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A container-focused OS that's designed for painless management in large clusters

Running CoreOS Container Linux on EC2

The current AMIs for all Container Linux channels and EC2 regions are listed below and updated frequently. Questions can be directed to the CoreOS IRC channel or user mailing list.

Choosing a channel

Container Linux is designed to be updated automatically with different schedules per channel. You can disable this feature, although we don't recommend it. Read the release notes for specific features and bug fixes.

The Alpha channel closely tracks master and is released frequently. The newest versions of system libraries and utilities will be available for testing. The current version is Container Linux 2514.1.0.

View as json feed
EC2 Region AMI Type AMI ID
ap-northeast-1 PV ami-0860588c89b4d3705
HVM ami-0b8fc73f3b21c7350
ap-northeast-2 HVM ami-0fb8eabe30505bc13
ap-south-1 HVM ami-0288e3806cff3aca5
ap-southeast-1 PV ami-0a26f3ee936a6e2e1
HVM ami-0c2255675b402ce3a
ap-southeast-2 PV ami-00fdb5fb2853a8a12
HVM ami-0651b52a3a94c0e2f
ca-central-1 HVM ami-01f7d79ad4afc76fa
eu-central-1 PV ami-0e036b43241c12898
HVM ami-0653df6f6357ee5e7
eu-north-1 HVM ami-0709fa64b85a75847
eu-west-1 PV ami-062debd18fae23c9d
HVM ami-0bd4eab9eeeea21d6
eu-west-2 HVM ami-01fbc830b2cfb4ef3
eu-west-3 HVM ami-0011e3d99a9fc1286
sa-east-1 PV ami-054f742b197c717f5
HVM ami-07bbfb5436aa090ad
us-east-1 PV ami-095505a84e12e365e
HVM ami-0c1eaf56b1bebcaa8
us-east-2 HVM ami-06bb4d173a795a049
us-gov-east-1 HVM ami-0276e6af17d48ef56
us-gov-west-1 PV ami-5fe4d83e
HVM ami-c1ead6a0
us-west-1 PV ami-09d0e5b1f9147d6b9
HVM ami-093aa903fde076cc8
us-west-2 PV ami-052f3d1328808f089
HVM ami-0872ebf0675a6af7d

The Stable channel should be used by production clusters. Versions of Container Linux are battle-tested within the Beta and Alpha channels before being promoted. The current version is Container Linux 2512.3.0.

View as json feed
EC2 Region AMI Type AMI ID
ap-northeast-1 PV ami-01c23e55b16ef2833
HVM ami-0afcaf08399d2f248
ap-northeast-2 HVM ami-0be3493e7bf709a40
ap-south-1 HVM ami-075d6bb7121baef28
ap-southeast-1 PV ami-06bb81bf4af6b6714
HVM ami-0c45c2b94700c3e25
ap-southeast-2 PV ami-014acf7d7fb93097c
HVM ami-0b559bb97a30b321c
ca-central-1 HVM ami-08f3e2f92326915bf
eu-central-1 PV ami-037801989df14b1fd
HVM ami-0b7266aa375b9922c
eu-north-1 HVM ami-0a20c739689f24d09
eu-west-1 PV ami-0944610a5c1f5b2ce
HVM ami-0bb08377c73e1e91c
eu-west-2 HVM ami-0d4ee09557c9e8335
eu-west-3 HVM ami-0354910c22483b23f
sa-east-1 PV ami-013b84da129d32574
HVM ami-0d8f6bd4e37164cfd
us-east-1 PV ami-0c0e85d21260bf1c7
HVM ami-0a9e4c122b56383bf
us-east-2 HVM ami-0f3f110d7176bc5b0
us-gov-east-1 HVM ami-0329719be042c183d
us-gov-west-1 PV ami-61e8d400
HVM ami-92e4d8f3
us-west-1 PV ami-056b1bd5f4aa25baf
HVM ami-05f4f28a47c4e7dbe
us-west-2 PV ami-0c4a0f229d91c03c8
HVM ami-0c70a6d7b12a24405

Container Linux Configs

Container Linux allows you to configure machine parameters, configure networking, launch systemd units on startup, and more via Container Linux Configs. These configs are then transpiled into Ignition configs and given to booting machines. Head over to the docs to learn about the supported features.

