560 lines
19 KiB
Markdown
560 lines
19 KiB
Markdown
---
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type: index, concepts, howto
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---
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# Cache dependencies in GitLab CI/CD
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GitLab CI/CD provides a caching mechanism that can be used to save time
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when your jobs are running.
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Caching is about speeding the time a job is executed by reusing the same
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content of a previous job. It can be particularly useful when you are
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developing software that depends on other libraries which are fetched via the
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internet during build time.
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If caching is enabled, it's shared between pipelines and jobs at the project
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level by default, starting from GitLab 9.0. Caches are not shared across
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projects.
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Make sure you read the [`cache` reference](../yaml/README.md#cache) to learn
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how it is defined in `.gitlab-ci.yml`.
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## Cache vs artifacts
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NOTE: **Note:**
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Be careful if you use cache and artifacts to store the same path in your jobs
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as **caches are restored before artifacts** and the content could be overwritten.
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Don't use caching for passing artifacts between stages, as it is designed to store
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runtime dependencies needed to compile the project:
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- `cache`: **For storing project dependencies**
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Caches are used to speed up runs of a given job in **subsequent pipelines**, by
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storing downloaded dependencies so that they don't have to be fetched from the
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internet again (like npm packages, Go vendor packages, etc.) While the cache could
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be configured to pass intermediate build results between stages, this should be
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done with artifacts instead.
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- `artifacts`: **Use for stage results that will be passed between stages.**
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Artifacts are files generated by a job which are stored and uploaded, and can then
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be fetched and used by jobs in later stages of the **same pipeline**. This data
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will not be available in different pipelines, but is available to be downloaded
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from the UI.
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The name `artifacts` sounds like it's only useful outside of the job, like for downloading
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a final image, but artifacts are also available in later stages within a pipeline.
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So if you build your application by downloading all the required modules, you might
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want to declare them as artifacts so that subsequent stages can use them. There are
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some optimizations like declaring an [expiry time](../yaml/README.md#artifactsexpire_in)
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so you don't keep artifacts around too long, or using [dependencies](../yaml/README.md#dependencies)
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to control which jobs fetch the artifacts.
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Caches:
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- Are disabled if not defined globally or per job (using `cache:`).
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- Are available for all jobs in your `.gitlab-ci.yml` if enabled globally.
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- Can be used in subsequent pipelines by the same job in which the cache was created (if not defined globally).
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- Are stored where the Runner is installed **and** uploaded to S3 if [distributed cache is enabled](https://docs.gitlab.com/runner/configuration/autoscale.html#distributed-runners-caching).
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- If defined per job, are used:
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- By the same job in a subsequent pipeline.
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- By subsequent jobs in the same pipeline, if they have identical dependencies.
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Artifacts:
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- Are disabled if not defined per job (using `artifacts:`).
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- Can only be enabled per job, not globally.
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- Are created during a pipeline and can be used by the subsequent jobs of that currently active pipeline.
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- Are always uploaded to GitLab (known as coordinator).
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- Can have an expiration value for controlling disk usage (30 days by default).
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NOTE: **Note:**
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Both artifacts and caches define their paths relative to the project directory, and
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can't link to files outside it.
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## Good caching practices
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We have the cache from the perspective of the developers (who consume a cache
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within the job) and the cache from the perspective of the Runner. Depending on
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which type of Runner you are using, cache can act differently.
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From the perspective of the developer, to ensure maximum availability of the
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cache, when declaring `cache` in your jobs, use one or a mix of the following:
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- [Tag your Runners](../runners/README.md#using-tags) and use the tag on jobs
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that share their cache.
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- [Use sticky Runners](../runners/README.md#locking-a-specific-runner-from-being-enabled-for-other-projects)
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that will be only available to a particular project.
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- [Use a `key`](../yaml/README.md#cachekey) that fits your workflow (for example,
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different caches on each branch). For that, you can take advantage of the
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[CI/CD predefined variables](../variables/README.md#predefined-environment-variables).
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TIP: **Tip:**
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Using the same Runner for your pipeline, is the most simple and efficient way to
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cache files in one stage or pipeline, and pass this cache to subsequent stages
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or pipelines in a guaranteed manner.
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From the perspective of the Runner, in order for cache to work effectively, one
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of the following must be true:
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- Use a single Runner for all your jobs.
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- Use multiple Runners (in autoscale mode or not) that use
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[distributed caching](https://docs.gitlab.com/runner/configuration/autoscale.html#distributed-runners-caching),
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where the cache is stored in S3 buckets (like shared Runners on GitLab.com).
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- Use multiple Runners (not in autoscale mode) of the same architecture that
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share a common network-mounted directory (using NFS or something similar)
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where the cache will be stored.
