/* SPDX-License-Identifier: LGPL-2.1-or-later */ /* * This file is part of libmount from util-linux project. * * Copyright (C) 2011-2018 Karel Zak * * libmount is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as published by * the Free Software Foundation; either version 2.1 of the License, or * (at your option) any later version. */ /** * SECTION: update * @title: Tables update * @short_description: userspace mount information management * * The struct libmnt_update provides an abstraction to manage mount options in * userspace independently of system configuration. This low-level API works on * systems both with and without /etc/mtab. On systems without the regular /etc/mtab * file, the userspace mount options (e.g. user=) are stored in the /run/mount/utab * file. * * It's recommended to use high-level struct libmnt_context API. */ #include #include #include #include "mountP.h" #include "mangle.h" #include "pathnames.h" struct libmnt_update { char *target; struct libmnt_fs *fs; char *filename; unsigned long mountflags; int userspace_only; int ready; struct libmnt_table *mountinfo; }; static int set_fs_root(struct libmnt_update *upd, struct libmnt_fs *fs, unsigned long mountflags); static int utab_new_entry(struct libmnt_update *upd, struct libmnt_fs *fs, unsigned long mountflags); /** * mnt_new_update: * * Returns: newly allocated update handler */ struct libmnt_update *mnt_new_update(void) { struct libmnt_update *upd; upd = calloc(1, sizeof(*upd)); if (!upd) return NULL; DBG(UPDATE, ul_debugobj(upd, "allocate")); return upd; } /** * mnt_free_update: * @upd: update * * Deallocates struct libmnt_update handler. */ void mnt_free_update(struct libmnt_update *upd) { if (!upd) return; DBG(UPDATE, ul_debugobj(upd, "free")); mnt_unref_fs(upd->fs); mnt_unref_table(upd->mountinfo); free(upd->target); free(upd->filename); free(upd); } /* * Returns 0 on success, <0 in case of error. */ int mnt_update_set_filename(struct libmnt_update *upd, const char *filename, int userspace_only) { const char *path = NULL; int rw = 0; if (!upd) return -EINVAL; /* filename explicitly defined */ if (filename) { char *p = strdup(filename); if (!p) return -ENOMEM; upd->userspace_only = userspace_only; free(upd->filename); upd->filename = p; } if (upd->filename) return 0; /* detect tab filename -- /etc/mtab or /run/mount/utab */ #ifdef USE_LIBMOUNT_SUPPORT_MTAB mnt_has_regular_mtab(&path, &rw); #endif if (!rw) { path = NULL; mnt_has_regular_utab(&path, &rw); if (!rw) return -EACCES; upd->userspace_only = TRUE; } upd->filename = strdup(path); if (!upd->filename) return -ENOMEM; return 0; } /** * mnt_update_get_filename: * @upd: update * * This function returns the file name (e.g. /etc/mtab) of the up-dated file. * * Returns: pointer to filename that will be updated or NULL in case of error. */ const char *mnt_update_get_filename(struct libmnt_update *upd) { return upd ? upd->filename : NULL; } /** * mnt_update_is_ready: * @upd: update handler * * Returns: 1 if entry described by @upd is successfully