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|
/*
* Copyright (C) 2010 Karel Zak <kzak@redhat.com>
*
* This file may be redistributed under the terms of the
* GNU Lesser General Public License.
*/
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <string.h>
#include <errno.h>
#include "c.h"
#include "mountP.h"
/**
* mnt_new_context:
*
* Returns: newly allocated mount context
*/
mnt_context *mnt_new_context()
{
mnt_context *cxt;
uid_t ruid, euid;
cxt = calloc(1, sizeof(*cxt));
if (!cxt)
return NULL;
ruid = getuid();
euid = geteuid();
cxt->syscall_status = 1; /* not called yet */
cxt->helper_exec_status = 1;
/* if we're really root and aren't running setuid */
cxt->restricted = (uid_t) 0 == ruid && ruid == euid ? 0 : 1;
DBG(CXT, mnt_debug_h(cxt, "allocate %s",
cxt->restricted ? "[RESTRICTED]" : ""));
mnt_has_regular_mtab(&cxt->mtab_path, &cxt->mtab_writable);
if (!cxt->mtab_writable)
/* use /dev/.mount/utab if /etc/mtab is useless */
mnt_has_regular_mtab(&cxt->utab_path, &cxt->utab_writable);
return cxt;
}
/**
* mnt_free_context:
* @cxt: mount context
*
* Deallocates context struct.
*/
void mnt_free_context(mnt_context *cxt)
{
if (!cxt)
return;
mnt_reset_context(cxt);
DBG(CXT, mnt_debug_h(cxt, "free"));
free(cxt->fstype_pattern);
free(cxt->optstr_pattern);
if (!(cxt->flags & MNT_FL_EXTERN_FSTAB))
mnt_free_tab(cxt->fstab);
if (!(cxt->flags & MNT_FL_EXTERN_CACHE))
mnt_free_cache(cxt->cache);
mnt_free_lock(cxt->lock);
mnt_free_update(cxt->update);
free(cxt);
}
/**
* mnt_reset_context:
* @cxt: mount context
*
* Resets all information in the context that are directly related to
* the latest mount (spec, source, target, mount options, ....)
*
* The match patters, cached fstab, cached canonicalized paths and tags and
* [e]uid are not reseted. You have to use
*
* mnt_context_set_fstab(cxt, NULL);
* mnt_context_set_cache(cxt, NULL);
* mnt_context_set_fstype_pattern(cxt, NULL);
* mnt_context_set_optstr_pattern(cxt, NULL);
*
* to reset these stuff.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_reset_context(mnt_context *cxt)
{
int fl;
if (!cxt)
return -EINVAL;
fl = cxt->flags;
if (!(cxt->flags & MNT_FL_EXTERN_FS))
mnt_free_fs(cxt->fs);
mnt_free_tab(cxt->mtab);
free(cxt->helper);
free(cxt->orig_user);
cxt->fs = NULL;
cxt->mtab = NULL;
cxt->ambi = 0;
cxt->helper = NULL;
cxt->orig_user = NULL;
cxt->mountflags = 0;
cxt->user_mountflags = 0;
cxt->mountdata = NULL;
cxt->flags = MNT_FL_DEFAULT;
cxt->syscall_status = 1;
cxt->helper_exec_status = 1;
cxt->helper_status = 0;
/* restore non-resetable flags */
cxt->flags |= (fl & MNT_FL_EXTERN_FSTAB);
cxt->flags |= (fl & MNT_FL_EXTERN_CACHE);
return 0;
}
static int set_flag(mnt_context *cxt, int flag, int enable)
{
if (!cxt)
return -EINVAL;
if (enable)
cxt->flags |= flag;
else
cxt->flags &= ~flag;
return 0;
}
/**
* mnt_context_is_restricted:
* @cxt: mount context
*
* Returns: 0 for unrestricted mount (user is root), or 1 for non-root mounts
*/
int mnt_context_is_restricted(mnt_context *cxt)
{
assert(cxt);
return cxt->restricted;
}
/**
* mnt_context_set_optsmode
* @cxt: mount context
* @mode: MNT_OPTSMODE_{AUTO,FORCE,IGNORE,MTABFORCE}
*
* Defines a mode how libmount uses fstab mount options:
*
* auto - use options from fstab if source or target are not
* defined (this is mount(8) default).
*
* - For remount operation it reads options from mtab if
* the target is not found in fstab.