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TIP: **Tip:**
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Read about the [availability of the cache](#availability-of-the-cache)
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to learn more about the internals and get a better idea how cache works.
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### Sharing caches across the same branch
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Define a cache with the `key: ${CI_COMMIT_REF_SLUG}` so that jobs of each
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branch always use the same cache:
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```yaml
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cache:
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key: ${CI_COMMIT_REF_SLUG}
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```
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While this feels like it might be safe from accidentally overwriting the cache,
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it means merge requests get slow first pipelines, which might be a bad
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developer experience. The next time a new commit is pushed to the branch, the
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cache will be re-used.
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To enable per-job and per-branch caching:
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```yaml
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cache:
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key: "$CI_JOB_NAME-$CI_COMMIT_REF_SLUG"
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```
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To enable per-branch and per-stage caching:
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```yaml
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cache:
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key: "$CI_JOB_STAGE-$CI_COMMIT_REF_SLUG"
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```
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### Sharing caches across different branches
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If the files you are caching need to be shared across all branches and all jobs,
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you can use the same key for all of them:
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```yaml
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cache:
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key: one-key-to-rule-them-all
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```
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To share the same cache between branches, but separate them by job:
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```yaml
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cache:
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key: ${CI_JOB_NAME}
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```
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### Disabling cache on specific jobs
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If you have defined the cache globally, it means that each job will use the
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same definition. You can override this behavior per-job, and if you want to
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disable it completely, use an empty hash:
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```yaml
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job:
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cache: {}
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```
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### Inherit global config, but override specific settings per job
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You can override cache settings without overwriting the global cache by using
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[anchors](../yaml/README.md#anchors). For example, if you want to override the
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`policy` for one job:
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```yaml
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cache: &global_cache
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key: ${CI_COMMIT_REF_SLUG}
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paths:
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- node_modules/
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- public/
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- vendor/
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policy: pull-push
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job:
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cache:
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# inherit all global cache settings
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<<: *global_cache
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# override the policy
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policy: pull
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```
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For more fine tuning, read also about the
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[`cache: policy`](../yaml/README.md#cachepolicy).
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## Common use cases
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The most common use case of cache is to preserve contents between subsequent
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runs of jobs for things like dependencies and commonly used libraries
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(Node.js packages, PHP packages, rubygems, Python libraries, etc.),
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so they don't have to be re-fetched from the public internet.
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NOTE: **Note:**
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For more examples, check out our [GitLab CI/CD
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templates](https://gitlab.com/gitlab-org/gitlab-foss/tree/master/lib/gitlab/ci/templates).
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### Caching Node.js dependencies
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Assuming your project is using [npm](https://www.npmjs.com/) or
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[Yarn](https://classic.yarnpkg.com/en/) to install the Node.js dependencies, the
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following example defines `cache` globally so that all jobs inherit it.
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Node.js modules are installed in `node_modules/` and are cached per-branch:
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```yaml
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#
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# https://gitlab.com/gitlab-org/gitlab-foss/tree/master/lib/gitlab/ci/templates/Nodejs.gitlab-ci.yml
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#
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image: node:latest
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# Cache modules in between jobs
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cache:
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key: ${CI_COMMIT_REF_SLUG}
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paths:
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- node_modules/
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before_script:
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- npm install
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test_async:
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script:
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- node ./specs/start.js ./specs/async.spec.js
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```
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### Caching PHP dependencies
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Assuming your project is using [Composer](https://getcomposer.org/) to install
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the PHP dependencies, the following example defines `cache` globally so that
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all jobs inherit it. PHP libraries modules are installed in `vendor/` and
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are cached per-branch:
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```yaml
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#
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# https://gitlab.com/gitlab-org/gitlab-foss/tree/master/lib/gitlab/ci/templates/PHP.gitlab-ci.yml
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#
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image: php:7.2
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# Cache libraries in between jobs
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cache:
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key: ${CI_COMMIT_REF_SLUG}
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paths:
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- vendor/
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before_script:
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# Install and run Composer
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- curl --show-error --silent https://getcomposer.org/installer | php
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- php composer.phar install
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test:
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script:
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- vendor/bin/phpunit --configuration phpunit.xml --coverage-text --colors=never
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```
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### Caching Python dependencies
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Assuming your project is using [pip](https://pip.pypa.io/en/stable/) to install
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the Python dependencies, the following example defines `cache` globally so that
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all jobs inherit it. Python libraries are installed in a virtualenv under `venv/`,
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pip's cache is defined under `.cache/pip/` and both are cached per-branch:
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```yaml
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#
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# https://gitlab.com/gitlab-org/gitlab-foss/tree/master/lib/gitlab/ci/templates/Python.gitlab-ci.yml
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#
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image: python:latest
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# Change pip's cache directory to be inside the project directory since we can
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# only cache local items.
