ECS / Client / update_service
update_service#
- ECS.Client.update_service(**kwargs)#
Modifies the parameters of a service.
Note
On March 21, 2024, a change was made to resolve the task definition revision before authorization. When a task definition revision is not specified, authorization will occur using the latest revision of a task definition.
For services using the rolling update (
ECS
) you can update the desired count, deployment configuration, network configuration, load balancers, service registries, enable ECS managed tags option, propagate tags option, task placement constraints and strategies, and task definition. When you update any of these parameters, Amazon ECS starts new tasks with the new configuration.You can attach Amazon EBS volumes to Amazon ECS tasks by configuring the volume when starting or running a task, or when creating or updating a service. For more infomation, see Amazon EBS volumes in the Amazon Elastic Container Service Developer Guide. You can update your volume configurations and trigger a new deployment.
volumeConfigurations
is only supported for REPLICA service and not DAEMON service. If you leavevolumeConfigurations
null
, it doesn’t trigger a new deployment. For more infomation on volumes, see Amazon EBS volumes in the Amazon Elastic Container Service Developer Guide.For services using the blue/green (
CODE_DEPLOY
) deployment controller, only the desired count, deployment configuration, health check grace period, task placement constraints and strategies, enable ECS managed tags option, and propagate tags can be updated using this API. If the network configuration, platform version, task definition, or load balancer need to be updated, create a new CodeDeploy deployment. For more information, see CreateDeployment in the CodeDeploy API Reference.For services using an external deployment controller, you can update only the desired count, task placement constraints and strategies, health check grace period, enable ECS managed tags option, and propagate tags option, using this API. If the launch type, load balancer, network configuration, platform version, or task definition need to be updated, create a new task set For more information, see CreateTaskSet.
You can add to or subtract from the number of instantiations of a task definition in a service by specifying the cluster that the service is running in and a new
desiredCount
parameter.You can attach Amazon EBS volumes to Amazon ECS tasks by configuring the volume when starting or running a task, or when creating or updating a service. For more infomation, see Amazon EBS volumes in the Amazon Elastic Container Service Developer Guide.
If you have updated the container image of your application, you can create a new task definition with that image and deploy it to your service. The service scheduler uses the minimum healthy percent and maximum percent parameters (in the service’s deployment configuration) to determine the deployment strategy.
Note
If your updated Docker image uses the same tag as what is in the existing task definition for your service (for example,
my_image:latest
), you don’t need to create a new revision of your task definition. You can update the service using theforceNewDeployment
option. The new tasks launched by the deployment pull the current image/tag combination from your repository when they start.You can also update the deployment configuration of a service. When a deployment is triggered by updating the task definition of a service, the service scheduler uses the deployment configuration parameters,
minimumHealthyPercent
andmaximumPercent
, to determine the deployment strategy.If
minimumHealthyPercent
is below 100%, the scheduler can ignoredesiredCount
temporarily during a deployment. For example, ifdesiredCount
is four tasks, a minimum of 50% allows the scheduler to stop two existing tasks before starting two new tasks. Tasks for services that don’t use a load balancer are considered healthy if they’re in theRUNNING
state. Tasks for services that use a load balancer are considered healthy if they’re in theRUNNING
state and are reported as healthy by the load balancer.The
maximumPercent
parameter represents an upper limit on the number of running tasks during a deployment. You can use it to define the deployment batch size. For example, ifdesiredCount
is four tasks, a maximum of 200% starts four new tasks before stopping the four older tasks (provided that the cluster resources required to do this are available).
When UpdateService stops a task during a deployment, the equivalent of
docker stop
is issued to the containers running in the task. This results in aSIGTERM
and a 30-second timeout. After this,SIGKILL
is sent and the containers are forcibly stopped. If the container handles theSIGTERM
gracefully and exits within 30 seconds from receiving it, noSIGKILL
is sent.When the service scheduler launches new tasks, it determines task placement in your cluster with the following logic.
Determine which of the container instances in your cluster can support your service’s task definition. For example, they have the required CPU, memory, ports, and container instance attributes.
By default, the service scheduler attempts to balance tasks across Availability Zones in this manner even though you can choose a different placement strategy.
Sort the valid container instances by the fewest number of running tasks for this service in the same Availability Zone as the instance. For example, if zone A has one running service task and zones B and C each have zero, valid container instances in either zone B or C are considered optimal for placement.
Place the new service task on a valid container instance in an optimal Availability Zone (based on the previous steps), favoring container instances with the fewest number of running tasks for this service.
When the service scheduler stops running tasks, it attempts to maintain balance across the Availability Zones in your cluster using the following logic:
Sort the container instances by the largest number of running tasks for this service in the same Availability Zone as the instance. For example, if zone A has one running service task and zones B and C each have two, container instances in either zone B or C are considered optimal for termination.
Stop the task on a container instance in an optimal Availability Zone (based on the previous steps), favoring container instances with the largest number of running tasks for this service.
Note
You must have a service-linked role when you update any of the following service properties:
loadBalancers
,serviceRegistries
For more information about the role see the
CreateService
request parameter role.See also: AWS API Documentation
Request Syntax
response = client.update_service( cluster='string', service='string', desiredCount=123, taskDefinition='string', capacityProviderStrategy=[ { 'capacityProvider': 'string', 'weight': 123, 'base': 123 }, ], deploymentConfiguration={ 'deploymentCircuitBreaker': { 'enable': True|False, 'rollback': True|False }, 'maximumPercent': 123, 'minimumHealthyPercent': 123, 'alarms': { 'alarmNames': [ 'string', ], 'rollback': True|False, 'enable': True|False } }, networkConfiguration={ 'awsvpcConfiguration': { 'subnets': [ 'string', ], 'securityGroups': [ 'string', ], 'assignPublicIp': 'ENABLED'|'DISABLED' } }, placementConstraints=[ { 'type': 'distinctInstance'|'memberOf', 'expression': 'string' }, ], placementStrategy=[ { 'type': 'random'|'spread'|'binpack', 'field': 'string' }, ], platformVersion='string', forceNewDeployment=True|False, healthCheckGracePeriodSeconds=123, enableExecuteCommand=True|False, enableECSManagedTags=True|False, loadBalancers=[ { 'targetGroupArn': 'string', 'loadBalancerName': 'string', 'containerName': 'string', 'containerPort': 123 }, ], propagateTags='TASK_DEFINITION'|'SERVICE'|'NONE', serviceRegistries=[ { 'registryArn': 'string', 'port': 123, 'containerName': 'string', 'containerPort': 123 }, ], serviceConnectConfiguration={ 'enabled': True|False, 'namespace': 'string', 'services': [ { 'portName': 'string', 'discoveryName': 'string', 'clientAliases': [ { 'port': 123, 'dnsName': 'string' }, ], 'ingressPortOverride': 123, 'timeout': { 'idleTimeoutSeconds': 123, 'perRequestTimeoutSeconds': 123 }, 'tls': { 'issuerCertificateAuthority': { 'awsPcaAuthorityArn': 'string' }, 'kmsKey': 'string', 'roleArn': 'string' } }, ], 'logConfiguration': { 'logDriver': 'json-file'|'syslog'|'journald'|'gelf'|'fluentd'|'awslogs'|'splunk'|'awsfirelens', 'options': { 'string': 'string' }, 'secretOptions': [ { 'name': 'string', 'valueFrom': 'string' }, ] } }, volumeConfigurations=[ { 'name': 'string', 'managedEBSVolume': { 'encrypted': True|False, 'kmsKeyId': 'string', 'volumeType': 'string', 'sizeInGiB': 123, 'snapshotId': 'string', 'iops': 123, 'throughput': 123, 'tagSpecifications': [ { 'resourceType': 'volume', 'tags': [ { 'key': 'string', 'value': 'string' }, ], 'propagateTags': 'TASK_DEFINITION'|'SERVICE'|'NONE' }, ], 'roleArn': 'string', 'filesystemType': 'ext3'|'ext4'|'xfs'|'ntfs' } }, ] )
- type cluster:
string
- param cluster:
The short name or full Amazon Resource Name (ARN) of the cluster that your service runs on. If you do not specify a cluster, the default cluster is assumed.
- type service:
string
- param service:
[REQUIRED]
The name of the service to update.
- type desiredCount:
integer
- param desiredCount:
The number of instantiations of the task to place and keep running in your service.
- type taskDefinition:
string
- param taskDefinition:
The
family
andrevision
(family:revision
) or full ARN of the task definition to run in your service. If arevision
is not specified, the latestACTIVE
revision is used. If you modify the task definition withUpdateService
, Amazon ECS spawns a task with the new version of the task definition and then stops an old task after the new version is running.- type capacityProviderStrategy:
list
- param capacityProviderStrategy:
The capacity provider strategy to update the service to use.
if the service uses the default capacity provider strategy for the cluster, the service can be updated to use one or more capacity providers as opposed to the default capacity provider strategy. However, when a service is using a capacity provider strategy that’s not the default capacity provider strategy, the service can’t be updated to use the cluster’s default capacity provider strategy.
A capacity provider strategy consists of one or more capacity providers along with the
base
andweight
to assign to them. A capacity provider must be associated with the cluster to be used in a capacity provider strategy. The PutClusterCapacityProviders API is used to associate a capacity provider with a cluster. Only capacity providers with anACTIVE
orUPDATING
status can be used.If specifying a capacity provider that uses an Auto Scaling group, the capacity provider must already be created. New capacity providers can be created with the CreateClusterCapacityProvider API operation.
To use a Fargate capacity provider, specify either the
FARGATE
orFARGATE_SPOT
capacity providers. The Fargate capacity providers are available to all accounts and only need to be associated with a cluster to be used.The `PutClusterCapacityProviders <https://docs.aws.amazon.com/AmazonECS/latest/APIReference/API_PutClusterCapacityProviders.html>`__API operation is used to update the list of available capacity providers for a cluster after the cluster is created.
(dict) –
The details of a capacity provider strategy. A capacity provider strategy can be set when using the RunTask <https://docs.aws.amazon.com/AmazonECS/latest/APIReference/API_RunTask.html>`__or `CreateCluster APIs or as the default capacity provider strategy for a cluster with the
CreateCluster
API.Only capacity providers that are already associated with a cluster and have an
ACTIVE
orUPDATING
status can be used in a capacity provider strategy. The PutClusterCapacityProviders API is used to associate a capacity provider with a cluster.If specifying a capacity provider that uses an Auto Scaling group, the capacity provider must already be created. New Auto Scaling group capacity providers can be created with the CreateClusterCapacityProvider API operation.
To use a Fargate capacity provider, specify either the
FARGATE
orFARGATE_SPOT
capacity providers. The Fargate capacity providers are available to all accounts and only need to be associated with a cluster to be used in a capacity provider strategy.With
FARGATE_SPOT
, you can run interruption tolerant tasks at a rate that’s discounted compared to theFARGATE
price.FARGATE_SPOT
runs tasks on spare compute capacity. When Amazon Web Services needs the capacity back, your tasks are interrupted with a two-minute warning.FARGATE_SPOT
supports Linux tasks with the X86_64 architecture on platform version 1.3.0 or later.FARGATE_SPOT
supports Linux tasks with the ARM64 architecture on platform version 1.4.0 or later.A capacity provider strategy may contain a maximum of 6 capacity providers.
capacityProvider (string) – [REQUIRED]
The short name of the capacity provider.
weight (integer) –
The weight value designates the relative percentage of the total number of tasks launched that should use the specified capacity provider. The
weight
value is taken into consideration after thebase
value, if defined, is satisfied.If no
weight
value is specified, the default value of0
is used. When multiple capacity providers are specified within a capacity provider strategy, at least one of the capacity providers must have a weight value greater than zero and any capacity providers with a weight of0
can’t be used to place tasks. If you specify multiple capacity providers in a strategy that all have a weight of0
, anyRunTask
orCreateService
actions using the capacity provider strategy will fail.An example scenario for using weights is defining a strategy that contains two capacity providers and both have a weight of
1
, then when thebase
is satisfied, the tasks will be split evenly across the two capacity providers. Using that same logic, if you specify a weight of1
for capacityProviderA and a weight of4
for capacityProviderB, then for every one task that’s run using capacityProviderA, four tasks would use capacityProviderB.base (integer) –
The base value designates how many tasks, at a minimum, to run on the specified capacity provider. Only one capacity provider in a capacity provider strategy can have a base defined. If no value is specified, the default value of
0
is used.
- type deploymentConfiguration:
dict
- param deploymentConfiguration:
Optional deployment parameters that control how many tasks run during the deployment and the failure detection methods.
deploymentCircuitBreaker (dict) –
Note
The deployment circuit breaker can only be used for services using the rolling update (
ECS
) deployment type.The deployment circuit breaker determines whether a service deployment will fail if the service can’t reach a steady state. If you use the deployment circuit breaker, a service deployment will transition to a failed state and stop launching new tasks. If you use the rollback option, when a service deployment fails, the service is rolled back to the last deployment that completed successfully. For more information, see Rolling update in the Amazon Elastic Container Service Developer Guide
enable (boolean) – [REQUIRED]
Determines whether to use the deployment circuit breaker logic for the service.
rollback (boolean) – [REQUIRED]
Determines whether to configure Amazon ECS to roll back the service if a service deployment fails. If rollback is on, when a service deployment fails, the service is rolled back to the last deployment that completed successfully.
maximumPercent (integer) –
If a service is using the rolling update (
ECS
) deployment type, themaximumPercent
parameter represents an upper limit on the number of your service’s tasks that are allowed in theRUNNING
orPENDING
state during a deployment, as a percentage of thedesiredCount
(rounded down to the nearest integer). This parameter enables you to define the deployment batch size. For example, if your service is using theREPLICA
service scheduler and has adesiredCount
of four tasks and amaximumPercent
value of 200%, the scheduler may start four new tasks before stopping the four older tasks (provided that the cluster resources required to do this are available). The defaultmaximumPercent
value for a service using theREPLICA
service scheduler is 200%.If a service is using either the blue/green (
CODE_DEPLOY
) orEXTERNAL
deployment types, and tasks in the service use the EC2 launch type, the maximum percent value is set to the default value. The maximum percent value is used to define the upper limit on the number of the tasks in the service that remain in theRUNNING
state while the container instances are in theDRAINING
state.Note
You can’t specify a custom
maximumPercent
value for a service that uses either the blue/green (CODE_DEPLOY
) orEXTERNAL
deployment types and has tasks that use the EC2 launch type.If the tasks in the service use the Fargate launch type, the maximum percent value is not used, although it is returned when describing your service.
minimumHealthyPercent (integer) –
If a service is using the rolling update (
ECS
) deployment type, theminimumHealthyPercent
represents a lower limit on the number of your service’s tasks that must remain in theRUNNING
state during a deployment, as a percentage of thedesiredCount
(rounded up to the nearest integer). This parameter enables you to deploy without using additional cluster capacity. For example, if your service has adesiredCount
of four tasks and aminimumHealthyPercent
of 50%, the service scheduler may stop two existing tasks to free up cluster capacity before starting two new tasks.For services that do not use a load balancer, the following should be noted:
A service is considered healthy if all essential containers within the tasks in the service pass their health checks.
