Version: 2021.1
Embedded dependencies
Local folder or tarball paths

Git dependencies

When the Package Manager fetches a package from a Git repository, it adds the package locally to your project. This allows you to easily test unpublished changes, but you cannot use it to contribute to that Git repository. To set up an existing local Git repository as a dependencyIn the context of the Package Manager, a dependency is a specific package version (expressed in the form package_name@package_version) that a project or another package requires in order to work. Projects and packages use the dependencies attribute in their manifests to define the set of packages they require. For projects, these are considered direct dependencies; for packages, these are indirect, or transitive, dependencies. More info
See in Glossary
in your project, use a path to your local Git repository instead.

You cannot specify Git dependenciesThe Package Manager retrieves Git dependencies from a Git repository directly rather than from a package registry. Git dependencies use a Git URL reference instead of a version, and there’s no guarantee about the package quality, stability, validity, or even whether the version stated in its package.json file respects Semantic Versioning rules with regards to officially published releases of this package. More info
See in Glossary
in a package.json file because the Package Manager does not support Git dependencies between packages. It only supports Git dependencies for projects, so you can only declare Git dependencies in the project’s manifest.json file.

Tip: If you want to update your Git dependency to a specific version (revision) from the repository, see Locked Git dependencies.

This section includes the following topics:


Requirements

To use Git dependencies in a project, make sure the Git client (minimum version 2.14.0) is installed on your machine and that you have added the Git executable path to the PATH system environment variable.

Warning: The Package Manager has been tested to work with Git 2.14.0 and above. Unity cannot guarantee the results if you use Git versions below 2.14.0.

If the repository tracks files with Git LFS, make sure the Git LFS client is also installed on your machine. If it is not installed, the Package Manager can’t retrieve the files stored on the LFS server and instead checks out the LFS pointer files without any error or warning messages.

You can use the Package Manager window to install a package directly from a Git repository. For more information, see Installing from a Git URL.

Git URLs and extended syntax

The Package Manager supports all Git protocols, with the exception of direct file paths. To specify a Git URL as a dependency, add the name of the package to add with a Git URL instead of the version number or local file path. For example, this demonstrates how to specify a remote Git using different protocols:

{
  "dependencies": {
    "com.mycompany.mypackage1": "https://github.example.com/myuser/myrepository1.git",
    "com.mycompany.mypackage2": "ssh://git@github.example.com/myuser/myrepository2.git",
    "com.mycompany.mypackage3": "file://localhost/github.example.com/myuser/myrepository3.git",
    "com.mycompany.mypackage4": "git://github.example.com/myuser/myrepository4.git",
    etc.
  }
}

The Package Manager recognizes that a dependency formatted as a URL is a Git URL by looking for the .git file extension at the end of the repository path. Some Git repository hosting services do not support URLs with this extension while others enforce it. For this reason, the Git dependency syntax allows you to omit the extension if you use the GIT protocol, or if you add a special git+ prefix to the HTTP/HTTPS, SSH, or FILE URL.

Note: The git+ prefix is a special marker in the manifest.json file that indicates that the dependency is Git-based. The Package Manages does not pass it to Git when cloning the repository.

For more information about the format of Git-supported URLs, see the documentation for the git clone command. For an overview of the difference between the protocols that Git uses, see the Git documentation for using protocols.

In addition, Git dependencies use an extended syntax:

  • If the package you want is not at the root of the repository, you can specify a path to a subfolder in the repository where the package is located. This is only necessary if the package you want is not at the root of the repository. For example, the string ?path=/folder1/folder2 in:

    "https://github.example.com/myuser/myrepository.git?path=/folder1/folder2".

    For more information, see Specifying a package in a subfolder.

  • You can specify a Git revision, which can be a tag, branch name, or a specific commit hash to lock onto. This ensures that the Package Manager always loads that exact revision. If you don’t specify a revision, the Package Manager clones the repository at the default branch and latest commit. For example, the string #v2.0.0 in:

    "https://github.example.com/myuser/myrepository.git#v2.0.0"

    For more information, see Targeting a specific revision.

Using the HTTP/HTTPS protocol

You can use the HTTPS protocol with the full URL:

{
  "dependencies": {
    "com.mycompany.mypackage": "https://github.example.com/myuser/myrepository.git"
  }
}

If your Git server does not support the .git extension, you can add the special git+ prefix, with or without the extension:

{
  "dependencies": {
    "com.mycompany.mypackage1": "git+https://github.example.com/myuser/myrepository1.git",
    "com.mycompany.mypackage2": "git+https://github.example.com/myuser/myrepository2"
  }
}

Note: Alternatively, you can use the GIT protocol instead of the git+ prefix. For more information, see Using the GIT protocol.

