Create docs for v1.0.x (#1855)

and also fix / enhance some
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@ -48,6 +48,7 @@ steps:
forge_url: "https://github.com"
forge_repo_token:
from_secret: GITHUB_TOKEN_SURGE
failure: ignore
when:
event: pull_request
path: *when_path

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@ -1,6 +1,6 @@
# Changelog
## [1.0.0-rc1](https://github.com/woodpecker-ci/woodpecker/releases/tag/1.0.0-rc1) - 2023-07-21
## [1.0.0-rc1](https://github.com/woodpecker-ci/woodpecker/releases/tag/1.0.0-rc1) - 2023-07-25
* BREAKING
* Use IDs to access organizations (#1873)

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# Welcome to Woodpecker
Woodpecker is a simple CI engine with great extensibility. It runs your pipelines inside [containers](https://opencontainers.org/), so if you are already using them in your daily workflow, you'll love Woodpecker for sure.
Woodpecker is a simple CI engine with great extensibility. It focuses on executing pipelines inside [containers](https://opencontainers.org/).
If you are already using containers in your daily workflow, you'll for sure love Woodpecker.
![woodpecker](woodpecker.png)
@ -26,9 +27,9 @@ steps:
### Steps are containers
- Define any container image as context
- either use your own and install the needed tools in custom image or
- search for available images that are already tailored for your needs on container registries like [Docker Hub](https://hub.docker.com/search?type=image)
- List the commands that should be executed in your container, in order to build or test your application
- either use your own and install the needed tools in a custom image
- or search for available images that are already tailored for your needs in image registries like [Docker Hub](https://hub.docker.com/search?type=image)
- List the commands that should be executed in the container
```diff
steps:
@ -42,7 +43,7 @@ steps:
### File changes are incremental
- Woodpecker clones the source code in the beginning
- Changes to files are persisted through steps as the same volume is mounted to all steps
- File changes are persisted throughout individual steps as the same volume is being mounted in all steps
```yaml
# .woodpecker.yml

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@ -2,9 +2,9 @@
## Repository Activation
To activate your project navigate to your account settings. You will see a list of repositories which can be activated with a simple toggle. When you activate your repository, Woodpecker automatically adds webhooks to your forge (e.g. GitHub).
To activate your project navigate to your account settings. You will see a list of repositories which can be activated with a simple toggle. When you activate your repository, Woodpecker automatically adds webhooks to your forge (e.g. GitHub, Gitea, ...).
Webhooks are used to trigger pipeline executions. When you push code to your repository, open a pull request, or create a tag, your forge will automatically send a webhook to Woodpecker which will in turn trigger pipeline execution.
Webhooks are used to trigger pipeline executions. When you push code to your repository, open a pull request, or create a tag, your forge will automatically send a webhook to Woodpecker which will in turn trigger the pipeline execution.
![repository list](repo-list.png)
@ -22,7 +22,7 @@ Webhooks are used to trigger pipeline executions. When you push code to your rep
## Configuration
To configure your pipeline you should place a `.woodpecker.yml` file in the root of your repository. The .woodpecker.yml file is used to define your pipeline steps. It is a superset of the widely used docker-compose file format.
To configure your pipeline you must create a `.woodpecker.yml` file in the root of your repository. The `.woodpecker.yml` file is used to define your pipeline steps.
:::note
We support most of YAML 1.2, but preserve some behavior from 1.1 for backward compatibility.

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@ -2,7 +2,11 @@
Some versions need some changes to the server configuration or the pipeline configuration files.
## 1.0.0 (next)
## next
No breaking changes
## 1.0.0
- The signature used to verify extensions calls (like those used for the [config-extension](./30-administration/100-external-configuration-api.md)) done by the Woodpecker server switched from using a shared-secret HMac to an ed25519 key-pair. Read more about it at the [config-extensions](./30-administration/100-external-configuration-api.md) documentation.
- Refactored support of old agent filter labels and expression. Learn how to use the new [filter](./20-usage/20-pipeline-syntax.md#labels)

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@ -214,11 +214,15 @@ module.exports = {
includeCurrentVersion: true,
lastVersion: '0.15',
versions: {
current: {
'current': {
label: 'Next',
banner: 'unreleased',
},
0.15: {
'1.0': {
label: '1.0.x',
banner: 'unreleased',
},
'0.15': {
label: '0.15.x',
banner: 'none',
},

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# Welcome to Woodpecker
Woodpecker is a simple CI engine with great extensibility. It focuses on executing pipelines inside [containers](https://opencontainers.org/).
If you are already using containers in your daily workflow, you'll for sure love Woodpecker.
![woodpecker](woodpecker.png)
## .woodpecker.yml
- Place your pipeline in a file named `.woodpecker.yml` in your repository
- Pipeline steps can be named as you like
- Run any command in the commands section
```yaml
# .woodpecker.yml
steps:
build:
image: debian
commands:
- echo "This is the build step"
a-test-step:
image: debian
commands:
- echo "Testing.."
```
### Steps are containers
- Define any container image as context
- either use your own and install the needed tools in a custom image
- or search for available images that are already tailored for your needs in image registries like [Docker Hub](https://hub.docker.com/search?type=image)
- List the commands that should be executed in the container
```diff
steps:
build:
- image: debian
+ image: mycompany/image-with-awscli
commands:
- aws help
```
### File changes are incremental
- Woodpecker clones the source code in the beginning
- File changes are persisted throughout individual steps as the same volume is being mounted in all steps
```yaml
# .woodpecker.yml
steps:
build:
image: debian
commands:
- touch myfile
a-test-step:
image: debian
commands:
- cat myfile
```
## Plugins are straightforward
- If you copy the same shell script from project to project
- Pack it into a plugin instead
- And make the yaml declarative
- Plugins are Docker images with your script as an entrypoint
```Dockerfile
# Dockerfile
FROM laszlocloud/kubectl
COPY deploy /usr/local/deploy
ENTRYPOINT ["/usr/local/deploy"]
```
```bash
# deploy
kubectl apply -f $PLUGIN_TEMPLATE
```
```yaml
# .woodpecker.yml
steps:
deploy-to-k8s:
image: laszlocloud/my-k8s-plugin
settings:
template: config/k8s/service.yml
```
See [plugin docs](./20-usage/51-plugins/10-plugins.md).
## Continue reading
- [Create a Woodpecker pipeline for your repository](./20-usage/10-intro.md)
- [Setup your own Woodpecker instance](./30-administration/00-setup.md)

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# Getting started
## Repository Activation
To activate your project navigate to your account settings. You will see a list of repositories which can be activated with a simple toggle. When you activate your repository, Woodpecker automatically adds webhooks to your forge (e.g. GitHub, Gitea, ...).
Webhooks are used to trigger pipeline executions. When you push code to your repository, open a pull request, or create a tag, your forge will automatically send a webhook to Woodpecker which will in turn trigger the pipeline execution.
![repository list](repo-list.png)
> Required Permissions
>
>The user who enables a repo in Woodpecker must have `Admin` rights on that repo, so that Woodpecker can add the webhook.
>
> Note that manually creating webhooks yourself is not possible. This is because webhooks are signed using a per-repository secret key which is not exposed to end users.
# Webhooks
When you activate your repository Woodpecker automatically add webhooks to your forge (e.g. GitHub). There is no manual configuration required.
Webhooks are used to trigger pipeline executions. When you push code to your repository, open a pull request, or create a tag, your forge will automatically send a webhook to Woodpecker which will in turn trigger pipeline execution.
## Configuration
To configure your pipeline you must create a `.woodpecker.yml` file in the root of your repository. The `.woodpecker.yml` file is used to define your pipeline steps.
:::note
We support most of YAML 1.2, but preserve some behavior from 1.1 for backward compatibility.
Read more at: [https://github.com/go-yaml/yaml](https://github.com/go-yaml/yaml/tree/v3)
:::
Example pipeline configuration:
```yaml
steps:
build:
image: golang
commands:
- go get
- go build
- go test
services:
postgres:
image: postgres:9.4.5
environment:
- POSTGRES_USER=myapp
```
Example pipeline configuration with multiple, serial steps:
```yaml
steps:
backend:
image: golang
commands:
- go get
- go build
- go test
frontend:
image: node:6
commands:
- npm install
- npm test
notify:
image: plugins/slack
channel: developers
username: woodpecker
```
## Execution
To trigger your first pipeline execution you can push code to your repository, open a pull request, or push a tag. Any of these events triggers a webhook from your forge and execute your pipeline.

