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System Administration Guide: Basic Administration

Chapter 39 Mounting and Unmounting File Systems (Tasks)

This chapter describes how to mount and unmount file systems.

This is a list of the step-by-step instructions in this chapter.

Overview of Mounting File Systems

After you create a file system, you need to make it available to the system so you can use it. You make a file system available by mounting it, which attaches the file system to the system directory tree at the specified mount point. The root (/) file system is always mounted.

The following table provides guidelines on mounting file systems based on how you use them.

Mount Type Needed 

Suggested Mount Method 

Local or remote file systems that need to be mounted infrequently 

The mount command that you enter manually from the command line.

Local file systems that need to be mounted frequently 

The /etc/vfstab file, which mounts the file system automatically when the system is booted in multi-user state.

Remote file systems that need to be mounted frequently, such as home directories 

  • The /etc/vfstab file, which automatically mounts the file system when the system is booted in multi-user state.

  • AutoFS, which automatically mounts or unmounts the file system when you access or change out of the directory.

To enhance performance, you can also cache the remote file systems by using the CacheFS file system. 

You can mount media that contains a file system by inserting the media into the drive and running the volcheck command if necessary. For more information on mounting removable media, see Chapter 17, Managing Removable Media (Overview).

Commands for Mounting and Unmounting File Systems

The following table lists the commands in the /usr/sbin directory that you use to mount and unmount file systems.

Table 39–1 Commands for Mounting and Unmounting File Systems

Command 

Man Page 

Description 

mount

mount(1M)

Mounts file systems and remote resources. 

mountall

mountall(1M)

Mounts all file systems that are specified in the /etc/vfstab file. The mountall command runs automatically when the system enters multiuser mode.

umount

mount(1M)

Unmounts file systems and remote resources. 

umountall

mountall(1M)

Unmounts all file systems that are specified in the /etc/vfstab file.

The mount and mountall commands will not mount a read/write file system that has known inconsistencies. If you receive an error message from the mount or mountall command, you might need to check the file system. See Chapter 42, Checking UFS File System Consistency (Tasks) for information on how to check the file system.

The umount and umountall commands will not unmount a file system that is busy. A file system is considered busy if one of the following is true:

Commonly Used Mount Options

The following table describes the commonly used options that you can specify with the mount -o option. If you specify multiple options, separate them with commas (no spaces). For example, -o ro,nosuid.

For a complete list of mount options for each file system type, refer to the specific mount man pages (for example, mount_ufs(1M)).

Table 39–2 Commonly Used -o Mount Options

Option 

File System 

Description 

bg | fg

NFS 

If the first mount attempt fails, retries in the background (bg) or in the foreground (fg). This option is safe for non-critical vfstab entries. The default is fg.

hard | soft

NFS 

Specifies the procedure if the server does not respond. The soft option indicates that an error is returned. The hard option indicates that the retry request is continued until the server responds. The default is hard.

intr | nointr

NFS 

Specifies whether keyboard interrupts are delivered to a process that is hung while waiting for a response on a hard-mounted file system. The default is intr (interrupts allowed).

largefiles | nolargefiles

UFS 

Enables you to create files larger than 2 Gbytes. The largefiles option means that a file system mounted with this option might contain files larger than 2 Gbytes, but it is not required. If the nolargefiles option is specified, the file system cannot be mounted on a system that is running Solaris 2.6 or compatible versions. The default is largefiles.

logging | nologging

UFS 

Enables or disables logging for the file system. UFS logging is the process of storing transactions (changes that make up a complete UFS operation) into a log before the transactions are applied to the UFS file system. Logging helps prevent UFS file systems from becoming inconsistent, which means fsck can be bypassed. Bypassing fsck reduces the time to reboot a system if it crashes, or after a system is shutdown uncleanly.

The log is allocated from free blocks on the file system, and is sized at approximately 1 Mbyte per 1 Gbyte of file system, up to a maximum of 64 Mbytes. The default is nologging.

atime | noatime

UFS 

Suppresses access time updates on files, except when they coincide with updates to the time of the last file status change or the time of the last file modification. For more information, see stat(2). This option reduces disk activity on file systems where access times are unimportant (for example, a Usenet news spool). The default is normal access time (atime) recording.

remount

All 

Changes the mount options associated with an already-mounted file system. This option can generally be used with any option except ro, but what can be changed with this option is dependent on the file system type.

retry=n

NFS 

Retries the mount operation when it fails. n is the number of times to retry.

ro | rw

CacheFS, NFS, PCFS, UFS, HSFS 

Specifies read/write (rw) or read-only (ro). If you do not specify this option, the default is rw. The default option for HSFS is ro.

suid | nosuid

CacheFS, HSFS, NFS, UFS 

Allows or disallows setuid execution. The default is to allow setuid execution.

