The Amazon ECS Command Line Interface (CLI) is a command line tool for Amazon Elastic Container Service (Amazon ECS) that provides high-level commands to simplify creating, updating, and monitoring clusters and tasks from a local development environment. The Amazon ECS CLI supports Docker Compose, a popular open-source tool for defining and running multi-container applications. Use the CLI as part of your everyday development and testing cycle as an alternative to the AWS Management Console or the AWS CLI.
For more information about Amazon ECS, see the Amazon ECS Developer Guide.
The AWS Command Line Interface (AWS CLI) is a unified client for AWS services that provides commands for all public API operations. These commands are lower level than those provided by the Amazon ECS CLI. For more information about supported services and to download the AWS CLI, see the AWS Command Line Interface product detail page.
- Installing
- Configuring the CLI
- Using the CLI
- Creating an ECS Cluster
- Starting/Running Tasks
- Creating a Service
- Using ECS parameters
- Viewing Running Tasks
- Viewing Container Logs
- Using FIPS Endpoints
- Using Private Registry Authentication
- Checking for Missing Attributes and Debugging Reason Attribute Errors
- Tagging Resources
- Running Tasks Locally
- Amazon ECS CLI Commands
- Contributing to the CLI
- License
If you think you’ve found a potential security issue, please do not post it in the Issues. Instead, please follow the instructions here or email AWS security directly at [email protected].
Download the binary archive for your platform, and install the binary on your $PATH
.
You can use the provided md5
hash to verify the integrity of your download.
For information about installing and using the Amazon ECS CLI, see the ECS Command Line Interface.
- Linux:
- Macintosh:
- Windows:
As of v0.6.2 the ECS CLI supports the cn-north-1 region in China. The following links are the exact same binaries, but they are localized within China to provide a faster download experience.
- Linux:
- Macintosh:
- Windows:
Using the URLs above, replace latest
with the desired tag, for example v1.0.0
. After
downloading, remember to rename the binary file to ecs-cli
. NOTE: Windows is only supported starting with version v1.0.0
.
- Linux:
- Macintosh:
- Windows:
If you wish to verify your ECS CLI download, you can use the PGP Signatures.
1. Install GnuPG
Install gpg
using the package manager on your flavor of linux.
One easy way is to use Homebrew, a package manager for OS X. Install Homebrew using the instructions on its site.
brew install gnupg
Go to the GnuPG download page and download the simple installer for Windows. Use the installer to install the GPG tool.
You can find the Public Key in our GitHub Repo, in the file amazon-ecs-public-key.gpg.
gpg --import amazon-ecs-public-key.gpg
Key Metadata:
- Key ID: 0x2D51784F
- Type: RSA
- Size: 4096/4096
- Expires: Never
- User ID: Amazon ECS [email protected]
- Key fingerprint: F34C 3DDA E729 26B0 79BE AEC6 BCE9 D9A4 2D51 784F
ECS CLI signatures are ascii armored detached PGP signatures stored in files with the extension ".asc". The signatures file will have the same name as its corresponding executable with ".asc" appended. In the
curl -o ecs-cli.asc https://amazon-ecs-cli.s3.amazonaws.com/ecs-cli-darwin-amd64-latest.asc
curl -o ecs-cli.asc https://amazon-ecs-cli.s3.amazonaws.com/ecs-cli-linux-amd64-latest.asc
PS C:\> Invoke-WebRequest -OutFile ecs-cli.asc https://amazon-ecs-cli.s3.amazonaws.com/ecs-cli-windows-amd64-latest.exe.asc
Assuming you installed the ECS CLI in the recommended location for your platform:
gpg --verify ecs-cli.asc /usr/local/bin/ecs-cli
gpg --verify ecs-cli.asc C:\Program Files\Amazon\ECSCLI\ecs-cli.exe
Expected output:
gpg: Signature made Tue Apr 3 13:29:30 2018 PDT
gpg: using RSA key DE3CBD61ADAF8B8E
gpg: Good signature from "Amazon ECS <[email protected]>" [unknown]
gpg: WARNING: This key is not certified with a trusted signature!
gpg: There is no indication that the signature belongs to the owner.
Primary key fingerprint: F34C 3DDA E729 26B0 79BE AEC6 BCE9 D9A4 2D51 784F
Subkey fingerprint: EB3D F841 E2C9 212A 2BD4 2232 DE3C BD61 ADAF 8B8E
The warning in the output is expected and is not problematic; it occurs because there is not a chain of trust between your personal PGP key (if you have one) and the Amazon ECS PGP key. For more information, learn about the Web of trust.
The Amazon ECS CLI requires some basic configuration information before you can use it, such as your
AWS credentials, the AWS region in which to create your cluster, and the name of the Amazon ECS
cluster to use. Configuration information is stored in the ~/.ecs
directory on macOS and Linux
systems and in C:\Users\<username>\AppData\local\ecs
on Windows systems.
The Amazon ECS CLI supports configuring multiple sets of AWS credentials as named profiles using the
ecs-cli configure profile command
. These profiles can then be referenced when you run Amazon ECS
CLI commands using the --ecs-profile
flag; if a custom profile is not specified, the default
profile will be used.
Set up a CLI profile with the following command, substituting profile_name
with your desired
profile name, and $AWS_ACCESS_KEY_ID
, $AWS_SECRET_ACCESS_KEY
, and AWS_SESSION_TOKEN
environment variables with your
AWS credentials.
ecs-cli configure profile --profile-name profile_name --access-key $AWS_ACCESS_KEY_ID --secret-key $AWS_SECRET_ACCESS_KEY --session-token AWS_SESSION_TOKEN
A cluster configuration is the set of fields that describes an Amazon ECS cluster, including the
name of the cluster and the region. These configurations can then be referenced when you run Amazon
ECS CLI commands using the --cluster-config
flag; otherwise, the default configuration is used.
Create a cluster configuration with the following command, substituting region_name
with your
desired AWS region, cluster_name
with the name of an existing Amazon ECS cluster or a new cluster
to use, and configuration_name
with the name you'd like to give this configuration.
ecs-cli configure --cluster cluster_name --region region_name --config-name configuration_name
You can also optionally add --default-launch-type
to your cluster configuration. This value will
be used as the launch type for tasks run in this cluster (see: Launching an AWS Fargate
Task) , and will also be used to determine which resources to
create when you bring up a cluster (see: Creating a Fargate Cluster).
Valid values for this field are EC2 or FARGATE. If not specified, ECS will default to EC2 launch
type.
