public MyStack()
{
var cluster = new Pulumi.Aws.Ecs.Cluster("app-cluster");
// Read back the default VPC and public subnets, which we will use.
var vpc = Output.Create(Pulumi.Aws.Ec2.GetVpc.InvokeAsync(new Pulumi.Aws.Ec2.GetVpcArgs {
Default = true
}));
var vpcId = vpc.Apply(vpc => vpc.Id);
var subnet = vpcId.Apply(id => Pulumi.Aws.Ec2.GetSubnetIds.InvokeAsync(new Pulumi.Aws.Ec2.GetSubnetIdsArgs {
VpcId = id
}));
var subnetIds = subnet.Apply(s => s.Ids);
// Create a SecurityGroup that permits HTTP ingress and unrestricted egress.
var webSg = new Pulumi.Aws.Ec2.SecurityGroup("web-sg", new Pulumi.Aws.Ec2.SecurityGroupArgs
{
VpcId = vpcId,
Egress =
{
new Pulumi.Aws.Ec2.Inputs.SecurityGroupEgressArgs
{
Protocol = "-1",
FromPort = 0,
ToPort = 0,
CidrBlocks ={ "0.0.0.0/0" }
}
},
Ingress =
{
new Pulumi.Aws.Ec2.Inputs.SecurityGroupIngressArgs
{
Protocol = "tcp",
FromPort = 80,
ToPort = 80,
CidrBlocks ={ "0.0.0.0/0" }
}
}
});
// Create a load balancer to listen for HTTP traffic on port 80.
var webLb = new Pulumi.Aws.LB.LoadBalancer("web-lb", new Pulumi.Aws.LB.LoadBalancerArgs
{
Subnets = subnetIds,
SecurityGroups = { webSg.Id }
});
var webTg = new Pulumi.Aws.LB.TargetGroup("web-tg", new Pulumi.Aws.LB.TargetGroupArgs
{
Port = 80,
Protocol = "HTTP",
TargetType = "ip",
VpcId = vpcId
});
var webListener = new Pulumi.Aws.LB.Listener("web-listener", new Pulumi.Aws.LB.ListenerArgs
{
LoadBalancerArn = webLb.Arn,
Port = 80,
DefaultActions =
{
new Pulumi.Aws.LB.Inputs.ListenerDefaultActionArgs
{
Type = "forward",
TargetGroupArn = webTg.Arn,
}
}
});
}
public FargateStack()
{
// Read back the default VPC and public subnets, which we will use.
var vpc = Output.Create(Ec2.GetVpc.InvokeAsync(new Ec2.GetVpcArgs {
Default = true
}));
var vpcId = vpc.Apply(vpc => vpc.Id);
var subnet = vpcId.Apply(id => Ec2.GetSubnetIds.InvokeAsync(new Ec2.GetSubnetIdsArgs {
VpcId = id
}));
var subnetIds = subnet.Apply(s => s.Ids);
// Create a SecurityGroup that permits HTTP ingress and unrestricted egress.
var webSg = new Ec2.SecurityGroup("web-sg", new Ec2.SecurityGroupArgs
{
VpcId = vpcId,
Egress =
{
new Ec2.Inputs.SecurityGroupEgressArgs
{
Protocol = "-1",
FromPort = 0,
ToPort = 0,
CidrBlocks ={ "0.0.0.0/0" }
}
},
Ingress =
{
new Ec2.Inputs.SecurityGroupIngressArgs
{
Protocol = "tcp",
FromPort = 80,
ToPort = 80,
CidrBlocks ={ "0.0.0.0/0" }
}
}
});
// Create an ECS cluster to run a container-based service.
var cluster = new Ecs.Cluster("app-cluster");
// Create an IAM role that can be used by our service's task.
var taskExecRole = new Iam.Role("task-exec-role", new Iam.RoleArgs
{
AssumeRolePolicy = @"{
""Version"": ""2008-10-17"",
""Statement"": [{
""Sid"": """",
""Effect"": ""Allow"",
""Principal"": {
""Service"": ""ecs-tasks.amazonaws.com""
},
""Action"": ""sts:AssumeRole""
}]
}"
});
var taskExecAttach = new Iam.RolePolicyAttachment("task-exec-policy", new Iam.RolePolicyAttachmentArgs
{
Role = taskExecRole.Name,
PolicyArn = "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy"
});
// Create a load balancer to listen for HTTP traffic on port 80.