prepared and will be * written to the mtab/utab file. */ int mnt_update_is_ready(struct libmnt_update *upd) { return upd ? upd->ready : FALSE; } /** * mnt_update_set_fs: * @upd: update handler * @mountflags: MS_* flags * @target: umount target, must be NULL for mount * @fs: mount filesystem description, must be NULL for umount * * Returns: <0 in case on error, 0 on success, 1 if update is unnecessary. */ int mnt_update_set_fs(struct libmnt_update *upd, unsigned long mountflags, const char *target, struct libmnt_fs *fs) { int rc; if (!upd) return -EINVAL; if ((mountflags & MS_MOVE) && (!fs || !mnt_fs_get_srcpath(fs))) return -EINVAL; if (target && fs) return -EINVAL; DBG(UPDATE, ul_debugobj(upd, "resetting FS [target=%s, flags=0x%08lx]", target, mountflags)); if (fs) { DBG(UPDATE, ul_debugobj(upd, "FS template:")); DBG(UPDATE, mnt_fs_print_debug(fs, stderr)); } mnt_unref_fs(upd->fs); free(upd->target); upd->ready = FALSE; upd->fs = NULL; upd->target = NULL; upd->mountflags = 0; if (mountflags & MS_PROPAGATION) return 1; upd->mountflags = mountflags; rc = mnt_update_set_filename(upd, NULL, 0); if (rc) { DBG(UPDATE, ul_debugobj(upd, "no writable file available [rc=%d]", rc)); return rc; /* error or no file available (rc = 1) */ } if (target) { upd->target = strdup(target); if (!upd->target) return -ENOMEM; } else if (fs) { if (upd->userspace_only && !(mountflags & MS_MOVE)) { rc = utab_new_entry(upd, fs, mountflags); if (rc) return rc; } else { upd->fs = mnt_copy_mtab_fs(fs); if (!upd->fs) return -ENOMEM; } } DBG(UPDATE, ul_debugobj(upd, "ready")); upd->ready = TRUE; return 0; } /** * mnt_update_get_fs: * @upd: update * * Returns: update filesystem entry or NULL */ struct libmnt_fs *mnt_update_get_fs(struct libmnt_update *upd) { return upd ? upd->fs : NULL; } /** * mnt_update_get_mflags: * @upd: update * * Returns: mount flags as was set by mnt_update_set_fs() */ unsigned long mnt_update_get_mflags(struct libmnt_update *upd) { return upd ? upd->mountflags : 0; } /** * mnt_update_force_rdonly: * @upd: update * @rdonly: is read-only? * * Returns: 0 on success and negative number in case of error. */ int mnt_update_force_rdonly(struct libmnt_update *upd, int rdonly) { int rc = 0; if (!upd || !upd->fs) return -EINVAL; if (rdonly && (upd->mountflags & MS_RDONLY)) return 0; if (!rdonly && !(upd->mountflags & MS_RDONLY)) return 0; if (!upd->userspace_only) { /* /etc/mtab -- we care about VFS options there */ const char *o = mnt_fs_get_options(upd->fs); char *n = o ? strdup(o) : NULL; if (n) mnt_optstr_remove_option(&n, rdonly ? "rw" : "ro"); if (!mnt_optstr_prepend_option(&n, rdonly ? "ro" : "rw", NULL)) rc = mnt_fs_set_options(upd->fs, n); free(n); } if (rdonly) upd->mountflags &= ~MS_RDONLY; else upd->mountflags |= MS_RDONLY; return rc; } /* * Allocates an utab entry (upd->fs) for mount/remount. This function should be * called *before* mount(2) syscall. The @fs is used as a read-only template. * * Returns: 0 on success, negative number on error, 1 if utab's update is * unnecessary. */ static int utab_new_entry(struct libmnt_update *upd, struct libmnt_fs *fs, unsigned long mountflags) { int rc = 0; const char *o, *a; char *u = NULL; assert(fs); assert(upd); assert(upd->fs == NULL); assert(!