If a task has no essential containers with a health check defined, the service scheduler will wait for 40 seconds after a task reaches a
RUNNING
state before the task is counted towards the minimum healthy percent total.If a task has one or more essential containers with a health check defined, the service scheduler will wait for the task to reach a healthy status before counting it towards the minimum healthy percent total. A task is considered healthy when all essential containers within the task have passed their health checks. The amount of time the service scheduler can wait for is determined by the container health check settings.
For services that do use a load balancer, the following should be noted:
If a task has no essential containers with a health check defined, the service scheduler will wait for the load balancer target group health check to return a healthy status before counting the task towards the minimum healthy percent total.
If a task has an essential container with a health check defined, the service scheduler will wait for both the task to reach a healthy status and the load balancer target group health check to return a healthy status before counting the task towards the minimum healthy percent total.
The default value for a replica service for
minimumHealthyPercent
is 100%. The defaultminimumHealthyPercent
value for a service using theDAEMON
service schedule is 0% for the CLI, the Amazon Web Services SDKs, and the APIs and 50% for the Amazon Web Services Management Console.The minimum number of healthy tasks during a deployment is the
desiredCount
multiplied by theminimumHealthyPercent
/100, rounded up to the nearest integer value.If a service is using either the blue/green (
CODE_DEPLOY
) orEXTERNAL
deployment types and is running tasks that use the EC2 launch type, the minimum healthy percent value is set to the default value. The minimum healthy percent value is used to define the lower limit on the number of the tasks in the service that remain in theRUNNING
state while the container instances are in theDRAINING
state.Note
You can’t specify a custom
minimumHealthyPercent
value for a service that uses either the blue/green (CODE_DEPLOY
) orEXTERNAL
deployment types and has tasks that use the EC2 launch type.If a service is using either the blue/green (
CODE_DEPLOY
) orEXTERNAL
deployment types and is running tasks that use the Fargate launch type, the minimum healthy percent value is not used, although it is returned when describing your service.alarms (dict) –
Information about the CloudWatch alarms.
alarmNames (list) – [REQUIRED]
One or more CloudWatch alarm names. Use a “,” to separate the alarms.
(string) –
rollback (boolean) – [REQUIRED]
Determines whether to configure Amazon ECS to roll back the service if a service deployment fails. If rollback is used, when a service deployment fails, the service is rolled back to the last deployment that completed successfully.
enable (boolean) – [REQUIRED]
Determines whether to use the CloudWatch alarm option in the service deployment process.
- type networkConfiguration:
dict
- param networkConfiguration:
An object representing the network configuration for the service.
awsvpcConfiguration (dict) –
The VPC subnets and security groups that are associated with a task.
Note
All specified subnets and security groups must be from the same VPC.
subnets (list) – [REQUIRED]
The IDs of the subnets associated with the task or service. There’s a limit of 16 subnets that can be specified per
awsvpcConfiguration
.Note
All specified subnets must be from the same VPC.
(string) –
securityGroups (list) –
The IDs of the security groups associated with the task or service. If you don’t specify a security group, the default security group for the VPC is used. There’s a limit of 5 security groups that can be specified per
awsvpcConfiguration
.Note
All specified security groups must be from the same VPC.
(string) –
assignPublicIp (string) –
Whether the task’s elastic network interface receives a public IP address. The default value is
DISABLED
.
- type placementConstraints:
list
- param placementConstraints:
An array of task placement constraint objects to update the service to use. If no value is specified, the existing placement constraints for the service will remain unchanged. If this value is specified, it will override any existing placement constraints defined for the service. To remove all existing placement constraints, specify an empty array.
You can specify a maximum of 10 constraints for each task. This limit includes constraints in the task definition and those specified at runtime.
(dict) –
An object representing a constraint on task placement. For more information, see Task placement constraints in the Amazon Elastic Container Service Developer Guide.
Note
If you’re using the Fargate launch type, task placement constraints aren’t supported.
type (string) –
The type of constraint. Use
distinctInstance
to ensure that each task in a particular group is running on a different container instance. UsememberOf
to restrict the selection to a group of valid candidates.expression (string) –
A cluster query language expression to apply to the constraint. The expression can have a maximum length of 2000 characters. You can’t specify an expression if the constraint type is
distinctInstance
. For more information, see Cluster query language in the Amazon Elastic Container Service Developer Guide.
- type placementStrategy:
list
- param placementStrategy:
The task placement strategy objects to update the service to use. If no value is specified, the existing placement strategy for the service will remain unchanged. If this value is specified, it will override the existing placement strategy defined for the service. To remove an existing placement strategy, specify an empty object.
You can specify a maximum of five strategy rules for each service.
(dict) –
The task placement strategy for a task or service. For more information, see Task placement strategies in the Amazon Elastic Container Service Developer Guide.
type (string) –
The type of placement strategy. The
random
placement strategy randomly places tasks on available candidates. Thespread
placement strategy spreads placement across available candidates evenly based on thefield
parameter. Thebinpack
strategy places tasks on available candidates that have the least available amount of the resource that’s specified with thefield
parameter. For example, if you binpack on memory, a task is placed on the instance with the least amount of remaining memory but still enough to run the task.field (string) –
The field to apply the placement strategy against. For the
spread
placement strategy, valid values areinstanceId
(orhost
, which has the same effect), or any platform or custom attribute that’s applied to a container instance, such asattribute:ecs.availability-zone
. For thebinpack
placement strategy, valid values arecpu
andmemory
. For therandom
placement strategy, this field is not used.
- type platformVersion:
string
- param platformVersion:
The platform version that your tasks in the service run on. A platform version is only specified for tasks using the Fargate launch type. If a platform version is not specified, the
LATEST
platform version is used. For more information, see Fargate Platform Versions in the Amazon Elastic Container Service Developer Guide.- type forceNewDeployment:
boolean
- param forceNewDeployment:
Determines whether to force a new deployment of the service. By default, deployments aren’t forced. You can use this option to start a new deployment with no service definition changes. For example, you can update a service’s tasks to use a newer Docker image with the same image/tag combination (
my_image:latest
) or to roll Fargate tasks onto a newer platform version.- type healthCheckGracePeriodSeconds:
integer
- param healthCheckGracePeriodSeconds:
The period of time, in seconds, that the Amazon ECS service scheduler ignores unhealthy Elastic Load Balancing target health checks after a task has first started. This is only valid if your service is configured to use a load balancer. If your service’s tasks take a while to start and respond to Elastic Load Balancing health checks, you can specify a health check grace period of up to 2,147,483,647 seconds. During that time, the Amazon ECS service scheduler ignores the Elastic Load Balancing health check status. This grace period can prevent the ECS service scheduler from marking tasks as unhealthy and stopping them before they have time to come up.
- type enableExecuteCommand:
boolean
- param enableExecuteCommand:
If
true
, this enables execute command functionality on all task containers.If you do not want to override the value that was set when the service was created, you can set this to
null
when performing this action.- type enableECSManagedTags:
boolean
- param enableECSManagedTags:
Determines whether to turn on Amazon ECS managed tags for the tasks in the service. For more information, see Tagging Your Amazon ECS Resources in the Amazon Elastic Container Service Developer Guide.
Only tasks launched after the update will reflect the update. To update the tags on all tasks, set
forceNewDeployment
totrue
, so that Amazon ECS starts new tasks with the updated tags.- type loadBalancers:
list
- param loadBalancers:
A list of Elastic Load Balancing load balancer objects. It contains the load balancer name, the container name, and the container port to access from the load balancer. The container name is as it appears in a container definition.
When you add, update, or remove a load balancer configuration, Amazon ECS starts new tasks with the updated Elastic Load Balancing configuration, and then stops the old tasks when the new tasks are running.
For services that use rolling updates, you can add, update, or remove Elastic Load Balancing target groups. You can update from a single target group to multiple target groups and from multiple target groups to a single target group.
For services that use blue/green deployments, you can update Elastic Load Balancing target groups by using
CreateDeployment
through CodeDeploy. Note that multiple target groups are not supported for blue/green deployments. For more information see Register multiple target groups with a service in the Amazon Elastic Container Service Developer Guide.For services that use the external deployment controller, you can add, update, or remove load balancers by using CreateTaskSet. Note that multiple target groups are not supported for external deployments. For more information see Register multiple target groups with a service in the Amazon Elastic Container Service Developer Guide.
You can remove existing
loadBalancers
by passing an empty list.(dict) –
The load balancer configuration to use with a service or task set.
When you add, update, or remove a load balancer configuration, Amazon ECS starts a new deployment with the updated Elastic Load Balancing configuration. This causes tasks to register to and deregister from load balancers.
We recommend that you verify this on a test environment before you update the Elastic Load Balancing configuration.
A service-linked role is required for services that use multiple target groups. For more information, see Using service-linked roles in the Amazon Elastic Container Service Developer Guide.
targetGroupArn (string) –
The full Amazon Resource Name (ARN) of the Elastic Load Balancing target group or groups associated with a service or task set.
A target group ARN is only specified when using an Application Load Balancer or Network Load Balancer.
For services using the
ECS
deployment controller, you can specify one or multiple target groups. For more information, see Registering multiple target groups with a service in the Amazon Elastic Container Service Developer Guide.For services using the
CODE_DEPLOY
deployment controller, you’re required to define two target groups for the load balancer. For more information, see Blue/green deployment with CodeDeploy in the Amazon Elastic Container Service Developer Guide.Warning
If your service’s task definition uses the
awsvpc
network mode, you must chooseip
as the target type, notinstance
. Do this when creating your target groups because tasks that use theawsvpc
network mode are associated with an elastic network interface, not an Amazon EC2 instance. This network mode is required for the Fargate launch type.loadBalancerName (string) –
The name of the load balancer to associate with the service or task set.
If you are using an Application Load Balancer or a Network Load Balancer the load balancer name parameter should be omitted.
containerName (string) –
The name of the container (as it appears in a container definition) to associate with the load balancer.
You need to specify the container name when configuring the target group for an Amazon ECS load balancer.
containerPort (integer) –
The port on the container to associate with the load balancer. This port must correspond to a
containerPort
in the task definition the tasks in the service are using. For tasks that use the EC2 launch type, the container instance they’re launched on must allow ingress traffic on thehostPort
of the port mapping.
- type propagateTags:
string
- param propagateTags:
Determines whether to propagate the tags from the task definition or the service to the task. If no value is specified, the tags aren’t propagated.
Only tasks launched after the update will reflect the update. To update the tags on all tasks, set
forceNewDeployment
totrue
, so that Amazon ECS starts new tasks with the updated tags.- type serviceRegistries:
list
- param serviceRegistries:
The details for the service discovery registries to assign to this service. For more information, see Service Discovery.
When you add, update, or remove the service registries configuration, Amazon ECS starts new tasks with the updated service registries configuration, and then stops the old tasks when the new tasks are running.
You can remove existing
serviceRegistries
by passing an empty list.(dict) –
The details for the service registry.
Each service may be associated with one service registry. Multiple service registries for each service are not supported.
When you add, update, or remove the service registries configuration, Amazon ECS starts a new deployment. New tasks are registered and deregistered to the updated service registry configuration.
registryArn (string) –
The Amazon Resource Name (ARN) of the service registry. The currently supported service registry is Cloud Map. For more information, see CreateService.
port (integer) –
The port value used if your service discovery service specified an SRV record. This field might be used if both the
awsvpc
network mode and SRV records are used.containerName (string) –
The container name value to be used for your service discovery service. It’s already specified in the task definition. If the task definition that your service task specifies uses the
bridge
orhost
network mode, you must specify acontainerName
andcontainerPort
combination from the task definition. If the task definition that your service task specifies uses theawsvpc
network mode and a type SRV DNS record is used, you must specify either acontainerName
andcontainerPort
combination or aport
value. However, you can’t specify both.containerPort (integer) –
The port value to be used for your service discovery service. It’s already specified in the task definition. If the task definition your service task specifies uses the
bridge
orhost
network mode, you must specify acontainerName
andcontainerPort
combination from the task definition. If the task definition your service task specifies uses theawsvpc
network mode and a type SRV DNS record is used, you must specify either acontainerName
andcontainerPort
combination or aport
value. However, you can’t specify both.
- type serviceConnectConfiguration:
dict
- param serviceConnectConfiguration:
The configuration for this service to discover and connect to services, and be discovered by, and connected from, other services within a namespace.
Tasks that run in a namespace can use short names to connect to services in the namespace. Tasks can connect to services across all of the clusters in the namespace. Tasks connect through a managed proxy container that collects logs and metrics for increased visibility. Only the tasks that Amazon ECS services create are supported with Service Connect. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
enabled (boolean) – [REQUIRED]
Specifies whether to use Service Connect with this service.
namespace (string) –
The namespace name or full Amazon Resource Name (ARN) of the Cloud Map namespace for use with Service Connect. The namespace must be in the same Amazon Web Services Region as the Amazon ECS service and cluster. The type of namespace doesn’t affect Service Connect. For more information about Cloud Map, see Working with Services in the Cloud Map Developer Guide.
services (list) –
The list of Service Connect service objects. These are names and aliases (also known as endpoints) that are used by other Amazon ECS services to connect to this service.
This field is not required for a “client” Amazon ECS service that’s a member of a namespace only to connect to other services within the namespace. An example of this would be a frontend application that accepts incoming requests from either a load balancer that’s attached to the service or by other means.
An object selects a port from the task definition, assigns a name for the Cloud Map service, and a list of aliases (endpoints) and ports for client applications to refer to this service.
