/* bfs.c - The Bee File System. */ /* * GRUB -- GRand Unified Bootloader * Copyright (C) 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 . */ /* Based on the book "Practical File System Design by Dominic Giampaolo with corrections and completitions based on Haiku code. */ #include #include #include #include #include #include #include #include GRUB_MOD_LICENSE ("GPLv3+"); #ifdef MODE_AFS #define BTREE_ALIGN 4 #define SUPERBLOCK 2 #else #define BTREE_ALIGN 8 #define SUPERBLOCK 1 #endif #define grub_bfs_to_cpu16 grub_le_to_cpu16 #define grub_bfs_to_cpu32 grub_le_to_cpu32 #define grub_bfs_to_cpu64 grub_le_to_cpu64 #ifdef MODE_AFS #define grub_bfs_to_cpu_treehead grub_bfs_to_cpu32 #else #define grub_bfs_to_cpu_treehead grub_bfs_to_cpu16 #endif #ifdef MODE_AFS #define SUPER_BLOCK_MAGIC1 0x41465331 #else #define SUPER_BLOCK_MAGIC1 0x42465331 #endif #define SUPER_BLOCK_MAGIC2 0xdd121031 #define SUPER_BLOCK_MAGIC3 0x15b6830e #define POINTER_INVALID 0xffffffffffffffffULL #define ATTR_TYPE 0160000 #define ATTR_REG 0100000 #define ATTR_DIR 0040000 #define ATTR_LNK 0120000 #define DOUBLE_INDIRECT_SHIFT 2 #define LOG_EXTENT_SIZE 3 struct grub_bfs_extent { grub_uint32_t ag; grub_uint16_t start; grub_uint16_t len; } __attribute__ ((packed)); struct grub_bfs_superblock { char label[32]; grub_uint32_t magic1; grub_uint32_t unused1; grub_uint32_t bsize; grub_uint32_t log2_bsize; grub_uint8_t unused[20]; grub_uint32_t magic2; grub_uint32_t unused2; grub_uint32_t log2_ag_size; grub_uint8_t unused3[32]; grub_uint32_t magic3; struct grub_bfs_extent root_dir; } __attribute__ ((packed)); struct grub_bfs_inode { grub_uint8_t unused[20]; grub_uint32_t mode; grub_uint32_t flags; #ifdef MODE_AFS grub_uint8_t unused2[12]; #else grub_uint8_t unused2[8]; #endif grub_uint64_t mtime; grub_uint8_t unused3[8]; struct grub_bfs_extent attr; grub_uint8_t unused4[12]; union { struct { struct grub_bfs_extent direct[12]; grub_uint64_t max_direct_range; struct grub_bfs_extent indirect; grub_uint64_t max_indirect_range; struct grub_bfs_extent double_indirect; grub_uint64_t max_double_indirect_range; grub_uint64_t size; grub_uint32_t pad[4]; } __attribute__ ((packed)); char inplace_link[144]; } __attribute__ ((packed)); grub_uint8_t small_data[0]; } __attribute__ ((packed)); enum { LONG_SYMLINK = 0x40 }; struct grub_bfs_small_data_element_header { grub_uint32_t type; grub_uint16_t name_len; grub_uint16_t value_len; } __attribute__ ((packed)); struct grub_bfs_btree_header { grub_uint32_t magic; #ifdef MODE_AFS grub_uint64_t root; grub_uint32_t level; grub_uint32_t node_size; grub_uint32_t unused; #else grub_uint32_t node_size; grub_uint32_t level; grub_uint32_t unused; grub_uint64_t root; #endif grub_uint32_t unused2[2]; } __attribute__ ((packed)); struct grub_bfs_btree_node { grub_uint64_t unused; grub_uint64_t right; grub_uint64_t overflow; #ifdef MODE_AFS grub_uint32_t count_keys; grub_uint32_t total_key_len; #else grub_uint16_t count_keys; grub_uint16_t total_key_len; #endif } __attribute__ ((packed)); struct grub_bfs_data { struct grub_bfs_superblock sb; struct grub_bfs_inode ino[0]; }; static grub_err_t read_extent (grub_disk_t disk, const struct grub_bfs_superblock *sb, const struct grub_bfs_extent *in, grub_off_t off, grub_off_t byteoff, void *buf, grub_size_t len) { #ifdef