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# Terminology
## Glossary
- **Woodpecker CI**: The project name around Woodpecker.
- **Woodpecker**: An open-source tool that executes [pipelines][Pipeline] on your code.
- **Server**: The component of Woodpecker that handles webhooks from forges, orchestrates agents, and sends status back. It also serves the API and web UI for administration and configuration.
- **Agent**: A component of Woodpecker that executes [pipelines][Pipeline] (specifically one or more [workflows][Workflow]) with a specific backend (e.g. [Docker][], Kubernetes, [local][Local]). It connects to the server via GRPC.
- **CLI**: The Woodpecker command-line interface (CLI) is a terminal tool used to administer the server, to execute pipelines locally for debugging / testing purposes, and to perform tasks like linting pipelines.
- **Pipeline**: A sequence of [workflows][Workflow] that are executed on the code. [Pipelines][Pipeline] are triggered by events.
- **Workflow**: A sequence of steps and services that are executed as part of a [pipeline][Pipeline]. Workflows are represented by YAML files. Each [workflow][Workflow] has its own isolated [workspace][Workspace], and often additional resources like a shared network (docker).
- **Steps**: Individual commands, actions or tasks within a [workflow][Workflow].
- **Code**: Refers to the files tracked by the version control system used by the [forge][Forge].
- **Repos**: Short for repositories, these are storage locations where code is stored.
- **Forge**: The hosting platform or service where the repositories are hosted.
- **Workspace**: A folder shared between all steps of a [workflow][Workflow] containing the repository and all the generated data from previous steps.
- **Event**: Triggers the execution of a [pipeline][Pipeline], such as a [forge][Forge] event like `push`, or `manual` triggered manually from the UI.
- **Commit**: A defined state of the code, usually associated with a version control system like Git.
- **Matrix**: A configuration option that allows the execution of [workflows][Workflow] for each value in the [matrix][Matrix].
- **Service**: A service is a step that is executed from the start of a [workflow][Workflow] until its end. It can be accessed by name via the network from other steps within the same [workflow][Workflow].
- **Plugins**: [Plugins][Plugin] are extensions that provide pre-defined actions or commands for a step in a [workflow][Workflow]. They can be configured via settings.
- **Container**: A lightweight and isolated environment where commands are executed.
- **YAML File**: A file format used to define and configure [workflows][Workflow].
- **Dependency**: [Workflows][Workflow] can depend on each other, and if possible, they are executed in parallel.
- **Status**: Status refers to the outcome of a step or [workflow][Workflow] after it has been executed, determined by the internal command exit code. At the end of a [workflow][Workflow], its status is sent to the [forge][Forge].
## Terms
Sometimes there exist multiple terms that can be used for a thing, we try to define it here once and stick to it.
- environment variables `*_LINK` should be `*_URL`, also in code, use `URL()` instead of `Link` ([Vote](https://framadate.org/jVSQHwIGfJYy82IL))
- **Pipelines** were previously called **builds**
- **Steps** were previously called **jobs**
[Pipeline]: ./20-pipeline-syntax.md
[Workflow]: ./25-workflows.md
[Forge]: ../30-administration/11-forges/10-overview.md
[Plugin]: ./51-plugins/10-plugins.md
[Workspace]: ./20-pipeline-syntax.md#workspace
[Matrix]: ./30-matrix-workflows.md
[Docker]: ../30-administration/22-backends/10-docker.md
[Local]: ../30-administration/22-backends/20-local.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 steps:
```yaml
steps:
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.
Another way to name a step is by using the name keyword:
```yaml
steps:
- name: backend
image: golang
commands:
- go build
- go test
- name: frontend
image: node
commands:
- npm install
- npm run test
- npm run build
```
Keep in mind the name is optional, if not added the steps will be numerated.
### Skip Commits
Woodpecker gives the ability to skip individual commits by adding `[CI SKIP]` to the commit message. Note this is case-insensitive.
```sh
git commit -m "updated README [CI SKIP]"
```
## Steps
Every step of your pipeline executes arbitrary commands inside a specified 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
steps:
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
steps:
build:
image: debian
commands:
- echo "test content" > myfile
a-test-step:
image: debian
commands:
- cat myfile
```
### `image`
Woodpecker pulls the defined image and uses it as environment to execute the pipeline step commands, for plugins and for service containers.
When using the `local` backend, the `image` entry is used to specify the shell, such as Bash or Fish, that is used to run the commands.
```diff
steps:
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 container images. Example configuration to always pull the latest image when updates are available:
```diff
steps:
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
steps:
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
steps:
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:
```sh
#!/bin/sh
set -e
go build
go test
```
The above shell script is then executed as the container entrypoint. The below docker command is an (incomplete) example of how the script is executed:
```sh
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).
### `failure`
Some of the pipeline steps may be allowed to fail without causing the whole pipeline to report a failure (e.g., a step executing a linting check). To enable this, add `failure: ignore` to your pipeline step. If Woodpecker encounters an error while executing the step, it will report it as failed but still execute the next steps of the pipeline, if any, without affecting the status of the pipeline.
```diff
steps:
backend:
image: golang
commands:
- go build
- go test
+ failure: ignore
```
### `when` - Conditional Execution
Woodpecker supports defining a list of conditions for a pipeline step by using a `when` block. If at least one of the conditions in the `when` block evaluate to true the step is executed, otherwise it is skipped. A condition can be a check like:
```diff
steps:
slack:
image: plugins/slack
settings:
channel: dev
+ when:
+ - event: pull_request
+ repo: test/test
+ - event: push
+ branch: main
```
#### `repo`
Example conditional execution by repository:
```diff
steps:
slack:
image: plugins/slack
settings:
channel: dev
+ when:
+ - repo: test/test
```
#### `branch`
:::note
Branch conditions are not applied to tags.
:::
Example conditional execution by branch:
```diff
steps:
slack:
image: plugins/slack
settings:
channel: dev
+ when:
+ - branch: master
```
> The step now triggers on master, but also if the target branch of a pull request is `master`. Add an event condition to limit it further to pushes on master only.
Execute a step if the branch is `master` or `develop`:
```yaml
when:
- branch: [master, develop]
```
Execute a step if the branch starts with `prefix/*`:
```yaml
when:
- branch: prefix/*
```
The branch matching is done using [doublestar](https://github.com/bmatcuk/doublestar/#usage), note that a pattern starting with `*` should be put between quotes and a literal `/` needs to be escaped. A few examples:
- `*\\/*` to match patterns with exactly 1 `/`
- `*\\/**` to match patters with at least 1 `/`
- `*` to match patterns without `/`
- `**` to match everything
Execute a step using custom include and exclude logic:
```yaml
when:
- branch:
include: [ master, release/* ]
exclude: [ release/1.0.0, release/1.1.* ]
```
#### `event`
Available events: `push`, `pull_request`, `tag`, `deployment`, `cron`, `manual`
Execute a step if the build event is a `tag`:
```yaml
when:
- event: tag
```
Execute a step if the pipeline event is a `push` to a specified branch:
```diff
when:
- event: push
+ branch: main
```
Execute a step for multiple events:
```yaml
when:
- event: [push, tag, deployment]
```
#### `cron`
This filter **only** applies to cron events and filters based on the name of a cron job.
Make sure to have a `event: cron` condition in the `when`-filters as well.
```yaml
when:
- event: cron
cron: sync_* # name of your cron job
```
[Read more about cron](./45-cron.md)
#### `ref`
The `ref` filter compares the git reference against which the pipeline is executed.
This allows you to filter, for example, tags that must start with **v**:
```yaml
when:
event: tag
ref: refs/tags/v*
```
#### `status`
There are use cases for executing pipeline steps on failure, such as sending notifications for failed pipelines. Use the status constraint to execute steps even when the pipeline fails:
```diff
steps:
slack:
image: plugins/slack
settings:
channel: dev
+ when:
+ - status: [ success, failure ]
```
#### `platform`
:::note
This condition should be used in conjunction with a [matrix](./30-matrix-workflows.md#example-matrix-pipeline-using-multiple-platforms) pipeline as a regular pipeline will only executed by a single agent which only has one arch.
:::
Execute a step for a specific platform:
```yaml
when:
- platform: linux/amd64
```
Execute a step for a specific platform using wildcards:
```yaml
when:
- platform: [ linux/*, windows/amd64 ]
```
#### `environment`
Execute a step for deployment events matching the target deployment environment:
```yaml
when:
- environment: production
- event: deployment
```
#### `matrix`
Execute a step for a single matrix permutation:
```yaml
when:
- matrix:
GO_VERSION: 1.5
REDIS_VERSION: 2.8
```
#### `instance`
Execute a step only on a certain Woodpecker instance matching the specified hostname:
```yaml
when:
- instance: stage.woodpecker.company.com
```
#### `path`
:::info
Path conditions are applied only to **push** and **pull_request** events.
It is currently **only available** for GitHub, GitLab and Gitea (version 1.18.0 and newer)
:::
Execute a step only on a pipeline with certain files being changed:
```yaml
when:
- path: "src/*"
```
You can use [glob patterns](https://github.com/bmatcuk/doublestar#patterns) to match the changed files and specify if the step should run if a file matching that pattern has been changed `include` or if some files have **not** been changed `exclude`.
```yaml
when:
- path:
include: [ '.woodpecker/*.yml', '*.ini' ]
exclude: [ '*.md', 'docs/**' ]
ignore_message: "[ALL]"
```
**Hint:** Passing a defined ignore-message like `[ALL]` inside the commit message will ignore all path conditions.
#### `evaluate`
Execute a step only if the provided evaluate expression is equal to true. Both built-in [`CI_`](./50-environment.md#built-in-environment-variables) and custom variables can be used inside the expression.
The expression syntax can be found in [the docs](https://github.com/antonmedv/expr/blob/master/docs/Language-Definition.md) of the underlying library.
Run on pushes to the default branch for the repository `owner/repo`:
```yaml
when:
- evaluate: 'CI_BUILD_EVENT == "push" && CI_REPO == "owner/repo" && CI_COMMIT_BRANCH == CI_REPO_DEFAULT_BRANCH'
```
Run on commits created by user `woodpecker-ci`:
```yaml
when:
- evaluate: 'CI_COMMIT_AUTHOR == "woodpecker-ci"'
```
Skip all commits containing `please ignore me` in the commit message:
```yaml
when:
- evaluate: 'not (CI_COMMIT_MESSAGE contains "please ignore me")'
```
Run on pull requests with the label `deploy`:
```yaml
when:
- evaluate: 'CI_COMMIT_PULL_REQUEST_LABELS contains "deploy"'
```
Skip step only if `SKIP=true`, run otherwise or if undefined:
```yaml
when:
- evaluate: 'SKIP != "true"'
```
### `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
steps:
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).
### `directory`
Using `directory`, you can set a subdirectory of your repository or an absolute path inside the Docker container in which your commands will run.
## `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).
## `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.
```txt
/woodpecker/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
steps:
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
steps:
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:
```sh
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-workflows.md).
## `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
steps:
build:
image: golang
commands:
- go build
- go test
```
## `labels`
You can set labels for your pipeline to select an agent to execute the pipeline on. An agent will pick up and run a pipeline when **every** label assigned to a pipeline matches the agents labels.
To set additional agent labels check the [agent configuration options](../30-administration/15-agent-config.md#woodpecker_filter_labels). Agents will have at least four default labels: `platform=agent-os/agent-arch`, `hostname=my-agent`, `backend=docker` (type of the agent backend) and `repo=*`. Agents can use a `*` as a wildcard for a label. For example `repo=*` will match every repo.
Pipeline labels with an empty value will be ignored.
By default each pipeline has at least the `repo=your-user/your-repo-name` label. If you have set the [platform attribute](#platform) for your pipeline it will have a label like `platform=your-os/your-arch` as well.
You can add additional labels as a key value map:
```diff
+labels:
+ location: europe # only agents with `location=europe` or `location=*` will be used
+ weather: sun
+ hostname: "" # this label will be ignored as it is empty
steps:
build:
image: golang
commands:
- go build
- go test
```
## `variables`
Woodpecker supports [YAML anchors & aliases](https://yaml.org/spec/1.2.2/#3222-anchors-and-aliases) in the pipeline configuration. These can be used as variables to not repeat yourself.
For more details and examples check the [Advanced YAML syntax docs](./35-advanced-yaml-syntax.md)
## `clone`
Woodpecker automatically configures a default clone step if not explicitly defined. When using the `local` backend, the [plugin-git](https://github.com/woodpecker-ci/plugin-git) binary must be on your `$PATH` for the default clone step to work. If not, you can still write a manual clone step.
You can manually configure the clone step in your pipeline for customization:
```diff
+clone:
+ git:
+ image: woodpeckerci/plugin-git
steps:
build:
image: golang
commands:
- go build
- go test
```
Example configuration to override depth:
```diff
clone:
git:
image: woodpeckerci/plugin-git
+ settings:
+ partial: false
+ 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
steps:
...
```
## `skip_clone`
By default Woodpecker is automatically adding a clone step. This clone step can be configured by the [clone](#clone) property. If you do not need a `clone` step at all you can skip it using:
```yaml
skip_clone: true
```
## `when` - Global pipeline conditions
Woodpecker gives the ability to skip whole pipelines (not just steps #when---conditional-execution-1) based on certain conditions by a `when` block. If all conditions in the `when` block evaluate to true the pipeline is executed, otherwise it is skipped, but treated as successful and other pipelines depending on it will still continue.
### `repo`
Example conditional execution by repository:
```diff
+when:
+ repo: test/test
+
steps:
slack:
image: plugins/slack
settings:
channel: dev
```
### `branch`
:::note
Branch conditions are not applied to tags.
:::
Example conditional execution by branch:
```diff
+when:
+ branch: master
+
steps:
slack:
image: plugins/slack
settings:
channel: dev
```
> The step now triggers on master, but also if the target branch of a pull request is `master`. Add an event condition to limit it further to pushes on master only.
Execute a step if the branch is `master` or `develop`:
```diff
when:
branch: [master, develop]
```
Execute a step if the branch starts with `prefix/*`:
```diff
when:
branch: prefix/*
```
Execute a step using custom include and exclude logic:
```diff
when:
branch:
include: [ master, release/* ]
exclude: [ release/1.0.0, release/1.1.* ]
```
### `event`
Execute a step if the build event is a `tag`:
```diff
when:
event: tag
```
Execute a step if the pipeline event is a `push` to a specified branch:
```diff
when:
event: push
+ branch: main
```
Execute a step for all non-pull request events:
```diff
when:
event: [push, tag, deployment]
```
Execute a step for all build events:
```diff
when:
event: [push, pull_request, tag, deployment]
```
### `ref`
The `ref` filter compares the git reference against which the pipeline is executed.
This allows you to filter, for example, tags that must start with **v**:
```yaml
when:
event: tag
ref: refs/tags/v*
```
### `environment`
Execute a step for deployment events matching the target deployment environment:
```diff
when:
environment: production
event: deployment
```
### `instance`
Execute a step only on a certain Woodpecker instance matching the specified hostname:
```diff
when:
instance: stage.woodpecker.company.com
```
### `path`
:::info
Path conditions are applied only to **push** and **pull_request** events.
It is currently **only available** for GitHub, GitLab and Gitea (version 1.18.0 and newer)
:::
Execute a step only on a pipeline with certain files being changed:
```diff
when:
path: "src/*"
```
You can use [glob patterns](https://github.com/bmatcuk/doublestar#patterns) to match the changed files and specify if the step should run if a file matching that pattern has been changed `include` or if some files have **not** been changed `exclude`.
```diff
when:
path:
include: [ '.woodpecker/*.yml', '*.ini' ]
exclude: [ '*.md', 'docs/**' ]
ignore_message: "[ALL]"
```
**Hint:** Passing a defined ignore-message like `[ALL]` inside the commit message will ignore all path conditions.
## `depends_on`
Woodpecker supports to define multiple workflows for a repository. Those workflows will run independent from each other. To depend them on each other you can use the [`depends_on`](./25-workflows.md#flow-control) keyword.
## 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
steps:
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
```

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@ -0,0 +1,130 @@
# Workflows
:::info
This Feature is only available for GitHub, Gitea & GitLab repositories. Follow [this](https://github.com/woodpecker-ci/woodpecker/issues/1138) issue to support further development.
:::
A pipeline has at least one workflow. A workflow is a set of steps that are executed in sequence using the same workspace which is a shared folder containing the repository and all the generated data from previous steps.
Incase there is a single configuration in `.woodpecker.yml` Woodpecker will create a pipeline with a single workflow.
By placing the configurations in a folder which is by default named `.woodpecker/` Woodpecker will create a pipeline with multiple workflows each named by the file they are defined in. Only `.yml` and `.yaml` files will be used and files in any subfolders like `.woodpecker/sub-folder/test.yml` will be ignored.
You can also set some custom path like `.my-ci/pipelines/` instead of `.woodpecker/` in the [project settings](./71-project-settings.md).
## Benefits of using workflows
- faster lint/test feedback, the workflow doesn't have to run fully to have a lint status pushed to the remote
- better organization of a pipeline along various concerns using one workflow for: testing, linting, building and deploying
- utilizing more agents to speed up the execution of the whole pipeline
## Example workflow definition
:::warning
Please note that files are only shared between steps of the same workflow (see [File changes are incremental](./20-pipeline-syntax.md#file-changes-are-incremental)). That means you cannot access artifacts e.g. from the `build` workflow in the `deploy` workflow.
If you still need to pass artifacts between the workflows you need use some storage [plugin](./51-plugins/10-plugins.md) (e.g. one which stores files in an Amazon S3 bucket).
:::
```bash
.woodpecker/
├── .build.yml
├── .deploy.yml
├── .lint.yml
└── .test.yml
```
.woodpecker/.build.yml
```yaml
steps:
build:
image: debian:stable-slim
commands:
- echo building
- sleep 5
```
.woodpecker/.deploy.yml
```yaml
steps:
deploy:
image: debian:stable-slim
commands:
- echo deploying
depends_on:
- lint
- build
- test
```
.woodpecker/.test.yml
```yaml
steps:
test:
image: debian:stable-slim
commands:
- echo testing
- sleep 5
depends_on:
- build
```
.woodpecker/.lint.yml
```yaml
steps:
lint:
image: debian:stable-slim
commands:
- echo linting
- sleep 5
```
## Status lines
Each workflow will report its own status back to your forge.
## Flow control
The workflows run in parallel on separate agents and share nothing.
Dependencies between workflows can be set with the `depends_on` element. A workflow doesn't execute until all of its dependencies finished successfully.
The name for a `depends_on` entry is the filename without the path, leading dots and without the file extension `.yml` or `.yaml`. If the project config for example uses `.woodpecker/` as path for CI files with a file named `.woodpecker/.lint.yml` the corresponding `depends_on` entry would be `lint`.
```diff
steps:
deploy:
image: debian:stable-slim
commands:
- echo deploying
+depends_on:
+ - lint
+ - build
+ - test
```
Workflows that need to run even on failures should set the `runs_on` tag.
```diff
steps:
notify:
image: debian:stable-slim
commands:
- echo notifying
depends_on:
- deploy
+runs_on: [ success, failure ]
```
:::info
Some workflows don't need the source code, like creating a notification on failure.
Read more about `skip_clone` at [pipeline syntax](./20-pipeline-syntax.md#skip_clone)
:::

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@ -0,0 +1,138 @@
# Matrix workflows
Woodpecker has integrated support for matrix workflows. Woodpecker executes a separate workflow for each combination in the matrix, allowing you to build and test a single commit against multiple configurations.
Example matrix definition:
```yaml
matrix:
GO_VERSION:
- 1.4
- 1.3
REDIS_VERSION:
- 2.6
- 2.8
- 3.0
```
Example matrix definition containing only specific combinations:
```yaml
matrix:
include:
- GO_VERSION: 1.4
REDIS_VERSION: 2.8
- GO_VERSION: 1.5
REDIS_VERSION: 2.8
- GO_VERSION: 1.6
REDIS_VERSION: 3.0
```
## Interpolation
Matrix variables are interpolated in the YAML using the `${VARIABLE}` syntax, before the YAML is parsed. This is an example YAML file before interpolating matrix parameters:
```yaml
matrix:
GO_VERSION:
- 1.4
- 1.3
DATABASE:
- mysql:5.5
- mysql:6.5
- mariadb:10.1
steps:
build:
image: golang:${GO_VERSION}
commands:
- go get
- go build
- go test
services:
database:
image: ${DATABASE}
```
Example YAML file after injecting the matrix parameters:
```diff
steps:
build:
- image: golang:${GO_VERSION}
+ image: golang:1.4
commands:
- go get
- go build
- go test
+ environment:
+ - GO_VERSION=1.4
+ - DATABASE=mysql:5.5
services:
database:
- image: ${DATABASE}
+ image: mysql:5.5
```
## Examples
### Example matrix pipeline based on Docker image tag
```yaml
matrix:
TAG:
- 1.7
- 1.8
- latest
steps:
build:
image: golang:${TAG}
commands:
- go build
- go test
```
### Example matrix pipeline based on container image
```yaml
matrix:
IMAGE:
- golang:1.7
- golang:1.8
- golang:latest
steps:
build:
image: ${IMAGE}
commands:
- go build
- go test
```
### Example matrix pipeline using multiple platforms
```yaml
matrix:
platform:
- linux/amd64
- linux/arm64
platform: ${platform}
steps:
test:
image: alpine
commands:
- echo "I am running on ${platform}"
test-arm-only:
image: alpine
commands:
- echo "I am running on ${platform}"
- echo "Arm is cool!"
when:
platform: linux/arm*
```

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@ -0,0 +1,90 @@
# Advanced YAML syntax
## Anchors & aliases
You can use [YAML anchors & aliases](https://yaml.org/spec/1.2.2/#3222-anchors-and-aliases) as variables in your pipeline config.
To convert this:
```yml
steps:
test:
image: golang:1.18
commands: go test ./...
build:
image: golang:1.18
commands: build
```
Just add a new section called **variables** like this:
```diff
+variables:
+ - &golang_image 'golang:1.18'
steps:
test:
- image: golang:1.18
+ image: *golang_image
commands: go test ./...
build:
- image: golang:1.18
+ image: *golang_image
commands: build
```
## Map merges and overwrites
```yaml
variables:
- &base-plugin-settings
target: dist
recursive: false
try: true
- &special-setting
special: true
- &some-plugin codeberg.org/6543/docker-images/print_env
steps:
develop:
image: *some-plugin
settings:
<<: [*base-plugin-settings, *special-setting] # merge two maps into an empty map
when:
branch: develop
main:
image: *some-plugin
settings:
<<: *base-plugin-settings # merge one map and ...
try: false # ... overwrite original value
ongoing: false # ... adding a new value
when:
branch: main
```
## Sequence merges
```yaml
variables:
pre_cmds: &pre_cmds
- echo start
- whoami
post_cmds: &post_cmds
- echo stop
hello_cmd: &hello_cmd
- echo hello
steps:
step1:
image: debian
commands:
- <<: *pre_cmds # prepend a sequence
- echo exec step now do dedicated things
- <<: *post_cmds # append a sequence
step2:
image: debian
commands:
- <<: [*pre_cmds, *hello_cmd] # prepend two sequences
- echo echo from second step
- <<: *post_cmds
```

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# 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.
Secrets are exposed to your pipeline steps and plugins as uppercase environment variables and can therefore be referenced in the commands section of your pipeline.
```diff
steps:
docker:
image: docker
commands:
+ - echo $DOCKER_USERNAME
+ - echo $DOCKER_PASSWORD
+ secrets: [ docker_username, docker_password ]
```
Alternatively, you can get a `setting` from secrets using the `from_secret` syntax.
In this example, the secret named `secret_token` would be passed to the pipeline as `PLUGIN_TOKEN`.
**NOTE:** the `from_secret` syntax only works with the newer `settings` block.
```diff
steps:
docker:
image: my-plugin
settings:
+ token:
+ from_secret: secret_token
```
Please note parameter expressions are subject to pre-processing. When using secrets in parameter expressions they should be escaped.
```diff
steps:
docker:
image: docker
commands:
- - echo ${DOCKER_USERNAME}
- - echo ${DOCKER_PASSWORD}
+ - echo $${DOCKER_USERNAME}
+ - echo $${DOCKER_PASSWORD}
secrets: [ docker_username, docker_password ]
```
## Adding Secrets
Secrets are added to the Woodpecker secret store on the UI or with the CLI.
## Alternate Names
There may be scenarios where you are required to store secrets using alternate names. You can map the alternate secret name to the expected name using the below syntax:
```diff
steps:
docker:
image: plugins/docker
repo: octocat/hello-world
tags: latest
+ secrets:
+ - source: docker_prod_password
+ target: docker_password
```
## Pull Requests
Secrets are not exposed to pull requests by default. You can override this behavior by creating the secret and enabling the `pull_request` event type.
```diff
woodpecker-cli secret add \
-repository octocat/hello-world \
-image plugins/docker \
+ -event pull_request \
+ -event push \
+ -event tag \
-name docker_username \
-value <value>
```
Please be careful when exposing secrets to pull requests. If your repository is open source and accepts pull requests your secrets are not safe. A bad actor can submit a malicious pull request that exposes your secrets.
## Image filter
To prevent abusing your secrets with malicious pull requests, you can limit a secret to a list of images. They are not available to any other container. In addition, you can make the secret available only for plugins (steps without user-defined commands).
:::warning
If you enable the option "Only available for plugins", always set an image filter too. Otherwise, the secret can be accessed by a very simple self-developed plugin and is thus *not* safe.
If you only set an image filter, you could still access the secret using the same image and by specifying a command that prints it.
:::
## Examples
Create the secret using default settings. The secret will be available to all images in your pipeline, and will be available to all push, tag, and deployment events (not pull request events).
```diff
woodpecker-cli secret add \
-repository octocat/hello-world \
-name aws_access_key_id \
-value <value>
```
Create the secret and limit to a single image:
```diff
woodpecker-cli secret add \
-repository octocat/hello-world \
+ -image plugins/s3 \
-name aws_access_key_id \
-value <value>
```
Create the secrets and limit to a set of images:
```diff
woodpecker-cli secret add \
-repository octocat/hello-world \
+ -image plugins/s3 \
+ -image peloton/woodpecker-ecs \
-name aws_access_key_id \
-value <value>
```
Create the secret and enable for multiple hook events:
```diff
woodpecker-cli secret add \
-repository octocat/hello-world \
-image plugins/s3 \
+ -event pull_request \
+ -event push \
+ -event tag \
-name aws_access_key_id \
-value <value>
```
Loading secrets from file using curl `@` syntax. This is the recommended approach for loading secrets from file to preserve newlines:
```diff
woodpecker-cli secret add \
-repository octocat/hello-world \
-name ssh_key \
+ -value @/root/ssh/id_rsa
```

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# Registries
Woodpecker provides the ability to add container registries in the settings of your repository. Adding a registry allows you to authenticate and pull private images from a container registry when using these images as a step inside your pipeline.

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# Cron
To configure cron jobs you need at least push access to the repository.
## Add a new cron job
1. To create a new cron job adjust your pipeline config(s) and add the event filter to all steps you would like to run by the cron job:
```diff
steps:
sync_locales:
image: weblate_sync
settings:
url: example.com
token:
from_secret: weblate_token
+ when:
+ event: cron
+ cron: "name of the cron job" # if you only want to execute this step by a specific cron job
```
1. Create a new cron job in the repository settings:
![cron settings](./cron-settings.png)
The supported schedule syntax can be found at <https://pkg.go.dev/github.com/robfig/cron?utm_source=godoc#hdr-CRON_Expression_Format>. If you need general understanding of the cron syntax <https://crontab.guru/> is a good place to start and experiment.
Examples: `@every 5m`, `@daily`, `0 30 * * * *` ...
:::info
Woodpeckers cron syntax starts with seconds instead of minutes as used by most linux cron schedulers.
Example: "At minute 30 every hour" would be `0 30 * * * *` instead of `30 * * * *`
:::

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# Environment variables
Woodpecker provides the ability to pass environment variables to individual pipeline steps. Note that these can't overwrite any existing, built-in variables. Example pipeline step with custom environment variables:
```diff
steps:
build:
image: golang
+ environment:
+ - CGO=0
+ - GOOS=linux
+ - GOARCH=amd64
commands:
- go build
- go test
```
Please note that the environment section is not able to expand environment variables. If you need to expand variables they should be exported in the commands section.
```diff
steps:
build:
image: golang
- environment:
- - PATH=$PATH:/go
commands:
+ - export PATH=$PATH:/go
- go build
- go test
```
> Please be warned that `${variable}` expressions are subject to pre-processing. If you do not want the pre-processor to evaluate your expression it must be escaped:
```diff
steps:
build:
image: golang
commands:
- - export PATH=${PATH}:/go
+ - export PATH=$${PATH}:/go
- go build
- go test
```
## Built-in environment variables
This is the reference list of all environment variables available to your pipeline containers. These are injected into your pipeline step and plugins containers, at runtime.
| NAME | Description |
| -------------------------------- | -------------------------------------------------------------------------------------------- |
| `CI=woodpecker` | environment is woodpecker |
| | **Repository** |
| `CI_REPO` | repository full name `<owner>/<name>` |
| `CI_REPO_OWNER` | repository owner |
| `CI_REPO_NAME` | repository name |
| `CI_REPO_REMOTE_ID` | repository remote ID, is the UID it has in the forge |
| `CI_REPO_SCM` | repository SCM (git) |
| `CI_REPO_URL` | repository web URL |
| `CI_REPO_CLONE_URL` | repository clone URL |
| `CI_REPO_DEFAULT_BRANCH` | repository default branch (master) |
| `CI_REPO_PRIVATE` | repository is private |
| `CI_REPO_TRUSTED` | repository is trusted |
| | **Current Commit** |
| `CI_COMMIT_SHA` | commit SHA |
| `CI_COMMIT_REF` | commit ref |
| `CI_COMMIT_REFSPEC` | commit ref spec |
| `CI_COMMIT_BRANCH` | commit branch (equals target branch for pull requests) |
| `CI_COMMIT_SOURCE_BRANCH` | commit source branch |
| `CI_COMMIT_TARGET_BRANCH` | commit target branch |
| `CI_COMMIT_TAG` | commit tag name (empty if event is not `tag`) |
| `CI_COMMIT_PULL_REQUEST` | commit pull request number (empty if event is not `pull_request`) |
| `CI_COMMIT_PULL_REQUEST_LABELS` | labels assigned to pull request (empty if event is not `pull_request`) |
| `CI_COMMIT_URL` | commit link in forge |
| `CI_COMMIT_MESSAGE` | commit message |
| `CI_COMMIT_AUTHOR` | commit author username |
| `CI_COMMIT_AUTHOR_EMAIL` | commit author email address |
| `CI_COMMIT_AUTHOR_AVATAR` | commit author avatar |
| | **Current pipeline** |
| `CI_PIPELINE_NUMBER` | pipeline number |
| `CI_PIPELINE_PARENT` | number of parent pipeline |
| `CI_PIPELINE_EVENT` | pipeline event (push, pull_request, tag, deployment) |
| `CI_PIPELINE_URL` | link to the forge's web UI for the commit(s) or tag that triggered the pipeline |
| `CI_PIPELINE_DEPLOY_TARGET` | pipeline deploy target for `deployment` events (ie production) |
| `CI_PIPELINE_STATUS` | pipeline status (success, failure) |
| `CI_PIPELINE_CREATED` | pipeline created UNIX timestamp |
| `CI_PIPELINE_STARTED` | pipeline started UNIX timestamp |
| `CI_PIPELINE_FINISHED` | pipeline finished UNIX timestamp |
| | **Current workflow** |
| `CI_WORKFLOW_NAME` | workflow name |
| | **Current step** |
| `CI_STEP_NAME` | step name |
| `CI_STEP_STATUS` | step status (success, failure) |
| `CI_STEP_STARTED` | step started UNIX timestamp |
| `CI_STEP_FINISHED` | step finished UNIX timestamp |
| | **Previous commit** |
| `CI_PREV_COMMIT_SHA` | previous commit SHA |
| `CI_PREV_COMMIT_REF` | previous commit ref |
| `CI_PREV_COMMIT_REFSPEC` | previous commit ref spec |
| `CI_PREV_COMMIT_BRANCH` | previous commit branch |
| `CI_PREV_COMMIT_SOURCE_BRANCH` | previous commit source branch |
| `CI_PREV_COMMIT_TARGET_BRANCH` | previous commit target branch |
| `CI_PREV_COMMIT_URL` | previous commit link in forge |
| `CI_PREV_COMMIT_MESSAGE` | previous commit message |
| `CI_PREV_COMMIT_AUTHOR` | previous commit author username |
| `CI_PREV_COMMIT_AUTHOR_EMAIL` | previous commit author email address |
| `CI_PREV_COMMIT_AUTHOR_AVATAR` | previous commit author avatar |
| | **Previous pipeline** |
| `CI_PREV_PIPELINE_NUMBER` | previous pipeline number |
| `CI_PREV_PIPELINE_PARENT` | previous pipeline number of parent pipeline |
| `CI_PREV_PIPELINE_EVENT` | previous pipeline event (push, pull_request, tag, deployment) |
| `CI_PREV_PIPELINE_URL` | previous pipeline link in CI |
| `CI_PREV_PIPELINE_DEPLOY_TARGET` | previous pipeline deploy target for `deployment` events (ie production) |
| `CI_PREV_PIPELINE_STATUS` | previous pipeline status (success, failure) |
| `CI_PREV_PIPELINE_CREATED` | previous pipeline created UNIX timestamp |
| `CI_PREV_PIPELINE_STARTED` | previous pipeline started UNIX timestamp |
| `CI_PREV_PIPELINE_FINISHED` | previous pipeline finished UNIX timestamp |
| | &emsp; |
| `CI_WORKSPACE` | Path of the workspace where source code gets cloned to |
| | **System** |
| `CI_SYSTEM_NAME` | name of the CI system: `woodpecker` |
| `CI_SYSTEM_URL` | link to CI system |
| `CI_SYSTEM_HOST` | hostname of CI server |
| `CI_SYSTEM_VERSION` | version of the server |
| | **Forge** |
| `CI_FORGE_TYPE` | name of forge (gitea, github, ...) |
| `CI_FORGE_URL` | root URL of configured forge |
| | **Internal** - Please don't use! |
| `CI_SCRIPT` | Internal script path. Used to call pipeline step commands. |
| `CI_NETRC_USERNAME` | Credentials for private repos to be able to clone data. (Only available for specific images) |
| `CI_NETRC_PASSWORD` | Credentials for private repos to be able to clone data. (Only available for specific images) |
| `CI_NETRC_MACHINE` | Credentials for private repos to be able to clone data. (Only available for specific images) |
## Global environment variables
If you want specific environment variables to be available in all of your pipelines use the `WOODPECKER_ENVIRONMENT` setting on the Woodpecker server. Note that these can't overwrite any existing, built-in variables.
```diff
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_ENVIRONMENT=first_var:value1,second_var:value2
```
These can be used, for example, to manage the image tag used by multiple projects.
```diff
steps:
build:
- image: golang:1.18
+ image: golang:${GOLANG_VERSION}
commands:
- [...]
environment:
- [...]
+ - WOODPECKER_ENVIRONMENT=GOLANG_VERSION:1.18
```
## String Substitution
Woodpecker provides the ability to substitute environment variables at runtime. This gives us the ability to use dynamic settings, commands and filters in our pipeline configuration.
Example commit substitution:
```diff
steps:
docker:
image: plugins/docker
settings:
+ tags: ${CI_COMMIT_SHA}
```
Example tag substitution:
```diff
steps:
docker:
image: plugins/docker
settings:
+ tags: ${CI_COMMIT_TAG}
```
## String Operations
Woodpecker also emulates bash string operations. This gives us the ability to manipulate the strings prior to substitution. Example use cases might include substring and stripping prefix or suffix values.
| OPERATION | DESCRIPTION |
| ------------------ | ------------------------------------------------ |
| `${param}` | parameter substitution |
| `${param,}` | parameter substitution with lowercase first char |
| `${param,,}` | parameter substitution with lowercase |
| `${param^}` | parameter substitution with uppercase first char |
| `${param^^}` | parameter substitution with uppercase |
| `${param:pos}` | parameter substitution with substring |
| `${param:pos:len}` | parameter substitution with substring and length |
| `${param=default}` | parameter substitution with default |
| `${param##prefix}` | parameter substitution with prefix removal |
| `${param%%suffix}` | parameter substitution with suffix removal |
| `${param/old/new}` | parameter substitution with find and replace |
Example variable substitution with substring:
```diff
steps:
docker:
image: plugins/docker
settings:
+ tags: ${CI_COMMIT_SHA:0:8}
```
Example variable substitution strips `v` prefix from `v.1.0.0`:
```diff
steps:
docker:
image: plugins/docker
settings:
+ tags: ${CI_COMMIT_TAG##v}
```

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# Plugins
Plugins are pipeline steps that perform pre-defined tasks and are configured as steps in your pipeline. Plugins can be used to deploy code, publish artifacts, send notification, and more.
They are automatically pulled from the default container registry the agent's have configured.
Example pipeline using the Docker and Slack plugins:
```yaml
steps:
build:
image: golang
commands:
- go build
- go test
publish:
image: plugins/docker
settings:
repo: foo/bar
tags: latest
notify:
image: plugins/slack
settings:
channel: dev
```
## Plugin Isolation
Plugins are just pipeline steps. They share the build workspace, mounted as a volume, and therefore have access to your source tree.
## Finding Plugins
For official plugins, you can use the Woodpecker plugin index:
- [Official Woodpecker Plugins](https://woodpecker-ci.org/plugins)
:::tip
There are also other plugin lists with additional plugins. Keep in mind that [Drone](https://www.drone.io/) plugins are generally supported, but could need some adjustments and tweaking.
- [Drone Plugins](http://plugins.drone.io)
- [The Geek Lab Drone Plugins](https://drone-plugin-index.geekdocs.de/plugins/drone-matrix/)
:::
## Creating a plugin
See a [detailed plugin example](./20-sample-plugin.md).

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# Example plugin
This provides a brief tutorial for creating a Woodpecker webhook plugin, using simple shell scripting, to make an http requests during the build pipeline.
## What end users will see
The below example demonstrates how we might configure a webhook plugin in the YAML file:
```yaml
steps:
webhook:
image: foo/webhook
settings:
url: http://example.com
method: post
body: |
hello world
```
## Write the logic
Create a simple shell script that invokes curl using the YAML configuration parameters, which are passed to the script as environment variables in uppercase and prefixed with `PLUGIN_`.
```bash
#!/bin/sh
curl \
-X ${PLUGIN_METHOD} \
-d ${PLUGIN_BODY} \
${PLUGIN_URL}
```
## Package it
Create a Dockerfile that adds your shell script to the image, and configures the image to execute your shell script as the main entrypoint.
```dockerfile
FROM alpine
ADD script.sh /bin/
RUN chmod +x /bin/script.sh
RUN apk -Uuv add curl ca-certificates
ENTRYPOINT /bin/script.sh
```
Build and publish your plugin to the Docker registry. Once published your plugin can be shared with the broader Woodpecker community.
```nohighlight
docker build -t foo/webhook .
docker push foo/webhook
```
Execute your plugin locally from the command line to verify it is working:
```nohighlight
docker run --rm \
-e PLUGIN_METHOD=post \
-e PLUGIN_URL=http://example.com \
-e PLUGIN_BODY="hello world" \
foo/webhook
```

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label: 'Plugins'
# position: 2
collapsible: true
collapsed: true

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# Services
Woodpecker provides a services section in the YAML file used for defining service containers.
The below configuration composes database and cache containers.
Services are accessed using custom hostnames.
In the example below, the MySQL service is assigned the hostname `database` and is available at `database:3306`.
```diff
steps:
build:
image: golang
commands:
- go build
- go test
services:
database:
image: mysql
cache:
image: redis
```
## Configuration
Service containers generally expose environment variables to customize service startup such as default usernames, passwords and ports. Please see the official image documentation to learn more.
```diff
services:
database:
image: mysql
+ environment:
+ - MYSQL_DATABASE=test
+ - MYSQL_ALLOW_EMPTY_PASSWORD=yes
cache:
image: redis
```
## Detachment
Service and long running containers can also be included in the pipeline section of the configuration using the detach parameter without blocking other steps. This should be used when explicit control over startup order is required.
```diff
steps:
build:
image: golang
commands:
- go build
- go test
database:
image: redis
+ detach: true
test:
image: golang
commands:
- go test
```
Containers from detached steps will terminate when the pipeline ends.
## Initialization
Service containers require time to initialize and begin to accept connections. If you are unable to connect to a service you may need to wait a few seconds or implement a backoff.
```diff
steps:
test:
image: golang
commands:
+ - sleep 15
- go get
- go test
services:
database:
image: mysql
```
## Complete Pipeline Example
```yml
services:
database:
image: mysql
environment:
- MYSQL_DATABASE=test
- MYSQL_ROOT_PASSWORD=example
steps:
get-version:
image: ubuntu
commands:
- ( apt update && apt dist-upgrade -y && apt install -y mysql-client 2>&1 )> /dev/null
- sleep 30s # need to wait for mysql-server init
- echo 'SHOW VARIABLES LIKE "version"' | mysql -uroot -hdatabase test -pexample
```

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# 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.
:::note
Volumes are 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
steps:
build:
image: docker
commands:
- docker build --rm -t octocat/hello-world .
- docker run --rm octocat/hello-world --test
- docker push octocat/hello-world
- docker rmi octocat/hello-world
volumes:
+ - /var/run/docker.sock:/var/run/docker.sock
```
Please note that Woodpecker mounts volumes on the host machine. This means you must use absolute paths when you configure volumes. Attempting to use relative paths will result in an error.
```diff
- volumes: [ ./certs:/etc/ssl/certs ]
+ volumes: [ /etc/ssl/certs:/etc/ssl/certs ]
```