The first Cluster Configuration or ECS Profile that you configure will be set as the default. The
default ECS Profile can be changed using the ecs-cli configure profile default
command; the
default cluster configuration can be changed using the ecs-cli configure default
command. Note
that unlike in the AWS CLI, the default ECS Profile does not need to be named "default".
The --aws-profile
flag and $AWS_PROFILE
environment variable allow you to reference any named profile in ~/.aws/credentials
.
Here is an example on how to assume a role: amazon-ecs-cli/blob/master/ecs-cli/modules/config/aws_credentials_example.ini
If you are trying to use Multi-Factor Authentication, please see this comment and the associated issue: #284 (comment).
- ECS CLI Profile Flags a) ECS Profile (--ecs-profile) b) AWS Profile (--aws-profile)
- Environment Variables - attempts to fetch the credentials from environment variables: a) ECS_PROFILE b) AWS_PROFILE c) AWS_ACCESS_KEY_ID and AWS_SECRET_ACCESS_KEY, Optional: AWS_SESSION_TOKEN
- ECS Config - attempts to fetch the credentials from the default ECS Profile
- Default AWS Profile - attempts to use credentials (aws_access_key_id, aws_secret_access_key) or assume_role (role_arn, source_profile) from AWS profile name a) AWS_DEFAULT_PROFILE environment variable (defaults to 'default')
- EC2 Instance role
- ECS CLI Flags a) Region Flag --region b) Cluster Config Flag (--cluster-config)
- ECS Config - attempts to fetch the region from the default ECS Profile
- Environment Variable - attempts to fetch the region from environment variables: a) AWS_REGION (OR) b) AWS_DEFAULT_REGION
- AWS Profile - attempts to use region from AWS profile name a) AWS_PROFILE environment variable (OR) –aws- b) AWS_DEFAULT_PROFILE environment variable (defaults to 'default')
For more information, see ECS CLI Configuration.
ECS now offers two different launch types for tasks and services: EC2 and FARGATE. With the FARGATE launch type, customers no longer have to manage their own container-instances.
In the ECS-CLI, you can specify either launch type when you bring up a cluster using the
--launch-type
flag (see: Creating an ECS Cluster). You can also
configure your cluster to use a particular launch type with the --default-launch-type
flag (see:
Cluster Configurations).
You can also specify which launch type to use for a task or service in compose up
or compose service up
, regardless of which launch type is configured for your cluster (see: Starting/Running
Tasks).
After installing the Amazon ECS CLI and configuring your credentials, you are ready to create an ECS cluster. The basic command for creating a cluster is:
ecs-cli up
(To see all available options, run ecs-cli up --help
)
For example, to create an ECS cluster with two Amazon EC2 instances using the EC2 launch type, use the following command:
$ ecs-cli up --keypair my-key --capability-iam --size 2
It takes a few minutes to create the resources requested by ecs-cli up
. To see when the cluster
is ready to run tasks, use the AWS CLI to confirm that the ECS instances are registered:
$ aws ecs list-container-instances --cluster your-cluster-name
{
"containerInstanceArns": [
"arn:aws:ecs:us-east-1:980116778723:container-instance/6a302e06-0aa6-4bbc-9428-59b17089b887",
"arn:aws:ecs:us-east-1:980116778723:container-instance/7db3c588-0ef4-49fa-be32-b1e1464f6eb5",
]
}
In addition to EC2 Instances, other resources created by default include:
- Autoscaling Group
- Autoscaling Launch Configuration
- EC2 VPC
- EC2 Internet Gateway
- EC2 VPC Gateway Attachment
- EC2 Route Table
- EC2 Route
- 2 Public EC2 Subnets
- 2 EC2 SubnetRouteTableAssocitaions
- EC2 Security Group
You can provide your own resources (such as subnets, VPC, or security groups) via their flag options.
Note: The default security group created by ecs-cli up
allows inbound traffic on port 80 by
default. To allow inbound traffic from a different port, specify the port you wish to open with the
--port
option. To add more ports to the default security group, go to EC2 Security Groups in
the AWS Management Console and search for the security group containing “ecs-cli”. Add a rule as
described in the Adding Rules to a Security Group
topic.
Alternatively, you may specify one or more existing security group IDs with the --security-group
option.
You can also create an empty ECS cluster by using the --empty
or --e
flag:
ecs-cli up --cluster myCluster --empty
This is equivalent to the create-cluster command, and will not create a CloudFormation stack associated with your cluster.
You can specify the AMI to use with your EC2 instances using the --image-id
flag. Alternatively, if you do not specify an image ID, the ECS CLI will use the recommended Amazon Linux 2 ECS Optimized AMI. By default, the x86 variant of this AMI is used. However, if you specify an instance in the A1 family using --instance-type
, then the arm64
version of the ECS Optimized AMI will be used. Note: arm64
ECS Optimized AMIs are only supported in some regions; please see Amazon ECS-Optimized Amazon Linux 2 AMI.
For the EC2 launch type, the ECS CLI always creates EC2 instances that include the following User Data:
#!/bin/bash
echo ECS_CLUSTER={ clusterName } >> /etc/ecs/ecs.config
This user data directs the EC2 instance to join your ECS Cluster. You can optionally include extra user data with --extra-user-data
; this flag takes a file name as its argument.
The flag can be used multiple times to specify multiple files. Extra user data can be shell scripts or cloud-init directives- see the EC2 documentation for more information.
The ECS CLI takes all the User Data, and packs it into a MIME Multipart archive which can be used by cloud-init on the EC2 instance. The ECS CLI even allows existing MIME Multipart archives to be passed in with --extra-user-data
.
The CLI will unpack the existing archive, and then repack it into the final archive (preserving all header and content type information). Here is an example of specifying extra user data:
ecs-cli up \
--capability-iam \
--extra-user-data my-shellscript \
--extra-user-data my-cloud-boot-hook \
--extra-user-data my-mime-multipart-archive \
--launch-type EC2
$ ecs-cli up --launch-type FARGATE
This will create an ECS Cluster without container instances. By default, this will create the following resources:
- EC2 VPC
- EC2 Internet Gateway
- EC2 VPC Gateway Attachment
- EC2 Route Table
- EC2 Route
- 2 Public EC2 Subnets
- 2 EC2 SubnetRouteTableAssocitaions
The subnet and VPC ids will be printed to the terminal once the creation is complete. You can then use the subnet IDs in your ECS Params file to launch Fargate tasks.
For more information on using AWS Fargate, see the ECS CLI Fargate tutorial.
