/* * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public * License v2 as published by the Free Software Foundation. * * This program 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 this program; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 021110-1307, USA. */ #include "kerncompat.h" #include #include #include #include #include #include #include #include #include #include "kernel-lib/rbtree.h" #include "kernel-lib/rbtree_types.h" #include "kernel-shared/ctree.h" #include "common/defs.h" #include "common/rbtree-utils.h" #include "common/help.h" #include "common/messages.h" #include "common/open-utils.h" #include "common/string-utils.h" #include "common/utils.h" #include "cmds/commands.h" #include "ioctl.h" /* * Naming of options: * - uppercase for filters and sort options * - lowercase for enabling specific items in the output */ static const char * const cmd_subvolume_list_usage[] = { "btrfs subvolume list [options] ", "List subvolumes and snapshots in the filesystem.", "", "Path filtering:", OPTLINE("-o", "print only subvolumes below specified path"), OPTLINE("-a", "print all the subvolumes in the filesystem and " "distinguish absolute and relative path with respect to the given "), "", "Field selection:", OPTLINE("-p", "print parent ID"), OPTLINE("-c", "print the ogeneration of the subvolume"), OPTLINE("-g", "print the generation of the subvolume"), OPTLINE("-u", "print the uuid of subvolumes (and snapshots)"), OPTLINE("-q", "print the parent uuid of the snapshots"), OPTLINE("-R", "print the uuid of the received snapshots"), "", "Type filtering:", OPTLINE("-s", "list only snapshots"), OPTLINE("-r", "list readonly subvolumes (including snapshots)"), OPTLINE("-d", "list deleted subvolumes that are not yet cleaned"), "", "Other:", OPTLINE("-t", "print the result as a table"), "", "Sorting:", OPTLINE("-G [+|-]value", "filter the subvolumes by generation " "(+value: >= value; -value: <= value; value: = value)"), OPTLINE("-C [+|-]value", "filter the subvolumes by ogeneration " "(+value: >= value; -value: <= value; value: = value)"), OPTLINE("--sort=gen,ogen,rootid,path", "list the subvolume in order of gen, ogen, rootid or path " "you also can add '+' or '-' in front of each items. " "(+:ascending, -:descending, ascending default)"), NULL, }; #define BTRFS_LIST_NFILTERS_INCREASE (2 * BTRFS_LIST_FILTER_MAX) #define BTRFS_LIST_NCOMPS_INCREASE (2 * BTRFS_LIST_COMP_MAX) enum btrfs_list_layout { BTRFS_LIST_LAYOUT_DEFAULT = 0, BTRFS_LIST_LAYOUT_TABLE, BTRFS_LIST_LAYOUT_RAW }; /* * one of these for each root we find. */ struct root_info { struct rb_node rb_node; struct rb_node sort_node; /* this root's id */ u64 root_id; /* equal the offset of the root's key */ u64 root_offset; /* flags of the root */ u64 flags; /* the id of the root that references this one */ u64 ref_tree; /* the dir id we're in from ref_tree */ u64 dir_id; u64 top_id; /* generation when the root is created or last updated */ u64 gen; /* creation generation of this root in sec*/ u64 ogen; /* creation time of this root in sec*/ time_t otime; u8 uuid[BTRFS_UUID_SIZE]; u8 puuid[BTRFS_UUID_SIZE]; u8 ruuid[BTRFS_UUID_SIZE]; /* path from the subvol we live in to this root, including the * root's name. This is null until we do the extra lookup ioctl. */ char *path; /* the name of this root in the directory it lives in */ char *name; char *full_path; int deleted; }; typedef int (*btrfs_list_filter_func)(struct root_info *, u64); typedef int (*btrfs_list_comp_func)(const struct root_info *a, const struct root_info *b); struct btrfs_list_filter { btrfs_list_filter_func filter_func; u64 data; }; struct btrfs_list_comparer { btrfs_list_comp_func comp_func; int is_descending; }; struct btrfs_list_filter_set { int total; int nfilters; int only_deleted; struct btrfs_list_filter filters[0]; }; struct btrfs_list_comparer_set { int total; int ncomps; struct btrfs_list_comparer comps[0]; }; enum btrfs_list_column_enum { BTRFS_LIST_OBJECTID, BTRFS_LIST_GENERATION, BTRFS_LIST_OGENERATION, BTRFS_LIST_PARENT, BTRFS_LIST_TOP_LEVEL, BTRFS_LIST_OTIME, BTRFS_LIST_PUUID, BTRFS_LIST_RUUID, BTRFS_LIST_UUID, BTRFS_LIST_PATH, BTRFS_LIST_ALL, }; enum btrfs_list_filter_enum { BTRFS_LIST_FILTER_ROOTID, BTRFS_LIST_FILTER_SNAPSHOT_ONLY, BTRFS_LIST_FILTER_FLAGS, BTRFS_LIST_FILTER_GEN, BTRFS_LIST_FILTER_GEN_EQUAL = BTRFS_LIST_FILTER_GEN, BTRFS_LIST_FILTER_GEN_LESS, BTRFS_LIST_FILTER_GEN_MORE, BTRFS_LIST_FILTER_CGEN, BTRFS_LIST_FILTER_CGEN_EQUAL = BTRFS_LIST_FILTER_CGEN, BTRFS_LIST_FILTER_CGEN_LESS, BTRFS_LIST_FILTER_CGEN_MORE, BTRFS_LIST_FILTER_TOPID_EQUAL, BTRFS_LIST_FILTER_FULL_PATH, BTRFS_LIST_FILTER_BY_PARENT, BTRFS_LIST_FILTER_DELETED, BTRFS_LIST_FILTER_MAX, }; enum btrfs_list_comp_enum { BTRFS_LIST_COMP_ROOTID, BTRFS_LIST_COMP_OGEN, BTRFS_LIST_COMP_GEN, BTRFS_LIST_COMP_PATH, BTRFS_LIST_COMP_MAX, }; static inline struct root_info *to_root_info(struct rb_node *node) { return rb_entry(node, struct root_info, rb_node); } static inline struct root_info *to_root_info_sorted(struct rb_node *node) { return rb_entry(node, struct root_info, sort_node); } static struct { char *name; char *column_name; int need_print; } btrfs_list_columns[] = { { .name = "ID", .column_name = "ID", .need_print = 0, }, { .name = "gen", .column_name = "Gen", .need_print = 0, }, { .name = "cgen", .column_name = "CGen", .need_print = 0, }, { .name = "parent", .column_name = "Parent", .need_print = 0, }, { .name = "top level", .column_name = "Top Level", .need_print = 0, }, { .name = "otime", .column_name = "OTime", .need_print = 0, }, { .name = "parent_uuid", .column_name = "Parent UUID", .need_print = 0, }, { .name = "received_uuid", .column_name = "Received UUID", .need_print = 0, }, { .name = "uuid", .column_name = "UUID", .need_print = 0, }, { .name = "path", .column_name = "Path", .need_print = 0, }, { .name = NULL, .column_name = NULL, .need_print = 0, }, }; static btrfs_list_filter_func all_filter_funcs[]; static btrfs_list_comp_func all_comp_funcs[]; void btrfs_list_setup_print_column(enum btrfs_list_column_enum column) { int i; ASSERT(0 <= column && column <= BTRFS_LIST_ALL); if (column < BTRFS_LIST_ALL) { btrfs_list_columns[column].need_print = 1; return; } for (i = 0; i < BTRFS_LIST_ALL; i++) btrfs_list_columns[i].need_print = 1; } static int comp_entry_with_rootid(const struct root_info *entry1, const struct root_info *entry2) { if (entry1->root_id > entry2->root_id) return 1; else if (entry1->root_id < entry2->root_id) return -1; return 0; } static int comp_entry_with_gen(const struct root_info *entry1, const struct root_info *entry2) { if (entry1->gen > entry2->gen) return 1; else if (entry1->gen < entry2->gen) return -1; return 0; } static int comp_entry_with_ogen(const struct root_info *entry1, const struct root_info *entry2) { if (entry1->ogen > entry2->ogen) return 1; else if (entry1->ogen < entry2->ogen) return -1; return 0; } static int comp_entry_with_path(const struct root_info *entry1, const struct root_info *entry2) { if (strcmp(entry1->full_path, entry2->full_path) > 0) return 1; else if (strcmp(entry1->full_path, entry2->full_path) < 0) return -1; return 0; } static btrfs_list_comp_func all_comp_funcs[] = { [BTRFS_LIST_COMP_ROOTID] = comp_entry_with_rootid, [BTRFS_LIST_COMP_OGEN] = comp_entry_with_ogen, [BTRFS_LIST_COMP_GEN] = comp_entry_with_gen, [BTRFS_LIST_COMP_PATH] = comp_entry_with_path, }; static char *all_sort_items[] = { [BTRFS_LIST_COMP_ROOTID] = "rootid", [BTRFS_LIST_COMP_OGEN] = "ogen", [BTRFS_LIST_COMP_GEN] = "gen", [BTRFS_LIST_COMP_PATH] = "path", [BTRFS_LIST_COMP_MAX] = NULL, }; static int btrfs_list_get_sort_item(char *sort_name) { int i; for (i = 0; i < BTRFS_LIST_COMP_MAX; i++) { if (strcmp(sort_name, all_sort_items[i]) == 0) return i; } return -1; } static int btrfs_list_setup_comparer(struct btrfs_list_comparer_set **comp_set, enum btrfs_list_comp_enum comparer, int is_descending) { struct btrfs_list_comparer_set *set = *comp_set; int size; ASSERT(set != NULL); ASSERT(comparer < BTRFS_LIST_COMP_MAX); ASSERT(set->ncomps <= set->total); if (set->ncomps == set->total) { void *tmp; size = set->total + BTRFS_LIST_NCOMPS_INCREASE; size = sizeof(*set) + size * sizeof(struct btrfs_list_comparer); tmp = set; set = realloc(set, size); if (!set) { error_msg(ERROR_MSG_MEMORY, NULL); free(tmp); exit(1); } memset(&set->comps[set->total], 0, BTRFS_LIST_NCOMPS_INCREASE * sizeof(struct btrfs_list_comparer)); set->total += BTRFS_LIST_NCOMPS_INCREASE; *comp_set = set; } ASSERT(set->comps[set->ncomps].comp_func == NULL); set->comps[set->ncomps].comp_func = all_comp_funcs[comparer]; set->comps[set->ncomps].is_descending = is_descending; set->ncomps++; return 0; } static int sort_comp(const struct root_info *entry1, const struct root_info *entry2, struct btrfs_list_comparer_set *set) { bool rootid_compared = false; int i, ret = 0; if (!set || !set->ncomps) return comp_entry_with_rootid(entry1, entry2); for (i = 0; i < set->ncomps; i++) { if (!set->comps[i].comp_func) break; ret = set->comps[i].comp_func(entry1, entry2); if (set->comps[i].is_descending) ret = -ret; if (ret) return ret; if (set->comps[i].comp_func == comp_entry_with_rootid) rootid_compared = true; } if (!rootid_compared) ret = comp_entry_with_rootid(entry1, entry2); return ret; } static int sort_tree_insert(struct rb_root *sort_tree, struct root_info *ins, struct btrfs_list_comparer_set *comp_set) { struct rb_node **p = &sort_tree->rb_node; struct rb_node *parent = NULL; struct root_info *curr; int ret; while (*p) { parent = *p; curr = to_root_info_sorted(parent); ret = sort_comp(ins, curr, comp_set); if (ret < 0) p = &(*p)->rb_left; else if (ret > 0) p = &(*p)->rb_right; else return -EEXIST; } rb_link_node(&ins->sort_node, parent, p); rb_insert_color(&ins->sort_node, sort_tree); return 0; } /* * insert a new root into the tree. returns the existing root entry * if one is already there. Both root_id and ref_tree are used * as the key */ static int root_tree_insert(struct rb_root *root_tree, struct root_info *ins) { struct rb_node **p = &root_tree->rb_node; struct rb_node * parent = NULL; struct root_info *curr; int ret; while(*p) { parent = *p; curr = to_root_info(parent); ret = comp_entry_with_rootid(ins, curr); if (ret < 0) p = &(*p)->rb_left; else if (ret > 0) p = &(*p)->rb_right; else return -EEXIST; } rb_link_node(&ins->rb_node, parent, p); rb_insert_color(&ins->rb_node, root_tree); return 0; } /* * find a given root id in the tree. We return the smallest one, * rb_next can be used to move forward looking for more if required */ static struct root_info *root_tree_search(struct rb_root *root_tree, u64 root_id) { struct rb_node *n = root_tree->rb_node; struct root_info *entry; struct root_info tmp; int ret; tmp.root_id = root_id; while(n) { entry = to_root_info(n); ret = comp_entry_with_rootid(&tmp, entry); if (ret < 0) n = n->rb_left; else if (ret > 0) n = n->rb_right; else return entry; } return NULL; } static int update_root(struct rb_root *root_lookup, u64 root_id, u64 ref_tree, u64 root_offset, u64 flags, u64 dir_id, char *name, int name_len, u64 ogen, u64 gen, time_t otime, u8 *uuid, u8 *puuid, u8 *ruuid) { struct root_info *ri; ri = root_tree_search(root_lookup, root_id); if (!ri || ri->root_id != root_id) return -ENOENT; if (name && name_len > 0) { free(ri->name); ri->name = malloc(name_len + 1); if (!ri->name) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } strncpy(ri->name, name, name_len); ri->name[name_len] = 0; } if (ref_tree) ri->ref_tree = ref_tree; if (root_offset) ri->root_offset = root_offset; if (flags) ri->flags = flags; if (dir_id) ri->dir_id = dir_id; if (gen) ri->gen = gen; if (ogen) ri->ogen = ogen; if (!ri->ogen && root_offset) ri->ogen = root_offset; if (otime) ri->otime = otime; if (uuid) memcpy(&ri->uuid, uuid, BTRFS_UUID_SIZE); if (puuid) memcpy(&ri->puuid, puuid, BTRFS_UUID_SIZE); if (ruuid) memcpy(&ri->ruuid, ruuid, BTRFS_UUID_SIZE); return 0; } /* * add_root - update the existed root, or allocate a new root and insert it * into the lookup tree. * root_id: object id of the root * ref_tree: object id of the referring root. * root_offset: offset value of the root'key * dir_id: inode id of the directory in ref_tree where this root can be found. * name: the name of root_id in that directory * name_len: the length of name * ogen: the original generation of the root * gen: the current generation of the root * otime: the original time (creation time) of the root * uuid: uuid of the root * puuid: uuid of the root parent if any * ruuid: uuid of the received subvol, if any */ static int add_root(struct rb_root *root_lookup, u64 root_id, u64 ref_tree, u64 root_offset, u64 flags, u64 dir_id, char *name, int name_len, u64 ogen, u64 gen, time_t otime, u8 *uuid, u8 *puuid, u8 *ruuid) { struct root_info *ri; int ret; ret = update_root(root_lookup, root_id, ref_tree, root_offset, flags, dir_id, name, name_len, ogen, gen, otime, uuid, puuid, ruuid); if (!ret) return 0; ri = calloc(1, sizeof(*ri)); if (!ri) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } ri->root_id = root_id; if (name && name_len > 0) { ri->name = malloc(name_len + 1); if (!ri->name) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } strncpy(ri->name, name, name_len); ri->name[name_len] = 0; } if (ref_tree) ri->ref_tree = ref_tree; if (dir_id) ri->dir_id = dir_id; if (root_offset) ri->root_offset = root_offset; if (flags) ri->flags = flags; if (gen) ri->gen = gen; if (ogen) ri->ogen = ogen; if (!ri->ogen && root_offset) ri->ogen = root_offset; if (otime) ri->otime = otime; if (uuid) memcpy(&ri->uuid, uuid, BTRFS_UUID_SIZE); if (puuid) memcpy(&ri->puuid, puuid, BTRFS_UUID_SIZE); if (ruuid) memcpy(&ri->ruuid, ruuid, BTRFS_UUID_SIZE); ret = root_tree_insert(root_lookup, ri); if (ret < 0) { errno = -ret; error("failed to insert subvolume %llu to tree: %m", root_id); exit(1); } return 0; } /* * Simplified add_root for back references, omits the uuid and original info * parameters, root offset and flags. */ static int add_root_backref(struct rb_root *root_lookup, u64 root_id, u64 ref_tree, u64 dir_id, char *name, int name_len) { return add_root(root_lookup, root_id, ref_tree, 0, 0, dir_id, name, name_len, 0, 0, 0, NULL, NULL, NULL); } static void free_root_info(struct rb_node *node) { struct root_info *ri; ri = to_root_info(node); free(ri->name); free(ri->path); free(ri->full_path); free(ri); } /* * for a given root_info, search through the root_lookup tree to construct * the full path name to it. * * This can't be called until all the root_info->path fields are filled * in by lookup_ino_path */ static int resolve_root(struct rb_root *rl, struct root_info *ri, u64 top_id) { char *full_path = NULL; int len = 0; struct root_info *found; /* * we go backwards from the root_info object and add pathnames * from parent directories as we go. */ found = ri; while (1) { char *tmp; u64 next; int add_len; /* * ref_tree = 0 indicates the subvolume * has been deleted. */ if (!found->ref_tree) { free(full_path); return -ENOENT; } add_len = strlen(found->path); if (full_path) { /* room for / and for null */ tmp = malloc(add_len + 2 + len); if (!tmp) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } memcpy(tmp + add_len + 1, full_path, len); tmp[add_len] = '/'; memcpy(tmp, found->path, add_len); tmp [add_len + len + 1] = '\0'; free(full_path); full_path = tmp; len += add_len + 1; } else { full_path = strdup(found->path); len = add_len; } if (!ri->top_id) ri->top_id = found->ref_tree; next = found->ref_tree; if (next == top_id) break; /* * if the ref_tree = BTRFS_FS_TREE_OBJECTID, * we are at the top */ if (next == BTRFS_FS_TREE_OBJECTID) break; /* * if the ref_tree wasn't in our tree of roots, the * subvolume was deleted. */ found = root_tree_search(rl, next); if (!found) { free(full_path); return -ENOENT; } } ri->full_path = full_path; return 0; } /* * for a single root_info, ask the kernel to give us a path name * inside it's ref_root for the dir_id where it lives. * * This fills in root_info->path with the path to the directory and and * appends this root's name. */ static int lookup_ino_path(int fd, struct root_info *ri) { struct btrfs_ioctl_ino_lookup_args args; int ret; if (ri->path) return 0; if (!ri->ref_tree) return -ENOENT; memset(&args, 0, sizeof(args)); args.treeid = ri->ref_tree; args.objectid = ri->dir_id; ret = ioctl(fd, BTRFS_IOC_INO_LOOKUP, &args); if (ret < 0) { if (errno == ENOENT) { ri->ref_tree = 0; return -ENOENT; } error("failed to lookup path for root %llu: %m", ri->ref_tree); return ret; } if (args.name[0]) { /* * we're in a subdirectory of ref_tree, the kernel ioctl * puts a / in there for us */ ri->path = malloc(strlen(ri->name) + strlen(args.name) + 1); if (!ri->path) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } strcpy(ri->path, args.name); strcat(ri->path, ri->name); } else { /* we're at the root of ref_tree */ ri->path = strdup(ri->name); if (!ri->path) { perror("strdup failed"); exit(1); } } return 0; } static int list_subvol_search(int fd, struct rb_root *root_lookup) { int ret; struct btrfs_ioctl_search_args args; struct btrfs_ioctl_search_key *sk = &args.key; struct btrfs_ioctl_search_header sh; struct btrfs_root_ref *ref; struct btrfs_root_item *ri; unsigned long