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# Project settings
As the owner of a project in Woodpecker you can change project related settings via the web interface.
![project settings](./project-settings.png)
## Pipeline path
The path to the pipeline config file or folder. By default it is left empty which will use the following configuration resolution `.woodpecker/*.yml` -> `.woodpecker/*.yaml` -> `.woodpecker.yml` -> `.woodpecker.yaml`. If you set a custom path Woodpecker tries to load your configuration or fails if no configuration could be found at the specified location. To use a [multiple workflows](./25-workflows.md) with a custom path you have to change it to a folder path ending with a `/` like `.woodpecker/`.
## Repository hooks
Your Version-Control-System will notify Woodpecker about events via webhooks. If you want your pipeline to only run on specific webhooks, you can check them with this setting.
## Project settings
### Allow pull requests
Enables handling webhook's pull request event. If disabled, then pipeline won't run for pull requests.
### Protected
Every pipeline initiated by an webhook event needs to be approved by a project members with push permissions before being executed.
The protected option can be used as an additional review process before running potentially harmful pipelines. Especially if pipelines can be executed by third-parties through pull-requests.
### Trusted
If you set your project to trusted, a pipeline step and by this the underlying containers gets access to escalated capabilities like mounting volumes.
:::note
Only server admins can set this option. If you are not a server admin this option won't be shown in your project settings.
:::
### Only inject netrc credentials into trusted containers
Cloning pipeline step may need git credentials. They are injected via netrc. By default, they're only injected if this option is enabled, the repo is trusted ([see above](#trusted)) or the image is a trusted clone image. If you uncheck the option, git credentials will be injected into any container in clone step.
## Project visibility
You can change the visibility of your project by this setting. If a user has access to a project he can see all builds and their logs and artifacts. Settings, Secrets and Registries can only be accessed by owners.
- `Public` Every user can see your project without being logged in.
- `Internal` Only authenticated users of the Woodpecker instance can see this project.
- `Private` Only you and other owners of the repository can see this project.
## Timeout
After this timeout a pipeline has to finish or will be treated as timed out.
## Cancel previous pipelines
By enabling this option for a pipeline event previous pipelines of the same event and context will be canceled before starting the newly triggered one.

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# Status Badges
Woodpecker has integrated support for repository status badges. These badges can be added to your website or project readme file to display the status of your code.
## Badge endpoint
```text
<scheme>://<hostname>/api/badges/<repo-id>/status.svg
```
The status badge displays the status for the latest build to your default branch (e.g. master). You can customize the branch by adding the `branch` query parameter.
```diff
-<scheme>://<hostname>/api/badges/<repo-id>/status.svg
+<scheme>://<hostname>/api/badges/<repo-id>/status.svg?branch=<branch>
```
Please note status badges do not include pull request results, since the status of a pull request does not provide an accurate representation of your repository state.

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# Advanced pipeline management
## Using variables
Once your pipeline starts to grow in size, it will become important to keep it DRY ("Don't Repeat Yourself") by using variables and environment variables. Depending on your specific need, there are a number of options.
### YAML extensions
As described in [Advanced YAML syntax](./35-advanced-yaml-syntax.md).
```yml
variables:
- &golang_image 'golang:1.18'
steps:
build:
image: *golang_image
commands: build
```
Note that the `golang_image` alias cannot be used with string interpolation. But this is otherwise a good option for most cases.
### YAML extensions (alternate form)
Another approach using YAML extensions:
```yml
variables:
- global_env: &global_env
- BASH_VERSION=1.2.3
- PATH_SRC=src/
- PATH_TEST=test/
- FOO=something
steps:
build:
image: bash:${BASH_VERSION}
directory: ${PATH_SRC}
commands:
- make ${FOO} -o ${PATH_TEST}
environment: *global_env
test:
image: bash:${BASH_VERSION}
commands:
- test ${PATH_TEST}
environment:
- <<:*global_env
- ADDITIONAL_LOCAL="var value"
```
### Persisting environment data between steps
One can create a file containing environment variables, and then source it in each step that needs them.
```yml
steps:
init:
image: bash
commands:
echo "FOO=hello" >> envvars
echo "BAR=world" >> envvars
debug:
image: bash
commands:
- source envvars
- echo $FOO
```
### Declaring global variables in `docker-compose.yml`
As described in [Global environment variables](./50-environment.md#global-environment-variables), one can define global variables:
```yml
services:
woodpecker-server:
# ...
environment:
- WOODPECKER_ENVIRONMENT=first_var:value1,second_var:value2
# ...
```
Note that this tightly couples the server and app configurations (where the app is a completely separate application). But this is a good option for truly global variables which should apply to all steps in all pipelines for all apps.