(dict) –
The Service Connect service object configuration. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
portName (string) – [REQUIRED]
The
portName
must match the name of one of theportMappings
from all the containers in the task definition of this Amazon ECS service.discoveryName (string) –
The
discoveryName
is the name of the new Cloud Map service that Amazon ECS creates for this Amazon ECS service. This must be unique within the Cloud Map namespace. The name can contain up to 64 characters. The name can include lowercase letters, numbers, underscores (_), and hyphens (-). The name can’t start with a hyphen.If the
discoveryName
isn’t specified, the port mapping name from the task definition is used inportName.namespace
.clientAliases (list) –
The list of client aliases for this Service Connect service. You use these to assign names that can be used by client applications. The maximum number of client aliases that you can have in this list is 1.
Each alias (“endpoint”) is a fully-qualified name and port number that other Amazon ECS tasks (“clients”) can use to connect to this service.
Each name and port mapping must be unique within the namespace.
For each
ServiceConnectService
, you must provide at least oneclientAlias
with oneport
.(dict) –
Each alias (“endpoint”) is a fully-qualified name and port number that other tasks (“clients”) can use to connect to this service.
Each name and port mapping must be unique within the namespace.
Tasks that run in a namespace can use short names to connect to services in the namespace. Tasks can connect to services across all of the clusters in the namespace. Tasks connect through a managed proxy container that collects logs and metrics for increased visibility. Only the tasks that Amazon ECS services create are supported with Service Connect. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
port (integer) – [REQUIRED]
The listening port number for the Service Connect proxy. This port is available inside of all of the tasks within the same namespace.
To avoid changing your applications in client Amazon ECS services, set this to the same port that the client application uses by default. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
dnsName (string) –
The
dnsName
is the name that you use in the applications of client tasks to connect to this service. The name must be a valid DNS name but doesn’t need to be fully-qualified. The name can include up to 127 characters. The name can include lowercase letters, numbers, underscores (_), hyphens (-), and periods (.). The name can’t start with a hyphen.If this parameter isn’t specified, the default value of
discoveryName.namespace
is used. If thediscoveryName
isn’t specified, the port mapping name from the task definition is used inportName.namespace
.To avoid changing your applications in client Amazon ECS services, set this to the same name that the client application uses by default. For example, a few common names are
database
,db
, or the lowercase name of a database, such asmysql
orredis
. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
ingressPortOverride (integer) –
The port number for the Service Connect proxy to listen on.
Use the value of this field to bypass the proxy for traffic on the port number specified in the named
portMapping
in the task definition of this application, and then use it in your VPC security groups to allow traffic into the proxy for this Amazon ECS service.In
awsvpc
mode and Fargate, the default value is the container port number. The container port number is in theportMapping
in the task definition. In bridge mode, the default value is the ephemeral port of the Service Connect proxy.timeout (dict) –
A reference to an object that represents the configured timeouts for Service Connect.
idleTimeoutSeconds (integer) –
The amount of time in seconds a connection will stay active while idle. A value of
0
can be set to disableidleTimeout
.The
idleTimeout
default forHTTP
/HTTP2
/GRPC
is 5 minutes.The
idleTimeout
default forTCP
is 1 hour.perRequestTimeoutSeconds (integer) –
The amount of time waiting for the upstream to respond with a complete response per request. A value of
0
can be set to disableperRequestTimeout
.perRequestTimeout
can only be set if Service ConnectappProtocol
isn’tTCP
. OnlyidleTimeout
is allowed forTCP
appProtocol
.
tls (dict) –
A reference to an object that represents a Transport Layer Security (TLS) configuration.
issuerCertificateAuthority (dict) – [REQUIRED]
The signer certificate authority.
awsPcaAuthorityArn (string) –
The ARN of the Amazon Web Services Private Certificate Authority certificate.
kmsKey (string) –
The Amazon Web Services Key Management Service key.
roleArn (string) –
The Amazon Resource Name (ARN) of the IAM role that’s associated with the Service Connect TLS.
logConfiguration (dict) –
The log configuration for the container. This parameter maps to
LogConfig
in the docker container create command and the--log-driver
option to docker run.By default, containers use the same logging driver that the Docker daemon uses. However, the container might use a different logging driver than the Docker daemon by specifying a log driver configuration in the container definition.
Understand the following when specifying a log configuration for your containers.
Amazon ECS currently supports a subset of the logging drivers available to the Docker daemon. Additional log drivers may be available in future releases of the Amazon ECS container agent. For tasks on Fargate, the supported log drivers are
awslogs
,splunk
, andawsfirelens
. For tasks hosted on Amazon EC2 instances, the supported log drivers areawslogs
,fluentd
,gelf
,json-file
,journald
,syslog
,splunk
, andawsfirelens
.This parameter requires version 1.18 of the Docker Remote API or greater on your container instance.
For tasks that are hosted on Amazon EC2 instances, the Amazon ECS container agent must register the available logging drivers with the
ECS_AVAILABLE_LOGGING_DRIVERS
environment variable before containers placed on that instance can use these log configuration options. For more information, see Amazon ECS container agent configuration in the Amazon Elastic Container Service Developer Guide.For tasks that are on Fargate, because you don’t have access to the underlying infrastructure your tasks are hosted on, any additional software needed must be installed outside of the task. For example, the Fluentd output aggregators or a remote host running Logstash to send Gelf logs to.
logDriver (string) – [REQUIRED]
The log driver to use for the container.
For tasks on Fargate, the supported log drivers are
awslogs
,splunk
, andawsfirelens
.For tasks hosted on Amazon EC2 instances, the supported log drivers are
awslogs
,fluentd
,gelf
,json-file
,journald
,syslog
,splunk
, andawsfirelens
.For more information about using the
awslogs
log driver, see Send Amazon ECS logs to CloudWatch in the Amazon Elastic Container Service Developer Guide.For more information about using the
awsfirelens
log driver, see Send Amazon ECS logs to an Amazon Web Services service or Amazon Web Services Partner.Note
If you have a custom driver that isn’t listed, you can fork the Amazon ECS container agent project that’s available on GitHub and customize it to work with that driver. We encourage you to submit pull requests for changes that you would like to have included. However, we don’t currently provide support for running modified copies of this software.
options (dict) –
The configuration options to send to the log driver.
The options you can specify depend on the log driver. Some of the options you can specify when you use the
awslogs
log driver to route logs to Amazon CloudWatch include the following:awslogs-create-group
Required: No
Specify whether you want the log group to be created automatically. If this option isn’t specified, it defaults to
false
.Note
Your IAM policy must include the
logs:CreateLogGroup
permission before you attempt to useawslogs-create-group
.awslogs-region
Required: Yes
Specify the Amazon Web Services Region that the
awslogs
log driver is to send your Docker logs to. You can choose to send all of your logs from clusters in different Regions to a single region in CloudWatch Logs. This is so that they’re all visible in one location. Otherwise, you can separate them by Region for more granularity. Make sure that the specified log group exists in the Region that you specify with this option.awslogs-group
Required: Yes
Make sure to specify a log group that the
awslogs
log driver sends its log streams to.awslogs-stream-prefix
Required: Yes, when using the Fargate launch type.Optional for the EC2 launch type, required for the Fargate launch type.
Use the
awslogs-stream-prefix
option to associate a log stream with the specified prefix, the container name, and the ID of the Amazon ECS task that the container belongs to. If you specify a prefix with this option, then the log stream takes the formatprefix-name/container-name/ecs-task-id
.If you don’t specify a prefix with this option, then the log stream is named after the container ID that’s assigned by the Docker daemon on the container instance. Because it’s difficult to trace logs back to the container that sent them with just the Docker container ID (which is only available on the container instance), we recommend that you specify a prefix with this option.
For Amazon ECS services, you can use the service name as the prefix. Doing so, you can trace log streams to the service that the container belongs to, the name of the container that sent them, and the ID of the task that the container belongs to.
You must specify a stream-prefix for your logs to have your logs appear in the Log pane when using the Amazon ECS console.
awslogs-datetime-format
Required: No
This option defines a multiline start pattern in Python
strftime
format. A log message consists of a line that matches the pattern and any following lines that don’t match the pattern. The matched line is the delimiter between log messages.One example of a use case for using this format is for parsing output such as a stack dump, which might otherwise be logged in multiple entries. The correct pattern allows it to be captured in a single entry.
For more information, see awslogs-datetime-format.
You cannot configure both the
awslogs-datetime-format
andawslogs-multiline-pattern
options.Note
Multiline logging performs regular expression parsing and matching of all log messages. This might have a negative impact on logging performance.
awslogs-multiline-pattern
Required: No
This option defines a multiline start pattern that uses a regular expression. A log message consists of a line that matches the pattern and any following lines that don’t match the pattern. The matched line is the delimiter between log messages.
For more information, see awslogs-multiline-pattern.
This option is ignored if
awslogs-datetime-format
is also configured.You cannot configure both the
awslogs-datetime-format
andawslogs-multiline-pattern
options.Note
Multiline logging performs regular expression parsing and matching of all log messages. This might have a negative impact on logging performance.
mode
Required: No
Valid values:
non-blocking
|blocking
This option defines the delivery mode of log messages from the container to CloudWatch Logs. The delivery mode you choose affects application availability when the flow of logs from container to CloudWatch is interrupted.
If you use the
blocking
mode and the flow of logs to CloudWatch is interrupted, calls from container code to write to thestdout
andstderr
streams will block. The logging thread of the application will block as a result. This may cause the application to become unresponsive and lead to container healthcheck failure.If you use the
non-blocking
mode, the container’s logs are instead stored in an in-memory intermediate buffer configured with themax-buffer-size
option. This prevents the application from becoming unresponsive when logs cannot be sent to CloudWatch. We recommend using this mode if you want to ensure service availability and are okay with some log loss. For more information, see Preventing log loss with non-blocking mode in the awslogs container log driver.max-buffer-size
Required: No
Default value:
1m
When
non-blocking
mode is used, themax-buffer-size
log option controls the size of the buffer that’s used for intermediate message storage. Make sure to specify an adequate buffer size based on your application. When the buffer fills up, further logs cannot be stored. Logs that cannot be stored are lost.To route logs using the
splunk
log router, you need to specify asplunk-token
and asplunk-url
.When you use the
awsfirelens
log router to route logs to an Amazon Web Services Service or Amazon Web Services Partner Network destination for log storage and analytics, you can set thelog-driver-buffer-limit
option to limit the number of events that are buffered in memory, before being sent to the log router container. It can help to resolve potential log loss issue because high throughput might result in memory running out for the buffer inside of Docker.Other options you can specify when using
awsfirelens
to route logs depend on the destination. When you export logs to Amazon Data Firehose, you can specify the Amazon Web Services Region withregion
and a name for the log stream withdelivery_stream
.When you export logs to Amazon Kinesis Data Streams, you can specify an Amazon Web Services Region with
region
and a data stream name withstream
.When you export logs to Amazon OpenSearch Service, you can specify options like
Name
,Host
(OpenSearch Service endpoint without protocol),Port
,Index
,Type
,Aws_auth
,Aws_region
,Suppress_Type_Name
, andtls
.When you export logs to Amazon S3, you can specify the bucket using the
bucket
option. You can also specifyregion
,total_file_size
,upload_timeout
, anduse_put_object
as options.This parameter requires version 1.19 of the Docker Remote API or greater on your container instance. To check the Docker Remote API version on your container instance, log in to your container instance and run the following command:
sudo docker version --format '{{.Server.APIVersion}}'
(string) –
(string) –
secretOptions (list) –
The secrets to pass to the log configuration. For more information, see Specifying sensitive data in the Amazon Elastic Container Service Developer Guide.
(dict) –
An object representing the secret to expose to your container. Secrets can be exposed to a container in the following ways:
To inject sensitive data into your containers as environment variables, use the
secrets
container definition parameter.To reference sensitive information in the log configuration of a container, use the
secretOptions
container definition parameter.
For more information, see Specifying sensitive data in the Amazon Elastic Container Service Developer Guide.
name (string) – [REQUIRED]
The name of the secret.
valueFrom (string) – [REQUIRED]
The secret to expose to the container. The supported values are either the full ARN of the Secrets Manager secret or the full ARN of the parameter in the SSM Parameter Store.
For information about the require Identity and Access Management permissions, see Required IAM permissions for Amazon ECS secrets (for Secrets Manager) or Required IAM permissions for Amazon ECS secrets (for Systems Manager Parameter store) in the Amazon Elastic Container Service Developer Guide.
Note
If the SSM Parameter Store parameter exists in the same Region as the task you’re launching, then you can use either the full ARN or name of the parameter. If the parameter exists in a different Region, then the full ARN must be specified.
- type volumeConfigurations:
list
- param volumeConfigurations:
The details of the volume that was
configuredAtLaunch
. You can configure the size, volumeType, IOPS, throughput, snapshot and encryption in ServiceManagedEBSVolumeConfiguration. Thename
of the volume must match thename
from the task definition. If set to null, no new deployment is triggered. Otherwise, if this configuration differs from the existing one, it triggers a new deployment.(dict) –
The configuration for a volume specified in the task definition as a volume that is configured at launch time. Currently, the only supported volume type is an Amazon EBS volume.
name (string) – [REQUIRED]
The name of the volume. This value must match the volume name from the
Volume
object in the task definition.managedEBSVolume (dict) –
The configuration for the Amazon EBS volume that Amazon ECS creates and manages on your behalf. These settings are used to create each Amazon EBS volume, with one volume created for each task in the service. The Amazon EBS volumes are visible in your account in the Amazon EC2 console once they are created.
encrypted (boolean) –
Indicates whether the volume should be encrypted. If no value is specified, encryption is turned on by default. This parameter maps 1:1 with the
Encrypted
parameter of the CreateVolume API in the Amazon EC2 API Reference.kmsKeyId (string) –
The Amazon Resource Name (ARN) identifier of the Amazon Web Services Key Management Service key to use for Amazon EBS encryption. When encryption is turned on and no Amazon Web Services Key Management Service key is specified, the default Amazon Web Services managed key for Amazon EBS volumes is used. This parameter maps 1:1 with the
KmsKeyId
parameter of the CreateVolume API in the Amazon EC2 API Reference.Warning
Amazon Web Services authenticates the Amazon Web Services Key Management Service key asynchronously. Therefore, if you specify an ID, alias, or ARN that is invalid, the action can appear to complete, but eventually fails.
volumeType (string) –
The volume type. This parameter maps 1:1 with the
VolumeType
parameter of the CreateVolume API in the Amazon EC2 API Reference. For more information, see Amazon EBS volume types in the Amazon EC2 User Guide.The following are the supported volume types.