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variables:
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PIP_CACHE_DIR: "$CI_PROJECT_DIR/.cache/pip"
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# Pip's cache doesn't store the python packages
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# https://pip.pypa.io/en/stable/reference/pip_install/#caching
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#
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# If you want to also cache the installed packages, you have to install
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# them in a virtualenv and cache it as well.
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cache:
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paths:
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- .cache/pip
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- venv/
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before_script:
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- python -V # Print out python version for debugging
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- pip install virtualenv
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- virtualenv venv
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- source venv/bin/activate
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test:
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script:
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- python setup.py test
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- pip install flake8
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- flake8 .
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```
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### Caching Ruby dependencies
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Assuming your project is using [Bundler](https://bundler.io) to install the
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gem dependencies, the following example defines `cache` globally so that all
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jobs inherit it. Gems are installed in `vendor/ruby/` and are cached per-branch:
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```yaml
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#
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# https://gitlab.com/gitlab-org/gitlab-foss/tree/master/lib/gitlab/ci/templates/Ruby.gitlab-ci.yml
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#
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image: ruby:2.6
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# Cache gems in between builds
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cache:
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key: ${CI_COMMIT_REF_SLUG}
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paths:
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- vendor/ruby
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before_script:
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- ruby -v # Print out ruby version for debugging
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- bundle install -j $(nproc) --path vendor/ruby # Install dependencies into ./vendor/ruby
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rspec:
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script:
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- rspec spec
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```
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## Availability of the cache
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Caching is an optimization, but isn't guaranteed to always work, so you need to
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be prepared to regenerate any cached files in each job that needs them.
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Assuming you have properly [defined `cache` in `.gitlab-ci.yml`](../yaml/README.md#cache)
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according to your workflow, the availability of the cache ultimately depends on
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how the Runner has been configured (the executor type and whether different
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Runners are used for passing the cache between jobs).
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### Where the caches are stored
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Since the Runner is the one responsible for storing the cache, it's essential
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to know **where** it's stored. All the cache paths defined under a job in
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`.gitlab-ci.yml` are archived in a single `cache.zip` file and stored in the
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Runner's configured cache location. By default, they are stored locally in the
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machine where the Runner is installed and depends on the type of the executor.
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| GitLab Runner executor | Default path of the cache |
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| ---------------------- | ------------------------- |
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| [Shell](https://docs.gitlab.com/runner/executors/shell.html) | Locally, stored under the `gitlab-runner` user's home directory: `/home/gitlab-runner/cache/<user>/<project>/<cache-key>/cache.zip`. |
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| [Docker](https://docs.gitlab.com/runner/executors/docker.html) | Locally, stored under [Docker volumes](https://docs.gitlab.com/runner/executors/docker.html#the-builds-and-cache-storage): `/var/lib/docker/volumes/<volume-id>/_data/<user>/<project>/<cache-key>/cache.zip`. |
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| [Docker machine](https://docs.gitlab.com/runner/executors/docker_machine.html) (autoscale Runners) | Behaves the same as the Docker executor. |
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### How archiving and extracting works
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In the most simple scenario, consider that you use only one machine where the
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Runner is installed, and all jobs of your project run on the same host.
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Let's see the following example of two jobs that belong to two consecutive
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stages:
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```yaml
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stages:
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- build
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- test
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before_script:
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- echo "Hello"
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job A:
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stage: build
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script:
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- mkdir vendor/
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- echo "build" > vendor/hello.txt
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cache:
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key: build-cache
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paths:
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- vendor/
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after_script:
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- echo "World"
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job B:
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stage: test
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script:
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- cat vendor/hello.txt
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cache:
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key: build-cache
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```
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Here's what happens behind the scenes:
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1. Pipeline starts.
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1. `job A` runs.
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1. `before_script` is executed.
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1. `script` is executed.
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1. `after_script` is executed.
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1. `cache` runs and the `vendor/` directory is zipped into `cache.zip`.
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This file is then saved in the directory based on the
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[Runner's setting](#where-the-caches-are-stored) and the `cache: key`.
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1. `job B` runs.
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1. The cache is extracted (if found).
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1. `before_script` is executed.
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1. `script` is executed.
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1. Pipeline finishes.
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By using a single Runner on a single machine, you'll not have the issue where
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`job B` might execute on a Runner different from `job A`, thus guaranteeing the
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cache between stages. That will only work if the build goes from stage `build`
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to `test` in the same Runner/machine, otherwise, you [might not have the cache
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available](#cache-mismatch).
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During the caching process, there's also a couple of things to consider:
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- If some other job, with another cache configuration had saved its
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cache in the same zip file, it is overwritten. If the S3 based shared cache is
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used, the file is additionally uploaded to S3 to an object based on the cache
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key. So, two jobs with different paths, but the same cache key, will overwrite
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their cache.