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# Setup
A Woodpecker deployment consists of two parts:
- A server which is the heart of Woodpecker and ships the web interface.
- Next to one server you can deploy any number of agents which will run the pipelines.
> Each agent is able to process one pipeline step by default.
>
> If you have 4 agents installed and connected to the Woodpecker server, your system will process 4 builds in parallel.
>
> You can add more agents to increase the number of parallel steps or set the agent's `WOODPECKER_MAX_WORKFLOWS=1` environment variable to increase the number of parallel workflows for that agent.
## Which version of Woodpecker should I use?
Woodpecker is having two different kinds of releases: **stable** and **next**.
To find out more about the differences between the two releases, please read the [FAQ](/faq).
## Hardware Requirements
Below are resources requirements for Woodpecker components itself:
| Component | Memory | CPU |
| --------- | ------ | --- |
| Server | 200 MB | 1 |
| Agent | 32 MB | 1 |
Note, that those values do not include the operating system or workload (pipelines execution) resources consumption.
In addition you need at least some kind of database which requires additional resources depending on the selected database system.
## Installation
You can install Woodpecker on multiple ways:
- Using [docker-compose](#docker-compose) with the official [container images](../80-downloads.md#docker-images)
- By deploying to a [Kubernetes](./80-kubernetes.md) with manifests or Woodpeckers official Helm charts
- Using [binaries](../80-downloads.md)
### docker-compose
The below [docker-compose](https://docs.docker.com/compose/) configuration can be used to start a Woodpecker server with a single agent.
It relies on a number of environment variables that you must set before running `docker-compose up`. The variables are described below.
```yaml
# docker-compose.yml
version: '3'
services:
woodpecker-server:
image: woodpeckerci/woodpecker-server:latest
ports:
- 8000:8000
volumes:
- woodpecker-server-data:/var/lib/woodpecker/
environment:
- WOODPECKER_OPEN=true
- WOODPECKER_HOST=${WOODPECKER_HOST}
- WOODPECKER_GITHUB=true
- WOODPECKER_GITHUB_CLIENT=${WOODPECKER_GITHUB_CLIENT}
- WOODPECKER_GITHUB_SECRET=${WOODPECKER_GITHUB_SECRET}
- WOODPECKER_AGENT_SECRET=${WOODPECKER_AGENT_SECRET}
woodpecker-agent:
image: woodpeckerci/woodpecker-agent:latest
command: agent
restart: always
depends_on:
- woodpecker-server
volumes:
- woodpecker-agent-config:/etc/woodpecker
- /var/run/docker.sock:/var/run/docker.sock
environment:
- WOODPECKER_SERVER=woodpecker-server:9000
- WOODPECKER_AGENT_SECRET=${WOODPECKER_AGENT_SECRET}
volumes:
woodpecker-server-data:
woodpecker-agent-config:
```
Woodpecker needs to know its own address. You must therefore provide the public address of it in `<scheme>://<hostname>` format. Please omit trailing slashes:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_HOST=${WOODPECKER_HOST}
+ - WOODPECKER_HOST=${WOODPECKER_HOST}
```
Woodpecker can also have its port's configured. It uses a separate port for gRPC and for HTTP. The agent performs gRPC calls and connects to the gRPC port.
They can be configured with ADDR variables:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_GRPC_ADDR=${WOODPECKER_GRPC_ADDR}
+ - WOODPECKER_SERVER_ADDR=${WOODPECKER_HTTP_ADDR}
```
Reverse proxying can also be [configured for gRPC](./proxy#caddy). If the agents are connecting over the internet, it should also be SSL encrypted. The agent then needs to be configured to be secure:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_GRPC_SECURE=true # defaults to false
+ - WOODPECKER_GRPC_VERIFY=true # default
```
As agents run pipeline steps as docker containers they require access to the host machine's Docker daemon:
```diff
# docker-compose.yml
version: '3'
services:
[...]
woodpecker-agent:
[...]
+ volumes:
+ - /var/run/docker.sock:/var/run/docker.sock
```
Agents require the server address for agent-to-server communication. The agent connects to the server's gRPC port:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-agent:
[...]
environment:
+ - WOODPECKER_SERVER=woodpecker-server:9000
```
The server and agents use a shared secret to authenticate communication. This should be a random string of your choosing and should be kept private. You can generate such string with `openssl rand -hex 32`:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_AGENT_SECRET=${WOODPECKER_AGENT_SECRET}
woodpecker-agent:
[...]
environment:
- [...]
+ - WOODPECKER_AGENT_SECRET=${WOODPECKER_AGENT_SECRET}
```
## Authentication
Authentication is done using OAuth and is delegated to your forge which is configured by using environment variables. The example above demonstrates basic GitHub integration.
See the complete reference for all supported forges [here](./11-forges/10-overview.md).
## Database
By default Woodpecker uses a SQLite database which requires zero installation or configuration. See the [database settings](./30-database.md) page to further configure it or use MySQL or Postgres.
## SSL
Woodpecker supports SSL configuration by using Let's encrypt or by using own certificates. See the [SSL guide](./60-ssl.md).
## Metrics
A [Prometheus endpoint](./90-prometheus.md) is exposed.
## Behind a proxy
See the [proxy guide](./70-proxy.md) if you want to see a setup behind Apache, Nginx, Caddy or ngrok.
In the case you need to use Woodpecker with a URL path prefix (like: https://example.org/woodpecker/), you can use the option [`WOODPECKER_ROOT_URL`](./10-server-config.md#woodpecker_root_url).

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# Server configuration
## User registration
Woodpecker does not have its own user registry; users are provided from your [forge](./11-forges/10-overview.md) (using OAuth2).
Registration is closed by default (`WOODPECKER_OPEN=false`). If registration is open (`WOODPECKER_OPEN=true`) then every user with an account at the configured forge can login to Woodpecker.
To open registration:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_OPEN=true
```
You can **also restrict** registration, by keep registration closed and ...
... **adding** new **users manually** via the CLI: `woodpecker-cli user add`, or
... allowing specific **admin users** via the `WOODPECKER_ADMIN` setting, or
by open registration and **filter by organization** membership through the `WOODPECKER_ORGS` setting.
### To close registration, but allow specific admin users
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_OPEN=false
+ - WOODPECKER_ADMIN=johnsmith,janedoe
```
### To only allow registration of users, who are members of approved organizations
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_OPEN=true
+ - WOODPECKER_ORGS=dolores,dogpatch
```
## Administrators
Administrators should also be enumerated in your configuration.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_ADMIN=johnsmith,janedoe
```
## Filtering repositories
Woodpecker operates with the user's OAuth permission. Due to the coarse permission handling of GitHub, you may end up syncing more repos into Woodpecker than preferred.
Use the `WOODPECKER_REPO_OWNERS` variable to filter which GitHub user's repos should be synced only. You typically want to put here your company's GitHub name.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_REPO_OWNERS=mycompany,mycompanyossgithubuser
```
## Global registry setting
If you want to make available a specific private registry to all pipelines, use the `WOODPECKER_DOCKER_CONFIG` server configuration.
Point it to your server's docker config.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_DOCKER_CONFIG=/home/user/.docker/config.json
```
## Handling sensitive data in docker-compose and docker-swarm
To handle sensitive data in docker-compose or docker-swarm configurations there are several options:
For docker-compose you can use a .env file next to your compose configuration to store the secrets outside of the compose file. While this separates configuration from secrets it is still not very secure.
Alternatively use docker-secrets. As it may be difficult to use docker secrets for environment variables woodpecker allows to read sensible data from files by providing a `*_FILE` option of all sensible configuration variables. Woodpecker will try to read the value directly from this file. Keep in mind that when the original environment variable gets specified at the same time it will override the value read from the file.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_AGENT_SECRET_FILE=/run/secrets/woodpecker-agent-secret
+ secrets:
+ - woodpecker-agent-secret
+
+secrets:
+ woodpecker-agent-secret:
+ external: true
```
Store a value to a docker secret like this:
`echo "my_agent_secret_key" | docker secret create woodpecker-agent-secret -`
or generate a random one like this:
`openssl rand -hex 32 | docker secret create woodpecker-agent-secret -`
## Custom Javascript and CSS Styling (a.k.a. white-labeling)
Woodpecker supports custom styling of the Web UI by providing custom JS and CSS files.
These files must be present in the server's filesystem.
They can be backed in a Docker image or mounted from a ConfigMap inside a Kubernetes environment.
The configuration variables are independent of each other, which means it can be just one file present, or both.
```text
WOODPECKER_CUSTOM_CSS_FILE=/usr/local/www/woodpecker.css
WOODPECKER_CUSTOM_CSS_FILE=/usr/local/www/woodpecker.js
```
The examples below show how to place a banner message in the top navigation bar of Woodpecker.
##### woodpecker.css
```css
.banner-message {
position: absolute;
width: 280px;
height: 40px;
margin-left: 240px;
margin-top: 5px;
padding-top: 5px;
font-weight: bold;
background: red no-repeat;
text-align: center;
}
```
##### woodpecker.js
```javascript
// place/copy a minified version of jQuery or ZeptoJS here ...
!function(){"use strict";function e(){};/*...*/}();
$().ready(function(){
$(".app nav img").first().htmlAfter("<div class='banner-message'>This is a demo banner message :)</div>")
});
```
## All server configuration options
The following list describes all available server configuration options.
### `WOODPECKER_LOG_LEVEL`
> Default: empty
Configures the logging level. Possible values are `trace`, `debug`, `info`, `warn`, `error`, `fatal`, `panic`, `disabled` and empty.
### `WOODPECKER_LOG_XORM`
> Default: `false`
Enable XORM logs.
### `WOODPECKER_LOG_XORM_SQL`
> Default: `false`
Enable XORM SQL command logs.
### `WOODPECKER_DEBUG_PRETTY`
> Default: `false`
Enable pretty-printed debug output.
### `WOODPECKER_DEBUG_NOCOLOR`
> Default: `true`
Disable colored debug output.
### `WOODPECKER_HOST`
> Default: empty
Server fully qualified URL of the user-facing hostname.
Example: `WOODPECKER_HOST=http://woodpecker.example.org`
### `WOODPECKER_WEBHOOK_HOST`
> Default: value from `WOODPECKER_HOST` config env
Server fully qualified URL of the Webhook-facing hostname.
Example: `WOODPECKER_WEBHOOK_HOST=http://woodpecker-server.cicd.svc.cluster.local:8000`
### `WOODPECKER_SERVER_ADDR`
> Default: `:8000`
Configures the HTTP listener port.
### `WOODPECKER_SERVER_ADDR_TLS`
> Default: `:443`
Configures the HTTPS listener port when SSL is enabled.
### `WOODPECKER_SERVER_CERT`
> Default: empty
Path to an SSL certificate used by the server to accept HTTPS requests.
Example: `WOODPECKER_SERVER_CERT=/path/to/cert.pem`
### `WOODPECKER_SERVER_KEY`
> Default: empty
Path to an SSL certificate key used by the server to accept HTTPS requests.
Example: `WOODPECKER_SERVER_KEY=/path/to/key.pem`
### `WOODPECKER_CUSTOM_CSS_FILE`
> Default: empty
File path for the server to serve a custom .CSS file, used for customizing the UI.
Can be used for showing banner messages, logos, or environment-specific hints (a.k.a. white-labeling).
The file must be UTF-8 encoded, to ensure all special characters are preserved.
Example: `WOODPECKER_CUSTOM_CSS_FILE=/usr/local/www/woodpecker.css`
### `WOODPECKER_CUSTOM_JS_FILE`
> Default: empty
File path for the server to serve a custom .JS file, used for customizing the UI.
Can be used for showing banner messages, logos, or environment-specific hints (a.k.a. white-labeling).
The file must be UTF-8 encoded, to ensure all special characters are preserved.
Example: `WOODPECKER_CUSTOM_JS_FILE=/usr/local/www/woodpecker.js`
### `WOODPECKER_LETS_ENCRYPT`
> Default: `false`
Automatically generates an SSL certificate using Let's Encrypt, and configures the server to accept HTTPS requests.
### `WOODPECKER_GRPC_ADDR`
> Default: `:9000`
Configures the gRPC listener port.
### `WOODPECKER_GRPC_SECRET`
> Default: `secret`
Configures the gRPC JWT secret.
### `WOODPECKER_GRPC_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_GRPC_SECRET` from the specified filepath.
### `WOODPECKER_METRICS_SERVER_ADDR`
> Default: empty
Configures an unprotected metrics endpoint. An empty value disables the metrics endpoint completely.
Example: `:9001`
### `WOODPECKER_ADMIN`
> Default: empty
Comma-separated list of admin accounts.
Example: `WOODPECKER_ADMIN=user1,user2`
### `WOODPECKER_ORGS`
> Default: empty
Comma-separated list of approved organizations.
Example: `org1,org2`
### `WOODPECKER_REPO_OWNERS`
> Default: empty
Comma-separated list of syncable repo owners. ???
Example: `user1,user2`
### `WOODPECKER_OPEN`
> Default: `false`
Enable to allow user registration.
### `WOODPECKER_DOCS`
> Default: `https://woodpecker-ci.org/`
Link to documentation in the UI.
### `WOODPECKER_AUTHENTICATE_PUBLIC_REPOS`
> Default: `false`
Always use authentication to clone repositories even if they are public. Needed if the forge requires to always authenticate as used by many companies.
### `WOODPECKER_DEFAULT_CANCEL_PREVIOUS_PIPELINE_EVENTS`
> Default: `pull_request, push`
List of event names that will be canceled when a new pipeline for the same context (tag, branch) is created.
### `WOODPECKER_DEFAULT_CLONE_IMAGE`
> Default is defined in [shared/constant/constant.go](https://github.com/woodpecker-ci/woodpecker/blob/master/shared/constant/constant.go)
The default docker image to be used when cloning the repo
### `WOODPECKER_DEFAULT_PIPELINE_TIMEOUT`
> 60 (minutes)
The default time for a repo in minutes before a pipeline gets killed
### `WOODPECKER_MAX_PIPELINE_TIMEOUT`
> 120 (minutes)
The maximum time in minutes you can set in the repo settings before a pipeline gets killed
### `WOODPECKER_SESSION_EXPIRES`
> Default: `72h`
Configures the session expiration time.
### `WOODPECKER_ESCALATE`
> Defaults are defined in [shared/constant/constant.go](https://github.com/woodpecker-ci/woodpecker/blob/master/shared/constant/constant.go)
Docker images to run in privileged mode. Only change if you are sure what you do!
<!--
### `WOODPECKER_VOLUME`
> Default: empty
Comma-separated list of Docker volumes that are mounted into every pipeline step.
Example: `WOODPECKER_VOLUME=/path/on/host:/path/in/container:rw`|
-->
### `WOODPECKER_DOCKER_CONFIG`
> Default: empty
Configures a specific private registry config for all pipelines.
Example: `WOODPECKER_DOCKER_CONFIG=/home/user/.docker/config.json`
<!--
### `WOODPECKER_ENVIRONMENT`
> Default: empty
TODO
### `WOODPECKER_NETWORK`
> Default: empty
Comma-separated list of Docker networks that are attached to every pipeline step.
Example: `WOODPECKER_NETWORK=network1,network2`
-->
### `WOODPECKER_AGENT_SECRET`
> Default: empty
A shared secret used by server and agents to authenticate communication. A secret can be generated by `openssl rand -hex 32`.
### `WOODPECKER_AGENT_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_AGENT_SECRET` from the specified filepath
### `WOODPECKER_KEEPALIVE_MIN_TIME`
> Default: empty
Server-side enforcement policy on the minimum amount of time a client should wait before sending a keepalive ping.
Example: `WOODPECKER_KEEPALIVE_MIN_TIME=10s`
### `WOODPECKER_DATABASE_DRIVER`
> Default: `sqlite3`
The database driver name. Possible values are `sqlite3`, `mysql` or `postgres`.
### `WOODPECKER_DATABASE_DATASOURCE`
> Default: `woodpecker.sqlite`
The database connection string. The default value is the path of the embedded SQLite database file.
Example:
```bash
# MySQL
# https://github.com/go-sql-driver/mysql#dsn-data-source-name
WOODPECKER_DATABASE_DATASOURCE=root:password@tcp(1.2.3.4:3306)/woodpecker?parseTime=true
# PostgreSQL
# https://www.postgresql.org/docs/current/static/libpq-connect.html#LIBPQ-CONNSTRING
WOODPECKER_DATABASE_DATASOURCE=postgres://root:password@1.2.3.4:5432/woodpecker?sslmode=disable
```
### `WOODPECKER_DATABASE_DATASOURCE_FILE`
> Default: empty
Read the value for `WOODPECKER_DATABASE_DATASOURCE` from the specified filepath
### `WOODPECKER_ENCRYPTION_KEY`
> Default: empty
Encryption key used to encrypt secrets in DB. See [secrets encryption](./40-encryption.md)
### `WOODPECKER_ENCRYPTION_KEY_FILE`
> Default: empty
Read the value for `WOODPECKER_ENCRYPTION_KEY` from the specified filepath
### `WOODPECKER_ENCRYPTION_TINK_KEYSET_FILE`
> Default: empty
Filepath to encryption keyset used to encrypt secrets in DB. See [secrets encryption](./40-encryption.md)
### `WOODPECKER_ENCRYPTION_DISABLE`
> Default: empty
Boolean flag to decrypt secrets in DB and disable server encryption. See [secrets encryption](./40-encryption.md)
### `WOODPECKER_PROMETHEUS_AUTH_TOKEN`
> Default: empty
Token to secure the Prometheus metrics endpoint.
Must be set to enable the endpoint.
### `WOODPECKER_PROMETHEUS_AUTH_TOKEN_FILE`
> Default: empty
Read the value for `WOODPECKER_PROMETHEUS_AUTH_TOKEN` from the specified filepath
### `WOODPECKER_STATUS_CONTEXT`
> Default: `ci/woodpecker`
Context prefix Woodpecker will use to publish status messages to SCM. You probably will only need to change it if you run multiple Woodpecker instances for a single repository.
### `WOODPECKER_STATUS_CONTEXT_FORMAT`
> Default: `{{ .context }}/{{ .event }}/{{ .workflow }}`
Template for the status messages published to forges, uses [Go templates](https://pkg.go.dev/text/template) as template language.
Supported variables:
- `context`: Woodpecker's context (see `WOODPECKER_STATUS_CONTEXT`)
- `event`: the event which started the pipeline
- `workflow`: the workflow's name
- `owner`: the repo's owner
- `repo`: the repo's name
---
### `WOODPECKER_LIMIT_MEM_SWAP`
> Default: `0`
The maximum amount of memory a single pipeline container is allowed to swap to disk, configured in bytes. There is no limit if `0`.
### `WOODPECKER_LIMIT_MEM`
> Default: `0`
The maximum amount of memory a single pipeline container can use, configured in bytes. There is no limit if `0`.
### `WOODPECKER_LIMIT_SHM_SIZE`
> Default: `0`
The maximum amount of memory of `/dev/shm` allowed in bytes. There is no limit if `0`.
### `WOODPECKER_LIMIT_CPU_QUOTA`
> Default: `0`
The number of microseconds per CPU period that the container is limited to before throttled. There is no limit if `0`.
### `WOODPECKER_LIMIT_CPU_SHARES`
> Default: `0`
The relative weight vs. other containers.
### `WOODPECKER_LIMIT_CPU_SET`
> Default: empty
Comma-separated list to limit the specific CPUs or cores a pipeline container can use.
Example: `WOODPECKER_LIMIT_CPU_SET=1,2`
### `WOODPECKER_CONFIG_SERVICE_ENDPOINT`
> Default: ``
Specify a configuration service endpoint, see [Configuration Extension](./100-external-configuration-api.md)
### `WOODPECKER_FORGE_TIMEOUT`
> Default: 3sec
Specify how many seconds before timeout when fetching the Woodpecker configuration from a Forge
### `WOODPECKER_ROOT_URL`
> Default: ``
Server URL path prefix (used for statics loading when having a url path prefix), should start with `/`
Example: `WOODPECKER_ROOT_URL=/woodpecker`
---
### `WOODPECKER_GITHUB_...`
See [GitHub configuration](forges/github/#configuration)
### `WOODPECKER_GITEA_...`
See [Gitea configuration](forges/gitea/#configuration)
### `WOODPECKER_BITBUCKET_...`
See [Bitbucket configuration](forges/bitbucket/#configuration)
### `WOODPECKER_GITLAB_...`
See [Gitlab configuration](forges/gitlab/#configuration)

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# External Configuration API
To provide additional management and preprocessing capabilities for pipeline configurations Woodpecker supports an HTTP API which can be enabled to call an external config service.
Before the run or restart of any pipeline Woodpecker will make a POST request to an external HTTP API sending the current repository, build information and all current config files retrieved from the repository. The external API can then send back new pipeline configurations that will be used immediately or respond with `HTTP 204` to tell the system to use the existing configuration.
Every request sent by Woodpecker is signed using a [http-signature](https://datatracker.ietf.org/doc/html/draft-cavage-http-signatures) by a private key (ed25519) generated on the first start of the Woodpecker server. You can get the public key for the verification of the http-signature from `http(s)://your-woodpecker-server/api/signature/public-key`.
A simplistic example configuration service can be found here: [https://github.com/woodpecker-ci/example-config-service](https://github.com/woodpecker-ci/example-config-service)
## Config
```shell
# Server
# ...
WOODPECKER_CONFIG_SERVICE_ENDPOINT=https://example.com/ciconfig
```
### Example request made by Woodpecker
```json
{
"repo": {
"id": 100,
"uid": "",
"user_id": 0,
"namespace": "",
"name": "woodpecker-testpipe",
"slug": "",
"scm": "git",
"git_http_url": "",
"git_ssh_url": "",
"link": "",
"default_branch": "",
"private": true,
"visibility": "private",
"active": true,
"config": "",
"trusted": false,
"protected": false,
"ignore_forks": false,
"ignore_pulls": false,
"cancel_pulls": false,
"timeout": 60,
"counter": 0,
"synced": 0,
"created": 0,
"updated": 0,
"version": 0
},
"build": {
"author": "myUser",
"author_avatar": "https://myforge.com/avatars/d6b3f7787a685fcdf2a44e2c685c7e03",
"author_email": "my@email.com",
"branch": "master",
"changed_files": [
"somefilename.txt"
],
"commit": "2fff90f8d288a4640e90f05049fe30e61a14fd50",
"created_at": 0,
"deploy_to": "",
"enqueued_at": 0,
"error": "",
"event": "push",
"finished_at": 0,
"id": 0,
"link_url": "https://myforge.com/myUser/woodpecker-testpipe/commit/2fff90f8d288a4640e90f05049fe30e61a14fd50",
"message": "test old config\n",
"number": 0,
"parent": 0,
"ref": "refs/heads/master",
"refspec": "",
"clone_url": "",
"reviewed_at": 0,
"reviewed_by": "",
"sender": "myUser",
"signed": false,
"started_at": 0,
"status": "",
"timestamp": 1645962783,
"title": "",
"updated_at": 0,
"verified": false
},
"configs": [
{
"name": ".woodpecker.yml",
"data": "steps:\n backend:\n image: alpine\n commands:\n - echo \"Hello there from Repo (.woodpecker.yml)\"\n"
}
]
}
```
### Example response structure
```json
{
"configs": [
{
"name": "central-override",
"data": "steps:\n backend:\n image: alpine\n commands:\n - echo \"Hello there from ConfigAPI\"\n"
}
]
}
```

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# Overview
## Supported features
| Feature | [GitHub](github/) | [Gitea / Forgejo](gitea/) | [Gitlab](gitlab/) | [Bitbucket](bitbucket/) |
| --- | :---: | :---: | :---: | :---: |
| Event: Push | :white_check_mark: | :white_check_mark: | :white_check_mark: | :white_check_mark: |
| Event: Tag | :white_check_mark: | :white_check_mark: | :white_check_mark: | :x: |
| Event: Pull-Request | :white_check_mark: | :white_check_mark: | :white_check_mark: | :white_check_mark: |
| Event: Deploy | :white_check_mark: | :x: | :x: | :x: |
| [Multiple workflows](../../20-usage/25-workflows.md) | :white_check_mark: | :white_check_mark: | :white_check_mark: | :x: |
| [when.path filter](../../20-usage/20-pipeline-syntax.md#path) | :white_check_mark: | :white_check_mark:¹ | :white_check_mark: | :x: |
¹ for pull requests at least Gitea version 1.17 is required

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# GitHub
Woodpecker comes with built-in support for GitHub and GitHub Enterprise. To enable GitHub you should configure the Woodpecker server using the following environment variables:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_GITHUB=true
+ - WOODPECKER_GITHUB_CLIENT=${WOODPECKER_GITHUB_CLIENT}
+ - WOODPECKER_GITHUB_SECRET=${WOODPECKER_GITHUB_SECRET}
woodpecker-agent:
[...]
```
## Registration
Register your application with GitHub to create your client id and secret. It is very important that the authorization callback URL matches your http(s) scheme and hostname exactly with `<scheme>://<host>/authorize` as the path.
Please use this screenshot for reference:
![github oauth setup](github_oauth.png)
## Configuration
This is a full list of configuration options. Please note that many of these options use default configuration values that should work for the majority of installations.
### `WOODPECKER_GITHUB`
> Default: `false`
Enables the GitHub driver.
### `WOODPECKER_GITHUB_URL`
> Default: `https://github.com`
Configures the GitHub server address.
### `WOODPECKER_GITHUB_CLIENT`
> Default: empty
Configures the GitHub OAuth client id. This is used to authorize access.
### `WOODPECKER_GITHUB_CLIENT_FILE`
> Default: empty
Read the value for `WOODPECKER_GITHUB_CLIENT` from the specified filepath
### `WOODPECKER_GITHUB_SECRET`
> Default: empty
Configures the GitHub OAuth client secret. This is used to authorize access.
### `WOODPECKER_GITHUB_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_GITHUB_SECRET` from the specified filepath
### `WOODPECKER_GITHUB_MERGE_REF`
> Default: `true`
TODO
### `WOODPECKER_GITHUB_SKIP_VERIFY`
> Default: `false`
Configure if SSL verification should be skipped.

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# Gitea / Forgejo
Woodpecker comes with built-in support for Gitea and the "soft" fork Forgejo. To enable Gitea you should configure the Woodpecker container using the following environment variables:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_GITEA=true
+ - WOODPECKER_GITEA_URL=${WOODPECKER_GITEA_URL}
+ - WOODPECKER_GITEA_CLIENT=${WOODPECKER_GITEA_CLIENT}
+ - WOODPECKER_GITEA_SECRET=${WOODPECKER_GITEA_SECRET}
woodpecker-agent:
[...]
```
## Registration
Register your application with Gitea to create your client id and secret. You can find the OAuth applications settings of Gitea at `https://gitea.<host>/user/settings/`. It is very import the authorization callback URL matches your http(s) scheme and hostname exactly with `https://<host>/authorize` as the path.
If you run the Woodpecker CI server on the same host as the Gitea instance, you might also need to allow local connections in Gitea, since version `v1.16`. Otherwise webhooks will fail. Add the following lines to your Gitea configuration (usually at `/etc/gitea/conf/app.ini`).
```ini
...
[webhook]
ALLOWED_HOST_LIST=external,loopback
```
For reference see [Configuration Cheat Sheet](https://docs.gitea.io/en-us/config-cheat-sheet/#webhook-webhook).
![gitea oauth setup](gitea_oauth.gif)
## Configuration
This is a full list of configuration options. Please note that many of these options use default configuration values that should work for the majority of installations.
### `WOODPECKER_GITEA`
> Default: `false`
Enables the Gitea driver.
### `WOODPECKER_GITEA_URL`
> Default: `https://try.gitea.io`
Configures the Gitea server address.
### `WOODPECKER_GITEA_CLIENT`
> Default: empty
Configures the Gitea OAuth client id. This is used to authorize access.
### `WOODPECKER_GITEA_CLIENT_FILE`
> Default: empty
Read the value for `WOODPECKER_GITEA_CLIENT` from the specified filepath
### `WOODPECKER_GITEA_SECRET`
> Default: empty
Configures the Gitea OAuth client secret. This is used to authorize access.
### `WOODPECKER_GITEA_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_GITEA_SECRET` from the specified filepath
### `WOODPECKER_GITEA_SKIP_VERIFY`
> Default: `false`
Configure if SSL verification should be skipped.