General Purpose SSD:
gp2``| ``gp3
Provisioned IOPS SSD:
io1``| ``io2
Throughput Optimized HDD:
st1
Cold HDD:
sc1
Magnetic:
standard
Note
The magnetic volume type is not supported on Fargate.
sizeInGiB (integer) –
The size of the volume in GiB. You must specify either a volume size or a snapshot ID. If you specify a snapshot ID, the snapshot size is used for the volume size by default. You can optionally specify a volume size greater than or equal to the snapshot size. This parameter maps 1:1 with the
Size
parameter of the CreateVolume API in the Amazon EC2 API Reference.The following are the supported volume size values for each volume type.
gp2
andgp3
: 1-16,384io1
andio2
: 4-16,384st1
andsc1
: 125-16,384standard
: 1-1,024
snapshotId (string) –
The snapshot that Amazon ECS uses to create the volume. You must specify either a snapshot ID or a volume size. This parameter maps 1:1 with the
SnapshotId
parameter of the CreateVolume API in the Amazon EC2 API Reference.iops (integer) –
The number of I/O operations per second (IOPS). For
gp3
,io1
, andio2
volumes, this represents the number of IOPS that are provisioned for the volume. Forgp2
volumes, this represents the baseline performance of the volume and the rate at which the volume accumulates I/O credits for bursting.The following are the supported values for each volume type.
gp3
: 3,000 - 16,000 IOPSio1
: 100 - 64,000 IOPSio2
: 100 - 256,000 IOPS
This parameter is required for
io1
andio2
volume types. The default forgp3
volumes is3,000 IOPS
. This parameter is not supported forst1
,sc1
, orstandard
volume types.This parameter maps 1:1 with the
Iops
parameter of the CreateVolume API in the Amazon EC2 API Reference.throughput (integer) –
The throughput to provision for a volume, in MiB/s, with a maximum of 1,000 MiB/s. This parameter maps 1:1 with the
Throughput
parameter of the CreateVolume API in the Amazon EC2 API Reference.Warning
This parameter is only supported for the
gp3
volume type.tagSpecifications (list) –
The tags to apply to the volume. Amazon ECS applies service-managed tags by default. This parameter maps 1:1 with the
TagSpecifications.N
parameter of the CreateVolume API in the Amazon EC2 API Reference.(dict) –
The tag specifications of an Amazon EBS volume.
resourceType (string) – [REQUIRED]
The type of volume resource.
tags (list) –
The tags applied to this Amazon EBS volume.
AmazonECSCreated
andAmazonECSManaged
are reserved tags that can’t be used.(dict) –
The metadata that you apply to a resource to help you categorize and organize them. Each tag consists of a key and an optional value. You define them.
The following basic restrictions apply to tags:
Maximum number of tags per resource - 50
For each resource, each tag key must be unique, and each tag key can have only one value.
Maximum key length - 128 Unicode characters in UTF-8
Maximum value length - 256 Unicode characters in UTF-8
If your tagging schema is used across multiple services and resources, remember that other services may have restrictions on allowed characters. Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following characters: + - = . _ : / @.
Tag keys and values are case-sensitive.
Do not use
aws:
,AWS:
, or any upper or lowercase combination of such as a prefix for either keys or values as it is reserved for Amazon Web Services use. You cannot edit or delete tag keys or values with this prefix. Tags with this prefix do not count against your tags per resource limit.
key (string) –
One part of a key-value pair that make up a tag. A
key
is a general label that acts like a category for more specific tag values.value (string) –
The optional part of a key-value pair that make up a tag. A
value
acts as a descriptor within a tag category (key).
propagateTags (string) –
Determines whether to propagate the tags from the task definition to the Amazon EBS volume. Tags can only propagate to a
SERVICE
specified in
ServiceVolumeConfiguration
. If no value is specified, the tags aren’t propagated.roleArn (string) – [REQUIRED]
The ARN of the IAM role to associate with this volume. This is the Amazon ECS infrastructure IAM role that is used to manage your Amazon Web Services infrastructure. We recommend using the Amazon ECS-managed
AmazonECSInfrastructureRolePolicyForVolumes
IAM policy with this role. For more information, see Amazon ECS infrastructure IAM role in the Amazon ECS Developer Guide.filesystemType (string) –
The filesystem type for the volume. For volumes created from a snapshot, you must specify the same filesystem type that the volume was using when the snapshot was created. If there is a filesystem type mismatch, the task will fail to start.
The available Linux filesystem types are
ext3
,ext4
, andxfs
. If no value is specified, thexfs
filesystem type is used by default.The available Windows filesystem types are
NTFS
.- rtype:
dict
- returns:
Response Syntax
{ 'service': { 'serviceArn': 'string', 'serviceName': 'string', 'clusterArn': 'string', 'loadBalancers': [ { 'targetGroupArn': 'string', 'loadBalancerName': 'string', 'containerName': 'string', 'containerPort': 123 }, ], 'serviceRegistries': [ { 'registryArn': 'string', 'port': 123, 'containerName': 'string', 'containerPort': 123 }, ], 'status': 'string', 'desiredCount': 123, 'runningCount': 123, 'pendingCount': 123, 'launchType': 'EC2'|'FARGATE'|'EXTERNAL', 'capacityProviderStrategy': [ { 'capacityProvider': 'string', 'weight': 123, 'base': 123 }, ], 'platformVersion': 'string', 'platformFamily': 'string', 'taskDefinition': 'string', 'deploymentConfiguration': { 'deploymentCircuitBreaker': { 'enable': True|False, 'rollback': True|False }, 'maximumPercent': 123, 'minimumHealthyPercent': 123, 'alarms': { 'alarmNames': [ 'string', ], 'rollback': True|False, 'enable': True|False } }, 'taskSets': [ { 'id': 'string', 'taskSetArn': 'string', 'serviceArn': 'string', 'clusterArn': 'string', 'startedBy': 'string', 'externalId': 'string', 'status': 'string', 'taskDefinition': 'string', 'computedDesiredCount': 123, 'pendingCount': 123, 'runningCount': 123, 'createdAt': datetime(2015, 1, 1), 'updatedAt': datetime(2015, 1, 1), 'launchType': 'EC2'|'FARGATE'|'EXTERNAL', 'capacityProviderStrategy': [ { 'capacityProvider': 'string', 'weight': 123, 'base': 123 }, ], 'platformVersion': 'string', 'platformFamily': 'string', 'networkConfiguration': { 'awsvpcConfiguration': { 'subnets': [ 'string', ], 'securityGroups': [ 'string', ], 'assignPublicIp': 'ENABLED'|'DISABLED' } }, 'loadBalancers': [ { 'targetGroupArn': 'string', 'loadBalancerName': 'string', 'containerName': 'string', 'containerPort': 123 }, ], 'serviceRegistries': [ { 'registryArn': 'string', 'port': 123, 'containerName': 'string', 'containerPort': 123 }, ], 'scale': { 'value': 123.0, 'unit': 'PERCENT' }, 'stabilityStatus': 'STEADY_STATE'|'STABILIZING', 'stabilityStatusAt': datetime(2015, 1, 1), 'tags': [ { 'key': 'string', 'value': 'string' }, ], 'fargateEphemeralStorage': { 'kmsKeyId': 'string' } }, ], 'deployments': [ { 'id': 'string', 'status': 'string', 'taskDefinition': 'string', 'desiredCount': 123, 'pendingCount': 123, 'runningCount': 123, 'failedTasks': 123, 'createdAt': datetime(2015, 1, 1), 'updatedAt': datetime(2015, 1, 1), 'capacityProviderStrategy': [ { 'capacityProvider': 'string', 'weight': 123, 'base': 123 }, ], 'launchType': 'EC2'|'FARGATE'|'EXTERNAL', 'platformVersion': 'string', 'platformFamily': 'string', 'networkConfiguration': { 'awsvpcConfiguration': { 'subnets': [ 'string', ], 'securityGroups': [ 'string', ], 'assignPublicIp': 'ENABLED'|'DISABLED' } }, 'rolloutState': 'COMPLETED'|'FAILED'|'IN_PROGRESS', 'rolloutStateReason': 'string', 'serviceConnectConfiguration': { 'enabled': True|False, 'namespace': 'string', 'services': [ { 'portName': 'string', 'discoveryName': 'string', 'clientAliases': [ { 'port': 123, 'dnsName': 'string' }, ], 'ingressPortOverride': 123, 'timeout': { 'idleTimeoutSeconds': 123, 'perRequestTimeoutSeconds': 123 }, 'tls': { 'issuerCertificateAuthority': { 'awsPcaAuthorityArn': 'string' }, 'kmsKey': 'string', 'roleArn': 'string' } }, ], 'logConfiguration': { 'logDriver': 'json-file'|'syslog'|'journald'|'gelf'|'fluentd'|'awslogs'|'splunk'|'awsfirelens', 'options': { 'string': 'string' }, 'secretOptions': [ { 'name': 'string', 'valueFrom': 'string' }, ] } }, 'serviceConnectResources': [ { 'discoveryName': 'string', 'discoveryArn': 'string' }, ], 'volumeConfigurations': [ { 'name': 'string', 'managedEBSVolume': { 'encrypted': True|False, 'kmsKeyId': 'string', 'volumeType': 'string', 'sizeInGiB': 123, 'snapshotId': 'string', 'iops': 123, 'throughput': 123, 'tagSpecifications': [ { 'resourceType': 'volume', 'tags': [ { 'key': 'string', 'value': 'string' }, ], 'propagateTags': 'TASK_DEFINITION'|'SERVICE'|'NONE' }, ], 'roleArn': 'string', 'filesystemType': 'ext3'|'ext4'|'xfs'|'ntfs' } }, ], 'fargateEphemeralStorage': { 'kmsKeyId': 'string' } }, ], 'roleArn': 'string', 'events': [ { 'id': 'string', 'createdAt': datetime(2015, 1, 1), 'message': 'string' }, ], 'createdAt': datetime(2015, 1, 1), 'placementConstraints': [ { 'type': 'distinctInstance'|'memberOf', 'expression': 'string' }, ], 'placementStrategy': [ { 'type': 'random'|'spread'|'binpack', 'field': 'string' }, ], 'networkConfiguration': { 'awsvpcConfiguration': { 'subnets': [ 'string', ], 'securityGroups': [ 'string', ], 'assignPublicIp': 'ENABLED'|'DISABLED' } }, 'healthCheckGracePeriodSeconds': 123, 'schedulingStrategy': 'REPLICA'|'DAEMON', 'deploymentController': { 'type': 'ECS'|'CODE_DEPLOY'|'EXTERNAL' }, 'tags': [ { 'key': 'string', 'value': 'string' }, ], 'createdBy': 'string', 'enableECSManagedTags': True|False, 'propagateTags': 'TASK_DEFINITION'|'SERVICE'|'NONE', 'enableExecuteCommand': True|False } }
Response Structure
(dict) –
service (dict) –
The full description of your service following the update call.
serviceArn (string) –
The ARN that identifies the service. For more information about the ARN format, see Amazon Resource Name (ARN) in the Amazon ECS Developer Guide.
serviceName (string) –
The name of your service. Up to 255 letters (uppercase and lowercase), numbers, underscores, and hyphens are allowed. Service names must be unique within a cluster. However, you can have similarly named services in multiple clusters within a Region or across multiple Regions.
clusterArn (string) –
The Amazon Resource Name (ARN) of the cluster that hosts the service.
loadBalancers (list) –
A list of Elastic Load Balancing load balancer objects. It contains the load balancer name, the container name, and the container port to access from the load balancer. The container name is as it appears in a container definition.
(dict) –
The load balancer configuration to use with a service or task set.
When you add, update, or remove a load balancer configuration, Amazon ECS starts a new deployment with the updated Elastic Load Balancing configuration. This causes tasks to register to and deregister from load balancers.
We recommend that you verify this on a test environment before you update the Elastic Load Balancing configuration.
A service-linked role is required for services that use multiple target groups. For more information, see Using service-linked roles in the Amazon Elastic Container Service Developer Guide.
targetGroupArn (string) –
The full Amazon Resource Name (ARN) of the Elastic Load Balancing target group or groups associated with a service or task set.
A target group ARN is only specified when using an Application Load Balancer or Network Load Balancer.
For services using the
ECS
deployment controller, you can specify one or multiple target groups. For more information, see Registering multiple target groups with a service in the Amazon Elastic Container Service Developer Guide.For services using the
CODE_DEPLOY
deployment controller, you’re required to define two target groups for the load balancer. For more information, see Blue/green deployment with CodeDeploy in the Amazon Elastic Container Service Developer Guide.Warning
If your service’s task definition uses the
awsvpc
network mode, you must chooseip
as the target type, notinstance
. Do this when creating your target groups because tasks that use theawsvpc
network mode are associated with an elastic network interface, not an Amazon EC2 instance. This network mode is required for the Fargate launch type.loadBalancerName (string) –
The name of the load balancer to associate with the service or task set.
If you are using an Application Load Balancer or a Network Load Balancer the load balancer name parameter should be omitted.
containerName (string) –
The name of the container (as it appears in a container definition) to associate with the load balancer.
You need to specify the container name when configuring the target group for an Amazon ECS load balancer.
containerPort (integer) –
The port on the container to associate with the load balancer. This port must correspond to a
containerPort
in the task definition the tasks in the service are using. For tasks that use the EC2 launch type, the container instance they’re launched on must allow ingress traffic on thehostPort
of the port mapping.
serviceRegistries (list) –
The details for the service discovery registries to assign to this service. For more information, see Service Discovery.
(dict) –
The details for the service registry.
Each service may be associated with one service registry. Multiple service registries for each service are not supported.
