/* sfs.c - Amiga Smart FileSystem. */ /* * GRUB -- GRand Unified Bootloader * Copyright (C) 2005,2006,2007,2008,2009 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 GRUB_MOD_LICENSE ("GPLv3+"); /* The common header for a block. */ struct grub_sfs_bheader { grub_uint8_t magic[4]; grub_uint32_t chksum; grub_uint32_t ipointtomyself; } __attribute__ ((packed)); /* The sfs rootblock. */ struct grub_sfs_rblock { struct grub_sfs_bheader header; grub_uint32_t version; grub_uint32_t createtime; grub_uint8_t flags; grub_uint8_t unused1[31]; grub_uint32_t blocksize; grub_uint8_t unused2[40]; grub_uint8_t unused3[8]; grub_uint32_t rootobject; grub_uint32_t btree; } __attribute__ ((packed)); enum { FLAGS_CASE_SENSITIVE = 0x80 }; /* A SFS object container. */ struct grub_sfs_obj { grub_uint8_t unused1[4]; grub_uint32_t nodeid; grub_uint8_t unused2[4]; union { struct { grub_uint32_t first_block; grub_uint32_t size; } file __attribute__ ((packed)); struct { grub_uint32_t hashtable; grub_uint32_t dir_objc; } dir __attribute__ ((packed)); } file_dir; grub_uint32_t mtime; grub_uint8_t type; grub_uint8_t filename[1]; grub_uint8_t comment[1]; } __attribute__ ((packed)); #define GRUB_SFS_TYPE_DELETED 32 #define GRUB_SFS_TYPE_SYMLINK 64 #define GRUB_SFS_TYPE_DIR 128 /* A SFS object container. */ struct grub_sfs_objc { struct grub_sfs_bheader header; grub_uint32_t parent; grub_uint32_t next; grub_uint32_t prev; /* The amount of objects depends on the blocksize. */ struct grub_sfs_obj objects[1]; } __attribute__ ((packed)); struct grub_sfs_btree_node { grub_uint32_t key; grub_uint32_t data; } __attribute__ ((packed)); struct grub_sfs_btree_extent { grub_uint32_t key; grub_uint32_t next; grub_uint32_t prev; grub_uint16_t size; } __attribute__ ((packed)); struct grub_sfs_btree { struct grub_sfs_bheader header; grub_uint16_t nodes; grub_uint8_t leaf; grub_uint8_t nodesize; /* Normally this can be kind of node, but just extents are supported. */ struct grub_sfs_btree_node node[1]; } __attribute__ ((packed)); struct cache_entry { grub_uint32_t off; grub_uint32_t block; }; struct grub_fshelp_node { struct grub_sfs_data *data; grub_uint32_t block; grub_uint32_t size; grub_uint32_t mtime; grub_uint32_t cache_off; grub_uint32_t next_extent; grub_size_t cache_allocated; grub_size_t cache_size; struct cache_entry *cache; }; /* Information about a "mounted" sfs filesystem. */ struct grub_sfs_data { struct grub_sfs_rblock rblock; struct grub_fshelp_node diropen; grub_disk_t disk; /* Log of blocksize in sectors. */ int log_blocksize; int fshelp_flags; /* Label of the filesystem. */ char *label; }; static grub_dl_t my_mod; /* Lookup the extent starting with BLOCK in the filesystem described by DATA. Return the extent size in SIZE and the following extent in NEXTEXT. */ static grub_err_t grub_sfs_read_extent (struct grub_sfs_data *data, unsigned int block, grub_uint32_t *size, grub_uint32_t *nextext) { char *treeblock; struct grub_sfs_btree *tree; int i; grub_uint32_t next; treeblock = grub_malloc (GRUB_DISK_SECTOR_SIZE << data->log_blocksize); if (!block) return 0; next = grub_be_to_cpu32 (data->rblock.btree); tree = (struct