(mountflags & MS_MOVE)); DBG(UPDATE, ul_debug("prepare utab entry")); o = mnt_fs_get_user_options(fs); a = mnt_fs_get_attributes(fs); upd->fs = NULL; if (o) { /* remove non-mtab options */ rc = mnt_optstr_get_options(o, &u, mnt_get_builtin_optmap(MNT_USERSPACE_MAP), MNT_NOMTAB); if (rc) goto err; } if (!u && !a) { DBG(UPDATE, ul_debug("utab entry unnecessary (no options)")); return 1; } /* allocate the entry */ upd->fs = mnt_copy_fs(NULL, fs); if (!upd->fs) { rc = -ENOMEM; goto err; } rc = mnt_fs_set_options(upd->fs, u); if (rc) goto err; rc = mnt_fs_set_attributes(upd->fs, a); if (rc) goto err; if (!(mountflags & MS_REMOUNT)) { rc = set_fs_root(upd, fs, mountflags); if (rc) goto err; } free(u); DBG(UPDATE, ul_debug("utab entry OK")); return 0; err: free(u); mnt_unref_fs(upd->fs); upd->fs = NULL; return rc; } /* * Sets fs-root and fs-type to @upd->fs according to the @fs template and * @mountfalgs. For MS_BIND mountflag it reads information about the source * filesystem from /proc/self/mountinfo. */ static int set_fs_root(struct libmnt_update *upd, struct libmnt_fs *fs, unsigned long mountflags) { struct libmnt_fs *src_fs; char *fsroot = NULL; const char *src, *fstype; int rc = 0; DBG(UPDATE, ul_debug("setting FS root")); assert(upd); assert(upd->fs); assert(fs); fstype = mnt_fs_get_fstype(fs); if (mountflags & MS_BIND) { if (!upd->mountinfo) upd->mountinfo = mnt_new_table_from_file(_PATH_PROC_MOUNTINFO); src = mnt_fs_get_srcpath(fs); if (src) { rc = mnt_fs_set_bindsrc(upd->fs, src); if (rc) goto err; } } else if (fstype && (strcmp(fstype, "btrfs") == 0 || strcmp(fstype, "auto") == 0)) { if (!upd->mountinfo) upd->mountinfo = mnt_new_table_from_file(_PATH_PROC_MOUNTINFO); } src_fs = mnt_table_get_fs_root(upd->mountinfo, fs, mountflags, &fsroot); if (src_fs) { src = mnt_fs_get_srcpath(src_fs); rc = mnt_fs_set_source(upd->fs, src); if (rc) goto err; mnt_fs_set_fstype(upd->fs, mnt_fs_get_fstype(src_fs)); } upd->fs->root = fsroot; return 0; err: free(fsroot); return rc; } /* mtab and fstab update -- returns zero on success */ static int fprintf_mtab_fs(FILE *f, struct libmnt_fs *fs) { const char *o, *src, *fstype, *comm; char *m1, *m2, *m3, *m4; int rc; assert(fs); assert(f); comm = mnt_fs_get_comment(fs); src = mnt_fs_get_source(fs); fstype = mnt_fs_get_fstype(fs); o = mnt_fs_get_options(fs); m1 = src ? mangle(src) : "none"; m2 = mangle(mnt_fs_get_target(fs)); m3 = fstype ? mangle(fstype) : "none"; m4 = o ? mangle(o) : "rw"; if (m1 && m2 && m3 && m4) { if (comm) fputs(comm, f); rc = fprintf(f, "%s %s %s %s %d %d\n", m1, m2, m3, m4, mnt_fs_get_freq(fs), mnt_fs_get_passno(fs)); if (rc > 0) rc = 0; } else rc = -ENOMEM; if (src) free(m1); free(m2); if (fstype) free(m3); if (o) free(m4); return rc; } static int fprintf_utab_fs(FILE *f, struct libmnt_fs *fs) { char *p; int