When you add, update, or remove the service registries configuration, Amazon ECS starts a new deployment. New tasks are registered and deregistered to the updated service registry configuration.
registryArn (string) –
The Amazon Resource Name (ARN) of the service registry. The currently supported service registry is Cloud Map. For more information, see CreateService.
port (integer) –
The port value used if your service discovery service specified an SRV record. This field might be used if both the
awsvpc
network mode and SRV records are used.containerName (string) –
The container name value to be used for your service discovery service. It’s already specified in the task definition. If the task definition that your service task specifies uses the
bridge
orhost
network mode, you must specify acontainerName
andcontainerPort
combination from the task definition. If the task definition that your service task specifies uses theawsvpc
network mode and a type SRV DNS record is used, you must specify either acontainerName
andcontainerPort
combination or aport
value. However, you can’t specify both.containerPort (integer) –
The port value to be used for your service discovery service. It’s already specified in the task definition. If the task definition your service task specifies uses the
bridge
orhost
network mode, you must specify acontainerName
andcontainerPort
combination from the task definition. If the task definition your service task specifies uses theawsvpc
network mode and a type SRV DNS record is used, you must specify either acontainerName
andcontainerPort
combination or aport
value. However, you can’t specify both.
status (string) –
The status of the service. The valid values are
ACTIVE
,DRAINING
, orINACTIVE
.desiredCount (integer) –
The desired number of instantiations of the task definition to keep running on the service. This value is specified when the service is created with CreateService , and it can be modified with UpdateService.
runningCount (integer) –
The number of tasks in the cluster that are in the
RUNNING
state.pendingCount (integer) –
The number of tasks in the cluster that are in the
PENDING
state.launchType (string) –
The launch type the service is using. When using the DescribeServices API, this field is omitted if the service was created using a capacity provider strategy.
capacityProviderStrategy (list) –
The capacity provider strategy the service uses. When using
DescribeServices
, this field is omitted if the service was created using a launch type.(dict) –
The details of a capacity provider strategy. A capacity provider strategy can be set when using the RunTask <https://docs.aws.amazon.com/AmazonECS/latest/APIReference/API_RunTask.html>`__or `CreateCluster APIs or as the default capacity provider strategy for a cluster with the
CreateCluster
API.Only capacity providers that are already associated with a cluster and have an
ACTIVE
orUPDATING
status can be used in a capacity provider strategy. The PutClusterCapacityProviders API is used to associate a capacity provider with a cluster.If specifying a capacity provider that uses an Auto Scaling group, the capacity provider must already be created. New Auto Scaling group capacity providers can be created with the CreateClusterCapacityProvider API operation.
To use a Fargate capacity provider, specify either the
FARGATE
orFARGATE_SPOT
capacity providers. The Fargate capacity providers are available to all accounts and only need to be associated with a cluster to be used in a capacity provider strategy.With
FARGATE_SPOT
, you can run interruption tolerant tasks at a rate that’s discounted compared to theFARGATE
price.FARGATE_SPOT
runs tasks on spare compute capacity. When Amazon Web Services needs the capacity back, your tasks are interrupted with a two-minute warning.FARGATE_SPOT
supports Linux tasks with the X86_64 architecture on platform version 1.3.0 or later.FARGATE_SPOT
supports Linux tasks with the ARM64 architecture on platform version 1.4.0 or later.A capacity provider strategy may contain a maximum of 6 capacity providers.
capacityProvider (string) –
The short name of the capacity provider.
weight (integer) –
The weight value designates the relative percentage of the total number of tasks launched that should use the specified capacity provider. The
weight
value is taken into consideration after thebase
value, if defined, is satisfied.If no
weight
value is specified, the default value of0
is used. When multiple capacity providers are specified within a capacity provider strategy, at least one of the capacity providers must have a weight value greater than zero and any capacity providers with a weight of0
can’t be used to place tasks. If you specify multiple capacity providers in a strategy that all have a weight of0
, anyRunTask
orCreateService
actions using the capacity provider strategy will fail.An example scenario for using weights is defining a strategy that contains two capacity providers and both have a weight of
1
, then when thebase
is satisfied, the tasks will be split evenly across the two capacity providers. Using that same logic, if you specify a weight of1
for capacityProviderA and a weight of4
for capacityProviderB, then for every one task that’s run using capacityProviderA, four tasks would use capacityProviderB.base (integer) –
The base value designates how many tasks, at a minimum, to run on the specified capacity provider. Only one capacity provider in a capacity provider strategy can have a base defined. If no value is specified, the default value of
0
is used.
platformVersion (string) –
The platform version to run your service on. A platform version is only specified for tasks that are hosted on Fargate. If one isn’t specified, the
LATEST
platform version is used. For more information, see Fargate Platform Versions in the Amazon Elastic Container Service Developer Guide.platformFamily (string) –
The operating system that your tasks in the service run on. A platform family is specified only for tasks using the Fargate launch type.
All tasks that run as part of this service must use the same
platformFamily
value as the service (for example,LINUX
).taskDefinition (string) –
The task definition to use for tasks in the service. This value is specified when the service is created with CreateService, and it can be modified with UpdateService.
deploymentConfiguration (dict) –
Optional deployment parameters that control how many tasks run during the deployment and the ordering of stopping and starting tasks.
deploymentCircuitBreaker (dict) –
Note
The deployment circuit breaker can only be used for services using the rolling update (
ECS
) deployment type.The deployment circuit breaker determines whether a service deployment will fail if the service can’t reach a steady state. If you use the deployment circuit breaker, a service deployment will transition to a failed state and stop launching new tasks. If you use the rollback option, when a service deployment fails, the service is rolled back to the last deployment that completed successfully. For more information, see Rolling update in the Amazon Elastic Container Service Developer Guide
enable (boolean) –
Determines whether to use the deployment circuit breaker logic for the service.
rollback (boolean) –
Determines whether to configure Amazon ECS to roll back the service if a service deployment fails. If rollback is on, when a service deployment fails, the service is rolled back to the last deployment that completed successfully.
maximumPercent (integer) –
If a service is using the rolling update (
ECS
) deployment type, themaximumPercent
parameter represents an upper limit on the number of your service’s tasks that are allowed in theRUNNING
orPENDING
state during a deployment, as a percentage of thedesiredCount
(rounded down to the nearest integer). This parameter enables you to define the deployment batch size. For example, if your service is using theREPLICA
service scheduler and has adesiredCount
of four tasks and amaximumPercent
value of 200%, the scheduler may start four new tasks before stopping the four older tasks (provided that the cluster resources required to do this are available). The defaultmaximumPercent
value for a service using theREPLICA
service scheduler is 200%.If a service is using either the blue/green (
CODE_DEPLOY
) orEXTERNAL
deployment types, and tasks in the service use the EC2 launch type, the maximum percent value is set to the default value. The maximum percent value is used to define the upper limit on the number of the tasks in the service that remain in theRUNNING
state while the container instances are in theDRAINING
state.Note
You can’t specify a custom
maximumPercent
value for a service that uses either the blue/green (CODE_DEPLOY
) orEXTERNAL
deployment types and has tasks that use the EC2 launch type.If the tasks in the service use the Fargate launch type, the maximum percent value is not used, although it is returned when describing your service.
minimumHealthyPercent (integer) –
If a service is using the rolling update (
ECS
) deployment type, theminimumHealthyPercent
represents a lower limit on the number of your service’s tasks that must remain in theRUNNING
state during a deployment, as a percentage of thedesiredCount
(rounded up to the nearest integer). This parameter enables you to deploy without using additional cluster capacity. For example, if your service has adesiredCount
of four tasks and aminimumHealthyPercent
of 50%, the service scheduler may stop two existing tasks to free up cluster capacity before starting two new tasks.For services that do not use a load balancer, the following should be noted:
A service is considered healthy if all essential containers within the tasks in the service pass their health checks.
If a task has no essential containers with a health check defined, the service scheduler will wait for 40 seconds after a task reaches a
RUNNING
state before the task is counted towards the minimum healthy percent total.If a task has one or more essential containers with a health check defined, the service scheduler will wait for the task to reach a healthy status before counting it towards the minimum healthy percent total. A task is considered healthy when all essential containers within the task have passed their health checks. The amount of time the service scheduler can wait for is determined by the container health check settings.
For services that do use a load balancer, the following should be noted:
If a task has no essential containers with a health check defined, the service scheduler will wait for the load balancer target group health check to return a healthy status before counting the task towards the minimum healthy percent total.
If a task has an essential container with a health check defined, the service scheduler will wait for both the task to reach a healthy status and the load balancer target group health check to return a healthy status before counting the task towards the minimum healthy percent total.
The default value for a replica service for
minimumHealthyPercent
is 100%. The defaultminimumHealthyPercent
value for a service using theDAEMON
service schedule is 0% for the CLI, the Amazon Web Services SDKs, and the APIs and 50% for the Amazon Web Services Management Console.The minimum number of healthy tasks during a deployment is the
desiredCount
multiplied by theminimumHealthyPercent
/100, rounded up to the nearest integer value.If a service is using either the blue/green (
CODE_DEPLOY
) orEXTERNAL
deployment types and is running tasks that use the EC2 launch type, the minimum healthy percent value is set to the default value. The minimum healthy percent value is used to define the lower limit on the number of the tasks in the service that remain in theRUNNING
state while the container instances are in theDRAINING
state.Note
You can’t specify a custom
minimumHealthyPercent
value for a service that uses either the blue/green (CODE_DEPLOY
) orEXTERNAL
deployment types and has tasks that use the EC2 launch type.If a service is using either the blue/green (
CODE_DEPLOY
) orEXTERNAL
deployment types and is running tasks that use the Fargate launch type, the minimum healthy percent value is not used, although it is returned when describing your service.alarms (dict) –
Information about the CloudWatch alarms.
alarmNames (list) –
One or more CloudWatch alarm names. Use a “,” to separate the alarms.
(string) –
rollback (boolean) –
Determines whether to configure Amazon ECS to roll back the service if a service deployment fails. If rollback is used, when a service deployment fails, the service is rolled back to the last deployment that completed successfully.
enable (boolean) –
Determines whether to use the CloudWatch alarm option in the service deployment process.
taskSets (list) –
Information about a set of Amazon ECS tasks in either an CodeDeploy or an
EXTERNAL
deployment. An Amazon ECS task set includes details such as the desired number of tasks, how many tasks are running, and whether the task set serves production traffic.(dict) –
Information about a set of Amazon ECS tasks in either an CodeDeploy or an
EXTERNAL
deployment. An Amazon ECS task set includes details such as the desired number of tasks, how many tasks are running, and whether the task set serves production traffic.id (string) –
The ID of the task set.
taskSetArn (string) –
The Amazon Resource Name (ARN) of the task set.
serviceArn (string) –
The Amazon Resource Name (ARN) of the service the task set exists in.
clusterArn (string) –
The Amazon Resource Name (ARN) of the cluster that the service that hosts the task set exists in.
startedBy (string) –
The tag specified when a task set is started. If an CodeDeploy deployment created the task set, the
startedBy
parameter isCODE_DEPLOY
. If an external deployment created the task set, thestartedBy
field isn’t used.externalId (string) –
The external ID associated with the task set.
If an CodeDeploy deployment created a task set, the
externalId
parameter contains the CodeDeploy deployment ID.If a task set is created for an external deployment and is associated with a service discovery registry, the
externalId
parameter contains theECS_TASK_SET_EXTERNAL_ID
Cloud Map attribute.status (string) –
The status of the task set. The following describes each state.
PRIMARY
The task set is serving production traffic.
ACTIVE
The task set isn’t serving production traffic.
DRAINING
The tasks in the task set are being stopped, and their corresponding targets are being deregistered from their target group.
taskDefinition (string) –
The task definition that the task set is using.
computedDesiredCount (integer) –
The computed desired count for the task set. This is calculated by multiplying the service’s
desiredCount
by the task set’sscale
percentage. The result is always rounded up. For example, if the computed desired count is 1.2, it rounds up to 2 tasks.pendingCount (integer) –
The number of tasks in the task set that are in the
PENDING
status during a deployment. A task in thePENDING
state is preparing to enter theRUNNING
state. A task set enters thePENDING
status when it launches for the first time or when it’s restarted after being in theSTOPPED
state.runningCount (integer) –
The number of tasks in the task set that are in the
RUNNING
status during a deployment. A task in theRUNNING
state is running and ready for use.createdAt (datetime) –
The Unix timestamp for the time when the task set was created.
updatedAt (datetime) –
The Unix timestamp for the time when the task set was last updated.
launchType (string) –
The launch type the tasks in the task set are using. For more information, see Amazon ECS launch types in the Amazon Elastic Container Service Developer Guide.
capacityProviderStrategy (list) –
The capacity provider strategy that are associated with the task set.
(dict) –
The details of a capacity provider strategy. A capacity provider strategy can be set when using the RunTask <https://docs.aws.amazon.com/AmazonECS/latest/APIReference/API_RunTask.html>`__or `CreateCluster APIs or as the default capacity provider strategy for a cluster with the
CreateCluster
API.Only capacity providers that are already associated with a cluster and have an
ACTIVE
orUPDATING
status can be used in a capacity provider strategy. The PutClusterCapacityProviders API is used to associate a capacity provider with a cluster.If specifying a capacity provider that uses an Auto Scaling group, the capacity provider must already be created. New Auto Scaling group capacity providers can be created with the CreateClusterCapacityProvider API operation.
To use a Fargate capacity provider, specify either the
FARGATE
orFARGATE_SPOT
capacity providers. The Fargate capacity providers are available to all accounts and only need to be associated with a cluster to be used in a capacity provider strategy.With
FARGATE_SPOT
, you can run interruption tolerant tasks at a rate that’s discounted compared to theFARGATE
price.FARGATE_SPOT
runs tasks on spare compute capacity. When Amazon Web Services needs the capacity back, your tasks are interrupted with a two-minute warning.FARGATE_SPOT
supports Linux tasks with the X86_64 architecture on platform version 1.3.0 or later.FARGATE_SPOT
supports Linux tasks with the ARM64 architecture on platform version 1.4.0 or later.A capacity provider strategy may contain a maximum of 6 capacity providers.
capacityProvider (string) –
The short name of the capacity provider.
weight (integer) –
The weight value designates the relative percentage of the total number of tasks launched that should use the specified capacity provider. The
weight
value is taken into consideration after thebase
value, if defined, is satisfied.If no
weight
value is specified, the default value of0
is used. When multiple capacity providers are specified within a capacity provider strategy, at least one of the capacity providers must have a weight value greater than zero and any capacity providers with a weight of0
can’t be used to place tasks. If you specify multiple capacity providers in a strategy that all have a weight of0
, anyRunTask
orCreateService
actions using the capacity provider strategy will fail.An example scenario for using weights is defining a strategy that contains two capacity providers and both have a weight of
1
, then when thebase
is satisfied, the tasks will be split evenly across the two capacity providers. Using that same logic, if you specify a weight of1
for capacityProviderA and a weight of4
for capacityProviderB, then for every one task that’s run using capacityProviderA, four tasks would use capacityProviderB.base (integer) –
The base value designates how many tasks, at a minimum, to run on the specified capacity provider. Only one capacity provider in a capacity provider strategy can have a base defined. If no value is specified, the default value of
0
is used.
platformVersion (string) –
The Fargate platform version where the tasks in the task set are running. A platform version is only specified for tasks run on Fargate. For more information, see Fargate platform versions in the Amazon Elastic Container Service Developer Guide.
platformFamily (string) –
The operating system that your tasks in the set are running on. A platform family is specified only for tasks that use the Fargate launch type.