Field Descriptions for the /etc/vfstab File

An entry in the /etc/vfstab file has seven fields, which are described in the following table.

Table 39–3 Field Descriptions for the /etc/vfstab File

Field Name 

Description 

device to mount

This field identifies one of the following: 

  • The block device name for a local UFS file system (for example, /dev/dsk/c0t0d0s0).

  • The resource name for a remote file system (for example, myserver:/export/home). For more information about NFS, see System Administration Guide: IP Services.

  • The block device name of the slice on which to swap (for example, /dev/dsk/c0t3d0s1).

  • A directory for a virtual file system type.

device to fsck

The raw (character) device name that corresponds to the UFS file system identified by the device to mount field (for example, /dev/rdsk/c0t0d0s0). This field determines the raw interface that is used by the fsck command. Use a dash (-) when there is no applicable device, such as for a read-only file system or a remote file system.

mount point

Identifies where to mount the file system (for example, /usr).

 

FS type

Identifies the type of file system. 

fsck pass

The pass number used by the fsck command to decide whether to check a file system. When the field contains a dash (-), the file system is not checked.

When the field contains a zero, UFS file systems are not checked but non-UFS file systems are checked. When the field contains a value greater than zero, the file system is always checked.  

All file systems with a value of 1 in this field are checked one at a time in the order they appear in the vfstab file. When the fsck command is run on multiple UFS file systems that have fsck pass values greater than one and the preen option (-o p) is used, the fsck command automatically checks the file systems on different disks in parallel to maximize efficiency. Otherwise, the value of the pass number does not have any effect.

mount at boot

Set to yes or no for whether the file system should be automatically mounted by the mountall command when the system is booted. Note that this field has nothing to do with AutoFS. The root (/), /usr and /var file systems are not mounted from the vfstab file initially. This field should always be set to no for these file systems and for virtual file systems such as /proc and /dev/fd.

mount options

A list of comma-separated options (with no spaces) that are used for mounting the file system. Use a dash (-) to indicate no options. For a list of commonly used mount options, see Table 39–2.

Note –

You must have an entry in each field in the /etc/vfstab file. If there is no value for the field, be sure to enter a dash (-). Otherwise, the system might not boot successfully. Similarly, white space should not be used in a field value.

Mounting File Systems

The following sections describe how to mount a file system by adding an entry in the /etc/vfstab file or by using the mount command from the command line.

How to Determine Which File Systems Are Mounted

You can determine which file systems are already mounted by using the mount command. 


$ mount [ -v ]

-v

Displays the list of mounted file systems in verbose mode. 

Example—Determining Which File Systems Are Mounted

This example shows how to use the mount command to display information about the file systems that are currently mounted.


$ mount
/ on /dev/dsk/c0t0d0s0 read/write/setuid/intr/largefiles/xattr/onerror= ...
/usr on /dev/dsk/c0t0d0s6 read/write/setuid/intr/largefiles/xattr/onerror= ...
/proc on /proc read/write/setuid/dev=4300000 on Fri Nov 30 11:25:13 2001
/etc/mnttab on mnttab read/write/setuid/dev=43c0000 on Fri Nov 30 11:25:13 ...
/dev/fd on fd read/write/setuid/dev=4400000 on Fri Nov 30 11:25:17 2001
/var/run on swap read/write/setuid/xattr/dev=1 on Fri Nov 30 11:25:20 2001
/tmp on swap read/write/setuid/xattr/dev=2 on Fri Nov 30 11:25:24 2001
/export on /dev/dsk/c0t0d0s4 read/write/setuid/intr/largefiles/xattr/ ...
/export/home on /dev/dsk/c0t0d0s7 read/write/setuid/intr/largefiles/ ...
$

How to Add an Entry to the /etc/vfstab File

  1. Become superuser or assume an equivalent role.

  2. Create a mount point for the file system to be mounted, if necessary.


    # mkdir /mount-point

    There must be a mount point on the local system to mount a file system. A mount point is a directory to which the mounted file system is attached.

