Note: GitHub Actions was available for GitHub Enterprise Server 2.22 as a limited beta. The beta has ended. GitHub Actions is now generally available in GitHub Enterprise Server 3.0 or later. For more information, see the GitHub Enterprise Server 3.0 release notes.
- For more information about upgrading to GitHub Enterprise Server 3.0 or later, see "Upgrading GitHub Enterprise Server."
- For more information about configuring GitHub Actions after you upgrade, see the documentation for GitHub Enterprise Server 3.0.
Note: GitHub-hosted runners are not currently supported on GitHub Enterprise Server. You can see more information about planned future support on the GitHub public roadmap.
About service containers
Service containers are Docker containers that provide a simple and portable way for you to host services that you might need to test or operate your application in a workflow. For example, your workflow might need to run integration tests that require access to a database and memory cache.
You can configure service containers for each job in a workflow. GitHub creates a fresh Docker container for each service configured in the workflow, and destroys the service container when the job completes. Steps in a job can communicate with all service containers that are part of the same job.
Note: If your workflows use Docker container actions or service containers, then you must use a Linux runner:
- If you are using GitHub-hosted runners, you must use an Ubuntu runner.
- If you are using self-hosted runners, you must use a Linux machine as your runner and Docker must be installed.
Communicating with service containers
You can configure jobs in a workflow to run directly on a runner machine or in a Docker container. Communication between a job and its service containers is different depending on whether a job runs directly on the runner machine or in a container.
Running jobs in a container
When you run jobs in a container, GitHub connects service containers to the job using Docker's user-defined bridge networks. For more information, see "Use bridge networks" in the Docker documentation.
Running the job and services in a container simplifies network access. You can access a service container using the label you configure in the workflow. The hostname of the service container is automatically mapped to the label name. For example, if you create a service container with the label redis
, the hostname of the service container is redis
.
You don't need to configure any ports for service containers. By default, all containers that are part of the same Docker network expose all ports to each other, and no ports are exposed outside of the Docker network.
Running jobs on the runner machine
When running jobs directly on the runner machine, you can access service containers using localhost:<port>
or 127.0.0.1:<port>
. GitHub configures the container network to enable communication from the service container to the Docker host.
When a job runs directly on a runner machine, the service running in the Docker container does not expose its ports to the job on the runner by default. You need to map ports on the service container to the Docker host. For more information, see "Mapping Docker host and service container ports."
Creating service containers
You can use the services
keyword to create service containers that are part of a job in your workflow. For more information, see jobs.<job_id>.services
.
This example creates a service called redis
in a job called container-job
. The Docker host in this example is the node:10.18-jessie
container.
name: Redis container example
on: push
jobs:
# Label of the container job
container-job:
# Containers must run in Linux based operating systems
runs-on: ubuntu-latest
# Docker Hub image that `container-job` executes in
container: node:10.18-jessie
# Service containers to run with `container-job`
services:
# Label used to access the service container
redis:
# Docker Hub image
image: redis
Mapping Docker host and service container ports
If your job runs in a Docker container, you do not need to map ports on the host or the service container. If your job runs directly on the runner machine, you'll need to map any required service container ports to ports on the host runner machine.
You can map service containers ports to the Docker host using the ports
keyword. For more information, see jobs.<job_id>.services
.
Value of ports | Description |
---|---|
8080:80 | Maps TCP port 80 in the container to port 8080 on the Docker host. |
8080:80/udp | Maps UDP port 80 in the container to port 8080 on the Docker host. |
8080/udp | Map a randomly chosen UDP port in the container to UDP port 8080 on the Docker host. |
When you map ports using the ports
keyword, GitHub uses the --publish
command to publish the container’s ports to the Docker host. For more information, see "Docker container networking" in the Docker documentation.
When you specify the Docker host port but not the container port, the container port is randomly assigned to a free port. GitHub sets the assigned container port in the service container context. For example, for a redis
service container, if you configured the Docker host port 5432, you can access the corresponding container port using the job.services.redis.ports[5432]
context. For more information, see "Contexts."
Example mapping Redis ports
This example maps the service container redis
port 6379 to the Docker host port 6379.
name: Redis Service Example
on: push
jobs:
# Label of the container job
runner-job:
# You must use a Linux environment when using service containers or container jobs
runs-on: ubuntu-latest
# Service containers to run with `runner-job`
services:
# Label used to access the service container
redis:
# Docker Hub image
image: redis
#
ports:
# Opens tcp port 6379 on the host and service container
- 6379:6379