218 lines
9.2 KiB
Markdown
218 lines
9.2 KiB
Markdown
# How Git object deduplication works in GitLab
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When a GitLab user [forks a project](../workflow/forking_workflow.md),
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GitLab creates a new Project with an associated Git repository that is a
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copy of the original project at the time of the fork. If a large project
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gets forked often, this can lead to a quick increase in Git repository
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storage disk use. To counteract this problem, we are adding Git object
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deduplication for forks to GitLab. In this document, we will describe how
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GitLab implements Git object deduplication.
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## Enabling Git object deduplication via feature flags
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As of GitLab 12.0, Git object deduplication in GitLab is still behind a
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feature flag. In this document, you can read about the effects of
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enabling the feature. Also, note that Git object deduplication is
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limited to forks of public projects on hashed repository storage.
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You can enable deduplication globally by setting the `object_pools`
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feature flag to `true`:
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``` {.ruby}
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Feature.enable(:object_pools)
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```
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Or just for forks of a specific project:
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``` {.ruby}
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fork_parent = Project.find(MY_PROJECT_ID)
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Feature.enable(:object_pools, fork_parent)
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```
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To check if a project uses Git object deduplication, look in a Rails
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console if `project.pool_repository` is present.
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## Pool repositories
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### Understanding Git alternates
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At the Git level, we achieve deduplication by using [Git
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alternates](https://git-scm.com/docs/gitrepository-layout#gitrepository-layout-objects).
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Git alternates is a mechanism that lets a repository borrow objects from
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another repository on the same machine.
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If we want repository A to borrow from repository B, we first write a
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path that resolves to `B.git/objects` in the special file
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`A.git/objects/info/alternates`. This establishes the alternates link.
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Next, we must perform a Git repack in A. After the repack, any objects
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that are duplicated between A and B will get deleted from A. Repository
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A is now no longer self-contained, but it still has its own refs and
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configuration. Objects in A that are not in B will remain in A. For this
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to work, it is of course critical that **no objects ever get deleted from
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B** because A might need them.
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DANGER: **Danger:**
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Do not run `git prune` or `git gc` in pool repositories! This can
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cause data loss in "real" repositories that depend on the pool in
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question.
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The danger lies in `git prune`, and `git gc` calls `git prune`. The
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problem is that `git prune`, when running in a pool repository, cannot
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reliable decide if an object is no longer needed.
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### Git alternates in GitLab: pool repositories
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GitLab organizes this object borrowing by creating special **pool
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repositories** which are hidden from the user. We then use Git
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alternates to let a collection of project repositories borrow from a
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single pool repository. We call such a collection of project
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repositories a pool. Pools form star-shaped networks of repositories
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that borrow from a single pool, which will resemble (but not be
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identical to) the fork networks that get formed when users fork
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projects.
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At the Git level, pool repositories are created and managed using Gitaly
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RPC calls. Just like with normal repositories, the authority on which
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pool repositories exist, and which repositories borrow from them, lies
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at the Rails application level in SQL.
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In conclusion, we need three things for effective object deduplication
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across a collection of GitLab project repositories at the Git level:
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1. A pool repository must exist.
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1. The participating project repositories must be linked to the pool
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repository via their respective `objects/info/alternates` files.
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1. The pool repository must contain Git object data common to the
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participating project repositories.
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### Deduplication factor
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The effectiveness of Git object deduplication in GitLab depends on the
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amount of overlap between the pool repository and each of its
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participants. Each time garbage collection runs on the source project,
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Git objects from the source project will get migrated to the pool
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repository. One by one, as garbage collection runs, other member
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projects will benefit from the new objects that got added to the pool.
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## SQL model
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As of GitLab 11.8, project repositories in GitLab do not have their own
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SQL table. They are indirectly identified by columns on the `projects`
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table. In other words, the only way to look up a project repository is to
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first look up its project, and then call `project.repository`.
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With pool repositories we made a fresh start. These live in their own
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`pool_repositories` SQL table. The relations between these two tables
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are as follows:
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- a `Project` belongs to at most one `PoolRepository`
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(`project.pool_repository`)
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- as an automatic consequence of the above, a `PoolRepository` has
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many `Project`s
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- a `PoolRepository` has exactly one "source `Project`"
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(`pool.source_project`)
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> TODO Fix invalid SQL data for pools created prior to GitLab 11.11
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> <https://gitlab.com/gitlab-org/gitaly/issues/1653>.