  3. Edit the /etc/vfstab file and add an entry. Make sure that you do the following:

    1. Separate each field with white space (a space or a tab).

    2. Enter a dash (-) if a field has no contents.

    3. Save the changes.

    For detailed information about the /etc/vfstab field entries, see Table 39–3.

    Note –

    Since the root (/) file system is mounted read-only by the kernel during the boot process, only the remount option (and options that can be used in conjunction with remount) affect the root (/) entry in the /etc/vfstab file.

Examples—Adding an Entry to the /etc/vfstab File

The following example shows how to mount the disk slice /dev/dsk/c0t3d0s7 as a UFS file system to the mount point directory /files1. The raw character device /dev/rdsk/c0t3d0s7 is specified as the device to fsck. The fsck pass value of 2 means that the file system will be checked, but not sequentially. 


#device           device             mount    FS       fsck   mount    mount
#to mount         to fsck            point    type     pass   at boot  options
#
/dev/dsk/c0t3d0s7 /dev/rdsk/c0t3d0s7 /files1  ufs      2      yes       -

The following example shows how to mount the /export/man directory from the system pluto as an NFS file system on mount point /usr/man. A device to fsck nor a fsck pass is specified because it's an NFS file system. In this example, mount options are ro (read-only) and soft. 


#device           device             mount    FS       fsck   mount    mount
#to mount         to fsck            point    type     pass   at boot  options
pluto:/export/man   -                /usr/man nfs      -      yes       ro,soft

The following example shows how to mount the root (/) file system on a loopback mount point, /tmp/newroot. LOFS file systems must always be mounted after the file systems that are in the LOFS file system. 


#device           device             mount    FS       fsck   mount    mount
#to mount         to fsck            point    type     pass   at boot  options
#
/                   -                /tmp/newroot lofs -      yes       -

How to Mount a File System (/etc/vfstab File)

  1. Become superuser or assume an equivalent role.

  2. Mount a file system listed in the /etc/vfstab file.


    # mount /mount-point

    /mount-point specifies an entry in the mount point or device to mount field in the /etc/vfstab file. It is usually easier to specify the mount point.

Example—Mounting a File System (/etc/vfstab File)

The following example shows how to mount the /usr/dist file system that is listed in the /etc/vfstab file.


# mount /usr/dist

Examples—Mounting All File Systems (/etc/vfstab File)

The following example shows the messages that are displayed if file systems are already mounted when you use the mountall command.


# mountall
/dev/rdsk/c0t0d0s7 already mounted
mount: /tmp already mounted
mount: /dev/dsk/c0t0d0s7 is already mounted, /export/home is busy,
        or the allowable number of mount points has been exceeded

All the file systems with a device to fsck entry are checked and fixed, if necessary, before they are mounted.

The following example shows how to mount all the local systems that are listed in the /etc/vfstab file.


# mountall -l
# mount
/ on /dev/dsk/c0t0d0s0 read/write/setuid/intr/largefiles/xattr/onerror= ...
/usr on /dev/dsk/c0t0d0s6 read/write/setuid/intr/largefiles/xattr/ ...
/proc on /proc read/write/setuid/dev=38c0000 on Tue Oct 30 15:45:32 2001
/etc/mnttab on mnttab read/write/setuid/dev=3980000 on Tue Oct 30  ...
/dev/fd on fd read/write/setuid/dev=39c0000 on Tue Oct 30 15:45:36 2001
/var/run on swap read/write/setuid/xattr/dev=1 on Tue Oct 30 15:45:39 ...
/tmp on swap read/write/setuid/xattr/dev=2 on Tue Oct 30 16:05:57 2001
/datab on /dev/dsk/c0t0d0s7 read/write/setuid/intr/largefiles/xattr/ ...

The following example shows how to mount all of the remote file systems that are listed in the /etc/vfstab file.


# mountall -r
# mount
/ on /dev/dsk/c0t0d0s0 read/write/setuid/intr/largefiles/xattr/onerror= ...
/usr on /dev/dsk/c0t0d0s6 read/write/setuid/intr/largefiles/xattr/onerror= ...
/proc on /proc read/write/setuid/dev=38c0000 on Tue Oct 30 15:45:32 2001
/etc/mnttab on mnttab read/write/setuid/dev=3980000 on Tue Oct 30 ...
/dev/fd on fd read/write/setuid/dev=39c0000 on Tue Oct 30 15:45:36 2001
/var/run on swap read/write/setuid/xattr/dev=1 on Tue Oct 30 15:45:39 2001
/tmp on swap read/write/setuid/xattr/dev=2 on Tue Oct 30 16:05:57 2001
/datab on /dev/dsk/c0t0d0s7 read/write/setuid/intr/largefiles/xattr/ ...
/home/rimmer on pluto:/export/home/rimmer remote/read/write/setuid/xattr ...