grub_sfs_btree *) treeblock; /* Handle this level in the btree. */ do { grub_disk_read (data->disk, ((grub_disk_addr_t) next) << data->log_blocksize, 0, GRUB_DISK_SECTOR_SIZE << data->log_blocksize, treeblock); if (grub_errno) { grub_free (treeblock); return grub_errno; } for (i = grub_be_to_cpu16 (tree->nodes) - 1; i >= 0; i--) { #define EXTNODE(tree, index) \ ((struct grub_sfs_btree_node *) (((char *) &(tree)->node[0]) \ + (index) * (tree)->nodesize)) /* Follow the tree down to the leaf level. */ if ((grub_be_to_cpu32 (EXTNODE(tree, i)->key) <= block) && !tree->leaf) { next = grub_be_to_cpu32 (EXTNODE (tree, i)->data); break; } /* If the leaf level is reached, just find the correct extent. */ if (grub_be_to_cpu32 (EXTNODE (tree, i)->key) == block && tree->leaf) { struct grub_sfs_btree_extent *extent; extent = (struct grub_sfs_btree_extent *) EXTNODE (tree, i); /* We found a correct leaf. */ *size = grub_be_to_cpu16 (extent->size); *nextext = grub_be_to_cpu32 (extent->next); grub_free (treeblock); return 0; } #undef EXTNODE } } while (!tree->leaf); grub_free (treeblock); return grub_error (GRUB_ERR_FILE_READ_ERROR, "SFS extent not found"); } static grub_disk_addr_t grub_sfs_read_block (grub_fshelp_node_t node, grub_disk_addr_t fileblock) { grub_uint32_t blk; grub_uint32_t size = 0; grub_uint32_t next = 0; grub_disk_addr_t off; struct grub_sfs_data *data = node->data; /* In case of the first block we don't have to lookup the extent, the minimum size is always 1. */ if (fileblock == 0) return node->block; if (!node->cache) { grub_size_t cache_size; /* Assume half-max extents (32768 sectors). */ cache_size = ((node->size >> (data->log_blocksize + GRUB_DISK_SECTOR_BITS + 15)) + 3); if (cache_size < 8) cache_size = 8; node->cache_off = 0; node->next_extent = node->block; node->cache_size = 0; node->cache = grub_malloc (sizeof (node->cache[0]) * cache_size); if (!node->cache) { grub_errno = 0; node->cache_allocated = 0; } else { node->cache_allocated = cache_size; node->cache[0].off = 0; node->cache[0].block = node->block; } } if (fileblock < node->cache_off) { unsigned int i = 0; int j, lg; for (lg = 0; node->cache_size >> lg; lg++); for (j = lg - 1; j >= 0; j--) if ((i | (1 << j)) < node->cache_size && node->cache[(i | (1 << j))].off <= fileblock) i |= (1 << j); return node->cache[i].block + fileblock - node->cache[i].off; } off = node->cache_off; blk = node->next_extent; while (blk) { grub_err_t err; err = grub_sfs_read_extent (node->data, blk, &size, &next); if (err) return 0; if (node->cache && node->cache_size >= node->cache_allocated) { struct cache_entry *e = node->cache; e = grub_realloc (node->cache,node->cache_allocated * 2 * sizeof (e[0])); if (!e) { grub_errno = 0; grub_free (node->cache); node->cache = 0; } else { node->cache_allocated *= 2; node->cache = e; } } if (node->cache) { node->cache_off = off + size; node->next_extent = next; node->cache[node->cache_size].off = off; node->cache[node->cache_size].block = blk; node->cache_size++; } if (fileblock - off < size) return fileblock - off + blk; off += size; blk = next; } grub_error (GRUB_ERR_FILE_READ_ERROR, "reading a SFS