Say I have a GitHub actions workflow with 2 steps.

  1. Download and compile my application's dependencies.
  2. Compile and test my application

My dependencies rarely change and the compiled dependencies can be safely cached until I next change the lock-file that specifies their versions.

Is a way to save the result of the first step so that in future workflow can skip over that step?

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    While bitoiu's answer is correct that there's no explicit caching feature in GitHub Actions today, you do get implicit caching across steps in a workflow within a given workflow run. This happens because GitHub volume mounts your repo into Docker for each step. Any changes you make in one step persist on disk into the next steps for that workflow run. Of course, this will not cache a dependency build across runs as you've asked, but others may find the ability to have some caching useful. I don't think this feature is documented. – Taylor Edmiston Mar 15 '19 at 19:44
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    Another thing you could do is push your build dependency cache (e.g., as a tar) out to S3 / Minio / etc like how GitLab's distributed caching system works. You'd have to do the requests to/from S3 or similar manually for now until the GitHub Actions product adds a feature like this. How much time (if any) this saves you certainly depends on the size of your dependencies and how fast GitHub Actions pulls from S3. I haven't tested this yet myself. – Taylor Edmiston Mar 15 '19 at 19:44

Caching is now natively supported via the cache action. It works across both jobs and workflows within a repository. See also: https://help.github.com/en/actions/automating-your-workflow-with-github-actions/caching-dependencies-to-speed-up-workflows.

Consider the following example:

name: GitHub Actions Workflow with NPM cache

on: [push]


    runs-on: ubuntu-latest

    - uses: actions/checkout@v1

    - name: Cache NPM dependencies
      uses: actions/cache@v1
        path: ~/.npm
        key: ${{ runner.OS }}-npm-cache-${{ hashFiles('**/package-lock.json') }}
        restore-keys: |
          ${{ runner.OS }}-npm-cache-

    - name: Install NPM dependencies
      run: npm install

Where the path and key parameters of the cache action is used to identify the cache.

The optional restore-keys is used for a possible fallback to a partial match (i.e. if package-lock.json changes the previous cache will be used).

Prefixing the keys with some id (npm-cache in this example) is useful when the restore-keys fallback is used and there're multiple different caches (e.g. for JS packages and for system packages). Otherwise, one cache could fall back to the other unrelated cache. Similarly, an OS prefix useful when using matrix builds so caches of different systems don't get mixed up.

You can also build your own reusable caching logic with @actions/cache such as:

Old answer:

Native caching is not currently possible, expected to be implemented by mid-November 2019.

You can use artifacts (1, 2) to move directories between jobs (within 1 workflow) as proposed on the GH Community board. This, however, doesn't work across workflows.

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    Won't this example still run the npm install step on every push unless you include something like if: steps.cache-deps.outputs.cache-hit != 'true' and id: cache-deps for the cache step? – Casimir Aug 24 '20 at 6:01
  • Yes, it will, but it will load the dependencies from the cache. – thisismydesign Aug 24 '20 at 6:12
  • @thisismydesign and what will be the benefits of loading the dependencies from the cache if I still have to wait for the npm install step? – DannyFeliz Feb 15 at 17:49
  • Just an FYI for those unaware, this sends and receives the cache with GitHub remotely. So if you're using locally managed GitHub runners (which is awesome btw) then you incur the time and cost of uploading and downloading these caches. – Joshua Pinter Feb 17 at 20:09
  • @DannyFeliz You can choose to cache node_modules but it's not recommended: github.com/actions/cache/blob/… Caching ~/.npm will save you at least the downloading of packages (could be other things on top as well, I'm not sure). – thisismydesign Feb 17 at 20:23

My dependencies rarely change and the compiled dependencies can be safely cached until I next change the lock-file that specifies their versions. Is a way to save the result of the first step so that in future workflow can skip over that step?

The first step being:

Download and compile my application's dependencies.

GitHub Actions themselves will not do this for you. The only advice I can give you is that you adhere to Docker best practices in order to ensure that if Actions do make use of docker caching, your image could be re-used instead of rebuilt. See: https://docs.docker.com/develop/develop-images/dockerfile_best-practices/#leverage-build-cache

When building an image, Docker steps through the instructions in your Dockerfile, executing each in the order specified. As each instruction is examined, Docker looks for an existing image in its cache that it can reuse, rather than creating a new (duplicate) image.

This also implies that the underlying system of GitHub Actions can/will leverage the Docker caching.

However things like compilation, Docker won't be able to use the cache mechanism, so I suggest you think very well if this is something you desperately need. The alternative is to download the compiled/processed files from an artifact store (Nexus, NPM, MavenCentral) to skip that step. You do have to weight the benefits vs the complexity you are adding to your build on this.

