.\" $NetBSD: quotas.ms,v 1.7 2012/08/14 05:14:53 dholland Exp $ .\" .\" Copyright (c) 1983, 1993 .\" The Regents of the University of California. All rights reserved. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" 3. Neither the name of the University nor the names of its contributors .\" may be used to endorse or promote products derived from this software .\" without specific prior written permission. .\" .\" THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND .\" ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE .\" IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE .\" ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE .\" FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL .\" DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS .\" OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) .\" HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT .\" LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY .\" OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF .\" SUCH DAMAGE. .\" .\" @(#)quotas.ms 8.1 (Berkeley) 6/8/93 .\" .\" .\" Copyright (c) 2012 The NetBSD Foundation, Inc. .\" All rights reserved. .\" .\" This code is derived from software contributed to The NetBSD Foundation .\" by David A. Holland. .\" .\" Redistribution and use in source and binary forms, with or without .\" modification, are permitted provided that the following conditions .\" are met: .\" 1. Redistributions of source code must retain the above copyright .\" notice, this list of conditions and the following disclaimer. .\" 2. Redistributions in binary form must reproduce the above copyright .\" notice, this list of conditions and the following disclaimer in the .\" documentation and/or other materials provided with the distribution. .\" .\" THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS .\" ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED .\" TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR .\" PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS .\" BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR .\" CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF .\" SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS .\" INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN .\" CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) .\" ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE .\" POSSIBILITY OF SUCH DAMAGE. .\" .\" .\" .EH 'SMM:4-%''Disc Quotas in a \s-2UNIX\s+2 Environment' .\" .OH 'Disc Quotas in a \s-2UNIX\s+2 Environment''SMM:4-%' .\" .ND 5th July, 1983 .\" .TL .\" Disc Quotas in a \s-2UNIX\s+2\s-3\u*\d\s0 Environment .\" .FS .\" * UNIX is a trademark of Bell Laboratories. .\" .FE .EH 'SMM:4-%''Disk Quotas in NetBSD' .OH 'Disk Quotas in NetBSD''SMM:4-%' .ND May 20, 2012 .TL Disk Quotas in NetBSD .AU David A. Holland .\" (XXX: what's the best way to do this?) .\" Robert Elz .AI Based upon an earlier version by Robert Elz. .AB .PP In most computing environments, disk space is not infinite. The disk quota system provides a mechanism to control usage of disk space on an individual basis. .PP Quotas may be set for each individual user, and for groups. Quotas may be set (or not set) independently on each mounted file system. Quotas are not supported on all file system types, but do work over NFS. .PP The quota system will warn users when they exceed their allotted limit, but allow some extra space for current work. Remaining over quota for long periods of time will eventually cause a fatal over-quota condition. .PP File system independent access to quotas is provided via a library, \fIlibquota\fP\|(3), shared by the quota tools and available to third-party software. Dump and restore tools are provided for backing up quota information. .AE .NH 1 Users' view of disk quotas .PP To an ordinary user, having a disk quota is almost the same as having a smaller disk. When the amount of space available is consumed, further attempts to use more will fail. .PP To make this less painful, the quota system actually provides two limits for every resource: a \fIhard\fP limit and a \fIsoft\fP limit. The hard limit may not be exceeded. The soft limit may be exceeded temporarily: when the soft limit is first exceeded, a timer is initialized. If usage is reduced below the soft limit, the timer is cleared. Otherwise, when the timer expires, the soft limit becomes the hard limit: until usage is reduced below the soft limit, further use of space is denied. The length of time allowed is called the \fIgrace period\fP and is configurable by the system administrator. .PP Quotas may be applied to both users and groups. When both a user quota and a group quota apply, the most restrictive is used. .PP The basic purpose of quotas is to restrict the usage of disk space. This is measured in blocks. (For historical reasons, quotas are counted in terms of 512-octet blocks, even though most file systems use larger blocks internally.) Quotas can be imposed on other resource types too. Generally