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Deploying a Cluster on Amazon AWS

Deploy Hazelcast clusters on Amazon AWS EC2 and AWS ECS/Fargate environments and allow them to discover each other automatically.

Before you Begin

Before deploying Hazelcast on AWS, you must have the following:

  • Linux Kernel 3.19+

    TCP connections may get stuck when used with older Kernel versions, resulting in undefined timeouts.

Discovering Members Automatically

To make it easier to set up clusters on Amazon AWS, Hazelcast allows members to discover each other automatically, using discovery strategies.

When a member starts on AWS, it fetches a list of all running instances filtered by the member’s AWS configuration settings. Then, each instance is checked one-by-one with its IP and each of the ports defined in the hz-port property. When a member is discovered under IP:PORT, then it joins the cluster.

Choose from one of the following environments to configure a discovery strategy:

  • EC2

  • ECS/Fargate

  • ECS/EC2

  • AWS Elastic Beanstalk

EC2 Configuration

You can configure both Hazelcast members and Hazelcast clients to discover clusters automatically.

EC2 Hazelcast Member Discovery

You can configure Hazelcast in one of the following manners.

  • XML

  • YAML

  • Java

<hazelcast>
  <network>
    <join>
      <multicast enabled="false"/>
      <aws enabled="true">
        <tag-key>my-ec2-instance-tag-key</tag-key>
        <tag-value>my-ec2-instance-tag-value</tag-value>
      </aws>
    </join>
  </network>
</hazelcast>
hazelcast:
  network:
    join:
      multicast:
        enabled: false
      aws:
        enabled: true
        tag-key: my-ec2-instance-tag-key
        tag-value: my-ec2-instance-tag-value
config.getNetworkConfig().getJoin().getMulticastConfig().setEnabled(false);
config.getNetworkConfig().getJoin().getAwsConfig().setEnabled(true)
      .setProperty("tag-key", "my-ec2-instance-tag-key")
      .setProperty("tag-value", "my-ec2-instance-tag-value");

The following optional properties can be configured:

  • access-key, secret-key: access and secret keys of your AWS account; if not set, iam-role is used

  • iam-role: IAM Role attached to EC2 instance used to fetch credentials (if access-key/secret-key not specified); if not set, default IAM Role attached to EC2 instance is used

  • region: region where Hazelcast members are running; default is the current region

  • host-header: ec2, ecs, or the URL of a EC2/ECS API endpoint; automatically detected by default

  • security-group-name: filter to look only for EC2 instances with the given security group

  • tag-key, tag-value: filter to look only for EC2 Instances with the given tag-key/tag-value; multi values supported if comma-separated (e.g. KeyA,KeyB); comma-separated values behaves as AND conditions

  • connection-timeout-seconds, read-timeout-seconds: connection and read timeouts when making a call to AWS API; default to 10

  • connection-retries: number of retries while connecting to AWS API; default to 3

  • hz-port: a range of ports where the plugin looks for Hazelcast members; default is 5701-5708

Note that if you don’t specify any of the properties, then Hazelcast uses the IAM Role assigned to the EC2 Instance to form a cluster from all Hazelcast members running in same region.

EC2 Hazelcast Client Configuration

Hazelcast Client discovery parameters are the same as mentioned above.

If Hazelcast Client is run outside AWS, then you need to always specify the following parameters:

  • access-key, secret-key - IAM role cannot be used from outside AWS

  • region - it cannot be detected automatically

  • use-public-ip - must be set to true

Note also that your EC2 instances must have public IP assigned.

Following are example declarative and programmatic configuration snippets.

  • XML

  • YAML

  • Java

<hazelcast-client>
  <network>
    <aws enabled="true">
      <access-key>my-access-key</access-key>
      <secret-key>my-secret-key</secret-key>
      <region>us-west-1</region>
      <tag-key>my-ec2-instance-tag-key</tag-key>
      <tag-value>my-ec2-instance-tag-value</tag-value>
      <use-public-ip>true</use-public-ip>
    </aws>
  </network>
</hazelcast-client>
hazelcast-client:
  network:
    aws:
      enabled: true
      access-key: my-access-key
      secret-key: my-secret-key
      region: us-west-1
      tag-key: my-ec2-instance-tag-key
      tag-value: my-ec2-instance-tag-value
      use-public-ip: true
clientConfig.getNetworkConfig().getAwsConfig()
      .setEnabled(true)
      .setProperty("access-key", "my-access-key")
      .setProperty("secret-key", "my-secret-key")
      .setProperty("region", "us-west-1")
      .setProperty("tag-key", "my-ec2-instance-tag-key")
      .setProperty("tag-value", "my-ec2-instance-tag-value")
      .setProperty("use-public-ip", "true");

ECS/Fargate Configuration

The plugin works both for Hazelcast Member Discovery (forming Hazelcast cluster) and Hazelcast Client Discovery.