You can provide a raw Ignition config to Container Linux via the Amazon web console or via the EC2 API.

As an example, this Container Linux Config will configure and start etcd:

This is the human-readable config file. This should not be immediately passed to Container Linux. Learn more.
# This config is meant to be consumed by the config transpiler, which will
# generate the corresponding Ignition config. Do not pass this config directly
# to instances of Container Linux.

etcd:
  # All options get passed as command line flags to etcd.
  # Any information inside curly braces comes from the machine at boot time.

  # multi_region and multi_cloud deployments need to use {PUBLIC_IPV4}
  advertise_client_urls:       "http://{PRIVATE_IPV4}:2379"
  initial_advertise_peer_urls: "http://{PRIVATE_IPV4}:2380"
  # listen on both the official ports and the legacy ports
  # legacy ports can be omitted if your application doesn't depend on them
  listen_client_urls:          "http://0.0.0.0:2379"
  listen_peer_urls:            "http://{PRIVATE_IPV4}:2380"
  # generate a new token for each unique cluster from https://discovery.etcd.io/new?size=3
  # specify the initial size of your cluster with ?size=X
  discovery:                   "https://discovery.etcd.io/<token>"
This is the raw machine configuration, which is not intended for editing. Learn more. Validate the config here.
{
  "ignition": {
    "config": {},
    "timeouts": {},
    "version": "2.1.0"
  },
  "networkd": {},
  "passwd": {},
  "storage": {},
  "systemd": {
    "units": [
      {
        "dropins": [
          {
            "contents": "[Unit]\nRequires=coreos-metadata.service\nAfter=coreos-metadata.service\n\n[Service]\nEnvironmentFile=/run/metadata/coreos\nExecStart=\nExecStart=/usr/lib/coreos/etcd-wrapper $ETCD_OPTS \\\n  --listen-peer-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2380\" \\\n  --listen-client-urls=\"http://0.0.0.0:2379\" \\\n  --initial-advertise-peer-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2380\" \\\n  --advertise-client-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2379\" \\\n  --discovery=\"https://discovery.etcd.io/\u003ctoken\u003e\"",
            "name": "20-clct-etcd-member.conf"
          }
        ],
        "enable": true,
        "name": "etcd-member.service"
      }
    ]
  }
}

Instance storage

Ephemeral disks and additional EBS volumes attached to instances can be mounted with a .mount unit. Amazon's block storage devices are attached differently depending on the instance type. Here's the Container Linux Config to format and mount the first ephemeral disk, xvdb, on most instance types:

This is the human-readable config file. This should not be immediately passed to Container Linux. Learn more.
# This config is meant to be consumed by the config transpiler, which will
# generate the corresponding Ignition config. Do not pass this config directly
# to instances of Container Linux.

storage:
  filesystems:
    - mount:
        device: /dev/xvdb
        format: ext4
        wipe_filesystem: true

systemd:
  units:
    - name: media-ephemeral.mount
      enable: true
      contents: |
        [Mount]
        What=/dev/xvdb
        Where=/media/ephemeral
        Type=ext4

        [Install]
        RequiredBy=local-fs.target
This is the raw machine configuration, which is not intended for editing. Learn more. Validate the config here.
{
  "ignition": {
    "config": {},
    "timeouts": {},
    "version": "2.1.0"
  },
  "networkd": {},
  "passwd": {},
  "storage": {
    "filesystems": [
      {
        "mount": {
          "device": "/dev/xvdb",
          "format": "ext4",
          "wipeFilesystem": true
        }
      }
    ]
  },
  "systemd": {
    "units": [
      {
        "contents": "[Mount]\nWhat=/dev/xvdb\nWhere=/media/ephemeral\nType=ext4\n\n[Install]\nRequiredBy=local-fs.target",
        "enable": true,
        "name": "media-ephemeral.mount"
      }
    ]
  }
}

For more information about mounting storage, Amazon's own documentation is the best source. You can also read about mounting storage on Container Linux.