*
* ignore - never use mount options from fstab
*
* force - always use mount options from fstab
*
* mtab-force - for remount operation always use options from mtab (mountinfo)
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_optsmode(mnt_context *cxt, int mode)
{
if (!cxt)
return -EINVAL;
cxt->optsmode = mode;
return 0;
}
/**
* mnt_context_disable_canonicalize:
* @cxt: mount context
* @disable: TRUE or FALSE
*
* Enable/disable paths canonicalization and tags evaluation. The libmount context
* canonicalies paths when search in fstab and when prepare source and target paths
* for mount(2) syscall.
*
* This fuction has effect to the private fstab instance only (see
* mnt_context_set_fstab()). If you want to use an external fstab then you need
* manage your private mnt_cache (see mnt_tab_set_cache(fstab, NULL).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_disable_canonicalize(mnt_context *cxt, int disable)
{
return set_flag(cxt, MNT_FL_NOCANONICALIZE, disable);
}
/**
* mnt_context_enable_lazy:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Enable/disable lazy umount (see umount(8) man page, option -l).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_lazy(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_LAZY, enable);
}
/**
* mnt_context_enable_rdonly_umount:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Enable/disable read-only remount on failed umount(2)
* (see umount(8) man page, option -r).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_rdonly_umount(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_RDONLY_UMOUNT, enable);
}
/**
* mnt_context_disable_helpers:
* @cxt: mount context
* @disable: TRUE or FALSE
*
* Enable/disable /sbin/[u]mount.* helpers (see mount(8) man page, option -i).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_disable_helpers(mnt_context *cxt, int disable)
{
return set_flag(cxt, MNT_FL_NOHELPERS, disable);
}
/**
* mnt_context_enable_sloppy:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Set/unset sloppy mounting (see mount(8) man page, option -s).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_sloppy(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_SLOPPY, enable);
}
/**
* mnt_context_enable_fake:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Enable/disable fake mounting (see mount(8) man page, option -f).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_fake(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_FAKE, enable);
}
/**
* mnt_context_disable_mtab:
* @cxt: mount context
* @disable: TRUE or FALSE
*
* Disable/enable mtab update (see mount(8) man page, option -n).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_disable_mtab(mnt_context *cxt, int disable)
{
return set_flag(cxt, MNT_FL_NOMTAB, disable);
}
/**
* mnt_context_disable_lock:
* @cxt: mount context
* @disable: TRUE or FALSE
*
* Disable/enable mtab lock.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_disable_lock(mnt_context *cxt, int disable)
{
return set_flag(cxt, MNT_FL_NOLOCK, disable);
}
/**
* mnt_context_enable_force:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Enable/disable force umounting (see umount(8) man page, option -f).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_force(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_FORCE, enable);
}
/**
* mnt_context_enable_verbose:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Enable/disable verbose output (see also mnt_context_mount_strerror()).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_verbose(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_VERBOSE, enable);
}
/**
* mnt_context_enable_loopdel:
* @cxt: mount context
* @enable: TRUE or FALSE
*
* Enable/disable loop delete (destroy) after umount (see umount(8), option -d)
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_enable_loopdel(mnt_context *cxt, int enable)
{
return set_flag(cxt, MNT_FL_LOOPDEL, enable);
}
/**
* mnt_context_set_fs:
* @cxt: mount context
* @fs: filesystem description
*
* The mount context uses private @fs by default. This function allows to
* overwrite the private @fs with an external instance. Note that the external
* @fs instance is not deallocated by mnt_free_context() or mnt_reset_context().
*
* The @fs will be modified by mnt_context_set_{source,target,optstr,fstype}
* functions, Ft the @fs is NULL then all current FS specific setting (source,
* target, etc., exclude spec) is reseted.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_fs(mnt_context *cxt, mnt_fs *fs)
{
if (!cxt)
return -EINVAL;
if (!(cxt->flags & MNT_FL_EXTERN_FS))
mnt_free_fs(cxt->fs);
set_flag(cxt, MNT_FL_EXTERN_FS, fs != NULL);
cxt->fs = fs;
return 0;
}
mnt_fs *mnt_context_get_fs(mnt_context *cxt)
{
if (!cxt)
return NULL;
if (!cxt->fs) {
cxt->fs = mnt_new_fs();
cxt->flags &= ~MNT_FL_EXTERN_FS;
}
return cxt->fs;
}
/**
* mnt_context_set_source:
* @cxt: mount context
* @source: mount source (device, directory, UUID, LABEL, ...)