After the cluster is created, you can run tasks – groups of containers – on the ECS cluster. First, author a Docker Compose configuration file. You can run the configuration file locally using Docker Compose. Information about specific compose versions and fields supported by the ecs-cli can be found here.
Here is an example Docker Compose configuration file that creates a web page:
version: '2'
services:
web:
image: amazon/amazon-ecs-sample
ports:
- "80:80"
To run the configuration file on Amazon ECS, use ecs-cli compose up
. This creates an ECS task
definition and starts an ECS task. You can see the task that is running with ecs-cli compose ps
,
for example:
$ ecs-cli compose ps
Name State Ports TaskDefinition
fd8d5a69-87c5-46a4-80b6-51918092e600/web RUNNING 54.209.244.64:80->80/tcp web:1
Navigate your web browser to the task’s IP address to see the sample app running in the ECS cluster.
You can also run tasks as services. The ECS service scheduler ensures that the specified number of tasks are constantly running and reschedules tasks when a task fails (for example, if the underlying container instance fails for some reason).
$ ecs-cli compose --project-name wordpress-test service create
INFO[0000] Using Task definition TaskDefinition=wordpress-test:1
INFO[0000] Created an ECS Service serviceName=wordpress-test taskDefinition=wordpress-test:1
You can then start the tasks in your service with the following command:
$ ecs-cli compose --project-name wordpress-test service start
It may take a minute for the tasks to start. You can monitor the progress using the following command:
$ ecs-cli compose --project-name wordpress-test service ps
Name State Ports TaskDefinition
34333aa6-e976-4096-991a-0ec4cd5af5bd/wordpress RUNNING 54.186.138.217:80->80/tcp wordpress-test:1
34333aa6-e976-4096-991a-0ec4cd5af5bd/mysql RUNNING wordpress-test:1
See the $ ecs-cli compose service
documentation page for more information about available service options, including load balancing.
Since there are certain fields in an ECS task definition that do not correspond to fields in a
Docker Composefile, you can specify those values using the --ecs-params
flag. Currently, the file
supports the follow schema:
version: 1
task_definition:
ecs_network_mode: string // Supported string values: none, bridge, host, or awsvpc
task_role_arn: string
task_execution_role: string // Needed to use Cloudwatch Logs or ECR with your ECS tasks
task_size: // Required for running tasks with Fargate launch type
cpu_limit: string
mem_limit: string // Values specified without units default to MiB
pid_mode: string // Supported string values: task or host
ipc_mode: string // Supported string values: task, host, or none
services:
<service_name>:
essential: boolean
repository_credentials:
credentials_parameter: string
cpu_shares: integer
mem_limit: string // Values specified without units default to bytes, as in docker run
mem_reservation: string
gpu: string
init_process_enabled: boolean
healthcheck:
test: string or list of strings
interval: string
timeout: string
retries: integer
start_period: string
logging:
secret_options:
- value_from: string
name: string
secrets:
- value_from: string
name: string
docker_volumes:
- name: string
scope: string // Valid values: "shared" | "task"
autoprovision: boolean // only valid if scope = "shared"
driver: string
driver_opts:
string: string
labels:
string: string
placement_constraints:
- type: string // Valid values: "memberOf"
expression: string
run_params:
network_configuration:
awsvpc_configuration:
subnets: array of strings // These should be in the same VPC and Availability Zone as your instance
security_groups: list of strings // These should be in the same VPC as your instance
assign_public_ip: string // supported values: ENABLED or DISABLED
task_placement:
strategy:
- type: string // Valid values: "spread"|"binpack"|"random"
field: string // Not valid if type is "random"
constraints:
- type: string // Valid values: "memberOf"|"distinctInstance"
expression: string // Not valid if type is "distinctInstance"
service_discovery:
container_name: string
container_port: integer
private_dns_namespace:
id: string
name: string
vpc: string
description: string
public_dns_namespace:
id: string
name: string
service_discovery_service:
name: string
description: string
dns_config:
type: string
ttl: integer
healthcheck_custom_config:
failure_threshold: integer
Version Schema version being used for the ecs-params.yml file. Currently, we only support version 1.
Task Definition
Fields listed under task_definition
correspond to fields that will be included in your ECS Task Definition.
-
ecs_network_mode
corresponds to NetworkMode on an ECS Task Definition (Not to be confused with the network_mode field in Docker Compose). Supported values are none, bridge, host, or awsvpc. If not specified, this will default to bridge mode. If you wish to run tasks with Network Configuration, this field must be set toawsvpc
. -
task_role_arn
should be the ARN of an IAM role. NOTE: If this role does not have the proper permissions/trust relationships on it, theup
command will fail. -
services
correspond to the services listed in your docker compose file, withservice_name
matching the name of the container you wish to run. Its fields will be merged into an ECS Container Definition.- If the
essential
field is not specified, the value defaults to true. - If you are using Docker compose version 3, the
cpu_shares
,mem_limit
, andmem_reservation
fields are optional and must be specified in the ECS params file rather than the compose file. - In Docker compose version 2, the
cpu_shares
,mem_limit
, andmem_reservation
fields can be specified in either the compose or ECS params file. If they are specified in the ECS params file, the values will override values present in the compose file. - If you are using a private repository for pulling images,
repository_credentials
allows you to specify an AWS Secrets Manager secret ARN for the name of the secret containing your private repository credentials as acredential_parameter
. init_process_enabled
is a Linux-specific option that can be be set to run an init process inside the container that forwards signals and reaps processes. This parameter maps to the--init
option to docker run. This parameter requires version 1.25 of the Docker Remote API or greater on your container instance.gpu
is the number of physical GPUs the Amazon ECS container agent will reserve for the container. Maps to the GPU resource requirement field in the task definition. For example: "1", "4", "8", "16".healthcheck
This parameter maps tohealthcheck
in the Docker compose file reference. This field can either be used here in the ECS Params file, or it can be used in Compose File version 3 with the ECS CLI.test
can also be specified ascommand
and must be either a string or a list or strings. Iftest
is specified as a list of strings, the first item must be either NONE, CMD, or CMD-SHELL. If test or command is specified as a string, CMD-SHELL will be prepended and ECS will run the command in the container's default shell.interval
,timeout
, andstart_period
are specified as durations in a string format. For example: 2.5s, 10s, 1m30s, 2h23m, or 5h34m56s.
secrets
allows you to specify secrets which will be retrieved from SSM Parameter Store. See the ECS Docs for more information, including how reference AWS Secrets Managers secrets from SSM Parameter Store.value_from
is the SSM (or Secrets Manager) Parameter ARN or name (if the parameter is in the same region as your ECS Task).name
is the name of the environment variable in which the secret will be stored.
