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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 | // SPDX-License-Identifier: GPL-2.0-only /* * * Copyright (C) 2011 Novell Inc. */ #include <linux/fs.h> #include <linux/slab.h> #include <linux/namei.h> #include <linux/file.h> #include <linux/xattr.h> #include <linux/rbtree.h> #include <linux/security.h> #include <linux/cred.h> #include <linux/ratelimit.h> #include "overlayfs.h" struct ovl_cache_entry { unsigned int len; unsigned int type; u64 real_ino; u64 ino; struct list_head l_node; struct rb_node node; struct ovl_cache_entry *next_maybe_whiteout; bool is_upper; bool is_whiteout; char name[]; }; struct ovl_dir_cache { long refcount; u64 version; struct list_head entries; struct rb_root root; }; struct ovl_readdir_data { struct dir_context ctx; struct dentry *dentry; bool is_lowest; struct rb_root *root; struct list_head *list; struct list_head middle; struct ovl_cache_entry *first_maybe_whiteout; int count; int err; bool is_upper; bool d_type_supported; }; struct ovl_dir_file { bool is_real; bool is_upper; struct ovl_dir_cache *cache; struct list_head *cursor; struct file *realfile; struct file *upperfile; }; static struct ovl_cache_entry *ovl_cache_entry_from_node(struct rb_node *n) { return rb_entry(n, struct ovl_cache_entry, node); } static bool ovl_cache_entry_find_link(const char *name, int len, struct rb_node ***link, struct rb_node **parent) { bool found = false; struct rb_node **newp = *link; while (!found && *newp) { int cmp; struct ovl_cache_entry *tmp; *parent = *newp; tmp = ovl_cache_entry_from_node(*newp); cmp = strncmp(name, tmp->name, len); if (cmp > 0) newp = &tmp->node.rb_right; else if (cmp < 0 || len < tmp->len) newp = &tmp->node.rb_left; else found = true; } *link = newp; return found; } static struct ovl_cache_entry *ovl_cache_entry_find(struct rb_root *root, const char *name, int len) { struct rb_node *node = root->rb_node; int cmp; while (node) { struct ovl_cache_entry *p = ovl_cache_entry_from_node(node); cmp = strncmp(name, p->name, len); if (cmp > 0) node = p->node.rb_right; else if (cmp < 0 || len < p->len) node = p->node.rb_left; else return p; } return NULL; } static bool ovl_calc_d_ino(struct ovl_readdir_data *rdd, struct ovl_cache_entry *p) { /* Don't care if not doing ovl_iter() */ if (!rdd->dentry) return false; /* Always recalc d_ino when remapping lower inode numbers */ if (ovl_xino_bits(rdd->dentry->d_sb)) return true; /* Always recalc d_ino for parent */ if (strcmp(p->name, "..") == 0) return true; /* If this is lower, then native d_ino will do */ if (!rdd->is_upper) return false; /* * Recalc d_ino for '.' and for all entries if dir is impure (contains * copied up entries) */ if ((p->name[0] == '.' && p->len == 1) || ovl_test_flag(OVL_IMPURE, d_inode(rdd->dentry))) return true; return false; } static struct ovl_cache_entry *ovl_cache_entry_new(struct ovl_readdir_data *rdd, const char *name, int len, u64 ino, unsigned int d_type) { struct ovl_cache_entry *p; size_t size = offsetof(struct ovl_cache_entry, name[len + 1]); p = kmalloc(size, GFP_KERNEL); if (!p) return NULL; memcpy(p->name, name, len); p->name[len] = '\0'; p->len = len; p->type = d_type; p->real_ino = ino; p->ino = ino; /* Defer setting d_ino for upper entry to ovl_iterate() */ if (ovl_calc_d_ino(rdd, p)) p->ino = 0; p->is_upper = rdd->is_upper; p->is_whiteout = false; if (d_type == DT_CHR) { p->next_maybe_whiteout = rdd->first_maybe_whiteout; rdd->first_maybe_whiteout = p; } return p; } static bool ovl_cache_entry_add_rb(struct ovl_readdir_data *rdd, const char *name, int len, u64 ino, unsigned int d_type) { struct rb_node **newp = &rdd->root->rb_node; struct rb_node *parent = NULL; struct ovl_cache_entry *p; if (ovl_cache_entry_find_link(name, len, &newp, &parent)) return true; p = ovl_cache_entry_new(rdd, name, len, ino, d_type); if (p == NULL) { rdd->err = -ENOMEM; return false; } list_add_tail(&p->l_node, rdd->list); rb_link_node(&p->node, parent, newp); rb_insert_color(&p->node, rdd->root); return true; } static bool ovl_fill_lowest(struct ovl_readdir_data *rdd, const char *name, int namelen, loff_t offset, u64 ino, unsigned int d_type) { struct ovl_cache_entry *p; p = ovl_cache_entry_find(rdd->root, name, namelen); if (p) { list_move_tail(&p->l_node, &rdd->middle); } else { p = ovl_cache_entry_new(rdd, name, namelen, ino, d_type); if (p == NULL) rdd->err = -ENOMEM; else list_add_tail(&p->l_node, &rdd->middle); } return rdd->err == 0; } void ovl_cache_free(struct list_head *list) { struct ovl_cache_entry *p; struct ovl_cache_entry *n; list_for_each_entry_safe(p, n, list, l_node) kfree(p); INIT_LIST_HEAD(list); } void ovl_dir_cache_free(struct inode *inode) { struct ovl_dir_cache *cache = ovl_dir_cache(inode); if (cache) { ovl_cache_free(&cache->entries); kfree(cache); } } static void ovl_cache_put(struct ovl_dir_file *od, struct dentry *dentry) { struct ovl_dir_cache *cache = od->cache; WARN_ON(cache->refcount <= 0); cache->refcount--; if (!cache->refcount) { if (ovl_dir_cache(d_inode(dentry)) == cache) ovl_set_dir_cache(d_inode(dentry), NULL); ovl_cache_free(&cache->entries); kfree(cache); } } static bool ovl_fill_merge(struct dir_context *ctx, const char *name, int namelen, loff_t offset, u64 ino, unsigned int d_type) { struct ovl_readdir_data *rdd = container_of(ctx, struct ovl_readdir_data, ctx); rdd->count++; if (!rdd->is_lowest) return ovl_cache_entry_add_rb(rdd, name, namelen, ino, d_type); else return ovl_fill_lowest(rdd, name, namelen, offset, ino, d_type); } static int ovl_check_whiteouts(const struct path *path, struct ovl_readdir_data *rdd) { int err; struct ovl_cache_entry *p; struct dentry *dentry, *dir = path->dentry; const struct cred *old_cred; old_cred = ovl_override_creds(rdd->dentry->d_sb); err = down_write_killable(&dir->d_inode->i_rwsem); if (!err) { while (rdd->first_maybe_whiteout) { p = rdd->first_maybe_whiteout; rdd->first_maybe_whiteout = p->next_maybe_whiteout; dentry = lookup_one(mnt_user_ns(path->mnt), p->name, dir, p->len); if (!IS_ERR(dentry)) { p->is_whiteout = ovl_is_whiteout(dentry); dput(dentry); } } inode_unlock(dir->d_inode); } revert_creds(old_cred); return err; } static inline int ovl_dir_read(const struct path *realpath, struct ovl_readdir_data *rdd) { struct file *realfile; int err; realfile = ovl_path_open(realpath, O_RDONLY | O_LARGEFILE); if (IS_ERR(realfile)) return PTR_ERR(realfile); rdd->first_maybe_whiteout = NULL; rdd->ctx.pos = 0; do { rdd->count = 0; rdd->err = 0; err = iterate_dir(realfile, &rdd->ctx); if (err >= 0) err = rdd->err; } while (!err && rdd->count); if (!err && rdd->first_maybe_whiteout && rdd->dentry) err = ovl_check_whiteouts(realpath, rdd); fput(realfile); return err; } static void ovl_dir_reset(struct file *file) { struct ovl_dir_file *od = file->private_data; struct ovl_dir_cache *cache = od->cache; struct dentry *dentry = file->f_path.dentry; bool is_real; if (cache && ovl_dentry_version_get(dentry) != cache->version) { ovl_cache_put(od, dentry); od->cache = NULL; od->cursor = NULL; } is_real = ovl_dir_is_real(dentry); if (od->is_real != is_real) { /* is_real can only become false when dir is copied up */ if (WARN_ON(is_real)) return; od->is_real = false; } } static int ovl_dir_read_merged(struct dentry *dentry, struct list_head *list, struct rb_root *root) { int err; struct path realpath; struct ovl_readdir_data rdd = { .ctx.actor = ovl_fill_merge, .dentry = dentry, .list = list, .root = root, .is_lowest = false, }; int idx, next; for (idx = 0; idx != -1; idx = next) { next = ovl_path_next(idx, dentry, &realpath); rdd.is_upper = ovl_dentry_upper(dentry) == realpath.dentry; if (next != -1) { err = ovl_dir_read(&realpath, &rdd); if (err) break; } else { /* * Insert lowest layer entries before upper ones, this * allows offsets to be reasonably constant */ list_add(&rdd.middle, rdd.list); rdd.is_lowest = true; err = ovl_dir_read(&realpath, &rdd); list_del(&rdd.middle); } } return err; } static void ovl_seek_cursor(struct ovl_dir_file *od, loff_t pos) { struct list_head *p; loff_t off = 0; list_for_each(p, &od->cache->entries) { if (off >= pos) break; off++; } /* Cursor is safe since the cache is stable */ od->cursor = p; } static struct ovl_dir_cache *ovl_cache_get(struct dentry *dentry) { int res; struct ovl_dir_cache *cache; cache = ovl_dir_cache(d_inode(dentry)); if (cache && ovl_dentry_version_get(dentry) == cache->version) { WARN_ON(!cache->refcount); cache->refcount++; return cache; } ovl_set_dir_cache(d_inode(dentry), NULL); cache = kzalloc(sizeof(struct ovl_dir_cache), GFP_KERNEL); if (!cache) return ERR_PTR(-ENOMEM); cache->refcount = 1; INIT_LIST_HEAD(&cache->entries); cache->root = RB_ROOT; res = ovl_dir_read_merged(dentry, &cache->entries, &cache->root); if (res) { ovl_cache_free(&cache->entries); kfree(cache); return ERR_PTR(res); } cache->version = ovl_dentry_version_get(dentry); ovl_set_dir_cache(d_inode(dentry), cache); return cache; } /* Map inode number to lower fs unique range */ static u64 ovl_remap_lower_ino(u64 ino, int xinobits, int fsid, const char *name, int namelen, bool warn) { unsigned int xinoshift = 64 - xinobits; if (unlikely(ino >> xinoshift)) { if (warn) { pr_warn_ratelimited("d_ino too big (%.*s, ino=%llu, xinobits=%d)\n", namelen, name, ino, xinobits); } return ino; } /* * The lowest xinobit is reserved for mapping the non-peresistent inode * numbers range, but this range is only exposed via st_ino, not here. */ return ino | ((u64)fsid) << (xinoshift + 1); } /* * Set d_ino for upper entries. Non-upper entries should always report * the uppermost real inode ino and should not call this function. * * When not all layer are on same fs, report real ino also for upper. * * When all layers are on the same fs, and upper has a reference to * copy up origin, call vfs_getattr() on the overlay entry to make * sure that d_ino will be consistent with st_ino from stat(2). */ static int ovl_cache_update_ino(const struct