woodpecker/docs/versioned_docs/version-0.15/20-usage/20-pipeline-syntax.md

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# Pipeline syntax
The pipeline section defines a list of steps to build, test and deploy your code. Pipeline steps are executed serially, in the order in which they are defined. If a step returns a non-zero exit code, the pipeline immediately aborts and returns a failure status.
Example pipeline:
```yaml
pipeline:
backend:
image: golang
commands:
- go build
- go test
frontend:
image: node
commands:
- npm install
- npm run test
- npm run build
```
In the above example we define two pipeline steps, `frontend` and `backend`. The names of these steps are completely arbitrary.
## Global Pipeline Conditionals
Woodpecker gives the ability to skip whole pipelines (not just steps) based on certain conditions.
### `branches`
Woodpecker can skip commits based on the target branch. If the branch matches the `branches:` block the pipeline is executed, otherwise it is skipped.
Example skipping a commit when the target branch is not master:
```diff
pipeline:
build:
image: golang
commands:
- go build
- go test
+branches: master
```
Example matching multiple target branches:
```diff
pipeline:
build:
image: golang
commands:
- go build
- go test
+branches: [ master, develop ]
```
Example uses glob matching:
```diff
pipeline:
build:
image: golang
commands:
- go build
- go test
+branches: [ master, feature/* ]
```
Example includes branches:
```diff
pipeline:
build:
image: golang
commands:
- go build
- go test
+branches:
+ include: [ master, feature/* ]
```
Example excludes branches:
```diff
pipeline:
build:
image: golang
commands:
- go build
- go test
+branches:
+ exclude: [ develop, feature/* ]
```
### `platform`
To configure your pipeline to only be executed on an agent with a specific platform, you can use the `platform` key.
Have a look at the official [go docs](https://go.dev/doc/install/source) for the available platforms. The syntax of the platform is `GOOS/GOARCH` like `linux/arm64` or `linux/amd64`.
Example:
Assuming we have two agents, one `arm` and one `amd64`. Previously this pipeline would have executed on **either agent**, as Woodpecker is not fussy about where it runs the pipelines. By setting the following option it will only be executed on an agent with the platform `linux/arm64`.
```diff
+platform: linux/arm64
pipeline:
build:
image: golang
commands:
- go build
- go test
```
### Skip Commits
Woodpecker gives the ability to skip individual commits by adding `[CI SKIP]` to the commit message. Note this is case-insensitive.
```diff
git commit -m "updated README [CI SKIP]"
```
## `services`
Woodpecker can provide service containers. They can for example be used to run databases or cache containers during the execution of pipeline.
For more details check the [services docs](./60-services.md).
## Steps
Every step of your pipeline executes arbitrary commands inside a specified docker container. The defined commands are executed serially.
The associated commit of a current pipeline run is checked out with git to a workspace which is mounted to every step of the pipeline as the working directory.
```diff
pipeline:
backend:
image: golang
commands:
+ - go build
+ - go test
```
### File changes are incremental
- Woodpecker clones the source code in the beginning pipeline
- Changes to files are persisted through steps as the same volume is mounted to all steps
```yaml
# .woodpecker.yml
pipeline:
build:
image: debian
commands:
- echo "test content" > myfile
a-test-step:
image: debian
commands:
- cat myfile
```
### `image`
Woodpecker uses Docker images for the build environment, for plugins and for service containers. The image field is exposed in the container blocks in the Yaml:
```diff
pipeline:
build:
+ image: golang:1.6
commands:
- go build
- go test
publish:
+ image: plugins/docker
repo: foo/bar
services:
database:
+ image: mysql
```
Woodpecker supports any valid Docker image from any Docker registry:
```text
image: golang
image: golang:1.7
image: library/golang:1.7
image: index.docker.io/library/golang
image: index.docker.io/library/golang:1.7
```
Woodpecker does not automatically upgrade docker images. Example configuration to always pull the latest image when updates are available:
```diff
pipeline:
build:
image: golang:latest
+ pull: true
```
#### Images from private registries
You must provide registry credentials on the UI in order to pull private pipeline images defined in your Yaml configuration file.
These credentials are never exposed to your pipeline, which means they cannot be used to push, and are safe to use with pull requests, for example. Pushing to a registry still require setting credentials for the appropriate plugin.
Example configuration using a private image:
```diff
pipeline:
build:
+ image: gcr.io/custom/golang
commands:
- go build
- go test
```
Woodpecker matches the registry hostname to each image in your yaml. If the hostnames match, the registry credentials are used to authenticate to your registry and pull the image. Note that registry credentials are used by the Woodpecker agent and are never exposed to your build containers.
Example registry hostnames:
- Image `gcr.io/foo/bar` has hostname `gcr.io`
- Image `foo/bar` has hostname `docker.io`
- Image `qux.com:8000/foo/bar` has hostname `qux.com:8000`
Example registry hostname matching logic:
- Hostname `gcr.io` matches image `gcr.io/foo/bar`
- Hostname `docker.io` matches `golang`
- Hostname `docker.io` matches `library/golang`
- Hostname `docker.io` matches `bradyrydzewski/golang`
- Hostname `docker.io` matches `bradyrydzewski/golang:latest`
#### Global registry support
To make a private registry globally available check the [server configuration docs](../30-administration/10-server-config.md#global-registry-setting).
#### GCR registry support
For specific details on configuring access to Google Container Registry, please view the docs [here](https://cloud.google.com/container-registry/docs/advanced-authentication#using_a_json_key_file).