var webLb = new Elb.LoadBalancer("web-lb", new Elb.LoadBalancerArgs
{
Subnets = subnetIds,
SecurityGroups = { webSg.Id }
});
var webTg = new Elb.TargetGroup("web-tg", new Elb.TargetGroupArgs
{
Port = 80,
Protocol = "HTTP",
TargetType = "ip",
VpcId = vpcId
});
var webListener = new Elb.Listener("web-listener", new Elb.ListenerArgs
{
LoadBalancerArn = webLb.Arn,
Port = 80,
DefaultActions =
{
new Elb.Inputs.ListenerDefaultActionArgs
{
Type = "forward",
TargetGroupArn = webTg.Arn,
}
}
});
// Create a private ECR registry and build and publish our app's container image to it.
var appRepo = new Ecr.Repository("app-repo");
var appRepoCredentials = appRepo.RegistryId.Apply(async rid =>
{
var credentials = await Ecr.GetCredentials.InvokeAsync(new Ecr.GetCredentialsArgs {
RegistryId = rid
});
var data = Convert.FromBase64String(credentials.AuthorizationToken);
return(Encoding.UTF8.GetString(data).Split(":").ToImmutableArray());
});
var image = new Docker.Image("app-img", new Docker.ImageArgs
{
Build = "../App",
ImageName = appRepo.RepositoryUrl,
Registry = new Docker.ImageRegistry
{
Server = appRepo.RepositoryUrl,
Username = appRepoCredentials.GetAt(0),
Password = appRepoCredentials.GetAt(1)
}
});
// Spin up a load balanced service running our container image.
var appTask = new Ecs.TaskDefinition("app-task", new Ecs.TaskDefinitionArgs
{
Family = "fargate-task-definition",
Cpu = "256",
Memory = "512",
NetworkMode = "awsvpc",
RequiresCompatibilities = { "FARGATE" },
ExecutionRoleArn = taskExecRole.Arn,
ContainerDefinitions = image.ImageName.Apply(imageName => @"[{
""name"": ""my-app"",
""image"": """ + imageName + @""",
""portMappings"": [{
""containerPort"": 80,
""hostPort"": 80,
""protocol"": ""tcp""
}]
}]")
});
var appSvc = new Ecs.Service("app-svc", new Ecs.ServiceArgs
{
Cluster = cluster.Arn,
DesiredCount = 3,
LaunchType = "FARGATE",
TaskDefinition = appTask.Arn,
NetworkConfiguration = new Ecs.Inputs.ServiceNetworkConfigurationArgs
{
AssignPublicIp = true,
Subnets = subnetIds,
SecurityGroups = { webSg.Id }
},
LoadBalancers =
{
new Ecs.Inputs.ServiceLoadBalancerArgs
{
TargetGroupArn = webTg.Arn,
ContainerName = "my-app",
ContainerPort = 80
}
}
}, new CustomResourceOptions {
DependsOn = { webListener }
});
// Export the resulting web address.
this.Url = Output.Format($"http://{webLb.DnsName}");
}
public MyStack()
{
var vpc = Output.Create(Aws.Ec2.GetVpc.InvokeAsync(new Aws.Ec2.GetVpcArgs
{
Default = true,
}));
var subnets = vpc.Apply(vpc => Output.Create(Aws.Ec2.GetSubnetIds.InvokeAsync(new Aws.Ec2.GetSubnetIdsArgs
{
VpcId = vpc.Id,
})));
// Create a security group that permits HTTP ingress and unrestricted egress.
var webSecurityGroup = new Aws.Ec2.SecurityGroup("webSecurityGroup", new Aws.Ec2.SecurityGroupArgs
{
VpcId = vpc.Apply(vpc => vpc.Id),
Egress =
{
new Aws.Ec2.Inputs.SecurityGroupEgressArgs
{
Protocol = "-1",
FromPort = 0,
ToPort = 0,
CidrBlocks =
{
"0.0.0.0/0",
},
},
},
Ingress =
{
new Aws.Ec2.Inputs.SecurityGroupIngressArgs
{
Protocol = "tcp",
FromPort = 80,
ToPort = 80,
CidrBlocks =
{
"0.0.0.0/0",
},
},
},
});
// Create an ECS cluster to run a container-based service.
