From c7f885229666045628e71ba6135358d6ce0158d5 Mon Sep 17 00:00:00 2001 From: David Sterba Date: Thu, 18 Aug 2016 19:25:10 +0200 Subject: btrfs-progs: docs: update btrfs-quota manual page Copy the intoductory and usecases from the text written by Arne Jansen, https://git.kernel.org/cgit/linux/kernel/git/arne/qgroups-doc.git/ The graphics missing for now. Signed-off-by: David Sterba --- Documentation/btrfs-quota.asciidoc | 192 +++++++++++++++++++++++++++++++++++-- 1 file changed, 185 insertions(+), 7 deletions(-) (limited to 'Documentation') diff --git a/Documentation/btrfs-quota.asciidoc b/Documentation/btrfs-quota.asciidoc index 00e09c61..71602fbf 100644 --- a/Documentation/btrfs-quota.asciidoc +++ b/Documentation/btrfs-quota.asciidoc @@ -3,7 +3,7 @@ btrfs-quota(8) NAME ---- -btrfs-quota - control the quota of a btrfs filesystem +btrfs-quota - control the global quota status of a btrfs filesystem SYNOPSIS -------- @@ -11,14 +11,192 @@ SYNOPSIS DESCRIPTION ----------- -*btrfs quota* is used to enable/disable or rescan subvolume quota of a btrfs -filesystem. +The commands under *btrfs quota* are used to affect the global status of quotas +of a btrfs filesystem. The quota groups (qgroups) are managed by the subcommand +`btrfs qgroup`(8). -For setting quota or other quota operations on a btrfs filesystem, please see -`btrfs-qgroup`(8) for details. +NOTE: the qgroups are different than the traditional user quotas and designed +to track shared and exlusive data per-subvolume. -WARNING: Quota and qgroup in btrfs filesystem is not stable and impacts -performance in mainline kernel yet(v3.14 so far). +HIERARCHICAL QUOTA GROUP CONCEPTS +--------------------------------- + +The concept of quota has a long-standing tradition in the Unix world. Ever +since computers allow multiple users to work simultaneously in one filesystem, +there is the need to prevent one user from using up the entire space. Every +user should get his fair share of the available resources. + +In case of files, the solution is quite straightforward. Each file has an +'owner' recorded along with it, and it has a size. Traditional quota just +restricts the total size of all files that are owned by a user. The concept is +quite flexible: if a user hits his quota limit, the administrator can raise it +on the fly. + +On the other hand, the traditional approach has only a poor solution to +restrict directories. +At installation time, the harddisk can be partitioned so that every directory +(eg. /usr, /var/, ...) that needs a limit gets its own partition. The obvious +problem is, that those limits cannot be changed without a reinstall ation. The +btrfs subvolume feature builds a bridge. Subvolumes correspond in many ways to +partitions, as every subvolume looks like its own filesystem. With subvolume +quota, it is now possible to restrict each subvolume like a partition, but keep +the flexibility of quota. The space for each subvolume can be expanded or +restricted on the fly. + +As subvolumes are the basis for snapshots, interesting questions arise as to +how to account used space in the presence of snapshots. If you have a file +shared between a subvolume and a snapshot, whom to account the file to? The +creator? Both? What if the file gets modified in the snapshot, should only +these changes be accounted to it? But wait, both the snapshot and the subvolume +belong to the same user home. I just want to limit the total space used by +both! But somebody else might not want to charge the snapshots to the users. + +Btrfs subvolume quota solves these problems by introducing groups of subvolumes +and let the user put limits on them. It is even possible to have groups of +groups. In the following, we refer to them as 'qgruops'. + +Each qgroup primarily tracks two numbers, the amount of total referenced +space and the amount of exclusively referenced space. + +referenced:: +space is the amount of data that can be reached from any of the subvolumes +contained in the qgroup, while +exclusive:: +is the amount of data where all references to this data can be reached +from within this qgroup. + +SUBVOLUME QUOTA GROUPS +~~~~~~~~~~~~~~~~~~~~~~ + +The basic notion of the Subvolume Quota feature is the qouta group, short +qgroup. Qgroups are notated as 'level/id', eg. the qgroup 3/2 is a qgroup of +level 3. For level 0, the leading '0/' can be omitted. +Qgroups of level 0 get created automatically when a subvolume/snapshot gets +created. The ID of the qgroup corresponds to the ID of the subvolume, so 0/5 +is the qgroup for the root subvolume. +For the *btrfs qgroup* command, the path to the subvolume can also be used +instead of '0/ID'. For all higher levels, the ID can be choosen freely. + +Each qgroup can contain a set of lower level qgroups, thus creating a hierarchy +of qgroups. Figure 1 shows an example qgroup tree. + +// TODO: insert Figure 1 + +At the bottom, some extents are depicted showing which qgroups reference which +extents. It is important to understand the notion of 'referenced' vs +'exclusive'. In the example, qgroup 0/2 references extents 2 and 3, while 1/2 +references extents 2-4, 2/1 references all extents. + +On the other hand, extent 1 is exclusive to 0/1, extent 2 is exclusive to 0/2, +while extent 3 is neither