path *path, struct ovl_cache_entry *p) { struct dentry *dir = path->dentry; struct dentry *this = NULL; enum ovl_path_type type; u64 ino = p->real_ino; int xinobits = ovl_xino_bits(dir->d_sb); int err = 0; if (!ovl_same_dev(dir->d_sb)) goto out; if (p->name[0] == '.') { if (p->len == 1) { this = dget(dir); goto get; } if (p->len == 2 && p->name[1] == '.') { /* we shall not be moved */ this = dget(dir->d_parent); goto get; } } this = lookup_one(mnt_user_ns(path->mnt), p->name, dir, p->len); if (IS_ERR_OR_NULL(this) || !this->d_inode) { /* Mark a stale entry */ p->is_whiteout = true; if (IS_ERR(this)) { err = PTR_ERR(this); this = NULL; goto fail; } goto out; } get: type = ovl_path_type(this); if (OVL_TYPE_ORIGIN(type)) { struct kstat stat; struct path statpath = *path; statpath.dentry = this; err = vfs_getattr(&statpath, &stat, STATX_INO, 0); if (err) goto fail; /* * Directory inode is always on overlay st_dev. * Non-dir with ovl_same_dev() could be on pseudo st_dev in case * of xino bits overflow. */ WARN_ON_ONCE(S_ISDIR(stat.mode) && dir->d_sb->s_dev != stat.dev); ino = stat.ino; } else if (xinobits && !OVL_TYPE_UPPER(type)) { ino = ovl_remap_lower_ino(ino, xinobits, ovl_layer_lower(this)->fsid, p->name, p->len, ovl_xino_warn(dir->d_sb)); } out: p->ino = ino; dput(this); return err; fail: pr_warn_ratelimited("failed to look up (%s) for ino (%i)\n", p->name, err); goto out; } static bool ovl_fill_plain(struct dir_context *ctx, const char *name, int namelen, loff_t offset, u64 ino, unsigned int d_type) { struct ovl_cache_entry *p; struct ovl_readdir_data *rdd = container_of(ctx, struct ovl_readdir_data, ctx); rdd->count++; p = ovl_cache_entry_new(rdd, name, namelen, ino, d_type); if (p == NULL) { rdd->err = -ENOMEM; return false; } list_add_tail(&p->l_node, rdd->list); return true; } static int ovl_dir_read_impure(const struct path *path, struct list_head *list, struct rb_root *root) { int err; struct path realpath; struct ovl_cache_entry *p, *n; struct ovl_readdir_data rdd = { .ctx.actor = ovl_fill_plain, .list = list, .root = root, }; INIT_LIST_HEAD(list); *root = RB_ROOT; ovl_path_upper(path->dentry, &realpath); err = ovl_dir_read(&realpath, &rdd); if (err) return err; list_for_each_entry_safe(p, n, list, l_node) { if (strcmp(p->name, ".") != 0 && strcmp(p->name, "..") != 0) { err = ovl_cache_update_ino(path, p); if (err) return err; } if (p->ino == p->real_ino) { list_del(&p->l_node); kfree(p); } else { struct rb_node **newp = &root->rb_node; struct rb_node *parent = NULL; if (WARN_ON(ovl_cache_entry_find_link(p->name, p->len, &newp, &parent))) return -EIO; rb_link_node(&p->node, parent, newp); rb_insert_color(&p->node, root); } } return 0; } static struct ovl_dir_cache *ovl_cache_get_impure(const struct path *path) { int res; struct dentry *dentry = path->dentry; struct ovl_fs *ofs = OVL_FS(dentry->d_sb); struct ovl_dir_cache *cache; cache = ovl_dir_cache(d_inode(dentry)); if (cache && ovl_dentry_version_get(dentry) == cache->version) return cache; /* Impure cache is not refcounted, free it here */ ovl_dir_cache_free(d_inode(dentry)); ovl_set_dir_cache(d_inode(dentry), NULL); cache = kzalloc(sizeof(struct ovl_dir_cache), GFP_KERNEL); if (!cache) return ERR_PTR(-ENOMEM); res = ovl_dir_read_impure(path, &cache->entries, &cache->root); if (res) { ovl_cache_free(&cache->entries); kfree(cache); return ERR_PTR(res); } if (list_empty(&cache->entries)) { /* * A good opportunity to get rid of an unneeded "impure" flag. * Removing the "impure" xattr is best effort. */ if (!ovl_want_write(dentry)) { ovl_removexattr(ofs, ovl_dentry_upper(dentry), OVL_XATTR_IMPURE); ovl_drop_write(dentry); } ovl_clear_flag(OVL_IMPURE, d_inode(dentry)); kfree(cache); return NULL; } cache->version = ovl_dentry_version_get(dentry); ovl_set_dir_cache(d_inode(dentry), cache); return cache; } struct ovl_readdir_translate { struct dir_context *orig_ctx; struct ovl_dir_cache *cache; struct dir_context ctx; u64 parent_ino; int fsid; int xinobits; bool xinowarn; }; static bool ovl_fill_real(struct dir_context *ctx, const char *name, int namelen, loff_t offset, u64 ino, unsigned int d_type) { struct ovl_readdir_translate *rdt = container_of(ctx, struct ovl_readdir_translate, ctx); struct dir_context *orig_ctx = rdt->orig_ctx; if (rdt->parent_ino && strcmp(name, "..") == 0) { ino = rdt->parent_ino; } else if (rdt->cache) { struct ovl_cache_entry *p; p = ovl_cache_entry_find(&rdt->cache->root, name, namelen); if (p) ino = p->ino; } else if (rdt->xinobits) { ino = ovl_remap_lower_ino(ino, rdt->xinobits, rdt->fsid, name, namelen, rdt->xinowarn); } return orig_ctx->actor(orig_ctx, name, namelen, offset, ino, d_type); } static bool ovl_is_impure_dir(struct file *file) { struct ovl_dir_file *od = file->private_data; struct inode *dir = d_inode(file->f_path.dentry); /* * Only upper dir can be impure, but if we are in the middle of * iterating a lower real dir, dir could be copied up and marked * impure. We only want the impure cache if we started iterating * a real upper dir to begin with. */ return od->is_upper && ovl_test_flag(OVL_IMPURE, dir); } static int ovl_iterate_real(struct file *file, struct dir_context *ctx) { int err; struct ovl_dir_file *od = file->private_data; struct dentry *dir = file->f_path.dentry; const struct ovl_layer *lower_layer = ovl_layer_lower(dir); struct ovl_readdir_translate rdt = { .ctx.actor = ovl_fill_real, .orig_ctx = ctx, .xinobits = ovl_xino_bits(dir->d_sb), .xinowarn = ovl_xino_warn(dir->d_sb), }; if (rdt.xinobits && lower_layer) rdt.fsid = lower_layer->fsid; if (OVL_TYPE_MERGE(ovl_path_type(dir->d_parent))) { struct kstat stat; struct path statpath = file->f_path; statpath.dentry = dir->d_parent; err = vfs_getattr(&statpath, &stat, STATX_INO, 0); if (err) return err; WARN_ON_ONCE(dir->d_sb->s_dev != stat.dev); rdt.parent_ino = stat.ino; } if (ovl_is_impure_dir(file)) { rdt.cache = ovl_cache_get_impure(&file->f_path); if (IS_ERR(rdt.cache)) return PTR_ERR(rdt.cache); } err = iterate_dir(od->realfile, &rdt.ctx); ctx->pos = rdt.ctx.pos; return err; } static int ovl_iterate(struct file *file, struct dir_context *ctx) { struct ovl_dir_file *od = file->private_data; struct dentry *dentry = file->f_path.dentry; struct ovl_cache_entry *p; const struct cred *old_cred; int err; old_cred = ovl_override_creds(dentry->d_sb); if (!ctx->pos) ovl_dir_reset(file); if (od->is_real) { /* * If parent is merge, then need to adjust d_ino for '..', if * dir is impure then need to adjust d_ino for copied up * entries. */ if (ovl_xino_bits(dentry->d_sb) || (ovl_same_fs(dentry->d_sb) && (ovl_is_impure_dir(file) || OVL_TYPE_MERGE(ovl_path_type(dentry->d_parent))))) { err = ovl_iterate_real(file, ctx); } else { err = iterate_dir(od->realfile, ctx); } goto out; } if (!od->cache) { struct ovl_dir_cache *cache; cache = ovl_cache_get(dentry); err = PTR_ERR(cache); if (IS_ERR(cache)) goto out; od->cache = cache; ovl_seek_cursor(od, ctx->pos); } while (od->cursor != &od->cache->entries) { p = list_entry(od->cursor, struct ovl_cache_entry, l_node); if (!p->is_whiteout) { if (!p->ino) { err = ovl_cache_update_ino(&file->f_path, p); if (err) goto out; } } /* ovl_cache_update_ino() sets is_whiteout on stale entry */ if (!p->is_whiteout) { if (!dir_emit(ctx, p->name, p->len, p->ino, p->type)) break; } od->cursor = p->l_node.next; ctx->pos++; } err = 0; out: revert_creds(old_cred); return err; } static loff_t ovl_dir_llseek(struct file *file, loff_t offset, int origin) { loff_t res; struct ovl_dir_file *od = file->private_data; inode_lock(file_inode(file)); if (!file->f_pos) ovl_dir_reset(file); if (od->is_real) { res = vfs_llseek(od->realfile, offset, origin); file->f_pos = od->realfile->f_pos; } else { res = -EINVAL; switch (origin) { case SEEK_CUR: offset += file->f_pos; break; case SEEK_SET: break; default: goto out_unlock; } if (offset < 0) goto out_unlock; if (offset != file->f_pos) { file->f_pos = offset; if (od->cache) ovl_seek_cursor(od, offset); } res = offset; } out_unlock: inode_unlock(file_inode(file)); return res; } static struct file *ovl_dir_open_realfile(const struct file *file, const struct path *realpath) { struct file *res; const struct cred *old_cred; old_cred = ovl_override_creds(file_inode(file)->i_sb); res = ovl_path_open(realpath, O_RDONLY | (file->f_flags & O_LARGEFILE)); revert_creds(old_cred); return res; } /* * Like ovl_real_fdget(), returns upperfile if dir was copied up since open. * Unlike ovl_real_fdget(), this caches upperfile in file->private_data. * * TODO: use same abstract type for file->private_data of dir and file so * upperfile could also be cached for files as well. */ struct file *ovl_dir_real_file(const struct file *file, bool want_upper) { struct ovl_dir_file *od = file->private_data; struct dentry *dentry = file->f_path.dentry; struct file *old, *realfile = od->realfile; if (!OVL_TYPE_UPPER(ovl_path_type(dentry))) return want_upper ? NULL : realfile; /* * Need to check if we started out being a lower dir, but got copied up */ if (!od->is_upper) { realfile = READ_ONCE(od->upperfile); if (!realfile) { struct path upperpath; ovl_path_upper(dentry, &upperpath); realfile = ovl_dir_open_realfile(file, &upperpath); if (IS_ERR(realfile)) return realfile; old = cmpxchg_release(&od->upperfile, NULL, realfile); if (old) { fput(realfile); realfile = old; } } } return realfile; } static int ovl_dir_fsync(struct file *file, loff_t start, loff_t end, int datasync) { struct file *realfile; int err; err = ovl_sync_status(OVL_FS(file->f_path.dentry->d_sb)); if (err <= 0) return err; realfile = ovl_dir_real_file(file, true); err = PTR_ERR_OR_ZERO(realfile); /* Nothing to sync for lower */ if (!realfile || err) return err; return vfs_fsync_range(realfile, start, end, datasync); } static int ovl_dir_release(struct inode *inode, struct file *file) { struct ovl_dir_file *od = file->private_data; if (od->cache) { inode_lock(inode); ovl_cache_put(od, file->f_path.dentry); inode_unlock(inode); } fput(od->realfile); if (od->upperfile) fput(od->upperfile); kfree(od); return 0; } static int ovl_dir_open(struct inode *inode, struct file *file) { struct path realpath; struct file *realfile; struct ovl_dir_file *od; enum ovl_path_type type; od = kzalloc(sizeof(struct ovl_dir_file), GFP_KERNEL); if (!od) return -ENOMEM; type = ovl_path_real(file->f_path.dentry, &realpath); realfile = ovl_dir_open_realfile(file, &realpath); if (IS_ERR(realfile)) { kfree(od); return PTR_ERR(realfile); } od->realfile = realfile; od->is_real = ovl_dir_is_real(file->f_path.dentry); od->is_upper = OVL_TYPE_UPPER(type); file->private_data = od; return 0; } const struct file_operations ovl_dir_operations = { .read = generic_read_dir, .open = ovl_dir_open, .iterate = ovl_iterate, .llseek = ovl_dir_llseek, .fsync = ovl_dir_fsync, .release = ovl_dir_release, }; int ovl_check_empty_dir(struct dentry *dentry, struct list_head *list) { int err; struct ovl_cache_entry *p, *n; struct rb_root root = RB_ROOT; const struct cred *old_cred; old_cred = ovl_override_creds(dentry->d_sb); err = ovl_dir_read_merged(dentry, list, &root); revert_creds(old_cred); if (err) return err; err = 0; list_for_each_entry_safe(p, n, list, l_node) { /* * Select whiteouts in upperdir, they should * be cleared when deleting this directory. */ if (p->is_whiteout) { if (p->is_upper) continue; goto del_entry; } if (p->name[0] == '.') { if (p->len == 1) goto del_entry; if (p->len == 2 && p->name[1] == '.') goto del_entry; } err = -ENOTEMPTY; break; del_entry: list_del(&p->l_node); kfree(p); } return err; } void ovl_cleanup_whiteouts(struct ovl_fs *ofs, struct dentry *upper, struct list_head *list) { struct ovl_cache_entry *p; inode_lock_nested(upper->d_inode, I_MUTEX_CHILD); list_for_each_entry(p, list, l_node) { struct dentry *dentry; if (WARN_ON(!p->is_whiteout || !p->is_upper)) continue; dentry = ovl_lookup_upper(ofs, p->name, upper, p->len); if (IS_ERR(dentry)) { pr_err("lookup '%s/%.*s' failed (%i)\n", upper->d_name.name, p->len, p->name, (int) PTR_ERR(dentry)); continue; } if (dentry->d_inode) ovl_cleanup(ofs, upper->d_inode, dentry); dput(dentry); } inode_unlock(upper->d_inode); } static bool ovl_check_d_type(struct dir_context *ctx, const char *name, int namelen, loff_t offset, u64 ino, unsigned int d_type) { struct ovl_readdir_data *rdd = container_of(ctx, struct ovl_readdir_data, ctx); /* Even if d_type is not supported, DT_DIR is returned for . and .. */ if (!strncmp(name, ".", namelen) || !strncmp(name, "..", namelen)) return true; if (d_type != DT_UNKNOWN) rdd->d_type_supported = true; return true; } /* * Returns 1 if d_type is supported, 0 not supported/unknown. Negative values * if error is encountered. */ int ovl_check_d_type_supported(const struct path *realpath) { int err; struct ovl_readdir_data rdd = { .ctx.actor = ovl_check_d_type, .d_type_supported = false, }; err = ovl_dir_read(realpath, &rdd); if (err) return err; return rdd.d_type_supported; } #define OVL_INCOMPATDIR_NAME "incompat" static int ovl_workdir_cleanup_recurse(struct ovl_fs *ofs, const struct path *path, int level) { int err; struct inode *dir = path->dentry->d_inode; LIST_HEAD(list); struct rb_root root = RB_ROOT; struct ovl_cache_entry *p; struct ovl_readdir_data rdd = { .ctx.actor = ovl_fill_merge, .dentry = NULL, .list = &list, .root = &root, .is_lowest = false, }; bool incompat = false; /* * The "work/incompat" directory is treated specially - if it is not * empty, instead of printing a generic error and mounting read-only, * we will error about incompat features and fail the mount. * * When called from ovl_indexdir_cleanup(), path->dentry->d_name.name * starts with '#'. */ if (level == 2 && !strcmp(path->dentry->d_name.name, OVL_INCOMPATDIR_NAME)) incompat = true; err = ovl_dir_read(path, &rdd); if (err) goto out; inode_lock_nested(dir, I_MUTEX_PARENT); list_for_each_entry(p, &list, l_node) { struct dentry *dentry; if (p->name[0] == '.') { if (p->len == 1) continue; if (p->len == 2 && p->name[1] == '.') continue; } else if (incompat) { pr_err("overlay with incompat feature '%s' cannot be mounted\n", p->name); err = -EINVAL; break; } dentry = ovl_lookup_upper(ofs, p->name, path->dentry, p->len); if (IS_ERR(dentry)) continue; if (dentry->d_inode) err = ovl_workdir_cleanup(ofs, dir, path->mnt, dentry, level); dput(dentry); if (err) break; } inode_unlock(dir); out: ovl_cache_free(&list); return err; } int ovl_workdir_cleanup(struct ovl_fs *ofs, struct inode *dir, struct vfsmount *mnt, struct dentry *dentry, int level) { int err; if (!d_is_dir(dentry) || level > 1) { return ovl_cleanup(ofs, dir, dentry); } err = ovl_do_rmdir(ofs, dir, dentry); if (err) { struct path path = { .mnt = mnt, .dentry = dentry }; inode_unlock(dir); err = ovl_workdir_cleanup_recurse(ofs, &path, level + 1); inode_lock_nested(dir, I_MUTEX_PARENT); if (!err) err = ovl_cleanup(ofs, dir, dentry); } return err; } int ovl_indexdir_cleanup(struct ovl_fs *ofs) { int err; struct dentry *indexdir = ofs->indexdir; struct dentry *index = NULL; struct inode *dir = indexdir->d_inode; struct path path = { .mnt = ovl_upper_mnt(ofs), .dentry = indexdir }; LIST_HEAD(list); struct rb_root root = RB_ROOT; struct ovl_cache_entry *p; struct ovl_readdir_data rdd = { .ctx.actor = ovl_fill_merge, .dentry = NULL, .list = &list, .root = &root, .is_lowest = false, }; err = ovl_dir_read(&path, &rdd); if (err) goto out; inode_lock_nested(dir, I_MUTEX_PARENT); list_for_each_entry(p, &list, l_node) { if (p->name[0] == '.') { if (p->len == 1) continue; if (p->len == 2 && p->name[1] == '.') continue; } index = ovl_lookup_upper(ofs, p->name, indexdir, p->len); if (IS_ERR(index)) { err = PTR_ERR(index); index = NULL; break; } /* Cleanup leftover from index create/cleanup attempt */ if (index->d_name.name[0] == '#') { err = ovl_workdir_cleanup(ofs, dir, path.mnt, index, 1); if (err) break; goto next; } err = ovl_verify_index(ofs, index); if (!err) { goto next; } else if (err == -ESTALE) { /* Cleanup stale index entries */ err = ovl_cleanup(ofs, dir, index); } else if (err != -ENOENT) { /* * Abort mount to avoid corrupting the index if * an incompatible index entry was found or on out * of memory. */ break; } else if (ofs->config.nfs_export) { /* * Whiteout orphan index to block future open by * handle after overlay nlink dropped to zero. */ err = ovl_cleanup_and_whiteout(ofs, dir, index); } else { /* Cleanup orphan index entries */ err = ovl_cleanup(ofs, dir, index); } if (err) break; next: dput(index); index = NULL; } dput(index); inode_unlock(dir); out: ovl_cache_free(&list); if (err) pr_err("failed index dir cleanup (%i)\n", err); return err; } |