var cluster = new Aws.Ecs.Cluster("cluster", new Aws.Ecs.ClusterArgs
{
});
// Create an IAM role that can be used by our service's task.
var taskExecRole = new Aws.Iam.Role("taskExecRole", new Aws.Iam.RoleArgs
{
AssumeRolePolicy = JsonSerializer.Serialize(new Dictionary <string, object?>
{
{ "Version", "2008-10-17" },
{ "Statement", new[]
{
new Dictionary <string, object?>
{
{ "Sid", "" },
{ "Effect", "Allow" },
{ "Principal", new Dictionary <string, object?>
{
{ "Service", "ecs-tasks.amazonaws.com" },
} },
{ "Action", "sts:AssumeRole" },
},
} },
}),
});
var taskExecRolePolicyAttachment = new Aws.Iam.RolePolicyAttachment("taskExecRolePolicyAttachment", new Aws.Iam.RolePolicyAttachmentArgs
{
Role = taskExecRole.Name,
PolicyArn = "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy",
});
// Create a load balancer to listen for HTTP traffic on port 80.
var webLoadBalancer = new Aws.ElasticLoadBalancingV2.LoadBalancer("webLoadBalancer", new Aws.ElasticLoadBalancingV2.LoadBalancerArgs
{
Subnets = subnets.Apply(subnets => subnets.Ids),
SecurityGroups =
{
webSecurityGroup.Id,
},
});
var webTargetGroup = new Aws.ElasticLoadBalancingV2.TargetGroup("webTargetGroup", new Aws.ElasticLoadBalancingV2.TargetGroupArgs
{
Port = 80,
Protocol = "HTTP",
TargetType = "ip",
VpcId = vpc.Apply(vpc => vpc.Id),
});
var webListener = new Aws.ElasticLoadBalancingV2.Listener("webListener", new Aws.ElasticLoadBalancingV2.ListenerArgs
{
LoadBalancerArn = webLoadBalancer.Arn,
Port = 80,
DefaultActions =
{
new Aws.ElasticLoadBalancingV2.Inputs.ListenerDefaultActionArgs
{
Type = "forward",
TargetGroupArn = webTargetGroup.Arn,
},
},
});
// Spin up a load balanced service running NGINX
var appTask = new Aws.Ecs.TaskDefinition("appTask", new Aws.Ecs.TaskDefinitionArgs
{
Family = "fargate-task-definition",
Cpu = "256",
Memory = "512",
NetworkMode = "awsvpc",
RequiresCompatibilities =
{
"FARGATE",
},
ExecutionRoleArn = taskExecRole.Arn,
ContainerDefinitions = JsonSerializer.Serialize(new[]
{
new Dictionary <string, object?>
{
{ "name", "my-app" },
{ "image", "nginx" },
{ "portMappings", new[]
{
new Dictionary <string, object?>
{
{ "containerPort", 80 },
{ "hostPort", 80 },
{ "protocol", "tcp" },
},
} },
},
}
),
});
var appService = new Aws.Ecs.Service("appService", new Aws.Ecs.ServiceArgs
{
Cluster = cluster.Arn,
DesiredCount = 5,
LaunchType = "FARGATE",
TaskDefinition = appTask.Arn,
NetworkConfiguration = new Aws.Ecs.Inputs.ServiceNetworkConfigurationArgs
{
AssignPublicIp = true,
Subnets = subnets.Apply(subnets => subnets.Ids),
SecurityGroups =
{
webSecurityGroup.Id,
},
},
LoadBalancers =
{
new Aws.Ecs.Inputs.ServiceLoadBalancerArgs
{
TargetGroupArn = webTargetGroup.Arn,
ContainerName = "my-app",
ContainerPort = 80,
},
},
}, new CustomResourceOptions
{
DependsOn =
{
webListener,
},
});
this.Url = webLoadBalancer.DnsName;
}
public MyStack()
{
var cluster = new Pulumi.Aws.Ecs.Cluster("app-cluster");
// Read back the default VPC and public subnets, which we will use.
var vpc = Output.Create(Pulumi.Aws.Ec2.GetVpc.InvokeAsync(new Pulumi.Aws.Ec2.GetVpcArgs {
Default = true
}));
var vpcId = vpc.Apply(vpc => vpc.Id);
var subnet = vpcId.Apply(id => Pulumi.Aws.Ec2.GetSubnetIds.InvokeAsync(new Pulumi.Aws.Ec2.GetSubnetIdsArgs {
VpcId = id
}));
var subnetIds = subnet.Apply(s => s.Ids);
// Create a SecurityGroup that permits HTTP ingress and unrestricted egress.