Adding more machines

To add more instances to the cluster, just launch more with the same Container Linux Config, the appropriate security group and the AMI for that region. New instances will join the cluster regardless of region if the security groups are configured correctly.

SSH to your instances

Container Linux is set up to be a little more secure than other cloud images. By default, it uses the core user instead of root and doesn't use a password for authentication. You'll need to add an SSH key(s) via the AWS console or add keys/passwords via your Container Linux Config in order to log in.

To connect to an instance after it's created, run:

ssh core@<ip address>

Multiple clusters

If you would like to create multiple clusters you will need to change the "Stack Name". You can find the direct template file on S3.

Manual setup

TL;DR: launch three instances of ami-0c1eaf56b1bebcaa8 in us-east-1 with a security group that has open port 22, 2379, 2380, 4001, and 7001 and the same "User Data" of each host. SSH uses the core user and you have etcd and Docker to play with.

Creating the security group

You need open port 2379, 2380, 7001 and 4001 between servers in the etcd cluster. Step by step instructions below.

This step is only needed once

First we need to create a security group to allow Container Linux instances to communicate with one another.

  1. Go to the security group page in the EC2 console.
  2. Click "Create Security Group"
    • Name: coreos-testing
    • Description: Container Linux instances
    • VPC: No VPC
    • Click: "Yes, Create"
  3. In the details of the security group, click the Inbound tab
  4. First, create a security group rule for SSH
    • Create a new rule: SSH
    • Source: 0.0.0.0/0
    • Click: "Add Rule"
  5. Add two security group rules for etcd communication
    • Create a new rule: Custom TCP rule
    • Port range: 2379
    • Source: type "coreos-testing" until your security group auto-completes. Should be something like "sg-8d4feabc"
    • Click: "Add Rule"
    • Repeat this process for port range 2380, 4001 and 7001 as well
  6. Click "Apply Rule Changes"

Launching a test cluster

We will be launching three instances, with a few parameters in the User Data, and selecting our security group.

  1. Open the quick launch wizard to boot ami-0c1eaf56b1bebcaa8.
  2. On the second page of the wizard, launch 3 servers to test our clustering
    • Number of instances: 3
    • Click "Continue"
  3. Next, we need to specify a discovery URL, which contains a unique token that allows us to find other hosts in our cluster. If you're launching your first machine, generate one at https://discovery.etcd.io/new?size=3, configure the `?size=` to your initial cluster size and add it to the metadata. You should re-use this key for each machine in the cluster.
  4. Use ct to convert the following configuration into an Ignition config, and back in the EC2 dashboard, paste it into the "User Data" field.
    This is the human-readable config file. This should not be immediately passed to Container Linux. Learn more.
    # This config is meant to be consumed by the config transpiler, which will
    # generate the corresponding Ignition config. Do not pass this config directly
    # to instances of Container Linux.
    
    etcd:
      # All options get passed as command line flags to etcd.
      # Any information inside curly braces comes from the machine at boot time.
    