All tasks in the set must have the same value.
networkConfiguration (dict) –
The network configuration for the task set.
awsvpcConfiguration (dict) –
The VPC subnets and security groups that are associated with a task.
Note
All specified subnets and security groups must be from the same VPC.
subnets (list) –
The IDs of the subnets associated with the task or service. There’s a limit of 16 subnets that can be specified per
awsvpcConfiguration
.Note
All specified subnets must be from the same VPC.
(string) –
securityGroups (list) –
The IDs of the security groups associated with the task or service. If you don’t specify a security group, the default security group for the VPC is used. There’s a limit of 5 security groups that can be specified per
awsvpcConfiguration
.Note
All specified security groups must be from the same VPC.
(string) –
assignPublicIp (string) –
Whether the task’s elastic network interface receives a public IP address. The default value is
DISABLED
.
loadBalancers (list) –
Details on a load balancer that are used with a task set.
(dict) –
The load balancer configuration to use with a service or task set.
When you add, update, or remove a load balancer configuration, Amazon ECS starts a new deployment with the updated Elastic Load Balancing configuration. This causes tasks to register to and deregister from load balancers.
We recommend that you verify this on a test environment before you update the Elastic Load Balancing configuration.
A service-linked role is required for services that use multiple target groups. For more information, see Using service-linked roles in the Amazon Elastic Container Service Developer Guide.
targetGroupArn (string) –
The full Amazon Resource Name (ARN) of the Elastic Load Balancing target group or groups associated with a service or task set.
A target group ARN is only specified when using an Application Load Balancer or Network Load Balancer.
For services using the
ECS
deployment controller, you can specify one or multiple target groups. For more information, see Registering multiple target groups with a service in the Amazon Elastic Container Service Developer Guide.For services using the
CODE_DEPLOY
deployment controller, you’re required to define two target groups for the load balancer. For more information, see Blue/green deployment with CodeDeploy in the Amazon Elastic Container Service Developer Guide.Warning
If your service’s task definition uses the
awsvpc
network mode, you must chooseip
as the target type, notinstance
. Do this when creating your target groups because tasks that use theawsvpc
network mode are associated with an elastic network interface, not an Amazon EC2 instance. This network mode is required for the Fargate launch type.loadBalancerName (string) –
The name of the load balancer to associate with the service or task set.
If you are using an Application Load Balancer or a Network Load Balancer the load balancer name parameter should be omitted.
containerName (string) –
The name of the container (as it appears in a container definition) to associate with the load balancer.
You need to specify the container name when configuring the target group for an Amazon ECS load balancer.
containerPort (integer) –
The port on the container to associate with the load balancer. This port must correspond to a
containerPort
in the task definition the tasks in the service are using. For tasks that use the EC2 launch type, the container instance they’re launched on must allow ingress traffic on thehostPort
of the port mapping.
serviceRegistries (list) –
The details for the service discovery registries to assign to this task set. For more information, see Service discovery.
(dict) –
The details for the service registry.
Each service may be associated with one service registry. Multiple service registries for each service are not supported.
When you add, update, or remove the service registries configuration, Amazon ECS starts a new deployment. New tasks are registered and deregistered to the updated service registry configuration.
registryArn (string) –
The Amazon Resource Name (ARN) of the service registry. The currently supported service registry is Cloud Map. For more information, see CreateService.
port (integer) –
The port value used if your service discovery service specified an SRV record. This field might be used if both the
awsvpc
network mode and SRV records are used.containerName (string) –
The container name value to be used for your service discovery service. It’s already specified in the task definition. If the task definition that your service task specifies uses the
bridge
orhost
network mode, you must specify acontainerName
andcontainerPort
combination from the task definition. If the task definition that your service task specifies uses theawsvpc
network mode and a type SRV DNS record is used, you must specify either acontainerName
andcontainerPort
combination or aport
value. However, you can’t specify both.containerPort (integer) –
The port value to be used for your service discovery service. It’s already specified in the task definition. If the task definition your service task specifies uses the
bridge
orhost
network mode, you must specify acontainerName
andcontainerPort
combination from the task definition. If the task definition your service task specifies uses theawsvpc
network mode and a type SRV DNS record is used, you must specify either acontainerName
andcontainerPort
combination or aport
value. However, you can’t specify both.
scale (dict) –
A floating-point percentage of your desired number of tasks to place and keep running in the task set.
value (float) –
The value, specified as a percent total of a service’s
desiredCount
, to scale the task set. Accepted values are numbers between 0 and 100.unit (string) –
The unit of measure for the scale value.
stabilityStatus (string) –
The stability status. This indicates whether the task set has reached a steady state. If the following conditions are met, the task set are in
STEADY_STATE
:The task
runningCount
is equal to thecomputedDesiredCount
.The
pendingCount
is0
.There are no tasks that are running on container instances in the
DRAINING
status.All tasks are reporting a healthy status from the load balancers, service discovery, and container health checks.
If any of those conditions aren’t met, the stability status returns
STABILIZING
.stabilityStatusAt (datetime) –
The Unix timestamp for the time when the task set stability status was retrieved.
tags (list) –
The metadata that you apply to the task set to help you categorize and organize them. Each tag consists of a key and an optional value. You define both.
The following basic restrictions apply to tags:
Maximum number of tags per resource - 50
For each resource, each tag key must be unique, and each tag key can have only one value.
Maximum key length - 128 Unicode characters in UTF-8
Maximum value length - 256 Unicode characters in UTF-8
If your tagging schema is used across multiple services and resources, remember that other services may have restrictions on allowed characters. Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following characters: + - = . _ : / @.
Tag keys and values are case-sensitive.
Do not use
aws:
,AWS:
, or any upper or lowercase combination of such as a prefix for either keys or values as it is reserved for Amazon Web Services use. You cannot edit or delete tag keys or values with this prefix. Tags with this prefix do not count against your tags per resource limit.
(dict) –
The metadata that you apply to a resource to help you categorize and organize them. Each tag consists of a key and an optional value. You define them.
The following basic restrictions apply to tags:
Maximum number of tags per resource - 50
For each resource, each tag key must be unique, and each tag key can have only one value.
Maximum key length - 128 Unicode characters in UTF-8
Maximum value length - 256 Unicode characters in UTF-8
If your tagging schema is used across multiple services and resources, remember that other services may have restrictions on allowed characters. Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following characters: + - = . _ : / @.
Tag keys and values are case-sensitive.
Do not use
aws:
,AWS:
, or any upper or lowercase combination of such as a prefix for either keys or values as it is reserved for Amazon Web Services use. You cannot edit or delete tag keys or values with this prefix. Tags with this prefix do not count against your tags per resource limit.
key (string) –
One part of a key-value pair that make up a tag. A
key
is a general label that acts like a category for more specific tag values.value (string) –
The optional part of a key-value pair that make up a tag. A
value
acts as a descriptor within a tag category (key).
fargateEphemeralStorage (dict) –
The Fargate ephemeral storage settings for the task set.
kmsKeyId (string) –
Specify an Amazon Web Services Key Management Service key ID to encrypt the ephemeral storage for deployment.
deployments (list) –
The current state of deployments for the service.
(dict) –
The details of an Amazon ECS service deployment. This is used only when a service uses the
ECS
deployment controller type.id (string) –
The ID of the deployment.
status (string) –
The status of the deployment. The following describes each state.
PRIMARY
The most recent deployment of a service.
ACTIVE
A service deployment that still has running tasks, but are in the process of being replaced with a new
PRIMARY
deployment.INACTIVE
A deployment that has been completely replaced.
taskDefinition (string) –
The most recent task definition that was specified for the tasks in the service to use.
desiredCount (integer) –
The most recent desired count of tasks that was specified for the service to deploy or maintain.
pendingCount (integer) –
The number of tasks in the deployment that are in the
PENDING
status.runningCount (integer) –
The number of tasks in the deployment that are in the
RUNNING
status.failedTasks (integer) –
The number of consecutively failed tasks in the deployment. A task is considered a failure if the service scheduler can’t launch the task, the task doesn’t transition to a
RUNNING
state, or if it fails any of its defined health checks and is stopped.Note
Once a service deployment has one or more successfully running tasks, the failed task count resets to zero and stops being evaluated.
createdAt (datetime) –
The Unix timestamp for the time when the service deployment was created.
updatedAt (datetime) –
The Unix timestamp for the time when the service deployment was last updated.
capacityProviderStrategy (list) –
The capacity provider strategy that the deployment is using.
(dict) –
The details of a capacity provider strategy. A capacity provider strategy can be set when using the RunTask <https://docs.aws.amazon.com/AmazonECS/latest/APIReference/API_RunTask.html>`__or `CreateCluster APIs or as the default capacity provider strategy for a cluster with the
CreateCluster
API.Only capacity providers that are already associated with a cluster and have an
ACTIVE
orUPDATING
status can be used in a capacity provider strategy. The PutClusterCapacityProviders API is used to associate a capacity provider with a cluster.If specifying a capacity provider that uses an Auto Scaling group, the capacity provider must already be created. New Auto Scaling group capacity providers can be created with the CreateClusterCapacityProvider API operation.
To use a Fargate capacity provider, specify either the
FARGATE
orFARGATE_SPOT
capacity providers. The Fargate capacity providers are available to all accounts and only need to be associated with a cluster to be used in a capacity provider strategy.With
FARGATE_SPOT
, you can run interruption tolerant tasks at a rate that’s discounted compared to theFARGATE
price.FARGATE_SPOT
runs tasks on spare compute capacity. When Amazon Web Services needs the capacity back, your tasks are interrupted with a two-minute warning.FARGATE_SPOT
supports Linux tasks with the X86_64 architecture on platform version 1.3.0 or later.FARGATE_SPOT
supports Linux tasks with the ARM64 architecture on platform version 1.4.0 or later.A capacity provider strategy may contain a maximum of 6 capacity providers.
capacityProvider (string) –
The short name of the capacity provider.
weight (integer) –
The weight value designates the relative percentage of the total number of tasks launched that should use the specified capacity provider. The
weight
value is taken into consideration after thebase
value, if defined, is satisfied.If no
weight
value is specified, the default value of0
is used. When multiple capacity providers are specified within a capacity provider strategy, at least one of the capacity providers must have a weight value greater than zero and any capacity providers with a weight of0
can’t be used to place tasks. If you specify multiple capacity providers in a strategy that all have a weight of0
, anyRunTask
orCreateService
actions using the capacity provider strategy will fail.An example scenario for using weights is defining a strategy that contains two capacity providers and both have a weight of
1
, then when thebase
is satisfied, the tasks will be split evenly across the two capacity providers. Using that same logic, if you specify a weight of1
for capacityProviderA and a weight of4
for capacityProviderB, then for every one task that’s run using capacityProviderA, four tasks would use capacityProviderB.base (integer) –
The base value designates how many tasks, at a minimum, to run on the specified capacity provider. Only one capacity provider in a capacity provider strategy can have a base defined. If no value is specified, the default value of
0
is used.
launchType (string) –
The launch type the tasks in the service are using. For more information, see Amazon ECS Launch Types in the Amazon Elastic Container Service Developer Guide.
platformVersion (string) –
The platform version that your tasks in the service run on. A platform version is only specified for tasks using the Fargate launch type. If one isn’t specified, the
LATEST
platform version is used. For more information, see Fargate Platform Versions in the Amazon Elastic Container Service Developer Guide.platformFamily (string) –
The operating system that your tasks in the service, or tasks are running on. A platform family is specified only for tasks using the Fargate launch type.
All tasks that run as part of this service must use the same
platformFamily
value as the service, for example,LINUX.
.networkConfiguration (dict) –
The VPC subnet and security group configuration for tasks that receive their own elastic network interface by using the
awsvpc
networking mode.awsvpcConfiguration (dict) –
The VPC subnets and security groups that are associated with a task.
Note
All specified subnets and security groups must be from the same VPC.
subnets (list) –
The IDs of the subnets associated with the task or service. There’s a limit of 16 subnets that can be specified per
awsvpcConfiguration
.Note
All specified subnets must be from the same VPC.
(string) –
securityGroups (list) –
The IDs of the security groups associated with the task or service. If you don’t specify a security group, the default security group for the VPC is used. There’s a limit of 5 security groups that can be specified per
awsvpcConfiguration
.Note
All specified security groups must be from the same VPC.
(string) –
assignPublicIp (string) –
Whether the task’s elastic network interface receives a public IP address. The default value is
DISABLED
.
rolloutState (string) –
Note
The
rolloutState
of a service is only returned for services that use the rolling update (ECS
) deployment type that aren’t behind a Classic Load Balancer.The rollout state of the deployment. When a service deployment is started, it begins in an
IN_PROGRESS
state. When the service reaches a steady state, the deployment transitions to aCOMPLETED
state. If the service fails to reach a steady state and circuit breaker is turned on, the deployment transitions to aFAILED
state. A deployment inFAILED
state doesn’t launch any new tasks. For more information, see DeploymentCircuitBreaker.rolloutStateReason (string) –
A description of the rollout state of a deployment.
serviceConnectConfiguration (dict) –
The details of the Service Connect configuration that’s used by this deployment. Compare the configuration between multiple deployments when troubleshooting issues with new deployments.
The configuration for this service to discover and connect to services, and be discovered by, and connected from, other services within a namespace.
