This library enables to use Amazon S3 as a git remote and LFS server.
It provides an implementation of a git remote helper to use S3 as a serverless Git server.
It also provide an implementation of the git-lfs custom transfer to enable pushing LFS managed files to the same S3 bucket used as remote.
git-remote-s3
is a Python script and works with any Python version >= 3.9.
Run:
pip install git-remote-s3
Before you can use git-remote-s3
, you must:
Complete initial configuration:
Create an AWS S3 bucket (or have one already) in your AWS account.
Attach a minimal policy to that user/role that allows the to the S3 bucket:
{
"Sid": "S3Access",
"Effect": "Allow",
"Action": ["s3:PutObject", "s3:GetObject", "s3:ListBucket"],
"Resource": ["arn:aws:s3:::<BUCKET>", "arn:aws:s3:::*/*"]
}
Optional (but recommended) - use SSE-KMS Bucket keys to encrypt the content of the bucket, ensure the user/role create previously has the permission to access and use the key.
{
"Sid": "KMSAccess",
"Effect": "Allow",
"Action": ["kms:Decrypt", "kms:GenerateDataKey"],
"Resource": ["arn:aws:kms:<REGION>:<ACCOUNT>:key/<KEY_ID>"]
}
All data is encrypted at rest and in transit by default. To add an additional layer of security you can use customer managed KMS keys to encrypt the data at rest on the S3 bucket. We recommend to use Bucket keys to minimize the KMS costs.
Access control to the remote is ensured via IAM permissions, and can be controlled at:
S3 remotes are identified by the prefix s3://
and at the bare minimum specify the name of the bucket. You can also provide a key prefix as in s3://my-git-bucket/my-repo
and a profile s3://my-profile@my-git-bucket/myrepo
.
mkdir my-repo
cd my-repo
git init
git remote add origin s3://my-git-bucket/my-repo
You can then add a file, commit and push the changes to the remote:
echo "Hello" > hello.txt
git add -A
git commit -a -m "hello"
git push --set-upstream origin main
The remote HEAD is set to track the branch that has been pushed first to the remote repo. To change the remote HEAD branch, delete the HEAD object s3://<bucket>/<prefix>/HEAD
and then run git-remote-s3 doctor s3://<bucket>/<prefix>
.
When you use s3+zip://
instead of s3://
, an additional zip archive named repo.zip
is uploaded next to the sha.bundle
file. This is for example useful if you want to use the Repo as a S3 Source for AWS CodePipeline, which expects a .zip
file. The path on S3 when you push to the main
branch is for example refs/heads/main/repo.zip
. See How S3 remote work for more details about the bundle file.
To clone the repo to another folder just use the normal git syntax using the s3 URI as remote:
git clone s3://my-git-bucket/my-repo my-repo-clone
Creating branches and pushing them works as normal:
cd my-repo
git checkout -b new_branch
touch new_file.txt
git add -A
git commit -a -m "new file"
git push origin new_branch
All git operations that do not rely on communication with the server should work as usual (eg git merge
)
If you have a repo that uses submodules also hosted on S3, you need to run the following command:
git config protocol.s3.allow always
Or, to enable globally:
git config --global protocol.s3.allow always
AWS CodePipeline offers an Amazon S3 source action
as location for your source code and application files. But this requires to uploade the source files as a single ZIP file
.
As briefly mentioned in Create a new repo, git-remote-s3
can create and upload zip archives.
When you use s3+zip
as URI Scheme when you add the remote, git-remote-s3
will automatically upload an archive that can be used by AWS CodePipeline.
Let's assume your bucket name is my-git-bucket
and the repo is called my-repo
. Run git remote add origin s3+zip://my-git-bucket/my-repo
to use it as remote.
When you now commit your changes and push to the remote, an additional repo.zip
file will be uploaded to the bucket.
For example, if you push to the main
branch (git push origin main
), the file is available under s3://my-git-bucket/my-repo/refs/heads/main/repo.zip
.
When you push to a branch called fix_a_bug
it's available under s3://my-git-bucket/my-repo/refs/heads/fix_a_bug/repo.zip
.
And if you create and push a tag called v1.0
it will be s3://my-git-bucket/my-repo/refs/tags/v1.0/repo.zip
.
Your AWS CodePipeline Action configuration to trigger when you update your main
branch:
Amazon S3
my-git-bucket
my-repo/refs/heads/main/repo.zip
AWS CodePipeline
Visit Tutorial: Create a simple pipeline (S3 bucket) to learn more about a S3 bucket as source action.