    # multi\_region and multi\_cloud deployments need to use {PUBLIC\_IPV4}
    
    advertise\_client\_urls:       "http://{PRIVATE\_IPV4}:2379"
    initial\_advertise\_peer\_urls: "http://{PRIVATE\_IPV4}:2380"
    
    # listen on both the official ports and the legacy ports
    
    # legacy ports can be omitted if your application doesn't depend on them
    
    listen\_client\_urls:          "http://0.0.0.0:2379"
    listen\_peer\_urls:            "http://{PRIVATE\_IPV4}:2380"
    
    # generate a new token for each unique cluster from https://discovery.etcd.io/new?size=3
    
    # specify the initial size of your cluster with ?size=X
    
    discovery:                   "https://discovery.etcd.io/<token>"
    
    This is the raw machine configuration, which is not intended for editing. Learn more. Validate the config here.
    {
      "ignition": {
        "config": {},
        "timeouts": {},
        "version": "2.1.0"
      },
      "networkd": {},
      "passwd": {},
      "storage": {},
      "systemd": {}
    }
    
    `
    • Paste configuration into "User Data"
    • "Continue"
  5. Storage Configuration
    • "Continue"
  6. Tags
    • "Continue"
  7. Create Key Pair
    • Choose a key of your choice, it will be added in addition to the one in the gist.
    • "Continue"
  8. Choose one or more of your existing Security Groups
    • "coreos-testing" as above.
    • "Continue"
  9. Launch!

We will be launching three instances, with a few parameters in the User Data, and selecting our security group.

  1. Open the quick launch wizard to boot ami-08ca65b75f87b8cec.
  2. On the second page of the wizard, launch 3 servers to test our clustering
    • Number of instances: 3
    • Click "Continue"
  3. Next, we need to specify a discovery URL, which contains a unique token that allows us to find other hosts in our cluster. If you're launching your first machine, generate one at https://discovery.etcd.io/new?size=3, configure the `?size=` to your initial cluster size and add it to the metadata. You should re-use this key for each machine in the cluster.
  4. Use ct to convert the following configuration into an Ignition config, and back in the EC2 dashboard, paste it into the "User Data" field.
    This is the human-readable config file. This should not be immediately passed to Container Linux. Learn more.
    # This config is meant to be consumed by the config transpiler, which will
    # generate the corresponding Ignition config. Do not pass this config directly
    # to instances of Container Linux.
    
    etcd:
      # All options get passed as command line flags to etcd.
      # Any information inside curly braces comes from the machine at boot time.
    
      # multi_region and multi_cloud deployments need to use {PUBLIC_IPV4}
      advertise_client_urls:       "http://{PRIVATE_IPV4}:2379"
      initial_advertise_peer_urls: "http://{PRIVATE_IPV4}:2380"
      # listen on both the official ports and the legacy ports
      # legacy ports can be omitted if your application doesn't depend on them
      listen_client_urls:          "http://0.0.0.0:2379"
      listen_peer_urls:            "http://{PRIVATE_IPV4}:2380"
      # generate a new token for each unique cluster from https://discovery.etcd.io/new?size=3
      # specify the initial size of your cluster with ?size=X
      discovery:                   "https://discovery.etcd.io/<token>"
    
    This is the raw machine configuration, which is not intended for editing. Learn more. Validate the config here.
    {
      "ignition": {
        "config": {},
        "timeouts": {},
        "version": "2.1.0"
      },
      "networkd": {},
      "passwd": {},
      "storage": {},
      "systemd": {
        "units": [
          {
            "dropins": [
              {
                "contents": "[Unit]\nRequires=coreos-metadata.service\nAfter=coreos-metadata.service\n\n[Service]\nEnvironmentFile=/run/metadata/coreos\nExecStart=\nExecStart=/usr/lib/coreos/etcd-wrapper $ETCD_OPTS \\\n  --listen-peer-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2380\" \\\n  --listen-client-urls=\"http://0.0.0.0:2379\" \\\n  --initial-advertise-peer-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2380\" \\\n  --advertise-client-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2379\" \\\n  --discovery=\"https://discovery.etcd.io/\u003ctoken\u003e\"",
                "name": "20-clct-etcd-member.conf"
              }
            ],
            "enable": true,
            "name": "etcd-member.service"
          }
        ]
      }
    }
    
    ` ```
    • Paste configuration into "User Data"
    • "Continue"
  5. Storage Configuration
    • "Continue"
  6. Tags
    • "Continue"
  7. Create Key Pair
    • Choose a key of your choice, it will be added in addition to the one in the gist.
    • "Continue"
  8. Choose one or more of your existing Security Groups
    • "coreos-testing" as above.
    • "Continue"
  9. Launch!