Tasks that run in a namespace can use short names to connect to services in the namespace. Tasks can connect to services across all of the clusters in the namespace. Tasks connect through a managed proxy container that collects logs and metrics for increased visibility. Only the tasks that Amazon ECS services create are supported with Service Connect. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
enabled (boolean) –
Specifies whether to use Service Connect with this service.
namespace (string) –
The namespace name or full Amazon Resource Name (ARN) of the Cloud Map namespace for use with Service Connect. The namespace must be in the same Amazon Web Services Region as the Amazon ECS service and cluster. The type of namespace doesn’t affect Service Connect. For more information about Cloud Map, see Working with Services in the Cloud Map Developer Guide.
services (list) –
The list of Service Connect service objects. These are names and aliases (also known as endpoints) that are used by other Amazon ECS services to connect to this service.
This field is not required for a “client” Amazon ECS service that’s a member of a namespace only to connect to other services within the namespace. An example of this would be a frontend application that accepts incoming requests from either a load balancer that’s attached to the service or by other means.
An object selects a port from the task definition, assigns a name for the Cloud Map service, and a list of aliases (endpoints) and ports for client applications to refer to this service.
(dict) –
The Service Connect service object configuration. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
portName (string) –
The
portName
must match the name of one of theportMappings
from all the containers in the task definition of this Amazon ECS service.discoveryName (string) –
The
discoveryName
is the name of the new Cloud Map service that Amazon ECS creates for this Amazon ECS service. This must be unique within the Cloud Map namespace. The name can contain up to 64 characters. The name can include lowercase letters, numbers, underscores (_), and hyphens (-). The name can’t start with a hyphen.If the
discoveryName
isn’t specified, the port mapping name from the task definition is used inportName.namespace
.clientAliases (list) –
The list of client aliases for this Service Connect service. You use these to assign names that can be used by client applications. The maximum number of client aliases that you can have in this list is 1.
Each alias (“endpoint”) is a fully-qualified name and port number that other Amazon ECS tasks (“clients”) can use to connect to this service.
Each name and port mapping must be unique within the namespace.
For each
ServiceConnectService
, you must provide at least oneclientAlias
with oneport
.(dict) –
Each alias (“endpoint”) is a fully-qualified name and port number that other tasks (“clients”) can use to connect to this service.
Each name and port mapping must be unique within the namespace.
Tasks that run in a namespace can use short names to connect to services in the namespace. Tasks can connect to services across all of the clusters in the namespace. Tasks connect through a managed proxy container that collects logs and metrics for increased visibility. Only the tasks that Amazon ECS services create are supported with Service Connect. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
port (integer) –
The listening port number for the Service Connect proxy. This port is available inside of all of the tasks within the same namespace.
To avoid changing your applications in client Amazon ECS services, set this to the same port that the client application uses by default. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
dnsName (string) –
The
dnsName
is the name that you use in the applications of client tasks to connect to this service. The name must be a valid DNS name but doesn’t need to be fully-qualified. The name can include up to 127 characters. The name can include lowercase letters, numbers, underscores (_), hyphens (-), and periods (.). The name can’t start with a hyphen.If this parameter isn’t specified, the default value of
discoveryName.namespace
is used. If thediscoveryName
isn’t specified, the port mapping name from the task definition is used inportName.namespace
.To avoid changing your applications in client Amazon ECS services, set this to the same name that the client application uses by default. For example, a few common names are
database
,db
, or the lowercase name of a database, such asmysql
orredis
. For more information, see Service Connect in the Amazon Elastic Container Service Developer Guide.
ingressPortOverride (integer) –
The port number for the Service Connect proxy to listen on.
Use the value of this field to bypass the proxy for traffic on the port number specified in the named
portMapping
in the task definition of this application, and then use it in your VPC security groups to allow traffic into the proxy for this Amazon ECS service.In
awsvpc
mode and Fargate, the default value is the container port number. The container port number is in theportMapping
in the task definition. In bridge mode, the default value is the ephemeral port of the Service Connect proxy.timeout (dict) –
A reference to an object that represents the configured timeouts for Service Connect.
idleTimeoutSeconds (integer) –
The amount of time in seconds a connection will stay active while idle. A value of
0
can be set to disableidleTimeout
.The
idleTimeout
default forHTTP
/HTTP2
/GRPC
is 5 minutes.The
idleTimeout
default forTCP
is 1 hour.perRequestTimeoutSeconds (integer) –
The amount of time waiting for the upstream to respond with a complete response per request. A value of
0
can be set to disableperRequestTimeout
.perRequestTimeout
can only be set if Service ConnectappProtocol
isn’tTCP
. OnlyidleTimeout
is allowed forTCP
appProtocol
.
tls (dict) –
A reference to an object that represents a Transport Layer Security (TLS) configuration.
issuerCertificateAuthority (dict) –
The signer certificate authority.
awsPcaAuthorityArn (string) –
The ARN of the Amazon Web Services Private Certificate Authority certificate.
kmsKey (string) –
The Amazon Web Services Key Management Service key.
roleArn (string) –
The Amazon Resource Name (ARN) of the IAM role that’s associated with the Service Connect TLS.
logConfiguration (dict) –
The log configuration for the container. This parameter maps to
LogConfig
in the docker container create command and the--log-driver
option to docker run.By default, containers use the same logging driver that the Docker daemon uses. However, the container might use a different logging driver than the Docker daemon by specifying a log driver configuration in the container definition.
Understand the following when specifying a log configuration for your containers.
Amazon ECS currently supports a subset of the logging drivers available to the Docker daemon. Additional log drivers may be available in future releases of the Amazon ECS container agent. For tasks on Fargate, the supported log drivers are
awslogs
,splunk
, andawsfirelens
. For tasks hosted on Amazon EC2 instances, the supported log drivers areawslogs
,fluentd
,gelf
,json-file
,journald
,syslog
,splunk
, andawsfirelens
.This parameter requires version 1.18 of the Docker Remote API or greater on your container instance.
For tasks that are hosted on Amazon EC2 instances, the Amazon ECS container agent must register the available logging drivers with the
ECS_AVAILABLE_LOGGING_DRIVERS
environment variable before containers placed on that instance can use these log configuration options. For more information, see Amazon ECS container agent configuration in the Amazon Elastic Container Service Developer Guide.For tasks that are on Fargate, because you don’t have access to the underlying infrastructure your tasks are hosted on, any additional software needed must be installed outside of the task. For example, the Fluentd output aggregators or a remote host running Logstash to send Gelf logs to.
logDriver (string) –
The log driver to use for the container.
For tasks on Fargate, the supported log drivers are
awslogs
,splunk
, andawsfirelens
.For tasks hosted on Amazon EC2 instances, the supported log drivers are
awslogs
,fluentd
,gelf
,json-file
,journald
,syslog
,splunk
, andawsfirelens
.For more information about using the
awslogs
log driver, see Send Amazon ECS logs to CloudWatch in the Amazon Elastic Container Service Developer Guide.For more information about using the
awsfirelens
log driver, see Send Amazon ECS logs to an Amazon Web Services service or Amazon Web Services Partner.Note
If you have a custom driver that isn’t listed, you can fork the Amazon ECS container agent project that’s available on GitHub and customize it to work with that driver. We encourage you to submit pull requests for changes that you would like to have included. However, we don’t currently provide support for running modified copies of this software.
options (dict) –
The configuration options to send to the log driver.
The options you can specify depend on the log driver. Some of the options you can specify when you use the
awslogs
log driver to route logs to Amazon CloudWatch include the following:awslogs-create-group
Required: No
Specify whether you want the log group to be created automatically. If this option isn’t specified, it defaults to
false
.Note
Your IAM policy must include the
logs:CreateLogGroup
permission before you attempt to useawslogs-create-group
.awslogs-region
Required: Yes
Specify the Amazon Web Services Region that the
awslogs
log driver is to send your Docker logs to. You can choose to send all of your logs from clusters in different Regions to a single region in CloudWatch Logs. This is so that they’re all visible in one location. Otherwise, you can separate them by Region for more granularity. Make sure that the specified log group exists in the Region that you specify with this option.awslogs-group
Required: Yes
Make sure to specify a log group that the
awslogs
log driver sends its log streams to.awslogs-stream-prefix
Required: Yes, when using the Fargate launch type.Optional for the EC2 launch type, required for the Fargate launch type.
Use the
awslogs-stream-prefix
option to associate a log stream with the specified prefix, the container name, and the ID of the Amazon ECS task that the container belongs to. If you specify a prefix with this option, then the log stream takes the formatprefix-name/container-name/ecs-task-id
.If you don’t specify a prefix with this option, then the log stream is named after the container ID that’s assigned by the Docker daemon on the container instance. Because it’s difficult to trace logs back to the container that sent them with just the Docker container ID (which is only available on the container instance), we recommend that you specify a prefix with this option.
For Amazon ECS services, you can use the service name as the prefix. Doing so, you can trace log streams to the service that the container belongs to, the name of the container that sent them, and the ID of the task that the container belongs to.
You must specify a stream-prefix for your logs to have your logs appear in the Log pane when using the Amazon ECS console.
awslogs-datetime-format
Required: No
This option defines a multiline start pattern in Python
strftime
format. A log message consists of a line that matches the pattern and any following lines that don’t match the pattern. The matched line is the delimiter between log messages.One example of a use case for using this format is for parsing output such as a stack dump, which might otherwise be logged in multiple entries. The correct pattern allows it to be captured in a single entry.
For more information, see awslogs-datetime-format.
You cannot configure both the
awslogs-datetime-format
andawslogs-multiline-pattern
options.Note
Multiline logging performs regular expression parsing and matching of all log messages. This might have a negative impact on logging performance.
awslogs-multiline-pattern
Required: No
This option defines a multiline start pattern that uses a regular expression. A log message consists of a line that matches the pattern and any following lines that don’t match the pattern. The matched line is the delimiter between log messages.
For more information, see awslogs-multiline-pattern.
This option is ignored if
awslogs-datetime-format
is also configured.You cannot configure both the
awslogs-datetime-format
andawslogs-multiline-pattern
options.Note
Multiline logging performs regular expression parsing and matching of all log messages. This might have a negative impact on logging performance.
mode
Required: No
Valid values:
non-blocking
|blocking
This option defines the delivery mode of log messages from the container to CloudWatch Logs. The delivery mode you choose affects application availability when the flow of logs from container to CloudWatch is interrupted.
If you use the
blocking
mode and the flow of logs to CloudWatch is interrupted, calls from container code to write to thestdout
andstderr
streams will block. The logging thread of the application will block as a result. This may cause the application to become unresponsive and lead to container healthcheck failure.If you use the
non-blocking
mode, the container’s logs are instead stored in an in-memory intermediate buffer configured with themax-buffer-size
option. This prevents the application from becoming unresponsive when logs cannot be sent to CloudWatch. We recommend using this mode if you want to ensure service availability and are okay with some log loss. For more information, see Preventing log loss with non-blocking mode in the awslogs container log driver.max-buffer-size
Required: No
Default value:
1m
When
non-blocking
mode is used, themax-buffer-size
log option controls the size of the buffer that’s used for intermediate message storage. Make sure to specify an adequate buffer size based on your application. When the buffer fills up, further logs cannot be stored. Logs that cannot be stored are lost.To route logs using the
splunk
log router, you need to specify asplunk-token
and asplunk-url
.When you use the
awsfirelens
log router to route logs to an Amazon Web Services Service or Amazon Web Services Partner Network destination for log storage and analytics, you can set thelog-driver-buffer-limit
option to limit the number of events that are buffered in memory, before being sent to the log router container. It can help to resolve potential log loss issue because high throughput might result in memory running out for the buffer inside of Docker.Other options you can specify when using
awsfirelens
to route logs depend on the destination. When you export logs to Amazon Data Firehose, you can specify the Amazon Web Services Region withregion
and a name for the log stream withdelivery_stream
.When you export logs to Amazon Kinesis Data Streams, you can specify an Amazon Web Services Region with
region
and a data stream name withstream
.When you export logs to Amazon OpenSearch Service, you can specify options like
Name
,Host
(OpenSearch Service endpoint without protocol),Port
,Index
,Type
,Aws_auth
,Aws_region
,Suppress_Type_Name
, andtls
.When you export logs to Amazon S3, you can specify the bucket using the
bucket
option. You can also specifyregion
,total_file_size
,upload_timeout
, anduse_put_object
as options.This parameter requires version 1.19 of the Docker Remote API or greater on your container instance. To check the Docker Remote API version on your container instance, log in to your container instance and run the following command:
sudo docker version --format '{{.Server.APIVersion}}'
(string) –
(string) –
secretOptions (list) –
The secrets to pass to the log configuration. For more information, see Specifying sensitive data in the Amazon Elastic Container Service Developer Guide.
(dict) –
An object representing the secret to expose to your container. Secrets can be exposed to a container in the following ways:
To inject sensitive data into your containers as environment variables, use the
secrets
container definition parameter.To reference sensitive information in the log configuration of a container, use the
secretOptions
container definition parameter.
For more information, see Specifying sensitive data in the Amazon Elastic Container Service Developer Guide.
name (string) –
The name of the secret.
valueFrom (string) –
The secret to expose to the container. The supported values are either the full ARN of the Secrets Manager secret or the full ARN of the parameter in the SSM Parameter Store.
For information about the require Identity and Access Management permissions, see Required IAM permissions for Amazon ECS secrets (for Secrets Manager) or Required IAM permissions for Amazon ECS secrets (for Systems Manager Parameter store) in the Amazon Elastic Container Service Developer Guide.
Note
If the SSM Parameter Store parameter exists in the same Region as the task you’re launching, then you can use either the full ARN or name of the parameter. If the parameter exists in a different Region, then the full ARN must be specified.
serviceConnectResources (list) –
The list of Service Connect resources that are associated with this deployment. Each list entry maps a discovery name to a Cloud Map service name.
(dict) –
The Service Connect resource. Each configuration maps a discovery name to a Cloud Map service name. The data is stored in Cloud Map as part of the Service Connect configuration for each discovery name of this Amazon ECS service.
A task can resolve the
dnsName
for each of theclientAliases
of a service. However a task can’t resolve the discovery names. If you want to connect to a service, refer to theServiceConnectConfiguration
of that service for the list ofclientAliases
that you can use.discoveryName (string) –
The discovery name of this Service Connect resource.
