使用 AWS CloudFormation 创建 Amazon ECS 资源
Amazon ECS 与 AWS CloudFormation 集成,该服务可用于使用您定义的模板对 AWS 资源进行建模和设置。这样,您可以花费更少的时间来创建和管理您的资源和基础设施。使用 AWS CloudFormation,您可以创建一个模板来描述您想要的所有 AWS 资源,例如特定的 Amazon ECS 集群。然后,AWS CloudFormation 会负责为您预置和配置这些资源。
当您使用 AWS CloudFormation 时,您可以重复使用您的模板以一致且可重复的方式设置您的 Amazon ECS 资源。您仅描述您的资源一次,然后跨多个 AWS 账户 和 AWS 区域 再次预置相同的资源。
AWS CloudFormation 模板
要为 Amazon ECS 和相关服务预置和配置资源,请确保您熟悉 AWS CloudFormation 模板。AWS CloudFormation 模板是 JSON 或者 YAML 格式的文本文件,描述您要在 AWS CloudFormation 堆栈中预置的资源。如果您不熟悉 JSON 或 YAML 格式,或两者都不熟悉,则可以使用 AWS CloudFormation Designer 开始使用 AWS CloudFormation 模板。有关更多信息,请参阅《AWS CloudFormation 用户指南》中的什么是 AWS CloudFormation Designer?。
Amazon ECS支持在 AWS CloudFormation 中创建集群、任务定义、服务和任务集。以下示例演示如何使用 AWS CLI 通过这些模板创建资源。您也可以使用 AWS CloudFormation 控制台创建这些资源。有关如何使用 AWS CloudFormation 控制台创建资源的更多信息,请参阅《AWS CloudFormation 用户指南》。
示例模板
使用单独的堆栈创建 Amazon ECS 资源
以下示例介绍如何通过对每个资源使用单独的堆栈来创建 Amazon ECS 资源。
任务定义
您可以使用以下模板来创建 Fargate Linux 任务。
- JSON
{ "AWSTemplateFormatVersion": "2010-09-09", "Resources": { "ECSTaskDefinition": { "Type": "AWS::ECS::TaskDefinition", "Properties": { "ContainerDefinitions": [ { "Command": [ "/bin/sh -c \"echo '<html> <head> <title>Amazon ECS Sample App</title> <style>body {margin-top: 40px; background-color: #333;} </style> </head><body> <div style=color:white;text-align:center> <h1>Amazon ECS Sample App</h1> <h2>Congratulations!</h2> <p>Your application is now running on a container in Amazon ECS.</p> </div></body></html>' > /usr/local/apache2/htdocs/index.html && httpd-foreground\"" ], "EntryPoint": [ "sh", "-c" ], "Essential": true, "Image": "httpd:2.4", "LogConfiguration": { "LogDriver": "awslogs", "Options": { "awslogs-group": "/ecs/fargate-task-definition", "awslogs-region": "us-east-1", "awslogs-stream-prefix": "ecs" } }, "Name": "sample-fargate-app", "PortMappings": [ { "ContainerPort": 80, "HostPort": 80, "Protocol": "tcp" } ] } ], "Cpu": 256, "ExecutionRoleArn": "arn:aws:iam::
aws_account_id
:role/ecsTaskExecutionRole", "Family": "task-definition-cfn", "Memory": 512, "NetworkMode": "awsvpc", "RequiresCompatibilities": [ "FARGATE" ], "RuntimePlatform": { "OperatingSystemFamily": "LINUX" } } } } }- YAML
AWSTemplateFormatVersion: 2010-09-09 Resources: ECSTaskDefinition: Type: 'AWS::ECS::TaskDefinition' Properties: ContainerDefinitions: - Command: - >- /bin/sh -c "echo '<html> <head> <title>Amazon ECS Sample App</title> <style>body {margin-top: 40px; background-color: #333;} </style> </head><body> <div style=color:white;text-align:center> <h1>Amazon ECS Sample App</h1> <h2>Congratulations!</h2> <p>Your application is now running on a container in Amazon ECS.</p> </div></body></html>' > /usr/local/apache2/htdocs/index.html && httpd-foreground" EntryPoint: - sh - '-c' Essential: true Image: 'httpd:2.4' LogConfiguration: LogDriver: awslogs Options: awslogs-group: /ecs/fargate-task-definition awslogs-region: us-east-1 awslogs-stream-prefix: ecs Name: sample-fargate-app PortMappings: - ContainerPort: 80 HostPort: 80 Protocol: tcp Cpu: 256 ExecutionRoleArn: 'arn:aws:iam::
aws_account_id
:role/ecsTaskExecutionRole' Family: task-definition-cfn Memory: 512 NetworkMode: awsvpc RequiresCompatibilities: - FARGATE RuntimePlatform: OperatingSystemFamily: LINUX
集群
您可以使用以下模板来创建空集群。
- JSON
-
{ "AWSTemplateFormatVersion": "2010-09-09", "Resources": { "ECSCluster": { "Type": "AWS::ECS::Cluster", "Properties": { "ClusterName": "MyEmptyCluster" } } } }