- If you need to inject secrets into your logging configuration, you may set
secret_options
underlogging
. For more information, See the logging secrets section of the ECS docs.value_from
is the SSM (or Secrets Manager) Parameter ARN or name (if the parameter is in the same region as your ECS Task).name
is the name of the logging option in which the secret will be stored.
- If the
-
docker_volumes
allows you to create docker volumes. The name key is required, andscope
,autoprovision
,driver
,driver_opts
andlabels
correspond with the fields under dockerVolumeConfiguration in an ECS Task Definition. Volumes defined with thedocker_volumes
key can be referenced in your compose file by name, even if they were not also specified in the compose file. -
task_execution_role
should be the ARN of an IAM role. NOTE: This field is required to enable ECS Tasks to be configured with Cloudwatch Logs, or to pull images from ECR for your tasks. -
task_size
Contains two fields, CPU and Memory. These fields are required for launching tasks with Fargate launch type. See the documentation on ECS Task Definition Parameters for more information. -
placement_constraints
allows you to specify a list of constraints on task placement within the task definition. Not supported with theFARGATE
launch type. -
pid_mode
allows you to control the process namespace in which your containers run. Valid values aretask
orhost
. See the ECS documentation for more information. -
ipc_mode
allows you to control the IPC resource namespace in which your containers run. Valid values aretask
,host
, ornone
. See the ECS documentation for more information.
Run Params
Fields listed under run_params
are for values needed as options to API calls not related to a Task Definition, such as compose up
(RunTask) and compose service up
(CreateService).
Currently, the only parameter supported under run_params
is network_configuration
. This is required to run tasks with Task Networking, as well as with Fargate launch type.
network_configuration
is required if you specifyecs_network_mode
asawsvpc
. It takes one nested parameter,awsvpc_configuration
, which has three subfields:subnets
: list of subnet ids used to launch tasks. NOTE These should be in the same VPC and availability zone as the instances on which you wish to launch your tasks.security_groups
: list of securtiy-group ids used to launch tasks. NOTE These should be in the same VPC as the instances on which you wish to launch your tasks.assign_public_ip
: supported values for this field are either "ENABLED" or "DISABLED". This field is only used for tasks launched with Fargate launch type. If this field is present in tasks with network configuration launched with EC2 launch type, the request will fail.
task_placement
is an optional field withEC2
launch-type only (it is not valid forFARGATE
). It has two subfields:strategy
: A list of objects, with two keys. Valid keys aretype
andfield
.type
: Valid values arerandom
,binpack
, orspread
. Ifrandom
is specified, thefield
key should not be provided.field
: Valid values depend on the strategy type.- For
spread
, valid values areinstanceId
,host
, or attribute key/value pairs, e.g.attribute:ecs.instance-type =~ t2.*
- For "binpack", valid values are "cpu" or "memory".
- For
constraint
: A list of objects, with two keys. Valid keys aretype
andexpression
.type
: Valid values aredistinctInstance
andmemberOf
. IfdistinctInstance
is specified, theexpression
key should not be provided.expression
: Whentype
ismemberOf
, valid values are key/value pairs for attributes or task groups, e.g.task:group == databases
orattribute:color =~ green
.
service_discovery
allows the configuration of Service Discovery using Route53 auto naming. For an explanation of these fields, see Using Route53 Service Discovery.
For more information on task placement, see [Amazon ECS TaskPlacement] (https://docs.aws.amazon.com/AmazonECS/latest/developerguide/task-placement.html).
Example ecs-params.yml
file:
version: 1
task_definition:
ecs_network_mode: host
task_role_arn: myCustomRole
services:
logging:
essential: false
wordpress:
cpu_shares: 100
mem_limit: 500m
mysql:
cpu_shares: 105
mem_limit: 500m
mem_reservation: 450m
docker_volumes:
- name: database_volume
scope: shared
autoprovision: true
driver: local
Example ecs-params.yml
with network configuration with EC2 launch type:
version: 1
task_definition:
ecs_network_mode: awsvpc
services:
my_service:
essential: false
run_params:
network_configuration:
awsvpc_configuration:
subnets:
- subnet-feedface
- subnet-deadbeef
security_groups:
- sg-bafff1ed
- sg-c0ffeefe
Example ecs-params.yml
with network configuration with FARGATE launch type:
version: 1
task_definition:
ecs_network_mode: awsvpc
task_execution_role: myFargateRole
task_size:
cpu_limit: 512
mem_limit: 2GB
services:
my_service:
essential: false
run_params:
network_configuration:
awsvpc_configuration:
subnets:
- subnet-feedface
- subnet-deadbeef
security_groups:
- sg-bafff1ed
- sg-c0ffeefe
assign_public_ip: ENABLED
Example ecs-params.yml
with task placement:
version: 1
run_params:
task_placement:
strategy:
- field: memory
type: binpack
- field: attribute:ecs.availability-zone
type: spread
- type: random
constraints:
- expression: attribute:ecs.instance-type =~ t2.*
type: memberOf
- type: distinctInstance`
You can then start a task by calling:
ecs-cli compose --ecs-params my-ecs-params.yml up
If you have a file name ecs-params.yml
in your current directory, ecs-cli compose
will automatically read it without your having to set the --ecs-params
flag value explicitly.
ecs-cli compose up
With network configuration specified in your ecs-params.yml file, you can now launch a task with launch type FARGATE:
ecs-cli compose --ecs-params my-ecs-params.yml up --launch-type FARGATE
or
ecs-cli compose --ecs-params my-ecs-params.yml service up --launch-type FARGATE
With the ECS CLI, you can create an ECS Service that uses Route53 auto naming for service discovery. Service Discovery requires a Service Discovery Service and a DNS Namespace. Keep in mind that:
- When you enable Service Discovery with the ECS CLI, a new Service Discovery Service is always created using CloudFormation.
- For the DNS Namespace, you have the option of using an existing public or private DNS Namespace, or letting the ECS CLI create a private DNS Namespace for you using CloudFormation.
- Creation of a Public DNS Namespaces is not supported with the ECS CLI.
- Only a single DNS Namespace may be used with Service Discovery.