rc = 0; if (!fs || !f) return -EINVAL; p = mangle(mnt_fs_get_source(fs)); if (p) { rc = fprintf(f, "SRC=%s ", p); free(p); } if (rc >= 0) { p = mangle(mnt_fs_get_target(fs)); if (p) { rc = fprintf(f, "TARGET=%s ", p); free(p); } } if (rc >= 0) { p = mangle(mnt_fs_get_root(fs)); if (p) { rc = fprintf(f, "ROOT=%s ", p); free(p); } } if (rc >= 0) { p = mangle(mnt_fs_get_bindsrc(fs)); if (p) { rc = fprintf(f, "BINDSRC=%s ", p); free(p); } } if (rc >= 0) { p = mangle(mnt_fs_get_attributes(fs)); if (p) { rc = fprintf(f, "ATTRS=%s ", p); free(p); } } if (rc >= 0) { p = mangle(mnt_fs_get_user_options(fs)); if (p) { rc = fprintf(f, "OPTS=%s", p); free(p); } } if (rc >= 0) rc = fprintf(f, "\n"); if (rc > 0) rc = 0; /* success */ return rc; } static int update_table(struct libmnt_update *upd, struct libmnt_table *tb) { FILE *f; int rc, fd; char *uq = NULL; if (!tb || !upd->filename) return -EINVAL; DBG(UPDATE, ul_debugobj(upd, "%s: updating", upd->filename)); fd = mnt_open_uniq_filename(upd->filename, &uq); if (fd < 0) return fd; /* error */ f = fdopen(fd, "w" UL_CLOEXECSTR); if (f) { struct stat st; struct libmnt_iter itr; struct libmnt_fs *fs; mnt_reset_iter(&itr, MNT_ITER_FORWARD); if (tb->comms && mnt_table_get_intro_comment(tb)) fputs(mnt_table_get_intro_comment(tb), f); while(mnt_table_next_fs(tb, &itr, &fs) == 0) { if (upd->userspace_only) rc = fprintf_utab_fs(f, fs); else rc = fprintf_mtab_fs(f, fs); if (rc) { DBG(UPDATE, ul_debugobj(upd, "%s: write entry failed: %m", uq)); goto leave; } } if (tb->comms && mnt_table_get_trailing_comment(tb)) fputs(mnt_table_get_trailing_comment(tb), f); if (fflush(f) != 0) { rc = -errno; DBG(UPDATE, ul_debugobj(upd, "%s: fflush failed: %m", uq)); goto leave; } rc = fchmod(fd, S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH) ? -errno : 0; if (!rc && stat(upd->filename, &st) == 0) /* Copy uid/gid from the present file before renaming. */ rc = fchown(fd, st.st_uid, st.st_gid) ? -errno : 0; fclose(f); f = NULL; if (!rc) rc = rename(uq, upd->filename) ? -errno : 0; } else { rc = -errno; close(fd); } leave: if (f) fclose(f); unlink(uq); /* be paranoid */ free(uq); DBG(UPDATE, ul_debugobj(upd, "%s: done [rc=%d]", upd->filename, rc)); return rc; } /** * mnt_table_write_file * @tb: parsed file (e.g. fstab) * @file: target * * This function writes @tb to @file. * * Returns: 0 on success, negative number on error. */ int mnt_table_write_file(struct libmnt_table *tb, FILE *file) { int rc = 0; struct libmnt_iter itr; struct libmnt_fs *fs; if (tb->comms && mnt_table_get_intro_comment(tb)) fputs(mnt_table_get_intro_comment(tb), file); mnt_reset_iter(&itr, MNT_ITER_FORWARD); while(mnt_table_next_fs(tb, &itr, &fs) == 0) { rc = fprintf_mtab_fs(file, fs); if (rc) return rc; } if (tb->comms && mnt_table_get_trailing_comment(tb)) fputs(mnt_table_get_trailing_comment(tb), file); if (fflush(file) != 0) rc = -errno; DBG(TAB, ul_debugobj(tb, "write file done [rc=%d]", rc)); return rc; } /** * mnt_table_replace_file * @tb: parsed file (e.g. fstab) * @filename: target * * This function replaces @file by the new content from @tb. * * Returns: 0 on success, negative number on error. */ int mnt_table_replace_file(struct libmnt_table *tb, const char *filename) { int fd, rc = 0; FILE *f; char *uq = NULL; DBG(TAB, ul_debugobj(tb, "%s: replacing", filename)); fd = mnt_open_uniq_filename(filename, &uq); if (fd < 0) return fd; /* error */ f = fdopen(fd, "w" UL_CLOEXECSTR); if (f) { struct stat st; mnt_table_write_file(tb, f); if (fflush(f) != 0) { rc = -errno; DBG(UPDATE, ul_debug("%s: fflush failed: %m", uq)); goto leave; } rc = fchmod(fd, S_IRUSR|S_IWUSR|S_IRGRP|S_IROTH) ? -errno : 0; if (!rc && stat(filename, &st) == 0) /* Copy uid/gid from the present file before renaming. */ rc = fchown(fd, st.st_uid, st.st_gid) ? -errno : 0; fclose(f); f = NULL; if (!rc) rc = rename(uq, filename) ? -errno : 0; } else { rc = -errno; close(fd); } leave: if (f) fclose(f); unlink(uq); free(uq); DBG(TAB, ul_debugobj(tb, "replace done [rc=%d]", rc)); return rc; } static int add_file_entry(struct libmnt_table *tb, struct libmnt_update *upd) { struct libmnt_fs *fs; assert(upd); fs = mnt_copy_fs(NULL, upd->fs); if (!fs) return -ENOMEM; mnt_table_add_fs(tb, fs); mnt_unref_fs(fs); return update_table(upd, tb); } static int update_add_entry(struct libmnt_update *upd, struct libmnt_lock *lc) { struct libmnt_table *tb; int rc = 0; assert(upd); assert(upd->fs); DBG(UPDATE, ul_debugobj(upd, "%s: add entry", upd->filename)); if (lc) rc = mnt_lock_file(lc); if (rc) return -MNT_ERR_LOCK; tb = __mnt_new_table_from_file(upd->filename, upd->userspace_only ? MNT_FMT_UTAB : MNT_FMT_MTAB, 1); if (tb) rc = add_file_entry(tb, upd); if (lc) mnt_unlock_file(lc); mnt_unref_table(tb); return rc; } static int update_remove_entry(struct libmnt_update *upd, struct libmnt_lock *lc) { struct libmnt_table *tb; int rc = 0; assert(upd); assert(upd->target); DBG(UPDATE, ul_debugobj(upd, "%s: remove entry", upd->filename)); if (lc) rc = mnt_lock_file(lc); if (rc) return -MNT_ERR_LOCK; tb = __mnt_new_table_from_file(upd->filename, upd->userspace_only ? MNT_FMT_UTAB : MNT_FMT_MTAB, 1); if (tb) { struct libmnt_fs *rem = mnt_table_find_target(tb, upd->target, MNT_ITER_BACKWARD); if (rem) { mnt_table_remove_fs(tb, rem); rc = update_table(upd, tb); } } if (lc) mnt_unlock_file(lc); mnt_unref_table(tb); return rc; } static int update_modify_target(struct libmnt_update *upd, struct libmnt_lock *lc) { struct libmnt_table *tb = NULL; int rc = 0; assert(upd); DBG(UPDATE, ul_debugobj(upd, "%s: modify target", upd->filename)); if (lc) rc = mnt_lock_file(lc); if (rc) return -MNT_ERR_LOCK; tb = __mnt_new_table_from_file(upd->filename, upd->userspace_only ? MNT_FMT_UTAB : MNT_FMT_MTAB, 1); if (tb) { struct libmnt_fs *cur = mnt_table_find_target(tb, mnt_fs_get_srcpath(upd->fs), MNT_ITER_BACKWARD); if (cur) { rc = mnt_fs_set_target(cur, mnt_fs_get_target(upd->fs)); if (!rc) rc = update_table(upd, tb); } } if (lc) mnt_unlock_file(lc); mnt_unref_table(tb); return rc; } static int update_modify_options(struct