- YAML
-
AWSTemplateFormatVersion: 2010-09-09 Resources: ECSCluster: Type: 'AWS::ECS::Cluster' Properties: ClusterName: MyEmptyCluster
使用 AL2023 Amazon ECS-Optimized-AMI 创建集群
定义一个集群,该集群使用在 Amazon EC2 上启动 AL2023 实例的容量提供程序。
重要
有关最新的 AMI ID,请参阅《Amazon Elastic Container Service 开发人员指南》中的 Amazon ECS 优化的 AMI。
- JSON
-
{ "AWSTemplateFormatVersion": "2010-09-09", "Description": "EC2 ECS cluster that starts out empty, with no EC2 instances yet. An ECS capacity provider automatically launches more EC2 instances as required on the fly when you request ECS to launch services or standalone tasks.", "Parameters": { "InstanceType": { "Type": "String", "Description": "EC2 instance type", "Default": "t2.medium", "AllowedValues": [ "t1.micro", "t2.2xlarge", "t2.large", "t2.medium", "t2.micro", "t2.nano", "t2.small", "t2.xlarge", "t3.2xlarge", "t3.large", "t3.medium", "t3.micro", "t3.nano", "t3.small", "t3.xlarge" ] }, "DesiredCapacity": { "Type": "Number", "Default": "0", "Description": "Number of EC2 instances to launch in your ECS cluster." }, "MaxSize": { "Type": "Number", "Default": "100", "Description": "Maximum number of EC2 instances that can be launched in your ECS cluster." }, "ECSAMI": { "Description": "The Amazon Machine Image ID used for the cluster", "Type": "AWS::SSM::Parameter::Value<AWS::EC2::Image::Id>", "Default": "/aws/service/ecs/optimized-ami/amazon-linux-2023/recommended/image_id" }, "VpcId": { "Type": "AWS::EC2::VPC::Id", "Description": "VPC ID where the ECS cluster is launched", "Default": "vpc-1234567890abcdef0" }, "SubnetIds": { "Type": "List<AWS::EC2::Subnet::Id>", "Description": "List of subnet IDs where the EC2 instances will be launched", "Default": "subnet-021345abcdef67890" } }, "Resources": { "ECSCluster": { "Type": "AWS::ECS::Cluster", "Properties": { "ClusterSettings": [ { "Name": "containerInsights", "Value": "enabled" } ] } }, "ECSAutoScalingGroup": { "Type": "AWS::AutoScaling::AutoScalingGroup", "DependsOn": [ "ECSCluster", "EC2Role" ], "Properties": { "VPCZoneIdentifier": { "Ref": "SubnetIds" }, "LaunchTemplate": { "LaunchTemplateId": { "Ref": "ContainerInstances" }, "Version": { "Fn::GetAtt": [ "ContainerInstances", "LatestVersionNumber" ] } }, "MinSize": 0, "MaxSize": { "Ref": "MaxSize" }, "DesiredCapacity": { "Ref": "DesiredCapacity" }, "NewInstancesProtectedFromScaleIn": true }, "UpdatePolicy": { "AutoScalingReplacingUpdate": { "WillReplace": "true" } } }, "ContainerInstances": { "Type": "AWS::EC2::LaunchTemplate", "Properties": { "LaunchTemplateName": "asg-launch-template-2", "LaunchTemplateData": { "ImageId": { "Ref": "ECSAMI" }, "InstanceType": { "Ref": "InstanceType" }, "IamInstanceProfile": { "Name": { "Ref": "EC2InstanceProfile" } }, "SecurityGroupIds": [ { "Ref": "ContainerHostSecurityGroup" } ], "UserData": { "Fn::Base64": { "Fn::Sub": "#!