This section describes some of the most common tasks you might encounter in your own environment. Recommended procedures are included for each scenario to help you configure autofs to best meet your clients' needs. To perform the tasks that are discussed in this section, use the Solaris Management Console tools or see the System Administration Guide: Naming and Directory Services (FNS and NIS+) .
The following table provides a description and a pointer to many of the tasks that are related to autofs.
Table 14–5 Task Map for Autofs Administration
Task |
Description |
For Instructions |
---|---|---|
Start autofs | Start the automount service without having to reboot the system | How to Start the Automounter |
Stop autofs | Stop the automount service without disabling other network services | How to Stop the Automounter |
Access file systems by using autofs | Access file systems by using the automount service | Mounting With the Automounter |
Modify the autofs maps | Steps to modify the master map, which should be used to list other maps | How to Modify the Master Map |
Steps to modify an indirect map, which should be used for most maps | How to Modify Indirect Maps | |
Steps to modify a direct map, which should be used when a direct association between a mount point on a client and a server is required | How to Modify Direct Maps | |
Modify the autofs maps to access non-NFS file systems | Steps to set up an autofs map with an entry for a CD-ROM application | How to Access CD-ROM Applications With Autofs |
Steps to set up an autofs map with an entry for a PC-DOS diskette | How to Access PC-DOS Data Diskettes With Autofs | |
Steps to use autofs to access a CacheFS file system | How to Access NFS File Systems Using CacheFS | |
Using /home | Example of how to set up a common /home map | Setting Up a Common View of /home |
Steps to set up a /home map that refers to multiple file systems | How to Set Up /home With Multiple Home Directory File Systems | |
Using a new autofs mount point | Steps to set up a project-related autofs map | How to Consolidate Project-Related Files Under /ws |
Steps to set up an autofs map that supports different client architectures | How to Set Up Different Architectures to Access a Shared Namespace | |
Steps to set up an autofs map that supports different operating systems | How to Support Incompatible Client Operating System Versions | |
Replicate file systems with autofs | Provide access to file systems that fail over | How to Replicate Shared Files Across Several Servers |
Using security restrictions with autofs | Provide access to file systems while restricting remote root access to the files | How to Apply Autofs Security Restrictions |
Using a public file handle with autofs | Force use of the public file handle when mounting a file system | How to Use a Public File Handle With Autofs |
Using an NFS URL with autofs | Add an NFS URL so that the automounter can use it | How to Use NFS URLs With Autofs |
Disable autofs browsability | Steps to disable browsability so that autofs mount points are not automatically populated on a single client | How to Completely Disable Autofs Browsability on a Single NFS Client |
Steps to disable browsability so that autofs mount points are not automatically populated on all clients | How to Disable Autofs Browsability for All Clients | |
Steps to disable browsability so that a specific autofs mount point is not automatically populated on a client | How to Disable Autofs Browsability on a Selected File System |
The following tables describe several of the factors you need to be aware of when administering autofs maps. Which type of map and which name service you choose change the mechanism that you need to use to make changes to the autofs maps.
The following table describes the types of maps and their uses.
Table 14–6 Types of autofs Maps and Their Uses
Type of Map |
Use |
---|---|
Associates a directory with a map |
|
Directs autofs to specific file systems |
|
Directs autofs to reference-oriented file systems |
The following table describes how to make changes to your autofs environment that are based on your name service.
Table 14–7 Map Maintenance
Name Service |
Method |
---|---|
Local files | |
NIS | |
NIS+ |
The next table tells you when to run the automount command, depending on the modification you have made to the type of map. For example, if you have made an addition or a deletion to a direct map, you need to run the automount command on the local system. By running the command, you make the change effective. However, if you have modified an existing entry, you do not need to run the automount command for the change to become effective.
Table 14–8 When to Run the automount Command
Type of Map |
Restart automount? |
|
---|---|---|
|
Addition or Deletion |
Modification |
Y |
Y |
|
Y |
N |
|
N |
N |
The following procedures require that you use NIS+ as your name service.
Log in as a user who has permissions to change the maps.
Using the nistbladm command, make your changes to the master map.
See the System Administration Guide: Naming and Directory Services (FNS and NIS+).
For each client, become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
For each client, run the automount command to ensure that your changes become effective.
Notify your users of the changes.
Notification is required so that the users can also run the automount command as superuser on their own computers.
The automount command gathers information from the master map whenever it is run.
Log in as a user who has permissions to change the maps.
Using the nistbladm command, make your changes to the indirect map.
See the System Administration Guide: Naming and Directory Services (FNS and NIS+).
The change becomes effective the next time that the map is used, which is the next time a mount is done.
