/* * Copyright (C) 2001 Sistina Software (UK) Limited. * * This file is released under the LGPL. */ #include "dev-cache.h" #include "log.h" #include "pool.h" #include "hash.h" #include "list.h" #include "lvm-types.h" #include "btree.h" #include "dbg_malloc.h" #include #include #include #include #include #include #include /* * FIXME: really need to seperate names from the devices since * multiple names can point to the same device. */ struct dev_iter { struct btree_iter *current; struct dev_filter *filter; }; struct dir_list { struct list list; char dir[0]; }; static struct { struct pool *mem; struct hash_table *names; struct btree *devices; int has_scanned; struct list dirs; } _cache; #define _alloc(x) pool_alloc(_cache.mem, (x)) #define _free(x) pool_free(_cache.mem, (x)) static int _insert(const char *path, int rec); static struct device *_create_dev(dev_t d) { struct device *dev; if (!(dev = _alloc(sizeof(*dev)))) { stack; return NULL; } list_init(&dev->aliases); dev->dev = d; dev->fd = -1; return dev; } static int _add_alias(struct device *dev, const char *path) { struct str_list *sl = _alloc(sizeof(*sl)); if (!sl) { stack; return 0; } if (!(sl->str = pool_strdup(_cache.mem, path))) { stack; return 0; } list_add(&dev->aliases, &sl->list); return 1; } /* * Either creates a new dev, or adds an alias to * an existing dev. */ static int _insert_dev(const char *path, dev_t d) { struct device *dev; /* is this device already registered ? */ if (!(dev = (struct device *) btree_lookup(_cache.devices, d))) { /* create new device */ if (!(dev = _create_dev(d))) { stack; return 0; } if (!(btree_insert(_cache.devices, d, dev))) { log_err("Couldn't insert device into binary tree."); _free(dev); return 0; } } if (!_add_alias(dev, path)) { log_err("Couldn't add alias to dev cache."); return 0; } if (!hash_insert(_cache.names, path, dev)) { log_err("Couldn't add name to hash in dev cache."); return 0; } return 1; } static char *_join(const char *dir, const char *name) { int len = strlen(dir) + strlen(name) + 2; char *r = dbg_malloc(len); if (r) snprintf(r, len, "%s/%s", dir, name); return r; } /* * Get rid of extra slashes in the path string. */ static void _collapse_slashes(char *str) { char *ptr; int was_slash = 0; for (ptr = str; *ptr; ptr++) { if (*ptr == '/') { if (was_slash) continue; was_slash = 1; } else was_slash = 0; *str++ = *ptr; } *str = *ptr; } static int _insert_dir(const char *dir) { int n, dirent_count, r = 1; struct dirent **dirent; char *path; dirent_count = scandir(dir, &dirent, NULL, alphasort); if (dirent_count > 0) { for (n = 0; n < dirent_count; n++) { if (dirent[n]->d_name[0] == '.') { free(dirent[n]); continue; } if (!(path = _join(dir, dirent[n]->d_name))) { stack; return 0; } _collapse_slashes(path); r &= _insert(path, 1); dbg_free(path); free(dirent[n]); } free(dirent); } return r; } static int _insert(const char *path, int rec) { struct stat info; int r = 0; if (stat(path, &info) < 0) { log_sys_very_verbose("stat", path); return 0; } if (S_ISDIR(info.st_mode)) { /* add a directory */ if (rec) r = _insert_dir(path); } else { /* add a device */ if (!S_ISBLK(info.st_mode)) { log_debug("%s: Not a block device", path); return 0; } if (!_insert_dev(path, info.st_rdev)) { stack; return 0; } r = 1; } return r; } static void _full_scan(void) { struct list *dh; if (_cache.has_scanned) return; list_iterate(dh, &_cache.dirs) { struct dir_list *dl = list_item(dh, struct dir_list); _insert_dir(dl->dir); }; _cache.has_scanned = 1; } int dev_cache_init(void) { _cache.names = NULL; if (!(_cache.mem = pool_create(10 * 1024))) { stack; return 0; } if (!(_cache.names = hash_create(128))) { stack; pool_destroy(_cache.mem); _cache.mem = 0; return 0; } if (!(_cache.devices = btree_create(_cache.mem))) { log_err("Couldn't create binary tree for dev-cache."); goto bad; } list_init(&_cache.dirs); return 1; bad: dev_cache_exit(); return 0; } void _check_closed(struct device *dev) { if (dev->fd >= 0) log_err("Device '%s' has been left open.", dev_name(dev)); } static inline void _check_for_open_devices(void) { hash_iter(_cache.names, (iterate_fn) _check_closed); } void dev_cache_exit(void) { _check_for_open_devices(); pool_destroy(_cache.mem); if (_cache.names) hash_destroy(_cache.names); } int dev_cache_add_dir(const char *path) { struct dir_list *dl; struct stat st; if (stat(path, &st)) { log_error("Ignoring %s: %s", path, strerror(errno)); /* But don't fail */ return 1; } if (!S_ISDIR(st.st_mode)) { log_error("Ignoring %s: Not a directory", path); return 1; } if (!(dl = _alloc(sizeof(*dl) + strlen(path) + 1))) return 0; strcpy(dl->dir, path); list_add(&_cache.dirs, &dl->list); return 1; } /* Check cached device name is still valid before returning it */ /* This should be a rare occurrence */ /* FIXME Make rest of code pass/cache struct device instead of dev_name */ const char *dev_name_confirmed(struct device *dev) { struct stat buf; char *name; int r; while ((r = stat(name = list_item(dev->aliases.n, struct str_list)->str, &buf)) || (buf.st_rdev != dev->dev)) { if (r < 0) log_sys_error("stat", name); log_error("Path %s no longer valid for device(%d,%d)", name, (int) MAJOR(dev->dev), (int) MINOR(dev->dev)); /* Remove the incorrect hash entry */ hash_remove(_cache.names, name); /* Leave list alone if there isn't an alternative name */ /* so dev_name will always find something to return. */ /* Otherwise add the name to the correct device. */ if (list_size(&dev->aliases) > 1) { list_del(dev->aliases.n); if (!r) _insert(name, 0); continue; } log_error("Aborting - please provide new pathname for what " "used to be %s", name); return NULL; } return dev_name(dev); } struct device *dev_cache_get(const char *name, struct dev_filter *f) { struct stat buf; struct device *d = (struct device *) hash_lookup(_cache.names, name); /* If the entry's wrong, remove it */ if (d && (stat(name, &buf) || (buf.st_rdev != d->dev))) { hash_remove(_cache.names, name); d = NULL; } if (!d) { _insert(name, 0); d = (struct device *) hash_lookup(_cache.names, name); } return (d && (!f || f->passes_filter(f, d))) ? d : NULL; } struct dev_iter *dev_iter_create(struct dev_filter *f) { struct dev_iter *di = dbg_malloc(sizeof(*di)); if (!di) return NULL; _full_scan(); di->current = btree_first(_cache.devices); di->filter = f; return di; } void dev_iter_destroy(struct dev_iter *iter) { dbg_free(iter); } static inline struct device *_iter_next(struct dev_iter *iter) { struct device *d = btree_get_data(iter->current); iter->current = btree_next(iter->current); return d; } struct device *dev_iter_get(struct dev_iter *iter) { while (iter->current) { struct device *d = _iter_next(iter); if (!iter->filter || iter->filter->passes_filter(iter->filter, d)) return d; } return NULL; }