/bin/bash -xe\n echo ECS_CLUSTER=${ECSCluster} >> /etc/ecs/ecs.config\n yum install -y aws-cfn-bootstrap\n /opt/aws/bin/cfn-init -v --stack ${AWS::StackId} --resource ContainerInstances --configsets full_install --region ${AWS::Region} &\n" } }, "MetadataOptions": { "HttpEndpoint": "enabled", "HttpTokens": "required" } } } }, "EC2InstanceProfile": { "Type": "AWS::IAM::InstanceProfile", "Properties": { "Path": "/", "Roles": [ { "Ref": "EC2Role" } ] } }, "CapacityProvider": { "Type": "AWS::ECS::CapacityProvider", "Properties": { "AutoScalingGroupProvider": { "AutoScalingGroupArn": { "Ref": "ECSAutoScalingGroup" }, "ManagedScaling": { "InstanceWarmupPeriod": 60, "MinimumScalingStepSize": 1, "MaximumScalingStepSize": 100, "Status": "ENABLED", "TargetCapacity": 100 }, "ManagedTerminationProtection": "ENABLED" } } }, "CapacityProviderAssociation": { "Type": "AWS::ECS::ClusterCapacityProviderAssociations", "Properties": { "CapacityProviders": [ { "Ref": "CapacityProvider" } ], "Cluster": { "Ref": "ECSCluster" }, "DefaultCapacityProviderStrategy": [ { "Base": 0, "CapacityProvider": { "Ref": "CapacityProvider" }, "Weight": 1 } ] } }, "ContainerHostSecurityGroup": { "Type": "AWS::EC2::SecurityGroup", "Properties": { "GroupDescription": "Access to the EC2 hosts that run containers", "VpcId": { "Ref": "VpcId" } } }, "EC2Role": { "Type": "AWS::IAM::Role", "Properties": { "AssumeRolePolicyDocument": { "Statement": [ { "Effect": "Allow", "Principal": { "Service": [ "ec2.amazonaws.com" ] }, "Action": [ "sts:AssumeRole" ] } ] }, "Path": "/", "ManagedPolicyArns": [ "arn:aws:iam::aws:policy/service-role/AmazonEC2ContainerServiceforEC2Role", "arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore" ] } }, "ECSTaskExecutionRole": { "Type": "AWS::IAM::Role", "Properties": { "AssumeRolePolicyDocument": { "Statement": [ { "Effect": "Allow", "Principal": { "Service": [ "ecs-tasks.amazonaws.com" ] }, "Action": [ "sts:AssumeRole" ], "Condition": { "ArnLike": { "aws:SourceArn": { "Fn::Sub": "arn:${AWS::Partition}:ecs:${AWS::Region}:${AWS::AccountId}:*" } }, "StringEquals": { "aws:SourceAccount": { "Fn::Sub": "${AWS::AccountId}" } } } } ] }, "Path": "/", "ManagedPolicyArns": [ "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy" ] } } }, "Outputs": { "ClusterName": { "Description": "The ECS cluster into which to launch resources", "Value": "ECSCluster" }, "ECSTaskExecutionRole": { "Description": "The role used to start up a task", "Value": "ECSTaskExecutionRole" }, "CapacityProvider": { "Description": "The cluster capacity provider that the service should use to request capacity when it wants to start up a task", "Value": "CapacityProvider" } } }
- YAML
-
AWSTemplateFormatVersion: '2010-09-09' Description: EC2 ECS cluster that starts out empty, with no EC2 instances yet. An ECS capacity provider automatically launches more EC2 instances as required on the fly when you request ECS to launch services or standalone tasks. Parameters: InstanceType: Type: String Description: EC2 instance type Default: t2.medium AllowedValues: - t1.micro - t2.2xlarge - t2.large - t2.medium - t2.micro - t2.nano - t2.small - t2.xlarge - t3.2xlarge - t3.large - t3.medium - t3.micro - t3.nano - t3.small - t3.xlarge DesiredCapacity: Type: Number Default: '0' Description: Number of EC2 instances to launch in your ECS cluster. MaxSize: Type: Number Default: '100' Description: Maximum number of EC2 instances that can be launched in your ECS cluster. ECSAMI: Description: The Amazon Machine Image ID used for the cluster Type: AWS::SSM::Parameter::Value<AWS::EC2::Image::Id> Default: /aws/service/ecs/optimized-ami/amazon-linux-2023/recommended/image_id VpcId: Type: AWS::EC2::VPC::Id Description: VPC ID where the ECS cluster is launched Default: vpc-1234567890abcdef0 SubnetIds: Type: List<AWS::EC2::Subnet::Id> Description: List of subnet IDs where the EC2 instances will