Autoscaling GitLab Runner on AWS EC2

One of the biggest advantages of GitLab Runner is its ability to automatically spin up and down VMs to make sure your builds get processed immediately. It’s a great feature, and if used correctly, it can be extremely useful in situations where you don’t use your runners 24/7 and want to have a cost-effective and scalable solution.

Introduction

In this tutorial, we’ll explore how to properly configure GitLab Runner in AWS. The instance in AWS will serve as a Runner Manager that spawns new Docker instances on demand. The runners on these instances are automatically created. They use the parameters covered in this guide and do not require manual configuration after creation.

In addition, we’ll make use of Amazon’s EC2 Spot instances which will greatly reduce the costs of the GitLab Runner instances while still using quite powerful autoscaling machines.

Prerequisites

A familiarity with Amazon Web Services (AWS) is required as this is where most of the configuration will take place.

We suggest a quick read through Docker machine amazonec2 driver documentation to familiarize yourself with the parameters we will set later in this article.

Your GitLab Runner is going to need to talk to your GitLab instance over the network, and that is something you need think about when configuring any AWS security groups or when setting up your DNS configuration.

For example, you can keep the EC2 resources segmented away from public traffic in a different VPC to better strengthen your network security. Your environment is likely different, so consider what works best for your situation.

AWS security groups

Docker Machine will attempt to use a default security group with rules for port 2376 and SSH 22, which is required for communication with the Docker daemon. Instead of relying on Docker, you can create a security group with the rules you need and provide that in the GitLab Runner options as we will see below. This way, you can customize it to your liking ahead of time based on your networking environment. You have to make sure that ports 2376 and 22 are accessible by the Runner Manager instance.

AWS credentials

You’ll need an AWS Access Key tied to a user with permission to scale (EC2) and update the cache (via S3). Create a new user with policies for EC2 (AmazonEC2FullAccess) and S3 (AmazonS3FullAccess). To be more secure, you can disable console login for that user. Keep the tab open or copy paste the security credentials in an editor as we’ll use them later during the GitLab Runner configuration.

You can also create an EC2 instance profile with the required AmazonEC2FullAccess and AmazonS3FullAccess policies. Attach this instance profile to the Runner Manager EC2 instance to allow the provisioning of new EC2 instances for the jobs’ execution.

Prepare the Runner Manager instance

The first step is to install GitLab Runner in an EC2 instance that will serve as the Runner Manager that spawns new machines. Choose a distribution that both Docker and GitLab Runner support, like Ubuntu, Debian, CentOS, or RHEL.

This doesn’t have to be a powerful machine because a Runner Manager instance doesn’t run jobs itself. For your initial configuration, you can start with a smaller instance. This machine is a dedicated host because we need it always up and running. Therefore, it is the only host with an ongoing baseline cost.

Install the prerequisites:

  1. Log in to your server
  2. Install GitLab Runner from the official GitLab repository
  3. Install Docker
  4. Install Docker Machine from the GitLab fork (Docker has deprecated Docker Machine)

Now that the Runner is installed, it’s time to register it.

Registering the GitLab Runner

Before configuring the GitLab Runner, you need to first register it, so that it connects with your GitLab instance:

  1. Obtain a runner token
  2. Register the runner
  3. When asked the executor type, enter docker+machine

You can now move on to the most important part, configuring the GitLab Runner.

note
If you want every user in your instance to be able to use the autoscaled runners, register the runner as a shared one.

Configuring the runner

Now that the runner is registered, you need to edit its configuration file and add the required options for the AWS machine driver.

Let’s first break it down to pieces.

The global section

In the global section, you can define the limit of the jobs that can be run concurrently across all runners (concurrent). This heavily depends on your needs, like how many users GitLab Runner will accommodate, how much time your builds take, etc. You can start with something low like 10, and increase or decrease its value going forward.

The check_interval option defines how often the runner should check GitLab for new jobs, in seconds.

Example:

concurrent = 10
check_interval = 0

Other options are also available.

The runners section

From the [[runners]] section, the most important part is the executor which must be set to docker+machine. Most of those settings are taken care of when you register the runner for the first time.

limit sets the maximum number of machines (running and idle) that this runner will spawn. For more information, check the relationship between limit, concurrent and IdleCount.

Example:

[[runners]]
  name = "gitlab-aws-autoscaler"
  url = "<URL of your GitLab instance>"
  token = "<Runner's token>"
  executor = "docker+machine"
  limit = 20

Other options under [[runners]] are also available.

The runners.docker section

In the [runners.docker] section you can define the default Docker image to be used by the child runners if it’s not defined in .gitlab-ci.yml. By using privileged = true, all runners will be able to run Docker in Docker which is useful if you plan to build your own Docker images via GitLab CI/CD.

Next, we use disable_cache = true to disable the Docker executor’s inner cache mechanism since we will use the distributed cache mode as described in the following section.

Example:

  [runners.docker]
    image = "alpine"
    privileged = true
    disable_cache = true

Other options under [runners.docker] are also available.