Log in as a user who has permissions to change the maps.
Using the nistbladm command, add or delete your changes to the direct map.
See the System Administration Guide: Naming and Directory Services (FNS and NIS+).
If you added or deleted a mount-point entry in step 1, run the automount command.
Notify your users of the changes.
Notification is required so that the users can also run the automount command as superuser on their own computers.
If you only modify or change the contents of an existing direct map entry, you do not need to run the automount command.
For example, suppose you modify the auto_direct map so that the /usr/src directory is now mounted from a different server. If /usr/src is not mounted at this time, the new entry becomes effective immediately when you try to access /usr/src. If /usr/src is mounted now, you can wait until the auto-unmounting occurs, then access the file.
Use indirect maps whenever possible. Indirect maps are easier to construct and less demanding on the computers' file systems. Also, indirect maps do not occupy as much space in the mount table as direct maps.
If you have a local disk partition that is mounted on /src and you plan to use the autofs service to mount other source directories, you might encounter a problem. If you specify the mount point /src, the NFS service hides the local partition whenever you try to reach it.
You need to mount the partition in some other location, for example, on /export/src. You then need an entry in /etc/vfstab such as the following:
/dev/dsk/d0t3d0s5 /dev/rdsk/c0t3d0s5 /export/src ufs 3 yes - |
You also need this entry in auto_src:
terra terra:/export/src |
terra is the name of the computer.
Autofs can also mount files other than NFS files. Autofs mounts files on removable media, such as diskettes or CD-ROM. Normally, you would mount files on removable media by using the Volume Manager. The following examples show how this mounting could be accomplished through autofs. The Volume Manager and autofs do not work together, so these entries would not be used without first deactivating the Volume Manager.
Instead of mounting a file system from a server, you put the media in the drive and reference the file system from the map. If you plan to access non-NFS file systems and you are using autofs, see the following procedures.
Use this procedure if you are not using Volume Manager.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Update the autofs map.
Add an entry for the CD-ROM file system, which should resemble the following:
hsfs -fstype=hsfs,ro :/dev/sr0 |
The CD-ROM device that you intend to mount must appear as a name that follows the colon.
Use this procedure if you are not using Volume Manager.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Update the autofs map.
Add an entry for the diskette file system such as the following:
pcfs -fstype=pcfs :/dev/diskette |
The cache file system (CacheFS) is a generic nonvolatile caching mechanism. CacheFS improves the performance of certain file systems by utilizing a small, fast local disk.
You can improve the performance of the NFS environment by using CacheFS to cache data from an NFS file system on a local disk.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Run the cfsadmin command to create a cache directory on the local disk.
# cfsadmin -c /var/cache |
Add the cachefs entry to the appropriate automounter map.
For example, adding this entry to the master map caches all home directories:
/home auto_home -fstype=cachefs,cachedir=/var/cache,backfstype=nfs |
Adding this entry to the auto_home map only caches the home directory for the user who is named rich:
rich -fstype=cachefs,cachedir=/var/cache,backfstype=nfs dragon:/export/home1/rich |
Options that are included in maps that are searched later override options set in maps that are searched earlier. The last options that are found are the ones that are used. In the previous example, an additional entry to the auto_home map only needs to include the options in the master maps if some options required changes.
You can set up the automounter maps in several ways. The following tasks give details on how to customize the automounter maps to provide an easy-to-use directory structure.
The ideal is for all network users to be able to locate their own or anyone's home directory under /home. This view should be common across all computers, whether client or server.
Every Solaris installation comes with a master map: /etc/auto_master.
# Master map for autofs # +auto_master /net -hosts -nosuid,nobrowse /home auto_home -nobrowse |
A map for auto_home is also installed under /etc.
# Home directory map for autofs # +auto_home |
Except for a reference to an external auto_home map, this map is empty. If the directories under /home are to be common to all computers, do not modify this /etc/auto_home map. All home directory entries should appear in the name service files, either NIS or NIS+.
Users should not be permitted to run setuid executables from their home directories. Without this restriction, any user could have superuser privileges on any computer.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Install home directory partitions under /export/home.
If the system has several partitions, install the partitions under separate directories, for example, /export/home1, /export/home2, and so on.
Use the Solaris Management Console tools to create and maintain the auto_home map.
Whenever you create a new user account, type the location of the user's home directory in the auto_home map. Map entries can be simple, for example:
rusty dragon:/export/home1/& gwenda dragon:/export/home1/& charles sundog:/export/home2/& rich dragon:/export/home3/& |
Notice the use of the & (ampersand) to substitute the map key. The ampersand is an abbreviation for the second occurrence of rusty in the following example.
rusty dragon:/export/home1/rusty |
With the auto_home map in place, users can refer to any home directory (including their own) with the path /home/user. user is their login name and the key in the map. This common view of all home directories is valuable when logging in to another user's computer. Autofs mounts your home directory for you. Similarly, if you run a remote windowing system client on another computer, the client program has the same view of the /home directory.