be launched Default: subnet-021345abcdef67890 Resources: ECSCluster: Type: AWS::ECS::Cluster Properties: ClusterSettings: - Name: containerInsights Value: enabled ECSAutoScalingGroup: Type: AWS::AutoScaling::AutoScalingGroup DependsOn: - ECSCluster - EC2Role Properties: VPCZoneIdentifier: !Ref SubnetIds LaunchTemplate: LaunchTemplateId: !Ref ContainerInstances Version: !GetAtt ContainerInstances.LatestVersionNumber MinSize: 0 MaxSize: !Ref MaxSize DesiredCapacity: !Ref DesiredCapacity NewInstancesProtectedFromScaleIn: true UpdatePolicy: AutoScalingReplacingUpdate: WillReplace: 'true' ContainerInstances: Type: AWS::EC2::LaunchTemplate Properties: LaunchTemplateName: asg-launch-template-2 LaunchTemplateData: ImageId: !Ref ECSAMI InstanceType: !Ref InstanceType IamInstanceProfile: Name: !Ref EC2InstanceProfile SecurityGroupIds: - !Ref ContainerHostSecurityGroup UserData: !Base64 Fn::Sub: | #!/bin/bash -xe echo ECS_CLUSTER=${ECSCluster} >> /etc/ecs/ecs.config yum install -y aws-cfn-bootstrap /opt/aws/bin/cfn-init -v --stack ${AWS::StackId} --resource ContainerInstances --configsets full_install --region ${AWS::Region} & MetadataOptions: HttpEndpoint: enabled HttpTokens: required EC2InstanceProfile: Type: AWS::IAM::InstanceProfile Properties: Path: / Roles: - !Ref EC2Role CapacityProvider: Type: AWS::ECS::CapacityProvider Properties: AutoScalingGroupProvider: AutoScalingGroupArn: !Ref ECSAutoScalingGroup ManagedScaling: InstanceWarmupPeriod: 60 MinimumScalingStepSize: 1 MaximumScalingStepSize: 100 Status: ENABLED TargetCapacity: 100 ManagedTerminationProtection: ENABLED CapacityProviderAssociation: Type: AWS::ECS::ClusterCapacityProviderAssociations Properties: CapacityProviders: - !Ref CapacityProvider Cluster: !Ref ECSCluster DefaultCapacityProviderStrategy: - Base: 0 CapacityProvider: !Ref CapacityProvider Weight: 1 ContainerHostSecurityGroup: Type: AWS::EC2::SecurityGroup Properties: GroupDescription: Access to the EC2 hosts that run containers VpcId: !Ref VpcId EC2Role: Type: AWS::IAM::Role Properties: AssumeRolePolicyDocument: Statement: - Effect: Allow Principal: Service: - ec2.amazonaws.com Action: - sts:AssumeRole Path: / ManagedPolicyArns: - arn:aws:iam::aws:policy/service-role/AmazonEC2ContainerServiceforEC2Role - arn:aws:iam::aws:policy/AmazonSSMManagedInstanceCore ECSTaskExecutionRole: Type: AWS::IAM::Role Properties: AssumeRolePolicyDocument: Statement: - Effect: Allow Principal: Service: - ecs-tasks.amazonaws.com Action: - sts:AssumeRole Condition: ArnLike: aws:SourceArn: !Sub arn:${AWS::Partition}:ecs:${AWS::Region}:${AWS::AccountId}:* StringEquals: aws:SourceAccount: !Sub ${AWS::AccountId} Path: / ManagedPolicyArns: - arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy Outputs: ClusterName: Description: The ECS cluster into which to launch resources Value: ECSCluster ECSTaskExecutionRole: Description: The role used to start up a task Value: ECSTaskExecutionRole CapacityProvider: Description: The cluster capacity provider that the service should use to request capacity when it wants to start up a task Value: CapacityProvider
部署服务
以下模板定义了一项服务,该服务使用容量提供程序请求运行 AL2023 容量。容器将在 AL2023 实例上线时随之启动:
- JSON
-
