Provided by: autofs_5.1.9-1.1ubuntu2_amd64
NAME
autofs - Format of the automounter maps
DESCRIPTION
The automounter maps are FILE, NIS, NISPLUS or LDAP (including LDAP via SSS) referred to by the master map of the automounter (see auto.master(5)). These maps describe how file systems below the mount point of the map (given in the master map) are to be mounted. This page describes the sun map format; if another map format, other than amd , is specified (e.g. hesiod), this documentation does not apply. Indirect maps, except for the internal hosts map, can be changed on the fly and the automouter will recognize those changes on the next operation it performs on that map. Direct maps require a HUP signal be sent to the daemon to refresh their contents as does the master map.
SUN FORMAT
This is a description of the text file format. Other methods of specifying these files may exist. All empty lines or lines beginning with # are ignored. The basic format of one line in such maps is: key [-options] location key For indirect mounts this is the part of the path name between the mount point and the path into the filesystem when it is mounted. Usually you can think about the key as a sub-directory name below the autofs managed mount point. For direct mounts this is the full path of each mount point. This map is always associated with the /- mount point in the master map. options Zero or more options may be given. Options can also be given in the auto.master file in which case both values are cumulative (this is a difference from SunOS). The options are a list of comma separated options as customary for the mount(8) command. There are several special options -fstype= is used to specify a filesystem type if the filesystem is not of the default NFS type. This option is processed by the automounter and not by the mount command. -strict is used to treat errors when mounting file systems as fatal. This is important when multiple file systems should be mounted (`multi-mounts'). If this option is given, no file system is mounted at all if at least one file system can't be mounted. -use-weight-only is used to make the weight the sole factor in selecting a server when multiple servers are present in a map entry. -no-use-weight-only can be used to negate the option if it is present in the master map entry for the map but is not wanted for the given mount. location The location specifies from where the file system is to be mounted. In the most cases this will be an NFS volume and the usual notation host:pathname is used to indicate the remote filesystem and path to be mounted. If the filesystem to be mounted begins with a / (such as local /dev entries or smbfs shares) a : needs to be prefixed (e.g. :/dev/sda1).
EXAMPLE
Indirect map: kernel -ro,soft ftp.kernel.org:/pub/linux boot -fstype=ext2 :/dev/hda1 windoze -fstype=smbfs ://windoze/c removable -fstype=ext2 :/dev/hdd cd -fstype=iso9660,ro :/dev/hdc floppy -fstype=auto :/dev/fd0 server -rw,hard / -ro myserver.me.org:/ \ /usr myserver.me.org:/usr \ /home myserver.me.org:/home In the first line we have a NFS remote mount of the kernel directory on ftp.kernel.org. This is mounted read-only. The second line mounts an ext2 volume from a local ide drive. The third makes a share exported from a Windows machine available for automounting. The rest should be fairly self-explanatory. The last entry (the last three lines) is an example of a multi-map (see below). If you use the automounter for a filesystem without access permissions (like vfat), users usually can't write on such a filesystem because it is mounted as user root. You can solve this problem by passing the option gid=<gid>, e.g. gid=floppy. The filesystem is then mounted as group floppy instead of root. Then you can add the users to this group, and they can write to the filesystem. Here's an example entry for an autofs map: floppy-vfat -fstype=vfat,sync,gid=floppy,umask=002 :/dev/fd0 Direct map: /nfs/apps/mozilla bogus:/usr/local/moxill /nfs/data/budgets tiger:/usr/local/budgets /tst/sbin bogus:/usr/sbin
FEATURES
Map Key Substitution An & character in the location is expanded to the value of the key field that matched the line (which probably only makes sense together with a wildcard key). Wildcard Key A map key of * denotes a wild-card entry. This entry is consulted if the specified key does not exist in the map. A typical wild-card entry looks like this: * server:/export/home/& The special character '&' will be replaced by the provided key. So, in the example above, a lookup for the key 'foo' would yield a mount of server:/export/home/foo. Variable Substitution The following special variables will be substituted in the location field of an automounter map entry if prefixed with $ as customary from shell scripts (curly braces can be used to separate the field name): ARCH Architecture (uname -m) CPU Processor Type HOST Hostname (uname -n) OSNAME Operating System (uname -s) OSREL Release of OS (uname -r) OSVERS Version of OS (uname -v) autofs provides additional variables that are set based on the user requesting the mount: USER The user login name UID The user login ID GROUP The user group name GID The user group ID HOME The user home directory SHOST Short hostname (domain part removed if present) If a program map is used these standard environment variables will have a prefix of "AUTOFS_" to prevent interpreted languages like python from being able to load and execute arbitrary code from a user home directory. Additional entries can be defined with the -Dvariable=Value map-option to automount(8). Executable Maps A map can be marked as executable. A program map will be called with the key as an argument. It may return no lines of output if there's an error, or one or more lines containing a map entry (with \ quoting line breaks). The map entry corresponds to what would normally follow a map key. An executable map can return an error code to indicate the failure in addition to no output at all. All output sent to stderr is logged into the system logs. Multiple Mounts A multi-mount map can be used to name multiple filesystems to mount. It takes the form: key [ -options ] [[/] location [/relative-mount-point [ -options ] location...]