For the detailed description, check out Hazelcast Guides: Getting Started with Embedded Hazelcast on ECS.

ECS Hazelcast Member Discovery

Make sure that your IAM Task Role has the following permissions:

  • ecs:ListTasks

  • ecs:DescribeTasks

  • ec2:DescribeNetworkInterfaces (needed only if task have public IPs)

Then, you can configure Hazelcast in one of the following manners. Please note that 10.0.. value depends on your VPC CIDR block definition.

  • XML

  • YAML

  • Java

<hazelcast>
  <network>
    <join>
      <multicast enabled="false"/>
      <aws enabled="true" />
    </join>
    <interfaces enabled="true">
      <interface>10.0.*.*</interface>
    </interfaces>
  </network>
</hazelcast>
hazelcast:
  network:
    join:
      multicast:
        enabled: false
      aws:
        enabled: true
    interfaces:
      enabled: true
      interfaces:
        - 10.0.*.*
config.getNetworkConfig().getJoin().getMulticastConfig().setEnabled(false);
config.getNetworkConfig().getJoin().getAwsConfig().setEnabled(true);
config.getNetworkConfig().getInterfaces().setEnabled(true).addInterface("10.0.*.*");

The following optional properties can be configured:

  • access-key, secret-key: access and secret keys of AWS your account; if not set, IAM Task Role is used

  • region: region where Hazelcast members are running; default is the current region

  • cluster: ECS cluster short name or ARN; default is the current cluster

  • family: filter to look only for ECS tasks with the given family name; mutually exclusive with service-name

  • service-name: filter to look only for ECS tasks from the given service; mutually exclusive with family

  • host-header: ecs or the URL of a ECS API endpoint; automatically detected by default

  • connection-timeout-seconds, read-timeout-seconds: connection and read timeouts when making a call to AWS API; default to 10

  • connection-retries: number of retries while connecting to AWS API; default to 3

  • hz-port: a range of ports where the plugin looks for Hazelcast members; default is 5701-5708

Note that if you don’t specify any of the properties, then the plugin discovers all Hazelcast members running in the current ECS cluster.

ECS Hazelcast Client Configuration

Hazelcast Client discovery parameters are the same as mentioned above.

If Hazelcast Client is run outside ECS cluster, then you need to always specify the following parameters:

  • access-key

  • secret-key - IAM role cannot be used from outside AWS

  • region - it cannot be detected automatically

  • cluster - it cannot be detected automatically

  • use-public-ip - must be set to true

Note also that your ECS Tasks must have public IPs assigned and your IAM Task Role must have ec2:DescribeNetworkInterfaces permission.

Following are example declarative and programmatic configuration snippets.

  • XML

  • YAML

  • Java

<hazelcast-client>
  <network>
    <aws enabled="true">
      <access-key>my-access-key</access-key>
      <secret-key>my-secret-key</secret-key>
      <region>eu-central-1</region>
      <cluster>my-cluster</cluster>
      <use-public-ip>true</use-public-ip>
    </aws>
  </network>
</hazelcast-client>
hazelcast-client:
  network:
    aws:
      enabled: true
      access-key: my-access-key
      secret-key: my-secret-key
      region: eu-central-1
      cluster: my-cluster
      use-public-ip: true
clientConfig.getNetworkConfig().getAwsConfig()
      .setEnabled(true)
      .setProperty("access-key", "my-access-key")
      .setProperty("secret-key", "my-secret-key")
      .setProperty("region", "eu-central-1")
      .setProperty("cluster", "my-cluster")
      .setProperty("use-public-ip", "true");

ECS Environment with EC2 Discovery

If you use ECS on EC2 instances (not Fargate), you may also set up your ECS Tasks to use host network mode and then use EC2 discovery mode instead of ECS. In that case, your Hazelcast configuration would look as follows.

hazelcast:
  network:
    join:
      multicast:
        enabled: false
      aws:
        enabled: true
        host-header: ec2
    interfaces:
      enabled: true
      interfaces:
        - 10.0.*.*

All other parameters can be used exactly the same as described in the EC2-related section.

