/* * Copyright (C) 2001-2004 Sistina Software, Inc. All rights reserved. * Copyright (C) 2004-2012 Red Hat, Inc. All rights reserved. * * This file is part of LVM2. * * This copyrighted material is made available to anyone wishing to use, * modify, copy, or redistribute it subject to the terms and conditions * of the GNU Lesser General Public License v.2.1. * * You should have received a copy of the GNU Lesser General Public License * along with this program; if not, write to the Free Software Foundation, * Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "lib.h" #include "fs.h" #include "activate.h" #include "toolcontext.h" #include "lvm-string.h" #include "lvm-file.h" #include "memlock.h" #include #include #include #include #include /* * Library cookie to combine multiple fs transactions. * Supports to wait for udev device settle only when needed. */ static uint32_t _fs_cookie = DM_COOKIE_AUTO_CREATE; static int _fs_create = 0; static int _mk_dir(const char *dev_dir, const char *vg_name) { static char vg_path[PATH_MAX]; mode_t old_umask; if (dm_snprintf(vg_path, sizeof(vg_path), "%s%s", dev_dir, vg_name) == -1) { log_error("Couldn't construct name of volume " "group directory."); return 0; } if (dir_exists(vg_path)) return 1; log_very_verbose("Creating directory %s", vg_path); (void) dm_prepare_selinux_context(vg_path, S_IFDIR); old_umask = umask(DM_DEV_DIR_UMASK); if (mkdir(vg_path, 0777)) { log_sys_error("mkdir", vg_path); umask(old_umask); (void) dm_prepare_selinux_context(NULL, 0); return 0; } umask(old_umask); (void) dm_prepare_selinux_context(NULL, 0); return 1; } static int _rm_dir(const char *dev_dir, const char *vg_name) { static char vg_path[PATH_MAX]; if (dm_snprintf(vg_path, sizeof(vg_path), "%s%s", dev_dir, vg_name) == -1) { log_error("Couldn't construct name of volume " "group directory."); return 0; } if (dir_exists(vg_path) && is_empty_dir(vg_path)) { log_very_verbose("Removing directory %s", vg_path); rmdir(vg_path); } return 1; } static void _rm_blks(const char *dir) { const char *name; static char path[PATH_MAX]; struct dirent *dirent; struct stat buf; DIR *d; if (!(d = opendir(dir))) { log_sys_error("opendir", dir); return; } while ((dirent = readdir(d))) { name = dirent->d_name; if (!strcmp(name, ".") || !strcmp(name, "..")) continue; if (dm_snprintf(path, sizeof(path), "%s/%s", dir, name) == -1) { log_error("Couldn't create path for %s", name); continue; } if (!lstat(path, &buf)) { if (!S_ISBLK(buf.st_mode)) continue; log_very_verbose("Removing %s", path); if (unlink(path) < 0) log_sys_error("unlink", path); } } if (closedir(d)) log_sys_error("closedir", dir); } static int _mk_link(const char *dev_dir, const char *vg_name, const char *lv_name, const char *dev, int check_udev) { static char lv_path[PATH_MAX], link_path[PATH_MAX], lvm1_group_path[PATH_MAX]; static char vg_path[PATH_MAX]; struct stat buf, buf_lp; if (dm_snprintf(vg_path, sizeof(vg_path), "%s%s", dev_dir, vg_name) == -1) { log_error("Couldn't create path for volume group dir %s", vg_name); return 0; } if (dm_snprintf(lv_path, sizeof(lv_path), "%s/%s", vg_path, lv_name) == -1) { log_error("Couldn't create source pathname for " "logical volume link %s", lv_name); return 0; } if (dm_snprintf(link_path, sizeof(link_path), "%s/%s", dm_dir(), dev) == -1) { log_error("Couldn't create destination pathname for " "logical volume link for %s", lv_name); return 0; } if (dm_snprintf(lvm1_group_path, sizeof(lvm1_group_path), "%s/group", vg_path) == -1) { log_error("Couldn't create pathname for LVM1 group file for %s", vg_name); return 0; } /* To reach this point, the VG must have been locked. * As locking fails if the VG is active under LVM1, it's * now safe to remove any LVM1 devices we find here * (as well as any existing LVM2 symlink). */ if (!lstat(lvm1_group_path, &buf)) { if (!S_ISCHR(buf.st_mode)) { log_error("Non-LVM1 character device found at %s", lvm1_group_path); } else { _rm_blks(vg_path); log_very_verbose("Removing %s", lvm1_group_path); if (unlink(lvm1_group_path) < 0) log_sys_error("unlink", lvm1_group_path); } } if (!lstat(lv_path, &buf)) { if (!S_ISLNK(buf.st_mode) && !S_ISBLK(buf.st_mode)) { log_error("Symbolic link %s not created: file exists", link_path); return 0; } if (dm_udev_get_sync_support() && udev_checking() && check_udev) { /* Check udev created the correct link. */ if (!stat(link_path, &buf_lp) && !stat(lv_path, &buf)) { if (buf_lp.st_rdev == buf.st_rdev) return 1; else log_warn("Symlink %s that should have been " "created by udev does not have " "correct target. Falling back to " "direct link creation", lv_path); } else log_warn("Symlink %s that should have been " "created by udev could not be checked " "for its correctness. Falling back to " "direct link creation.", lv_path); } log_very_verbose("Removing %s", lv_path); if (unlink(lv_path) < 0) { log_sys_error("unlink", lv_path); return 0; } } else if (dm_udev_get_sync_support() && udev_checking() && check_udev) log_warn("The link %s should had been created by udev " "but it was not found. Falling back to " "direct link creation.", lv_path); log_very_verbose("Linking %s -> %s", lv_path, link_path); (void) dm_prepare_selinux_context(lv_path, S_IFLNK); if (symlink(link_path, lv_path) < 0) { log_sys_error("symlink", lv_path); (void) dm_prepare_selinux_context(NULL, 0); return 0; } (void) dm_prepare_selinux_context(NULL, 0); return 1; } static int _rm_link(const char *dev_dir, const char *vg_name, const char *lv_name, int check_udev) { struct stat buf; static char lv_path[PATH_MAX]; if (dm_snprintf(lv_path, sizeof(lv_path), "%s%s/%s", dev_dir, vg_name, lv_name) == -1) { log_error("Couldn't determine link pathname."); return 0; } if (lstat(lv_path, &buf)) { if (errno == ENOENT) return 1; log_sys_error("lstat", lv_path); return 0; } else if (dm_udev_get_sync_support() && udev_checking() && check_udev) log_warn("The link %s should have been removed by udev " "but it is still present. Falling back to " "direct link removal.", lv_path); if (!S_ISLNK(buf.st_mode)) { log_error("%s not symbolic link - not removing", lv_path); return 0; } log_very_verbose("Removing link %s", lv_path); if (unlink(lv_path) < 0) { log_sys_error("unlink", lv_path); return 0; } return 1; } typedef enum { FS_ADD, FS_DEL, FS_RENAME, NUM_FS_OPS } fs_op_t; static int _do_fs_op(fs_op_t type, const char *dev_dir, const char *vg_name, const char *lv_name, const char *dev, const char *old_lv_name, int check_udev) { switch (type) { case FS_ADD: if (!_mk_dir(dev_dir, vg_name) || !_mk_link(dev_dir, vg_name, lv_name, dev, check_udev)) return_0; break; case FS_DEL: if (!_rm_link(dev_dir, vg_name, lv_name, check_udev) || !_rm_dir(dev_dir, vg_name)) return_0; break; /* FIXME Use rename() */ case FS_RENAME: if (old_lv_name && !_rm_link(dev_dir, vg_name, old_lv_name, check_udev)) stack; if (!_mk_link(dev_dir, vg_name, lv_name, dev, check_udev)) stack; default: ; /* NOTREACHED */ } return 1; } static DM_LIST_INIT(_fs_ops); /* * Count number of stacked fs_op_t operations to allow to skip dm_list search. * FIXME: handling of FS_RENAME */ static int _count_fs_ops[NUM_FS_OPS]; struct fs_op_parms { struct dm_list list; fs_op_t type; int check_udev; char *dev_dir; char *vg_name; char *lv_name; char *dev; char *old_lv_name; char names[0]; }; static void _store_str(char **pos, char **ptr, const char *str) { strcpy(*pos, str); *ptr = *pos; *pos += strlen(*ptr) + 1; } static void _del_fs_op(struct fs_op_parms *fsp) { _count_fs_ops[fsp->type]--; dm_list_del(&fsp->list); dm_free(fsp); } /* Check if there is other the type of fs operation stacked */ static int _other_fs_ops(fs_op_t type) { unsigned i; for (i = 0; i < NUM_FS_OPS; i++) if (type != i && _count_fs_ops[i]) return 1; return 0; } /* Check if udev is supposed to create nodes */ static int _check_udev(int check_udev) { return check_udev && dm_udev_get_sync_support() && dm_udev_get_checking(); } /* FIXME: duplication of the code from libdm-common.c */ static int _stack_fs_op(fs_op_t type, const char *dev_dir, const char *vg_name, const char *lv_name, const char *dev, const char *old_lv_name, int check_udev) { struct dm_list *fsph, *fspht; struct fs_op_parms *fsp; size_t len = strlen(dev_dir) + strlen(vg_name) + strlen(lv_name) + strlen(dev) + strlen(old_lv_name) + 5; char *pos; if ((type == FS_DEL) && _other_fs_ops(type)) /* * Ignore any outstanding operations on the fs_op if deleting it. */ dm_list_iterate_safe(fsph, fspht, &_fs_ops) { fsp = dm_list_item(fsph, struct fs_op_parms); if (!strcmp(lv_name, fsp->lv_name) && !strcmp(vg_name, fsp->vg_name)) { _del_fs_op(fsp); if (!