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### Assumptions
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- All repositories in a pool must use [hashed
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storage](../administration/repository_storage_types.md). This is so
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that we don't have to ever worry about updating paths in
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`object/info/alternates` files.
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- All repositories in a pool must be on the same Gitaly storage shard.
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The Git alternates mechanism relies on direct disk access across
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multiple repositories, and we can only assume direct disk access to
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be possible within a Gitaly storage shard.
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- The only two ways to remove a member project from a pool are (1) to
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delete the project or (2) to move the project to another Gitaly
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storage shard.
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### Creating pools and pool memberships
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- When a pool gets created, it must have a source project. The initial
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contents of the pool repository are a Git clone of the source
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project repository.
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- The occasion for creating a pool is when an existing eligible
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(public, hashed storage, non-forked) GitLab project gets forked and
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this project does not belong to a pool repository yet. The fork
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parent project becomes the source project of the new pool, and both
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the fork parent and the fork child project become members of the new
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pool.
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- Once project A has become the source project of a pool, all future
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eligible forks of A will become pool members.
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- If the fork source is itself a fork, the resulting repository will
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neither join the repository nor will a new pool repository be
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seeded.
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eg:
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Suppose fork A is part of a pool repository, any forks created off
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of fork A *will not* be a part of the pool repository that fork A is
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a part of.
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Suppose B is a fork of A, and A does not belong to an object pool.
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Now C gets created as a fork of B. C will not be part of a pool
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repository.
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> TODO should forks of forks be deduplicated?
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> <https://gitlab.com/gitlab-org/gitaly/issues/1532>
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### Consequences
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- If a normal Project participating in a pool gets moved to another
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Gitaly storage shard, its "belongs to PoolRepository" relation will
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be broken. Because of the way moving repositories between shard is
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implemented, we will automatically get a fresh self-contained copy
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of the project's repository on the new storage shard.
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- If the source project of a pool gets moved to another Gitaly storage
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shard or is deleted the "source project" relation is not broken.
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However, as of GitLab 12.0 a pool will not fetch from a source
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unless the source is on the same Gitaly shard.
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## Consistency between the SQL pool relation and Gitaly
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As far as Gitaly is concerned, the SQL pool relations make two types of
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claims about the state of affairs on the Gitaly server: pool repository
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existence, and the existence of an alternates connection between a
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repository and a pool.
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### Pool existence
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If GitLab thinks a pool repository exists (i.e. it exists according to
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SQL), but it does not on the Gitaly server, then it will be created on
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the fly by Gitaly.
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### Pool relation existence
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There are three different things that can go wrong here.
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#### 1. SQL says repo A belongs to pool P but Gitaly says A has no alternate objects
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In this case, we miss out on disk space savings but all RPC's on A
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itself will function fine. The next time garbage collection runs on A,
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the alternates connection gets established in Gitaly. This is done by
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`Projects::GitDeduplicationService` in gitlab-rails.
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#### 2. SQL says repo A belongs to pool P1 but Gitaly says A has alternate objects in pool P2
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In this case `Projects::GitDeduplicationService` will throw an exception.
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#### 3. SQL says repo A does not belong to any pool but Gitaly says A belongs to P
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In this case `Projects::GitDeduplicationService` will try to
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"re-duplicate" the repository A using the DisconnectGitAlternates RPC.
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## Git object deduplication and GitLab Geo
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When a pool repository record is created in SQL on a Geo primary, this
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will eventually trigger an event on the Geo secondary. The Geo secondary
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will then create the pool repository in Gitaly. This leads to an
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"eventually consistent" situation because as each pool participant gets
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synchronized, Geo will eventuall trigger garbage collection in Gitaly on
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the secondary, at which stage Git objects will get deduplicated.
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> TODO How do we handle the edge case where at the time the Geo
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> secondary tries to create the pool repository, the source project does
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> not exist? <https://gitlab.com/gitlab-org/gitaly/issues/1533>
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