debian-mirror-gitlab/doc/ci/pipelines.md
2018-11-08 19:23:39 +05:30

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Introduction to pipelines and jobs

Introduced in GitLab 8.8.

NOTE: Note: If you have a mirrored repository where GitLab pulls from, you may need to enable pipeline triggering in your project's Settings > Repository > Pull from a remote repository > Trigger pipelines for mirror updates.

Pipelines

A pipeline is a group of jobs that get executed in stages(batches). All of the jobs in a stage are executed in parallel (if there are enough concurrent Runners), and if they all succeed, the pipeline moves on to the next stage. If one of the jobs fails, the next stage is not (usually) executed. You can access the pipelines page in your project's Pipelines tab.

In the following image you can see that the pipeline consists of four stages (build, test, staging, production) each one having one or more jobs.

Note: GitLab capitalizes the stages' names when shown in the pipeline graphs.

Pipelines example

Types of pipelines

There are three types of pipelines that often use the single shorthand of "pipeline". People often talk about them as if each one is "the" pipeline, but really, they're just pieces of a single, comprehensive pipeline.

Types of Pipelines

  1. CI Pipeline: Build and test stages defined in .gitlab-ci.yml
  2. Deploy Pipeline: Deploy stage(s) defined in .gitlab-ci.yml The flow of deploying code to servers through various stages: e.g. development to staging to production
  3. Project Pipeline: Cross-project CI dependencies triggered via API, particularly for micro-services, but also for complicated build dependencies: e.g. api -> front-end, ce/ee -> omnibus.

Development workflows

Pipelines accommodate several development workflows:

  1. Branch Flow (e.g. different branch for dev, qa, staging, production)
  2. Trunk-based Flow (e.g. feature branches and single master branch, possibly with tags for releases)
  3. Fork-based Flow (e.g. merge requests come from forks)

Example continuous delivery flow:

CD Flow

Jobs

Jobs can be defined in the .gitlab-ci.yml file. Not to be confused with a build job or build stage.

Defining pipelines

Pipelines are defined in .gitlab-ci.yml by specifying jobs that run in stages.

See the reference documentation for jobs.

Seeing pipeline status

You can find the current and historical pipeline runs under your project's Pipelines tab. Clicking on a pipeline will show the jobs that were run for that pipeline.

Pipelines index page

Seeing job status

When you visit a single pipeline you can see the related jobs for that pipeline. Clicking on an individual job will show you its job trace, and allow you to cancel the job, retry it, or erase the job trace.

Pipelines example

Seeing the failure reason for jobs

Introduced in GitLab 10.7.

When a pipeline fails or is allowed to fail, there are several places where you can quickly check the reason it failed:

  • In the pipeline graph present on the pipeline detail view.
  • In the pipeline widgets present in the merge requests and commit pages.
  • In the job views present in the global and detailed views of a job.

In any case, if you hover over the failed job you can see the reason it failed.

Pipeline detail

From GitLab 10.8 you can also see the reason it failed on the Job detail page.

Pipeline graphs

Introduced in GitLab 8.11.

Pipelines can be complex structures with many sequential and parallel jobs. To make it a little easier to see what is going on, you can view a graph of a single pipeline and its status.

A pipeline graph can be shown in two different ways depending on what page you are on.


The regular pipeline graph that shows the names of the jobs of each stage can be found when you are on a single pipeline page.

Pipelines example

Then, there is the pipeline mini graph which takes less space and can give you a quick glance if all jobs pass or something failed. The pipeline mini graph can be found when you visit:

  • the pipelines index page
  • a single commit page
  • a merge request page

That way, you can see all related jobs for a single commit and the net result of each stage of your pipeline. This allows you to quickly see what failed and fix it. Stages in pipeline mini graphs are collapsible. Hover your mouse over them and click to expand their jobs.

Mini graph Mini graph expanded
Pipelines mini graph Pipelines mini graph extended

Grouping similar jobs in the pipeline graph

Introduced in GitLab 8.12.

If you have many similar jobs, your pipeline graph becomes very long and hard to read. For that reason, similar jobs can automatically be grouped together. If the job names are formatted in certain ways, they will be collapsed into a single group in regular pipeline graphs (not the mini graphs). You'll know when a pipeline has grouped jobs if you don't see the retry or cancel button inside them. Hovering over them will show the number of grouped jobs. Click to expand them.

Grouped pipelines

The basic requirements is that there are two numbers separated with one of the following (you can even use them interchangeably):

  • a space
  • a slash (/)
  • a colon (:)

Note: More specifically, it uses this regular expression: \d+[\s:\/\\]+\d+\s*.

The jobs will be ordered by comparing those two numbers from left to right. You usually want the first to be the index and the second the total.

For example, the following jobs will be grouped under a job named test:

  • test 0 3 => test
  • test 1 3 => test
  • test 2 3 => test

The following jobs will be grouped under a job named test ruby:

  • test 1:2 ruby => test ruby
  • test 2:2 ruby => test ruby

The following jobs will be grouped under a job named test ruby as well:

  • 1/3 test ruby => test ruby
  • 2/3 test ruby => test ruby
  • 3/3 test ruby => test ruby

Manual actions from the pipeline graph

Introduced in GitLab 8.15.

Manual actions allow you to require manual interaction before moving forward with a particular job in CI. Your entire pipeline can run automatically, but the actual deploy to production will require a click.

You can do this straight from the pipeline graph. Just click on the play button to execute that particular job. For example, in the image below, the production stage has a job with a manual action.

Pipelines example

Ordering of jobs in pipeline graphs

Regular pipeline graph

In the single pipeline page, jobs are sorted by name.

Mini pipeline graph

Introduced in GitLab 9.0.

In the pipeline mini graphs, the jobs are sorted first by severity and then by name. The order of severity is:

  • failed
  • warning
  • pending
  • running
  • manual
  • canceled
  • success
  • skipped
  • created

Pipeline mini graph sorting

How the pipeline duration is calculated

Total running time for a given pipeline would exclude retries and pending (queue) time. We could reduce this problem down to finding the union of periods.

So each job would be represented as a Period, which consists of Period#first as when the job started and Period#last as when the job was finished. A simple example here would be:

  • A (1, 3)
  • B (2, 4)
  • C (6, 7)

Here A begins from 1, and ends to 3. B begins from 2, and ends to 4. C begins from 6, and ends to 7. Visually it could be viewed as:

0  1  2  3  4  5  6  7
   AAAAAAA
      BBBBBBB
                  CCCC

The union of A, B, and C would be (1, 4) and (6, 7), therefore the total running time should be:

(4 - 1) + (7 - 6) => 4

Badges

Pipeline status and test coverage report badges are available. You can find their respective link in the Pipelines settings page.

Security on protected branches

A strict security model is enforced when pipelines are executed on protected branches.

The following actions are allowed on protected branches only if the user is allowed to merge or push on that specific branch:

  • run manual pipelines (using Web UI or Pipelines API)
  • run scheduled pipelines
  • run pipelines using triggers
  • trigger manual actions on existing pipelines
  • retry/cancel existing jobs (using Web UI or Pipelines API)

Variables marked as protected are accessible only to jobs that run on protected branches, avoiding untrusted users to get unintended access to sensitive information like deployment credentials and tokens.

Runners marked as protected can run jobs only on protected branches, avoiding untrusted code to be executed on the protected runner and preserving deployment keys and other credentials from being unintentionally accessed. In order to ensure that jobs intended to be executed on protected runners will not use regular runners, they must be tagged accordingly.