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_source(mnt_context *cxt, const char *source)
{
return mnt_fs_set_source(mnt_context_get_fs(cxt), source);
}
/**
* mnt_context_set_target:
* @cxt: mount context
* @target: mountpoint
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_target(mnt_context *cxt, const char *target)
{
return mnt_fs_set_target(mnt_context_get_fs(cxt), target);
}
/**
* mnt_context_set_fstype:
* @cxt: mount context
* @fstype: filesystem type
*
* Note that the @fstype has to be the real FS type. For comma-separated list of
* filesystems or for "no<fs>" notation use mnt_context_set_fstype_pattern().
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_fstype(mnt_context *cxt, const char *fstype)
{
if (fstype && strchr(fstype, ','))
return -EINVAL;
return mnt_fs_set_fstype(mnt_context_get_fs(cxt), fstype);
}
/**
* mnt_context_set_optstr:
* @cxt: mount context
* @optstr: comma delimited mount options
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_optstr(mnt_context *cxt, const char *optstr)
{
return mnt_fs_set_optstr(mnt_context_get_fs(cxt), optstr);
}
/**
* mnt_context_append_optstr:
* @cxt: mount context
* @optstr: comma delimited mount options
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_append_optstr(mnt_context *cxt, const char *optstr)
{
return mnt_fs_append_optstr(mnt_context_get_fs(cxt), optstr);
}
/**
* mnt_context_set_fstype_pattern:
* @cxt: mount context
* @pattern: FS name pattern (or NULL to reset the current setting)
*
* See mount(8), option -t.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_fstype_pattern(mnt_context *cxt, const char *pattern)
{
char *p = NULL;
if (!cxt)
return -EINVAL;
if (pattern) {
p = strdup(pattern);
if (!p)
return -ENOMEM;
}
free(cxt->fstype_pattern);
cxt->fstype_pattern = p;
return 0;
}
/**
* mnt_context_set_optstr_pattern:
* @cxt: mount context
* @pattern: options pattern (or NULL to reset the current setting)
*
* See mount(8), option -O.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_optstr_pattern(mnt_context *cxt, const char *pattern)
{
char *p = NULL;
if (!cxt)
return -EINVAL;
if (pattern) {
p = strdup(pattern);
if (!p)
return -ENOMEM;
}
free(cxt->optstr_pattern);
cxt->optstr_pattern = p;
return 0;
}
/**
* mnt_context_set_fstab:
* @cxt: mount context
* @tb: fstab
*
* The mount context reads /etc/fstab to the the private mnt_tab by default.
* This function allows to overwrite the private fstab with an external
* instance. Note that the external instance is not deallocated by mnt_free_context().
*
* The fstab is used read-only and is not modified, it should be possible to
* share the fstab between more mount contexts (TODO: tests it.)
*
* If the @tb argument is NULL then the current private fstab instance is
* reseted.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_fstab(mnt_context *cxt, mnt_tab *tb)
{
if (!cxt)
return -EINVAL;
if (!(cxt->flags & MNT_FL_EXTERN_FSTAB))
mnt_free_tab(cxt->fstab);
set_flag(cxt, MNT_FL_EXTERN_FSTAB, tb != NULL);
cxt->fstab = tb;
return 0;
}
/**
* mnt_context_get_fstab:
* @cxt: mount context
* @tb: returns fstab
*
* See also mnt_tab_parse_fstab() for more details about fstab.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_get_fstab(mnt_context *cxt, mnt_tab **tb)
{
mnt_cache *cache;
if (!cxt)
return -EINVAL;
if (!cxt->fstab) {
int rc;
cxt->fstab = mnt_new_tab();
if (!cxt->fstab)
return -ENOMEM;
cxt->flags &= ~MNT_FL_EXTERN_FSTAB;
rc = mnt_tab_parse_fstab(cxt->fstab, NULL);
if (rc)
return rc;
}
cache = mnt_context_get_cache(cxt);
/* never touch an external fstab */
if (!(cxt->flags & MNT_FL_EXTERN_FSTAB))
mnt_tab_set_cache(cxt->fstab, cache);
if (tb)
*tb = cxt->fstab;
return 0;
}
/**
* mnt_context_get_mtab:
* @cxt: mount context
* @tb: returns mtab
*
* See also mnt_tab_parse_mtab() for more details about mtab/mountinfo.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_get_mtab(mnt_context *cxt, mnt_tab **tb)
{
mnt_cache *cache;
if (!cxt)
return -EINVAL;
if (!cxt->mtab) {
int rc;
cxt->mtab = mnt_new_tab();
if (!cxt->mtab)
return -ENOMEM;
rc = mnt_tab_parse_mtab(cxt->mtab, cxt->mtab_path);
if (rc)
return rc;
}
cache = mnt_context_get_cache(cxt);
mnt_tab_set_cache(cxt->mtab, cache);
if (tb)
*tb = cxt->mtab;
return 0;
}
/**
* mnt_context_set_cache:
* @cxt: mount context
* @cache: cache instance or nULL
*
* The mount context maintains a private mnt_cache by default. This function
* allows to overwrite the private cache with an external instance. Note that
* the external instance is not deallocated by mnt_free_context().