MODE_AFS return grub_disk_read (disk, ((grub_bfs_to_cpu32 (in->ag) << (grub_bfs_to_cpu32 (sb->log2_ag_size) - GRUB_DISK_SECTOR_BITS)) + ((grub_bfs_to_cpu16 (in->start) + off) << (grub_bfs_to_cpu32 (sb->log2_bsize) - GRUB_DISK_SECTOR_BITS))), byteoff, len, buf); #else return grub_disk_read (disk, (((grub_bfs_to_cpu32 (in->ag) << grub_bfs_to_cpu32 (sb->log2_ag_size)) + grub_bfs_to_cpu16 (in->start) + off) << (grub_bfs_to_cpu32 (sb->log2_bsize) - GRUB_DISK_SECTOR_BITS)), byteoff, len, buf); #endif } #ifdef MODE_AFS #define RANGE_SHIFT grub_bfs_to_cpu32 (sb->log2_bsize) #else #define RANGE_SHIFT 0 #endif static grub_err_t read_bfs_file (grub_disk_t disk, const struct grub_bfs_superblock *sb, const struct grub_bfs_inode *ino, grub_off_t off, void *buf, grub_size_t len, void NESTED_FUNC_ATTR (*read_hook) (grub_disk_addr_t sector, unsigned offset, unsigned length)) { if (len == 0) return GRUB_ERR_NONE; if (off + len > grub_bfs_to_cpu64 (ino->size)) return grub_error (GRUB_ERR_OUT_OF_RANGE, "attempt to read past the end of file"); if (off < (grub_bfs_to_cpu64 (ino->max_direct_range) << RANGE_SHIFT)) { unsigned i; grub_uint64_t pos = 0; for (i = 0; i < ARRAY_SIZE (ino->direct); i++) { grub_uint64_t newpos; newpos = pos + (grub_bfs_to_cpu16 (ino->direct[i].len) << grub_bfs_to_cpu32 (sb->log2_bsize)); if (newpos > off) { grub_size_t read_size; grub_err_t err; read_size = newpos - off; if (read_size > len) read_size = len; disk->read_hook = read_hook; err = read_extent (disk, sb, &ino->direct[i], 0, off - pos, buf, read_size); disk->read_hook = 0; if (err) return err; off += read_size; len -= read_size; buf = (char *) buf + read_size; if (len == 0) return GRUB_ERR_NONE; } pos = newpos; } } if (off < (grub_bfs_to_cpu64 (ino->max_direct_range) << RANGE_SHIFT)) return grub_error (GRUB_ERR_BAD_FS, "incorrect direct blocks"); if (off < (grub_bfs_to_cpu64 (ino->max_indirect_range) << RANGE_SHIFT)) { unsigned i; struct grub_bfs_extent *entries; grub_size_t nentries; grub_err_t err; grub_uint64_t pos = (grub_bfs_to_cpu64 (ino->max_direct_range) << RANGE_SHIFT); nentries = (grub_bfs_to_cpu16 (ino->indirect.len) << (grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE)); entries = grub_malloc (nentries << LOG_EXTENT_SIZE); if (!entries) return grub_errno; err = read_extent (disk, sb, &ino->indirect, 0, 0, entries, nentries << LOG_EXTENT_SIZE); for (i = 0; i < nentries; i++) { grub_uint64_t newpos; newpos = pos + (grub_bfs_to_cpu16 (entries[i].len) << grub_bfs_to_cpu32 (sb->log2_bsize)); if (newpos > off) { grub_size_t read_size; read_size = newpos - off; if (read_size > len) read_size = len; disk->read_hook = read_hook; err = read_extent (disk, sb, &entries[i], 0, off - pos, buf, read_size); disk->read_hook = 0; if (err) { grub_free (entries); return err; } off += read_size; len -= read_size; buf = (char *) buf + read_size; if (len == 0) { grub_free (entries); return GRUB_ERR_NONE; } } pos = newpos; } grub_free (entries); } if (off < (grub_bfs_to_cpu64 (ino->max_indirect_range) << RANGE_SHIFT)) return grub_error (GRUB_ERR_BAD_FS, "incorrect indirect blocks"); { struct grub_bfs_extent *l1_entries, *l2_entries; grub_size_t nl1_entries, nl2_entries; grub_off_t last_l1n = ~0ULL; grub_err_t err; nl1_entries = (grub_bfs_to_cpu16 (ino->double_indirect.len) << (grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE)); l1_entries = grub_malloc (nl1_entries << LOG_EXTENT_SIZE); if (!l1_entries) return grub_errno; nl2_entries = 0; l2_entries = grub_malloc (1 << (DOUBLE_INDIRECT_SHIFT + grub_bfs_to_cpu32 (sb->log2_bsize))); if (!l2_entries) { grub_free (l1_entries); return grub_errno; } err = read_extent (disk, sb, &ino->double_indirect, 0, 0, l1_entries, nl1_entries << LOG_EXTENT_SIZE); if (err) { grub_free (l1_entries); grub_free (l2_entries); return err; } while (len > 0) { grub_off_t boff, l2n, l1n; grub_size_t read_size; grub_off_t double_indirect_offset; double_indirect_offset = off - grub_bfs_to_cpu64 (ino->max_indirect_range); boff = (double_indirect_offset & ((1 << (grub_bfs_to_cpu32 (sb->log2_bsize) + DOUBLE_INDIRECT_SHIFT)) - 1)); l2n = ((double_indirect_offset >> (grub_bfs_to_cpu32 (sb->log2_bsize) + DOUBLE_INDIRECT_SHIFT)) & ((1 << (grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE + DOUBLE_INDIRECT_SHIFT)) - 1)); l1n = (double_indirect_offset >> (2 * grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE + 2 * DOUBLE_INDIRECT_SHIFT)); if (l1n > nl1_entries) { grub_free (l1_entries); grub_free (l2_entries); return grub_error (GRUB_ERR_BAD_FS, "incorrect double-indirect block"); } if (l1n != last_l1n) { nl2_entries = (grub_bfs_to_cpu16 (l1_entries[l1n].len) << (grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE)); if (nl2_entries > (1U << (grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE + DOUBLE_INDIRECT_SHIFT))) nl2_entries = (1 << (grub_bfs_to_cpu32 (sb->log2_bsize) - LOG_EXTENT_SIZE + DOUBLE_INDIRECT_SHIFT)); err = read_extent (disk, sb, &l1_entries[l1n], 0, 0, l2_entries, nl2_entries << LOG_EXTENT_SIZE); if (err) { grub_free (l1_entries); grub_free (l2_entries); return err; } last_l1n = l1n; } if (l2n > nl2_entries) { grub_free (l1_entries); grub_free (l2_entries); return grub_error (GRUB_ERR_BAD_FS, "incorrect double-indirect block"); } read_size = (1 << (grub_bfs_to_cpu32 (sb->log2_bsize) + DOUBLE_INDIRECT_SHIFT)) - boff; if (read_size > len) read_size = len; disk->read_hook = read_hook; err = read_extent (disk, sb, &l2_entries[l2n], 0, boff, buf, read_size); disk->read_hook = 0; if (err) { grub_free (l1_entries); grub_free (l2_entries); return err; } off += read_size; len -= read_size; buf = (char *) buf + read_size; } return GRUB_ERR_NONE; } } static int iterate_in_b_tree (grub_disk_t disk, const struct grub_bfs_superblock *sb, const struct grub_bfs_inode *ino, int (*hook) (const char *name, grub_uint64_t value)) { struct grub_bfs_btree_header head; grub_err_t err; int level; grub_uint64_t node_off; err = read_bfs_file (disk, sb, ino, 0, &head, sizeof (head), 0); if (err) return 0; node_off = grub_bfs_to_cpu64 (head.root); level = grub_bfs_to_cpu32 (head.level) - 1; while (level--) { struct grub_bfs_btree_node node; grub_uint64_t key_value; err = read_bfs_file (disk, sb, ino, node_off, &node, sizeof (node), 0); if (err) return 0; err = read_bfs_file (disk, sb, ino, node_off + ALIGN_UP (sizeof (node) + grub_bfs_to_cpu_treehead (node. total_key_len), BTREE_ALIGN) + grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint16_t), &key_value, sizeof (grub_uint64_t), 0); if (err) return 0; node_off = grub_bfs_to_cpu64 (key_value); } while (1) { struct grub_bfs_btree_node