pipeline section defines sets of steps that are executed sequentially. Each step starts a new container that includes a clone of your repository, and then runs the contents of your commands section inside it.
kind: pipeline name: default steps: - name: frontend image: node commands: - npm install - npm test - name: backend image: golang commands: - go build - go test
The commands are executed inside the root directory of your git repository. The root of your git repository, also called the workspace, is a mounted volume shared by all steps in your pipeline. This allows filesystem changes to persist between steps.
The container exit code is used to determine whether the step is passing or failing. If a step returns a non-zero exit code, the step is marked as failing. The overall pipeline status is also marked as failing, and remaining pipeline steps are skipped.
when section can be used to conditionally execute pipeline steps based on runtime information, such as branch, event and status. This section includes some basic examples. Please see the conditions documentation for more information.
Example event conditions:
kind: pipeline name: default steps: - name: build image: golang commands: - go build - go test -short - name: integration image: golang commands: - go test -v when: event: - pull_request
Example event conditions:
when: event: - push - pull-request
Example branch conditions:
when: branch: - master - feature/*
platform section defines the target operating system and architecture. This ensures the build is routed to the correct build runner. If undefined, the default
linux/amd64 architecture is assumed.
kind: pipeline name: default platform: os: linux arch: arm steps: - name: build image: golang commands: - go build - go test -short
Example linux arm:
platform: os: linux arch: arm
Example linux arm64:
platform: os: linux arch: arm64
platform: os: windows arch: amd64
Plugins are docker containers that encapsulate commands, that can be shared and re-used in your pipeline. Examples of plugins include sending Slack notifications, building and publishing Docker images, and uploading artifacts to S3.
Example Slack plugin:
kind: pipeline name: default steps: - name: build image: golang commands: - go build - go test - name: notify image: plugins/slack settings: room: general webhook: https://...
The great thing about plugins is they are just Docker containers. This means you can easily encapsulate logic, bundle in a Docker container, and share your plugin with your organization or with the broader community.
This section defines a subset of yaml configuration paramters. Please see our configuration reference for a full list.
Commands executed inside the container. You can think of the commands section as your traditional build script.
steps: - name: build 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:
#!/bin/sh set -e go build go test
The above shell script is then executed as the docker entrypoint. The below docker command is an (incomplete) example of how the script is executed:
docker run --entrypoint=build.sh golang
Runs the step in the background and immediately continues to the next step. Detached are used to define services directly in the pipeline, when you need direct control over when a service starts. Note that the exit code of a detached step is ignored, and cannot fail the pipeline.
steps: - name: start image: node detach: true commands: - npm start
Set container environment variables. You can use either an array or a dictionary. Any boolean values; true, false, yes no, need to be enclosed in quotes to ensure they are not converted to True or False by the YML parser.
steps: - name: build image: golang environment: GOOS: linux GOARCH: amd64 CGO_ENABLED: 0
Note that you cannot expand variables in the environment section. You should instead expand variables in the commands section.
steps: - name: build image: golang - environment: - PATH: $PATH:/go commands: + - export PATH=$PATH:/go - go build - go test
Specify the image to start the container from. Drone supports any valid image from any compatible Docker registry, including private registries.
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
If the image does not exist, Drone instructs Docker to pull it. If the image is private you will need to configure registry credentials.
Gives extended privileges to this container. Docker will enable access to all devices on the host as well as set some configuration in AppArmor or SELinux to allow the container nearly all the same access to the host as processes running outside containers on the host.
steps: - name: build image: golang privileged: true
Instruct Docker to check for a newer version of the image in the remote container registry. If a newer version is available it is automatically downloaded.
steps: - name: build image: golang pull: always
Mount host paths or named volumes.
steps: - name: build image: docker commands: - docker build . volumes: - name: docker path: /var/lib/docker.sock volumes: - name: docker host: path: /var/lib/docker.sock
Note that named volumes are supported. If you would like to configure a named volume please consult our detailed volume documentation.