block outside the extent"); return 0; } /* Read LEN bytes from the file described by DATA starting with byte POS. Return the amount of read bytes in READ. */ static grub_ssize_t grub_sfs_read_file (grub_fshelp_node_t node, void NESTED_FUNC_ATTR (*read_hook) (grub_disk_addr_t sector, unsigned offset, unsigned length), grub_off_t pos, grub_size_t len, char *buf) { return grub_fshelp_read_file (node->data->disk, node, read_hook, pos, len, buf, grub_sfs_read_block, node->size, node->data->log_blocksize, 0); } static struct grub_sfs_data * grub_sfs_mount (grub_disk_t disk) { struct grub_sfs_data *data; struct grub_sfs_objc *rootobjc; char *rootobjc_data = 0; grub_uint32_t blk; data = grub_malloc (sizeof (*data)); if (!data) return 0; /* Read the rootblock. */ grub_disk_read (disk, 0, 0, sizeof (struct grub_sfs_rblock), &data->rblock); if (grub_errno) goto fail; /* Make sure this is a sfs filesystem. */ if (grub_strncmp ((char *) (data->rblock.header.magic), "SFS", 4) || data->rblock.blocksize == 0 || (data->rblock.blocksize & (data->rblock.blocksize - 1)) != 0 || (data->rblock.blocksize & grub_cpu_to_be32_compile_time (0xf00001ff))) { grub_error (GRUB_ERR_BAD_FS, "not a SFS filesystem"); goto fail; } for (data->log_blocksize = 9; (1U << data->log_blocksize) < grub_be_to_cpu32 (data->rblock.blocksize); data->log_blocksize++); data->log_blocksize -= GRUB_DISK_SECTOR_BITS; if (data->rblock.flags & FLAGS_CASE_SENSITIVE) data->fshelp_flags = 0; else data->fshelp_flags = GRUB_FSHELP_CASE_INSENSITIVE; rootobjc_data = grub_malloc (GRUB_DISK_SECTOR_SIZE << data->log_blocksize); if (! rootobjc_data) goto fail; /* Read the root object container. */ grub_disk_read (disk, ((grub_disk_addr_t) grub_be_to_cpu32 (data->rblock.rootobject)) << data->log_blocksize, 0, GRUB_DISK_SECTOR_SIZE << data->log_blocksize, rootobjc_data); if (grub_errno) goto fail; rootobjc = (struct grub_sfs_objc *) rootobjc_data; blk = grub_be_to_cpu32 (rootobjc->objects[0].file_dir.dir.dir_objc); data->diropen.size = 0; data->diropen.block = blk; data->diropen.data = data; data->diropen.cache = 0; data->disk = disk; data->label = grub_strdup ((char *) (rootobjc->objects[0].filename)); grub_free (rootobjc_data); return data; fail: if (grub_errno == GRUB_ERR_OUT_OF_RANGE) grub_error (GRUB_ERR_BAD_FS, "not an SFS filesystem"); grub_free (data); grub_free (rootobjc_data); return 0; } static char * grub_sfs_read_symlink (grub_fshelp_node_t node) { struct grub_sfs_data *data = node->data; char *symlink; char *block; block = grub_malloc (GRUB_DISK_SECTOR_SIZE << data->log_blocksize); if (!block) return 0; grub_disk_read (data->disk, ((grub_disk_addr_t) node->block) << data->log_blocksize, 0, GRUB_DISK_SECTOR_SIZE << data->log_blocksize, block); if (grub_errno) { grub_free (block); return 0; } /* This is just a wild guess, but it always worked for me. How the SLNK block looks like is not documented in the SFS docs. */ symlink = grub_malloc (((GRUB_DISK_SECTOR_SIZE << data->log_blocksize) - 24) * GRUB_MAX_UTF8_PER_LATIN1 + 1); if (!symlink) { grub_free (block); return 0; } *grub_latin1_to_utf8 ((grub_uint8_t *) symlink, (grub_uint8_t *) &block[24], (GRUB_DISK_SECTOR_SIZE << data->log_blocksize) - 24) = '\0'; grub_free (block); return symlink; } static int grub_sfs_iterate_dir (grub_fshelp_node_t dir, int NESTED_FUNC_ATTR (*hook) (const char *filename, enum grub_fshelp_filetype filetype, grub_fshelp_node_t node)) { struct grub_fshelp_node *node = 0; struct grub_sfs_data *data = dir->data; char *objc_data; struct grub_sfs_objc *objc; unsigned int next = dir->block; grub_uint32_t pos; auto int NESTED_FUNC_ATTR grub_sfs_create_node (const char *name, grub_uint32_t block, grub_uint32_t size, int type, grub_uint32_t mtime); int NESTED_FUNC_ATTR grub_sfs_create_node (const char *name, grub_uint32_t block, grub_uint32_t size, int type, grub_uint32_t mtime) { grub_size_t len = grub_strlen (name); grub_uint8_t *name_u8; int ret; node = grub_malloc (sizeof (*node)); if (!node) return 1; name_u8 = grub_malloc (len * GRUB_MAX_UTF8_PER_LATIN1 + 1); if (!name_u8) { grub_free (node); return 1; } node->data = data; node->size = size; node->block = block; node->mtime = mtime; node->cache = 0; node->cache_off = 0; node->next_extent = block; node->cache_size = 0; node->cache_allocated = 0; *grub_latin1_to_utf8 (name_u8, (const grub_uint8_t *) name, len) = '\0'; ret = hook ((char *) name_u8, type | data->fshelp_flags, node); grub_free (name_u8); return ret; } objc_data = grub_malloc (GRUB_DISK_SECTOR_SIZE << data->log_blocksize); if (!objc_data) goto fail; /* The Object container can consist of multiple blocks, iterate over every block. */ while (next) { grub_disk_read (data->disk, ((grub_disk_addr_t) next) << data->log_blocksize, 0, GRUB_DISK_SECTOR_SIZE << data->log_blocksize, objc_data); if (grub_errno) goto fail; objc = (struct grub_sfs_objc *) objc_data; pos = (char *) &objc->objects[0] - (char *) objc; /* Iterate over all entries in this block. */ while (pos + sizeof (struct grub_sfs_obj) < (1U << (GRUB_DISK_SECTOR_BITS + data->log_blocksize))) { struct grub_sfs_obj *obj; obj = (struct grub_sfs_obj *) ((char *) objc + pos); const char *filename = (const char *) obj->filename; grub_size_t len; enum grub_fshelp_filetype type; grub_uint32_t block; /* The filename and comment dynamically increase the size of the object. */ len = grub_strlen (filename); len += grub_strlen (filename + len + 1); pos += sizeof (*obj) + len; /* Round up to a multiple of two bytes. */ pos = ((pos + 1) >> 1) << 1; if (filename[0] == 0) continue; /* First check if the file was not deleted. */ if (obj->type & GRUB_SFS_TYPE_DELETED) continue; else if (obj->type & GRUB_SFS_TYPE_SYMLINK) type = GRUB_FSHELP_SYMLINK; else if (obj->type & GRUB_SFS_TYPE_DIR) type = GRUB_FSHELP_DIR; else type = GRUB_FSHELP_REG; if (type == GRUB_FSHELP_DIR) block = grub_be_to_cpu32 (obj->file_dir.dir.dir_objc); else block = grub_be_to_cpu32 (obj->file_dir.file.first_block); if (grub_sfs_create_node (filename, block, grub_be_to_cpu32 (obj->file_dir.file.size), type, grub_be_to_cpu32 (obj->mtime))) { grub_free (objc_data); return 1; } } next = grub_be_to_cpu32 (objc->next); } fail: grub_free (objc_data); return 0; } /* Open a file named NAME and initialize FILE. */ static grub_err_t grub_sfs_open (struct grub_file *file, const char *name) { struct grub_sfs_data *data; struct grub_fshelp_node *fdiro = 0; grub_dl_ref (my_mod); data = grub_sfs_mount (file->device->disk); if (!data) goto fail; grub_fshelp_find_file (name, &data->diropen, &fdiro, grub_sfs_iterate_dir, grub_sfs_read_symlink, GRUB_FSHELP_REG); if (grub_errno) goto fail; file->size = fdiro->size; data->diropen = *fdiro; grub_free (fdiro); file->data = data; file->offset = 0; return 0; fail: if (data && fdiro != &data->diropen) grub_free (fdiro); if (data) grub_free (data->label); grub_free (data); grub_dl_unref (my_mod); return grub_errno; } static grub_err_t grub_sfs_close (grub_file_t file) { struct grub_sfs_data *data = (struct grub_sfs_data *) file->data; grub_free (data->diropen.cache); grub_free (data->label); grub_free (data); grub_dl_unref (my_mod); return GRUB_ERR_NONE; } /* Read LEN bytes data from FILE into BUF. */ static grub_ssize_t grub_sfs_read (grub_file_t file, char *buf, grub_size_t len) { struct grub_sfs_data *data = (struct grub_sfs_data *) file->data; return grub_sfs_read_file (&data->diropen, file->read_hook, file->offset, len, buf); } static grub_err_t grub_sfs_dir (grub_device_t device, const char *path, int (*hook) (const char *filename, const struct grub_dirhook_info *info)) { struct grub_sfs_data *data = 0; struct grub_fshelp_node *fdiro = 0; auto int NESTED_FUNC_ATTR iterate (const char *filename, enum grub_fshelp_filetype filetype, grub_fshelp_node_t node); int NESTED_FUNC_ATTR iterate (const char *filename, enum grub_fshelp_filetype filetype, grub_fshelp_node_t node) { struct grub_dirhook_info info; grub_memset (&info, 0, sizeof (info)); info.dir = ((filetype & GRUB_FSHELP_TYPE_MASK) == GRUB_FSHELP_DIR); info.mtime = node->mtime + 8 * 365 * 86400 + 86400 * 2; info.mtimeset = 1; grub_free (node->cache); grub_free (node); return hook (filename, &info); } grub_dl_ref (my_mod); data = grub_sfs_mount (device->disk); if (!data) goto fail; grub_fshelp_find_file (path, &data->diropen, &fdiro, grub_sfs_iterate_dir, grub_sfs_read_symlink, GRUB_FSHELP_DIR); if (grub_errno) goto fail; grub_sfs_iterate_dir (fdiro, iterate); fail: if (data && fdiro != &data->diropen) grub_free (fdiro); if (data) grub_free (data->label); grub_free (data); grub_dl_unref (my_mod); return grub_errno; } static grub_err_t grub_sfs_label (grub_device_t device, char **label) { struct grub_sfs_data *data; grub_disk_t disk = device->disk; data = grub_sfs_mount (disk); if (data) { grub_size_t len = grub_strlen (data->label); *label = grub_malloc (len * GRUB_MAX_UTF8_PER_LATIN1 + 1); if (*label) *grub_latin1_to_utf8 ((grub_uint8_t *) *label, (const grub_uint8_t *) data->label, len) = '\0'; grub_free (data->label); } grub_free (data); return grub_errno; } static struct grub_fs grub_sfs_fs = { .name = "sfs", .dir = grub_sfs_dir, .open = grub_sfs_open, .read = grub_sfs_read, .close = grub_sfs_close, .label = grub_sfs_label, #ifdef GRUB_UTIL .reserved_first_sector = 0, .blocklist_install = 1, #endif .next = 0 }; GRUB_MOD_INIT(sfs) { grub_fs_register (&grub_sfs_fs); my_mod = mod; } GRUB_MOD_FINI(sfs) { grub_fs_unregister (&grub_sfs_fs); }