The
discoveryName
is the name of the new Cloud Map service that Amazon ECS creates for this Amazon ECS service. This must be unique within the Cloud Map namespace. The name can contain up to 64 characters. The name can include lowercase letters, numbers, underscores (_), and hyphens (-). The name can’t start with a hyphen.If the
discoveryName
isn’t specified, the port mapping name from the task definition is used inportName.namespace
.discoveryArn (string) –
The Amazon Resource Name (ARN) for the namespace in Cloud Map that matches the discovery name for this Service Connect resource. You can use this ARN in other integrations with Cloud Map. However, Service Connect can’t ensure connectivity outside of Amazon ECS.
volumeConfigurations (list) –
The details of the volume that was
configuredAtLaunch
. You can configure different settings like the size, throughput, volumeType, and ecryption in ServiceManagedEBSVolumeConfiguration. Thename
of the volume must match thename
from the task definition.(dict) –
The configuration for a volume specified in the task definition as a volume that is configured at launch time. Currently, the only supported volume type is an Amazon EBS volume.
name (string) –
The name of the volume. This value must match the volume name from the
Volume
object in the task definition.managedEBSVolume (dict) –
The configuration for the Amazon EBS volume that Amazon ECS creates and manages on your behalf. These settings are used to create each Amazon EBS volume, with one volume created for each task in the service. The Amazon EBS volumes are visible in your account in the Amazon EC2 console once they are created.
encrypted (boolean) –
Indicates whether the volume should be encrypted. If no value is specified, encryption is turned on by default. This parameter maps 1:1 with the
Encrypted
parameter of the CreateVolume API in the Amazon EC2 API Reference.kmsKeyId (string) –
The Amazon Resource Name (ARN) identifier of the Amazon Web Services Key Management Service key to use for Amazon EBS encryption. When encryption is turned on and no Amazon Web Services Key Management Service key is specified, the default Amazon Web Services managed key for Amazon EBS volumes is used. This parameter maps 1:1 with the
KmsKeyId
parameter of the CreateVolume API in the Amazon EC2 API Reference.Warning
Amazon Web Services authenticates the Amazon Web Services Key Management Service key asynchronously. Therefore, if you specify an ID, alias, or ARN that is invalid, the action can appear to complete, but eventually fails.
volumeType (string) –
The volume type. This parameter maps 1:1 with the
VolumeType
parameter of the CreateVolume API in the Amazon EC2 API Reference. For more information, see Amazon EBS volume types in the Amazon EC2 User Guide.The following are the supported volume types.
General Purpose SSD:
gp2``| ``gp3
Provisioned IOPS SSD:
io1``| ``io2
Throughput Optimized HDD:
st1
Cold HDD:
sc1
Magnetic:
standard
Note
The magnetic volume type is not supported on Fargate.
sizeInGiB (integer) –
The size of the volume in GiB. You must specify either a volume size or a snapshot ID. If you specify a snapshot ID, the snapshot size is used for the volume size by default. You can optionally specify a volume size greater than or equal to the snapshot size. This parameter maps 1:1 with the
Size
parameter of the CreateVolume API in the Amazon EC2 API Reference.The following are the supported volume size values for each volume type.
gp2
andgp3
: 1-16,384io1
andio2
: 4-16,384st1
andsc1
: 125-16,384standard
: 1-1,024
snapshotId (string) –
The snapshot that Amazon ECS uses to create the volume. You must specify either a snapshot ID or a volume size. This parameter maps 1:1 with the
SnapshotId
parameter of the CreateVolume API in the Amazon EC2 API Reference.iops (integer) –
The number of I/O operations per second (IOPS). For
gp3
,io1
, andio2
volumes, this represents the number of IOPS that are provisioned for the volume. Forgp2
volumes, this represents the baseline performance of the volume and the rate at which the volume accumulates I/O credits for bursting.The following are the supported values for each volume type.
gp3
: 3,000 - 16,000 IOPSio1
: 100 - 64,000 IOPSio2
: 100 - 256,000 IOPS
This parameter is required for
io1
andio2
volume types. The default forgp3
volumes is3,000 IOPS
. This parameter is not supported forst1
,sc1
, orstandard
volume types.This parameter maps 1:1 with the
Iops
parameter of the CreateVolume API in the Amazon EC2 API Reference.throughput (integer) –
The throughput to provision for a volume, in MiB/s, with a maximum of 1,000 MiB/s. This parameter maps 1:1 with the
Throughput
parameter of the CreateVolume API in the Amazon EC2 API Reference.Warning
This parameter is only supported for the
gp3
volume type.tagSpecifications (list) –
The tags to apply to the volume. Amazon ECS applies service-managed tags by default. This parameter maps 1:1 with the
TagSpecifications.N
parameter of the CreateVolume API in the Amazon EC2 API Reference.(dict) –
The tag specifications of an Amazon EBS volume.
resourceType (string) –
The type of volume resource.
tags (list) –
The tags applied to this Amazon EBS volume.
AmazonECSCreated
andAmazonECSManaged
are reserved tags that can’t be used.(dict) –
The metadata that you apply to a resource to help you categorize and organize them. Each tag consists of a key and an optional value. You define them.
The following basic restrictions apply to tags:
Maximum number of tags per resource - 50
For each resource, each tag key must be unique, and each tag key can have only one value.
Maximum key length - 128 Unicode characters in UTF-8
Maximum value length - 256 Unicode characters in UTF-8
If your tagging schema is used across multiple services and resources, remember that other services may have restrictions on allowed characters. Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following characters: + - = . _ : / @.
Tag keys and values are case-sensitive.
Do not use
aws:
,AWS:
, or any upper or lowercase combination of such as a prefix for either keys or values as it is reserved for Amazon Web Services use. You cannot edit or delete tag keys or values with this prefix. Tags with this prefix do not count against your tags per resource limit.
key (string) –
One part of a key-value pair that make up a tag. A
key
is a general label that acts like a category for more specific tag values.value (string) –
The optional part of a key-value pair that make up a tag. A
value
acts as a descriptor within a tag category (key).
propagateTags (string) –
Determines whether to propagate the tags from the task definition to the Amazon EBS volume. Tags can only propagate to a
SERVICE
specified in
ServiceVolumeConfiguration
. If no value is specified, the tags aren’t propagated.roleArn (string) –
The ARN of the IAM role to associate with this volume. This is the Amazon ECS infrastructure IAM role that is used to manage your Amazon Web Services infrastructure. We recommend using the Amazon ECS-managed
AmazonECSInfrastructureRolePolicyForVolumes
IAM policy with this role. For more information, see Amazon ECS infrastructure IAM role in the Amazon ECS Developer Guide.filesystemType (string) –
The filesystem type for the volume. For volumes created from a snapshot, you must specify the same filesystem type that the volume was using when the snapshot was created. If there is a filesystem type mismatch, the task will fail to start.
The available Linux filesystem types are
ext3
,ext4
, andxfs
. If no value is specified, thexfs
filesystem type is used by default.The available Windows filesystem types are
NTFS
.fargateEphemeralStorage (dict) –
The Fargate ephemeral storage settings for the deployment.
kmsKeyId (string) –
Specify an Amazon Web Services Key Management Service key ID to encrypt the ephemeral storage for deployment.
roleArn (string) –
The ARN of the IAM role that’s associated with the service. It allows the Amazon ECS container agent to register container instances with an Elastic Load Balancing load balancer.
events (list) –
The event stream for your service. A maximum of 100 of the latest events are displayed.
(dict) –
The details for an event that’s associated with a service.
id (string) –
The ID string for the event.
createdAt (datetime) –
The Unix timestamp for the time when the event was triggered.
message (string) –
The event message.
createdAt (datetime) –
The Unix timestamp for the time when the service was created.
placementConstraints (list) –
The placement constraints for the tasks in the service.
(dict) –
An object representing a constraint on task placement. For more information, see Task placement constraints in the Amazon Elastic Container Service Developer Guide.
Note
If you’re using the Fargate launch type, task placement constraints aren’t supported.
type (string) –
The type of constraint. Use
distinctInstance
to ensure that each task in a particular group is running on a different container instance. UsememberOf
to restrict the selection to a group of valid candidates.expression (string) –
A cluster query language expression to apply to the constraint. The expression can have a maximum length of 2000 characters. You can’t specify an expression if the constraint type is
distinctInstance
. For more information, see Cluster query language in the Amazon Elastic Container Service Developer Guide.
placementStrategy (list) –
The placement strategy that determines how tasks for the service are placed.
(dict) –
The task placement strategy for a task or service. For more information, see Task placement strategies in the Amazon Elastic Container Service Developer Guide.
type (string) –
The type of placement strategy. The
random
placement strategy randomly places tasks on available candidates. Thespread
placement strategy spreads placement across available candidates evenly based on thefield
parameter. Thebinpack
strategy places tasks on available candidates that have the least available amount of the resource that’s specified with thefield
parameter. For example, if you binpack on memory, a task is placed on the instance with the least amount of remaining memory but still enough to run the task.field (string) –
The field to apply the placement strategy against. For the
spread
placement strategy, valid values areinstanceId
(orhost
, which has the same effect), or any platform or custom attribute that’s applied to a container instance, such asattribute:ecs.availability-zone
. For thebinpack
placement strategy, valid values arecpu
andmemory
. For therandom
placement strategy, this field is not used.
networkConfiguration (dict) –
The VPC subnet and security group configuration for tasks that receive their own elastic network interface by using the
awsvpc
networking mode.awsvpcConfiguration (dict) –
The VPC subnets and security groups that are associated with a task.
Note
All specified subnets and security groups must be from the same VPC.
subnets (list) –
The IDs of the subnets associated with the task or service. There’s a limit of 16 subnets that can be specified per
awsvpcConfiguration
.Note
All specified subnets must be from the same VPC.
(string) –
securityGroups (list) –
The IDs of the security groups associated with the task or service. If you don’t specify a security group, the default security group for the VPC is used. There’s a limit of 5 security groups that can be specified per
awsvpcConfiguration
.Note
All specified security groups must be from the same VPC.
(string) –
assignPublicIp (string) –
Whether the task’s elastic network interface receives a public IP address. The default value is
DISABLED
.
healthCheckGracePeriodSeconds (integer) –
The period of time, in seconds, that the Amazon ECS service scheduler ignores unhealthy Elastic Load Balancing target health checks after a task has first started.
schedulingStrategy (string) –
The scheduling strategy to use for the service. For more information, see Services.
There are two service scheduler strategies available.
REPLICA
-The replica scheduling strategy places and maintains the desired number of tasks across your cluster. By default, the service scheduler spreads tasks across Availability Zones. You can use task placement strategies and constraints to customize task placement decisions.DAEMON
-The daemon scheduling strategy deploys exactly one task on each active container instance. This task meets all of the task placement constraints that you specify in your cluster. The service scheduler also evaluates the task placement constraints for running tasks. It stop tasks that don’t meet the placement constraints.
Note
Fargate tasks don’t support the
DAEMON
scheduling strategy.deploymentController (dict) –
The deployment controller type the service is using.
type (string) –
The deployment controller type to use.
There are three deployment controller types available:
ECS
The rolling update (
ECS
) deployment type involves replacing the current running version of the container with the latest version. The number of containers Amazon ECS adds or removes from the service during a rolling update is controlled by adjusting the minimum and maximum number of healthy tasks allowed during a service deployment, as specified in the DeploymentConfiguration.CODE_DEPLOY
The blue/green (
CODE_DEPLOY
) deployment type uses the blue/green deployment model powered by CodeDeploy, which allows you to verify a new deployment of a service before sending production traffic to it.EXTERNAL
The external (
EXTERNAL
) deployment type enables you to use any third-party deployment controller for full control over the deployment process for an Amazon ECS service.
tags (list) –
The metadata that you apply to the service to help you categorize and organize them. Each tag consists of a key and an optional value. You define both the key and value.
The following basic restrictions apply to tags:
Maximum number of tags per resource - 50
For each resource, each tag key must be unique, and each tag key can have only one value.
Maximum key length - 128 Unicode characters in UTF-8
Maximum value length - 256 Unicode characters in UTF-8
If your tagging schema is used across multiple services and resources, remember that other services may have restrictions on allowed characters. Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following characters: + - = . _ : / @.
Tag keys and values are case-sensitive.
Do not use
aws:
,AWS:
, or any upper or lowercase combination of such as a prefix for either keys or values as it is reserved for Amazon Web Services use. You cannot edit or delete tag keys or values with this prefix. Tags with this prefix do not count against your tags per resource limit.
(dict) –
The metadata that you apply to a resource to help you categorize and organize them. Each tag consists of a key and an optional value. You define them.
The following basic restrictions apply to tags:
Maximum number of tags per resource - 50
For each resource, each tag key must be unique, and each tag key can have only one value.
Maximum key length - 128 Unicode characters in UTF-8
Maximum value length - 256 Unicode characters in UTF-8
If your tagging schema is used across multiple services and resources, remember that other services may have restrictions on allowed characters. Generally allowed characters are: letters, numbers, and spaces representable in UTF-8, and the following characters: + - = . _ : / @.
Tag keys and values are case-sensitive.
Do not use
aws:
,AWS:
, or any upper or lowercase combination of such as a prefix for either keys or values as it is reserved for Amazon Web Services use. You cannot edit or delete tag keys or values with this prefix. Tags with this prefix do not count against your tags per resource limit.
key (string) –
One part of a key-value pair that make up a tag. A
key
is a general label that acts like a category for more specific tag values.value (string) –
The optional part of a key-value pair that make up a tag. A
value
acts as a descriptor within a tag category (key).
createdBy (string) –
The principal that created the service.
enableECSManagedTags (boolean) –
Determines whether to use Amazon ECS managed tags for the tasks in the service. For more information, see Tagging Your Amazon ECS Resources in the Amazon Elastic Container Service Developer Guide.
propagateTags (string) –
Determines whether to propagate the tags from the task definition or the service to the task. If no value is specified, the tags aren’t propagated.
enableExecuteCommand (boolean) –
Determines whether the execute command functionality is turned on for the service. If
true
, the execute command functionality is turned on for all containers in tasks as part of the service.
Exceptions
Examples
This example updates the my-http-service service to use the amazon-ecs-sample task definition.
response = client.update_service( service='my-http-service', taskDefinition='amazon-ecs-sample', ) print(response)
Expected Output:
{ 'ResponseMetadata': { '...': '...', }, }
This example updates the desired count of the my-http-service service to 10.
response = client.update_service( desiredCount=10, service='my-http-service', ) print(response)
Expected Output:
{ 'ResponseMetadata': { '...': '...', }, }