{ "AWSTemplateFormatVersion": "2010-09-09", "Description": "An example service that deploys in AWS VPC networking mode on EC2 capacity. Service uses a capacity provider to request EC2 instances to run on. Service runs with networking in private subnets, but still accessible to the internet via a load balancer hosted in public subnets.", "Parameters": { "VpcId": { "Type": "String", "Description": "The VPC that the service is running inside of" }, "PublicSubnetIds": { "Type": "List<AWS::EC2::Subnet::Id>", "Description": "List of public subnet ID's to put the load balancer in" }, "PrivateSubnetIds": { "Type": "List<AWS::EC2::Subnet::Id>", "Description": "List of private subnet ID's that the AWS VPC tasks are in" }, "ClusterName": { "Type": "String", "Description": "The name of the ECS cluster into which to launch capacity." }, "ECSTaskExecutionRole": { "Type": "String", "Description": "The role used to start up an ECS task" }, "CapacityProvider": { "Type": "String", "Description": "The cluster capacity provider that the service should use to request capacity when it wants to start up a task" }, "ServiceName": { "Type": "String", "Default": "web", "Description": "A name for the service" }, "ImageUrl": { "Type": "String", "Default": "public.ecr.aws/docker/library/nginx:latest", "Description": "The url of a docker image that contains the application process that will handle the traffic for this service" }, "ContainerCpu": { "Type": "Number", "Default": 256, "Description": "How much CPU to give the container. 1024 is 1 CPU" }, "ContainerMemory": { "Type": "Number", "Default": 512, "Description": "How much memory in megabytes to give the container" }, "ContainerPort": { "Type": "Number", "Default": 80, "Description": "What port that the application expects traffic on" }, "DesiredCount": { "Type": "Number", "Default": 2, "Description": "How many copies of the service task to run" } }, "Resources": { "TaskDefinition": { "Type": "AWS::ECS::TaskDefinition", "Properties": { "Family": "ServiceName", "Cpu": "ContainerCpu", "Memory": "ContainerMemory", "NetworkMode": "awsvpc", "RequiresCompatibilities": [ "EC2" ], "ExecutionRoleArn": "ECSTaskExecutionRole", "ContainerDefinitions": [ { "Name": "ServiceName", "Cpu": "ContainerCpu", "Memory": "ContainerMemory", "Image": "ImageUrl", "PortMappings": [ { "ContainerPort": "ContainerPort", "HostPort": "ContainerPort" } ], "LogConfiguration": { "LogDriver": "awslogs", "Options": { "mode": "non-blocking", "max-buffer-size": "25m", "awslogs-group": "LogGroup", "awslogs-region": "AWS::Region", "awslogs-stream-prefix": "ServiceName" } } } ] } }, "Service": { "Type": "AWS::ECS::Service", "DependsOn": "PublicLoadBalancerListener", "Properties": { "ServiceName": "ServiceName", "Cluster": "ClusterName", "PlacementStrategies": [ { "Field": "attribute:ecs.availability-zone", "Type": "spread" }, { "Field": "cpu", "Type": "binpack" } ], "CapacityProviderStrategy": [ { "Base": 0, "CapacityProvider": "CapacityProvider", "Weight": 1 } ], "NetworkConfiguration": { "AwsvpcConfiguration": { "SecurityGroups": [ "ServiceSecurityGroup" ], "Subnets": "PrivateSubnetIds" } }, "DeploymentConfiguration": { "MaximumPercent": 200, "MinimumHealthyPercent": 75 }, "DesiredCount": "DesiredCount", "TaskDefinition": "TaskDefinition", "LoadBalancers": [ { "ContainerName": "ServiceName", "ContainerPort": "ContainerPort", "TargetGroupArn": "ServiceTargetGroup" } ] } }, "ServiceSecurityGroup": { "Type": "AWS::EC2::SecurityGroup", "Properties": { "GroupDescription": "Security group for