off; int name_len; char *name; u64 dir_id; u64 gen = 0; u64 ogen; u64 flags; int i; root_lookup->rb_node = NULL; memset(&args, 0, sizeof(args)); sk->tree_id = BTRFS_ROOT_TREE_OBJECTID; /* Search both live and deleted subvolumes */ sk->min_type = BTRFS_ROOT_ITEM_KEY; sk->max_type = BTRFS_ROOT_BACKREF_KEY; sk->min_objectid = BTRFS_FS_TREE_OBJECTID; sk->max_objectid = BTRFS_LAST_FREE_OBJECTID; sk->max_offset = (u64)-1; sk->max_transid = (u64)-1; while(1) { sk->nr_items = 4096; ret = ioctl(fd, BTRFS_IOC_TREE_SEARCH, &args); if (ret < 0) return ret; if (sk->nr_items == 0) break; off = 0; /* * for each item, pull the key out of the header and then * read the root_ref item it contains */ for (i = 0; i < sk->nr_items; i++) { memcpy(&sh, args.buf + off, sizeof(sh)); off += sizeof(sh); if (sh.type == BTRFS_ROOT_BACKREF_KEY) { ref = (struct btrfs_root_ref *)(args.buf + off); name_len = btrfs_stack_root_ref_name_len(ref); name = (char *)(ref + 1); dir_id = btrfs_stack_root_ref_dirid(ref); add_root_backref(root_lookup, sh.objectid, sh.offset, dir_id, name, name_len); } else if (sh.type == BTRFS_ROOT_ITEM_KEY && (sh.objectid >= BTRFS_FIRST_FREE_OBJECTID || sh.objectid == BTRFS_FS_TREE_OBJECTID)) { time_t otime; u8 uuid[BTRFS_UUID_SIZE]; u8 puuid[BTRFS_UUID_SIZE]; u8 ruuid[BTRFS_UUID_SIZE]; ri = (struct btrfs_root_item *)(args.buf + off); gen = btrfs_root_generation(ri); flags = btrfs_root_flags(ri); if(sh.len >= sizeof(struct btrfs_root_item)) { /* * The new full btrfs_root_item with * timestamp and UUID. */ otime = btrfs_stack_timespec_sec(&ri->otime); ogen = btrfs_root_otransid(ri); memcpy(uuid, ri->uuid, BTRFS_UUID_SIZE); memcpy(puuid, ri->parent_uuid, BTRFS_UUID_SIZE); memcpy(ruuid, ri->received_uuid, BTRFS_UUID_SIZE); } else { /* * The old v0 root item, which doesn't * have timestamp nor UUID. */ otime = 0; ogen = 0; memset(uuid, 0, BTRFS_UUID_SIZE); memset(puuid, 0, BTRFS_UUID_SIZE); memset(ruuid, 0, BTRFS_UUID_SIZE); } add_root(root_lookup, sh.objectid, 0, sh.offset, flags, 0, NULL, 0, ogen, gen, otime, uuid, puuid, ruuid); } off += sh.len; sk->min_objectid = sh.objectid; sk->min_type = sh.type; sk->min_offset = sh.offset; } sk->min_offset++; if (!sk->min_offset) sk->min_type++; else continue; if (sk->min_type > BTRFS_ROOT_BACKREF_KEY) { sk->min_type = BTRFS_ROOT_ITEM_KEY; sk->min_objectid++; } else continue; if (sk->min_objectid > sk->max_objectid) break; } return 0; } static int filter_by_rootid(struct root_info *ri, u64 data) { return ri->root_id == data; } static int filter_snapshot(struct root_info *ri, u64 data) { return !!ri->root_offset; } static int filter_flags(struct root_info *ri, u64 flags) { return ri->flags & flags; } static int filter_gen_more(struct root_info *ri, u64 data) { return ri->gen >= data; } static int filter_gen_less(struct root_info *ri, u64 data) { return ri->gen <= data; } static int filter_gen_equal(struct root_info *ri, u64 data) { return ri->gen == data; } static int filter_cgen_more(struct root_info *ri, u64 data) { return ri->ogen >= data; } static int filter_cgen_less(struct root_info *ri, u64 data) { return ri->ogen <= data; } static int filter_cgen_equal(struct root_info *ri, u64 data) { return ri->ogen == data; } static int filter_topid_equal(struct root_info *ri, u64 data) { return ri->top_id == data; } static int filter_full_path(struct root_info *ri, u64 data) { if (ri->full_path && ri->top_id != data) { char *tmp; char p[] = ""; int add_len = strlen(p); int len = strlen(ri->full_path); tmp = malloc(len + add_len + 2); if (!tmp) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } memcpy(tmp + add_len + 1, ri->full_path, len); tmp[len + add_len + 1] = '\0'; tmp[add_len] = '/'; memcpy(tmp, p, add_len); free(ri->full_path); ri->full_path = tmp; } return 1; } static int filter_by_parent(struct root_info *ri, u64 data) { return !uuid_compare(ri->puuid, (u8 *)(unsigned long)data); } static int filter_deleted(struct root_info *ri, u64 data) { return ri->deleted; } static btrfs_list_filter_func