... This may extend over multiple lines, quoting the line-breaks with `\ยด. If present, the per-mountpoint mount-options are appended to the default mount-options. This behaviour may be overridden by the append_options configuration setting. Replicated Server A mount location can specify multiple hosts for a location, portentially with a different export path for the same file system. Historically these different locations are read-only and provide the same replicated file system. Multiple replicated hosts, same path: <path> host1,host2,hostn:/path/path Multiple hosts, some with same path, some with another <path> host1,host2:/blah host3:/some/other/path Multiple replicated hosts, different (potentially) paths: <path> host1:/path/pathA host2:/path/pathB Multiple weighted, replicated hosts same path: <path> host1(5),host2(6),host3(1):/path/path Multiple weighted, replicated hosts different (potentially) paths: <path> host1(3):/path/pathA host2(5):/path/pathB Anything else is questionable and unsupported, but these variations will also work: <path> host1(3),host:/blah
UNSUPPORTED
This version of the automounter supports direct maps stored in FILE, NIS, NISPLUS and LDAP (including LDAP via SSS) only.
AMD FORMAT
This is a description of the text file format. Other methods of specifying mount map entries may be required for different map sources. All empty lines or lines beginning with # are ignored. The basic format of one line in such maps is: key location-list key A key is a path (or a single path component alone) that may end in the wildcard key, "*", or the wildcard key alone and must not begin with the "/" character. location-list Following the key is a mount location-list. A location-list list has the following syntax: location[ location[ ... ]] [|| location[ location[ ... ]] A mount location-list can use the cut operator, ||, to specify locations that should be tried if none of the locations to the left of it where selected for a mount attempt. A mount location consists of an optional colon separated list of selectors, followed by a colon separated list of option:=value pairs. The selectors that may be used return a value or boolean result. Those that return a value may be to used with the comparison operators == and != and those that return a boolean result may be negated with the !. For a location to be selected for a mount attempt all of its selectors must evaluate to true. If a location is selected for a mount attempt and succeeds the lookup is completed and returns success. If the mount attempt fails the procedure continues with the next location until they have all been tried. In addition, some selectors take no arguments, some one argument and others optionally take two arguments. The selectors that take no arguments are: arch The machine architecture which, if not set in the configuration, is obtained using uname(2). karch The machine kernel architecture which, if not set in the configuration, is obtained using uname(2). os The operating system name, if not set in the configuration, is obtained using uname(2). osver The operating system version, if not set in the configuration, is obtained using uname(2). full_os The full operating system name, if not set in the configuration this selector has no value. vendor The operating system vendor name, if not set in the configuration this selector has the value "unknown". byte The endianness of the hardware. cluster The name of the local cluster. It has a value only if it is set in the configuration. autodir The base path under which external mounts are done if they are needed. Most mounts are done in place but some can't be and this is the base path under which those mounts will be done. domain The local domain name. It is set to the value of the configuration option sub_domain. If sub_domain is not given in the configuration it is set to the domain part of the local host name, as given by gethostname(2). host The local host name, without the domain part, as given by gethostname(2). hostd The full host name. If sub_domain is given in the configuration this is set to the contatenation of host and sub_domain deperated by a .. If sub_domain is not set in the configuration the value of domain is used instead of sub_domain. uid The numeric value of the uid of the user that first requested the mount. Note this is usual the same as that used by amd but can be different within autofs. gid The numeric value of the gid of the user that first requested the mount. Note this is usual the same as that used by amd but can be different within autofs. key The string value of the key being looked up. map The string value of the map name used to lookup keys. path The string value of the full path to the mount being requested. dollar Evaluates to the string "$". The selectors that take one argument are: in_network(network) , network(network) , netnumber(network) , wire(network) These selectors are all the same. in_network() is the preferred usage. The network argument is an address (which may include a subnet mask) or