The runners.cache section

To speed up your jobs, GitLab Runner provides a cache mechanism where selected directories and/or files are saved and shared between subsequent jobs. While not required for this setup, it is recommended to use the distributed cache mechanism that GitLab Runner provides. Since new instances will be created on demand, it is essential to have a common place where the cache is stored.

In the following example, we use Amazon S3:

  [runners.cache]
    Type = "s3"
    Shared = true
    [runners.cache.s3]
      ServerAddress = "s3.amazonaws.com"
      AccessKey = "<your AWS Access Key ID>"
      SecretKey = "<your AWS Secret Access Key>"
      BucketName = "<the bucket where your cache should be kept>"
      BucketLocation = "us-east-1"

Here’s some more information to further explore the cache mechanism:

The runners.machine section

This is the most important part of the configuration and it’s the one that tells GitLab Runner how and when to spawn new or remove old Docker Machine instances.

We will focus on the AWS machine options, for the rest of the settings read about the:

Here’s an example of the runners.machine section:

  [runners.machine]
    IdleCount = 1
    IdleTime = 1800
    MaxBuilds = 10
    MachineDriver = "amazonec2"
    MachineName = "gitlab-docker-machine-%s"
    MachineOptions = [
      "amazonec2-access-key=XXXX",
      "amazonec2-secret-key=XXXX",
      "amazonec2-region=us-central-1",
      "amazonec2-vpc-id=vpc-xxxxx",
      "amazonec2-subnet-id=subnet-xxxxx",
      "amazonec2-zone=x",
      "amazonec2-use-private-address=true",
      "amazonec2-tags=runner-manager-name,gitlab-aws-autoscaler,gitlab,true,gitlab-runner-autoscale,true",
      "amazonec2-security-group=xxxxx",
      "amazonec2-instance-type=m4.2xlarge",
    ]
    [[runners.machine.autoscaling]]
      Periods = ["* * 9-17 * * mon-fri *"]
      IdleCount = 50
      IdleTime = 3600
      Timezone = "UTC"
    [[runners.machine.autoscaling]]
      Periods = ["* * * * * sat,sun *"]
      IdleCount = 5
      IdleTime = 60
      Timezone = "UTC"

The Docker Machine driver is set to amazonec2 and the machine name has a standard prefix followed by %s (required) that is replaced by the ID of the child runner: gitlab-docker-machine-%s.

Now, depending on your AWS infrastructure, there are many options you can set up under MachineOptions. Below you can see the most common ones.

Machine option Description
amazonec2-access-key=XXXX The AWS access key of the user that has permissions to create EC2 instances, see AWS credentials.
amazonec2-secret-key=XXXX The AWS secret key of the user that has permissions to create EC2 instances, see AWS credentials.
amazonec2-region=eu-central-1 The region to use when launching the instance. You can omit this entirely and the default us-east-1 will be used.
amazonec2-vpc-id=vpc-xxxxx Your VPC ID to launch the instance in.
amazonec2-subnet-id=subnet-xxxx The AWS VPC subnet ID.
amazonec2-zone=x If not specified, the availability zone is a, it needs to be set to the same availability zone as the specified subnet, for example when the zone is eu-west-1b it has to be amazonec2-zone=b
amazonec2-use-private-address=true Use the private IP address of Docker Machines, but still create a public IP address. Useful to keep the traffic internal and avoid extra costs.
amazonec2-tags=runner-manager-name,gitlab-aws-autoscaler,gitlab,true,gitlab-runner-autoscale,true AWS extra tag key-value pairs, useful to identify the instances on the AWS console. The “Name” tag is set to the machine name by default. We set the “runner-manager-name” to match the runner name set in [[runners]], so that we can filter all the EC2 instances created by a specific manager setup.
amazonec2-security-group=xxxx AWS VPC security group name, not the security group ID. See AWS security groups.
amazonec2-instance-type=m4.2xlarge The instance type that the child runners will run on.
amazonec2-ssh-user=xxxx The user that will have SSH access to the instance.
amazonec2-iam-instance-profile=xxxx_runner_machine_inst_profile_name The IAM instance profile to use for the runner machine.
amazonec2-ami=xxxx_runner_machine_ami_id The GitLab Runner AMI ID for a specific image.
amazonec2-request-spot-instance=true Use spare EC2 capacity that is available for less than the on-demand price.
amazonec2-spot-price=xxxx_runner_machine_spot_price=x.xx Spot instance bid price (in US dollars). Requires the --amazonec2-request-spot-instance flag set to true. If you omit the amazonec2-spot-price, Docker Machine sets the maximum price to a default value of $0.50 per hour.
amazonec2-security-group-readonly=true Set the security group to read-only.
amazonec2-userdata=xxxx_runner_machine_userdata_path Specify the runner machine userdata path.
amazonec2-root-size=XX The root disk size of the instance (in GB).

Notes:

  • Under MachineOptions you can add anything that the AWS Docker Machine driver supports. You are highly encouraged to read Docker’s docs as your infrastructure setup may warrant different options to be applied.
  • The child instances will use by default Ubuntu 16.04 unless you choose a different AMI ID by setting amazonec2-ami. Set only supported base operating systems for Docker Machine.
  • If you specify amazonec2-private-address-only=true as one of the machine options, your EC2 instance won’t get assigned a public IP. This is ok if your VPC is configured correctly with an Internet Gateway (IGW) and routing is fine, but it’s something to consider if you’ve got a more complex configuration. Read more about VPC connectivity.