The ECS-CLI simplifies the use of Service Discovery by providing default values for most fields, while still allowing maximum configurability. Here are the default values and explanations listed with the ECS Params input schema:
version: 1
run_params:
service_discovery:
container_name: string // Required if using SRV records
container_port: string // Required if using SRV records
private_dns_namespace:
id: string // Allows you to specify an existing namespace by ID
name: string // DNS name for private namespace. Either used to specify an existing namespace, or if one does not exist with this name, the ECS CLI will create it
vpc: string // Required if "id" is not specified
description: string // Only used if the namespace does not yet exist. Default = "Created by the Amazon ECS CLI"
public_dns_namespace:
id: string // Specify an existing public namespace by ID
name: string // Or specify an existing public namespace by Name
service_discovery_service:
name: string // Default = Name of the your ECS Service
description: string // Default = "Created by the Amazon ECS CLI"
dns_config:
type: string // Valid values: A or SRV. SRV is required/the default when using bridge or host network mode. A is the default for the awsvpc network mode.
ttl: integer // Default = 60
healthcheck_custom_config:
failure_threshold: integer // Default = 1
Let's walk through a simple scenario with Service Discovery to see how it works with the ECS CLI. Many of the Service Discovery configuration values can be specified with flags, which take precedence over the ECS Params if both are present. Remember that with the ECS CLI, the Compose Project Name (name of the directory containing your Docker Compose File, unless otherwise specified using the flag) is used as the name for your ECS Service.
First, we create a Service named backend
and create a Private DNS Namespace in our VPC. Assume that the network mode is awsvpc
, so the container_name
and container_port
values are not needed.
$ ecs-cli compose --project-name backend service up --private-dns-namespace tutorial --vpc vpc-04deee8176dce7d7d --enable-service-discovery
INFO[0001] Using ECS task definition TaskDefinition="backend:1"
INFO[0002] Waiting for the private DNS namespace to be created...
INFO[0002] Cloudformation stack status stackStatus=CREATE_IN_PROGRESS
WARN[0033] Defaulting DNS Type to A because network mode was awsvpc
INFO[0033] Waiting for the Service Discovery Service to be created...
INFO[0034] Cloudformation stack status stackStatus=CREATE_IN_PROGRESS
INFO[0065] Created an ECS service service=backend taskDefinition="backend:1"
INFO[0066] Updated ECS service successfully desiredCount=1 serviceName=backend
INFO[0081] (service backend) has started 1 tasks: (task 824b5a76-8f9c-4beb-a64b-6904e320630e). timestamp="2018-09-12 00:00:26 +0000 UTC"
INFO[0157] Service status desiredCount=1 runningCount=1 serviceName=backend
INFO[0157] ECS Service has reached a stable state desiredCount=1 runningCount=1 serviceName=backend
Next, we create another service called frontend
in the same Private DNS Namespace. Since the Namespace was already created, the ECS CLI knows to use the existing one.
$ ecs-cli compose --project-name frontend service up --private-dns-namespace tutorial --vpc vpc-04deee8176dce7d7d --enable-service-discovery
INFO[0001] Using ECS task definition TaskDefinition="frontend:1"
INFO[0002] Using existing namespace ns-kvhnzhb5vxplfmls
WARN[0033] Defaulting DNS Type to A because network mode was awsvpc
INFO[0033] Waiting for the Service Discovery Service to be created...
INFO[0034] Cloudformation stack status stackStatus=CREATE_IN_PROGRESS
INFO[0065] Created an ECS service service=frontend taskDefinition="frontend:1"
INFO[0066] Updated ECS service successfully desiredCount=1 serviceName=frontend
INFO[0081] (service frontend) has started 1 tasks: (task 824b5a76-8f9c-4beb-a64b-6904e320630e). timestamp="2018-09-12 00:00:26 +0000 UTC"
INFO[0157] Service status desiredCount=1 runningCount=1 serviceName=frontend
INFO[0157] ECS Service has reached a stable state desiredCount=1 runningCount=1 serviceName=frontend
Now, the two Services can find each other in the VPC using DNS. The DNS host name will be the name of the Service Discovery Service plus the name of the DNS Namespace. So the ECS Service frontend
can be found at frontend.tutorial
, and backend
can be found at backend.tutorial
. Remember that since this is a Private DNS Namespace, these domain names can only be resolved within your VPC.
Now, let's update some of the Service Discovery settings for frontend
; the only values that can be updated are DNS TTL
and Health Check Custom Config Failure Threshold
(the failure threshold for the health check administered by ECS, which determines when unhealthy containers will have their DNS records removed).
$ ecs-cli compose --project-name frontend service up --update-service-discovery --dns-type SRV --dns-ttl 120 --healthcheck-custom-config-failure-threshold 2
INFO[0001] Using ECS task definition TaskDefinition="frontend:1"
INFO[0001] Updated ECS service successfully desiredCount=1 serviceName=frontend
INFO[0001] Service status desiredCount=1 runningCount=1 serviceName=frontend
INFO[0001] ECS Service has reached a stable state desiredCount=1 runningCount=1 serviceName=frontend
INFO[0002] Waiting for your Service Discovery resources to be updated...
INFO[0002] Cloudformation stack status stackStatus=UPDATE_IN_PROGRESS
Next, we delete the services and the Service Discovery resources. When we delete frontend
, the CLI automatically removes its associated Service Discovery Service.
$ ecs-cli compose --project-name frontend service down
INFO[0000] Updated ECS service successfully desiredCount=0 serviceName=frontend
INFO[0001] Service status desiredCount=0 runningCount=1 serviceName=frontend
INFO[0016] Service status desiredCount=0 runningCount=0 serviceName=frontend
INFO[0016] (service frontend) has stopped 1 running tasks: (task 824b5a76-8f9c-4beb-a64b-6904e320630e). timestamp="2018-09-12 00:37:25 +0000 UTC"
INFO[0016] ECS Service has reached a stable state desiredCount=0 runningCount=0 serviceName=frontend
INFO[0016] Deleted ECS service service=frontend
INFO[0016] ECS Service has reached a stable state desiredCount=0 runningCount=0 serviceName=frontend
INFO[0027] Waiting for your Service Discovery Service resource to be deleted...
INFO[0027] Cloudformation stack status stackStatus=DELETE_IN_PROGRESS
Finally, we delete backend
and the Private DNS Namespace which was created with it (the CLI associates the CloudFormation Stack for the Namespace with the ECS Service that it was originally created for, so the two should be deleted together).
$ ecs-cli compose --project-name backend service down --delete-namespace
INFO[0000] Updated ECS service successfully desiredCount=0 serviceName=backend
INFO[0001] Service status desiredCount=0 runningCount=1 serviceName=backend
INFO[0016] Service status desiredCount=0 runningCount=0 serviceName=backend
INFO[0016] (service backend) has stopped 1 running tasks: (task 824b5a76-8f9c-4beb-a64b-6904e320630e). timestamp="2018-09-12 00:37:25 +0000 UTC"
INFO[0016] ECS Service has reached a stable state desiredCount=0 runningCount=0 serviceName=backend
INFO[0016] Deleted ECS service service=backend
INFO[0016] ECS Service has reached a stable state desiredCount=0 runningCount=0 serviceName=backend
INFO[0027] Waiting for your Service Discovery Service resource to be deleted...