*
* If the @cache argument is NULL then the current private cache instance is
* reseted.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_cache(mnt_context *cxt, mnt_cache *cache)
{
if (!cxt)
return -EINVAL;
if (!(cxt->flags & MNT_FL_EXTERN_CACHE))
mnt_free_cache(cxt->cache);
set_flag(cxt, MNT_FL_EXTERN_CACHE, cache != NULL);
cxt->cache = cache;
return 0;
}
/**
* mnt_context_get_cache
* @cxt: mount context
*
* See also mnt_context_set_cache().
*
* Returns: pointer to cache or NULL if canonicalization is disabled.
*/
mnt_cache *mnt_context_get_cache(mnt_context *cxt)
{
if (!cxt || (cxt->flags & MNT_FL_NOCANONICALIZE))
return NULL;
if (!cxt->cache) {
cxt->cache = mnt_new_cache();
if (!cxt->cache)
return NULL;
cxt->flags &= ~MNT_FL_EXTERN_CACHE;
}
return cxt->cache;
}
/**
* mnt_context_get_lock:
* @cxt: mount context
*
* The application that uses libmount context does not have to care about
* mtab locking, but with a small exceptions: the application has to be able to
* remove the lock file when interrupted by signal. It means that properly written
* mount(8)-like application has to call mnt_unlock_file() from a signal handler.
*
* See also mnt_unlock_file(), mnt_context_disable_lock() and
* mnt_context_disable_mtab().
*
* This function returns NULL if mtab file is not writable or nolock or nomtab
* flags is enabled.
*
* Returns: pointer to lock struct or NULL.
*/
mnt_lock *mnt_context_get_lock(mnt_context *cxt)
{
if (!cxt || (cxt->flags & MNT_FL_NOMTAB) || !cxt->mtab_writable)
return NULL;
if (!cxt->lock && cxt->mtab_path)
cxt->lock = mnt_new_lock(cxt->mtab_path, 0);
return cxt->lock;
}
/**
* mnt_context_set_mountflags:
* @cxt: mount context
* @flags: mount(2) flags (MS_* flags)
*
* Note that mount context allows to define mount options by mount flags. It
* means you can for example use
*
* mnt_context_set_mountflags(cxt, MS_NOEXEC | MS_NOSUID);
*
* rather than
*
* mnt_context_set_optstr(cxt, "noexec,nosuid");
*
* these both calls have the same effect.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_mountflags(mnt_context *cxt, unsigned long flags)
{
if (!cxt)
return -EINVAL;
cxt->mountflags = flags;
return 0;
}
/**
* mnt_context_get_mountflags:
* @cxt: mount context
* @flags: returns mount flags
*
* Converts mount options string to MS_* flags and bitewise-OR the result with
* already defined flags (see mnt_context_set_mountflags()).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_get_mountflags(mnt_context *cxt, unsigned long *flags)
{
int rc = 0;
if (!cxt || !flags)
return -EINVAL;
*flags = 0;
if (!(cxt->flags & MNT_FL_MOUNTFLAGS_MERGED) && cxt->fs) {
const char *o = mnt_fs_get_optstr(cxt->fs);
if (o)
rc = mnt_optstr_get_mountflags(o, flags);
}
if (!rc)
*flags |= cxt->mountflags;
return rc;
}
/**
* mnt_context_set_userspace_mountflags:
* @cxt: mount context
* @flags: mount(2) flags (MNT_MS_* flags, e.g. MNT_MS_LOOP)
*
* See also notest for mnt_context_set_mountflags().