node; err = read_bfs_file (disk, sb, ino, node_off, &node, sizeof (node), 0); if (err) return 0; { char key_data[grub_bfs_to_cpu_treehead (node.total_key_len) + 1]; grub_uint16_t keylen_idx[grub_bfs_to_cpu_treehead (node.count_keys)]; grub_uint64_t key_values[grub_bfs_to_cpu_treehead (node.count_keys)]; unsigned i; grub_uint16_t start = 0, end = 0; err = read_bfs_file (disk, sb, ino, node_off + sizeof (node), key_data, grub_bfs_to_cpu_treehead (node.total_key_len), 0); if (err) return 0; key_data[grub_bfs_to_cpu_treehead (node.total_key_len)] = 0; err = read_bfs_file (disk, sb, ino, node_off + ALIGN_UP (sizeof (node) + grub_bfs_to_cpu_treehead (node.total_key_len), BTREE_ALIGN), keylen_idx, grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint16_t), 0); if (err) return 0; err = read_bfs_file (disk, sb, ino, node_off + ALIGN_UP (sizeof (node) + grub_bfs_to_cpu_treehead (node.total_key_len), BTREE_ALIGN) + grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint16_t), key_values, grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint64_t), 0); if (err) return 0; for (i = 0; i < grub_bfs_to_cpu_treehead (node.count_keys); i++) { char c; start = end; end = grub_bfs_to_cpu16 (keylen_idx[i]); if (grub_bfs_to_cpu_treehead (node.total_key_len) <= end) end = grub_bfs_to_cpu_treehead (node.total_key_len); c = key_data[end]; key_data[end] = 0; if (hook (key_data + start, grub_bfs_to_cpu64 (key_values[i]))) return 1; key_data[end] = c; } node_off = grub_bfs_to_cpu64 (node.right); if (node_off == POINTER_INVALID) return 0; } } } static grub_err_t find_in_b_tree (grub_disk_t disk, const struct grub_bfs_superblock *sb, const struct grub_bfs_inode *ino, const char *name, grub_uint64_t * res) { struct grub_bfs_btree_header head; grub_err_t err; int level; grub_uint64_t node_off; err = read_bfs_file (disk, sb, ino, 0, &head, sizeof (head), 0); if (err) return err; node_off = grub_bfs_to_cpu64 (head.root); level = grub_bfs_to_cpu32 (head.level) - 1; while (1) { struct grub_bfs_btree_node node; err = read_bfs_file (disk, sb, ino, node_off, &node, sizeof (node), 0); if (err) return err; if (node.count_keys == 0) return grub_error (GRUB_ERR_FILE_NOT_FOUND, N_("file `%s' not found"), name); { char key_data[grub_bfs_to_cpu_treehead (node.total_key_len) + 1]; grub_uint16_t keylen_idx[grub_bfs_to_cpu_treehead (node.count_keys)]; grub_uint64_t key_values[grub_bfs_to_cpu_treehead (node.count_keys)]; unsigned i; grub_uint16_t start = 0, end = 0; err = read_bfs_file (disk, sb, ino, node_off + sizeof (node), key_data, grub_bfs_to_cpu_treehead (node.total_key_len), 0); if (err) return err; key_data[grub_bfs_to_cpu_treehead (node.total_key_len)] = 0; err = read_bfs_file (disk, sb, ino, node_off + ALIGN_UP (sizeof (node) + grub_bfs_to_cpu_treehead (node. total_key_len), BTREE_ALIGN), keylen_idx, grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint16_t), 0); if (err) return err; err = read_bfs_file (disk, sb, ino, node_off + ALIGN_UP (sizeof (node) + grub_bfs_to_cpu_treehead (node.total_key_len), BTREE_ALIGN) + grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint16_t), key_values, grub_bfs_to_cpu_treehead (node.count_keys) * sizeof (grub_uint64_t), 0); if (err) return err; for (i = 0; i < grub_bfs_to_cpu_treehead (node.count_keys); i++) { int cmp; char