If the repository is publicly accessible, HTTPS is the recommended scheme for sharing Git URLs with users because you can copy and paste the URL directly from the Git repository hosting service web page.

Copy the URL from the package repository
Copy the URL from the package repository

If the repository is not publicly accessible and you are using HTTPS, the repository server fails to authenticate you because you can’t interact with the server to provide your credentials. In this case, the Editor notifies you that authentication failed.

To work around these authentication issues, you can either authenticate beforehand using a Git credentials helper or use the SSH protocol instead. If you set up and configure an SSH key pair with the Git repository hosting service, the Package Manager can authenticate the request seamlessly on your behalf.

Using the SSH protocol

You can use the SSH protocol with the full URL:

{
  "dependencies": {
    "com.mycompany.mypackage": "ssh://git@mycompany.github.com/gitproject/com.mycompany.mypackage.git"
  }
}

If your Git server does not support the .git extension, you can add the special git+ prefix, with or without the extension:

{
  "dependencies": {
    "com.mycompany.mypackage1": "git+ssh://git@github.example.com/myuser/myrepository1.git",
    "com.mycompany.mypackage2": "git+ssh://git@github.example.com/myuser/myrepository2"
  }
}

Note: Alternatively, you can use the GIT protocol instead of the git+ prefix. For more information, see Using the GIT protocol.

You can also use the SCP-like shorthand, which the Package Manager always recognizes as a Git dependency:

{
  "dependencies": {
    "com.mycompany.mypackage": "git@mycompany.github.com:gitproject/com.mycompany.mypackage.git"
  }
}

Using PuTTY on Windows

Git uses the keys at the default location when you use SSH to authenticate. However, if you are using PuTTY as the SSH client on Windows, you need to configure the GIT_SSH environment variable to make it point to plink.exe.

Authenticating with SSH

If you want to use the SSH protocol, you need to set up SSH keys outside of Unity. For more information on setting up authentication for a specific host, see the help pages for Bitbucket, GitLab, and GitHub.

Note: If you encrypted your SSH key with a passphrase, the Package Manager can’t retrieve the package, because it doesn’t provide a way to enter the passphrase in a terminal or command line. In this case, the Editor notifies you that authentication failed. For help with using the ssh-agent for authentication, see Solutions for SSH.

Using the FILE protocol

The Package Manager does not recognize Git URLs with the file: prefix as Git dependencies unless they are properly formatted. This means you must use either the git+file: protocol, or the .git suffix with the file: protocol:

{
  "dependencies": {
    "com.mycompany.mypackage1": "git+file://github.example.com/myuser/myrepository1",
    "com.mycompany.mypackage2": "git+file:///github.example.com/myuser/myrepository2",
    "com.mycompany.mypackage3": "file:///github.example.com/myuser/myrepository3.git"
  }
}

Note: Alternatively, you can use the GIT protocol instead of the git+ prefix. For more information, see Using the GIT protocol.

The Package Manager interprets any other syntax as a local path instead.

Using the GIT protocol

The Package Manager recognizes the git: protocol, with or without the .git path suffix:

{
  "dependencies": {
    "com.mycompany.mypackage1": "git://github.example.com/myuser/myrepository1.git",
    "com.mycompany.mypackage2": "git://github.example.com/myuser/myrepository2"
  }
}

The GIT protocol doesn’t need or support the git+ prefix.

Targeting a specific revision

To declare a specific revision that you want the Package Manager to clone, add the revision prefixed by the number sign (#) at the end of the URL:

{
  "dependencies": {
    "com.mycompany.mypackage1": "https://github.example.com/myuser/myrepository1.git#revision",
    "com.mycompany.mypackage2": "git+https://github.example.com/myuser/myrepository2#revision"
  }
}

The revision can be any tag, branch or commit hash. This table shows examples for specifying revisions:

Syntax: URL example
Latest default branch "https://github.example.com/myuser/myrepository.git"
Specific branch "https://github.example.com/myuser/myrepository.git#my-branch"
Specific version "https://github.example.com/myuser/myrepository.git#v2.0.0"
Commit hash "https://github.example.com/myuser/myrepository.git#9e72f9d5a6a3dadc38d813d8399e1b0e86781a49"

Specifying a package in a subfolder of the repository

If you specify a repository using the Git URL syntax, the Package Manager assumes that the package must be at the root of the repository. However, some packages are not located at the root level of their repository, and some repositories contain more than one package.

You can use the path query parameter in the Git URL to notify the Package Manager where to find the package. The path you specify must be relative to the root of the repository, and the subfolder you specify must contain the package manifestEach package has a manifest, which provides information about the package to the Package Manager. The manifest contains information such as the name of the package, its version, a description for users, dependencies on other packages (if any), and other details. More info
See in Glossary
(package.json file).