var webSg = new Pulumi.Aws.Ec2.SecurityGroup("web-sg", new Pulumi.Aws.Ec2.SecurityGroupArgs
{
VpcId = vpcId,
Egress =
{
new Pulumi.Aws.Ec2.Inputs.SecurityGroupEgressArgs
{
Protocol = "-1",
FromPort = 0,
ToPort = 0,
CidrBlocks ={ "0.0.0.0/0" }
}
},
Ingress =
{
new Pulumi.Aws.Ec2.Inputs.SecurityGroupIngressArgs
{
Protocol = "tcp",
FromPort = 80,
ToPort = 80,
CidrBlocks ={ "0.0.0.0/0" }
}
}
});
// Create a load balancer to listen for HTTP traffic on port 80.
var webLb = new Pulumi.Aws.LB.LoadBalancer("web-lb", new Pulumi.Aws.LB.LoadBalancerArgs
{
Subnets = subnetIds,
SecurityGroups = { webSg.Id }
});
var webTg = new Pulumi.Aws.LB.TargetGroup("web-tg", new Pulumi.Aws.LB.TargetGroupArgs
{
Port = 80,
Protocol = "HTTP",
TargetType = "ip",
VpcId = vpcId
});
var webListener = new Pulumi.Aws.LB.Listener("web-listener", new Pulumi.Aws.LB.ListenerArgs
{
LoadBalancerArn = webLb.Arn,
Port = 80,
DefaultActions =
{
new Pulumi.Aws.LB.Inputs.ListenerDefaultActionsArgs
{
Type = "forward",
TargetGroupArn = webTg.Arn,
}
}
});
// Create an IAM role that can be used by our service's task.
var taskExecRole = new Pulumi.Aws.Iam.Role("task-exec-role", new Pulumi.Aws.Iam.RoleArgs
{
AssumeRolePolicy = @"{
""Version"": ""2008-10-17"",
""Statement"": [{
""Sid"": """",
""Effect"": ""Allow"",
""Principal"": {
""Service"": ""ecs-tasks.amazonaws.com""
},
""Action"": ""sts:AssumeRole""
}]
}"
});
var taskExecAttach = new Pulumi.Aws.Iam.RolePolicyAttachment("task-exec-policy", new Pulumi.Aws.Iam.RolePolicyAttachmentArgs
{
Role = taskExecRole.Name,
PolicyArn = "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy"
});
// Spin up a load balanced service running our container image.
var appTask = new Pulumi.Aws.Ecs.TaskDefinition("app-task", new Pulumi.Aws.Ecs.TaskDefinitionArgs
{
Family = "fargate-task-definition",
Cpu = "256",
Memory = "512",
NetworkMode = "awsvpc",
RequiresCompatibilities = { "FARGATE" },
ExecutionRoleArn = taskExecRole.Arn,
ContainerDefinitions = @"[{
""name"": ""my-app"",
""image"": ""nginx"",
""portMappings"": [{
""containerPort"": 80,
""hostPort"": 80,
""protocol"": ""tcp""
}]
}]",
});
var appSvc = new Pulumi.Aws.Ecs.Service("app-svc", new Pulumi.Aws.Ecs.ServiceArgs
{
Cluster = cluster.Arn,
DesiredCount = 1,
LaunchType = "FARGATE",
TaskDefinition = appTask.Arn,
NetworkConfiguration = new Pulumi.Aws.Ecs.Inputs.ServiceNetworkConfigurationArgs
{
AssignPublicIp = true,
Subnets = subnetIds,
SecurityGroups = { webSg.Id }
},
LoadBalancers =
{
new Pulumi.Aws.Ecs.Inputs.ServiceLoadBalancersArgs
{
TargetGroupArn = webTg.Arn,
ContainerName = "my-app",
ContainerPort = 80
}
}
}, new CustomResourceOptions {
DependsOn = { webListener }
});
// Export the resulting web address.
this.Url = Output.Format($"http://{webLb.DnsName}");
}
public MyStack()
{
var cluster = new Pulumi.Aws.Ecs.Cluster("app-cluster");
}
private static void ConfigureEcsCluster()
{
cluster = new Ecs.Cluster($"{baseName}-cluster", null, new CustomResourceOptions());
// Create a SecurityGroup that permits HTTP ingress and unrestricted egress.