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_userspace_mountflags(mnt_context *cxt, unsigned long flags)
{
if (!cxt)
return -EINVAL;
cxt->user_mountflags = flags;
return 0;
}
/**
* mnt_context_get_userspace_mountflags:
* @cxt: mount context
* @flags: returns mount flags
*
* Converts mount options string to MNT_MS_* flags and bitewise-OR the result with
* already defined flags (see mnt_context_set_userspace_mountflags()).
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_get_userspace_mountflags(mnt_context *cxt, unsigned long *flags)
{
int rc = 0;
if (!cxt || !flags)
return -EINVAL;
*flags = 0;
if (!(cxt->flags & MNT_FL_MOUNTFLAGS_MERGED) && cxt->fs) {
const char *o = mnt_fs_get_optstr(cxt->fs);
if (o)
rc = mnt_optstr_get_userspace_mountflags(o, flags);
}
if (!rc)
*flags |= cxt->user_mountflags;
return rc;
}
static int is_loop(mnt_context *cxt)
{
unsigned long fl = 0;
if (cxt->user_mountflags & MNT_MS_LOOP)
return 1;
if (!mnt_context_get_mountflags(cxt, &fl) && (fl & MNT_MS_LOOP))
return 1;
/* TODO:
* - support MNT_MS_{OFFSET,SIZELIMIT,ENCRYPTION}
*/
return 0;
}
/**
* mnt_context_set_mountdata:
* @cxt: mount context
* @data: mount(2) data
*
* The mount context generates mountdata from mount options by default. This
* function allows to overwrite this behavior, and @data will be used instead
* of mount options.
*
* The libmount does not deallocated the data by mnt_free_context(). Note that
* NULL is also valid mount data.
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_set_mountdata(mnt_context *cxt, void *data)
{
if (!cxt)
return -EINVAL;
cxt->mountdata = data;
cxt->flags |= MNT_FL_MOUNTDATA;
return 0;
}
/*
* Translates LABEL/UUID/path to mountable path
*/
int mnt_context_prepare_srcpath(mnt_context *cxt)
{
const char *path = NULL, *type;
mnt_cache *cache;
const char *t, *v, *src;
int rc = 0;
assert(cxt);
assert(cxt->fs);
assert((cxt->flags & MNT_FL_MOUNTFLAGS_MERGED));
if (!cxt || !cxt->fs)
return -EINVAL;
DBG(CXT, mnt_debug_h(cxt, "preparing source path"));
src = mnt_fs_get_source(cxt->fs);
/* ignore filesystems without a real source */
if (!src || (cxt->fs->flags & (MNT_FS_PSEUDO | MNT_FS_NET)))
return 0;
DBG(CXT, mnt_debug_h(cxt, "srcpath '%s'", src));
cache = mnt_context_get_cache(cxt);
type = mnt_fs_get_fstype(cxt->fs);
if (!mnt_fs_get_tag(cxt->fs, &t, &v)) {
/*
* Source is TAG (evaluate)
*/
if (cache)
path = mnt_resolve_tag(t, v, cache);
rc = path ? mnt_fs_set_source(cxt->fs, path) : -EINVAL;
} else if (!type || (strncmp(type, "9p", 2) &&
strncmp(type, "nfs", 3) &&
strncmp(type, "cifs", 4) &&
strncmp(type, "smbfs", 5))) {
/*
* Source is PATH (canonicalize)
*/
if (cache) {
path = mnt_resolve_path(src, cache);
if (strcmp(path, src))
rc = mnt_fs_set_source(cxt->fs, path);
}
}
if (rc) {
DBG(CXT, mnt_debug_h(cxt, "failed to prepare srcpath"));
return rc;
}
if (!path)
path = src;
/*
* Initialize loop device
*/
if (is_loop(cxt) &&
!(cxt->mountflags & (MS_BIND | MS_MOVE |
MS_PROPAGATION | MS_REMOUNT))) {
; /* TODO */
}