c; start = end; end = grub_bfs_to_cpu16 (keylen_idx[i]); if (grub_bfs_to_cpu_treehead (node.total_key_len) <= end) end = grub_bfs_to_cpu_treehead (node.total_key_len); c = key_data[end]; key_data[end] = 0; cmp = grub_strcmp (key_data + start, name); key_data[end] = c; if (cmp == 0 && level == 0) { *res = grub_bfs_to_cpu64 (key_values[i]); return GRUB_ERR_NONE; } if (cmp >= 0 && level != 0) { node_off = grub_bfs_to_cpu64 (key_values[i]); break; } } if (i < grub_bfs_to_cpu_treehead (node.count_keys)) { level--; continue; } if (node.overflow != POINTER_INVALID) { node_off = grub_bfs_to_cpu64 (node.overflow); /* This level-- isn't specified but is needed. */ level--; continue; } return grub_error (GRUB_ERR_FILE_NOT_FOUND, N_("file `%s' not found"), name); } } } static grub_err_t hop_level (grub_disk_t disk, const struct grub_bfs_superblock *sb, struct grub_bfs_inode *ino, const char *name) { grub_err_t err; grub_uint64_t res; if (((grub_bfs_to_cpu32 (ino->mode) & ATTR_TYPE) != ATTR_DIR)) return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("not a directory")); err = find_in_b_tree (disk, sb, ino, name, &res); if (err) return err; return grub_disk_read (disk, res << (grub_bfs_to_cpu32 (sb->log2_bsize) - GRUB_DISK_SECTOR_BITS), 0, grub_bfs_to_cpu32 (sb->bsize), (char *) ino); } static grub_err_t find_file (const char *path, grub_disk_t disk, const struct grub_bfs_superblock *sb, struct grub_bfs_inode *ino) { char *ptr, *ptr2; char *alloc = NULL; grub_err_t err; union { struct grub_bfs_inode ino; grub_uint8_t raw[grub_bfs_to_cpu32 (sb->bsize)]; } old_ino; unsigned symlinks_max = 32; err = read_extent (disk, sb, &sb->root_dir, 0, 0, ino, grub_bfs_to_cpu32 (sb->bsize)); if (err) return err; ptr = (char *) path; while (1) { while (*ptr == '/') ptr++; if (*ptr == 0) { grub_free (alloc); return GRUB_ERR_NONE; } ptr2 = grub_strchr (ptr, '/'); grub_memcpy (&old_ino, ino, grub_bfs_to_cpu32 (sb->bsize)); if (ptr2) { char component[ptr2 - ptr + 1]; grub_memcpy (component, ptr, ptr2 - ptr); component[ptr2 - ptr] = 0; err = hop_level (disk, sb, ino, component); } else err = hop_level (disk, sb, ino, ptr); if (err) return err; if (((grub_bfs_to_cpu32 (ino->mode) & ATTR_TYPE) == ATTR_LNK)) { char *old_alloc = alloc; if (--symlinks_max == 0) { grub_free (alloc); return grub_error (GRUB_ERR_SYMLINK_LOOP, N_("too deep nesting of symlinks")); } #ifndef MODE_AFS if (grub_bfs_to_cpu32 (ino->flags) & LONG_SYMLINK) #endif { grub_size_t symsize = grub_bfs_to_cpu64 (ino->size); alloc = grub_malloc ((ptr2 ? grub_strlen (ptr2) : 0) + symsize + 1); if (!alloc) { grub_free (alloc); return grub_errno; } grub_free (old_alloc); err = read_bfs_file (disk, sb, ino, 0, alloc, symsize, 0); if (err) { grub_free (alloc); return err; } alloc[symsize] = 0; } #ifndef MODE_AFS else { alloc = grub_malloc ((ptr2 ? grub_strlen (ptr2) : 0) + sizeof (ino->inplace_link) + 1); if (!alloc) { grub_free (alloc); return grub_errno; } grub_free (old_alloc); grub_memcpy (alloc, ino->inplace_link, sizeof (ino->inplace_link)); alloc[sizeof (ino->inplace_link)] = 0; } #endif if (alloc[0] == '/') { err = read_extent (disk, sb, &sb->root_dir, 0, 0, ino, grub_bfs_to_cpu32 (sb->bsize)); if (err) { grub_free (alloc); return err; } } else grub_memcpy (ino, &old_ino, grub_bfs_to_cpu32 (sb->bsize)); ptr = alloc + grub_strlen (alloc); if (ptr2) ptr = grub_stpcpy (ptr, ptr2); *ptr = 0; ptr = ptr2 = alloc; continue; } if (!ptr2) { grub_free (alloc); return GRUB_ERR_NONE; } ptr = ptr2 + 1; } } static grub_err_t mount (grub_disk_t disk, struct grub_bfs_superblock *sb) { grub_err_t err; err = grub_disk_read (disk, SUPERBLOCK, 0, sizeof (*sb), sb); if (err == GRUB_ERR_OUT_OF_RANGE) return grub_error (GRUB_ERR_BAD_FS, #ifdef MODE_AFS "not an AFS filesystem" #else "not a BFS filesystem" #endif ); if (err) return err; if (grub_bfs_to_cpu32 (sb->magic1) != SUPER_BLOCK_MAGIC1 || grub_bfs_to_cpu32 (sb->magic2) != SUPER_BLOCK_MAGIC2 || grub_bfs_to_cpu32 (sb->magic3) != SUPER_BLOCK_MAGIC3 || (grub_bfs_to_cpu32 (sb->bsize) != (1U << grub_bfs_to_cpu32 (sb->log2_bsize)))) return grub_error (GRUB_ERR_BAD_FS, #ifdef MODE_AFS "not an AFS filesystem" #else "not a BFS filesystem" #endif ); return GRUB_ERR_NONE; } static grub_err_t grub_bfs_dir (grub_device_t device, const char *path, int (*hook_in) (const char *filename, const struct grub_dirhook_info * info)) { struct grub_bfs_superblock sb; grub_err_t err; auto int hook (const char *name, grub_uint64_t value); int hook (const char *name, grub_uint64_t value) { grub_err_t err2; union { struct grub_bfs_inode ino; grub_uint8_t raw[grub_bfs_to_cpu32 (sb.bsize)]; } ino; struct grub_dirhook_info info; err2 = grub_disk_read (device->disk, value << (grub_bfs_to_cpu32 (sb.log2_bsize) - GRUB_DISK_SECTOR_BITS), 0, grub_bfs_to_cpu32 (sb.bsize), (char *) ino.raw); if (err2) { grub_print_error (); return 0; } info.mtimeset = 1; #ifdef MODE_AFS info.mtime = grub_divmod64 (grub_bfs_to_cpu64 (ino.ino.mtime), 1000000, 0); #else info.mtime = grub_bfs_to_cpu64 (ino.ino.mtime) >> 16; #endif info.dir = ((grub_bfs_to_cpu32 (ino.ino.mode) & ATTR_TYPE) == ATTR_DIR); return hook_in (name, &info); } err = mount (device->disk, &sb); if (err) return err; { union { struct grub_bfs_inode ino; grub_uint8_t raw[grub_bfs_to_cpu32 (sb.bsize)]; } ino; err = find_file (path, device->disk, &sb, &ino.ino); if (err) return err; if (((grub_bfs_to_cpu32 (ino.ino.mode) & ATTR_TYPE) != ATTR_DIR)) return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("not a directory")); iterate_in_b_tree (device->disk, &sb, &ino.ino, hook); } return grub_errno; } static grub_err_t grub_bfs_open (struct grub_file *file, const char *name) { struct grub_bfs_superblock sb; grub_err_t err; err = mount (file->device->disk, &sb); if (err) return err; { union { struct grub_bfs_inode ino; grub_uint8_t raw[grub_bfs_to_cpu32 (sb.bsize)]; } ino; struct grub_bfs_data *data; err = find_file (name, file->device->disk, &sb, &ino.ino); if (err) return err; if (((grub_bfs_to_cpu32 (ino.ino.mode) & ATTR_TYPE) != ATTR_REG)) return grub_error (GRUB_ERR_BAD_FILE_TYPE, N_("not a regular file")); data = grub_zalloc (sizeof (struct grub_bfs_data) + grub_bfs_to_cpu32 (sb.bsize)); if (!data) return grub_errno; data->sb = sb; grub_memcpy (&data->ino, &ino, grub_bfs_to_cpu32 (sb.bsize)); file->data = data; file->size = grub_bfs_to_cpu64 (ino.ino.size); } return GRUB_ERR_NONE; } static grub_err_t grub_bfs_close (grub_file_t file) { grub_free (file->data); return GRUB_ERR_NONE; } static grub_ssize_t grub_bfs_read (grub_file_t file, char *buf, grub_size_t len) { grub_err_t err; struct grub_bfs_data *data = file->data; err = read_bfs_file (file->device->disk, &data->sb, data->ino, file->offset, buf, len, file->read_hook); if (err) return -1; return len; } static grub_err_t grub_bfs_label (grub_device_t device, char **label) { struct grub_bfs_superblock sb; grub_err_t err; *label = 0; err = mount (device->disk, &sb); if (err) return err; *label = grub_strndup (sb.label, sizeof (sb.label)); return GRUB_ERR_NONE; } #ifndef MODE_AFS static grub_ssize_t read_bfs_attr (grub_disk_t disk, const struct grub_bfs_superblock *sb, const struct grub_bfs_inode *ino, const char *name, void *buf, grub_size_t len) { grub_uint8_t *ptr = (grub_uint8_t *) ino->small_data; grub_uint8_t *end = ((grub_uint8_t *) ino + grub_bfs_to_cpu32 (sb->bsize)); while (ptr + sizeof (struct grub_bfs_small_data_element_header) < end) { struct grub_bfs_small_data_element_header *el; char *el_name; grub_uint8_t *data; el = (struct grub_bfs_small_data_element_header *) ptr; if (el->name_len == 0) break; el_name = (char *) (el + 1); data = (grub_uint8_t *) el_name + grub_bfs_to_cpu16 (el->name_len) + 3; ptr = data + grub_bfs_to_cpu16 (el->value_len) + 1; if (grub_memcmp (name, el_name, grub_bfs_to_cpu16 (el->name_len)) == 0 && name[el->name_len] == 0) { grub_size_t copy; copy = len; if (grub_bfs_to_cpu16 (el->value_len) > copy) copy = grub_bfs_to_cpu16 (el->value_len); grub_memcpy (buf, data, copy); return copy; } } if (ino->attr.len != 0) { union { struct grub_bfs_inode ino; grub_uint8_t raw[grub_bfs_to_cpu32 (sb->bsize)]; } ino2; grub_size_t read; grub_err_t err; grub_uint64_t res; err = read_extent (disk, sb, &ino->attr, 0, 0, ino2.raw, grub_bfs_to_cpu32 (sb->bsize)); if (err) return -1; err = find_in_b_tree (disk, sb, &ino2.ino, name, &res); if (err) return -1; grub_disk_read (disk, res << (grub_bfs_to_cpu32 (sb->log2_bsize) - GRUB_DISK_SECTOR_BITS), 0, grub_bfs_to_cpu32 (sb->bsize), (char *) &ino2); read = grub_bfs_to_cpu64 (ino2.ino.size); if (read > len) read = len; err = read_bfs_file (disk, sb, &ino2.ino, 0, buf, read, 0); if (err) return -1; return read; } return -1; } static grub_err_t grub_bfs_uuid (grub_device_t device, char **uuid) { struct grub_bfs_superblock sb; grub_err_t err; *uuid = 0; err = mount (device->disk, &sb); if (err) return err; { union { struct grub_bfs_inode ino; grub_uint8_t raw[grub_bfs_to_cpu32 (sb.bsize)]; } ino; grub_uint64_t vid; err = read_extent (device->disk, &sb, &sb.root_dir, 0, 0, &ino, grub_bfs_to_cpu32 (sb.bsize)); if (err) return err; if (read_bfs_attr (device->disk, &sb, &ino.ino, "be:volume_id", &vid, sizeof (vid)) == sizeof (vid)) *uuid = grub_xasprintf ("%016" PRIxGRUB_UINT64_T, grub_bfs_to_cpu64 (vid)); } return GRUB_ERR_NONE; } #endif static struct grub_fs grub_bfs_fs = { #ifdef MODE_AFS .name = "afs", #else .name = "bfs", #endif .dir = grub_bfs_dir, .open = grub_bfs_open, .read = grub_bfs_read, .close = grub_bfs_close, .label = grub_bfs_label, #ifndef MODE_AFS .uuid = grub_bfs_uuid, #endif #ifdef GRUB_UTIL .reserved_first_sector = 1, #endif }; #ifdef MODE_AFS GRUB_MOD_INIT (afs) #else GRUB_MOD_INIT (bfs) #endif { COMPILE_TIME_ASSERT (1 << LOG_EXTENT_SIZE == sizeof (struct grub_bfs_extent)); grub_fs_register (&grub_bfs_fs); } #ifdef MODE_AFS GRUB_MOD_FINI (afs) #else GRUB_MOD_FINI (bfs) #endif { grub_fs_unregister (&grub_bfs_fs); }