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    Thanks for your help. I'll go back to using Circle and Travis until GitHub gets this feature. :) – lpil Mar 12 '19 at 15:37
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    Can you point me to the documentation where Travis does this? – bitoiu Mar 12 '19 at 16:40
  • Here's an example of a Dockerfile which leverages docker caching for the dependencies. It's worth mentioning that the cache will only be leveraged assuming that every time the image is build, it runs on the same machine (and therefor same docker cache). I'm not sure if all actions share the same "docker context", but I assume that'd be a major factor. – Daniel Apr 1 '19 at 10:49
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    I just tried this by running a Docker based action I had created 5 times. Each time, the docker was regenerated from scratch. So, doesn't look like it uses the same docker context (as of now atleast). I don't have a way of checking if the same runner was used or not, so maybe that was the case too. Overall - doesnt seem a very reliable method as of today – AbdealiJK Oct 15 '19 at 7:57
  • @AbdealiJK you might find useful my answer if you are using a Docker based action: stackoverflow.com/a/58752958/4095830 – whoan Nov 7 '19 at 16:21

This is now natively supported using: https://help.github.com/en/actions/automating-your-workflow-with-github-actions/caching-dependencies-to-speed-up-workflows.

This is achieved by using the new cache action: https://github.com/actions/cache


If you are using Docker in your WorkFlows, as @peterevans answered, GitHub now supports caching through the cache action, but it has its limitations.

For that reason, you might find useful this action to bypass GitHub's action limitations. More info in this blog post.

Disclaimer: I created the action to support cache before GitHub did it officially, and I still use it because of its simplicity and flexibility.

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    Are there any other solutions that allow to cache layers without authenticating? – Marco Dufal Feb 21 '20 at 15:58

The cache action can only cache the contents of a folder. So if there is such a folder, you may win some time by caching it.

For instance, if you use some imaginary package-installer (like Python's pip or virtualenv, or NodeJS' npm, or anything else that puts its files into a folder), you can win some time by doing it like this:

    - uses: actions/cache@v2
      id: cache-packages  # give it a name for checking the cache hit-or-not
        path: ./packages/  # what we cache: the folder
        key: ${{ runner.os }}-packages-${{ hashFiles('**/packages*.txt') }}
        restore-keys: |
          ${{ runner.os }}-packages-
    - run: package-installer packages.txt
      if: steps.cache-packages.outputs.cache-hit != 'true'

So what's important here:

  1. We give this step a name, cache-packages
  2. Later, we use this name for conditional execution: if, steps.cache-packages.outputs.cache-hit != 'true'
  3. Give the cache action a path to the folder you want to cache: ./packages/
  4. Cache key: something that depends on the hash of your input files. That is, if any packages.txt file changes, the cache will be rebuilt.
  5. The second step, package installer, will only be run if there was no cache

For users of virtualenv: if you need to activate some shell environment, you have to do it in every step. Like this:

- run: . ./environment/activate && command

I'll summarize the two options:

  1. Caching
  2. Docker


You can add a command in your workflow to cache directories. When that step is reached, it'll check if the directory that you specified was previously saved. If so, it'll grab it. If not, it won't. Then in further steps you write checks to see if the cached data is present. For example, say you are compiling some dependency that is large and doesn't change much. You could add a cache step at the beginning of your workflow, then a step to build the contents of the directory if they aren't there. The first time that you run it won't find the files but subsequently it will and your workflow will run faster.

Behind the scenes, GitHub is uploading a zip of your directory to github's own AWS storage. They purge anything older than a week or if you hit a 2GB limit.

Some drawbacks with this technique is that it saves just directories. So if you installed into /usr/bin, you'll have to cache that! That would be awkward. You should instead install into $home/.local and use echo set-env to add that to your path.


Docker is a little more complex and it means that you have to have a dockerhub account and manage two things now. But it's way more powerful. Instead of saving just a directory, you'll save an entire computer! What you'll do is make a Dockerfile that will have in it all your dependencies, like apt-get and python pip lines or even long compilation. Then you'll build that docker image and publish it on dockerhub. Finally, you'll have your tests set to run on that new docker image, instead of on eg, ubuntu-latest. And from now on, instead of installing dependencies, it'll just download the image.

You can automate this further by storing that Dockerfile in the same GitHub repo as the project and then write a job with steps that will download the latest docker image, rebuild if necessary just the changed steps, and then upload to dockerhub. And then a job which "needs" that one and uses the image. That way your workflow will both update the docker image if needed and also use it.

The downsides is that your deps will be in one file, the Dockerfile, and the tests in the workflow, so it's not all together. Also, if the time to download the image is more than the time to build the dependencies, this is a poor choice.

I think that each one has upsides and downsides. Caching is only good for really simple stuff, like compiling into .local. If you need something more extensive, Docker is the most powerful.

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