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Clone a Git repository to your local computer

When you clone a repository, a connection is created with a server and the files from the remote repository are downloaded to your computer.

This connection requires you to add credentials. You can either use SSH or HTTPS. SSH is recommended.

Clone with SSH

Clone with SSH when you want to authenticate only one time.

  1. Authenticate with GitLab by following the instructions in the SSH documentation.

  2. On the left sidebar, select Search or go to and find the project you want to clone.

  3. On the project's overview page, in the upper-right corner, select Code, then copy the URL for Clone with SSH.

  4. Open a terminal and go to the directory where you want to clone the files. Git automatically creates a folder with the repository name and downloads the files there.

  5. Run this command:

    git clone <copied URL>
  6. To view the files, go to the new directory:

    cd <new directory>

Clone with HTTPS

Clone with HTTPS when you want to authenticate each time you perform an operation between your computer and GitLab. OAuth credential helpers can decrease the number of times you must manually authenticate, making HTTPS a seamless experience.

  1. On the left sidebar, select Search or go to and find the project you want to clone.

  2. On the project's overview page, in the upper-right corner, select Code, then copy the URL for Clone with HTTPS.

  3. Open a terminal and go to the directory where you want to clone the files.

  4. Run the following command. Git automatically creates a folder with the repository name and downloads the files there.

    git clone <copied URL>
  5. GitLab requests your username and password.

    If you have enabled two-factor authentication (2FA) on your account, you cannot use your account password. Instead, you can do one of the following:

    If you have not enabled 2FA, use your account password.

  6. To view the files, go to the new directory:

    cd <new directory>

NOTE: On Windows, if you enter your password incorrectly multiple times and an Access denied message appears, add your namespace (username or group) to the path: git clone https://namespace@gitlab.com/gitlab-org/gitlab.git.

Clone using a token

Clone with HTTPS using a token if:

  • You want to use 2FA.
  • You want to have a revocable set of credentials scoped to one or more repositories.

You can use any of these tokens to authenticate when cloning over HTTPS:

For example:

git clone https://<username>:<token>@gitlab.example.com/tanuki/awesome_project.git

Clone and open in Apple Xcode

Projects that contain a .xcodeproj or .xcworkspace directory can be cloned into Xcode on macOS.

  1. From the GitLab UI, go to the project's overview page.
  2. In the upper-right corner, select Code.
  3. Select Xcode.

The project is cloned onto your computer and you are prompted to open Xcode.

Clone and open in Visual Studio Code

All projects can be cloned into Visual Studio Code from the GitLab user interface, but you can also install the GitLab Workflow extension for VS Code to clone from Visual Studio Code:

  • From the GitLab interface:
    1. Go to the project's overview page.

    2. In the upper-right corner, select Code.

    3. Under Open in your IDE, select Visual Studio Code (SSH) or Visual Studio Code (HTTPS).

    4. Select a folder to clone the project into.

      After Visual Studio Code clones your project, it opens the folder.

  • From Visual Studio Code, with the extension installed, use the extension's Git: Clone command.

Clone and open in IntelliJ IDEA

All projects can be cloned into IntelliJ IDEA from the GitLab user interface.

Prerequisites:

To do this:

  1. Go to the project's overview page.
  2. In the upper-right corner, select Code.
  3. Under Open in your IDE, select IntelliJ IDEA (SSH) or IntelliJ IDEA (HTTPS).

Reduce clone size

As Git repositories grow in size, they can become cumbersome to work with because of:

  • The large amount of history that must be downloaded.
  • The large amount of disk space they require.

Partial clone is a performance optimization that allows Git to function without having a complete copy of the repository. The goal of this work is to allow Git better handle extremely large repositories.

Git 2.22.0 or later is required.

Filter by file size

Storing large binary files in Git is usually discouraged, because every large file added is downloaded by everyone who clones or fetches changes thereafter. These downloads are slow and problematic, especially when working from a slow or unreliable internet connection.

Using partial clone with a file size filter solves this problem, by excluding troublesome large files from clones and fetches. When Git encounters a missing file, it's downloaded on demand.

When cloning a repository, use the --filter=blob:limit=<size> argument. For example, to clone the repository excluding files larger than 1 megabyte:

git clone --filter=blob:limit=1m git@gitlab.com:gitlab-com/www-gitlab-com.git

This would produce the following output:

Cloning into 'www-gitlab-com'...
remote: Enumerating objects: 832467, done.
remote: Counting objects: 100% (832467/832467), done.
remote: Compressing objects: 100% (207226/207226), done.
remote: Total 832467 (delta 585563), reused 826624 (delta 580099), pack-reused 0
Receiving objects: 100% (832467/832467), 2.34 GiB | 5.05 MiB/s, done.
Resolving deltas: 100% (585563/585563), done.
remote: Enumerating objects: 146, done.
remote: Counting objects: 100% (146/146), done.
remote: Compressing objects: 100% (138/138), done.
remote: Total 146 (delta 8), reused 144 (delta 8), pack-reused 0
Receiving objects: 100% (146/146), 471.45 MiB | 4.60 MiB/s, done.
Resolving deltas: 100% (8/8), done.
Updating files: 100% (13008/13008), done.
Filtering content: 100% (3/3), 131.24 MiB | 4.65 MiB/s, done.