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# GitLab
Woodpecker comes with built-in support for the GitLab version 8.2 and higher. To enable GitLab you should configure the Woodpecker container using the following environment variables:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
+ - WOODPECKER_GITLAB=true
+ - WOODPECKER_GITLAB_URL=http://gitlab.mycompany.com
+ - WOODPECKER_GITLAB_CLIENT=95c0282573633eb25e82
+ - WOODPECKER_GITLAB_SECRET=30f5064039e6b359e075
woodpecker-agent:
[...]
```
## Registration
You must register your application with GitLab in order to generate a Client and Secret. Navigate to your account settings and choose Applications from the menu, and click New Application.
Please use `http://woodpecker.mycompany.com/authorize` as the Authorization callback URL. Grant `api` scope to the application.
If you run the Woodpecker CI server on the same host as the GitLab instance, you might also need to allow local connections in GitLab, otherwise API requests will fail. In GitLab, navigate to the Admin dashboard, then go to `Settings > Network > Outbound requests` and enable `Allow requests to the local network from web hooks and services`.
## Configuration
This is a full list of configuration options. Please note that many of these options use default configuration values that should work for the majority of installations.
### `WOODPECKER_GITLAB`
> Default: `false`
Enables the GitLab driver.
### `WOODPECKER_GITLAB_URL`
> Default: `https://gitlab.com`
Configures the GitLab server address.
### `WOODPECKER_GITLAB_CLIENT`
> Default: empty
Configures the GitLab OAuth client id. This is used to authorize access.
### `WOODPECKER_GITLAB_CLIENT_FILE`
> Default: empty
Read the value for `WOODPECKER_GITLAB_CLIENT` from the specified filepath
### `WOODPECKER_GITLAB_SECRET`
> Default: empty
Configures the GitLab OAuth client secret. This is used to authorize access.
### `WOODPECKER_GITLAB_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_GITLAB_SECRET` from the specified filepath
### `WOODPECKER_GITLAB_SKIP_VERIFY`
> Default: `false`
Configure if SSL verification should be skipped.

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# Bitbucket
Woodpecker comes with built-in support for Bitbucket Cloud. To enable Bitbucket Cloud you should configure the Woodpecker container using the following environment variables:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
- [...]
+ - WOODPECKER_BITBUCKET=true
+ - WOODPECKER_BITBUCKET_CLIENT=95c0282573633eb25e82
+ - WOODPECKER_BITBUCKET_SECRET=30f5064039e6b359e075
woodpecker-agent:
[...]
```
## Registration
You must register your application with Bitbucket in order to generate a client and secret. Navigate to your account settings and choose OAuth from the menu, and click Add Consumer.
Please use the Authorization callback URL:
```nohighlight
http://woodpecker.mycompany.com/authorize
```
Please also be sure to check the following permissions:
```nohighlight
Account:Email
Account:Read
Team Membership:Read
Repositories:Read
Webhooks:Read and Write
```
## Configuration
This is a full list of configuration options. Please note that many of these options use default configuration values that should work for the majority of installations.
### `WOODPECKER_BITBUCKET`
> Default: `false`
Enables the Bitbucket driver.
### `WOODPECKER_BITBUCKET_CLIENT`
> Default: empty
Configures the Bitbucket OAuth client id. This is used to authorize access.
### `WOODPECKER_BITBUCKET_CLIENT_FILE`
> Default: empty
Read the value for `WOODPECKER_BITBUCKET_CLIENT` from the specified filepath
### `WOODPECKER_BITBUCKET_SECRET`
> Default: empty
Configures the Bitbucket OAuth client secret. This is used to authorize access.
### `WOODPECKER_BITBUCKET_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_BITBUCKET_SECRET` from the specified filepath
## Missing Features
Merge requests are not currently supported. We are interested in patches to include this functionality.
If you are interested in contributing to Woodpecker and submitting a patch please **contact us** via [Discord](https://discord.gg/fcMQqSMXJy) or [Matrix](https://matrix.to/#/#WoodpeckerCI-Develop:obermui.de).

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label: 'Forges'
collapsible: true
collapsed: true

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# Agent configuration
Agents are configured by the command line or environment variables. At the minimum you need the following information:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-agent:
[...]
volumes:
- woodpecker-agent-config:/etc/woodpecker
environment:
+ - WOODPECKER_SERVER=localhost:9000
+ - WOODPECKER_AGENT_SECRET="your-shared-secret-goes-here"
```
The following are automatically set and can be overridden:
- WOODPECKER_HOSTNAME if not set, becomes the OS' hostname
- WOODPECKER_MAX_WORKFLOWS if not set, defaults to 1
## Processes per agent
By default the maximum processes that are run per agent is 1. If required you can add `WOODPECKER_MAX_WORKFLOWS` to increase your parallel processing on a per-agent basis.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-agent:
[...]
environment:
- WOODPECKER_SERVER=localhost:9000
- WOODPECKER_AGENT_SECRET="your-shared-secret-goes-here"
+ - WOODPECKER_MAX_WORKFLOWS=4
```
## Agent registration on server
When the agent starts, it connects to the server using token from `WOODPECKER_AGENT_SECRET`. The server identifies agent and, if such agent doesn't exist, register him.
There are two types of token, so would be two ways of agent registration.
### Using system token
_System token_ is a token that is used system-wide, e. g. when you set the same token in `WOODPECKER_AGENT_SECRET` on both the server and the agents.
In that case registration process would be as follows:
1. First time Agent communicates with Server using system token;
2. Server registers Agent in DB, generates ID and sends this ID back to Agent;
3. Agent stores ID in a file configured by `WOODPECKER_AGENT_CONFIG_FILE`.
At the following startups Agent uses system token **and** ID.
### Using agent token
_Agent token_ is a token that is used by only particular agent. This unique token also configured by `WOODPECKER_AGENT_SECRET`, but only on the agent side.
In that case you probably doesn't configure `WOODPECKER_AGENT_SECRET` on the server side. The registration process would be as follows:
1. Administrator registers Agent manually in _Server settings - Agents - Add agent_;
![Agent creation](./new-agent-registration.png)
![Agent created](./new-agent-created.png)
2. The token generated in previous step have to be provided to Agent in `WOODPECKER_AGENT_SECRET`;
3. First time Agent communicates with Server using agent token;
4. Server identifies Agent by the token and fills additional information provided by Agent;
![Agent connected](./new-agent-connected.png)
At following startups Agent uses own token only.
## All agent configuration options
Here is the full list of configuration options and their default variables.
### `WOODPECKER_SERVER`
> Default: `localhost:9000`
Configures gRPC address of the server.
### `WOODPECKER_USERNAME`
> Default: `x-oauth-basic`
The gRPC username.
### `WOODPECKER_AGENT_SECRET`
> Default: empty
A shared secret used by server and agents to authenticate communication. A secret can be generated by `openssl rand -hex 32`.
### `WOODPECKER_AGENT_SECRET_FILE`
> Default: empty
Read the value for `WOODPECKER_AGENT_SECRET` from the specified filepath, e.g. `/etc/woodpecker/agent-secret.conf`
### `WOODPECKER_LOG_LEVEL`
> Default: empty
Configures the logging level. Possible values are `trace`, `debug`, `info`, `warn`, `error`, `fatal`, `panic`, `disabled` and empty.
### `WOODPECKER_DEBUG_PRETTY`
> Default: `false`
Enable pretty-printed debug output.
### `WOODPECKER_DEBUG_NOCOLOR`
> Default: `true`
Disable colored debug output.
### `WOODPECKER_HOSTNAME`
> Default: empty
Configures the agent hostname.
### `WOODPECKER_AGENT_CONFIG_FILE`
> Default: `/etc/woodpecker/agent.conf`
Configures the path of the agent config file.
### `WOODPECKER_MAX_WORKFLOWS`
> Default: `1`
Configures the number of parallel workflows.
### `WOODPECKER_FILTER_LABELS`
> Default: empty
Configures labels to filter pipeline pick up. Use a list of key-value pairs like `key=value,second-key=*`. `*` can be used as a wildcard. By default agents provide three additional labels `platform=os/arch`, `hostname=my-agent` and `repo=*` which can be overwritten if needed. To learn how labels work check out the [pipeline syntax page](../20-usage/20-pipeline-syntax.md#labels).
### `WOODPECKER_HEALTHCHECK`
> Default: `true`
Enable healthcheck endpoint.
### `WOODPECKER_HEALTHCHECK_ADDR`
> Default: `:3000`
Configures healthcheck endpoint address.
### `WOODPECKER_KEEPALIVE_TIME`
> Default: empty
After a duration of this time of no activity, the agent pings the server to check if the transport is still alive.
### `WOODPECKER_KEEPALIVE_TIMEOUT`
> Default: `20s`
After pinging for a keepalive check, the agent waits for a duration of this time before closing the connection if no activity.
### `WOODPECKER_GRPC_SECURE`
> Default: `false`
Configures if the connection to `WOODPECKER_SERVER` should be made using a secure transport.
### `WOODPECKER_GRPC_VERIFY`
> Default: `true`
Configures if the gRPC server certificate should be verified, only valid when `WOODPECKER_GRPC_SECURE` is `true`.
### `WOODPECKER_BACKEND`
> Default: `auto-detect`
Configures the backend engine to run pipelines on. Possible values are `auto-detect`, `docker`, `local`, `ssh` or `kubernetes`.
### `WOODPECKER_BACKEND_DOCKER_*`
See [Docker backend configuration](./22-backends/10-docker.md#configuration)
### `WOODPECKER_BACKEND_SSH_*`
See [SSH backend configuration](./22-backends/30-ssh.md#configuration)
### `WOODPECKER_BACKEND_K8S_*`
See [Kubernetes backend configuration](./22-backends/40-kubernetes.md#configuration)
## Advanced Settings
:::warning
Only change these If you know what you do.
:::
### `WOODPECKER_CONNECT_RETRY_COUNT`
> Default: `5`
Configures number of times agent retries to connect to the server.
### `WOODPECKER_CONNECT_RETRY_DELAY`
> Default: `2s`
Configures delay between agent connection retries to the server.

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# Docker backend
This is the original backend used with Woodpecker. The docker backend executes each step inside a separate container started on the agent.
## Configuration
### `WOODPECKER_BACKEND_DOCKER_NETWORK`
> Default: empty
Set to the name of an existing network which will be attached to all your pipeline containers (steps). Please be careful as this allows the containers of different pipelines to access each other!
### `WOODPECKER_BACKEND_DOCKER_ENABLE_IPV6`
> Default: `false`
Enable IPv6 for the networks used by pipeline containers (steps). Make sure you configured your docker daemon to support IPv6.
### `WOODPECKER_BACKEND_DOCKER_VOLUMES`
> Default: empty
List of default volumes separated by comma to be mounted to all pipeline containers (steps). For example to use custom CA
certificates installed on host and host timezone use `/etc/ssl/certs:/etc/ssl/certs:ro,/etc/timezone:/etc/timezone`.
## Docker credentials
Woodpecker supports [Docker credentials](https://github.com/docker/docker-credential-helpers) to securely store registry credentials. Install your corresponding credential helper and configure it in your Docker config file passed via [`WOODPECKER_DOCKER_CONFIG`](../10-server-config.md#woodpecker_docker_config).
To add your credential helper to the Woodpecker server container you could use the following code to build a custom image:
```dockerfile
FROM woodpeckerci/woodpecker-server:latest-alpine
RUN apk add -U --no-cache docker-credential-ecr-login
```
## Podman support
While the agent was developed with Docker/Moby, Podman can also be used by setting the environment variable `DOCKER_SOCK` to point to the Podman socket. In order to work without workarounds, Podman 4.0 (or above) is required.
## Image Cleanup
The agent **will not** automatically remove images from the host. This task should be managed by the host system. For example, you can use a cron job to periodically do clean-up tasks for the CI runner.
:::danger
The following commands **are destructive** and **irreversible** it is highly recommended that you test these commands on your system before running them in production via a cron job or other automation.
:::
### Remove all unused images
```sh
docker image rm $(docker images --filter "dangling=true" -q --no-trunc)
```
### Remove Woodpecker Volumes
```sh
docker volume rm $(docker volume ls --filter name=^wp_* --filter dangling=true -q)
```

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# Local backend
:::danger
The local backend will execute the pipelines on the local system without any isolation of any kind.
:::
:::note
This backend is still pretty new and can not be treated as stable. Its
implementation and configuration can change at any time. Binary releases of the
agent will be available with the release of the [1.0.0
milestone](https://github.com/woodpecker-ci/woodpecker/milestone/4), so for now
you must compile the agent by yourself, to get the local backend functionality.
<!-- TODO: remove the self-compile note after the release of the agent -->
:::
Since the code runs directly in the same context as the agent (same user, same
filesystem), a malicious pipeline could be used to access the agent
configuration especially the `WOODPECKER_AGENT_SECRET` variable.
It is recommended to use this backend only for private setup where the code and
pipeline can be trusted. You shouldn't use it for a public facing CI where
anyone can submit code or add new repositories. You shouldn't execute the agent
as a privileged user (root).
The local backend will use a random directory in $TMPDIR to store the cloned
code and execute commands.
In order to use this backend, you need to download (or build) the
[binary](https://github.com/woodpecker-ci/woodpecker/releases/latest) of the
agent, configure it and run it on the host machine.
## Configuration
### Server
Enable connection to the server from the outside of the docker environment by
exposing the port 9000:
```yaml
# docker-compose.yml for the server
version: '3'
services:
woodpecker-server:
[...]
ports:
- 9000:9000
[...]
environment:
- [...]
```
### Agent
You can use the `.env` file to store environmental variables for configuration.
At the minimum you need the following information:
```ini
# .env for the agent
WOODPECKER_AGENT_SECRET=replace_with_your_server_secret
WOODPECKER_SERVER=replace_with_your_server_address:9000
```
## Running the agent
Start the agent from the directory with the `.env` file:
`woodpecker-agent`
:::note
When using the `local` backend, the
[plugin-git](https://github.com/woodpecker-ci/plugin-git) binary must be in
your `$PATH` for the default clone step to work. If not, you can still write a
manual clone step.
:::
## Further configuration
### Specify the shell to be used for a pipeline step
The `image` entry is used to specify the shell, such as Bash or Fish, that is
used to run the commands.
```yaml
# .woodpecker.yml
steps:
build:
image: bash
commands:
[...]
```
### Using labels to filter tasks
You can use the [agent configuration
options](../15-agent-config.md#woodpecker_filter_labels) and the
[pipeline syntax](../../20-usage/20-pipeline-syntax.md#labels) to only run certain
pipelines on certain agents. Example:
Define a `label` `type` with value `exec` for a particular agent:
```ini
# .env for the agent
WOODPECKER_FILTER_LABELS=type=exec
```
Then, use this `label` `type` with value `exec` in the pipeline definition, to
only run on this agent:
```yaml
# .woodpecker.yml
labels:
type: exec
steps:
[...]
```

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# SSH backend
:::danger
The SSH backend will execute the pipelines using SSH on a remote system without any isolation of any kind.
:::
:::note
This backend is still pretty new and can not be treated as stable. Its implementation and configuration can change at any time.
:::
Since the code run directly on the SSH machine, a malicious pipeline could access and edit files the SSH user has access to and execute every command the remote user is allowed to use. Always restrict the user as far as possible!
It is recommended to use this backend only for private setups where the code and pipelines can be trusted. You shouldn't use it for a public facing CI where anyone can submit code or add new repositories.
The backend will use a random directory in $TMPDIR to store the clone code and execute commands.
## Configuration
### `WOODPECKER_BACKEND_SSH_ADDRESS`
> Default: empty
The SSH host to run steps with `ssh` backend.
### `WOODPECKER_BACKEND_SSH_USER`
> Default: empty
The SSH user to run steps with `ssh` backend.
### `WOODPECKER_BACKEND_SSH_KEY`
> Default: empty
Path to the private SSH key to run steps with `ssh` backend.
### `WOODPECKER_BACKEND_SSH_KEY_PASSWORD`
> Default: empty
The password for the private key to run steps with `ssh` backend.
### `WOODPECKER_BACKEND_SSH_PASSWORD`
> Default empty
The SSH password to run steps with `ssh` backend.