DBG(CXT, mnt_debug_h(cxt, "final srcpath '%s'", path));
return 0;
}
int mnt_context_guess_fstype(mnt_context *cxt)
{
char *type;
const char *dev;
int rc = -EINVAL;
assert(cxt);
assert(cxt->fs);
assert((cxt->flags & MNT_FL_MOUNTFLAGS_MERGED));
if (!cxt || !cxt->fs)
return -EINVAL;
if (cxt->mountflags & (MS_BIND | MS_MOVE | MS_PROPAGATION))
goto none;
type = (char *) mnt_fs_get_fstype(cxt->fs);
if (type && !strcmp(type, "auto")) {
mnt_fs_set_fstype(cxt->fs, NULL);
type = NULL;
}
if (type)
goto done;
if (cxt->flags & MS_REMOUNT)
goto none;
if (cxt->fstype_pattern)
goto done;
dev = mnt_fs_get_srcpath(cxt->fs);
if (!dev)
goto err;
if (access(dev, F_OK) == 0) {
mnt_cache *cache = mnt_context_get_cache(cxt);
type = mnt_get_fstype(dev, &cxt->ambi, cache);
if (type) {
rc = mnt_fs_set_fstype(cxt->fs, type);
if (!cache)
free(type); /* type is not cached */
}
} else {
if (strchr(dev, ':') != NULL)
rc = mnt_fs_set_fstype(cxt->fs, "nfs");
else if (!strncmp(dev, "//", 2))
rc = mnt_fs_set_fstype(cxt->fs, "cifs");
}
if (rc)
goto err;
done:
DBG(CXT, mnt_debug_h(cxt, "FS type: %s",
mnt_fs_get_fstype(cxt->fs)));
return 0;
none:
return mnt_fs_set_fstype(cxt->fs, "none");
err:
DBG(CXT, mnt_debug_h(cxt, "failed to detect FS type"));
return rc;
}
/*
* The default is to use fstype from cxt->fs, this could be overwritten by
* @type. The @act is MNT_ACT_{MOUNT,UMOUNT}.
*
* Returns: 0 on success or negative number in case of error. Note that success
* does not mean that there is any usable helper, you have to check cxt->helper.
*/
int mnt_context_prepare_helper(mnt_context *cxt, const char *name,
const char *type)
{
char search_path[] = FS_SEARCH_PATH; /* from config.h */
char *p = NULL, *path;
assert(cxt);
assert(cxt->fs);
assert((cxt->flags & MNT_FL_MOUNTFLAGS_MERGED));
if (!type)
type = mnt_fs_get_fstype(cxt->fs);
if ((cxt->flags & MNT_FL_NOHELPERS) || !type ||
!strcmp(type, "none") || (cxt->fs->flags & MNT_FS_SWAP))
return 0;
path = strtok_r(search_path, ":", &p);
while (path) {
char helper[PATH_MAX];
struct stat st;
int rc;
rc = snprintf(helper, sizeof(helper), "%s/%s.%s",
path, name, type);
path = strtok_r(NULL, ":", &p);
if (rc >= sizeof(helper) || rc < 0)
continue;
rc = stat(helper, &st);
if (rc == -1 && errno == ENOENT && strchr(type, '.')) {
/* If type ends with ".subtype" try without it */
*strrchr(helper, '.') = '\0';
rc = stat(helper, &st);
}
DBG(CXT, mnt_debug_h(cxt, "%s ... %s", helper,
rc ? "not found" : "found"));
if (rc)
continue;
if (cxt->helper)
free(cxt->helper);
cxt->helper = strdup(helper);
if (!cxt->helper)
return -ENOMEM;
return 0;
}
return 0;
}
int mnt_context_merge_mountflags(mnt_context *cxt)
{
unsigned long fl = 0;
int rc;
assert(cxt);
DBG(CXT, mnt_debug_h(cxt, "merging mount flags"));
rc = mnt_context_get_mountflags(cxt, &fl);
if (rc)
return rc;
cxt->mountflags = fl;
fl = 0;
rc = mnt_context_get_userspace_mountflags(cxt, &fl);
if (rc)
return rc;
cxt->user_mountflags = fl;
cxt->flags |= MNT_FL_MOUNTFLAGS_MERGED;
return 0;
}
/*
* Prepare /etc/mtab or /dev/.mount/utab
