/* Copyright (c) 2014 Red Hat, Inc. This file is part of GlusterFS. This file is licensed to you under your choice of the GNU Lesser General Public License, version 3 or any later version (LGPLv3 or later), or the GNU General Public License, version 2 (GPLv2), in all cases as published by the Free Software Foundation. */ #include #include #include #include "glfs.h" #include "glfs-handles.h" #include "glfs-internal.h" #include "protocol-common.h" #include "syscall.h" #include "syncop.h" #include "syncop-utils.h" #include #include #include "glusterfs.h" #define DEFAULT_HEAL_LOG_FILE_DIRECTORY DATADIR "/log/glusterfs" #define USAGE_STR "Usage: %s [bigger-file | "\ "latest-mtime | "\ "source-brick [] | "\ "split-brain-info]\n" typedef void (*print_status) (dict_t *, char *, uuid_t, uint64_t *, gf_boolean_t flag); int glfsh_heal_splitbrain_file (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, char *file, dict_t *xattr_req); int glfsh_link_inode_update_loc (loc_t *loc, struct iatt *iattr) { inode_t *link_inode = NULL; int ret = -1; link_inode = inode_link (loc->inode, NULL, NULL, iattr); if (link_inode == NULL) goto out; inode_unref (loc->inode); loc->inode = link_inode; ret = 0; out: return ret; } void glfsh_print_heal_op_status (int ret, uint64_t num_entries, gf_xl_afr_op_t heal_op) { char *fmt_str = NULL; if (heal_op == GF_SHD_OP_INDEX_SUMMARY) fmt_str = "Number of entries:"; else if (heal_op == GF_SHD_OP_SPLIT_BRAIN_FILES) fmt_str = "Number of entries in split-brain:"; else if (heal_op == GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK) fmt_str = "Number of healed entries:"; if (ret < 0 && num_entries == 0) { printf ("Status: %s\n", strerror (-ret)); if (fmt_str) printf ("%s -\n", fmt_str); return; } else if (ret == 0) { printf ("Status: Connected\n"); } if (ret < 0) { if (fmt_str) printf ("Status: Failed to process entries completely. " "(%s)\n%s: %"PRIu64"\n", strerror (-ret), fmt_str, num_entries); } else { if (fmt_str) printf ("%s %"PRIu64"\n", fmt_str, num_entries); } return; } int glfsh_get_index_dir_loc (loc_t *rootloc, xlator_t *xl, loc_t *dirloc, int32_t *op_errno, char *vgfid) { void *index_gfid = NULL; int ret = 0; dict_t *xattr = NULL; struct iatt iattr = {0}; struct iatt parent = {0}; ret = syncop_getxattr (xl, rootloc, &xattr, vgfid, NULL, NULL); if (ret < 0) { *op_errno = -ret; goto out; } ret = dict_get_ptr (xattr, vgfid, &index_gfid); if (ret < 0) { *op_errno = EINVAL; goto out; } gf_uuid_copy (dirloc->gfid, index_gfid); dirloc->path = ""; dirloc->inode = inode_new (rootloc->inode->table); ret = syncop_lookup (xl, dirloc, &iattr, &parent, NULL, NULL); dirloc->path = NULL; if (ret < 0) { *op_errno = -ret; goto out; } ret = glfsh_link_inode_update_loc (dirloc, &iattr); if (ret) goto out; glfs_loc_touchup (dirloc); ret = 0; out: if (xattr) dict_unref (xattr); return ret; } static xlator_t* _get_ancestor (xlator_t *xl, gf_xl_afr_op_t heal_op) { static char *replica_xl[] = {"cluster/replicate", NULL}; static char *heal_xls[] = {"cluster/replicate", "cluster/disperse", NULL}; char **ancestors = NULL; if (heal_op == GF_SHD_OP_INDEX_SUMMARY) ancestors = heal_xls; else ancestors = replica_xl; if (!xl || !xl->parents) return NULL; while (xl->parents) { xl = xl->parents->xlator; if (!xl) break; if (gf_get_index_by_elem (ancestors, xl->type) != -1) return xl; } return NULL; } int glfsh_index_purge (xlator_t *subvol, inode_t *inode, char *name) { loc_t loc = {0, }; int ret = 0; loc.parent = inode_ref (inode); loc.name = name; ret = syncop_unlink (subvol, &loc, NULL, NULL); loc_wipe (&loc); return ret; } void glfsh_print_spb_status (dict_t *dict, char *path, uuid_t gfid, uint64_t *num_entries, gf_boolean_t flag) { int ret = 0; gf_boolean_t pending = _gf_false; gf_boolean_t split_b = _gf_false; char *value = NULL; ret = dict_get_str (dict, "heal-info", &value); if (ret) return; if (!strcmp (value, "split-brain")) { split_b = _gf_true; } else if (!strcmp (value, "split-brain-pending")) { split_b = _gf_true; pending = _gf_true; } /* Consider the entry only iff : * 1) The dir being processed is not indices/dirty, indicated by * flag == _gf_false * 2) The dir being processed is indices/dirty but the entry also * exists in indices/xattrop dir and has already been processed. */ if (split_b) { if (!flag || (flag && !pending)) { (*num_entries)++; printf ("%s\n", path ? path : uuid_utoa (gfid)); } } return; } void glfsh_print_heal_status (dict_t *dict, char *path, uuid_t gfid, uint64_t *num_entries, gf_boolean_t ignore_dirty) { int ret = 0; gf_boolean_t pending = _gf_false; char *status = NULL; char *value = NULL; ret = dict_get_str (dict, "heal-info", &value); if (ret || (!strcmp (value, "no-heal"))) return; if (!strcmp (value, "heal")) { ret = gf_asprintf (&status, " "); if (ret < 0) goto out; } else if (!strcmp (value, "possibly-healing")) { ret = gf_asprintf (&status, " - Possibly undergoing heal\n"); if (ret < 0) goto out; } else if (!strcmp (value, "split-brain")) { ret = gf_asprintf (&status, " - Is in split-brain\n"); if (ret < 0) goto out; } else if (!strcmp (value, "heal-pending")) { pending = _gf_true; ret = gf_asprintf (&status, " "); if (ret < 0) goto out; } else if (!strcmp (value, "split-brain-pending")) { pending = _gf_true; ret = gf_asprintf (&status, " - Is in split-brain\n"); if (ret < 0) goto out; } else if (!strcmp (value, "possibly-healing-pending")) { pending = _gf_true; ret = gf_asprintf (&status, " - Possibly undergoing heal\n"); if (ret < 0) goto out; } out: /* If ignore_dirty is set, it means indices/dirty directory is * being processed. Ignore the entry if it also exists in * indices/xattrop. * Boolean pending is set to true if the entry also exists in * indices/xattrop directory. */ if (ignore_dirty) { if (pending) { GF_FREE (status); status = NULL; return; } } if (ret == -1) status = NULL; (*num_entries)++; printf ("%s%s\n", path ? path : uuid_utoa (gfid), status ? status : ""); GF_FREE (status); return; } static int glfsh_heal_entries (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, gf_dirent_t *entries, uint64_t *offset, uint64_t *num_entries, dict_t *xattr_req) { gf_dirent_t *entry = NULL; gf_dirent_t *tmp = NULL; int ret = 0; char file[64] = {0}; list_for_each_entry_safe (entry, tmp, &entries->list, list) { *offset = entry->d_off; if ((strcmp (entry->d_name, ".") == 0) || (strcmp (entry->d_name, "..") == 0)) continue; memset (file, 0, sizeof(file)); snprintf (file, sizeof(file), "gfid:%s", entry->d_name); ret = glfsh_heal_splitbrain_file (fs, top_subvol, rootloc, file, xattr_req); if (ret) continue; (*num_entries)++; } return ret; } static int glfsh_process_entries (xlator_t *xl, fd_t *fd, gf_dirent_t *entries, uint64_t *offset, uint64_t *num_entries, print_status glfsh_print_status, gf_boolean_t ignore_dirty) { gf_dirent_t *entry = NULL; gf_dirent_t *tmp = NULL; int ret = 0; char *path = NULL; uuid_t gfid = {0}; xlator_t *this = NULL; dict_t *dict = NULL; loc_t loc = {0,}; this = THIS; list_for_each_entry_safe (entry, tmp, &entries->list, list) { *offset = entry->d_off; if ((strcmp (entry->d_name, ".") == 0) || (strcmp (entry->d_name, "..") == 0)) continue; if (dict) { dict_unref (dict); dict = NULL; } gf_uuid_clear (gfid); GF_FREE (path); path = NULL; gf_uuid_parse (entry->d_name, gfid); gf_uuid_copy (loc.gfid, gfid); ret = syncop_getxattr (this, &loc, &dict, GF_HEAL_INFO, NULL, NULL); if (ret) continue; ret = syncop_gfid_to_path (this->itable, xl, gfid, &path); if (ret == -ENOENT || ret == -ESTALE) { glfsh_index_purge (xl, fd->inode, entry->d_name); ret = 0; continue; } if (dict) glfsh_print_status (dict, path, gfid, num_entries, ignore_dirty); } ret = 0; GF_FREE (path); if (dict) { dict_unref (dict); dict = NULL; } return ret; } static int glfsh_crawl_directory (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, xlator_t *readdir_xl, fd_t *fd, loc_t *loc, dict_t *xattr_req, uint64_t *num_entries, gf_boolean_t ignore) { uint64_t offset = 0; gf_dirent_t entries; int ret = 0; gf_boolean_t free_entries = _gf_false; int heal_op = -1; INIT_LIST_HEAD (&entries.list); ret = dict_get_int32 (xattr_req, "heal-op", &heal_op); if (ret) return ret; while (1) { ret = syncop_readdir (readdir_xl, fd, 131072, offset, &entries, NULL, NULL); if (ret <= 0) break; ret = 0; free_entries = _gf_true; if (list_empty (&entries.list)) goto out; if (heal_op == GF_SHD_OP_INDEX_SUMMARY) { ret = glfsh_process_entries (readdir_xl, fd, &entries, &offset, num_entries, glfsh_print_heal_status, ignore); if (ret < 0) goto out; } else if (heal_op == GF_SHD_OP_SPLIT_BRAIN_FILES) { ret = glfsh_process_entries (readdir_xl, fd, &entries, &offset, num_entries, glfsh_print_spb_status, ignore); if (ret < 0) goto out; } else if (heal_op == GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK) { ret = glfsh_heal_entries (fs, top_subvol, rootloc, &entries, &offset, num_entries, xattr_req); } gf_dirent_free (&entries); free_entries = _gf_false; } ret = 0; out: if (free_entries) gf_dirent_free (&entries); return ret; } static int glfsh_print_brick_from_xl (xlator_t *xl) { char *remote_host = NULL; char *remote_subvol = NULL; int ret = 0; ret = dict_get_str (xl->options, "remote-host", &remote_host); if (ret < 0) goto out; ret = dict_get_str (xl->options, "remote-subvolume", &remote_subvol); if (ret < 0) goto out; out: if (ret < 0) printf ("Brick - Not able to get brick information\n"); else printf ("Brick %s:%s\n", remote_host, remote_subvol); return ret; } int glfsh_print_pending_heals_type (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, xlator_t *xl, gf_xl_afr_op_t heal_op, dict_t *xattr_req, char *vgfid, uint64_t *num_entries) { int ret = 0; loc_t dirloc = {0}; fd_t *fd = NULL; int32_t op_errno = 0; gf_boolean_t ignore = _gf_false; if (!strcmp(vgfid, GF_XATTROP_DIRTY_GFID)) ignore = _gf_true; ret = glfsh_get_index_dir_loc (rootloc, xl, &dirloc, &op_errno, vgfid); if (ret < 0) { if (op_errno == ESTALE || op_errno == ENOENT) ret = 0; else ret = -op_errno; goto out; } ret = syncop_dirfd (xl, &dirloc, &fd, GF_CLIENT_PID_GLFS_HEAL); if (ret) goto out; ret = glfsh_crawl_directory (fs, top_subvol, rootloc, xl, fd, &dirloc, xattr_req, num_entries, ignore); if (fd) fd_unref (fd); out: loc_wipe (&dirloc); return ret; } void glfsh_print_pending_heals (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, xlator_t *xl, gf_xl_afr_op_t heal_op, gf_boolean_t is_parent_replicate) { int ret = 0; uint64_t count = 0, total = 0; dict_t *xattr_req = NULL; xattr_req = dict_new(); if (!xattr_req) goto out; ret = dict_set_int32 (xattr_req, "heal-op", heal_op); if (ret) goto out; ret = glfsh_print_brick_from_xl (xl); if (ret < 0) goto out; ret = glfsh_print_pending_heals_type (fs, top_subvol, rootloc, xl, heal_op, xattr_req, GF_XATTROP_INDEX_GFID, &count); total += count; count = 0; if (ret == -ENOTCONN) goto out; if (is_parent_replicate) { ret = glfsh_print_pending_heals_type (fs, top_subvol, rootloc, xl, heal_op, xattr_req, GF_XATTROP_DIRTY_GFID, &count); total += count; } out: if (xattr_req) dict_unref (xattr_req); glfsh_print_heal_op_status (ret, total, heal_op); return; } static int glfsh_validate_volume (xlator_t *xl, gf_xl_afr_op_t heal_op) { xlator_t *heal_xl = NULL; int ret = -1; while (xl->next) xl = xl->next; while (xl) { if (strcmp (xl->type, "protocol/client") == 0) { heal_xl = _get_ancestor (xl, heal_op); if (heal_xl) { ret = 0; break; } } xl = xl->prev; } return ret; } static xlator_t* _brick_path_to_client_xlator (xlator_t *top_subvol, char *hostname, char *brickpath) { int ret = 0; xlator_t *xl = NULL; char *remote_host = NULL; char *remote_subvol = NULL; xl = top_subvol; while (xl->next) xl = xl->next; while (xl) { if (!strcmp (xl->type, "protocol/client")) { ret = dict_get_str (xl->options, "remote-host", &remote_host); if (ret < 0) goto out; ret = dict_get_str (xl->options, "remote-subvolume", &remote_subvol); if (ret < 0) goto out; if (!strcmp (hostname, remote_host) && !strcmp (brickpath, remote_subvol)) return xl; } xl = xl->prev; } out: return NULL; } int glfsh_gather_heal_info (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, gf_xl_afr_op_t heal_op) { xlator_t *xl = NULL; xlator_t *heal_xl = NULL; xlator_t *old_THIS = NULL; xl = top_subvol; while (xl->next) xl = xl->next; while (xl) { if (strcmp (xl->type, "protocol/client") == 0) { heal_xl = _get_ancestor (xl, heal_op); if (heal_xl) { old_THIS = THIS; THIS = heal_xl; glfsh_print_pending_heals (fs, top_subvol, rootloc, xl, heal_op, !strcmp (heal_xl->type, "cluster/replicate")); THIS = old_THIS; printf ("\n"); } } xl = xl->prev; } return 0; } int _validate_directory (dict_t *xattr_req, char *file) { int heal_op = -1; int ret = 0; ret = dict_get_int32 (xattr_req, "heal-op", &heal_op); if (ret) return ret; if (heal_op == GF_SHD_OP_SBRAIN_HEAL_FROM_BIGGER_FILE) { printf ("'bigger-file' not a valid option for directories.\n"); ret = -1; } else if (heal_op == GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK) { printf ("'source-brick' option used on a directory (%s). " "Performing conservative merge.\n", file); } return ret; } int glfsh_heal_splitbrain_file (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, char *file, dict_t *xattr_req) { int ret = -1; int reval = 0; loc_t loc = {0, }; char *path = NULL; char *filename = NULL; struct iatt iatt = {0, }; xlator_t *xl = top_subvol; dict_t *xattr_rsp = NULL; char *sh_fail_msg = NULL; int32_t op_errno = 0; if (!strncmp (file, "gfid:", 5)) { filename = gf_strdup(file); path = strtok (filename, ":"); path = strtok (NULL, ";"); gf_uuid_parse (path, loc.gfid); loc.path = gf_strdup (uuid_utoa (loc.gfid)); loc.inode = inode_new (rootloc->inode->table); ret = syncop_lookup (xl, &loc, &iatt, 0, xattr_req, &xattr_rsp); if (ret) { op_errno = -ret; printf ("Lookup failed on %s:%s.