there will also be a quota on the number of files that may be owned. This functionality is supported by nearly all file system types that support quotas at all. Some file system types may support additional quotas on other file system resources. .PP The \fIquota\fP\|(1) command provides information on the disk quotas applying to a user or group. For each resource type, and each file system, it prints the current usage, the soft limit (`quota'), the hard limit (`limit'), and the expiration time of the current grace period, if any. User quotas are reported by default; the \fB\-g\fP flag allows retrieving group quotas. .PP The soft limit is the usage level that the user is expected to remain below. As described above, the soft limit can be exceeded temporarily; .\" XXX: does it really nowadays? I'm not so sure it does... doing so generates a warning. The hard limit cannot be exceeded. When the usage exceeds the applicable limit, further requests for space (or attempts to create a file, or allocate other resources) will fail with the EDQUOT error. The first time this occurs, a message will be written to the user's terminal. To avoid flooding, the message will not be repeated until after the usage is lowered again. .NH 2 Surviving when quota limit is reached .PP In most cases, the only way to recover from an over-quota condition is to stop whatever activity was in progress, remove sufficient files to bring the limit back below quota, and retry the failed program. .PP Be careful not to exit applications whose document save operations have or may have failed because of the over-quota conditions. This can often lead to losing data: the prior saved version of the document may have been replaced with an empty, partial, or invalid half-saved version. If it is not possible to open an additional terminal or other tools to do the clean-up work, use job control to suspend these applications rather than exiting. It may also be possible to save documents to a different file system (perhaps in /tmp) and then move them back into place after cleaning up. .NH 1 Back-end quota implementations .PP In NetBSD there are three categories of quota implementations. First are file systems with native internal support for quotas. In these, the quota data is stored internally within the file system, maintained by the file system's own consistency management and \fIfsck\fP\|(8) utility, and active whenever the file system volume is mounted. The mechanism for setting up quotas on a particular volume is file-system-dependent but generally involves arguments to \fInewfs\fP\|(8) and/or \fItunefs\fP\|(8). The ``quota2'' quotas for FFS that appeared in NetBSD 6.0 are an example of this type. .PP The second category is NFS. In NFS, quotas are handled by a separate SunRPC protocol not directly connected to the NFS mount. The quota utilities speak this protocol when invoked on NFS volumes. On an NFS server, the \fIrpc.rquotad\fP\|(8) daemon must be enabled to serve this protocol. See below for further details. .PP The third category is instances of the historical quota system, which was developed in the 1980s and remained largely unchanged until being replaced during the development of NetBSD 6.0. In the historical quota system, quotas are stored in external (user-visible) files. These appear by default in the root directory of the volume they apply to, but may be placed anywhere, including sometimes on another file system. While file-system-level support is required, and enforcement is done in the file system, much of the work involved in maintaining the quota system is external to the file system. The program \fIquotacheck\fP\|(8) is run at boot time as a form of \fIfsck\fP\|(8) for the quota information. Once this is done, the program \fIquotaon\fP\|(8) is used to activate the quotas. The program \fIquotaoff\fP\|(8) is used to deactivate the quotas during system shutdown. This is normally done before unmounting; if not, unmounting will do it implicitly. If the file system volume is modified after quotaoff is run, quotacheck \fImust\fP be run before quotaon is run again, or the quota data will become corrupted. Setting up the historical quota system requires several steps; see below. The original or ``quota1'' quotas for FFS are an example of this type of quota implementation. .PP The \fIlibquota\fP\|(3) library provides a common interface to all three implementation types, so the same quota administration tools can be used with all of them. Not all functionality is available in all cases, however. For example, NFS quotas are read-only. To adjust quotas on an NFS volume, one must log into its file server. .NH 1 Setting up quotas .PP To set up quotas of any type requires several steps. These are described in detail, for each file system type supporting quotas, in the following sections. .PP The first step in all cases, however, is to decide what file systems need to have quotas. Typically, only file systems that house users' home directories, or other