How to Mount a UFS File System (mount Command)

  1. Become superuser or assume an equivalent role.

  2. Create a mount point for the file system to be mounted, if necessary.


    # mkdir /mount-point

    There must be a mount point on the local system to mount a file system. A mount point is a directory to which the mounted file system is attached.

  3. Mount the UFS file system.


    # mount [-o mount-options] /dev/dsk/device-name /mount-point

    -o mount-options

    Specifies mount options that you can use to mount a UFS file system. For a list of options, see Table 39–2 or mount_ufs(1M).

    /dev/dsk/device-name

    Specifies the disk device name for the slice that contains the file system (for example, /dev/dsk/c0t3d0s7). To get slice information for a disk, see How to Display Disk Slice Information.

    /mount-point

    Specifies the directory on which to mount the file system. 

Example—Mounting a UFS File System (mount Command)

The following example shows how to mount /dev/dsk/c0t3d0s7 on the /files1 directory.


# mount /dev/dsk/c0t3d0s7 /files1

Example—Mounting a UFS File System With Logging Enabled (mount Command)

UFS logging eliminates file system inconsistency, which can significantly reduce the time of system reboots. The following example shows how to mount /dev/dsk/c0t3d0s7 on the /files1 directory with logging enabled.


# mount -o logging /dev/dsk/c0t3d0s7 /files1

How to Mount a UFS File System Without Large Files (mount Command)

When you mount a file system, the largefiles option is selected by default, which enables you to create files larger than 2 Gbytes. Once a file system contains large files, you cannot remount the file system with the nolargefiles option or mount it on a system that is running Solaris 2.6 or compatible versions, until you remove any large files and run the fsck command to reset the state to nolargefiles.

This procedure assumes that the file system is in the /etc/vfstab file.

  1. Become superuser or assume an equivalent role.

  2. Create a mount point for the file system to be mounted, if necessary.


    # mkdir /mount-point

    There must be a mount point on the local system to mount a file system. A mount point is a directory to which the mounted file system is attached.

  3. Make sure there are no large files in the file system.


    # cd /mount-point
# find . -xdev -size +20000000 -exec ls -l {} \;

    /mount-point identifies the mount point of the file system you want to check for large files.

  4. Remove or move any large files in this file system to another file system, if necessary.

  5. Unmount the file system.


    # umount /mount-point

  6. Reset the file system state.


    # fsck /mount-point

  7. Remount the file system with the nolargefiles option.


    # mount -o nolargefiles /mount-point

Example—Mounting a File System Without Large Files (mount Command)

The following example shows how to check the /datab file system and remount it with the nolargefiles option.


# cd /datab
# find . -xdev -size +20000000 -exec ls -l {} \;
# umount /datab 
# fsck /datab
# mount -o nolargefiles /datab

How to Mount an NFS File System (mount Command)

  1. Become superuser or assume an equivalent role.

  2. Create a mount point for the file system to be mounted, if necessary.


    # mkdir /mount-point

    There must be a mount point on the local system to mount a file system. A mount point is a directory to which the mounted file system is attached.

  3. Make sure the resource (file or directory) is available from a server.

    To mount an NFS file system, the resource must be made available on the server by using the share command. For information on how to share resources, see “About the NFS Service” in System Administration Guide: Resource Management and Network Services.

  4. Mount the NFS file system.


    # mount -F nfs [-o mount-options] server:/directory /mount-point

    -o mount-options

    Specifies mount options that you can use to mount an NFS file system. See Table 39–2 for the list of commonly used mount options or mount_nfs(1M) for a complete list of options.

    server:/directory

    Specifies the server's host name that contains the shared resource, and the path to the file or directory to mount. 

    /mount-point

    Specifies the directory on which to mount the file system. 

Example—Mounting an NFS File System (mount Command)

The following example shows how to mount the /export/packages directory on /mnt from the server pluto.