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- When extracting the cache from `cache.zip`, everything in the zip file is
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extracted in the job's working directory (usually the repository which is
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pulled down), and the Runner doesn't mind if the archive of `job A` overwrites
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things in the archive of `job B`.
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The reason why it works this way is because the cache created for one Runner
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often will not be valid when used by a different one which can run on a
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**different architecture** (e.g., when the cache includes binary files). And
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since the different steps might be executed by Runners running on different
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machines, it is a safe default.
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### Cache mismatch
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In the following table, you can see some reasons where you might hit a cache
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mismatch and a few ideas how to fix it.
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| Reason of a cache mismatch | How to fix it |
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| -------------------------- | ------------- |
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| You use multiple standalone Runners (not in autoscale mode) attached to one project without a shared cache | Use only one Runner for your project or use multiple Runners with distributed cache enabled |
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| You use Runners in autoscale mode without a distributed cache enabled | Configure the autoscale Runner to use a distributed cache |
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| The machine the Runner is installed on is low on disk space or, if you've set up distributed cache, the S3 bucket where the cache is stored doesn't have enough space | Make sure you clear some space to allow new caches to be stored. Currently, there's no automatic way to do this. |
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| You use the same `key` for jobs where they cache different paths. | Use different cache keys to that the cache archive is stored to a different location and doesn't overwrite wrong caches. |
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Let's explore some examples.
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#### Examples
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Let's assume you have only one Runner assigned to your project, so the cache
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will be stored in the Runner's machine by default. If two jobs, A and B,
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have the same cache key, but they cache different paths, cache B would overwrite
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cache A, even if their `paths` don't match:
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We want `job A` and `job B` to re-use their
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cache when the pipeline is run for a second time.
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```yaml
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stages:
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- build
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- test
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job A:
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stage: build
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script: make build
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cache:
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key: same-key
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paths:
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- public/
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job B:
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stage: test
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script: make test
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cache:
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key: same-key
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paths:
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- vendor/
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```
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1. `job A` runs.
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1. `public/` is cached as cache.zip.
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1. `job B` runs.
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1. The previous cache, if any, is unzipped.
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1. `vendor/` is cached as cache.zip and overwrites the previous one.
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1. The next time `job A` runs it will use the cache of `job B` which is different
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and thus will be ineffective.
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To fix that, use different `keys` for each job.
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In another case, let's assume you have more than one Runners assigned to your
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project, but the distributed cache is not enabled. The second time the
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pipeline is run, we want `job A` and `job B` to re-use their cache (which in this case
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will be different):
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```yaml
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stages:
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- build
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- test
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job A:
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stage: build
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script: build
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cache:
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key: keyA
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paths:
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- vendor/
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job B:
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stage: test
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script: test
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cache:
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key: keyB
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paths:
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- vendor/
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```
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In that case, even if the `key` is different (no fear of overwriting), you
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might experience that the cached files "get cleaned" before each stage if the
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jobs run on different Runners in the subsequent pipelines.
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## Clearing the cache
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GitLab Runners use [cache](../yaml/README.md#cache) to speed up the execution
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|
of your jobs by reusing existing data. This however, can sometimes lead to an
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inconsistent behavior.
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To start with a fresh copy of the cache, there are two ways to do that.
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### Clearing the cache by changing `cache:key`
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All you have to do is set a new `cache: key` in your `.gitlab-ci.yml`. In the
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|
next run of the pipeline, the cache will be stored in a different location.
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|
### Clearing the cache manually
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|
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|
> [Introduced](https://gitlab.com/gitlab-org/gitlab-foss/issues/41249) in GitLab 10.4.
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If you want to avoid editing `.gitlab-ci.yml`, you can easily clear the cache
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via GitLab's UI:
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1. Navigate to your project's **CI/CD > Pipelines** page.
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1. Click on the **Clear Runner caches** button to clean up the cache.
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|
![Clear Runners cache](img/clear_runners_cache.png)
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1. On the next push, your CI/CD job will use a new cache.
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|
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|
Behind the scenes, this works by increasing a counter in the database, and the
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|
value of that counter is used to create the key for the cache by appending an
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integer to it: `-1`, `-2`, etc. After a push, a new key is generated and the
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old cache is not valid anymore.
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<!-- ## Troubleshooting
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one might have when setting this up, or when something is changed, or on upgrading, it's
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important to describe those, too. Think of things that may go wrong and include them here.
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This is important to minimize requests for support, and to avoid doc comments with
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|
questions that you know someone might ask.
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|
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Each scenario can be a third-level heading, e.g. `### Getting error message X`.
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If you have none to add when creating a doc, leave this section in place
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