_other_fs_ops(type)) break; /* no other non DEL ops */ } } else if ((type == FS_ADD) && _count_fs_ops[FS_DEL] && _check_udev(check_udev)) /* * If udev is running ignore previous DEL operation on added fs_op. * (No other operations for this device then DEL could be stacked here). */ dm_list_iterate_safe(fsph, fspht, &_fs_ops) { fsp = dm_list_item(fsph, struct fs_op_parms); if ((fsp->type == FS_DEL) && !strcmp(lv_name, fsp->lv_name) && !strcmp(vg_name, fsp->vg_name)) { _del_fs_op(fsp); break; /* no other DEL ops */ } } else if ((type == FS_RENAME) && _check_udev(check_udev)) /* * If udev is running ignore any outstanding operations if renaming it. * * Currently RENAME operation happens through 'suspend -> resume'. * On 'resume' device is added with read_ahead settings, so it * safe to remove any stacked ADD, RENAME, READ_AHEAD operation * There cannot be any DEL operation on the renamed device. */ dm_list_iterate_safe(fsph, fspht, &_fs_ops) { fsp = dm_list_item(fsph, struct fs_op_parms); if (!strcmp(old_lv_name, fsp->lv_name) && !strcmp(vg_name, fsp->vg_name)) _del_fs_op(fsp); } if (!(fsp = dm_malloc(sizeof(*fsp) + len))) { log_error("No space to stack fs operation"); return 0; } pos = fsp->names; fsp->type = type; fsp->check_udev = check_udev; _store_str(&pos, &fsp->dev_dir, dev_dir); _store_str(&pos, &fsp->vg_name, vg_name); _store_str(&pos, &fsp->lv_name, lv_name); _store_str(&pos, &fsp->dev, dev); _store_str(&pos, &fsp->old_lv_name, old_lv_name); _count_fs_ops[type]++; dm_list_add(&_fs_ops, &fsp->list); return 1; } static void _pop_fs_ops(void) { struct dm_list *fsph, *fspht; struct fs_op_parms *fsp; dm_list_iterate_safe(fsph, fspht, &_fs_ops) { fsp = dm_list_item(fsph, struct fs_op_parms); _do_fs_op(fsp->type, fsp->dev_dir, fsp->vg_name, fsp->lv_name, fsp->dev, fsp->old_lv_name, fsp->check_udev); _del_fs_op(fsp); } _fs_create = 0; } static int _fs_op(fs_op_t type, const char *dev_dir, const char *vg_name, const char *lv_name, const char *dev, const char *old_lv_name, int check_udev) { if (critical_section()) { if (!_stack_fs_op(type, dev_dir, vg_name, lv_name, dev, old_lv_name, check_udev)) return_0; return 1; } return _do_fs_op(type, dev_dir, vg_name, lv_name, dev, old_lv_name, check_udev); } int fs_add_lv(const struct logical_volume *lv, const char *dev) { return _fs_op(FS_ADD, lv->vg->cmd->dev_dir, lv->vg->name, lv->name, dev, "", lv->vg->cmd->current_settings.udev_rules); } int fs_del_lv(const struct logical_volume *lv) { return _fs_op(FS_DEL, lv->vg->cmd->dev_dir, lv->vg->name, lv->name, "", "", lv->vg->cmd->current_settings.udev_rules); } int fs_del_lv_byname(const char *dev_dir, const char *vg_name, const char *lv_name, int check_udev) { return _fs_op(FS_DEL, dev_dir, vg_name, lv_name, "", "", check_udev); } int fs_rename_lv(struct logical_volume *lv, const char *dev, const char *old_vgname, const char *old_lvname) { if (strcmp(old_vgname, lv->vg->name)) { return (_fs_op(FS_DEL, lv->vg->cmd->dev_dir, old_vgname, old_lvname, "", "", lv->vg->cmd->current_settings.udev_rules) && _fs_op(FS_ADD, lv->vg->cmd->dev_dir, lv->vg->name, lv->name, dev, "", lv->vg->cmd->current_settings.udev_rules)); } else return _fs_op(FS_RENAME, lv->vg->cmd->dev_dir, lv->vg->name, lv->name, dev, old_lvname, lv->vg->cmd->current_settings.udev_rules); } void fs_unlock(void) { if (!critical_section()) { log_debug("Syncing device names"); /* Wait for all processed udev devices */ if (!dm_udev_wait(_fs_cookie)) stack; _fs_cookie = DM_COOKIE_AUTO_CREATE; /* Reset cookie */ dm_lib_release(); _pop_fs_ops(); } } uint32_t fs_get_cookie(void) { return _fs_cookie; } void fs_set_cookie(uint32_t cookie) { _fs_cookie = cookie; } void fs_set_create(void) { _fs_create = 1; } int fs_has_non_delete_ops(void) { return _fs_create || _other_fs_ops(FS_DEL); }