*/
int mnt_context_prepare_update(mnt_context *cxt)
{
int rc;
const char *target;
assert(cxt);
assert(cxt->fs);
assert(cxt->action);
assert((cxt->flags & MNT_FL_MOUNTFLAGS_MERGED));
target = mnt_fs_get_target(cxt->fs);
if (cxt->action == MNT_ACT_UMOUNT && target && !strcmp(target, "/"))
/* Don't try to touch mtab if umounting root FS */
cxt->flags |= MNT_FL_NOMTAB;
if ((cxt->flags & MNT_FL_NOMTAB) || cxt->helper)
return 0;
if (!cxt->mtab_writable && !cxt->utab_writable)
return 0;
if (!cxt->update) {
cxt->update = mnt_new_update(!cxt->mtab_writable);
if (!cxt->update)
return -ENOMEM;
}
rc = mnt_update_set_fs(cxt->update, cxt->mountflags,
mnt_fs_get_target(cxt->fs),
cxt->action == MNT_ACT_UMOUNT ? NULL : cxt->fs);
return rc < 0 ? rc : 0;
}
int mnt_context_update_tabs(mnt_context *cxt)
{
const char *filename;
mnt_lock *lock = NULL;
assert(cxt);
if ((cxt->flags & MNT_FL_NOMTAB) && cxt->helper)
return 0;
if (!cxt->update || !mnt_update_is_ready(cxt->update))
return 0;
if (cxt->syscall_status)
return 0;
if (mnt_update_is_userspace_only(cxt->update))
filename = cxt->utab_path;
else {
filename = cxt->mtab_path;
lock = mnt_context_get_lock(cxt);
}
assert(filename);
return mnt_update_tab(cxt->update, filename, lock);
}
static int is_remount(mnt_context *cxt)
{
unsigned long fl = 0;
if (cxt->mountflags & MS_REMOUNT)
return 1;
if (!mnt_context_get_mountflags(cxt, &fl) && (fl & MS_REMOUNT))
return 1;
return 0;
}
static int apply_tab(mnt_context *cxt, mnt_tab *tb, int direction)
{
mnt_fs *fs = NULL;
const char *src = NULL, *tgt = NULL;
int rc;
assert(cxt);
assert(cxt->fs);
if (!cxt->fs)
return -EINVAL;
src = mnt_fs_get_source(cxt->fs);
tgt = mnt_fs_get_target(cxt->fs);
if (tgt && src)
; /* TODO: search pair for MNT_OPTSMODE_FORCE */
else {
if (src)
fs = mnt_tab_find_source(tb, src, direction);
else if (tgt)
fs = mnt_tab_find_target(tb, tgt, direction);
if (!fs) {
/* swap source and target (if @src is not LABEL/UUID),
* for example in
*
* mount /foo/bar
*
* the path could be a mountpoint as well as source (for
* example bind mount, symlink to device, ...).
*/
if (src && !mnt_fs_get_tag(cxt->fs, NULL, NULL))
fs = mnt_tab_find_target(tb, src, direction);
if (!fs && tgt)
fs = mnt_tab_find_source(tb, tgt, direction);
}
}
if (!fs)
return -EINVAL;
DBG(CXT, mnt_debug_h(cxt, "apply entry:"));
DBG(CXT, mnt_fs_print_debug(fs, stderr));
/* copy from fstab to our FS description
*/
rc = mnt_fs_set_source(cxt->fs, mnt_fs_get_source(fs));
if (!rc)
rc = mnt_fs_set_target(cxt->fs, mnt_fs_get_target(fs));
if (!rc && !mnt_fs_get_fstype(cxt->fs))
rc = mnt_fs_set_fstype(cxt->fs, mnt_fs_get_fstype(fs));
if (!rc && cxt->optsmode != MNT_OPTSMODE_IGNORE)
rc = mnt_fs_prepend_optstr(cxt->fs, mnt_fs_get_optstr(fs));
if (!rc)
cxt->flags |= MNT_FL_TAB_APPLIED;
return rc;
}
/**
* mnt_context_apply_fstab:
* @cxt: mount context
*
* This function is optional if mnt_context_do_mount() is used. See also
* mnt_context_set_optsmode().
*
* Returns: 0 on success, negative number in case of error.