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# Kubernetes backend
:::caution
Kubernetes support is still experimental and not all pipeline features are fully supported yet.
Check the [current state](https://github.com/woodpecker-ci/woodpecker/issues/1513)
:::
The kubernetes backend executes each step inside a newly created pod. A PVC is also created for the lifetime of the pipeline, for transferring files between steps.
## Configuration
### `WOODPECKER_BACKEND_K8S_NAMESPACE`
> Default: `woodpecker`
The namespace to create worker pods in.
### `WOODPECKER_BACKEND_K8S_VOLUME_SIZE`
> Default: `10G`
The volume size of the pipeline volume.
### `WOODPECKER_BACKEND_K8S_STORAGE_CLASS`
> Default: empty
The storage class to use for the pipeline volume.
### `WOODPECKER_BACKEND_K8S_STORAGE_RWX`
> Default: `true`
Determines if `RWX` should be used for the pipeline volume's [access mode](https://kubernetes.io/docs/concepts/storage/persistent-volumes/#access-modes). If false, `RWO` is used instead.
### `WOODPECKER_BACKEND_K8S_POD_LABELS`
> Default: empty
Additional labels to apply to worker pods. Must be a YAML object, e.g. `{"example.com/test-label":"test-value"}`.
### `WOODPECKER_BACKEND_K8S_POD_ANNOTATIONS`
> Default: empty
Additional annotations to apply to worker pods. Must be a YAML object, e.g. `{"example.com/test-annotation":"test-value"}`.
## Job specific configuration
### Resources
The kubernetes backend also allows for specifying requests and limits on a per-step basic, most commonly for CPU and memory.
See the [kubernetes documentation](https://kubernetes.io/docs/concepts/configuration/manage-resources-containers/) for more information on using resources.
### serviceAccountName
Specify the name of the ServiceAccount which the build pod will mount. This serviceAccount must be created externally.
See the [kubernetes documentation](https://kubernetes.io/docs/concepts/security/service-accounts/) for more information on using serviceAccounts.
### nodeSelector
Specify the label which is used to select the node where the job should be executed. Labels defined here will be appended to a list already containing "kubernetes.io/arch".
By default the pod will use "kubernetes.io/arch" inferred from top-level "platform" setting which is deducted from the agents' environment variable CI_SYSTEM_ARCH. To overwrite this, you need to specify this label in the nodeSelector section.
See the [kubernetes documentation](https://kubernetes.io/docs/concepts/scheduling-eviction/assign-pod-node/#nodeselector) for more information on using nodeSelector.
Example pipeline configuration:
```yaml
steps:
build:
image: golang
commands:
- go get
- go build
- go test
backend_options:
kubernetes:
serviceAccountName: 'my-service-account'
resources:
requests:
memory: 128Mi
cpu: 1000m
limits:
memory: 256Mi
nodeSelector:
beta.kubernetes.io/instance-type: p3.8xlarge
```

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label: 'Backends'
# position: 3
collapsible: true
collapsed: true