We will be launching three instances, with a few parameters in the User Data, and selecting our security group.

  1. Open the quick launch wizard to boot ami-0a9e4c122b56383bf.
  2. On the second page of the wizard, launch 3 servers to test our clustering
    • Number of instances: 3
    • Click "Continue"
  3. Next, we need to specify a discovery URL, which contains a unique token that allows us to find other hosts in our cluster. If you're launching your first machine, generate one at https://discovery.etcd.io/new?size=3, configure the `?size=` to your initial cluster size and add it to the metadata. You should re-use this key for each machine in the cluster.
  4. Use ct to convert the following configuration into an Ignition config, and back in the EC2 dashboard, paste it into the "User Data" field. ```
    This is the human-readable config file. This should not be immediately passed to Container Linux. Learn more.
    # This config is meant to be consumed by the config transpiler, which will
    # generate the corresponding Ignition config. Do not pass this config directly
    # to instances of Container Linux.
    
    etcd:
      # All options get passed as command line flags to etcd.
      # Any information inside curly braces comes from the machine at boot time.
    
      # multi_region and multi_cloud deployments need to use {PUBLIC_IPV4}
      advertise_client_urls:       "http://{PRIVATE_IPV4}:2379"
      initial_advertise_peer_urls: "http://{PRIVATE_IPV4}:2380"
      # listen on both the official ports and the legacy ports
      # legacy ports can be omitted if your application doesn't depend on them
      listen_client_urls:          "http://0.0.0.0:2379"
      listen_peer_urls:            "http://{PRIVATE_IPV4}:2380"
      # generate a new token for each unique cluster from https://discovery.etcd.io/new?size=3
      # specify the initial size of your cluster with ?size=X
      discovery:                   "https://discovery.etcd.io/<token>"
    
    This is the raw machine configuration, which is not intended for editing. Learn more. Validate the config here.
    {
      "ignition": {
        "config": {},
        "timeouts": {},
        "version": "2.1.0"
      },
      "networkd": {},
      "passwd": {},
      "storage": {},
      "systemd": {
        "units": [
          {
            "dropins": [
              {
                "contents": "[Unit]\nRequires=coreos-metadata.service\nAfter=coreos-metadata.service\n\n[Service]\nEnvironmentFile=/run/metadata/coreos\nExecStart=\nExecStart=/usr/lib/coreos/etcd-wrapper $ETCD_OPTS \\\n  --listen-peer-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2380\" \\\n  --listen-client-urls=\"http://0.0.0.0:2379\" \\\n  --initial-advertise-peer-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2380\" \\\n  --advertise-client-urls=\"http://${COREOS_EC2_IPV4_LOCAL}:2379\" \\\n  --discovery=\"https://discovery.etcd.io/\u003ctoken\u003e\"",
                "name": "20-clct-etcd-member.conf"
              }
            ],
            "enable": true,
            "name": "etcd-member.service"
          }
        ]
      }
    }
    
    ```
    • Paste configuration into "User Data"
    • "Continue"
  5. Storage Configuration
    • "Continue"
  6. Tags
    • "Continue"
  7. Create Key Pair
    • Choose a key of your choice, it will be added in addition to the one in the gist.
    • "Continue"
  8. Choose one or more of your existing Security Groups
    • "coreos-testing" as above.
    • "Continue"
  9. Launch!
```

Using CoreOS Container Linux

Now that you have a machine booted it is time to play around. Check out the Container Linux Quickstart guide or dig into more specific topics.