all_filter_funcs[] = { [BTRFS_LIST_FILTER_ROOTID] = filter_by_rootid, [BTRFS_LIST_FILTER_SNAPSHOT_ONLY] = filter_snapshot, [BTRFS_LIST_FILTER_FLAGS] = filter_flags, [BTRFS_LIST_FILTER_GEN_MORE] = filter_gen_more, [BTRFS_LIST_FILTER_GEN_LESS] = filter_gen_less, [BTRFS_LIST_FILTER_GEN_EQUAL] = filter_gen_equal, [BTRFS_LIST_FILTER_CGEN_MORE] = filter_cgen_more, [BTRFS_LIST_FILTER_CGEN_LESS] = filter_cgen_less, [BTRFS_LIST_FILTER_CGEN_EQUAL] = filter_cgen_equal, [BTRFS_LIST_FILTER_TOPID_EQUAL] = filter_topid_equal, [BTRFS_LIST_FILTER_FULL_PATH] = filter_full_path, [BTRFS_LIST_FILTER_BY_PARENT] = filter_by_parent, [BTRFS_LIST_FILTER_DELETED] = filter_deleted, }; /* * Setup list filters. Exit if there's not enough memory, as we can't continue * without the structures set up properly. */ static void btrfs_list_setup_filter(struct btrfs_list_filter_set **filter_set, enum btrfs_list_filter_enum filter, u64 data) { struct btrfs_list_filter_set *set = *filter_set; int size; ASSERT(set != NULL); ASSERT(filter < BTRFS_LIST_FILTER_MAX); ASSERT(set->nfilters <= set->total); if (set->nfilters == set->total) { void *tmp; size = set->total + BTRFS_LIST_NFILTERS_INCREASE; size = sizeof(*set) + size * sizeof(struct btrfs_list_filter); tmp = set; set = realloc(set, size); if (!set) { error_msg(ERROR_MSG_MEMORY, NULL); free(tmp); exit(1); } memset(&set->filters[set->total], 0, BTRFS_LIST_NFILTERS_INCREASE * sizeof(struct btrfs_list_filter)); set->total += BTRFS_LIST_NFILTERS_INCREASE; *filter_set = set; } ASSERT(set->filters[set->nfilters].filter_func == NULL); if (filter == BTRFS_LIST_FILTER_DELETED) set->only_deleted = 1; set->filters[set->nfilters].filter_func = all_filter_funcs[filter]; set->filters[set->nfilters].data = data; set->nfilters++; } static int filter_root(struct root_info *ri, struct btrfs_list_filter_set *set) { int i, ret; if (!set) return 1; if (set->only_deleted && !ri->deleted) return 0; if (!set->only_deleted && ri->deleted) return 0; for (i = 0; i < set->nfilters; i++) { if (!set->filters[i].filter_func) break; ret = set->filters[i].filter_func(ri, set->filters[i].data); if (!ret) return 0; } return 1; } static void filter_and_sort_subvol(struct rb_root *all_subvols, struct rb_root *sort_tree, struct btrfs_list_filter_set *filter_set, struct btrfs_list_comparer_set *comp_set, u64 top_id) { struct rb_node *n; struct root_info *entry; int ret; sort_tree->rb_node = NULL; n = rb_last(all_subvols); while (n) { entry = to_root_info(n); ret = resolve_root(all_subvols, entry, top_id); if (ret == -ENOENT) { if (entry->root_id != BTRFS_FS_TREE_OBJECTID) { entry->full_path = strdup("DELETED"); entry->deleted = 1; } else { /* * The full path is not supposed to be printed, * but we don't want to print an empty string, * in case it appears somewhere. */ entry->full_path = strdup("TOPLEVEL"); entry->deleted = 0; } } ret = filter_root(entry, filter_set); if (ret) sort_tree_insert(sort_tree, entry, comp_set); n = rb_prev(n); } } static void print_subvolume_column(struct root_info *subv, enum btrfs_list_column_enum column) { char tstr[256]; char uuidparse[BTRFS_UUID_UNPARSED_SIZE]; ASSERT(0 <= column && column < BTRFS_LIST_ALL); switch (column) { case BTRFS_LIST_OBJECTID: pr_verbose(LOG_DEFAULT, "%llu", subv->root_id); break; case BTRFS_LIST_GENERATION: pr_verbose(LOG_DEFAULT, "%llu", subv->gen); break; case BTRFS_LIST_OGENERATION: pr_verbose(LOG_DEFAULT, "%llu", subv->ogen); break; case BTRFS_LIST_PARENT: pr_verbose(LOG_DEFAULT, "%llu", subv->ref_tree); break; case BTRFS_LIST_TOP_LEVEL: pr_verbose(LOG_DEFAULT, "%llu", subv->top_id); break; case BTRFS_LIST_OTIME: if (subv->otime) { struct tm tm; localtime_r(&subv->otime, &tm); strftime(tstr, 256, "%Y-%m-%d %X", &tm); } else strcpy(tstr, "-"); pr_verbose(LOG_DEFAULT, "%s", tstr); break; case BTRFS_LIST_UUID: if (uuid_is_null(subv->uuid)) strcpy(uuidparse, "-"); else uuid_unparse(subv->uuid, uuidparse); pr_verbose(LOG_DEFAULT, "%-36s", uuidparse); break; case BTRFS_LIST_PUUID: if (uuid_is_null(subv->puuid)) strcpy(uuidparse, "-"); else uuid_unparse(subv->puuid, uuidparse); pr_verbose(LOG_DEFAULT, "%-36s", uuidparse); break; case BTRFS_LIST_RUUID: if (uuid_is_null(subv->ruuid)) strcpy(uuidparse, "-"); else uuid_unparse(subv->ruuid, uuidparse); pr_verbose(LOG_DEFAULT, "%-36s", uuidparse); break; case BTRFS_LIST_PATH: BUG_ON(!subv->full_path); pr_verbose(LOG_DEFAULT, "%s", subv->full_path); break; default: break; } } static void print_one_subvol_info_raw(struct root_info *subv, const char *raw_prefix) { int i; for (i = 0; i < BTRFS_LIST_ALL; i++) { if (!btrfs_list_columns[i].need_print) continue; if (raw_prefix) pr_verbose(LOG_DEFAULT, "%s",raw_prefix); print_subvolume_column(subv, i); } pr_verbose(LOG_DEFAULT, "\n"); } static void print_one_subvol_info_table(struct root_info *subv) { int i; for (i = 0; i < BTRFS_LIST_ALL; i++) { if (!btrfs_list_columns[i].need_print) continue; print_subvolume_column(subv, i); if (i != BTRFS_LIST_PATH) pr_verbose(LOG_DEFAULT, "\t"); if (i == BTRFS_LIST_TOP_LEVEL) pr_verbose(LOG_DEFAULT, "\t"); } pr_verbose(LOG_DEFAULT, "\n"); } static void print_one_subvol_info_default(struct root_info *subv) { int i; for (i = 0; i < BTRFS_LIST_ALL; i++) { if (!btrfs_list_columns[i].need_print) continue; pr_verbose(LOG_DEFAULT, "%s ", btrfs_list_columns[i].name); print_subvolume_column(subv, i); if (i != BTRFS_LIST_PATH) pr_verbose(LOG_DEFAULT, " "); } pr_verbose(LOG_DEFAULT, "\n"); } static void print_all_subvol_info_tab_head(void) { int i; int len; char barrier[20]; for (i = 0; i < BTRFS_LIST_ALL; i++) { if (btrfs_list_columns[i].need_print) pr_verbose(LOG_DEFAULT, "%s\t", btrfs_list_columns[i].name); if (i == BTRFS_LIST_ALL-1) pr_verbose(LOG_DEFAULT, "\n"); } for (i = 0; i < BTRFS_LIST_ALL; i++) { memset(barrier, 0, sizeof(barrier)); if (btrfs_list_columns[i].need_print) { len = strlen(btrfs_list_columns[i].name); while (len--) strcat(barrier, "-"); pr_verbose(LOG_DEFAULT, "%s\t", barrier); } if (i == BTRFS_LIST_ALL-1) pr_verbose(LOG_DEFAULT, "\n"); } } static void print_all_subvol_info(struct rb_root *sorted_tree, enum btrfs_list_layout layout, const char *raw_prefix) { struct rb_node *n; struct root_info *entry; if (layout == BTRFS_LIST_LAYOUT_TABLE) print_all_subvol_info_tab_head(); n = rb_first(sorted_tree); while (n) { entry = to_root_info_sorted(n); /* The toplevel subvolume is not listed by default */ if (entry->root_id == BTRFS_FS_TREE_OBJECTID) goto next; switch (layout) { case BTRFS_LIST_LAYOUT_DEFAULT: print_one_subvol_info_default(entry); break; case BTRFS_LIST_LAYOUT_TABLE: print_one_subvol_info_table(entry); break; case BTRFS_LIST_LAYOUT_RAW: print_one_subvol_info_raw(entry, raw_prefix); break; } next: n = rb_next(n); } } static int btrfs_list_subvols(int fd, struct rb_root *root_lookup) { int ret; struct rb_node *n; ret = list_subvol_search(fd, root_lookup); if (ret) { error("can't perform the search: %m"); return ret; } /* * now we have an rbtree full of root_info objects, but we need to fill * in their path names within the subvol that is referencing each one. */ n = rb_first(root_lookup); while (n) { struct root_info *entry; int ret; entry = to_root_info(n); ret = lookup_ino_path(fd, entry); if (ret && ret != -ENOENT) return ret; n = rb_next(n); } return 0; } static int btrfs_list_subvols_print(int fd, struct btrfs_list_filter_set *filter_set, struct btrfs_list_comparer_set *comp_set, enum btrfs_list_layout layout, int full_path, const char *raw_prefix) { struct rb_root root_lookup; struct rb_root root_sort; int ret = 0; u64 top_id = 0; if (full_path) { ret = lookup_path_rootid(fd, &top_id); if (ret) { errno = -ret; error("cannot resolve rootid for path: %m"); return ret; } } ret = btrfs_list_subvols(fd, &root_lookup); if (ret) return ret; filter_and_sort_subvol(&root_lookup, &root_sort, filter_set, comp_set, top_id); print_all_subvol_info(&root_sort, layout, raw_prefix); rb_free_nodes(&root_lookup, free_root_info); return 0; } static int btrfs_list_parse_sort_string(char *opt_arg, struct btrfs_list_comparer_set **comps) { bool order; bool flag; char *p; char **ptr_argv; int what_to_sort; while ((p = strtok(opt_arg, ",")) != NULL) { flag = false; ptr_argv = all_sort_items; while (*ptr_argv) { if (strcmp(*ptr_argv, p) == 0) { flag = true; break; } else { p++; if (strcmp(*ptr_argv, p) == 0) { flag = true; p--; break; } p--; } ptr_argv++; } if (flag == false) return -1; else { if (*p == '+') { order = false; p++; } else if (*p == '-') { order = true; p++; } else order = false; what_to_sort = btrfs_list_get_sort_item(p); btrfs_list_setup_comparer(comps, what_to_sort, order); } opt_arg = NULL; } return 0; } /* * This function is used to parse the argument of filter condition. * * type is the filter object. */ static int btrfs_list_parse_filter_string(char *opt_arg, struct btrfs_list_filter_set **filters, enum btrfs_list_filter_enum type) { u64 arg; switch (*(opt_arg++)) { case '+': arg = arg_strtou64(opt_arg); type += 2; btrfs_list_setup_filter(filters, type, arg); break; case '-': arg = arg_strtou64(opt_arg); type += 1; btrfs_list_setup_filter(filters, type, arg); break; default: opt_arg--; arg = arg_strtou64(opt_arg); btrfs_list_setup_filter(filters, type, arg); break; } return 0; } static struct btrfs_list_filter_set *btrfs_list_alloc_filter_set(void) { struct btrfs_list_filter_set *set; int size; size = sizeof(struct btrfs_list_filter_set) + BTRFS_LIST_NFILTERS_INCREASE * sizeof(struct btrfs_list_filter); set = calloc(1, size); if (!set) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } set->total = BTRFS_LIST_NFILTERS_INCREASE; return set; } static struct btrfs_list_comparer_set *btrfs_list_alloc_comparer_set(void) { struct btrfs_list_comparer_set *set; int size; size = sizeof(struct btrfs_list_comparer_set) + BTRFS_LIST_NCOMPS_INCREASE * sizeof(struct btrfs_list_comparer); set = calloc(1, size); if (!set) { error_msg(ERROR_MSG_MEMORY, NULL); exit(1); } set->total = BTRFS_LIST_NCOMPS_INCREASE; return set; } static int cmd_subvolume_list(const struct cmd_struct *cmd, int argc, char **argv) { struct btrfs_list_filter_set *filter_set; struct btrfs_list_comparer_set *comparer_set; u64 flags = 0; int fd = -1; u64 top_id; int ret = -1, uerr = 0; char *subvol; bool is_list_all = false; bool is_only_in_path = false; DIR *dirstream = NULL; enum btrfs_list_layout layout = BTRFS_LIST_LAYOUT_DEFAULT; filter_set = btrfs_list_alloc_filter_set(); comparer_set = btrfs_list_alloc_comparer_set(); optind = 0; while(1) { int c; static const struct option long_options[] = { {"sort", required_argument, NULL, 'S'}, {NULL, 0, NULL, 0} }; c = getopt_long(argc, argv, "acdgopqsurRG:C:t", long_options, NULL); if (c < 0) break; switch(c) { case 'p': btrfs_list_setup_print_column(BTRFS_LIST_PARENT); break; case 'a': is_list_all = true; break; case 'c': btrfs_list_setup_print_column(BTRFS_LIST_OGENERATION); break; case 'd': btrfs_list_setup_filter(&filter_set, BTRFS_LIST_FILTER_DELETED, 0); break; case 'g': btrfs_list_setup_print_column(BTRFS_LIST_GENERATION); break; case 'o': is_only_in_path = true; break; case 't': layout = BTRFS_LIST_LAYOUT_TABLE; break; case 's': btrfs_list_setup_filter(&filter_set, BTRFS_LIST_FILTER_SNAPSHOT_ONLY, 0); btrfs_list_setup_print_column(BTRFS_LIST_OGENERATION); btrfs_list_setup_print_column(BTRFS_LIST_OTIME); break; case 'u': btrfs_list_setup_print_column(BTRFS_LIST_UUID); break; case 'q': btrfs_list_setup_print_column(BTRFS_LIST_PUUID); break; case 'R': btrfs_list_setup_print_column(BTRFS_LIST_RUUID); break; case 'r': flags |= BTRFS_ROOT_SUBVOL_RDONLY; break; case 'G': btrfs_list_setup_print_column(BTRFS_LIST_GENERATION); ret = btrfs_list_parse_filter_string(optarg, &filter_set, BTRFS_LIST_FILTER_GEN); if (ret) { uerr = 1; goto out; } break; case 'C': btrfs_list_setup_print_column(BTRFS_LIST_OGENERATION); ret = btrfs_list_parse_filter_string(optarg, &filter_set, BTRFS_LIST_FILTER_CGEN); if (ret) { uerr = 1; goto out; } break; case 'S': ret = btrfs_list_parse_sort_string(optarg, &comparer_set); if (ret) { uerr = 1; goto out; } break; default: uerr = 1; goto out; } } if (check_argc_exact(argc - optind, 1)) goto out; subvol = argv[optind]; fd = btrfs_open_dir(subvol, &dirstream, 1); if (fd < 0) { ret = -1; error("can't access '%s'", subvol); goto out; } if (flags) btrfs_list_setup_filter(&filter_set, BTRFS_LIST_FILTER_FLAGS, flags); ret = lookup_path_rootid(fd, &top_id); if (ret) { errno = -ret; error("cannot resolve rootid for path: %m"); goto out; } if (is_list_all) btrfs_list_setup_filter(&filter_set, BTRFS_LIST_FILTER_FULL_PATH, top_id); else if (is_only_in_path) btrfs_list_setup_filter(&filter_set, BTRFS_LIST_FILTER_TOPID_EQUAL, top_id); /* by default we shall print the following columns*/ btrfs_list_setup_print_column(BTRFS_LIST_OBJECTID); btrfs_list_setup_print_column(BTRFS_LIST_GENERATION); btrfs_list_setup_print_column(BTRFS_LIST_TOP_LEVEL); btrfs_list_setup_print_column(BTRFS_LIST_PATH); ret = btrfs_list_subvols_print(fd, filter_set, comparer_set, layout, !is_list_all && !is_only_in_path, NULL); out: close_file_or_dir(fd, dirstream); if (filter_set) free(filter_set); if (comparer_set) free(comparer_set); if (uerr) usage(cmd, 1); return !!ret; } DEFINE_SIMPLE_COMMAND(subvolume_list, "list");