Define container jobs (YAML)
Azure DevOps Services | Azure DevOps Server 2022 - Azure DevOps Server 2019
By default, jobs run on the host machine where the agent is installed. This is convenient and typically well-suited for projects that are just beginning to adopt Azure Pipelines. Over time, you may find that you want more control over the context where your tasks run. YAML pipelines offer container jobs for this level of control.
On Linux and Windows agents, jobs may be run on the host or in a container. (On macOS and Red Hat Enterprise Linux 6, container jobs are not available.) Containers provide isolation from the host and allow you to pin specific versions of tools and dependencies. Host jobs require less initial setup and infrastructure to maintain.
Containers offer a lightweight abstraction over the host operating system. You can select the exact versions of operating systems, tools, and dependencies that your build requires. When you specify a container in your pipeline, the agent will first fetch and start the container. Then, each step of the job will run inside the container. You can't have nested containers. Containers aren't supported when an agent is already running inside a container.
If you need fine-grained control at the individual step level, step targets allow you to choose container or host for each step.
The Azure Pipelines system requires a few things in Linux-based containers:
- Can run Node.js (which the agent provides)
- Doesn't define an
USERhas access to
groupaddand other privileges commands without
And on your agent host:
- Ensure Docker is installed
- The agent must have permission to access the Docker daemon
Be sure your container has each of these tools available. Some of the stripped-down
containers available on Docker Hub, especially those based on Alpine Linux, don't satisfy these
minimum requirements. Containers with a
ENTRYPOINT might not work, since Azure Pipelines
docker create an awaiting container and
docker exec a series of commands, which expect
the container is always up and running.
For Windows-based Linux containers, Node.js must be pre-installed.
Azure Pipelines can also run Windows Containers. Windows Server version 1803 or higher is required. Docker must be installed. Be sure your pipelines agent has permission to access the Docker daemon.
The Windows container must support running Node.js. A base Windows Nano Server container is missing dependencies required to run Node.
ubuntu-* images support running containers.
The macOS image doesn't support running containers.
A simple example:
pool: vmImage: 'ubuntu-latest' container: ubuntu:18.04 steps: - script: printenv
This tells the system to fetch the
ubuntu image tagged
Docker Hub and then start the container. When the
printenv command runs, it will happen inside the
A Windows example:
pool: vmImage: 'windows-2019' container: mcr.microsoft.com/windows/servercore:ltsc2019 steps: - script: set
Windows requires that the kernel version of the host and container match.
Since this example uses the Windows 2019 image, we will use the
2019 tag for the container.
Containers are also useful for running the same steps in multiple jobs.
In the following example, the same steps run in multiple versions of Ubuntu Linux.
(And we don't have to mention the
jobs keyword, since there's only a single job defined.)
pool: vmImage: 'ubuntu-latest' strategy: matrix: ubuntu16: containerImage: ubuntu:16.04 ubuntu18: containerImage: ubuntu:18.04 ubuntu20: containerImage: ubuntu:20.04 container: $[ variables['containerImage'] ] steps: - script: printenv
Containers can be hosted on registries other than public Docker Hub registries. To host an image on Azure Container Registry or another private container registry (including a private Docker Hub registry), add a service connection to the private registry. Then you can reference it in a container spec:
container: image: registry:ubuntu1804 endpoint: private_dockerhub_connection steps: - script: echo hello
container: image: myprivate.azurecr.io/windowsservercore:1803 endpoint: my_acr_connection steps: - script: echo hello
Other container registries may also work. Amazon ECR doesn't currently work, as there are other client tools required to convert AWS credentials into something Docker can use to authenticate.
The Red Hat Enterprise Linux 6 build of the agent won't run container job. Choose another Linux flavor, such as Red Hat Enterprise Linux 7 or above.
If you need to control container startup, you can specify
container: image: ubuntu:18.04 options: --hostname container-test --ip 192.168.0.1 steps: - script: echo hello
docker create --help will give you the list of supported options. You can use any option available with the
docker create command.
Reusable container definition
In the following example, the containers are defined in the resources section.
Each container is then referenced later, by referring to its assigned alias.
(Here, we explicitly list the
jobs keyword for clarity.)
resources: containers: - container: u16 image: ubuntu:16.04 - container: u18 image: ubuntu:18.04 - container: u20 image: ubuntu:20.04 jobs: - job: RunInContainer pool: vmImage: 'ubuntu-latest' strategy: matrix: ubuntu16: containerResource: u16 ubuntu18: containerResource: u18 ubuntu20: containerResource: u20 container: $[ variables['containerResource'] ] steps: - script: printenv
Non glibc-based containers
The Azure Pipelines agent supplies a copy of Node.js, which is required to run tasks and scripts. The version of Node.js is compiled against the C runtime we use in our hosted cloud, typically glibc. Some variants of Linux use other C runtimes. For instance, Alpine Linux uses musl.
If you want to use a non-glibc-based container as a job container, you will need to arrange a few things on your own. First, you must supply your own copy of Node.js. Second, you must add a label to your image telling the agent where to find the Node.js binary. Finally, stock Alpine doesn't come with other dependencies that Azure Pipelines depends on: bash, sudo, which, and groupadd.
Bring your own Node.js
You're responsible for adding a Node binary to your container.
Node 14 is a safe choice.
You can start from the
Tell the agent about Node.js
The agent will read a container label "com.azure.dev.pipelines.handler.node.path".
If this label exists, it must be the path to the Node.js binary.
For example, in an image based on
node:10-alpine, add this line to your Dockerfile:
Azure Pipelines assumes a Bash-based system with common administration packages installed.
Alpine Linux in particular doesn't come with several of the packages needed.
shadow will cover the basic needs.
RUN apk add bash sudo shadow
If you depend on any in-box or Marketplace tasks, you'll also need to supply the binaries they require.
Full example of a Dockerfile
FROM node:10-alpine RUN apk add --no-cache --virtual .pipeline-deps readline linux-pam \ && apk add bash sudo shadow \ && apk del .pipeline-deps LABEL "com.azure.dev.pipelines.agent.handler.node.path"="/usr/local/bin/node" CMD [ "node" ]
Multiple jobs with agent pools on a single hosted agent
The container job uses the underlying host agent Docker config.json for image registry authorization, which logs out at the end of the Docker registry container initialization. Subsequent registry image pulls authorization might be denied for “unauthorized authentication” because the Docker config.json file registered in the system for authentication has already been logged out by one of the other container jobs that are running in parallel.
The solution is to set the Docker environment variable
DOCKER_CONFIG that is specific to each agent pool service running on the hosted agent. Export the
DOCKER_CONFIG in each agent pool’s runsvc.sh script:
#insert anything to set up env when running as a service export DOCKER_CONFIG=./.docker
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