To use LFS you need to first install git-lfs. You can refer to the official documentation on how to do this on your system.
Next, you need enable the S3 integration by running the following command in the repo folder:
git-lfs-s3 install
which is a short cut for:
git config --add lfs.customtransfer.git-lfs-s3.path git-lfs-s3
git config --add lfs.standalonetransferagent git-lfs-s3
Let's assume we want to store TIFF file in LFS.
mkdir lfs-repo
cd lfs-repo
git init
git lfs install
git-lfs-s3 install
git lfs track "*.tiff"
git add .gitattributes
<put file.tiff in the repo>
git add file.tiff
git commit -a -m "my first tiff file"
git remote add origin s3://my-git-bucket/lfs-repo
git push --set-upstream origin main
When cloning a repo using the S3 remote for LFS, git-lfs
can't know how to fetch the files since we have yet to add the configuration.
It involves 2 extra steps.
% git clone s3://my-git-bucket/lfs-repo lfs-repo-clone
Error downloading object: file.tiff (54238cf): Smudge error: Error downloading file.tiff (54238cfaaaa42dda05da0e12bf8ee3156763fa35296085ccdef63b13a87837c5): batch request: ssh: Could not resolve hostname s3: Name or service not known: exit status 255
...
To fix:
cd lfs-repo-clone
git-lfs-s3 install
git reset --hard main
An Amazon S3 URI for a valid bucket and an arbitrary prefix which does not contain the right structure under it, is considered valid.
git ls-remote
returns an empty list and git clone
clones an empty repository for which the S3 URI is set as remote origin.
% git clone s3://my-git-bucket/this-is-a-new-repo
Cloning into 'this-is-a-new-repo'...
warning: You appear to have cloned an empty repository.
% cd this-is-a-new-repo
% git remote -v
origin s3://my-git-bucket/this-is-a-new-repo (fetch)
origin s3://my-git-bucket/this-is-a-new-repo (push)
Tip: This behavior can be used to quickly create a new git repo.
Due to the distributed nature of git
, there might be cases (albeit rare) where 2 or more git push
are executed at the same time by different user with their own modification of the same branch.
The git command executes the push in 2 steps:
git-remote-s3
command which writes the bundle to the S3 bucket at the refs/heads/<branch>
pathIn case two (or more) git push
command are executed at the same time from different clients, at step 1 the same valid ref is fetched, hence both clients proceed with step 2, resulting in multiple bundles being stored in S3.
The branch has now multiple head references, and any subsequent git push
fails with the error:
error: dst refspec refs/heads/<branch>> matches more than one
error: failed to push some refs to 's3://<bucket>/<prefix>'
To fix this issue, run the git-remote-s3 doctor <s3-uri>
command. By default it will create a new branch for every bundle that should not be retained. The user can then checkout the branch locally and merge it to the original branch. If you want instead to remove the bundle, specify --delete-bundle
.
To remove remote branches that are not used anymore you can use the git-s3 delete-branch <s3uri> -b <branch_name>
command. This command deletes the bundle object(s) from Amazon S3 under the branch path.
To protect/unprotect a branch run git s3 protect <remote> <branch-name>
respectively git s3 unprotect <remote> <branch-name>
.
Bundles are stored in the S3 bucket as <prefix>/<ref>/<sha>.bundle
.
When listing remote ref (eg explicitly via git ls-remote
) we list all the keys present under the given
When pushing a new ref (eg a commit), we get the sha of the ref, we bundle the ref via git bundle create <sha>.bundle <ref>
and store it to S3 according the schema above.
If the push is successful, the code removes the previous bundle associated to the ref.
If two user concurrently push a commit based on the same current branch head to the remote both bundles would be written to the repo and the current bundle removed. No data is lost, but no further push will be possible until all bundles but one are removed.
For this you can use the git s3 doctor <remote>
command.
The LFS integration stores the file in the bucket defined by the remote URI, under a key <prefix>/lfs/<oid>
, where oid is the unique identifier assigned by git-lfs to the file.
If an object with the same key already exists, git-lfs-s3 does not upload it again.
Use --verbose
flag to print some debug information when performing git operations. Logs will be put to stderr.
For LFS operations you can enable and disable debug logging via git-lfs-s3 enable-debug
and git-lfs-s3 disable-debug
respectively. Logs are put in .git/lfs/tmp/git-lfs-s3.log
in the repo.
The git S3 integration was inspired by the work of Bryan Gahagan on git-remote-s3.
The LFS implementation benefitted from lfs-s3 by @nicolas-graves. If you do not need to use the git-remote-s3 transport you should use that project.