Other options under [runners.machine] are also available.

Getting it all together

Here’s the full example of /etc/gitlab-runner/config.toml:

concurrent = 10
check_interval = 0

[[runners]]
  name = "gitlab-aws-autoscaler"
  url = "<URL of your GitLab instance>"
  token = "<runner's token>"
  executor = "docker+machine"
  limit = 20
  [runners.docker]
    image = "alpine"
    privileged = true
    disable_cache = true
  [runners.cache]
    Type = "s3"
    Shared = true
    [runners.cache.s3]
      ServerAddress = "s3.amazonaws.com"
      AccessKey = "<your AWS Access Key ID>"
      SecretKey = "<your AWS Secret Access Key>"
      BucketName = "<the bucket where your cache should be kept>"
      BucketLocation = "us-east-1"
  [runners.machine]
    IdleCount = 1
    IdleTime = 1800
    MaxBuilds = 100
    MachineDriver = "amazonec2"
    MachineName = "gitlab-docker-machine-%s"
    MachineOptions = [
      "amazonec2-access-key=XXXX",
      "amazonec2-secret-key=XXXX",
      "amazonec2-region=us-central-1",
      "amazonec2-vpc-id=vpc-xxxxx",
      "amazonec2-subnet-id=subnet-xxxxx",
      "amazonec2-use-private-address=true",
      "amazonec2-tags=runner-manager-name,gitlab-aws-autoscaler,gitlab,true,gitlab-runner-autoscale,true",
      "amazonec2-security-group=XXXX",
      "amazonec2-instance-type=m4.2xlarge",
    ]
    [[runners.machine.autoscaling]]
      Periods = ["* * 9-17 * * mon-fri *"]
      IdleCount = 50
      IdleTime = 3600
      Timezone = "UTC"
    [[runners.machine.autoscaling]]
      Periods = ["* * * * * sat,sun *"]
      IdleCount = 5
      IdleTime = 60
      Timezone = "UTC"

Cutting down costs with Amazon EC2 Spot instances

As described by Amazon:

Amazon EC2 Spot instances allow you to bid on spare Amazon EC2 computing capacity. Since Spot instances are often available at a discount compared to On-Demand pricing, you can significantly reduce the cost of running your applications, grow your application’s compute capacity and throughput for the same budget, and enable new types of cloud computing applications.

In addition to the runners.machine options you picked above, in /etc/gitlab-runner/config.toml under the MachineOptions section, add the following:

    MachineOptions = [
      "amazonec2-request-spot-instance=true",
      "amazonec2-spot-price=",
    ]

In this configuration with an empty amazonec2-spot-price, AWS sets your bidding price for a Spot instance to the default On-Demand price of that instance class. If you omit the amazonec2-spot-price completely, Docker Machine will set the maximum price to a default value of $0.50 per hour.

You may further customize your Spot instance request:

    MachineOptions = [
      "amazonec2-request-spot-instance=true",
      "amazonec2-spot-price=0.03",
      "amazonec2-block-duration-minutes=60"
    ]

With this configuration, Docker Machines are created using Spot instances with a maximum Spot request price of $0.03 per hour and the duration of the Spot instance is capped at 60 minutes. The 0.03 number mentioned above is just an example, so be sure to check on the current pricing based on the region you picked.

To learn more about Amazon EC2 Spot instances, visit the following links:

Caveats of Spot instances

While Spot instances is a great way to use unused resources and minimize the costs of your infrastructure, you must be aware of the implications.

Running CI jobs on Spot instances may increase the failure rates because of the Spot instances pricing model. If the maximum Spot price you specify exceeds the current Spot price you will not get the capacity requested. Spot pricing is revised on an hourly basis. Any existing Spot instances that have a maximum price below the revised Spot instance price will be terminated within two minutes and all jobs on Spot hosts will fail.

As a consequence, the auto-scale Runner would fail to create new machines while it will continue to request new instances. This eventually will make 60 requests and then AWS won’t accept any more. Then once the Spot price is acceptable, you are locked out for a bit because the call amount limit is exceeded.

If you encounter that case, you can use the following command in the Runner Manager machine to see the Docker Machines state:

docker-machine ls -q --filter state=Error --format "{{.NAME}}"
note
There are some issues regarding making GitLab Runner gracefully handle Spot price changes, and there are reports of docker-machine attempting to continually remove a Docker Machine. GitLab has provided patches for both cases in the upstream project. For more information, see issues #2771 and #2772.

Conclusion

In this guide we learned how to install and configure a GitLab Runner in autoscale mode on AWS.

Using the autoscale feature of GitLab Runner can save you both time and money. Using the Spot instances that AWS provides can save you even more, but you must be aware of the implications. As long as your bid is high enough, there shouldn’t be an issue.

You can read the following use cases from which this tutorial was (heavily) influenced: