mount
,
nmount
,
unmount
—
mount or dismount a file system
library “libc”
#include
<sys/param.h>
#include
<sys/mount.h>
int
mount
(
const
char *type,
const char *dir,
int flags,
void *data);
int
unmount
(
const
char *dir,
int
flags);
#include
<sys/uio.h>
int
nmount
(
struct
iovec *iov,
u_int niov,
int flags);
The
mount
() system call grafts a file system
object onto the system file tree at the point
dir. The argument
data describes the file system object to be
mounted. The argument
type tells the kernel
how to interpret
data (See
type below). The contents of the file system
become available through the new mount point
dir. Any files in
dir at the time of a successful mount are
swept under the carpet so to speak, and are unavailable until the file system
is unmounted.
The
nmount
() system call behaves similarly to
mount
(), except that the mount options
(file system type name, device to mount, mount-point name, etc.) are passed as
an array of name-value pairs in the array
iov, containing
niov elements. The following options are
required by all file systems:
fstype
file system type name (e.g., Dq Li procfs)
fspath
mount point pathname (e.g., Dq Li /proc)
Depending on the file system type, other options may be recognized or required;
for example, most disk-based file systems require a
“
from
” option containing the pathname of
a special device in addition to the options listed above.
By default only the super-user may call the
mount
() system call. This restriction can
be removed by setting the
vfs.usermount
sysctl(8)
variable to a non-zero value; see the BUGS section for more information.
The following
flags may be specified to
suppress default semantics which affect file system access.
-
-
MNT_RDONLY
- The file system should be treated as read-only; even the super-user may
not write on it. Specifying MNT_UPDATE without this option will upgrade a
read-only file system to read/write.
-
-
MNT_NOEXEC
- Do not allow files to be executed from the file system.
-
-
MNT_NOSUID
- Do not honor setuid or setgid bits on files when executing them. This flag
is set automatically when the caller is not the super-user.
-
-
MNT_NOATIME
- Disable update of file access times.
-
-
MNT_SNAPSHOT
- Create a snapshot of the file system. This is currently only supported on
UFS2 file systems, see
mksnap_ffs(8)
for more information.
-
-
MNT_SUIDDIR
- Directories with the SUID bit set chown new files to their own owner. This
flag requires the SUIDDIR option to have been compiled into the kernel to
have any effect. See the
mount(8)
and
chmod(2)
pages for more information.
-
-
MNT_SYNCHRONOUS
- All I/O to the file system should be done synchronously.
-
-
MNT_ASYNC
- All I/O to the file system should be done asynchronously.
-
-
MNT_FORCE
- Force a read-write mount even if the file system appears to be unclean.
Dangerous. Together with
MNT_UPDATE
and
MNT_RDONLY
, specify that the file
system is to be forcibly downgraded to a read-only mount even if some
files are open for writing.
-
-
MNT_NOCLUSTERR
- Disable read clustering.
-
-
MNT_NOCLUSTERW
- Disable write clustering.
The flag
MNT_UPDATE
indicates that the mount
command is being applied to an already mounted file system. This allows the
mount flags to be changed without requiring that the file system be unmounted
and remounted. Some file systems may not allow all flags to be changed. For
example, many file systems will not allow a change from read-write to
read-only.
The flag
MNT_RELOAD
causes the vfs subsystem
to update its data structures pertaining to the specified already mounted file
system.
The
type argument names the file system. The
types of file systems known to the system can be obtained with
lsvfs(1).
The
data argument is a pointer to a structure
that contains the type specific arguments to mount. The format for these
argument structures is described in the manual page for each file system. By
convention file system manual pages are named by prefixing ``mount_'' to the
name of the file system as returned by
lsvfs(1).
Thus the NFS file system is described by the
mount_nfs(8)
manual page. It should be noted that a manual page for default file systems,
known as UFS and UFS2, does not exist.
The
unmount
() system call disassociates the
file system from the specified mount point
dir.
The
flags argument may include
MNT_FORCE
to specify that the file system
should be forcibly unmounted even if files are still active. Active special
devices continue to work, but any further accesses to any other active files
result in errors even if the file system is later remounted.
If the
MNT_BYFSID
flag is specified,
dir should instead be a file system ID
encoded as
“
FSID
:
val0:
val1”,
where
val0 and
val1 are the contents of the
fsid_t val[]
array in decimal. The file system that has the specified file system ID will
be unmounted.
Upon successful completion, the value 0 is returned; otherwise the
value -1 is returned and the global variable
errno is set to indicate the error.
The
mount
() and
nmount
() system calls will fail when one of
the following occurs:
-
-
- [
EPERM
]
- The caller is neither the super-user nor the owner of
dir.
-
-
- [
ENAMETOOLONG
]
- A component of a pathname exceeded 255 characters, or the entire length of
a path name exceeded 1023 characters.
-
-
- [
ELOOP
]
- Too many symbolic links were encountered in translating a pathname.
-
-
- [
ENOENT
]
- A component of dir does not exist.
-
-
- [
ENOTDIR
]
- A component of name is not a directory,
or a path prefix of special is not a
directory.
-
-
- [
EBUSY
]
- Another process currently holds a reference to
dir.
-
-
- [
EFAULT
]
- The dir argument points outside the
process's allocated address space.
The following errors can occur for a
ufs file
system mount:
-
-
- [
ENODEV
]
- A component of ufs_args fspec does not
exist.
-
-
- [
ENOTBLK
]
- The fspec argument is not a block
device.
-
-
- [
ENXIO
]
- The major device number of fspec is out
of range (this indicates no device driver exists for the associated
hardware).
-
-
- [
EBUSY
]
- fspec is already mounted.
-
-
- [
EMFILE
]
- No space remains in the mount table.
-
-
- [
EINVAL
]
- The super block for the file system had a bad magic number or an out of
range block size.
-
-
- [
ENOMEM
]
- Not enough memory was available to read the cylinder group information for
the file system.
-
-
- [
EIO
]
- An I/O error occurred while reading the super block or cylinder group
information.
-
-
- [
EFAULT
]
- The fspec argument points outside the
process's allocated address space.
The following errors can occur for a
nfs file
system mount:
-
-
- [
ETIMEDOUT
]
- Nfs timed out trying to contact the
server.
-
-
- [
EFAULT
]
- Some part of the information described by nfs_args points outside the
process's allocated address space.
The
unmount
() system call may fail with one
of the following errors:
-
-
- [
EPERM
]
- The caller is neither the super-user nor the user who issued the
corresponding
mount
() call.
-
-
- [
ENAMETOOLONG
]
- The length of the path name exceeded 1023 characters.
-
-
- [
EINVAL
]
- The requested directory is not in the mount table.
-
-
- [
ENOENT
]
- The file system ID specified using
MNT_BYFSID
was not found in the mount
table.
-
-
- [
EINVAL
]
- The file system ID specified using
MNT_BYFSID
could not be decoded.
-
-
- [
EINVAL
]
- The specified file system is the root file system.
-
-
- [
EBUSY
]
- A process is holding a reference to a file located on the file
system.
-
-
- [
EIO
]
- An I/O error occurred while writing cached file system information.
-
-
- [
EFAULT
]
- The dir argument points outside the
process's allocated address space.
A
ufs mount can also fail if the maximum number of
file systems are currently mounted.
lsvfs(1),
mksnap_ffs(8),
mount(8),
umount(8)
The
mount
() and
unmount
() functions appeared in
Version 6 AT&T UNIX. The
nmount
() system call first appeared in
FreeBSD 5.0.
Some of the error codes need translation to more obvious messages.
Allowing untrusted users to mount arbitrary media, e.g. by enabling
vfs.usermount, should not be considered safe.
Most file systems in
FreeBSD were not built to
safeguard against malicious devices.