INFO[0027] Cloudformation stack status stackStatus=DELETE_IN_PROGRESS
INFO[0059] Waiting for your Private DNS Namespace resource to be deleted...
INFO[0059] Cloudformation stack status stackStatus=DELETE_IN_PROGRESS
The PS commands allow you to see running and recently stopped tasks. To see the Tasks running in your cluster:
$ ecs-cli ps
Name State Ports TaskDefinition
37e873f6-37b4-42a7-af47-eac7275c6152/web RUNNING 10.0.1.27:8080->8080/tcp TaskNetworking:2
37e873f6-37b4-42a7-af47-eac7275c6152/lb RUNNING 10.0.1.27:80->80/tcp TaskNetworking:2
37e873f6-37b4-42a7-af47-eac7275c6152/redis RUNNING TaskNetworking:2
40bedf31-d707-446e-affc-766eac4cfb85/mysql RUNNING fargate:1
40bedf31-d707-446e-affc-766eac4cfb85/wordpress RUNNING 54.16.93.6:80->80/tcp fargate:1
The IP address displayed by the ECS CLI depends on how your cluster is configured and which launch-type is used. If you are running tasks with launch type EC2 without task networking, then the IP address shown will be the public IP of the EC2 instance running your task. If no public IP was assigned, the instance's private IP will be displayed.
For tasks that use Task Networking with EC2 launch type, the ECS CLI will only show the private IP address of the ENI attached to the task.
For Fargate tasks, the ECS CLI will return the public IP assigned to the ENI attached to the Fargate task. The ENI for your Fargate task will be assigned a public IP if assign_public_ip: ENABLED
is present in your ECS Params file. If the ENI lacks a public IP, then its private IP is shown.
You can use the --desired-status
flag to filter for "STOPPED" or "RUNNING" containers.
View the CloudWatch Logs for a given task and container:
ecs-cli logs --task-id 4c2df707-a160-475e-9c16-15dfb9df01cc --container-name mysql
For Fargate tasks, it is recommended that you send your container logs to CloudWatch. Note: For Fargate tasks you must specify a Task Execution IAM Role in your ECS Params file in order to use CloudWatch Logs. You can specify the awslogs
driver and logging options in your compose file like this:
services:
<My Service>:
logging:
driver: awslogs
options:
awslogs-group: <Log Group Name>
awslogs-region: <Log Region>
awslogs-stream-prefix: <Prefix Name>
The log stream prefix is technically optional; however, it is highly recommended that you specify it. If you do specify it, then you can use the ecs-cli logs
command. The Logs command allows you to retrieve the Logs for a task. There are many options for the logs command:
OPTIONS:
--task-id value Print the logs for this ECS Task.
--task-def value [Optional] Specifies the name or full Amazon Resource Name (ARN) of the ECS Task Definition associated with the Task ID. This is only needed if the Task is using an inactive Task Definition.
--follow [Optional] Specifies if the logs should be streamed.
--filter-pattern value [Optional] Substring to search for within the logs.
--container-name value [Optional] Prints the logs for the given container. Required if containers in the Task use different log groups
--since value [Optional] Returns logs newer than a relative duration in minutes. Cannot be used with --start-time (default: 0)
--start-time value [Optional] Returns logs after a specific date (format: RFC 3339. Example: 2006-01-02T15:04:05+07:00). Cannot be used with --since flag
--end-time value [Optional] Returns logs before a specific date (format: RFC 3339. Example: 2006-01-02T15:04:05+07:00). Cannot be used with --follow
--timestamps, -t [Optional] Shows timestamps on each line in the log output.
The ECS-CLI supports using FIPS endpoints for calls to ECR. To ensure you are accessing ECR using FIPS endpoints, use the --use-fips
flag on the push
, pull
, or images
command. FIPS endpoints are currently available in us-west-1, us-west-2, us-east-1, us-east-2, and in the GovCloud partition.
$ ecs-cli push myRepository:latest --use-fips --debug
DEBU[0000] Using FIPS endpoint: https://ecr-fips.us-west-2.amazonaws.com
INFO[0000] Getting AWS account ID...
DEBU[0000] Getting authorization token...
DEBU[0000] Checking file cache registry=xxxxxxxxxx123
DEBU[0000] Calling ECR.GetAuthorizationToken registry=xxxxxxxxxx123
DEBU[0000] Saving credentials to file cache registry=xxxxxxxxxx123
DEBU[0000] Retrieved authorization token via endpoint: https://xxxxxxxxxxx123.dkr.ecr-fips.us-west-2.amazonaws.com
INFO[0000] Tagging image image=myRepository repository=xxxxxxxxxxx123.dkr.ecr-fips.us-west-2.amazonaws.com/myRepository tag=latest
INFO[0000] Image tagged
DEBU[0000] Check if repository exists repository=myRepository
INFO[0000] Pushing image repository=xxxxxxxxxxx123.dkr.ecr-fips.us-west-2.amazonaws.com/myRepository tag=latest
INFO[0002] Image pushed
If you want to use privately hosted container images with ECS, the ECS CLI can store your private registry credentials in AWS Secrets Manager and create an IAM role which ECS can use to access the credentials and private images. This allows you to:
- Store private registry credentials within AWS for use with ECS
- Add the permissions needed to use your registry secrets to a new or existing Task Execution Role
- Automatically add your private registry credentials to your task definition when running a task or service
Using privately hosted images with the ECS CLI is done in two parts:
- Create new AWS Secrets Manager secrets and an IAM Task Execution Role with
ecs-cli registry-creds up
- Run
ecs-cli compose
commands to create and run a task definition that includes the new resources
To get started, first create an input file that contains the name of your registry and the credentials needed to access it:
# file name: cred_input.yml
# when using environment variables, only '${VAR_NAME}' format is supported
version: '1'
registry_credentials:
my-registry.example.com:
secrets_manager_arn: # required when using (with no modification) or updating an existing secret
username: myUserName # required when creating or updating a new secret
password: ${MY_PASSWORD} # required when creating or updating a new secret
kms_key_id: # optional custom KMS Key ID to use to encrypt new secret
container_names: # required to match credential resources with docker-compose services
- web
- log
In this example, we're storing credentials for a registry called my-registry.example.com
and passing in the password with an environment variable. container_names
is a list of the service_names
in your Docker Compose project which need access to images in this registry. If you don't plan to use the output of registry-creds up
to launch a task or service with compose
, then you can leave this field empty.