\n", file, strerror(op_errno)); goto out; } } else { if (file[0] != '/') { printf (" must be absolute path w.r.t. the " "volume, starting with '/'\n"); ret = -1; goto out; } retry: ret = glfs_resolve (fs, xl, file, &loc, &iatt, reval); ESTALE_RETRY (ret, errno, reval, &loc, retry); if (ret) { printf("Lookup failed on %s:%s\n", file, strerror (errno)); goto out; } } if (iatt.ia_type == IA_IFDIR) { ret = _validate_directory (xattr_req, file); if (ret) goto out; } ret = syncop_getxattr (xl, &loc, &xattr_rsp, GF_AFR_HEAL_SBRAIN, xattr_req, NULL); if (ret) { op_errno = -ret; printf ("Healing %s failed:%s.\n", file, strerror(op_errno)); goto out; } ret = dict_get_str (xattr_rsp, "sh-fail-msg", &sh_fail_msg); if (!ret) { printf ("Healing %s failed: %s.\n", file, sh_fail_msg); ret = -1; goto out; } printf ("Healed %s.\n", file); ret = 0; out: if (xattr_rsp) dict_unref (xattr_rsp); return ret; } int glfsh_heal_from_brick_type (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, char *hostname, char *brickpath, xlator_t *client, dict_t *xattr_req, char *vgfid, uint64_t *num_entries) { fd_t *fd = NULL; loc_t dirloc = {0}; int32_t op_errno = 0; int ret = -1; ret = glfsh_get_index_dir_loc (rootloc, client, &dirloc, &op_errno, vgfid); if (ret < 0) { if (op_errno == ESTALE || op_errno == ENOENT) ret = 0; else ret = -op_errno; goto out; } ret = syncop_dirfd (client, &dirloc, &fd, GF_CLIENT_PID_GLFS_HEAL); if (ret) goto out; ret = glfsh_crawl_directory (fs, top_subvol, rootloc, client, fd, &dirloc, xattr_req, num_entries, _gf_false); if (fd) fd_unref (fd); out: loc_wipe (&dirloc); return ret; } int glfsh_heal_from_brick (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, char *hostname, char *brickpath, char *file) { int ret = -1; uint64_t count = 0, total = 0; dict_t *xattr_req = NULL; xlator_t *client = NULL; xattr_req = dict_new(); if (!xattr_req) goto out; ret = dict_set_int32 (xattr_req, "heal-op", GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK); if (ret) goto out; client = _brick_path_to_client_xlator (top_subvol, hostname, brickpath); if (!client) { printf("\"%s:%s\"- No such brick available in the volume.\n", hostname, brickpath); ret = -1; goto out; } ret = dict_set_str (xattr_req, "child-name", client->name); if (ret) goto out; if (file) ret = glfsh_heal_splitbrain_file (fs, top_subvol, rootloc, file, xattr_req); else { ret = glfsh_heal_from_brick_type (fs, top_subvol, rootloc, hostname, brickpath, client, xattr_req, GF_XATTROP_INDEX_GFID, &count); total += count; count = 0; if (ret == -ENOTCONN) goto out; ret = glfsh_heal_from_brick_type (fs, top_subvol, rootloc, hostname, brickpath, client, xattr_req, GF_XATTROP_DIRTY_GFID, &count); total += count; if (ret < 0) goto out; } out: if (xattr_req) dict_unref (xattr_req); if (!file) glfsh_print_heal_op_status (ret, total, GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK); return ret; } int glfsh_heal_from_bigger_file_or_mtime (glfs_t *fs, xlator_t *top_subvol, loc_t *rootloc, char *file, gf_xl_afr_op_t heal_op) { int ret = -1; dict_t *xattr_req = NULL; xattr_req = dict_new(); if (!xattr_req) goto out; ret = dict_set_int32 (xattr_req, "heal-op", heal_op); if (ret) goto out; ret = glfsh_heal_splitbrain_file (fs, top_subvol, rootloc, file, xattr_req); out: if (xattr_req) dict_unref (xattr_req); return ret; } static void cleanup (glfs_t *fs) { if (!fs) return; #if 0 /* glfs fini path is still racy and crashing the program. Since * this program any way has to die, we are not gonna call fini * in the released versions. i.e. final builds. For all * internal testing lets enable this so that glfs_fini code * path becomes