This common view also extends to the server. Using the previous example, if rusty logs in to the server dragon, autofs there provides direct access to the local disk by loopback-mounting /export/home1/rusty onto /home/rusty.
Users do not need to be aware of the real location of their home directories. If rusty needs more disk space and needs to have his home directory relocated to another server, you need only change rusty's entry in the auto_home map to reflect the new location. Other users can continue to use the /home/rusty path.
Assume you are the administrator of a large software development project. You plan to make all project-related files available under a directory that is called /ws. This directory is to be common across all workstations at the site.
Add an entry for the /ws directory to the site auto_master map, either NIS or NIS+.
/ws auto_ws -nosuid |
The auto_ws map determines the contents of the /ws directory.
Add the -nosuid option as a precaution.
This option prevents users from running setuid programs that might exist in any workspaces.
Add entries to the auto_ws map.
The auto_ws map is organized so that each entry describes a subproject. Your first attempt yields a map that resembles the following:
compiler alpha:/export/ws/& windows alpha:/export/ws/& files bravo:/export/ws/& drivers alpha:/export/ws/& man bravo:/export/ws/& tools delta:/export/ws/& |
The ampersand (&) at the end of each entry is an abbreviation for the entry key. For instance, the first entry is equivalent to the following:
compiler alpha:/export/ws/compiler |
This first attempt provides a map that appears simple, but the map is inadequate. The project organizer decides that the documentation in the man entry should be provided as a subdirectory under each subproject. Also, each subproject requires subdirectories to describe several versions of the software. You must assign each of these subdirectories to an entire disk partition on the server.
Modify the entries in the map as follows:
compiler \ /vers1.0 alpha:/export/ws/&/vers1.0 \ /vers2.0 bravo:/export/ws/&/vers2.0 \ /man bravo:/export/ws/&/man windows \ /vers1.0 alpha:/export/ws/&/vers1.0 \ /man bravo:/export/ws/&/man files \ /vers1.0 alpha:/export/ws/&/vers1.0 \ /vers2.0 bravo:/export/ws/&/vers2.0 \ /vers3.0 bravo:/export/ws/&/vers3.0 \ /man bravo:/export/ws/&/man drivers \ /vers1.0 alpha:/export/ws/&/vers1.0 \ /man bravo:/export/ws/&/man tools \ / delta:/export/ws/& |
Although the map now appears to be much larger, the map still contains only the five entries. Each entry is larger because each entry contains multiple mounts. For instance, a reference to /ws/compiler requires three mounts for the vers1.0, vers2.0, and man directories. The backslash at the end of each line informs autofs that the entry is continued onto the next line. Effectively, the entry is one long line, though line breaks and some indenting have been used to make the entry more readable. The tools directory contains software development tools for all subprojects, so this directory is not subject to the same subdirectory structure. The tools directory continues to be a single mount.
This arrangement provides the administrator with much flexibility. Software projects typically consume substantial amounts of disk space. Through the life of the project, you might be required to relocate and expand various disk partitions. If these changes are reflected in the auto_ws map, the users do not need to be notified, as the directory hierarchy under /ws is not changed.
Because the servers alpha and bravo view the same autofs map, any users who log in to these computers can find the /ws name space as expected. These users are provided with direct access to local files through loopback mounts instead of NFS mounts.
You need to assemble a shared name space for local executables, and applications, such as spreadsheet applications and word-processing packages. The clients of this namespace use several different workstation architectures that require different executable formats. Also, some workstations are running different releases of the operating system.
Create the auto_local map with the nistbladm command.
See the System Administration Guide: Naming and Directory Services (FNS and NIS+).
Choose a single, site-specific name for the shared namespace. This name makes the files and directories that belong to this space easily identifiable.
For example, if you choose /usr/local as the name, the path /usr/local/bin is obviously a part of this name space.
For ease of user community recognition, create an autofs indirect map. Mount this map at /usr/local. Set up the following entry in the NIS+ (or NIS) auto_master map:
/usr/local auto_local -ro |
Notice that the -ro mount option implies that clients cannot write to any files or directories.
Export the appropriate directory on the server.
Include a bin entry in the auto_local map.
Your directory structure resembles the following:
bin aa:/export/local/bin |
(Optional) To serve clients of different architectures, change the entry by adding the autofs CPU variable.
bin aa:/export/local/bin/$CPU |
For SPARC clients – Place executables in /export/local/bin/sparc.