user files, will need quotas. Do not forget the mail spool. It may also prove useful to also include \fB/usr\fR. If possible, \fB/tmp\fP should preferably be free of quotas. .PP It is also necessary to decide what the quotas will be, keeping in mind the available space and the legitimate needs of the user population. .PP Note that because the quota system tracks per-user and per-group disk usage, it can be useful in some contexts to enable quotas purely to provide that information. It is perfectly reasonable in this case to set quotas that are the same size as, or larger than, the space available on the volume. .NH 2 Setting up new (``quota2'') FFS quotas .PP First, make sure your kernel includes FFS and FFS quota2 support. These are present if the lines .DS file-system FFS options QUOTA2 .DE (respectively) are present in the kernel configuration. In NetBSD 6.0 and higher the GENERIC kernels should all include FFS and FFS quota2 support. If FFS is compiled as a loadable module, the module will always include quota2 support. .\" .FS .\" * See also the document ``Building 4.2BSD UNIX Systems with Config''. .\" .FE .PP Then, when creating the volume, use the \fB\-q\fP user and/or \fB\-q\fP group options to \fInewfs\fP\|(8) as desired. This will create and initialize the on-disk data structures for user and/or group quotas respectively. These can also be created using \fItunefs\fP\|(8). .PP There is no need to set mount options in \fIfstab\fP\|(5). In particular, do \fInot\fP set the userquota or groupquota options as these are used for controlling the historic quota system only. Trying to use both quota systems at once will fail in possibly obscure ways. .NH 2 Setting up quotas on an NFS client .PP There is nothing special that needs to be done on NFS clients. Enforcement (and configuration) of quotas occurs on the NFS server. The \fIlibquota\fP\|(3) library recognizes NFS mounts and automatically uses the rquotad protocol to handle them. .NH 2 Setting up quotas on an NFS server .PP To set up quotas on an NFS server, first set up quotas on the file systems that will be served via NFS. Then enable the \fIrquotad\fP\|(8) service in \fB/etc/inetd.conf\fP\|(5). Restart (or start) \fIinetd\fP\|(8) if necessary. Make sure .DS inetd=YES .DE is present in \fB/etc/rc.conf\fP. This is the default and should not need to be changed explicitly. .NH 2 Setting up historical (``quota1'') FFS quotas .PP First, make sure your kernel includes FFS and FFS quota1 support. These are present if the lines .DS file-system FFS options QUOTA .DE (respectively) are present in the kernel configuration. In all NetBSD versions the GENERIC kernels should include FFS and FFS quota1 support. If FFS is compiled as a loadable module, the module will always include quota1 support. .\" .FS .\" * See also the document ``Building 4.2BSD UNIX Systems with Config''. .\" .FE .PP Note that it is possible that the historic quota system will be removed entirely at some point in the future. This is not presently intended, however. .PP No special options are required when creating the file system. Instead, add the userquota and/or groupquota options to the file system's entry in \fIfstab\fP\|(5). The file system \fImust\fP be listed in \fIfstab\fP\|(5) for the historical quota system to work. To use quota files other than the default, use the form userquota=/path/to/file and/or groupquota=/path/to/file as desired. The default files are \fBquota.user\fP and \fBquota.group\fP respectively. Create empty quota files with \fItouch\fP\|(1). .PP If the file system is not brand new, now run \fIquotacheck\fP\|(8) on it. (The file system must be mounted for this step. Be sure nothing else is writing to the file system during this time.) .PP Now run \fIquotaon\fP\|(8) on the file system. .PP You must also make sure that the setting .DS quota=YES .DE is present in \fB/etc/rc.conf\fP. This is the default and should not need to be changed explicitly. This setting causes \fIquotacheck\fP\|(8) and \fIquotaon\fP\|(8) to be run at system boot time. .NH 2 Setting up historical quotas on other file system types .PP In theory, the historical quota system can also be used on LFS and ext2fs file systems. The procedure for this is the same as for FFS. .PP There is definitely at least some code present to support quotas on LFS; however, as of this writing it is believed that quotas do not actually work with either LFS or ext2fs. .NH 1 Quota administration .PP After the quota system has been set up, and also on a continuing basis as users come and go and their requirements change, the actual limit values need to be configured. This is done with the \fIedquota\fP\|(8) command. .PP In cases where large classes of users are to be given the same quota settings, the \fB\-p\fP option of \fIedquota\fP\|(8) can be used to streamline the process. .PP There is also a \fIdefault\fP entry. Users (or groups) whose quotas have not been set explicitly are subjected to the default quotas instead. .PP The \fIquota\fP\|(1) command can be used to inspect an individual user or group's quotas across all file systems. The \fIrepquota\fP\|(8) command can be used to retrieve quotas across all users or groups on a per-file-system basis. .NH 2 Administrative considerations for native quotas .PP The \fIquotacheck\fP\|(8), \fIquotaon\fP\|(8), and \fIquotaoff\fP\|(8) programs cannot be used with native quotas. They will fail if run. .PP To avoid confusion be sure not to use the userquota or groupquota options in \fIfstab\fP\|(5) on a file system with native quotas. Due to implementation quirks of the historic quota system, using these options will not necessarily cause errors at mount time, but may confuse \fIquotacheck\fP\|(8) and/or \fIquotaon\fP\|(8) and produce bizarre results. .PP Native quotas do not require \fIquotacheck\fP\|(8) and thus can be much faster at boot time. In particular, the native FFS quotas used in conjunction with WAPBL journaling are themselves journaled and require only a journal replay after a crash. .PP Note however that native FFS quotas are not backward-compatible to older NetBSD installations. As of this writing they are also not understood by FreeBSD's FFS implementation. .PP There is currently no way to temporarily suspend enforcement of native quotas. .NH 2 Administrative considerations for NFS quotas .PP Most quota administration should (must) be done on the NFS server by working with the volumes being served. The rquotad protocol is very limited and supports only the most basic operations. Notably, \fIrepquota\fP\|(8) does not work on NFS volumes. .NH 2 Administrative considerations for historic quotas .PP The historic quota system does not support all of the possible functionality. There is no separate default entry, and the grace period cannot be configured individually; instead, one grace period is configured for all users. .PP In the historic quota system the default values and the global grace period are stored in the quota entry for UID (or GID) 0. This scheme partly shows through to the quota tools. It is also possible to attempt to establish quota configurations that cannot be represented. These will fail. \fIedquota\fP\|(8) attempts to detect these before submitting changes to the kernel in order to offer a cogent error message; however, it may not always succeed. .PP Before \fIquotaon\fP\|(8) is run, the quota information is not accessible to the kernel. The \fIlibquota\fP\|(3) library detects this case and falls back to direct access to the quota files. This should be fully transparent but it is possible that glitches may arise. .PP It is possible to temporarily disable quota enforcement by using \fIquotaoff\fP\|(8). However, this also disables usage tracking. Consequently, if this is done while the system is live, it is in general necessary to run \fIquotacheck\fP\|(8) to correct the usage information before running \fIquotaon\fP\|(8) again, and the file system must be idle between the time quotacheck is started and the time quotaon completes. Otherwise the usage information in the quota files will go out of sync with the file system. This can lead to improper behavior later on, and in some cases may cause panics. .PP The historical quota system is 32-bit and thus cannot cope with quotas or usage amounts that cannot be represented in a 32-bit value. Use native quotas on large volumes. .NH 1 Backups .PP While the disk usage information in the quota data can be reconstructed by scanning the file system (this is what quotacheck does), the configured quotas themselves are system configuration that should in general be backed up. With the historical quota system, the quota information is stored in regular files and is backed up in the normal way like other files. However, with native quotas, the quota information is hidden inside the file system and additional steps are necessary to back it up. .PP The \fIquotadump\fP\|(8) and \fIquotarestore\fP\|(8) programs are provided for this purpose. .PP The \fIquotadump\fP\|(8) program is the same as \fIrepquota\fP\|(8) with the \fB-x\fP option. It produces a complete tabular dump of the quota settings on the selected file system. This dump file can be saved on backup media. .PP The \fIquotarestore\fP\|(8) reads a dump file produced by \fIquotadump\fP\|(8) and enters the configured quota information into the selected file system. It can be used to restore from backup, or to migrate quotas from one volume to another. .NH 1 Migrating to the new native FFS quota implementation .PP The procedure for migrating from the historical (``quota1'') FFS quotas to the native (``quota2'') FFS quotas is as follows. .PP First, make sure the volume being migrated is fully backed up. This is important in case something goes wrong. .PP Now, drop to single user mode. Then, dump the existing quota information with \fIquotadump\fP\|(8). Save the dump file someplace safe, i.e. not in \fB/tmp\fP, in case it becomes necessary to reboot. .PP Unmount the volume. Edit \fB/etc/fstab\fP and remove the userquota and/or groupquota options. Leave the old quota files in place for now; they will do no harm. .PP Use \fItunefs\fP\|(8) to add native quotas to the file system. If the volume is very old you might first need to update the superblock. .PP Mount the file system. Use \fIquotarestore\fP\|(8) to load the dump file into the new quota system. .PP Confirm using \fIrepquota\fP\|(8) and/or \fIquota\fP\|(1) and/or by explicit testing that the quotas have been loaded and the new quota system is behaving as intended. If paranoid, reboot and test again as a precaution. .PP Once you are fully satisfied, preferably after a few days' usage, delete or archive the old quota files and the dump file used for transition. .PP Remember to set up backup procedures for the quota data. .NH 1 Summary of changes from the historic to new/native FFS quota implementations .PP Quotas are set up with newfs or tunefs, rather than by editing fstab and running quotacheck. .PP The quotacheck, quotaon, and quotaoff tools are not used. Repair is done with fsck instead. .PP The quotas are integrated with WAPBL journaling, allowing fast crash recovery. .PP The userquota and groupquota mount options are not used. .PP The grace period is per-user instead of global. .PP The defaults do not overlap with the id 0 quota entry. .NH 1 Some implementation details for the historic quotas .PP The data in the quota files is an array of dquot structures, indexed by id (UID or GID). There is an entry for every id on the system, whether or not a quota is configured for that id. If the id space is sparse, then the file may have holes in it. Copying the files will fill in the holes, so it is best to avoid this. .PP The userquota and groupquota options are actually ignored by \fImount\fP\|(8). They are instead found at run time by the quota tools (actually by libquota); this is why file systems using historic quotas must be listed in \fB/etc/fstab\fP. .PP The kernel is informed of the existence and identities of the quota files by the \fIquotaon\fP\|(8) utility. Until this point (e.g. while quotacheck is running) the kernel does not know which volumes are supposed to have quotas and which are not. .PP When quotas are turned on, the kernel reads the quota entries for each user (or group) currently active, and then the quota entries needed for any files open owned by users (or groups) who are not currently active. Each subsequent open of a file on the file system will be accompanied by a pairing with its quota information. In most cases this information will be retained in core, either because the user who owns the file is running some process, because other files are open owned by the same user, or because some file (perhaps this one) was recently accessed. In memory, the quota information is kept hashed by id and file system, and retained in an LRU chain so recently released data can be easily reclaimed. Information about those users whose last process has recently terminated is also retained in this way. .PP Each time a block is accessed or released, and each time an inode is allocated or freed, the quota system gets told about it, and in the case of allocations, gets the opportunity to object. .\" .PP .\" Measurements have shown .\" that the quota code uses a very small percentage of the system .\" CPU time consumed in writing a new block to disk. .NH 1 History and acknowledgments .PP The historic quota system was loosely based upon a very early scheme implemented at the University of New South Wales, and Sydney University in the mid 70's. That system implemented a single combined limit for both files and blocks on all file systems. .PP A later system was implemented at the University of Melbourne by Robert Elz, but was not kept highly accurately. For example, chown did not affect quotas, nor did I/O to a file owned by a different user. .PP The historic quota system was put into place in January 1982 at Melbourne. .\" It is actually just a small part of a much broader resource .\" control scheme, which is capable of controlling almost .\" anything that is usually uncontrolled in UNIX. The rest .\" of this is, as yet, still in a state where it is far too .\" subject to change to be considered for distribution. .PP For the 4.2BSD release, much work was done to clean up and sanely incorporate the quota code by Sam Leffler and Kirk McKusick at The University of California at Berkeley. .PP The historic quota system has remained in use (with only minor modifications) through many BSD releases and versions from then right up until 2011, and remains available. .PP In 2011, Manuel Bouyer implemented a new quota system for FFS with the properties described above (in-FS, journaled, etc.) and reworked the kernel interface. That interface was later withdrawn. In 2012 David A. Holland implemented a simpler kernel interface and more comprehensive quota library and reworked the quota tools to be file-system-independent. This material first appeared in NetBSD 6.0.