### `commands`
Commands of every pipeline step are executed serially as if you would enter them into your local shell.
```diff
pipeline:
backend:
image: golang
commands:
+ - go build
+ - go test
```
There is no magic here. The above commands are converted to a simple shell script. The commands in the above example are roughly converted to the below script:
```diff
#!/bin/sh
set -e
go build
go test
```
The above shell script is then executed as the docker entrypoint. The below docker command is an (incomplete) example of how the script is executed:
```
docker run --entrypoint=build.sh golang
```
> Please note that only build steps can define commands. You cannot use commands with plugins or services.
### `environment`
Woodpecker provides the ability to pass environment variables to individual pipeline steps.
For more details check the [environment docs](./50-environment.md).
### `secrets`
Woodpecker provides the ability to store named parameters external to the Yaml configuration file, in a central secret store. These secrets can be passed to individual steps of the pipeline at runtime.
For more details check the [secrets docs](./40-secrets.md).
### `when` - Conditional Execution
Woodpecker supports defining conditional pipeline steps in the `when` block.
For more details check the [Conditional Step Execution](./22-conditional-execution.md).
### `group` - Parallel execution
Woodpecker supports parallel step execution for same-machine fan-in and fan-out. Parallel steps are configured using the `group` attribute. This instructs the pipeline runner to execute the named group in parallel.
Example parallel configuration:
```diff
pipeline:
backend:
+ group: build
image: golang
commands:
- go build
- go test
frontend:
+ group: build
image: node
commands:
- npm install
- npm run test
- npm run build
publish:
image: plugins/docker
repo: octocat/hello-world
```
In the above example, the `frontend` and `backend` steps are executed in parallel. The pipeline runner will not execute the `publish` step until the group completes.
### `volumes`
Woodpecker gives the ability to define Docker volumes in the Yaml. You can use this parameter to mount files or folders on the host machine into your containers.
For more details check the [volumes docs](./70-volumes.md).
### `detach`
Woodpecker gives the ability to detach steps to run them in background until the pipeline finishes.
For more details check the [service docs](./60-services.md#detachment).
## Advanced Configurations
### `workspace`
The workspace defines the shared volume and working directory shared by all pipeline steps. The default workspace matches the below pattern, based on your repository url.
```
/drone/src/github.com/octocat/hello-world
```
The workspace can be customized using the workspace block in the Yaml file:
```diff
+workspace:
+ base: /go
+ path: src/github.com/octocat/hello-world
pipeline:
build:
image: golang:latest
commands:
- go get
- go test
```
The base attribute defines a shared base volume available to all pipeline steps. This ensures your source code, dependencies and compiled binaries are persisted and shared between steps.
```diff
workspace:
+ base: /go
path: src/github.com/octocat/hello-world
pipeline:
deps:
image: golang:latest
commands:
- go get
- go test
build:
image: node:latest
commands:
- go build
```
This would be equivalent to the following docker commands:
```
docker volume create my-named-volume
docker run --volume=my-named-volume:/go golang:latest
docker run --volume=my-named-volume:/go node:latest
```
The path attribute defines the working directory of your build. This is where your code is cloned and will be the default working directory of every step in your build process. The path must be relative and is combined with your base path.
```diff
workspace:
base: /go
+ path: src/github.com/octocat/hello-world
```
```text
git clone https://github.com/octocat/hello-world \
/go/src/github.com/octocat/hello-world
```
### `matrix`
Woodpecker has integrated support for matrix builds. Woodpecker executes a separate build task for each combination in the matrix, allowing you to build and test a single commit against multiple configurations.
For more details check the [matrix build docs](./30-matrix-builds.md).
### `clone`
Woodpecker automatically configures a default clone step if not explicitly defined. You can manually configure the clone step in your pipeline for customization:
```diff
+clone:
+ git:
+ image: woodpeckerci/plugin-git
pipeline:
build:
image: golang
commands:
- go build
- go test
```
Example configuration to override depth:
```diff
clone:
git:
image: woodpeckerci/plugin-git
+ settings:
+ partial: false
2022-08-31 23:52:52 +00:00
+ depth: 50
```
Example configuration to use a custom clone plugin:
```diff
clone:
git:
+ image: octocat/custom-git-plugin
```
Example configuration to clone Mercurial repository:
```diff
clone:
hg:
+ image: plugins/hg
+ settings:
+ path: bitbucket.org/foo/bar
```
#### Git Submodules
To use the credentials that cloned the repository to clone it's submodules, update `.gitmodules` to use `https` instead of `git`:
```diff
[submodule "my-module"]
path = my-module
-url = git@github.com:octocat/my-module.git
+url = https://github.com/octocat/my-module.git
```
To use the ssh git url in `.gitmodules` for users cloning with ssh, and also use the https url in Woodpecker, add `submodule_override`:
```diff
clone:
git:
image: woodpeckerci/plugin-git
settings:
recursive: true
+ submodule_override:
+ my-module: https://github.com/octocat/my-module.git
pipeline:
...
```
### Privileged mode
Woodpecker gives the ability to configure privileged mode in the Yaml. You can use this parameter to launch containers with escalated capabilities.
> Privileged mode is only available to trusted repositories and for security reasons should only be used in private environments. See [project settings](./71-project-settings.md#trusted) to enable trusted mode.
```diff
pipeline:
build:
image: docker
environment:
- DOCKER_HOST=tcp://docker:2375
commands:
- docker --tls=false ps
services:
docker:
image: docker:dind
command: [ "--storage-driver=vfs", "--tls=false" ]
+ privileged: true
```