exclusive to 0/2 nor to 0/3. But because both +references can be reached from 1/2, extent 3 is exclusive to 1/2. All extents +are exclusive to 2/1. + +So exclusive does not mean there is no other way to reach the extent, but it +does mean that if you delete all subvolumes contained in a qgroup, the extent +will get deleted. + +Exclusive of a qgroup conveys the useful information how much space will be +freed in case all subvolumes of the qgroup get deleted. + +All data extents are accounted this way. Metadata that belongs to a specific +subvolume (i.e. its filesystem tree) is also accounted. Checksums and extent +allocation information are not accounted. + +In turn, the referenced count of a qgroup can be limited. All writes beyond +this limit will lead to a 'Quota Exceeded' error. + +INHERITANCE +~~~~~~~~~~~ + +Things get a bit more complicated when new subvolumes or snapshots are created. +The case of (empty) subvolumes is still quite easy. If a subvolume should be +part of a qgroup, it has to be added to the qgroup at creation time. To add it +at a later time, it would be necessary to at least rescan the full subvolume +for a proper accounting. + +Creation of a snapshot is the hard case. Obviously, the snapshot will +reference the exact amount of space as its source, and both source and +destination now have an exclusive count of 0 (the filesystem nodesize to be +precise, as the roots of the trees are not shared). But what about qgroups of +higher levels? If the qgroup contains both the source and the destination, +nothing changes. If the qgroup contains only the source, it might lose some +exclusive. + +But how much? The tempting answer is, subtract all exclusive of the source from +the qgroup, but that is wrong, or at least not enough. There could have been +an extent that is referenced from the source and another subvolume from that +qgroup. This extent would have been exclusive to the qgroup, but not to the +source subvolume. With the creation of the snapshot, the qgroup would also +lose this extent from its exclusive set. + +So how can this problem be solved? In the instant the snapshot gets created, we +already have to know the correct exclusive count. We need to have a second +qgroup that contains all the subvolumes as the first qgroup, except the +subvolume we want to snapshot. The moment we create the snapshot, the +exclusive count from the second qgroup needs to be copied to the first qgroup, +as it represents the correct value. The second qgroup is called a tracking +qgroup. It is only there in case a snapshot is needed. + +USE CASES +~~~~~~~~~ + +Below are some usecases that do not mean to be extensive. You can find your +own way how to integrate qgroups. + +==== SINGLE-USER MACHINE ==== + +`Replacement for partitions` + +The simplest use case is to use qgroups as simple replacement for partitions. +Btrfs takes the disk as a whole, and /, /usr, /var etc. are created as +subvolumes. As each subvolume gets it own qgroup automatically, they can +simply be restricted. No hierarchy is needed for that. + +`Track usage of snapshots` + +When a snapshot is taken, a qgroup for it will automatically be created with +the correct values. 'Referenced' will show how much is in it, possibly shared +with other subvolumes. 'Exclusive' will be the amount of space that gets freed +when the subvolume is deleted. + +==== MULTI-USER MACHINE ==== + +`Restricting homes` + +When you have several users on a machine, with home directories probably under +/home, you might want to restrict /home as a whole, while restricting every +user to an indiviual limit as well. This is easily accomplished by creating a +qgroup for /home , eg. 1/1, and assigning all user subvolumes to it. +Restricting this qgroup will limit /home, while every user subvolume can get +its own (lower) limit. + +`Accounting snapshots to the user` + +Let's say the user is allowed to create snapshots via some mechanism. It would +only be fair to account space used by the snapshots to the user. This does not +mean the user doubles his usage as soon as he takes a snapshot. Of course, +files that are present in his home and the snapshot should only be accounted +once. This can be accomplished by creating a qgroup for each user, say +'1/UID'. The user home and all snapshots are assigned to this qgroup. +Limiting it will extend the limit to all snapshots, counting files only once. +To limit /home as a whole, a higher level group 2/1 replacing 1/1 from the +previous example is needed, with all user qgroups assigned to it. + +`Do not account snapshots` + +On the other hand, when the snapshots get created automatically, the user has +no chance to control them, so the space used by them should not be accounted to +him. This is already the case when creating snapshots in the example from +the previous section. + +`Snapshots for backup purposes` + +This scenario is a mixture of the previous two. The user can create snapshots, +but some snapshots for backup purposes are being created by the system. The +user's snapshots should be accounted to the user, not the system. The solution +is similar to the one from section 'Accounting snapshots to the user', but do +not assign system snapshots to user's qgroup. SUBCOMMAND ---------- -- cgit v1.2.3