To specify a repository subfolder for a Git dependency, use the path query parameter:

{
  "dependencies": {
    "com.mycompany.mypackage": "https://github.example.com/myuser/myrepository.git?path=/subfolder"
  }
}

In this case, the Package Manager only registers the package located in the specified repository subfolder and disregards the rest of the repository.

Sometimes a repository contains several related packages. If you want to add more than one package from the same repository, you must add two separate entries to your project manifestEach Unity project has a project manifest, which acts as an entry point for the Package Manager. This file must be available in the <project>/Packages directory. The Package Manager uses it to configure many things, including a list of dependencies for that project, as well as any package repository to query for packages. More info
See in Glossary
:

{
  "dependencies": {
    "com.mycompany.mypackage1": "https://github.example.com/myuser/myrepository.git?path=/subfolder1",
    "com.mycompany.mypackage3": "https://github.example.com/myuser/myrepository.git?path=/subfolder2/subfolder3"
  }
}

Note: If you specify the same repository multiple times, the Package Manager clones the same repository multiple times, which leads to reduced performance and additional network usage.

Using paths and revisions at the same time

The path query parameter always precedes the revision anchor. The reverse order fails. This is an example of the correct order to use:

{
  "dependencies": {
    "com.mycompany.mypackage": "https://github.example.com/myuser/myrepository.git?path=/example/folder#v1.2.3"
  }
}

Locked Git dependencies

One of the core principles of the Package Manager is determinism. If you share your project with other users, the Package Manager should install the same set of package dependencies and versions, and that includes packages that it fetches from Git. To achieve this, the Package Manager uses a lock file, which tracks which commit hashes of Git dependencies are used.

When you add a Git dependency with a revision set to a branch or a tag, the Package Manager fetches the corresponding commit hash to store in the lock file. Over time, branches and tags can point to different commits on the Git repository. For example, a branch can have newer commits added to it.

To update the package to a different commit that a branch or tag points to, use the Add package from git URL button and enter a Git URL. You can use the same Git URL, because the Package Manager ignores the locked commit hash when you submit a new request. You can also specify a new revision number, tag, or branch as a revision.

Alternatively, you could create a script with the Client.Add C# API method with that Git URL.


Git LFS Support

The Package Manager supports Git dependencies with repositories using Git LFS. Since Git LFS has been designed to work with minimal configuration overhead, it supports both HTTPS and SSH authentication. Retrieval of files stored on the LFS server fails if users need to be authenticated and do not have valid credentials with permission to access the remote repository.

Package authors can help the Git LFS client locate the LFS Server by providing it with the URL in the .lfsconfig configuration file in the repository. There are two ways to do this:

# Option 1: global setting
[lfs]
  url = ssh://git@HOSTNAME/path/to/repo.git

# Option 2: per-remote setting
[remote "origin"]
  lfsurl = ssh://git@HOSTNAME/path/to/repo.git

If the repository contains a .lfsconfig file, make sure you include it in the .npmignore file to avoid including it in published releases of the package.

Git LFS cache

By default, the Git LFS client caches the files downloaded from the LFS server in the .git/lfs folder of your Git repository. This avoids having to download the same file every time you check out a different revision of the repository. However, the Package Manager can’t use this cache for Git dependencies because it doesn’t keep cloned repositories after the packages have been copied to the project cache.

As of Unity 2021.2, you can optionally enable a Git LFS cache for the Package Manager to use when checking out Git-based dependencies.

To do so, choose one of the following options:

  • To enable the Git LFS cache and use the git-lfs subfolder under the default global cache root as its location, set the UPM_ENABLE_GIT_LFS_CACHE environment variable to any (non-empty) value.
  • To enable the Git LFS cache and use a custom location for it, set the UPM_GIT_LFS_CACHE_PATH environment variable to the custom path. When you set the location, the Git LFS cache option is automatically enabled.

For more information about how to set environment variables for the global cache, see Customizing the shared cache locations.

Note: This optimization requires extra disk space when using Git LFS-enabled packages. You need to decide which is the greater benefit: Git LFS file caching costs disk space but saves on re-downloading the same files. However, some situations can’t leverage the cache and use up disk space without re-using the files. For example, your Git dependencies might resolve to revisions that reference different LFS-tracked file content, such as these scenarios:

  • Using different Git revisions in dependencies in multiple projects
  • Frequently updating a package to revisions that contain different changed LFS files




  • Lock files added in Unity 2019.4 NewIn20194
  • Git dependencies in subfolders added in Unity 2019.4 NewIn20194
  • Git LFS caching for Git dependencies added in Unity 2019.4 NewIn20194
Embedded dependencies
Local folder or tarball paths
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