# mount -F nfs pluto:/export/packages /mnt

x86: How to Mount a PCFS (DOS) File System From a Hard Disk (mount Command)

Use the following procedure to mount a PCFS (DOS) file system from a hard disk.

  1. Become superuser or assume an equivalent role.

  2. Create a mount point for the file system to be mounted, if necessary.


    # mkdir /mount-point

    There must be a mount point on the local system to mount a file system. A mount point is a directory to which the mounted file system is attached.

  3. Mount the PCFS file system.


    # mount -F pcfs [-o rw | ro] /dev/dsk/device-name:logical-drive /mount-point

    -o rw | ro

    Specifies that you can mount a PCFS file system read/write (rw) or read-only (ro). If you do not specify this option, the default is rw. 

    /dev/dsk/device-name

    Specifies the device name of the whole disk (for example, /dev/dsk/c0t0d0p0).

    logical-drive

    Specifies either the DOS logical drive letter (c through z) or a drive number (1 through 24). Drive c is equivalent to drive 1 and represents the Primary DOS slice on the drive. All other letters or numbers represent DOS logical drives within the Extended DOS slice. 

    /mount-point

    Specifies the directory on which to mount the file system. 

    Note that the device-name and logical-drive must be separated by a colon.

x86: Examples—Mounting a PCFS (DOS) File System From a Hard Disk (mount Command)

The following example shows how to mount the logical drive in the primary DOS slice on the /pcfs/c directory. 


# mount -F pcfs /dev/dsk/c0t0d0p0:c /pcfs/c

The following example shows how to mount the first logical drive in the extended DOS slice read-only on /mnt.


# mount -F pcfs -o ro /dev/dsk/c0t0d0p0:2 /mnt

Unmounting File Systems

The unmounting of a file system removes it from the file system mount point, and deletes the entry from the /etc/mnttab file. Some file system administration tasks cannot be performed on mounted file systems. You should unmount a file system when the following occurs:

You can use the umount -f option to forcibly unmount a file system that is busy in an emergency situation. This practice is not recommended under normal circumstances because the unmounting of a file system with open files could cause a loss of data. This option is only available for UFS and NFS file systems.

Prerequisites for Unmounting File Systems

The prerequisites for unmounting file systems include the following:

How to Verify a File System is Unmounted

To verify that you unmounted a file system or a number of file systems, examine the output from the mount command.


$ mount | grep unmounted-file-system
$

How to Stop All Processes Accessing a File System

  1. Become superuser or assume an equivalent role.

  2. List all the processes that are accessing the file system so that you know which processes you are going to stop.


    # fuser -c [ -u ] /mount-point

    -c

    Reports on files that are mount points for file systems and any files within those mounted file systems. 

    -u

    Displays the user login name for each process ID. 

    /mount-point

    Specifies the name of the file system for which you want to stop processes. 

  3. Stop all processes that are accessing the file system.


    # fuser -c -k /mount-point

    A SIGKILL is sent to each process that is using the file system.

    Note –

    You should not stop a user's processes without first warning the user.

  4. Verify that there are no processes that are accessing the file system.


    # fuser -c /mount-point

Example—Stopping All Processes Accessing a File System

The following example shows how to stop process 4006c that is using the /export/home file system.


# fuser -c /export/home
/export/home:     4006c
# fuser -c -k /export/home
/export/home:     4006c
# fuser -c /export/home
/export/home:

How to Unmount a File System

Use the following procedure to unmount a file system, except for the root (/), /usr, or /var file systems.

Note –

The root (/), /usr, and /var file systems can be unmounted only during a shutdown, since the system needs these file systems to function.

  1. Make sure that you have met the prerequisites listed in Prerequisites for Unmounting File Systems.

  2. Unmount the file system.


    # umount /mount-point

    /mount-point is the name of the file system that you want to unmount. This can be one of the following:

    • The directory name where the file system is mounted

    • The device name path of the file system

    • The resource for an NFS file system

    • The loopback directory for a LOFS file system

Examples—Unmounting a File System

The following example shows how to unmount a local home file system.


# umount /export/home

The following example shows how to unmount the file system on slice 7.


# umount /dev/dsk/c0t0d0s7

The following example shows how to forcibly unmount the /export file system.


# umount -f /export
#

The following example shows how to unmount all file systems in the /etc/vfstab file, except for the root (/), /proc, /var, and /usr file systems.


# umountall

All file systems are unmounted, except for those file systems that are busy.