network name. The function compares network against each interface and returns true if network belongs to the network the interface is connected to. xhost(hostname) The xhost() selector compares hostname to the ${host} and if it doesn't match it attempts to lookup the cannonical name of hostname and compares it to ${host} as well. exists(filename) Returns true if filename exits as determined by lstat(2). true() Evaluates to true, the argument is ignored and may be empty. false() Evaluates to false, the argument is ignored and may be empty. The selectors that take up to two arguments are: netgrp(netgroup[,hostname]) The netgrp() selector returns true if hostname is a member of the netgroup netgroup. If hostname is not given ${host} is used for the comparison. netgrpd(netgroup[,hostname]) The netgrpd()i selector behaves the same as netgrp() except that if hostname is not given ${hostd}, the fully qualified hostname, is used instead of ${host}. The options that may be used are: type This is the mount filesystem type. It can have a value of auto, link, linkx, host, lofs, ext2-4, xfs, nfs, nfsl or cdfs. Other types that are not yet implemented or are not available in autofs are nfsx, lustre, jfs, program, cachefs and direct. maptype The maptype option specifies the type of the map source and can have a value of file, nis, nisplus, exec, ldap or hesiod. Map sources either not yet implemented or not available in autofs are sss, ndbm, passwd and union. fs The option fs is used to specify the local filesystem. The meaning of this option (and whether or not it is used) is dependent on the mount filesystem type. rhost The remote host name for network mount requests. rfs The remote host filesystem path for network mount requests. dev Must resolve to the device file for local device mount requests. sublink The sublink option is used to specify a subdirectory within the mount location to which this entry will point. pref The pref option is used to specify a prefix that is prepended to the lookup key before looking up the map entry key. opts The opts option is used to specify mount options to be used for the mount. If a "-" is given it is ignored. Options that may be used are dependent on the mount filesystem. addopts The addopts option is used to specify additional mount options used in addition to the default mount options for the mount location. remopts The addopts option is used to specify mount options used instead the options given in opts when the mount location is on a remote retwork. A number of options aren't available or aren't yet implemented within autofs, these are: cache The cache option isn't used by autofs. The map entry cache is continually updated and stale entries cleaned on re-load when map changes are detected so these configuration entries are not used. The regex map key matching is not implemented and may not be due to the potential overhead of the full map scans needed on every key lookup. cachedir The cachefs filesystem is not available on Linux, a different implementation is used for caching network mounted file systems. mount , unmount , umount These options are used by the amd program mount type which is not yet implemented. delay This option is not used by the autofs implementation and is ignored.
FEATURES
Key Matching The amd parser key matching is unusual. The key string to be looked up is constructed by prepending the prefix, if there is one. The resulting relative path string is matched by first trying the sting itself. If no match is found the last component of the key string is replaced with the wildcard match character ("*") and a wildcard match is attempted. This process continues until a match is found or until the last match, against the wildcard match key alone, fails to match a map entry and the key lookup fails. Macro Usage Macros are used a lot in the autofs amd implementation. Many of the option values are set as macro variables corresponding to the option name during the map entry parse. So they may be used in subsequent option values. Beware though, the order in which option values is not necessarily left to right so you may get unexpected results.
EXAMPLE
Example NFS mount map: Assuming we have the autofs master map entry: /test file,amd:/etc/amd.test And the following map in /etc/amd.test: /defaults type:=nfs;rhost:=bilbo apps rfs:=/autofs util rhost:=zeus;rfs:=/work/util local rfs:=/shared;sublink:=local In the first line we have an NFS remote mount of the exported directory /autofs from host bilbo which would be mounted on /test/apps. Next another nfs mount for the exported directory /work/util from host zeus. This would be mounted on /test/util. Finally, we have an example of the use of the sublink option. In this case the filesystem bilbo:/shared would be mounted on a path external the automount directory (under the directory given by configuration option auto_dir) and the path /test/local either symlinked or bind mounted (depending on the setting autofs_use_lofs) to the "local" subdirectory of the external mount.
NOTES
To be able to use IPv6 within autofs maps the package must be build to use the libtirpc library for its RPC communications. This is because the glibc RPC implementation doesn't support IPv6 and is deprecated so this is not likely to change.
SEE ALSO
automount(8), auto.master(5), autofs(8), autofs.conf(5), mount(8), autofs_ldap_auth.conf(5).
AUTHOR
This manual page was written by Christoph Lameter <chris@waterf.org>, for the Debian GNU/Linux system. Edited by H. Peter Avian <hpa@transmeta.com>, Jeremy Fitzhardinge <jeremy@goop.org> and Ian Kent <raven@themaw.net>. 9 Feb 2014 AUTOFS(5)