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# Databases
The default database engine of Woodpecker is an embedded SQLite database which requires zero installation or configuration. But you can replace it with a MySQL/MariaDB or Postgres database.
## Configure SQLite
By default Woodpecker uses a SQLite database stored under `/var/lib/woodpecker/`. You can mount a [data volume](https://docs.docker.com/storage/volumes/#create-and-manage-volumes) to persist the SQLite database.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
+ volumes:
+ - woodpecker-server-data:/var/lib/woodpecker/
```
## Configure MySQL/MariaDB
The below example demonstrates MySQL database configuration. See the official driver [documentation](https://github.com/go-sql-driver/mysql#dsn-data-source-name) for configuration options and examples.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
+ - WOODPECKER_DATABASE_DRIVER=mysql
+ - WOODPECKER_DATABASE_DATASOURCE=root:password@tcp(1.2.3.4:3306)/woodpecker?parseTime=true
```
## Configure Postgres
The below example demonstrates Postgres database configuration. See the official driver [documentation](https://www.postgresql.org/docs/current/static/libpq-connect.html#LIBPQ-CONNSTRING) for configuration options and examples.
Please use Postgres versions equal or higher than **11**.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
environment:
+ - WOODPECKER_DATABASE_DRIVER=postgres
+ - WOODPECKER_DATABASE_DATASOURCE=postgres://root:password@1.2.3.4:5432/postgres?sslmode=disable
```
## Database Creation
Woodpecker does not create your database automatically. If you are using the MySQL or Postgres driver you will need to manually create your database using `CREATE DATABASE`
## Database Migration
Woodpecker automatically handles database migration, including the initial creation of tables and indexes. New versions of Woodpecker will automatically upgrade the database unless otherwise specified in the release notes.
## Database Backups
Woodpecker does not perform database backups. This should be handled by separate third party tools provided by your database vendor of choice.
## Database Archiving
Woodpecker does not perform data archival; it considered out-of-scope for the project. Woodpecker is rather conservative with the amount of data it stores, however, you should expect the database logs to grow the size of your database considerably.

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# Secrets encryption
By default, Woodpecker does not encrypt secrets in its database. You can enable encryption
using simple AES key or more advanced [Google TINK](https://developers.google.com/tink) encryption.
## Common
### Enabling secrets encryption
To enable secrets encryption and encrypt all existing secrets in database set
`WOODPECKER_ENCRYPTION_KEY`, `WOODPECKER_ENCRYPTION_KEY_FILE` or `WOODPECKER_ENCRYPTION_TINK_KEYSET_PATH` environment
variable depending on encryption method of your choice.
After encryption is enabled you will be unable to start Woodpecker server without providing valid encryption key!
### Disabling encryption and decrypting all secrets
To disable secrets encryption and decrypt database you need to start server with valid
`WOODPECKER_ENCRYPTION_KEY` or `WOODPECKER_ENCRYPTION_TINK_KEYSET_FILE` environment variable set depending on
enabled encryption method, and `WOODPECKER_ENCRYPTION_DISABLE` set to true.
After secrets was decrypted server will proceed working in unencrypted mode. You will not need to use "disable encryption"
variable or encryption keys to start server anymore.
## AES
Simple AES encryption.
### Configuration
You can manage encryption on server using these environment variables:
- `WOODPECKER_ENCRYPTION_KEY` - encryption key
- `WOODPECKER_ENCRYPTION_KEY_FILE` - file to read encryption key from
- `WOODPECKER_ENCRYPTION_DISABLE` - disable encryption flag used to decrypt all data on server
## TINK
TINK uses AEAD encryption instead of simple AES and supports key rotation.
### Configuration
You can manage encryption on server using these two environment variables:
- `WOODPECKER_ENCRYPTION_TINK_KEYSET_FILE` - keyset filepath
- `WOODPECKER_ENCRYPTION_DISABLE` - disable encryption flag used to decrypt all data on server
### Encryption keys
You will need plaintext AEAD-compatible Google TINK keyset to encrypt your data.
To generate it and then rotate keys if needed, install `tinkey`([installation guide](https://developers.google.com/tink/install-tinkey))
Keyset contains one or more keys, used to encrypt or decrypt your data, and primary key ID, used to determine which key
to use while encrypting new data.
Keyset generation example:
```shell
tinkey create-keyset --key-template AES256_GCM --out-format json --out keyset.json
```
### Key rotation
Use `tinkey` to rotate encryption keys in your existing keyset:
```shell
tinkey rotate-keyset --in keyset_v1.json --out keyset_v2.json --key-template AES256_GCM
```
Then you just need to replace server keyset file with the new one. At the moment server detects new encryption
keyset it will re-encrypt all existing secrets with the new key, so you will be unable to start server with previous
keyset anymore.

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# SSL
Woodpecker supports two ways of enabling SSL communication. You can either use Let's Encrypt to get automated SSL support with
renewal or provide your own SSL certificates.
## Let's Encrypt
Woodpecker supports automated SSL configuration and updates using Let's Encrypt.
You can enable Let's Encrypt by making the following modifications to your server configuration:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
ports:
+ - 80:80
+ - 443:443
- 9000:9000
environment:
- [...]
+ - WOODPECKER_LETS_ENCRYPT=true
+ - WOODPECKER_LETS_ENCRYPT_EMAIL=ssl-admin@example.tld
```
Note that Woodpecker uses the hostname from the `WOODPECKER_HOST` environment variable when requesting certificates. For example, if `WOODPECKER_HOST=https://example.com` is set the certificate is requested for `example.com`. To receive emails before certificates expire Let's Encrypt requires an email address. You can set it with `WOODPECKER_LETS_ENCRYPT_EMAIL=ssl-admin@example.tld`.
The SSL certificates are stored in `$HOME/.local/share/certmagic` for binary versions of Woodpecker and in `/var/lib/woodpecker` for the Container versions of it. You can set a custom path by setting `XDG_DATA_HOME` if required.
> Once enabled you can visit the Woodpecker UI with http and the HTTPS address. HTTP will be redirected to HTTPS.
### Certificate Cache
Woodpecker writes the certificates to `/var/lib/woodpecker/certmagic/`.
### Certificate Updates
Woodpecker uses the official Go acme library which will handle certificate upgrades. There should be no addition configuration or management required.
## SSL with own certificates
Woodpecker supports SSL configuration by mounting certificates into your container.
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
ports:
+ - 80:80
+ - 443:443
- 9000:9000
volumes:
+ - /etc/certs/woodpecker.example.com/server.crt:/etc/certs/woodpecker.example.com/server.crt
+ - /etc/certs/woodpecker.example.com/server.key:/etc/certs/woodpecker.example.com/server.key
environment:
- [...]
+ - WOODPECKER_SERVER_CERT=/etc/certs/woodpecker.example.com/server.crt
+ - WOODPECKER_SERVER_KEY=/etc/certs/woodpecker.example.com/server.key
```
Update your configuration to expose the following ports:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
ports:
+ - 80:80
+ - 443:443
- 9000:9000
```
Update your configuration to mount your certificate and key:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
ports:
- 80:80
- 443:443
- 9000:9000
volumes:
+ - /etc/certs/woodpecker.example.com/server.crt:/etc/certs/woodpecker.example.com/server.crt
+ - /etc/certs/woodpecker.example.com/server.key:/etc/certs/woodpecker.example.com/server.key
```
Update your configuration to provide the paths of your certificate and key:
```diff
# docker-compose.yml
version: '3'
services:
woodpecker-server:
[...]
ports:
- 80:80
- 443:443
- 9000:9000
volumes:
- /etc/certs/woodpecker.example.com/server.crt:/etc/certs/woodpecker.example.com/server.crt
- /etc/certs/woodpecker.example.com/server.key:/etc/certs/woodpecker.example.com/server.key
environment:
+ - WOODPECKER_SERVER_CERT=/etc/certs/woodpecker.example.com/server.crt
+ - WOODPECKER_SERVER_KEY=/etc/certs/woodpecker.example.com/server.key
```
### Certificate Chain
The most common problem encountered is providing a certificate file without the intermediate chain.
> LoadX509KeyPair reads and parses a public/private key pair from a pair of files. The files must contain PEM encoded data. The certificate file may contain intermediate certificates following the leaf certificate to form a certificate chain.
### Certificate Errors
SSL support is provided using the [ListenAndServeTLS](https://golang.org/pkg/net/http/#ListenAndServeTLS) function from the Go standard library. If you receive certificate errors or warnings please examine your configuration more closely.

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# Proxy
## Apache
This guide provides a brief overview for installing Woodpecker server behind the Apache2 web-server. This is an example configuration:
```nohighlight
ProxyPreserveHost On
RequestHeader set X-Forwarded-Proto "https"
ProxyPass / http://127.0.0.1:8000/
ProxyPassReverse / http://127.0.0.1:8000/
```
You must have the below Apache modules installed.
```nohighlight
a2enmod proxy
a2enmod proxy_http
```
You must configure Apache to set `X-Forwarded-Proto` when using https.
```diff
ProxyPreserveHost On
+RequestHeader set X-Forwarded-Proto "https"
ProxyPass / http://127.0.0.1:8000/
ProxyPassReverse / http://127.0.0.1:8000/
```
## Nginx
This guide provides a basic overview for installing Woodpecker server behind the Nginx web-server. For more advanced configuration options please consult the official Nginx [documentation](https://www.nginx.com/resources/admin-guide/).
Example configuration:
```nginx
server {
listen 80;
server_name woodpecker.example.com;
location / {
proxy_set_header X-Forwarded-For $remote_addr;
proxy_set_header X-Forwarded-Proto $scheme;
proxy_set_header Host $http_host;
proxy_pass http://127.0.0.1:8000;
proxy_redirect off;
proxy_http_version 1.1;
proxy_buffering off;
chunked_transfer_encoding off;
}
}
```
You must configure the proxy to set `X-Forwarded` proxy headers:
```diff
server {
listen 80;
server_name woodpecker.example.com;
location / {
+ proxy_set_header X-Forwarded-For $remote_addr;
+ proxy_set_header X-Forwarded-Proto $scheme;
proxy_pass http://127.0.0.1:8000;
proxy_redirect off;
proxy_http_version 1.1;
proxy_buffering off;
chunked_transfer_encoding off;
}
}
```
## Caddy
This guide provides a brief overview for installing Woodpecker server behind the [Caddy web-server](https://caddyserver.com/). This is an example caddyfile proxy configuration:
```caddy
# expose WebUI and API
woodpecker.example.com {
reverse_proxy woodpecker-server:8000
}
# expose gRPC
woodpeckeragent.example.com {
reverse_proxy h2c://woodpecker-server:9000
}
```
:::note
Above configuration shows how to create reverse-proxies for web and agent communication. If your agent uses SSL do not forget to enable [WOODPECKER_GRPC_SECURE](./15-agent-config.md#woodpecker_grpc_secure).
:::
## Ngrok
After installing [ngrok](https://ngrok.com/), open a new console and run:
```bash
ngrok http 8000
```
Set `WOODPECKER_HOST` (for example in `docker-compose.yml`) to the ngrok URL (usually xxx.ngrok.io) and start the server.
## Traefik
To install the Woodpecker server behind a [Traefik](https://traefik.io/) load balancer, you must expose both the `http` and the `gRPC` ports. Here is a comprehensive example, considering you are running Traefik with docker swarm and want to do TLS termination and automatic redirection from http to https.
```yml
version: '3.8'
services:
server:
image: woodpeckerci/woodpecker-server:latest
environment:
- WOODPECKER_OPEN=true
- WOODPECKER_ADMIN=your_admin_user
# other settings ...
networks:
- dmz # externally defined network, so that traefik can connect to the server
volumes:
- woodpecker-server-data:/var/lib/woodpecker/
deploy:
labels:
- traefik.enable=true
# web server
- traefik.http.services.woodpecker-service.loadbalancer.server.port=8000
- traefik.http.routers.woodpecker-secure.rule=Host(`cd.yourdomain.com`)
- traefik.http.routers.woodpecker-secure.tls=true
- traefik.http.routers.woodpecker-secure.tls.certresolver=letsencrypt
- traefik.http.routers.woodpecker-secure.entrypoints=websecure
- traefik.http.routers.woodpecker-secure.service=woodpecker-service
- traefik.http.routers.woodpecker.rule=Host(`cd.yourdomain.com`)
- traefik.http.routers.woodpecker.entrypoints=web
- traefik.http.routers.woodpecker.service=woodpecker-service
- traefik.http.middlewares.woodpecker-redirect.redirectscheme.scheme=https
- traefik.http.middlewares.woodpecker-redirect.redirectscheme.permanent=true
- traefik.http.routers.woodpecker.middlewares=woodpecker-redirect@docker
# gRPC service
- traefik.http.services.woodpecker-grpc.loadbalancer.server.port=9000
- traefik.http.services.woodpecker-grpc.loadbalancer.server.scheme=h2c
- traefik.http.routers.woodpecker-grpc-secure.rule=Host(`woodpecker-grpc.yourdomain.com`)
- traefik.http.routers.woodpecker-grpc-secure.tls=true
- traefik.http.routers.woodpecker-grpc-secure.tls.certresolver=letsencrypt
- traefik.http.routers.woodpecker-grpc-secure.entrypoints=websecure
- traefik.http.routers.woodpecker-grpc-secure.service=woodpecker-grpc
- traefik.http.routers.woodpecker-grpc.rule=Host(`woodpecker-grpc.yourdomain.com`)
- traefik.http.routers.woodpecker-grpc.entrypoints=web
- traefik.http.routers.woodpecker-grpc.service=woodpecker-grpc
- traefik.http.middlewares.woodpecker-grpc-redirect.redirectscheme.scheme=https
- traefik.http.middlewares.woodpecker-grpc-redirect.redirectscheme.permanent=true
- traefik.http.routers.woodpecker-grpc.middlewares=woodpecker-grpc-redirect@docker
volumes:
woodpecker-server-data:
driver: local
networks:
dmz:
external: true
```
You should pass `WOODPECKER_GRPC_SECURE=true` and `WOODPECKER_GRPC_VERIFY=true` to your agent when using this configuration.

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# Kubernetes
Woodpecker does support Kubernetes as a backend. See the [Kubernetes backend configuration](./22-backends/40-kubernetes.md#configuration) for backend-specific options.
:::caution
Kubernetes support is still experimental and not all pipeline features are fully supported yet.
Check the [current state](https://github.com/woodpecker-ci/woodpecker/issues/9#issuecomment-483979755)
:::
## Deploy with HELM
Deploying Woodpecker with [HELM](https://helm.sh/docs/) is the recommended way.
Have a look at the `values.yaml` config files for all available settings.
### Preparation
```shell
# create agent secret
kubectl create secret generic woodpecker-secret \
--namespace <namespace> \
--from-literal=WOODPECKER_AGENT_SECRET=$(openssl rand -hex 32)
# add credentials for your forge
kubectl create secret generic woodpecker-github-client \
--namespace <namespace> \
--from-literal=WOODPECKER_GITHUB_CLIENT=xxxxxxxx
kubectl create secret generic woodpecker-github-secret \
--namespace <namespace> \
--from-literal=WOODPECKER_GITHUB_SECRET=xxxxxxxx
# add helm repo
helm repo add woodpecker https://woodpecker-ci.org/
```
### Woodpecker server
```shell
# Install
helm upgrade --install woodpecker-server --namespace <namespace> woodpecker/woodpecker-server
# Uninstall
helm delete woodpecker-server
```
### Woodpecker agent
```shell
# Install
helm upgrade --install woodpecker-agent --namespace <namespace> woodpecker/woodpecker-agent
# Uninstall
helm delete woodpecker-agent
```
## Volumes
To mount volumes a persistent volume (PV) and persistent volume claim (PVC) are needed on the cluster which can be referenced in steps via the `volume:` option.
Assuming a PVC named "woodpecker-cache" exists, it can be referenced as follows in a step:
```yaml
steps:
"Restore Cache":
image: meltwater/drone-cache
volumes:
- woodpecker-cache:/woodpecker/src/cache
settings:
mount:
- "woodpecker-cache"
[...]
```

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# Prometheus
Woodpecker is compatible with Prometheus and exposes a `/metrics` endpoint. Please note that access to the metrics endpoint is restricted and requires an authorization token with administrative privileges.
```yaml
global:
scrape_interval: 60s
scrape_configs:
- job_name: 'woodpecker'
bearer_token: eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9...
static_configs:
- targets: ['woodpecker.domain.com']
```
## Authorization
An administrator will need to generate a user API token and configure in the Prometheus configuration file as a bearer token. Please see the following example:
```diff
global:
scrape_interval: 60s
scrape_configs:
- job_name: 'woodpecker'
+ bearer_token: eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9...
static_configs:
- targets: ['woodpecker.domain.com']
```
## Unauthenticated Access
Alternatively, the unprotected `/metrics` endpoint might be exposed on the internal port. (Port is configurable via the `WOODPECKER_METRICS_SERVER_ADDR` environment variable, e.g. `:9001`.)
## Metric Reference
List of Prometheus metrics specific to Woodpecker:
```
# HELP woodpecker_pipeline_count Pipeline count.
# TYPE woodpecker_pipeline_count counter
woodpecker_build_count{branch="master",pipeline="total",repo="woodpecker-ci/woodpecker",status="success"} 3
woodpecker_build_count{branch="mkdocs",pipeline="total",repo="woodpecker-ci/woodpecker",status="success"} 3
# HELP woodpecker_pipeline_time Build time.
# TYPE woodpecker_pipeline_time gauge
woodpecker_build_time{branch="master",pipeline="total",repo="woodpecker-ci/woodpecker",status="success"} 116
woodpecker_build_time{branch="mkdocs",pipeline="total",repo="woodpecker-ci/woodpecker",status="success"} 155
# HELP woodpecker_pipeline_total_count Total number of builds.
# TYPE woodpecker_pipeline_total_count gauge
woodpecker_build_total_count 1025
# HELP woodpecker_pending_steps Total number of pending pipeline steps.
# TYPE woodpecker_pending_steps gauge
woodpecker_pending_steps 0
# HELP woodpecker_repo_count Total number of repos.
# TYPE woodpecker_repo_count gauge
woodpecker_repo_count 9
# HELP woodpecker_running_steps Total number of running pipeline steps.
# TYPE woodpecker_running_steps gauge
woodpecker_running_steps 0
# HELP woodpecker_user_count Total number of users.
# TYPE woodpecker_user_count gauge
woodpecker_user_count 1
# HELP woodpecker_waiting_steps Total number of pipeline waiting on deps.
# TYPE woodpecker_waiting_steps gauge
woodpecker_waiting_steps 0
# HELP woodpecker_worker_count Total number of workers.
# TYPE woodpecker_worker_count gauge
woodpecker_worker_count 4
```

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label: 'Administration'
# position: 3
collapsible: true
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# CLI
# NAME
woodpecker-cli - command line utility
# SYNOPSIS
woodpecker-cli
```
[--log-level]=[value]
[--server|-s]=[value]
[--token|-t]=[value]
```
**Usage**:
```
woodpecker-cli [GLOBAL OPTIONS] command [COMMAND OPTIONS] [ARGUMENTS...]
```
# GLOBAL OPTIONS
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
# COMMANDS
## pipeline, build
manage pipelines
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ls
show pipeline history
**--branch**="": branch filter
**--event**="": event filter
**--format**="": format output (default: Pipeline #{{ .Number }} 
Status: {{ .Status }}
Event: {{ .Event }}
Commit: {{ .Commit }}
Branch: {{ .Branch }}
Ref: {{ .Ref }}
Author: {{ .Author }} {{ if .Email }}<{{.Email}}>{{ end }}
Message: {{ .Message }}
)
**--limit**="": limit the list size (default: 0)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--status**="": status filter
**--token, -t**="": server auth token
### last
show latest pipeline details
**--branch**="": branch name (default: master)
**--format**="": format output (default: Number: {{ .Number }}
Status: {{ .Status }}
Event: {{ .Event }}
Commit: {{ .Commit }}
Branch: {{ .Branch }}
Ref: {{ .Ref }}
Message: {{ .Message }}
Author: {{ .Author }}
)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### logs
show pipeline logs
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### info
show pipeline details
**--format**="": format output (default: Number: {{ .Number }}
Status: {{ .Status }}
Event: {{ .Event }}
Commit: {{ .Commit }}
Branch: {{ .Branch }}
Ref: {{ .Ref }}
Message: {{ .Message }}
Author: {{ .Author }}
)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### stop
stop a pipeline
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### start
start a pipeline
**--log-level**="": set logging level (default: info)
**--param, -p**="": custom parameters to be injected into the step environment. Format: KEY=value
**--server, -s**="": server address
**--token, -t**="": server auth token
### approve
approve a pipeline
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### decline
decline a pipeline
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### queue
show pipeline queue
**--format**="": format output (default: {{ .FullName }} #{{ .Number }} 
Status: {{ .Status }}
Event: {{ .Event }}
Commit: {{ .Commit }}
Branch: {{ .Branch }}
Ref: {{ .Ref }}
Author: {{ .Author }} {{ if .Email }}<{{.Email}}>{{ end }}
Message: {{ .Message }}
)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ps
show pipeline steps
**--format**="": format output (default: Step #{{ .PID }} 
Step: {{ .Name }}
State: {{ .State }}
)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### create
create new pipeline
**--branch**="": branch to create pipeline from
**--format**="": format output (default: Pipeline #{{ .Number }} 
Status: {{ .Status }}
Event: {{ .Event }}
Commit: {{ .Commit }}
Branch: {{ .Branch }}
Ref: {{ .Ref }}
Author: {{ .Author }} {{ if .Email }}<{{.Email}}>{{ end }}
Message: {{ .Message }}
)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
**--var**="": key=value
## log
manage logs
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### purge
purge a log
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
## deploy
deploy code
**--branch**="": branch filter (default: master)
**--event**="": event filter (default: push)
**--format**="": format output (default: Number: {{ .Number }}
Status: {{ .Status }}
Commit: {{ .Commit }}
Branch: {{ .Branch }}
Ref: {{ .Ref }}
Message: {{ .Message }}
Author: {{ .Author }}
Target: {{ .Deploy }}
)
**--log-level**="": set logging level (default: info)
**--param, -p**="": custom parameters to be injected into the step environment. Format: KEY=value
**--server, -s**="": server address
**--status**="": status filter (default: success)
**--token, -t**="": server auth token
## exec
execute a local pipeline
**--backend-docker-ipv6**: backend docker enable IPV6
**--backend-docker-network**="": backend docker network
**--backend-docker-volumes**="": backend docker volumes (comma separated)
**--backend-engine**="": backend engine to run pipelines on (default: auto-detect)
**--backend-k8s-namespace**="": backend k8s namespace (default: woodpecker)
**--backend-k8s-pod-annotations**="": backend k8s additional worker pod annotations
**--backend-k8s-pod-labels**="": backend k8s additional worker pod labels
**--backend-k8s-storage-class**="": backend k8s storage class
**--backend-k8s-storage-rwx**: backend k8s storage access mode, should ReadWriteMany (RWX) instead of ReadWriteOnce (RWO) be used? (default: true)
**--backend-k8s-volume-size**="": backend k8s volume size (default 10G) (default: 10G)
**--backend-ssh-address**="": backend ssh address
**--backend-ssh-key**="": backend ssh key file
**--backend-ssh-key-password**="": backend ssh key password
**--backend-ssh-password**="": backend ssh password
**--backend-ssh-user**="": backend ssh user
**--commit-author-avatar**="":
**--commit-author-email**="":
**--commit-author-name**="":
**--commit-branch**="":
**--commit-message**="":
**--commit-ref**="":
**--commit-refspec**="":
**--commit-sha**="":
**--env**="":
**--forge-type**="":
**--forge-url**="":
**--local**: run from local directory
**--log-level**="": set logging level (default: info)
**--netrc-machine**="":
**--netrc-password**="":
**--netrc-username**="":
**--network**="": external networks
**--pipeline-created**="": (default: 0)
**--pipeline-event**="": (default: manual)
**--pipeline-finished**="": (default: 0)
**--pipeline-link**="":
**--pipeline-number**="": (default: 0)
**--pipeline-parent**="": (default: 0)
**--pipeline-started**="": (default: 0)
**--pipeline-status**="":
**--pipeline-target**="":
**--prev-commit-author-avatar**="":
**--prev-commit-author-email**="":
**--prev-commit-author-name**="":
**--prev-commit-branch**="":
**--prev-commit-message**="":
**--prev-commit-ref**="":
**--prev-commit-refspec**="":
**--prev-commit-sha**="":
**--prev-pipeline-created**="": (default: 0)
**--prev-pipeline-event**="":
**--prev-pipeline-finished**="": (default: 0)
**--prev-pipeline-link**="":
**--prev-pipeline-number**="": (default: 0)
**--prev-pipeline-started**="": (default: 0)
**--prev-pipeline-status**="":
**--privileged**="": privileged plugins (default: "plugins/docker", "plugins/gcr", "plugins/ecr", "woodpeckerci/plugin-docker-buildx")
**--repo**="": full repo name
**--repo-clone-url**="":
**--repo-link**="":
**--repo-private**="":
**--repo-remote-id**="":
**--repo-trusted**:
**--server, -s**="": server address
**--step-name**="": (default: 0)
**--system-link**="": (default: https://github.com/woodpecker-ci/woodpecker)
**--system-name**="": (default: woodpecker)
**--system-platform**="":
**--timeout**="": pipeline timeout (default: 0s)
**--token, -t**="": server auth token
**--volumes**="": pipeline volumes
**--workflow-name**="": (default: 0)
**--workflow-number**="": (default: 0)
**--workspace-base**="": (default: /woodpecker)
**--workspace-path**="": (default: src)
## info
show information about the current user
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
## registry
manage registries
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### add
adds a registry
**--hostname**="": registry hostname (default: docker.io)
**--log-level**="": set logging level (default: info)
**--password**="": registry password
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
**--username**="": registry username
### rm
remove a registry
**--hostname**="": registry hostname (default: docker.io)
**--log-level**="": set logging level (default: info)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
### update
update a registry
**--hostname**="": registry hostname (default: docker.io)
**--log-level**="": set logging level (default: info)
**--password**="": registry password
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
**--username**="": registry username
### info
display registry info
**--hostname**="": registry hostname (default: docker.io)
**--log-level**="": set logging level (default: info)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ls
list registries
**--log-level**="": set logging level (default: info)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
## secret
manage secrets
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### add
adds a secret
**--event**="": secret limited to these events
**--global**: global secret
**--image**="": secret limited to these images
**--log-level**="": set logging level (default: info)
**--name**="": secret name
**--organization**="": organization name (e.g. octocat)
**--plugins-only**: secret limited to plugins
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
**--value**="": secret value
### rm
remove a secret
**--global**: global secret
**--log-level**="": set logging level (default: info)
**--name**="": secret name
**--organization**="": organization name (e.g. octocat)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
### update
update a secret
**--event**="": secret limited to these events
**--global**: global secret
**--image**="": secret limited to these images
**--log-level**="": set logging level (default: info)
**--name**="": secret name
**--organization**="": organization name (e.g. octocat)
**--plugins-only**: secret limited to plugins
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
**--value**="": secret value
### info
display secret info
**--global**: global secret
**--log-level**="": set logging level (default: info)
**--name**="": secret name
**--organization**="": organization name (e.g. octocat)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ls
list secrets
**--global**: global secret
**--log-level**="": set logging level (default: info)
**--organization**="": organization name (e.g. octocat)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
## repo
manage repositories
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ls
list all repos
**--format**="": format output (default: {{ .FullName }} (id: {{ .ID }}))
**--log-level**="": set logging level (default: info)
**--org**="": filter by organization
**--server, -s**="": server address
**--token, -t**="": server auth token
### info
show repository details
**--format**="": format output (default: Owner: {{ .Owner }}
Repo: {{ .Name }}
Link: {{ .Link }}
Config path: {{ .Config }}
Visibility: {{ .Visibility }}
Private: {{ .IsSCMPrivate }}
Trusted: {{ .IsTrusted }}
Gated: {{ .IsGated }}
Clone url: {{ .Clone }}
Allow pull-requests: {{ .AllowPullRequests }}
)
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### add
add a repository
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### update
update a repository
**--config**="": repository configuration path (e.g. .woodpecker.yml)
**--gated**: repository is gated
**--log-level**="": set logging level (default: info)
**--pipeline-counter**="": repository starting pipeline number (default: 0)
**--server, -s**="": server address
**--timeout**="": repository timeout (default: 0s)
**--token, -t**="": server auth token
**--trusted**: repository is trusted
**--unsafe**: validate updating the pipeline-counter is unsafe
**--visibility**="": repository visibility
### rm
remove a repository
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### repair
repair repository webhooks
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### chown
assume ownership of a repository
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### sync
synchronize the repository list
**--format**="": format output (default: {{ .FullName }} (id: {{ .ID }}))
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
## user
manage users
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ls
list all users
**--format**="": format output (default: {{ .Login }})
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### info
show user details
**--format**="": format output (default: User: {{ .Login }}
Email: {{ .Email }})
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### add
adds a user
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### rm
remove a user
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
## lint
lint a pipeline configuration file
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
## log-level
get the logging level of the server, or set it with [level]
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
## cron
manage cron jobs
**--log-level**="": set logging level (default: info)
**--server, -s**="": server address
**--token, -t**="": server auth token
### add
add a cron job
**--branch**="": cron branch
**--log-level**="": set logging level (default: info)
**--name**="": cron name
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--schedule**="": cron schedule
**--server, -s**="": server address
**--token, -t**="": server auth token
### rm
remove a cron job
**--id**="": cron id
**--log-level**="": set logging level (default: info)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
### update
update a cron job
**--branch**="": cron branch
**--id**="": cron id
**--log-level**="": set logging level (default: info)
**--name**="": cron name
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--schedule**="": cron schedule
**--server, -s**="": server address
**--token, -t**="": server auth token
### info
display info about a cron job