service", "VpcId": "VpcId" } }, "ServiceTargetGroup": { "Type": "AWS::ElasticLoadBalancingV2::TargetGroup", "Properties": { "HealthCheckIntervalSeconds": 6, "HealthCheckPath": "/", "HealthCheckProtocol": "HTTP", "HealthCheckTimeoutSeconds": 5, "HealthyThresholdCount": 2, "TargetType": "ip", "Port": "ContainerPort", "Protocol": "HTTP", "UnhealthyThresholdCount": 10, "VpcId": "VpcId", "TargetGroupAttributes": [ { "Key": "deregistration_delay.timeout_seconds", "Value": 0 } ] } }, "PublicLoadBalancerSG": { "Type": "AWS::EC2::SecurityGroup", "Properties": { "GroupDescription": "Access to the public facing load balancer", "VpcId": "VpcId", "SecurityGroupIngress": [ { "CidrIp": "0.0.0.0/0", "IpProtocol": -1 } ] } }, "PublicLoadBalancer": { "Type": "AWS::ElasticLoadBalancingV2::LoadBalancer", "Properties": { "Scheme": "internet-facing", "LoadBalancerAttributes": [ { "Key": "idle_timeout.timeout_seconds", "Value": "30" } ], "Subnets": "PublicSubnetIds", "SecurityGroups": [ "PublicLoadBalancerSG" ] } }, "PublicLoadBalancerListener": { "Type": "AWS::ElasticLoadBalancingV2::Listener", "Properties": { "DefaultActions": [ { "Type": "forward", "ForwardConfig": { "TargetGroups": [ { "TargetGroupArn": "ServiceTargetGroup", "Weight": 100 } ] } } ], "LoadBalancerArn": "PublicLoadBalancer", "Port": 80, "Protocol": "HTTP" } }, "ServiceIngressfromLoadBalancer": { "Type": "AWS::EC2::SecurityGroupIngress", "Properties": { "Description": "Ingress from the public ALB", "GroupId": "ServiceSecurityGroup", "IpProtocol": -1, "SourceSecurityGroupId": "PublicLoadBalancerSG" } }, "LogGroup": { "Type": "AWS::Logs::LogGroup" } } }
- YAML
-
AWSTemplateFormatVersion: '2010-09-09' Description: >- An example service that deploys in AWS VPC networking mode on EC2 capacity. Service uses a capacity provider to request EC2 instances to run on. Service runs with networking in private subnets, but still accessible to the internet via a load balancer hosted in public subnets. Parameters: VpcId: Type: String Description: The VPC that the service is running inside of PublicSubnetIds: Type: 'List<AWS::EC2::Subnet::Id>' Description: List of public subnet ID's to put the load balancer in PrivateSubnetIds: Type: 'List<AWS::EC2::Subnet::Id>' Description: List of private subnet ID's that the AWS VPC tasks are in ClusterName: Type: String Description: The name of the ECS cluster into which to launch capacity. ECSTaskExecutionRole: Type: String Description: The role used to start up an ECS task CapacityProvider: Type: String Description: >- The cluster capacity provider that the service should use to request capacity when it wants to start up a task ServiceName: Type: String Default: web Description: A name for the service ImageUrl: Type: String Default: 'public.ecr.aws/docker/library/nginx:latest' Description: >- The url of a docker image that contains the application process that will handle the traffic for this service ContainerCpu: Type: Number Default: 256 Description: How much CPU to give the container. 