var webSg = new Ec2.SecurityGroup($"{baseName}-web-sg", new Ec2.SecurityGroupArgs
{
VpcId = vpcId,
Egress =
{
new Ec2.Inputs.SecurityGroupEgressArgs
{
Protocol = "-1",
FromPort = 0,
ToPort = 0,
CidrBlocks ={ "0.0.0.0/0" },
},
},
Ingress =
{
new Ec2.Inputs.SecurityGroupIngressArgs
{
Protocol = "tcp",
FromPort = 80,
ToPort = 80,
CidrBlocks ={ "0.0.0.0/0" },
},
},
});
// Create an IAM role that can be used by our service's task.
var taskExecRole = new Iam.Role($"{baseName}-task-exec-role", new Iam.RoleArgs
{
AssumeRolePolicy = File.ReadAllText("perm.json"),
});
var taskExecAttach = new Iam.RolePolicyAttachment($"{baseName}-task-exec-policy", new Iam.RolePolicyAttachmentArgs
{
Role = taskExecRole.Name,
PolicyArn = "arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy",
});
// Create a load balancer to listen for HTTP traffic on port 80.
var webLb = new Elb.LoadBalancer($"{baseName}-web-lb", new Elb.LoadBalancerArgs
{
Subnets = new InputList <string>()
{
subnetId, subnetTwoId
},
SecurityGroups = { webSg.Id },
});
var webTg = new Elb.TargetGroup($"{baseName}-web-tg", new Elb.TargetGroupArgs
{
Port = 80,
Protocol = "HTTP",
TargetType = "ip",
VpcId = vpcId,
});
var webListener = new Elb.Listener($"{baseName}-web-listener", new Elb.ListenerArgs
{
LoadBalancerArn = webLb.Arn,
Port = 80,
DefaultActions =
{
new Elb.Inputs.ListenerDefaultActionsArgs
{
Type = "forward",
TargetGroupArn = webTg.Arn,
},
},
});
var launchConfig = new Ec2.LaunchConfiguration($"{baseName}-launchconfig", new Ec2.LaunchConfigurationArgs()
{
ImageId = "ami-a1491ad2",
InstanceType = "t2.nano",
AssociatePublicIpAddress = true,
SecurityGroups = webSg.Id,
});
var scalingGroup = new Group($"{baseName}-autoscaling", new GroupArgs()
{
AvailabilityZones = new InputList <string>()
{
"eu-west-1a", "eu-west-1b"
},
VpcZoneIdentifiers = new InputList <string>()
{
subnetId, subnetTwoId
},
DesiredCapacity = 1,
LaunchConfiguration = launchConfig.Id,
MaxSize = 1,
MinSize = 0,
});
// Spin up a load balanced service running our container image.
var appTask = new Ecs.TaskDefinition($"{baseName}-app-task", new Ecs.TaskDefinitionArgs
{
Family = "fargate-task-definition",
Cpu = "256",
Memory = "512",
NetworkMode = "awsvpc",
RequiresCompatibilities = { "FARGATE", "EC2" },
ExecutionRoleArn = taskExecRole.Arn,
ContainerDefinitions = @"[{
""name"": ""my-app"",
""image"": ""nginx"",
""portMappings"": [{
""containerPort"": 80,
""hostPort"": 80,
""protocol"": ""tcp""
}]
}]",
});
var ec2Svc = new Ecs.Service($"{baseName}-ec2-svc", new Ecs.ServiceArgs()
{
Cluster = cluster.Arn,
DesiredCount = 1,
LaunchType = "EC2",
TaskDefinition = appTask.Arn,
NetworkConfiguration = new Ecs.Inputs.ServiceNetworkConfigurationArgs
{
Subnets = new InputList <string>()
{
subnetId, subnetTwoId
},
SecurityGroups = { webSg.Id },
},
LoadBalancers =
{
new Ecs.Inputs.ServiceLoadBalancersArgs
{
TargetGroupArn = webTg.Arn,
ContainerName = "my-app",
ContainerPort = 80,
},
},
}, new CustomResourceOptions {
DependsOn = { webListener }
});
}
public MyStack()
{
var foo = new Aws.Ecs.Cluster("foo", new Aws.Ecs.ClusterArgs
{
});
}