/* * Copyright (c) 2011 Maurizio Lombardi * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup fs * @{ */ #include "mfs.h" /**Read a directory entry from disk. * * @param mnode Pointer to the directory node. * @param d_info Pointer to a directory entry structure where the dentry info * will be stored. * @param index index of the dentry in the list. * * @return EOK on success or a negative error code. */ int mfs_read_dentry(struct mfs_node *mnode, struct mfs_dentry_info *d_info, unsigned index) { const struct mfs_instance *inst = mnode->instance; const struct mfs_sb_info *sbi = inst->sbi; const bool longnames = sbi->long_names; uint32_t block; block_t *b; int r = mfs_read_map(&block, mnode, index * sbi->dirsize); if (r != EOK) goto out_err; if (block == 0) { /* End of the dentries list */ r = EOK; goto out_err; } r = block_get(&b, inst->service_id, block, BLOCK_FLAGS_NONE); if (r != EOK) goto out_err; unsigned dentries_per_zone = sbi->block_size / sbi->dirsize; unsigned dentry_off = index % dentries_per_zone; if (sbi->fs_version == MFS_VERSION_V3) { struct mfs3_dentry *d3; d3 = b->data + (dentry_off * MFS3_DIRSIZE); d_info->d_inum = conv32(sbi->native, d3->d_inum); memcpy(d_info->d_name, d3->d_name, MFS3_MAX_NAME_LEN); d_info->d_name[MFS3_MAX_NAME_LEN] = 0; } else { const int namelen = longnames ? MFS_L_MAX_NAME_LEN : MFS_MAX_NAME_LEN; struct mfs_dentry *d; d = b->data + dentry_off * (longnames ? MFSL_DIRSIZE : MFS_DIRSIZE); d_info->d_inum = conv16(sbi->native, d->d_inum); memcpy(d_info->d_name, d->d_name, namelen); d_info->d_name[namelen] = 0; } r = block_put(b); d_info->index = index; d_info->node = mnode; out_err: return r; } /**Write a directory entry on disk. * * @param d_info Pointer to the directory entry structure to write on disk. * * @return EOK on success or a negative error code. */ int mfs_write_dentry(struct mfs_dentry_info *d_info) { struct mfs_node *mnode = d_info->node; struct mfs_sb_info *sbi = mnode->instance->sbi; const unsigned d_off_bytes = d_info->index * sbi->dirsize; const unsigned dirs_per_block = sbi->block_size / sbi->dirsize; block_t *b; uint32_t block; int r; r = mfs_read_map(&block, mnode, d_off_bytes); if (r != EOK) goto out; r = block_get(&b, mnode->instance->service_id, block, BLOCK_FLAGS_NONE); if (r != EOK) goto out; const size_t name_len = sbi->max_name_len; uint8_t *ptr = b->data; ptr += (d_info->index % dirs_per_block) * sbi->dirsize; if (sbi->fs_version == MFS_VERSION_V3) { struct mfs3_dentry *dentry; dentry = (struct mfs3_dentry *) ptr; dentry->d_inum = conv32(sbi->native, d_info->d_inum); memcpy(dentry->d_name, d_info->d_name, name_len); } else { struct mfs_dentry *dentry; dentry = (struct mfs_dentry *) ptr; dentry->d_inum = conv16(sbi->native, d_info->d_inum); memcpy(dentry->d_name, d_info->d_name, name_len); } b->dirty = true; r = block_put(b); out: return r; } /**Remove a directory entry from a directory. * * @param mnode Pointer to the directory node. * @param d_name Name of the directory entry to delete. * * @return EOK on success or a negative error code. */ int mfs_remove_dentry(struct mfs_node *mnode, const char *d_name) { struct mfs_sb_info *sbi = mnode->instance->sbi; struct mfs_dentry_info d_info; int r; const size_t name_len = str_size(d_name); if (name_len > sbi->max_name_len) return ENAMETOOLONG; /* Search the directory entry to be removed */ unsigned i; for (i = 0; i < mnode->ino_i->i_size / sbi->dirsize ; ++i) { r = mfs_read_dentry(mnode, &d_info, i); if (r != EOK) return r; const size_t d_name_len = str_size(d_info.d_name); if (name_len == d_name_len && !bcmp(d_info.d_name, d_name, name_len)) { d_info.d_inum = 0; r = mfs_write_dentry(&d_info); return r; } } return ENOENT; } /**Insert a new directory entry in a existing directory. * * @param mnode Pointer to the directory node. * @param d_name Name of the new directory entry. * @param d_inum index of the inode that will be pointed by the new dentry. * * @return EOK on success or a negative error code. */ int mfs_insert_dentry(struct mfs_node *mnode, const char *d_name, fs_index_t d_inum) { int r; struct mfs_sb_info *sbi = mnode->instance->sbi; struct mfs_dentry_info d_info; bool empty_dentry_found = false; const size_t name_len = str_size(d_name); if (name_len > sbi->max_name_len) return ENAMETOOLONG; /* Search for an empty dentry */ unsigned i; for (i = 0; i < mnode->ino_i->i_size / sbi->dirsize; ++i) { r = mfs_read_dentry(mnode, &d_info, i); if (r != EOK) return r; if (d_info.d_inum == 0) { /* This entry is not used */ empty_dentry_found = true; break; } } if (!empty_dentry_found) { uint32_t b, pos; pos = mnode->ino_i->i_size; r = mfs_read_map(&b, mnode, pos); if (r != EOK) goto out; if (b == 0) { /* Increase the inode size */ uint32_t dummy; r = mfs_alloc_zone(mnode->instance, &b); if (r != EOK) goto out; r = mfs_write_map(mnode, pos, b, &dummy); if (r != EOK) goto out; } mnode->ino_i->i_size += sbi->dirsize; mnode->ino_i->dirty = true; d_info.index = i; d_info.node = mnode; } d_info.d_inum = d_inum; memcpy(d_info.d_name, d_name, name_len); if (name_len < sbi->max_name_len) d_info.d_name[name_len] = 0; r = mfs_write_dentry(&d_info); out: return r; } /** * @} */