Other options:
- To store credentials for multiple private registries, add additional (up to 10 total) registry names and their required details as separate keys under
registry_credentials
.- Existing registry secrets from other regions can be included by specifying their
secrets_manager_arn
and associatedkms_key_id
. Creating or updating secrets must be done from within that region.
- Existing registry secrets from other regions can be included by specifying their
- If you want to encrypt the AWS Secrets Manager secret for your registry with a custom KMS Key, then add the ARN, ID or Alias of the Key in the
kms_key_id
field. Otherwise, AWS Secrets Manager will use the default key in your account. - If you don't want to create or update an IAM Task Execution Role for these secrets, use the
--no-role
flag instead of specifying a role name. - If you don't want to generate an output file for use with
compose
or for records purposes, use the--no-output-file
flag. - If you want the output file to be created in a specific directory on your machine, you can specify it with the
--output-dir <value>
flag. Otherwise, the file will be created in your working directory.
After creating the input file, run the registry-creds up
command on the file and pass in the name of the new or existing Task Execution Role you want to use for the secrets:
$ ecs-cli registry-creds up ./cred_input.yml --role-name myTaskExecutionRole
The command will output the names of the resources it creates, including the name of the output file which was generated:
$ ecs-cli registry-creds up ./cred_input.yml --role-name myTaskExecutionRole
INFO[0000] Processing credentials for registry my-registry.example.com...
INFO[0000] New credential secret created: arn:aws:secretsmanager:region:aws_account_id:secret:amazon-ecs-cli-setup-my-registry.example.com-VeDqXm
INFO[0000] Creating resources for task execution role myTaskExecutionRole...
INFO[0000] Created new task execution role arn:aws:iam::aws_account_id:role/myTaskExecutionRole
INFO[0000] Created new task execution role policy arn:aws:iam::aws_account_id:policy/amazon-ecs-cli-setup-myTaskExecutionRole-policy-20181023T210805Z
INFO[0000] Attached AWS managed policy arn:aws:iam::aws:policy/service-role/AmazonECSTaskExecutionRolePolicy to role myTaskExecutionRole
INFO[0001] Attached new policy arn:aws:iam::aws_account_id:policy/amazon-ecs-cli-setup-myTaskExecutionRole-policy-20181023T210805Z to role myTaskExecutionRole
INFO[0001] Writing registry credential output to new file C:\Users\myuser\regcreds\regCredTest\ecs-registry-creds_20181023T210805Z.yml
The output file ecs-registry-creds_20181023T210805Z.yml
should like like this:
version: "1"
registry_credential_outputs:
task_execution_role: myTaskExecutionRole
container_credentials:
my-registry.example.com:
credentials_parameter: arn:aws:secretsmanager:region:aws_account_id:secret:amazon-ecs-cli-setup-my-registry.example.com-VeDqXm
container_names:
- web
- log
This file contains:
- the name of the IAM Task Execution Role with permissions for the new secrets
- the ARN of the new
credentials_parameter
created for the registry - the list of containers the new
credentials_parameter
should be used for when running a task or service
We can now use this file with ecs-cli compose
commands to start a task with images in our private registry.
Now that we have an output file that identifies which resources we need to use our private registry, the ECS CLI will incorporate them into our Docker Compose project when we run ecs-cli compose
.
In the same directory (let's call it "privateImageApp"), create a docker-compose.yml file for your application:
version: "3"
services:
web:
environment:
- SERVICE_NAME=web
image: my-registry.example.com/httpd
ports:
- "80:80"
log:
environment:
- SERVICE_NAME=log
image: my-registry.example.com/logging
logging:
driver: awslogs
options:
awslogs-group: myApps
awslogs-region: us-west-2
awslogs-stream-prefix: privateImageApp
Now run the command ecs-cli compose up
to launch a task. The ECS CLI will automatically detect and use the newest ecs-registry-creds
file within the current directory:
$~\privateImageApp> ecs-cli compose up
INFO[0000] Found ecs-registry-creds file C:\Users\myuser\regcreds\regCredTest\ecs-registry-creds_20181023T210805Z.yml
INFO[0000] Using ecs-registry-creds value arn:aws:secretsmanager:region:aws_account_id:secret:amazon-ecs-cli-setup-my-registry.example.com-VeDqXm container name=web option name=credentials_parameter
Using ecs-registry-creds value arn:aws:secretsmanager:region:aws_account_id:secret:amazon-ecs-cli-setup-my-registry.example.com-VeDqXm container name=log option name=credentials_parameter
INFO[0000] Using ecs-registry-creds value myTaskExecutionRole option name=task_execution_role
INFO[0000] Using ECS task definition TaskDefinition="privateImageApp:1"
INFO[0000] Starting container... container=bf35a813-dd76-4fe0-b5a2-c1334c2331f4/web
INFO[0000] Starting container... container=bf35a813-dd76-4fe0-b5a2-c1334c2331f4/log
INFO[0012] Describe ECS container status container=bf35a813-dd76-4fe0-b5a2-c1334c2331f4/web desiredStatus=RUNNING lastStatus=PENDING taskDefinition="privateImageApp:1"
INFO[0013] Describe ECS container status container=bf35a813-dd76-4fe0-b5a2-c1334c2331f4/log desiredStatus=RUNNING lastStatus=PENDING taskDefinition="privateImageApp:1"
INFO[0018] Started container... container=bf35a813-dd76-4fe0-b5a2-c1334c2331f4/web desiredStatus=RUNNING lastStatus=RUNNING taskDefinition="privateImageApp:1"
INFO[0018] Started container... container=bf35a813-dd76-4fe0-b5a2-c1334c2331f4/log desiredStatus=RUNNING lastStatus=RUNNING taskDefinition="privateImageApp:1"
The within your new task definition privateImageApp:1
, the container definitions for both web
and log
should have your "my-registry.example.com" secret as a credentialsParameter
. The executionRoleArn
field will be the role we created in the previous step, "myTaskExecutionRole".
Other options:
- to use an ecs-registry-creds output file from outside the current directory, you can specify it in with the
--registry-creds <value>
flag
For more information about using private registries with ECS, see Private Registry Authentication for Tasks.
Sometimes, when you try to Run a Task, the API will return the error message "Reasons : ["ATTRIBUTE"]"
. This occurs because your container instances are missing an attribute required by your Task Definition. You can debug these failures using the ecs-cli check-attributes
command.