The output is longer because Git:

  1. Clones the repository excluding files larger than 1 megabyte.
  2. Downloads any missing large files needed to check out the default branch.

When changing branches, Git may download more missing files.

Filter by object type

For repositories with millions of files and a long history, you can exclude all files and use git sparse-checkout to reduce the size of your working copy.

# Clone the repo excluding all files
$ git clone --filter=blob:none --sparse git@gitlab.com:gitlab-com/www-gitlab-com.git
Cloning into 'www-gitlab-com'...
remote: Enumerating objects: 678296, done.
remote: Counting objects: 100% (678296/678296), done.
remote: Compressing objects: 100% (165915/165915), done.
remote: Total 678296 (delta 472342), reused 673292 (delta 467476), pack-reused 0
Receiving objects: 100% (678296/678296), 81.06 MiB | 5.74 MiB/s, done.
Resolving deltas: 100% (472342/472342), done.
remote: Enumerating objects: 28, done.
remote: Counting objects: 100% (28/28), done.
remote: Compressing objects: 100% (25/25), done.
remote: Total 28 (delta 0), reused 12 (delta 0), pack-reused 0
Receiving objects: 100% (28/28), 140.29 KiB | 341.00 KiB/s, done.
Updating files: 100% (28/28), done.

$ cd www-gitlab-com

$ git sparse-checkout set data --cone
remote: Enumerating objects: 301, done.
remote: Counting objects: 100% (301/301), done.
remote: Compressing objects: 100% (292/292), done.
remote: Total 301 (delta 16), reused 102 (delta 9), pack-reused 0
Receiving objects: 100% (301/301), 1.15 MiB | 608.00 KiB/s, done.
Resolving deltas: 100% (16/16), done.
Updating files: 100% (302/302), done.

For more details, see the Git documentation for sparse-checkout.

Filter by file path

Deeper integration between partial clone and sparse checkout is possible through the --filter=sparse:oid=<blob-ish> filter spec. This mode of filtering uses a format similar to a .gitignore file to specify which files to include when cloning and fetching.

WARNING: Partial clone using sparse filters is still experimental. It might be slow and significantly increase Gitaly resource utilization when cloning and fetching. Filter all blobs and use sparse-checkout instead, because git-sparse-checkout simplifies this type of partial clone use and overcomes its limitations.

For more details, see the Git documentation for rev-list-options.

  1. Create a filter spec. For example, consider a monolithic repository with many applications, each in a different subdirectory in the root. Create a file shiny-app/.filterspec:

    # Only the paths listed in the file will be downloaded when performing a
    # partial clone using `--filter=sparse:oid=shiny-app/.gitfilterspec`
    
    # Explicitly include filterspec needed to configure sparse checkout with
    # git config --local core.sparsecheckout true
    # git show master:snazzy-app/.gitfilterspec >> .git/info/sparse-checkout
    shiny-app/.gitfilterspec
    
    # Shiny App
    shiny-app/
    
    # Dependencies
    shimmery-app/
    shared-component-a/
    shared-component-b/
  2. Clone and filter by path. Support for --filter=sparse:oid using the clone command is not fully integrated with sparse checkout.

    # Clone the filtered set of objects using the filterspec stored on the
    # server. WARNING: this step may be very slow!
    git clone --sparse --filter=sparse:oid=master:shiny-app/.gitfilterspec <url>
    
    # Optional: observe there are missing objects that we have not fetched
    git rev-list --all --quiet --objects --missing=print | wc -l

    WARNING: Git integrations with bash, Zsh, etc and editors that automatically show Git status information often run git fetch which fetches the entire repository. Disabling or reconfiguring these integrations might be required.

Remove partial clone filtering

Git repositories with partial clone filtering can have the filtering removed. To remove filtering:

  1. Fetch everything that has been excluded by the filters, to make sure that the repository is complete. If git sparse-checkout was used, use git sparse-checkout disable to disable it. See the disable documentation for more information.

    Then do a regular fetch to ensure that the repository is complete. To check if there are missing objects to fetch, and then fetch them, especially when not using git sparse-checkout, the following commands can be used:

    # Show missing objects
    git rev-list --objects --all --missing=print | grep -e '^\?'
    
    # Show missing objects without a '?' character before them (needs GNU grep)
    git rev-list --objects --all --missing=print | grep -oP '^\?\K\w+'
    
    # Fetch missing objects
    git fetch origin $(git rev-list --objects --all --missing=print | grep -oP '^\?\K\w+')
    
    # Show number of missing objects
    git rev-list --objects --all --missing=print | grep -e '^\?' | wc -l
  2. Repack everything. This can be done using git repack -a -d, for example. This should leave only three files in .git/objects/pack/:

    • A pack-<SHA1>.pack file.
    • Its corresponding pack-<SHA1>.idx file.
    • A pack-<SHA1>.promisor file.
  3. Delete the .promisor file. The above step should have left only one pack-<SHA1>.promisor file, which should be empty and should be deleted.

  4. Remove partial clone configuration. The partial clone-related configuration variables should be removed from Git configuration files. Usually only the following configuration must be removed:

    • remote.origin.promisor.
    • remote.origin.partialclonefilter.