1024 is 1 CPU ContainerMemory: Type: Number Default: 512 Description: How much memory in megabytes to give the container ContainerPort: Type: Number Default: 80 Description: What port that the application expects traffic on DesiredCount: Type: Number Default: 2 Description: How many copies of the service task to run Resources: TaskDefinition: Type: 'AWS::ECS::TaskDefinition' Properties: Family: !Ref ServiceName Cpu: !Ref ContainerCpu Memory: !Ref ContainerMemory NetworkMode: awsvpc RequiresCompatibilities: - EC2 ExecutionRoleArn: !Ref ECSTaskExecutionRole ContainerDefinitions: - Name: !Ref ServiceName Cpu: !Ref ContainerCpu Memory: !Ref ContainerMemory Image: !Ref ImageUrl PortMappings: - ContainerPort: !Ref ContainerPort HostPort: !Ref ContainerPort LogConfiguration: LogDriver: awslogs Options: mode: non-blocking max-buffer-size: 25m awslogs-group: !Ref LogGroup awslogs-region: !Ref AWS::Region awslogs-stream-prefix: !Ref ServiceName Service: Type: AWS::ECS::Service DependsOn: PublicLoadBalancerListener Properties: ServiceName: !Ref ServiceName Cluster: !Ref ClusterName PlacementStrategies: - Field: 'attribute:ecs.availability-zone' Type: spread - Field: cpu Type: binpack CapacityProviderStrategy: - Base: 0 CapacityProvider: !Ref CapacityProvider Weight: 1 NetworkConfiguration: AwsvpcConfiguration: SecurityGroups: - !Ref ServiceSecurityGroup Subnets: !Ref PrivateSubnetIds DeploymentConfiguration: MaximumPercent: 200 MinimumHealthyPercent: 75 DesiredCount: !Ref DesiredCount TaskDefinition: !Ref TaskDefinition LoadBalancers: - ContainerName: !Ref ServiceName ContainerPort: !Ref ContainerPort TargetGroupArn: !Ref ServiceTargetGroup ServiceSecurityGroup: Type: 'AWS::EC2::SecurityGroup' Properties: GroupDescription: Security group for service VpcId: !Ref VpcId ServiceTargetGroup: Type: 'AWS::ElasticLoadBalancingV2::TargetGroup' Properties: HealthCheckIntervalSeconds: 6 HealthCheckPath: / HealthCheckProtocol: HTTP HealthCheckTimeoutSeconds: 5 HealthyThresholdCount: 2 TargetType: ip Port: !Ref ContainerPort Protocol: HTTP UnhealthyThresholdCount: 10 VpcId: !Ref VpcId TargetGroupAttributes: - Key: deregistration_delay.timeout_seconds Value: 0 PublicLoadBalancerSG: Type: 'AWS::EC2::SecurityGroup' Properties: GroupDescription: Access to the public facing load balancer VpcId: !Ref VpcId SecurityGroupIngress: - CidrIp: 0.0.0.0/0 IpProtocol: -1 PublicLoadBalancer: Type: 'AWS::ElasticLoadBalancingV2::LoadBalancer' Properties: Scheme: internet-facing LoadBalancerAttributes: - Key: idle_timeout.timeout_seconds Value: '30' Subnets: !Ref PublicSubnetIds SecurityGroups: - !Ref PublicLoadBalancerSG PublicLoadBalancerListener: Type: 'AWS::ElasticLoadBalancingV2::Listener' Properties: DefaultActions: - Type: forward ForwardConfig: TargetGroups: - TargetGroupArn: !Ref ServiceTargetGroup Weight: 100 LoadBalancerArn: !Ref PublicLoadBalancer Port: 80 Protocol: HTTP ServiceIngressfromLoadBalancer: Type: 'AWS::EC2::SecurityGroupIngress' Properties: Description: Ingress from the public ALB GroupId: !Ref ServiceSecurityGroup IpProtocol: -1 SourceSecurityGroupId: !Ref PublicLoadBalancerSG LogGroup: Type: 'AWS::Logs::LogGroup'
在一个堆栈中创建多个 Amazon ECS 资源
您可以使用以下示例模板来在一个堆栈中创建多个 Amazon ECS 资源。该模板将创建名为 CFNCluster
的 Amazon ECS 集群。该集群包含设置 Web 服务器的 Linux Fargate 任务定义。该模板还会创建一个名为 cfn-service
的服务,其将启动并维护任务定义所定义的任务。在使用此模板之前,请确保服务的 NetworkConfiguration
中的子网和安全组 ID 全部都属于同一 VPC,且安全组具有必要的规则。有关安全组规则的更多信息,请参阅《Amazon VPC 用户指南》中的安全组规则。
- JSON
-