*/
int mnt_context_apply_fstab(mnt_context *cxt)
{
int rc;
mnt_tab *fstab, *mtab;
const char *src = NULL, *tgt = NULL;
assert(cxt);
assert(cxt->fs);
if (!cxt || !cxt->fs)
return -EINVAL;
if (cxt->flags & MNT_FL_TAB_APPLIED)
return 0;
DBG(CXT, mnt_debug_h(cxt, "appling fstab"));
if (cxt->fs) {
src = mnt_fs_get_source(cxt->fs);
tgt = mnt_fs_get_target(cxt->fs);
}
/* fstab is not required if source and target are specified */
if (src && tgt && !(cxt->optsmode == MNT_OPTSMODE_FORCE ||
cxt->optsmode == MNT_OPTSMODE_MTABFORCE))
return 0;
DBG(CXT, mnt_debug_h(cxt,
"trying to apply fstab (src=%s, target=%s)", src, tgt));
rc = mnt_context_get_fstab(cxt, &fstab);
if (rc)
goto err;
/* let's initialize cxt->fs */
mnt_context_get_fs(cxt);
/* try fstab */
rc = apply_tab(cxt, fstab, MNT_ITER_FORWARD);
/* try mtab */
if (rc || (cxt->optsmode == MNT_OPTSMODE_MTABFORCE && is_remount(cxt))) {
rc = mnt_context_get_mtab(cxt, &mtab);
if (!rc)
rc = apply_tab(cxt, mtab, MNT_ITER_BACKWARD);
if (rc)
goto err;
}
return 0;
err:
DBG(CXT, mnt_debug_h(cxt, "failed to found entry in fstab/mtab"));
return rc;
}
/**
* mnt_context_get_status:
* @cxt: mount context
*
* Returns: 1 if mount.<type> or mount(2) syscall was successfull or 0.
*/
int mnt_context_get_status(mnt_context *cxt)
{
return cxt && (!cxt->syscall_status || !cxt->helper_exec_status);
}
/**
* mnt_context_strerror
* @cxt: context
* @buf: buffer
* @bufsiz: size of the buffer
*
* Returns: 0 or negative number in case of error.
*/
int mnt_context_strerror(mnt_context *cxt, char *buf, size_t bufsiz)
{
/* TODO: based on cxt->syscall_errno or cxt->helper_status */
return 0;
}
#ifdef TEST_PROGRAM
mnt_lock *lock;
static void lock_fallback(void)
{
if (lock)
mnt_unlock_file(lock);
}
int test_mount(struct mtest *ts, int argc, char *argv[])
{
int idx = 1, rc = 0;
mnt_context *cxt;
if (argc < 2)
return -EINVAL;
cxt = mnt_new_context();
if (!cxt)
return -ENOMEM;
if (!strcmp(argv[idx], "-o")) {
mnt_context_set_optstr(cxt, argv[idx + 1]);
idx += 2;
}
if (!strcmp(argv[idx], "-t")) {
/* TODO: use mnt_context_set_fstype_pattern() */
mnt_context_set_fstype(cxt, argv[idx + 1]);
idx += 2;
}
if (argc == idx + 1)
/* mount <mountpont>|<device> */
mnt_context_set_target(cxt, argv[idx++]);
else if (argc == idx + 2) {
/* mount <device> <mountpoint> */
mnt_context_set_source(cxt, argv[idx++]);
mnt_context_set_target(cxt, argv[idx++]);
}
lock = mnt_context_get_lock(cxt);
if (lock)
atexit(lock_fallback);
rc = mnt_context_do_mount(cxt);
if (rc)
printf("failed to mount %s\n", strerror(errno));
mnt_free_context(cxt);
return rc;
}
int test_umount(struct mtest *ts, int argc, char *argv[])
{
int idx = 1, rc = 0;
mnt_context *cxt;
if (argc < 2)
return -EINVAL;
cxt = mnt_new_context();
if (!cxt)
return -ENOMEM;
if (!strcmp(argv[idx], "-t")) {
mnt_context_set_fstype(cxt, argv[idx + 1]);
idx += 2;
}
if (!strcmp(argv[idx], "-f")) {
mnt_context_enable_force(cxt, TRUE);
idx++;
}
if (!strcmp(argv[idx], "-l")) {
mnt_context_enable_lazy(cxt, TRUE);
idx++;
}
if (!strcmp(argv[idx], "-r")) {
mnt_context_enable_rdonly_umount(cxt, TRUE);
idx++;
}
if (argc == idx + 1) {
/* mount <mountpont>|<device> */
mnt_context_set_target(cxt, argv[idx++]);
} else {
rc = -EINVAL;
goto err;
}
lock = mnt_context_get_lock(cxt);
if (lock)
atexit(lock_fallback);
rc = mnt_context_do_umount(cxt);
if (rc)
printf("failed to umount\n");
err:
mnt_free_context(cxt);
return rc;
}
int main(int argc, char *argv[])
{
struct mtest tss[] = {
{ "--mount", test_mount, "[-o <opts>] [-t <type>] <spec>|<src> <target>" },
{ "--umount", test_umount, "[-t <type>] [-f][-l][-r] <src>|<target>" },
{ NULL }};
return mnt_run_test(tss, argc, argv);
}
#endif /* TEST_PROGRAM */
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