() already read for us. */ memcpy(dst, src, already_read); /* Then read in whatever metadata may be left (will only happen in non-hashing case). */ const size_t todo = be32toh(src->h.offset) - already_read; assert(todo <= sizeof(*dst) - already_read); if (todo && cbfs_dev_read(dev, dst->raw + already_read, offset + already_read, todo) != todo) return CB_CBFS_IO; return CB_SUCCESS; } struct cbfs_lookup_args { union cbfs_mdata *mdata_out; const char *name; size_t namesize; size_t *data_offset_out; }; static cb_err_t lookup_walker(cbfs_dev_t dev, size_t offset, const union cbfs_mdata *mdata, size_t already_read, void *arg) { struct cbfs_lookup_args *args = arg; /* Check if the name we're looking for could fit, then we can safely memcmp() it. */ if (args->namesize > already_read - offsetof(union cbfs_mdata, h.filename) || memcmp(args->name, mdata->h.filename, args->namesize) != 0) return CB_CBFS_NOT_FOUND; LOG("Found '%s' @%#zx size %#x\n", args->name, offset, be32toh(mdata->h.len)); if (cbfs_copy_fill_metadata(args->mdata_out, mdata, already_read, dev, offset)) return CB_CBFS_IO; *args->data_offset_out = offset + be32toh(mdata->h.offset); return CB_SUCCESS; } cb_err_t cbfs_lookup(cbfs_dev_t dev, const char *name, union cbfs_mdata *mdata_out, size_t *data_offset_out, struct vb2_hash *metadata_hash) { struct cbfs_lookup_args args = { .mdata_out = mdata_out, .name = name, .namesize = strlen(name) + 1, /* Count trailing \0 so we can memcmp() it. */ .data_offset_out = data_offset_out, }; return cbfs_walk(dev, lookup_walker, &args, metadata_hash, 0); } const void *cbfs_find_attr(const union cbfs_mdata *mdata, uint32_t attr_tag, size_t size_check) { uint32_t offset = be32toh(mdata->h.attributes_offset); uint32_t end = be32toh(mdata->h.offset); if (!offset) return NULL; while (offset + sizeof(struct cbfs_file_attribute) <= end) { const struct cbfs_file_attribute *attr = (const void *)mdata->raw + offset; const uint32_t tag = be32toh(attr->tag); const uint32_t len = be32toh(attr->len); if (offset + len > end) { ERROR("Attribute %s[%u] overflows end of metadata\n", mdata->h.filename, tag); return NULL; } if (tag == attr_tag) { if (size_check && len != size_check) { ERROR("Attribute %s[%u] size mismatch: %u != %zu\n", mdata->h.filename, tag, len, size_check); return NULL; } return attr; } offset += len; } return NULL; }