For IA clients – Place executables in /export/local/bin/i386.
Combine the architecture type with a variable that determines the operating system type of the client.
You can combine the autofs OSREL variable with the CPU variable to form a name that determines both CPU type and OS release.
Create the following map entry.
bin aa:/export/local/bin/$CPU$OSREL |
For clients that are running version 5.6 of the operating system, export the following file systems:
For SPARC clients – Export /export/local/bin/sparc5.6.
For IA clients – Place executables in /export/local/bin/i3865.6.
The best way to share replicated file systems that are read-only is to use failover. See Client-Side Failover for a discussion of failover.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Modify the entry in the autofs maps.
Create the list of all replica servers as a comma-separated list, such as the following:
bin aa,bb,cc,dd:/export/local/bin/$CPU |
Autofs chooses the nearest server. If a server has several network interfaces, list each interface. Autofs chooses the nearest interface to the client, avoiding unnecessary routing of NFS traffic.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Create the following entry in the name service auto_master file, either NIS or NIS+:
/home auto_home -nosuid |
The nosuid option prevents users from creating files with the setuid or setgid bit set.
This entry overrides the entry for /home in a generic local /etc/auto_master file. See the previous example. The override happens because the +auto_master reference to the external name service map occurs before the /home entry in the file. If the entries in the auto_home map include mount options, the nosuid option is overwritten. Therefore, either no options should be used in the auto_home map or the nosuid option must be included with each entry.
Do not mount the home directory disk partitions on or under /home on the server.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Create an entry in the autofs map such as the following:
/usr/local -ro,public bee:/export/share/local |
The public option forces the public handle to be used. If the NFS server does not support a public file handle, the mount fails.
Become superuser or assume an equivalent role.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Create an autofs entry such as the following:
/usr/local -ro nfs://bee/export/share/local |
The service tries to use the public file handle on the NFS server. However, if the server does not support a public file handle, the MOUNT protocol is used.
Starting with the Solaris 2.6 release, the default version of /etc/auto_master that is installed has the -nobrowse option added to the entries for /home and /net. In addition, the upgrade procedure adds the -nobrowse option to the /home and /net entries in /etc/auto_master if these entries have not been modified. However, you might have to make these changes manually or to turn off browsability for site-specific autofs mount points after the installation.
You can turn off the browsability feature in several ways. Disable the feature by using a command-line option to the automountd daemon, which completely disables autofs browsability for the client. Or disable browsability for each map entry on all clients by using the autofs maps in either an NIS or NIS+ name space. You can also disable the feature for each map entry on each client, using local autofs maps if no network-wide namespace is being used.
Become superuser or assume an equivalent role on the NFS client.
For information about roles, see “Using Privileged Applications” in System Administration Guide: Security Services.
Perform either of the following steps.
(Optional) If you are using the Solaris 9 release or an earlier release, add the -n option to the startup script.
As root, edit the /etc/init.d/autofs script and add the -n option to the line that starts the autmountd daemon:.
/usr/lib/autofs/automountd -n \ < /dev/null > /dev/console 2>&1 # start daemon |
Restart the autofs service.
# /etc/init.d/autofs stop # /etc/init.d/autofs start |
To disable browsability for all clients, you must employ a name service such as NIS or NIS+. Otherwise, you need to manually edit the automounter maps on each client. In this example, the browsability of the /home directory is disabled. You must follow this procedure for each indirect autofs node that needs to be disabled.
Add the -nobrowse option to the /home entry in the name service auto_master file.
/home auto_home -nobrowse |
Run the automount command on all clients.
The new behavior becomes effective after you run the automount command on the client systems or after a reboot.
# /usr/sbin/automount |
In this example, browsability of the /net directory is disabled. You can use the same procedure for /home or any other autofs mount points.
Check the automount entry in /etc/nsswitch.conf.
For local file entries to have precedence, the entry in the name service switch file should list files before the name service. For example:
automount: files nisplus |
This entry shows the default configuration in a standard Solaris installation.
Check the position of the +auto_master entry in /etc/auto_master.
For additions to the local files to have precedence over the entries in the namespace, the +auto_master entry must be moved to follow /net:
# Master map for automounter # /net -hosts -nosuid /home auto_home /xfn -xfn +auto_master |
A standard configuration places the +auto_master entry at the top of the file. This placement prevents any local changes from being used.
Add the nobrowse option to the /net entry in the /etc/auto_master file.
/net -hosts -nosuid,nobrowse |
On all clients, run the automount command.
The new behavior becomes effective after running the automount command on the client systems or after a reboot.
# /usr/sbin/automount |