**--id**="": cron id
**--log-level**="": set logging level (default: info)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token
### ls
list cron jobs
**--log-level**="": set logging level (default: info)
**--repository, --repo**="": repository id or full-name (e.g. 134 or octocat/hello-world)
**--server, -s**="": server address
**--token, -t**="": server auth token

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# Downloads
## Which version of Woodpecker should I use?
Woodpecker is having two different kinds of releases: **stable** and **next**.
To find out more about the differences between the two releases, please read the [FAQ](/faq).
## Binaries & DEB, RPM
[Latest release](https://github.com/woodpecker-ci/woodpecker/releases/latest)
## Docker images
Image variants:
* The `latest` image is the latest stable release
* The `vX.X.X` images are stable releases
* The `vX.X` images are based on the latest patch version of a specific minor release (see [Semver](https://semver.org/))
* The `next` images are based on the current master branch and should not be used for production environments
``` bash
# server
docker pull woodpeckerci/woodpecker-server:latest
docker pull woodpeckerci/woodpecker-server:latest-alpine
# agent
docker pull woodpeckerci/woodpecker-agent:latest
docker pull woodpeckerci/woodpecker-agent:latest-alpine
# cli
docker pull woodpeckerci/woodpecker-cli:latest
docker pull woodpeckerci/woodpecker-cli:latest-alpine
```

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# Migrations
Some versions need some changes to the server configuration or the pipeline configuration files.
## next
No breaking changes
## 1.0.0
- The signature used to verify extensions calls (like those used for the [config-extension](./30-administration/100-external-configuration-api.md)) done by the Woodpecker server switched from using a shared-secret HMac to an ed25519 key-pair. Read more about it at the [config-extensions](./30-administration/100-external-configuration-api.md) documentation.
- Refactored support of old agent filter labels and expression. Learn how to use the new [filter](./20-usage/20-pipeline-syntax.md#labels)
- Renamed step environment variable `CI_SYSTEM_ARCH` to `CI_SYSTEM_PLATFORM`. Same applies for the cli exec variable.
- Renamed environment variables `CI_BUILD_*` and `CI_PREV_BUILD_*` to `CI_PIPELINE_*` and `CI_PREV_PIPELINE_*`, old ones are still available but deprecated
- Renamed environment variables `CI_JOB_*` to `CI_STEP_*`, old ones are still available but deprecated
- Renamed environment variable `CI_REPO_REMOTE` to `CI_REPO_CLONE_URL`, old is still available but deprecated
- Renamed environment variable `*_LINK` to `*_URL`, old ones are still available but deprecated
- Renamed API endpoints for pipelines (`<owner>/<repo>/builds/<buildId>` -> `<owner>/<repo>/pipelines/<pipelineId>`), old ones are still available but deprecated
- Updated Prometheus gauge `build_*` to `pipeline_*`
- Updated Prometheus gauge `*_job_*` to `*_step_*`
- Renamed config env `WOODPECKER_MAX_PROCS` to `WOODPECKER_MAX_WORKFLOWS` (still available as fallback)
- The pipelines are now also read from `.yaml` files, the new default order is `.woodpecker/*.yml` and `.woodpecker/*.yaml` (without any prioritization) -> `.woodpecker.yml` -> `.woodpecker.yaml`
- Dropped support for [Coding](https://coding.net/), [Gogs](https://gogs.io) and Bitbucket Server (Stash).
- `/api/queue/resume` & `/api/queue/pause` endpoint methods were changed from `GET` to `POST`
- rename `pipeline:` key in your workflow config to `steps:`
- If you want to migrate old logs to the new format, watch the error messages on start. If there are none we are good to go, else you have to plan a migration that can take hours. Set `WOODPECKER_MIGRATIONS_ALLOW_LONG` to true and let it run.
- Using `repo-id` in favor of `owner/repo` combination
- :warning: The api endpoints `/api/repos/{owner}/{repo}/...` were replaced by new endpoints using the repos id `/api/repos/{repo-id}`
- To find the id of a repo use the `/api/repos/lookup/{repo-full-name-with-slashes}` endpoint.
- The existing badge endpoint `/api/badges/{owner}/{repo}` will still work, but whenever possible try to use the new endpoint using the `repo-id`: `/api/badges/{repo-id}`.
- The UI urls for a repository changed from `/repos/{owner}/{repo}/...` to `/repos/{repo-id}/...`. You will be redirected automatically when using the old url.
- The woodpecker-go api-client is now using the `repo-id` instead of `owner/repo` for all functions
- Using `org-id` in favour of `owner` name
- :warning: The api endpoints `/api/orgs/{owner}/...` were replaced by new endpoints using the orgs id `/api/repos/{org-id}`
- To find the id of orgs use the `/api/orgs/lookup/{org_full_name}` endpoint.
- The UI urls for a organization changed from `/org/{owner}/...` to `/orgs/{org-id}/...`. You will be redirected automatically when using the old url.
- The woodpecker-go api-client is now using the `org-id` instead of `org name` for all functions
## 0.15.0
- Default value for custom pipeline path is now empty / un-set which results in following resolution:
`.woodpecker/*.yml` -> `.woodpecker.yml` -> `.drone.yml`
Only projects created after updating will have an empty value by default. Existing projects will stick to the current pipeline path which is `.drone.yml` in most cases.
Read more about it at the [Project Settings](./20-usage/71-project-settings.md#pipeline-path)
- From version `0.15.0` ongoing there will be three types of docker images: `latest`, `next` and `x.x.x` with an alpine variant for each type like `latest-alpine`.
If you used `latest` before to try pre-release features you should switch to `next` after this release.
- Dropped support for `DRONE_*` environment variables. The according `WOODPECKER_*` variables must be used instead.
Additionally some alternative namings have been removed to simplify maintenance:
- `WOODPECKER_AGENT_SECRET` replaces `WOODPECKER_SECRET`, `DRONE_SECRET`, `WOODPECKER_PASSWORD`, `DRONE_PASSWORD` and `DRONE_AGENT_SECRET`.
- `WOODPECKER_HOST` replaces `DRONE_HOST` and `DRONE_SERVER_HOST`.
- `WOODPECKER_DATABASE_DRIVER` replaces `DRONE_DATABASE_DRIVER` and `DATABASE_DRIVER`.
- `WOODPECKER_DATABASE_DATASOURCE` replaces `DRONE_DATABASE_DATASOURCE` and `DATABASE_CONFIG`.
- Dropped support for `DRONE_*` environment variables in pipeline steps. Pipeline meta-data can be accessed with `CI_*` variables.
- `CI_*` prefix replaces `DRONE_*`
- `CI` value is now `woodpecker`
- `DRONE=true` has been removed
- Some variables got deprecated and will be removed in future versions. Please migrate to the new names. Same applies for `DRONE_` of them.
- CI_ARCH => use CI_SYSTEM_ARCH
- CI_COMMIT => CI_COMMIT_SHA
- CI_TAG => CI_COMMIT_TAG
- CI_PULL_REQUEST => CI_COMMIT_PULL_REQUEST
- CI_REMOTE_URL => use CI_REPO_REMOTE
- CI_REPO_BRANCH => use CI_REPO_DEFAULT_BRANCH
- CI_PARENT_BUILD_NUMBER => use CI_BUILD_PARENT
- CI_BUILD_TARGET => use CI_BUILD_DEPLOY_TARGET
- CI_DEPLOY_TO => use CI_BUILD_DEPLOY_TARGET
- CI_COMMIT_AUTHOR_NAME => use CI_COMMIT_AUTHOR
- CI_PREV_COMMIT_AUTHOR_NAME => use CI_PREV_COMMIT_AUTHOR
- CI_SYSTEM => use CI_SYSTEM_NAME
- CI_BRANCH => use CI_COMMIT_BRANCH
- CI_SOURCE_BRANCH => use CI_COMMIT_SOURCE_BRANCH
- CI_TARGET_BRANCH => use CI_COMMIT_TARGET_BRANCH
For all available variables and their descriptions have a look at [built-in-environment-variables](./20-usage/50-environment.md#built-in-environment-variables).
- Prometheus metrics have been changed from `drone_*` to `woodpecker_*`
- Base path has moved from `/var/lib/drone` to `/var/lib/woodpecker`
- Default workspace base path has moved from `/drone` to `/woodpecker`
- Default SQLite database location has changed:
- `/var/lib/drone/drone.sqlite` -> `/var/lib/woodpecker/woodpecker.sqlite`
- `drone.sqlite` -> `woodpecker.sqlite`
- Plugin Settings moved into `settings` section:
```diff
steps:
something:
image: my/plugin
- setting1: foo
- setting2: bar
+ settings:
+ setting1: foo
+ setting2: bar
```
- `WOODPECKER_DEBUG` option for server and agent got removed in favor of `WOODPECKER_LOG_LEVEL=debug`
- Remove unused server flags which can safely be removed from your server config: `WOODPECKER_QUIC`, `WOODPECKER_GITHUB_SCOPE`, `WOODPECKER_GITHUB_GIT_USERNAME`, `WOODPECKER_GITHUB_GIT_PASSWORD`, `WOODPECKER_GITHUB_PRIVATE_MODE`, `WOODPECKER_GITEA_GIT_USERNAME`, `WOODPECKER_GITEA_GIT_PASSWORD`, `WOODPECKER_GITEA_PRIVATE_MODE`, `WOODPECKER_GITLAB_GIT_USERNAME`, `WOODPECKER_GITLAB_GIT_PASSWORD`, `WOODPECKER_GITLAB_PRIVATE_MODE`
- Dropped support for manually setting the agents platform with `WOODPECKER_PLATFORM`. The platform is now automatically detected.
- Use `WOODPECKER_STATUS_CONTEXT` instead of the deprecated options `WOODPECKER_GITHUB_CONTEXT` and `WOODPECKER_GITEA_CONTEXT`.
## 0.14.0
No breaking changes

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# Awesome Woodpecker
A curated list of awesome things related to Woodpecker-CI.
If you have some missing resources, please feel free to [open a pull-request](https://github.com/woodpecker-ci/woodpecker/edit/master/docs/docs/92-awesome.md) and add them.
## Official Resources
- [Woodpecker CI pipeline configs](https://github.com/woodpecker-ci/woodpecker/tree/master/.woodpecker) - Complex setup containing different kind of pipelines
- [Golang tests](https://github.com/woodpecker-ci/woodpecker/blob/master/.woodpecker/test.yml)
- [Typescript, eslint & Vue](https://github.com/woodpecker-ci/woodpecker/blob/master/.woodpecker/web.yml)
- [Docusaurus & publishing to GitHub Pages](https://github.com/woodpecker-ci/woodpecker/blob/master/.woodpecker/docs.yml)
- [Docker container building](https://github.com/woodpecker-ci/woodpecker/blob/master/.woodpecker/docker.yml)
- [Helm chart linting & releasing](https://github.com/woodpecker-ci/woodpecker/blob/master/.woodpecker/helm.yml)
## Projects using Woodpecker
- [Woodpecker-CI](https://github.com/woodpecker-ci/woodpecker/tree/master/.woodpecker) itself
- [All official plugins](https://github.com/woodpecker-ci?q=plugin&type=all)
- [dessalines/thumb-key](https://github.com/dessalines/thumb-key/blob/main/.woodpecker.yml) - Android Jetpack compose linting and building
## Tools
- [Convert Drone CI pipelines to Woodpecker CI](https://codeberg.org/lafriks/woodpecker-pipeline-transform)
- [Ansible NAS](https://github.com/davestephens/ansible-nas/) - a homelab Ansible playbook that can set up Woodpecker-CI and Gitea
- [picus](https://github.com/windsource/picus) - Picus connects to a Woodpecker CI server and creates an agent in the cloud when there are pending workflows.
- [Hetzner cloud](https://www.hetzner.com/cloud) based [Woodpecker compatible autoscaler](https://git.ljoonal.xyz/ljoonal/hetzner-ci-autoscaler) - Creates and destroys VPS instances based on the count of pending & running jobs.
## Templates
## Pipelines
- [Collection of pipeline examples](https://codeberg.org/Codeberg-CI/examples)
## Posts & tutorials
- [Setup Gitea with Woodpecker CI](https://containers.fan/posts/setup-gitea-with-woodpecker-ci/)
- [Step-by-step guide to modern, secure and Open-source CI setup](https://devforth.io/blog/step-by-step-guide-to-modern-secure-ci-setup/)
- [Using Woodpecker CI for my static sites](https://jan.wildeboer.net/2022/07/Woodpecker-CI-Jekyll/)
- [Woodpecker CI @ Codeberg](https://www.sarkasti.eu/articles/post/woodpecker/)
- [Deploy Docker/Compose using Woodpecker CI](https://hinty.io/vverenko/deploy-docker-compose-using-woodpecker-ci/)
- [Installing Woodpecker CI in your personal homelab](https://pwa.io/articles/installing-woodpecker-in-your-homelab/)
## Videos
- [Replace Ansible Semaphore with Woodpecker CI](https://www.youtube.com/watch?v=d610YPvCB0E)
## Plugins
We have a separate [index](/plugins) for plugins.

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# Getting started
You can develop on your local computer by following the [steps below](#preparation-for-local-development) or you can start with a fully prepared online setup using [Gitpod](https://github.com/gitpod-io/gitpod) and [Gitea](https://github.com/go-gitea/gitea).
## Gitpod
If you want to start development or updating docs as easy as possible you can use our preconfigured setup for Woodpecker using [Gitpod](https://github.com/gitpod-io/gitpod). Gitpod starts a complete development setup in the cloud containing:
- An IDE in the browser or bridged to your local VS-Code or Jetbrains
- A preconfigured [Gitea](https://github.com/go-gitea/gitea) instance as forge
- A preconfigured Woodpecker server
- A single preconfigured Woodpecker agent node
- Our docs preview server
Simply start Woodpecker in Gitpod by clicking on the following badge. You can login with `woodpecker` and `password`.
[![Open in Gitpod](https://gitpod.io/button/open-in-gitpod.svg)](https://gitpod.io/#https://github.com/woodpecker-ci/woodpecker)
## Preparation for local development
### Install Go
Install Golang (>=1.20) as described by [this guide](https://go.dev/doc/install).
### Install make
> GNU Make is a tool which controls the generation of executables and other non-source files of a program from the program's source files. (https://www.gnu.org/software/make/)
Install make on:
- Ubuntu: `apt install make` - [Docs](https://wiki.ubuntuusers.de/Makefile/)
- [Windows](https://stackoverflow.com/a/32127632/8461267)
- Mac OS: `brew install make`
### Install Node.js & pnpm
Install [Node.js (>=14)](https://nodejs.org/en/download/) if you want to build Woodpeckers UI or documentation.
For dependencies installation (node_modules) for the UI and documentation of Woodpecker the package-manager pnpm is used. The installation of pnpm is described by [this guide](https://pnpm.io/installation).
### Create a `.env` file with your development configuration
Similar to the environment variables you can set for your production setup of Woodpecker, you can create a `.env` in the root of the Woodpecker project and add any need config to it.
A common config for debugging would look like this:
```ini
WOODPECKER_OPEN=true
WOODPECKER_ADMIN=your-username
# if you want to test webhooks with an online forge like GitHub this address needs to be accessible from public server
WOODPECKER_HOST=http://your-dev-address.com
# github (sample for a forge config - see /docs/administration/forge/overview for other forges)
WOODPECKER_GITHUB=true
WOODPECKER_GITHUB_CLIENT=<redacted>
WOODPECKER_GITHUB_SECRET=<redacted>
# agent
WOODPECKER_SERVER=localhost:9000
WOODPECKER_SECRET=a-long-and-secure-password-used-for-the-local-development-system
WOODPECKER_MAX_WORKFLOWS=1
# enable if you want to develop the UI
# WOODPECKER_DEV_WWW_PROXY=http://localhost:8010
# used so you can login without using a public address
WOODPECKER_DEV_OAUTH_HOST=http://localhost:8000
# disable health-checks while debugging (normally not needed while developing)
WOODPECKER_HEALTHCHECK=false
# WOODPECKER_LOG_LEVEL=debug
# WOODPECKER_LOG_LEVEL=trace
```
### Setup O-Auth
Create an O-Auth app for your forge as describe in the [forges documentation](../30-administration/11-forges/10-overview.md). If you set `WOODPECKER_DEV_OAUTH_HOST=http://localhost:8000` you can use that address with the path as explained for the specific forge to login without the need for a public address. For example for GitHub you would use `http://localhost:8000/authorize` as authorization callback URL.
## Developing with VS-Code
You can use different methods for debugging the Woodpecker applications. One of the currently recommended ways to debug and test the Woodpecker application is using [VS-Code](https://code.visualstudio.com/) or [VS-Codium](https://vscodium.com/) (Open-Source binaries of VS-Code) as most maintainers are using it and Woodpecker already includes the needed debug configurations for it.
To launch all needed services for local development you can use "Woodpecker CI" debugging configuration that will launch UI, server and agent in debugging mode. Then open `http://localhost:8000` to access it.
As a starting guide for programming Go with VS-Code you can use this video guide:
[![Getting started with Go in VS-Code](https://img.youtube.com/vi/1MXIGYrMk80/0.jpg)](https://www.youtube.com/watch?v=1MXIGYrMk80)
### Debugging Woodpecker
The Woodpecker source code already includes launch configurations for the Woodpecker server and agent. To start debugging you can click on the debug icon in the navigation bar of VS-Code (ctrl-shift-d). On that page you will see the existing launch jobs at the top. Simply select the agent or server and click on the play button. You can set breakpoints in the source files to stop at specific points.
![Woodpecker debugging with VS-Code](./vscode-debug.png)
## Testing & linting code
To test or lint parts of Woodpecker you can run one of the following commands:
```bash
# test server code
make test-server
# test agent code
make test-agent
# test cli code
make test-cli
# test datastore / database related code like migrations of the server
make test-server-datastore
# lint go code
make lint
# lint UI code
make lint-frontend
# test UI code
make test-frontend
```
If you want to test a specific go file you can also use:
```bash
go test -race -timeout 30s github.com/woodpecker-ci/woodpecker/<path-to-the-package-or-file-to-test>
```
Or you can open the test-file inside [VS-Code](#developing-with-vs-code) and run or debug the test by clicking on the inline commands:
![Run test via VS-Code](./vscode-run-test.png)
## Run applications from terminal
If you want to run a Woodpecker applications from your terminal you can use one of the following commands from the base of the Woodpecker project. They will execute Woodpecker in a similar way as described in [debugging Woodpecker](#debugging-woodpecker) without the ability to really debug it in your editor.
```bash title="start server"
go run ./cmd/server
```
```bash title="start agent"
go run ./cmd/agent
```
```bash title="execute cli command"
go run ./cmd/cli [command]
```

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# UI Development
To develop the UI you need to install [Node.js and pnpm](./01-getting-started.md#install-nodejs--pnpm). In addition it is recommended to use VS-Code with the recommended plugin selection to get features like auto-formatting, linting and typechecking. The UI is written with [Vue 3](https://v3.vuejs.org/) as Single-Page-Application accessing the Woodpecker REST api.
## Setup
The UI code is placed in `web/`. Change to that folder in your terminal with `cd web/` and install all dependencies by running `pnpm install`. For production builds the generated UI code is integrated into the Woodpecker server by using [go-embed](https://pkg.go.dev/embed).
Testing UI changes would require us to rebuild the UI after each adjustment to the code by running `pnpm build` and restarting the Woodpecker server. To avoid this you can make use of the dev-proxy integrated into the Woodpecker server. This integrated dev-proxy will forward all none api request to a separate http-server which will only serve the UI files.
![UI Proxy architecture](./ui-proxy.svg)
Start the UI server locally with [hot-reloading](https://stackoverflow.com/a/41429055/8461267) by running: `pnpm start`. To enable the forwarding of requests to the UI server you have to enable the dev-proxy inside the Woodpecker server by adding `WOODPECKER_DEV_WWW_PROXY=http://localhost:8010` to your `.env` file.
After starting the Woodpecker server as explained in the [debugging](./01-getting-started.md#debugging) section, you should now be able to access the UI under [http://localhost:8000](http://localhost:8000).
## Tools and frameworks
The following list contains some tools and frameworks used by the Woodpecker UI. For some points we added some guidelines / hints to help you developing.
- [Vue 3](https://v3.vuejs.org/)
- use `setup` and composition api
- place (re-usable) components in `web/src/components/`
- views should have a route in `web/src/router.ts` and are located in `web/src/views/`
- [Windicss](https://windicss.org/) (similar to Tailwind)
- use Windicss classes where possible
- if needed extend the Windicss config to use new classes
- [Vite](https://vitejs.dev/) (similar to Webpack)
- [Typescript](https://www.typescriptlang.org/)
- avoid using `any` and `unknown` (the linter will prevent you from doing so anyways :wink:)
- [eslint](https://eslint.org/)
- [Volar & vue-tsc](https://github.com/johnsoncodehk/volar/) for type-checking in .vue file
- use the take-over mode of Volar as described by [this guide](https://github.com/johnsoncodehk/volar/discussions/471)
## Messages and Translations
Woodpecker uses [Vue I18n](https://vue-i18n.intlify.dev/) as translation library. New translations have to be added to `web/src/assets/locales/en.json`. The English source file will be automatically imported into [Weblate](https://translate.woodpecker-ci.org/) (the translation system used by Woodpecker) where all other languages will be translated by the community based on the English source.
You must not provide translations except English in PRs, otherwise weblate could put git into conflicts (when someone has translated in that language file and changes are not into master branch yet)
For more information about translations see [Translations](./07-translations.md).

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# Documentation
The documentation is using docusaurus as framework. You can learn more about it from its [official documentation](https://docusaurus.io/docs/).
If you only want to change some text it probably is enough if you just search for the corresponding [Markdown](https://www.markdownguide.org/basic-syntax/) file inside the `docs/docs/` folder and adjust it. If you want to change larger parts and test the rendered documentation you can run docusaurus locally. Similarly to the UI you need to install [Node.js and pnpm](./01-getting-started.md#install-nodejs--pnpm). After that you can run and build docusaurus locally by using the following commands:
```bash
cd docs/
pnpm install
# build plugins used by the docs
pnpm build:woodpecker-plugins
# start docs with hot-reloading, so you can change the docs and directly see the changes in the browser without reloading it manually
pnpm start
# or build the docs to deploy it to some static page hosting
pnpm build
```

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# Architecture
## Package architecture
![Woodpecker architecture](./woodpecker-architecture.png)
## System architecture
### main package hierarchy
| package | meaning | imports
|------------|--------------------------------------------------------------|----------
| `cmd/**` | parse command-line args & environment to stat server/cli/agent | all other
| `agent/**` | code only agent (remote worker) will need | `pipeline`, `shared`
| `cli/**` | code only cli tool does need | `pipeline`, `shared`, `woodpecker-go`
| `server/**`| code only server will need | `pipeline`, `shared`
| `shared/**`| code shared for all three main tools (go help utils) | only std and external libs
| `woodpecker-go/**` | go client for server rest api | std
### Server
| package | meaning | imports
|----------------------|-------------------------------------------------------------------------------------|----------
| `server/api/**` | handle web requests from `server/router` | `pipeline`, `../badges`, `../ccmenue`, `../logging`, `../model`, `../pubsub`, `../queue`, `../forge`, `../shared`, `../store`, `shared`, (TODO: mv `server/router/middleware/session`)
| `server/badges/**` | generate svg badges for pipelines | `../model`
| `server/ccmenu/**` | generate xml ccmenu for pipelines | `../model`
| `server/grpc/**` | gRPC server agents can connect to | `pipeline/rpc/**`, `../logging`, `../model`, `../pubsub`, `../queue`, `../forge`, `../pipeline`, `../store`
| `server/logging/**` | logging lib for gPRC server to stream logs while running | std
| `server/model/**` | structs for store (db) and api (json) | std
| `server/plugins/**` | plugins for server | `../model`, `../forge`
| `server/pipeline/**` | orchestrate pipelines | `pipeline`, `../model`, `../pubsub`, `../queue`, `../forge`, `../store`, `../plugins`
| `server/pubsub/**` | pubsub lib for server to push changes to the WebUI | std
| `server/queue/**` | queue lib for server where agents pull new pipelines from via gRPC | `server/model`
| `server/forge/**` | forge lib for server to connect and handle forge specific stuff | `shared`, `server/model`
| `server/router/**` | handle requests to REST API (and all middleware) and serve UI and WebUI config | `shared`, `../api`, `../model`, `../forge`, `../store`, `../web`
| `server/store/**` | handle database | `server/model`
| `server/shared/**` | TODO: move and split [#974](https://github.com/woodpecker-ci/woodpecker/issues/974) |
| `server/web/**` | server SPA |
* `../` = `server/`
### Agent
TODO
### CLI
TODO

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# Guides
## ORM
Woodpecker uses [Xorm](https://xorm.io/) as ORM for the database connection.
You can find its documentation at [gobook.io/read/gitea.com/xorm](https://gobook.io/read/gitea.com/xorm/manual-en-US/).
## Add a new migration
Woodpecker uses migrations to change the database schema if a database model has been changed. If for example a developer removes a property `Counter` from the model `Repo` in `server/model/` they would need to add a new migration task like the following example to a file like `server/store/datastore/migration/004_repos_drop_repo_counter.go`:
```go
package migration
import (
"xorm.io/xorm"
)
var alterTableReposDropCounter = task{
name: "alter-table-drop-counter",
fn: func(sess *xorm.Session) error {
return dropTableColumns(sess, "repos", "repo_counter")
},
}
```
:::info
Adding new properties to models will be handled automatically by the underlying [ORM](#orm) based on the [struct field tags](https://stackoverflow.com/questions/10858787/what-are-the-uses-for-tags-in-go) of the model. If you add a completely new model, you have to add it to the `allBeans` variable at `server/store/datastore/migration/migration.go` to get a new table created.
:::
:::warning
You should not use `sess.Begin()`, `sess.Commit()` or `sess.Close()` inside a migration. Session / transaction handling will be done by the underlying migration manager.
:::
To automatically execute the migration after the start of the server, the new migration needs to be added to the end of `migrationTasks` in `server/store/datastore/migration/migration.go`. After a successful execution of that transaction the server will automatically add the migration to a list, so it won't be executed again on the next start.
## Constants of official images
All official default images, are saved in [shared/constant/constant.go](https://github.com/woodpecker-ci/woodpecker/blob/master/shared/constant/constant.go) and must be pinned by an exact tag.

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# Translations
Woodpecker uses [Vue I18n](https://vue-i18n.intlify.dev/) as translation library, thus you can easily translate the web UI into your language. Therefore, copy the file `web/src/assets/locales/en.json` to the same path with your language's code and `.json` as name.
Then, translate content of this file, but only the values:
```json
{
"dont_translate": "Only translate this text"
}
```
To add support for time formatting, import the language into two files:
1. `web/src/compositions/useDate.ts`: Just add a line like `import 'dayjs/locale/en';` to the first block of `import` statements and replace `en` with your language's code.
2. `web/src/utils/timeAgo.ts`: Add a line like `import en from 'javascript-time-ago/locale/en.json';` to the other `import`-statements and replace both `en`s with your language's code. Then, add the line `TimeAgo.addDefaultLocale(en);` to the other lines of them, and replace `en` with your language's code.
Then, the web UI should be available in your language. You should open a pull request to our repository to get your changes into the next release.

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# Swagger, API Spec and Code Generation
Woodpecker uses [gin-swagger](https://github.com/swaggo/gin-swagger) middleware to automatically
generate Swagger v2 API specifications and a nice looking Web UI from the source code.
Also, the generated spec will be transformed into Markdown, using [go-swagger](https://github.com/go-swagger/go-swagger)
and then being using on the community's website documentation.
It's paramount important to keep the gin handler function's godoc documentation up-to-date,
to always have accurate API documentation.
Whenever you change, add or enhance an API endpoint, please update the godocs.
You don't require any extra tools on your machine, all Swagger tooling is automatically fetched by standard Go tools.
### Gin-Handler API documentation guideline
Here's a typical example of how annotations for Swagger documentation look like...
```text
--- server/api/user.go ---
// @Summary Get a user
// @Description Returns a user with the specified login name. Requires admin rights.
// @Router /users/{login} [get]
// @Produce json
// @Success 200 {object} User
// @Tags Users
// @Param Authorization header string true "Insert your personal access token" default(Bearer <personal access token>)
// @Param login path string true "the user's login name"
// @Param foobar query string false "optional foobar parameter"
// @Param page query int false "for response pagination, page offset number" default(1)
// @Param perPage query int false "for response pagination, max items per page" default(50)
```
```text
--- server/model/user.go ---
type User struct {
ID int64 `json:"id" xorm:"pk autoincr 'user_id'"`
// ...
} // @name User
```
These guidelines aim to have consistent wording in the swagger doc:
* first word after `@Summary` and `@Summary` are always uppercase
* `@Summary` has no . (dot) at the end of the line
* model structs shall use custom short names, to ease life for API consumers, using `@name`
* `@Success` object or array declarations shall be short, this means the actual `model.User` struct must have a `@name` annotation, so that the model can be renderend in Swagger
* when pagination is used, `@Parame page` and `@Parame perPage` must be added manually
* `@Param Authorization` is almost always present, there are just a few un-protected endpoints
There are many examples in the server/api package, which you can use a blueprint.
More enhanced information you can find here https://github.com/swaggo/swag/blob/master/README.md#declarative-comments-format
### Manual code generation
##### generate the server's Go code containing the Swagger
```shell
make generate-swagger
```
##### update the Markdown in the ./docs folder
```shell
make docs
```
##### auto-format swagger related godoc
```shell
go run github.com/swaggo/swag/cmd/swag@latest fmt -g server/api/z.go
```
**WARNING, known issue**: using swag v1.18.12 , there's a bug when running the `fmt` command,
which makes the swagger generator failing, because it can't find the models/structs/types anymore.
To fix it, please replace `// @name\tModelName` with `// @name ModelName`,
which means, replace the tab (`\t`) with a space (` `).
See https://github.com/swaggo/swag/pull/1594 == once this is merged and released, the mentioned issue is obsolete.

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# Security
We take security seriously.
If you discover a security issue, please bring it to their attention right away!
### Reporting a Vulnerability
Please **DO NOT** file a public issue, instead send your report privately to [`security @ woodpecker-ci.org`](mailto:security@woodpecker-ci.org).
Security reports are greatly appreciated, and we will publicly thank you for it. If you choose to remain anonymous, we will respect your request and keep your name confidential.

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label: 'Development'
# position: 3
collapsible: true
collapsed: true

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{
"tutorialSidebar": [
{
"type": "autogenerated",
"dirName": "."
}
]
}

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[
"1.0",
"0.15"
]