stable. */ glfs_fini (fs); #endif } int main (int argc, char **argv) { glfs_t *fs = NULL; int ret = 0; char *volname = NULL; xlator_t *top_subvol = NULL; loc_t rootloc = {0}; char logfilepath[PATH_MAX] = {0}; char *hostname = NULL; char *path = NULL; char *file = NULL; gf_xl_afr_op_t heal_op = -1; if (argc < 2) { printf (USAGE_STR, argv[0]); ret = -1; goto out; } volname = argv[1]; switch (argc) { case 2: heal_op = GF_SHD_OP_INDEX_SUMMARY; break; case 3: if (!strcmp (argv[2], "split-brain-info")) { heal_op = GF_SHD_OP_SPLIT_BRAIN_FILES; } else { printf (USAGE_STR, argv[0]); ret = -1; goto out; } break; case 4: if (!strcmp (argv[2], "bigger-file")) { heal_op = GF_SHD_OP_SBRAIN_HEAL_FROM_BIGGER_FILE; file = argv[3]; } else if (!strcmp (argv[2], "latest-mtime")) { heal_op = GF_SHD_OP_SBRAIN_HEAL_FROM_LATEST_MTIME; file = argv[3]; } else if (!strcmp (argv[2], "source-brick")) { heal_op = GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK; hostname = strtok (argv[3], ":"); path = strtok (NULL, ":"); } else { printf (USAGE_STR, argv[0]); ret = -1; goto out; } break; case 5: if (!strcmp (argv[2], "source-brick")) { heal_op = GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK; hostname = strtok (argv[3], ":"); path = strtok (NULL, ":"); file = argv[4]; } else { printf (USAGE_STR, argv[0]); ret = -1; goto out; } break; default: printf (USAGE_STR, argv[0]); ret = -1; goto out; } fs = glfs_new (volname); if (!fs) { ret = -1; printf ("Not able to initialize volume '%s'\n", volname); goto out; } if (sys_access(SECURE_ACCESS_FILE, F_OK) == 0) { fs->ctx->secure_mgmt = 1; } ret = glfs_set_volfile_server (fs, "unix", DEFAULT_GLUSTERD_SOCKFILE, 0); if (ret) { printf("Setting the volfile server failed, %s\n", strerror (errno)); goto out; } snprintf (logfilepath, sizeof (logfilepath), DEFAULT_HEAL_LOG_FILE_DIRECTORY"/glfsheal-%s.log", volname); ret = glfs_set_logging(fs, logfilepath, GF_LOG_INFO); if (ret < 0) { printf ("Failed to set the log file path, %s\n", strerror (errno)); goto out; } ret = glfs_init (fs); if (ret < 0) { ret = -1; if (errno == ENOENT) { printf ("Volume %s does not exist\n", volname); } else { printf ("%s: Not able to fetch volfile from " "glusterd\n", volname); } goto out; } top_subvol = glfs_active_subvol (fs); if (!top_subvol) { ret = -1; if (errno == ENOTCONN) { printf ("Volume %s is not started (Or) All the bricks " "are not running.\n", volname); } else { printf ("%s: Not able to mount the volume, %s\n", volname, strerror (errno)); } goto out; } ret = glfsh_validate_volume (top_subvol, heal_op); if (ret < 0) { printf ("Volume %s is not of type %s\n", volname, (heal_op == GF_SHD_OP_INDEX_SUMMARY) ? "replicate/disperse":"replicate"); goto out; } rootloc.inode = inode_ref (top_subvol->itable->root); glfs_loc_touchup (&rootloc); switch (heal_op) { case GF_SHD_OP_INDEX_SUMMARY: case GF_SHD_OP_SPLIT_BRAIN_FILES: ret = glfsh_gather_heal_info (fs, top_subvol, &rootloc, heal_op); break; case GF_SHD_OP_SBRAIN_HEAL_FROM_BIGGER_FILE: case GF_SHD_OP_SBRAIN_HEAL_FROM_LATEST_MTIME: ret = glfsh_heal_from_bigger_file_or_mtime (fs, top_subvol, &rootloc, file, heal_op); break; case GF_SHD_OP_SBRAIN_HEAL_FROM_BRICK: ret = glfsh_heal_from_brick (fs, top_subvol, &rootloc, hostname, path, file); break; default: ret = -1; break; } loc_wipe (&rootloc); glfs_subvol_done (fs, top_subvol); cleanup (fs); return ret; out: if (fs && top_subvol) glfs_subvol_done (fs, top_subvol); loc_wipe (&rootloc); cleanup (fs); return ret; }