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Git LFS
Deep Dive
In April 2019, Francisco Javier López hosted a Deep Dive (GitLab team members only: https://gitlab.com/gitlab-org/create-stage/issues/1
)
on GitLab's Git LFS implementation to share his domain
specific knowledge with anyone who may work in this part of the code base in the future.
You can find the recording on YouTube,
and the slides on Google Slides
and in PDF.
Everything covered in this deep dive was accurate as of GitLab 11.10, and while specific
details may have changed since then, it should still serve as a good introduction.
Including LFS blobs in project archives
Introduced in GitLab 13.5.
The following diagram illustrates how GitLab resolves LFS files for project archives:
sequenceDiagram
autonumber
Client->>+Workhorse: GET /group/project/-/archive/master.zip
Workhorse->>+Rails: GET /group/project/-/archive/master.zip
Rails->>+Workhorse: Gitlab-Workhorse-Send-Data git-archive
Workhorse->>Gitaly: SendArchiveRequest
Gitaly->>Git: git archive master
Git->>Smudge: OID 12345
Smudge->>+Workhorse: GET /internal/api/v4/lfs?oid=12345&gl_repository=project-1234
Workhorse->>+Rails: GET /internal/api/v4/lfs?oid=12345&gl_repository=project-1234
Rails->>+Workhorse: Gitlab-Workhorse-Send-Data send-url
Workhorse->>Smudge: <LFS data>
Smudge->>Git: <LFS data>
Git->>Gitaly: <streamed data>
Gitaly->>Workhorse: <streamed data>
Workhorse->>Client: master.zip
- The user requests the project archive from the UI.
- Workhorse forwards this request to Rails.
- If the user is authorized to download the archive, Rails replies with
an HTTP header of
Gitlab-Workhorse-Send-Data
with a base64-encoded JSON payload prefaced withgit-archive
. This payload includes theSendArchiveRequest
binary message, which is encoded again in base64. - Workhorse decodes the
Gitlab-Workhorse-Send-Data
payload. If the archive already exists in the archive cache, Workhorse sends that file. Otherwise, Workhorse sends theSendArchiveRequest
to the appropriate Gitaly server. - The Gitaly server will call
git archive <ref>
to begin generating the Git archive on-the-fly. If theinclude_lfs_blobs
flag is enabled, Gitaly enables a custom LFS smudge filter via the-c filter.lfs.smudge=/path/to/gitaly-lfs-smudge
Git option. - When
git
identifies a possible LFS pointer using the.gitattributes
file,git
callsgitaly-lfs-smudge
and provides the LFS pointer via the standard input. Gitaly providesGL_PROJECT_PATH
andGL_INTERNAL_CONFIG
as environment variables to enable lookup of the LFS object. - If a valid LFS pointer is decoded,
gitaly-lfs-smudge
makes an internal API call to Workhorse to download the LFS object from GitLab. - Workhorse forwards this request to Rails. If the LFS object exists
and is associated with the project, Rails sends
ArchivePath
either with a path where the LFS object resides (for local disk) or a pre-signed URL (when object storage is enabled) via theGitlab-Workhorse-Send-Data
HTTP header with a payload prefaced withsend-url
. - Workhorse retrieves the file and send it to the
gitaly-lfs-smudge
process, which writes the contents to the standard output. git
reads this output and sends it back to the Gitaly process.- Gitaly sends the data back to Rails.
- The archive data is sent back to the client.
In step 7, the gitaly-lfs-smudge
filter must talk to Workhorse, not to
Rails, or an invalid LFS blob will be saved. To support this, GitLab
13.5 changed the default Omnibus configuration to have Gitaly talk to
the Workhorse
instead of Rails.
One side effect of this change: the correlation ID of the original
request is not preserved for the internal API requests made by Gitaly
(or gitaly-lfs-smudge
), such as the one made in step 8. The
correlation IDs for those API requests will be random values until this
Workhorse issue is
resolved.