libmnt_update *upd, struct libmnt_lock *lc) { struct libmnt_table *tb = NULL; int rc = 0; struct libmnt_fs *fs; assert(upd); assert(upd->fs); DBG(UPDATE, ul_debugobj(upd, "%s: modify options", upd->filename)); fs = upd->fs; if (lc) rc = mnt_lock_file(lc); if (rc) return -MNT_ERR_LOCK; tb = __mnt_new_table_from_file(upd->filename, upd->userspace_only ? MNT_FMT_UTAB : MNT_FMT_MTAB, 1); if (tb) { struct libmnt_fs *cur = mnt_table_find_target(tb, mnt_fs_get_target(fs), MNT_ITER_BACKWARD); if (cur) { if (upd->userspace_only) rc = mnt_fs_set_attributes(cur, mnt_fs_get_attributes(fs)); if (!rc) rc = mnt_fs_set_options(cur, mnt_fs_get_options(fs)); if (!rc) rc = update_table(upd, tb); } else rc = add_file_entry(tb, upd); /* not found, add new */ } if (lc) mnt_unlock_file(lc); mnt_unref_table(tb); return rc; } /** * mnt_update_table: * @upd: update * @lc: lock or NULL * * High-level API to update /etc/mtab (or private /run/mount/utab file). * * The @lc lock is optional and will be created if necessary. Note that * an automatically created lock blocks all signals. * * See also mnt_lock_block_signals() and mnt_context_get_lock(). * * Returns: 0 on success, negative number on error. */ int mnt_update_table(struct libmnt_update *upd, struct libmnt_lock *lc) { struct libmnt_lock *lc0 = lc; int rc = -EINVAL; if (!upd || !upd->filename) return -EINVAL; if (!upd->ready) return 0; DBG(UPDATE, ul_debugobj(upd, "%s: update tab", upd->filename)); if (upd->fs) { DBG(UPDATE, mnt_fs_print_debug(upd->fs, stderr)); } if (!lc) { lc = mnt_new_lock(upd->filename, 0); if (lc) mnt_lock_block_signals(lc, TRUE); } if (lc && upd->userspace_only) mnt_lock_use_simplelock(lc, TRUE); /* use flock */ if (!upd->fs && upd->target) rc = update_remove_entry(upd, lc); /* umount */ else if (upd->mountflags & MS_MOVE) rc = update_modify_target(upd, lc); /* move */ else if (upd->mountflags & MS_REMOUNT) rc = update_modify_options(upd, lc); /* remount */ else if (upd->fs) rc = update_add_entry(upd, lc); /* mount */ upd->ready = FALSE; DBG(UPDATE, ul_debugobj(upd, "%s: update tab: done [rc=%d]", upd->filename, rc)); if (lc != lc0) mnt_free_lock(lc); return rc; } int mnt_update_already_done(struct libmnt_update *upd, struct libmnt_lock *lc) { struct libmnt_table *tb = NULL; struct libmnt_lock *lc0 = lc; int rc = 0; if (!upd || !upd->filename || (!upd->fs && !upd->target)) return -EINVAL; DBG(UPDATE, ul_debugobj(upd, "%s: checking for previous update", upd->filename)); if (!lc) { lc = mnt_new_lock(upd->filename, 0); if (lc) mnt_lock_block_signals(lc, TRUE); } if (lc && upd->userspace_only) mnt_lock_use_simplelock(lc, TRUE); /* use flock */ if (lc) { rc = mnt_lock_file(lc); if (rc) { rc = -MNT_ERR_LOCK; goto done; } } tb = __mnt_new_table_from_file(upd->filename, upd->userspace_only ? MNT_FMT_UTAB : MNT_FMT_MTAB, 1); if (lc) mnt_unlock_file(lc); if (!tb) goto done; if (upd->fs) { /* mount */ const char *tgt = mnt_fs_get_target(upd->fs); const char *src = mnt_fs_get_bindsrc(upd->fs) ? mnt_fs_get_bindsrc(upd->fs) : mnt_fs_get_source(upd->fs); if (mnt_table_find_pair(tb, src, tgt, MNT_ITER_BACKWARD)) { DBG(UPDATE, ul_debugobj(upd, "%s: found %s %s", upd->filename, src, tgt)); rc = 1; } } else if (upd->target) { /* umount */ if (!mnt_table_find_target(tb, upd->target, MNT_ITER_BACKWARD)) { DBG(UPDATE, ul_debugobj(upd, "%s: not-found (umounted) %s", upd->filename, upd->target)); rc = 1; } } mnt_unref_table(tb); done: if (lc && lc != lc0) mnt_free_lock(lc); DBG(UPDATE, ul_debugobj(upd, "%s: previous update check done [rc=%d]", upd->filename, rc)); return rc; } #ifdef TEST_PROGRAM static int update(const char *target, struct libmnt_fs *fs, unsigned long mountflags) { int rc; struct libmnt_update *upd; DBG(UPDATE, ul_debug("update test")); upd = mnt_new_update(); if (!upd) return -ENOMEM; rc = mnt_update_set_fs(upd, mountflags, target, fs); if (rc == 1) { /* update is unnecessary */ rc = 0; goto done; } if (rc) { fprintf(stderr, "failed to set FS\n"); goto done; } /* [... mount(2) call should be here...] */ rc = mnt_update_table(upd, NULL); done: mnt_free_update(upd); return rc; } static int test_add(struct libmnt_test *ts, int argc, char *argv[]) { struct libmnt_fs *fs = mnt_new_fs(); int rc; if (argc < 5 || !fs) return -1; mnt_fs_set_source(fs, argv[1]); mnt_fs_set_target(fs, argv[2]); mnt_fs_set_fstype(fs, argv[3]); mnt_fs_set_options(fs, argv[4]); rc = update(NULL, fs, 0); mnt_unref_fs(fs); return rc; } static int test_remove(struct libmnt_test *ts, int argc, char *argv[]) { if (argc < 2) return -1; return update(argv[1], NULL, 0); } static int test_move(struct libmnt_test *ts, int argc, char *argv[]) { struct libmnt_fs *fs = mnt_new_fs(); int rc; if (argc < 3) return -1; mnt_fs_set_source(fs, argv[1]); mnt_fs_set_target(fs, argv[2]); rc = update(NULL, fs, MS_MOVE); mnt_unref_fs(fs); return rc; } static int test_remount(struct libmnt_test *ts, int argc, char *argv[]) { struct libmnt_fs *fs = mnt_new_fs(); int rc; if (argc < 3) return -1; mnt_fs_set_target(fs, argv[1]); mnt_fs_set_options(fs, argv[2]); rc = update(NULL, fs, MS_REMOUNT); mnt_unref_fs(fs); return rc; } static int test_replace(struct libmnt_test *ts, int argc, char *argv[]) { struct libmnt_fs *fs = mnt_new_fs(); struct libmnt_table *tb = mnt_new_table(); int rc; if (argc < 3) return -1; mnt_table_enable_comments(tb, TRUE); mnt_table_parse_fstab(tb, NULL); mnt_fs_set_source(fs, argv[1]); mnt_fs_set_target(fs, argv[2]); mnt_fs_append_comment(fs, "# this is new filesystem\n"); mnt_table_add_fs(tb, fs); mnt_unref_fs(fs); rc = mnt_table_replace_file(tb, mnt_get_fstab_path()); mnt_unref_table(tb); return rc; } int main(int argc, char *argv[]) { struct libmnt_test tss[] = { { "--add", test_add, " add a line to mtab" }, { "--remove", test_remove, " MS_REMOUNT mtab change" }, { "--move", test_move, " MS_MOVE mtab change" }, { "--remount",test_remount, " MS_REMOUNT mtab change" }, { "--replace",test_replace, " Add a line to LIBMOUNT_FSTAB and replace the original file" }, { NULL } }; return mnt_run_test(tss, argc, argv); } #endif /* TEST_PROGRAM */