Enabling IMDSv2 for EC2 Instances

Hazelcast automatically handles the usage of IMDSv2 method to access instance metadata, provided that your EC2 instance is configured accordingly:

  1. Enable IMDSv2 on the instances you have; see the AWS documentation on how to do that.

  2. Start Hazelcast with AWS auto-discovery enabled as explained in EC2 Hazelcast Member Discovery.

AWS Elastic Beanstalk

While deploying your application into the Java Platform, please make sure your Elastic Beanstalk Environment Configuration satisfies the following requirements:

  • EC2 security groups contain a group which allows the port 5701

  • IAM instance profile contains IAM role which has ec2:DescribeInstances permission (or your Hazelcast configuration contains access-key and secret-key)

  • Deployment policy is Rolling (instead of the default All at once which may cause the whole Hazelcast members to restart at the same time and therefore lose data)

Preventing Data Loss

By default, Hazelcast distributes partition replicas (backups) randomly and equally among cluster members. However, this is not safe in terms of high availability when a partition and its replicas are stored on the same rack, using the same network, or power source. To deal with that, Hazelcast offers logical partition grouping, so that a partition itself and its backups would not be stored within the same group. This way Hazelcast guarantees that a possible failure affecting more than one member at a time will not cause data loss. For more details about partition groups, see Partition Group Configuration.

In addition to two built-in grouping options ZONE_AWARE and PLACEMENT_AWARE, you can customize the formation of these groups based on the network interfaces of members. For more details about custom groups, see Custom Partition Groups.

Multi-Zone Deployments

If ZONE_AWARE partition group is enabled, the backups of a partition are always stored in a different availability zone. Hazelcast supports the ZONE_AWARE feature for both EC2 and ECS.

When using the ZONE_AWARE partition grouping, a cluster spanning multiple Availability Zones (AZ) should have an equal number of members in each AZ. Otherwise, it will result in uneven partition distribution among the members.
  • XML

  • YAML

  • Java

<partition-group enabled="true" group-type="ZONE_AWARE" />
hazelcast:
  partition-group:
    enabled: true
    group-type: ZONE_AWARE
config.getPartitionGroupConfig()
    .setEnabled(true)
    .setGroupType(MemberGroupType.ZONE_AWARE);

Partition Placement Group Deployments

AWS Partition Placement Group (PPG) ensures low latency between the instances in the same partition of a placement group and also provides availability since no two partitions share the same underlying hardware. As long as the partitions of a PPG contain an equal number of instances, it will be good practice for Hazelcast clusters formed within a single zone.

If EC2 instances belong to a PPG and PLACEMENT_AWARE partition group is enabled, then Hazelcast members will be grouped by the partitions of the PPG. For instance, the Hazelcast members in the first partition of a PPG named ppg will belong to the partition group of ppg-1, and those in the second partition will belong to ppg-2 and so on. Furthermore, these groups will be specific to each availability zone. That is, they are formed with zone names as well: us-east-1-ppg-1, us-east-2-ppg-1, and the like. However, if a Hazelcast cluster spans multiple availability zones then you should consider using ZONE_AWARE.

Cluster Placement Group Deployments

AWS Cluster Placement Group (CPG) ensures low latency by packing instances close together inside an availability zone. If you favor latency over availability, then CPG will serve your purpose.

In the case of CPG, using PLACEMENT_AWARE has no effect, so can use the default Hazelcast partition group strategy.

Spread Placement Group Deployments

AWS Spread Placement Groups (SPG) ensures high availability in a single zone by placing each instance in a group on a distinct rack. It provides better latency than multi-zone deployment, but worse than Cluster Placement Group. SPG is limited to 7 instances, so if you need a larger Hazelcast cluster within a single zone, you should use PPG instead.

In the case of SPG, using PLACEMENT_AWARE has no effect, so can use the default Hazelcast partition group strategy.
  • XML

  • YAML

  • Java

<partition-group enabled="true" group-type="PLACEMENT_AWARE" />
hazelcast:
  partition-group:
    enabled: true
    group-type: PLACEMENT_AWARE
config.getPartitionGroupConfig()
    .setEnabled(true)
    .setGroupType(MemberGroupType.PLACEMENT_AWARE);

Autoscaling

Hazelcast is prepared to work correctly within the autoscaling environments. Note that there are two specific requirements to prevent Hazelcast from losing data:

  • The number of members in a cluster must not change by more than one at a time

  • When a member is launched or terminated, the cluster must be in a safe state

Read about details in the blog post: AWS Auto Scaling with Hazelcast.