Here's an example of the command in action:
$ ecs-cli check-attributes --container-instances 28c5abd2-360e-41a0-81d8-0afca2d08d9b,45510138-f24f-47c6-a418-71c46dd51f88,ae66e18e-1d46-47ff-81c5-647f0f1426ce,dffe7f91-8faa-4e00-983b-c58fd279cf6d --cluster practice-cluster --region us-east-2 --task-def fluentd-kinesis
Container Instance Missing Attributes
dffe7f91-8faa-4e00-983b-c58fd279cf6d None
28c5abd2-360e-41a0-81d8-0afca2d08d9b com.amazonaws.ecs.capability.logging-driver.fluentd
45510138-f24f-47c6-a418-71c46dd51f88 None
ae66e18e-1d46-47ff-81c5-647f0f1426ce com.amazonaws.ecs.capability.logging-driver.fluentd
The command outputs a table of container instances and which attributes they are missing. In this case, the Task Definition requires the Fluentd log driver, but 2 container instances lack support for it.
ECS CLI Commmands support a --tags
flag which allows you to specify AWS Resource Tags in the format key=value,key2=value2,key3=value3
. Resource tags can be used for cost allocation, automation, access control, and more. See AWS Tagging Strategies for a discussion of use cases.
ECS has released new longer ARN formats. You must opt in to these new formats in order to tag Tasks, Services, and Container instances. We strongly recommend opting-in all IAM Identities in your account. You can use the PutAccountSettingDefault API to opt-in to the new format for all IAM Identities in your account.
The ECS Cluster, and CloudFormation template with EC2 resources can be tagged. In addition, the ECS CLI will add tags to the following resources which are created by the CloudFormation template:
- VPC
- Subnets
- Internet Gateway
- Route Tables
- Security Group
- Autoscaling Group
- ECS Container Instances (only if opted-in to Container Instance Long ARN format)
For the autoscaling group, the ECS CLI will add a Name
tag whose value will be ECS Instance - <CloudFormation stack name>
, which will be propagated to your EC2 instances. You can override this behavior by specifying your own Name
tag.
Resource tags specified with --tags
will be added to your Tasks and Task Definitions. In addition, ECS Managed Tags are enabled by default for all tasks launched by the ECS CLI (if you are opted-in the the new Task Long ARN Format). ECS will automatically add a aws:ecs:clusterName
tag to each of your tasks. You can disable this feature using --disable-ecs-managed-tags
.
Resource tags specified with --tags
will be added to your Service and Task Definitions. In addition, all Services created by the ECS CLI have propagateTags
set to TASK_DEFINITION
which means that tags from the Task Definition will propagate to the tasks in the Service. If you add new tags, the ECS CLI will register a new Task Definition and these tags will be propagated by ECS to your tasks.
Similar to compose up/create
, ECS Managed Tags are enabled by default for all Services launched by the ECS CLI (if you are opted-in the the new Task Long ARN Format). ECS will automatically add aws:ecs:clusterName
and aws:ecs:serviceName
tags to each of the tasks launched by your service. You can disable this feature using --disable-ecs-managed-tags
.
Resource tags specified with --tags
will be added to your ECR repository.
Resource tags specified with --tags
will be added to new IAM Roles and new or existing AWS Secrets Manager Secrets. (Existing IAM Roles cannot be tagged.)
The ECS CLI supports creating, running, inspecting and stopping tasks defined by an ECS Task Definition through its local
subcommands. You can run an ECS Task Definition specified in a local JSON file or pulled from a registered ECS Task Definition.
If you want to convert an ECS Task Definition to a Docker Compose file, you can run:
$ ecs-cli local create
Without arguments, this will try to read an ECS Task Definition from local a file named task-definition.json
located in the current directory and generate both a compose file, by default named docker-compose.ecs-local.yml
, as well as a compose override file, by default named docker-compose.ecs-local.override.yml
. This command is equivalent to a dry-run of local up
.
NOTE Using these Compose files as input to ecs-cli compose
subcommands may not translate back to the same ECS Task Definition used as input to local create
.
To run an ECS Task Definition specified in a different file, you can use the --task-def-file
or -f
flag with the name of the file.
To run an ECS Task Definition already registered with ECS, you can use the --task-def-remote
or -t
flag with the ARN or family name of the Task Definition.
You can also specify a different output file using the --output
or -o
flag.
To skip the overwrite confirmation prompt, use the --force
flag.
To run an ECS Task Definition locally, you can run:
$ ecs-cli local up
This command takes the same flags as local create
. You can also specify compose override files using the --override
flag.
This command will also create the local end Amazon ECS Local Endpoints Container and the network, ecs-local-network
that your containers will be run in.
Once you have your task running locally, the basic command to list your task's containers is:
$ ecs-cli local ps
This will search for containers created from the ./task-definition.json
file (to see all available options, run ecs-cli local ps --help
).
For example, if you'd like to list containers created from a specific task definition file, use the following command:
$ ecs-cli local ps -f ./app-task-definition.json
CONTAINER ID IMAGE STATUS PORTS NAMES TASKDEFINITION
84ff8e68e613 nginx Up 15 seconds /local-cmds_nginx_1 /path/to/app-task-definition.json
If you want to stop and remove a task's containers, you can run:
$ ecs-cli local down
This will stop and remove all the containers started from the ./task-definition.json
file (to see all available options, run ecs-cli local down --help
).
For example, you can stop and remove all tasks running locally using the --all
flag:
$ ecs-cli local down --all
INFO[0000] Searching for all running containers
INFO[0000] Stop and remove 1 container(s)
INFO[0000] Stopped container with id 84ff8e68e613
INFO[0000] Removed container with id 84ff8e68e613
INFO[0000] The network ecs-local-network has no more running tasks
INFO[0001] Stopped container with name amazon-ecs-local-container-endpoints
INFO[0001] Removed container with name amazon-ecs-local-container-endpoints
INFO[0001] Removed network with name ecs-local-network
If you have no more tasks running, then this command will also stop and remove the Amazon ECS Local Container Endpoints
and finally remove the ecs-local-network
as well.
For a complete list of commands, see the Amazon ECS CLI documentation.
Contributions and feedback are welcome! Proposals and pull requests will be considered and responded to. For more information, see the CONTRIBUTING.md file.
Amazon Web Services does not currently provide support for modified copies of this software.
The Amazon ECS CLI is distributed under the Apache License, Version 2.0. See LICENSE and NOTICE for more information.