{ "AWSTemplateFormatVersion": "2010-09-09", "Resources": { "ECSCluster": { "Type": "AWS::ECS::Cluster", "Properties": { "ClusterName": "CFNCluster" } }, "ECSTaskDefinition": { "Type": "AWS::ECS::TaskDefinition", "Properties": { "ContainerDefinitions": [ { "Command": [ "/bin/sh -c \"echo '<html> <head> <title>Amazon ECS Sample App</title> <style>body {margin-top: 40px; background-color: #333;} </style> </head><body> <div style=color:white;text-align:center> <h1>Amazon ECS Sample App</h1> <h2>Congratulations!</h2> <p>Your application is now running on a container in Amazon ECS.</p> </div></body></html>' > /usr/local/apache2/htdocs/index.html && httpd-foreground\"" ], "EntryPoint": [ "sh", "-c" ], "Essential": true, "Image": "httpd:2.4", "LogConfiguration": { "LogDriver": "awslogs", "Options": { "awslogs-group": "/ecs/fargate-task-definition", "awslogs-region": "us-east-1", "awslogs-stream-prefix": "ecs" } }, "Name": "sample-fargate-app", "PortMappings": [ { "ContainerPort": 80, "HostPort": 80, "Protocol": "tcp" } ] } ], "Cpu": 256, "ExecutionRoleArn": "arn:aws:iam::
aws_account_id
::role/ecsTaskExecutionRole", "Family": "task-definition-cfn", "Memory": 512, "NetworkMode": "awsvpc", "RequiresCompatibilities": [ "FARGATE" ], "RuntimePlatform": { "OperatingSystemFamily": "LINUX" } } }, "ECSService": { "Type": "AWS::ECS::Service", "Properties": { "ServiceName": "cfn-service", "Cluster": { "Ref": "ECSCluster" }, "DesiredCount": 1, "LaunchType": "FARGATE", "NetworkConfiguration": { "AwsvpcConfiguration": { "AssignPublicIp": "ENABLED", "SecurityGroups": [ "sg-abcdef01234567890
" ], "Subnets": [ "subnet-abcdef01234567890
" ] } }, "TaskDefinition": { "Ref": "ECSTaskDefinition" } } } } } - YAML
AWSTemplateFormatVersion: 2010-09-09 Resources: ECSCluster: Type: 'AWS::ECS::Cluster' Properties: ClusterName: CFNCluster ECSTaskDefinition: Type: 'AWS::ECS::TaskDefinition' Properties: ContainerDefinitions: - Command: - >- /bin/sh -c "echo '<html> <head> <title>Amazon ECS Sample App</title> <style>body {margin-top: 40px; background-color: #333;} </style> </head><body> <div style=color:white;text-align:center> <h1>Amazon ECS Sample App</h1> <h2>Congratulations!</h2> <p>Your application is now running on a container in Amazon ECS.</p> </div></body></html>' > /usr/local/apache2/htdocs/index.html && httpd-foreground" EntryPoint: - sh - '-c' Essential: true Image: 'httpd:2.4' LogConfiguration: LogDriver: awslogs Options: awslogs-group: /ecs/fargate-task-definition awslogs-region: us-east-1 awslogs-stream-prefix: ecs Name: sample-fargate-app PortMappings: - ContainerPort: 80 HostPort: 80 Protocol: tcp Cpu: 256 ExecutionRoleArn: 'arn:aws:iam::
aws_account_id
:role/ecsTaskExecutionRole' Family: task-definition-cfn Memory: 512 NetworkMode: awsvpc RequiresCompatibilities: - FARGATE RuntimePlatform: OperatingSystemFamily: LINUX ECSService: Type: 'AWS::ECS::Service' Properties: ServiceName: cfn-service Cluster: !Ref ECSCluster DesiredCount: 1 LaunchType: FARGATE NetworkConfiguration: AwsvpcConfiguration: AssignPublicIp: ENABLED SecurityGroups: -sg-abcdef01234567890
Subnets: -subnet-abcdef01234567890
TaskDefinition: !Ref ECSTaskDefinition
使用 AWS CLI 从模板创建资源
以下命令将使用名为 ecs-template-body.json
的模板正文文件创建名为 ecs-stack
的堆栈。确保模板正文文件为 JSON 或 YAML 格式。文件的位置在 --template-body
参数中指定。在这种情况下,模板正文文件位于当前目录中。
aws cloudformation create-stack \ --stack-name
ecs-stack
\ --template-body file://ecs-template-body.json
要确保正确创建资源,请检查 Amazon ECS 控制台或者使用以下命令:
-
以下命令将列出所有任务定义。
aws ecs list-task-definitions
-
以下命令将列出所有集群。
aws ecs list-clusters
-
以下命令将列出集群
中定义的所有服务。将CFNCluster
替换为您要在其中创建服务的集群的名称。CFNCluster
aws ecs list-services \ --cluster
CFNCluster
了解有关 AWS CloudFormation 的更多信息
要了解有关 AWS CloudFormation 的更多信息,请参阅以下资源: