Best practices for Amazon ECS container images
A container image is a set of instructions on how to build the container. A container image holds your application code and all the dependencies that your application code requires to run. Application dependencies include the source code packages that your application code relies on, a language runtime for interpreted languages, and binary packages that your dynamically linked code relies on.
Use the following guidelines when you design and build your container images:
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Make your container images complete by storing all application dependencies as static files inside the container image.
If you change something in the container image, build a new container image with the changes.
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Run a single application process within a container.
The container lifetime is as long as the application process runs. Amazon ECS replaces crashed processes and determines where to launch the replacement process. A complete image makes the overall deployment more resilient.
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Make your application handle
SIGTERM
.When Amazon ECS stops a task, it first sends a SIGTERM signal to the task to notify the application that it needs to finish and shut down. Amazon ECS then sends a
SIGKILL
message. When applications ignore theSIGTERM
, the Amazon ECS service must wait to send theSIGKILL
signal to terminate the process.You need to identify how long it takes your application to complete its work, and ensure that your applications handles the
SIGTERM
signal. The application's signal handling needs to stop the application from taking new work and complete the work that is in-progress, or save unfinished work to storage outside of the task when the work takes too long to complete. -
Configure containerized applications to write logs to
stdout
andstderr
.Decoupling log handling from your application code gives you flexibility to adjust log handling at the infrastructure level. One example of this is to change your logging system. Instead of modifying your services, and building and deploying a new container image, you can adjust the settings.
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Use tags to version your container images.
Container images are stored in a container registry. Each image in a registry is identified by a tag. There's a tag called
latest
. This tag functions as a pointer to the latest version of the application container image, similar to theHEAD
in a git repository. We recommend that you use thelatest
tag only for testing purposes. As a best practice, tag container images with a unique tag for each build. We recommend that you tag your images using the git SHA for the git commit that was used to build the image.You don’t need to build a container image for every commit. However, we recommend that you build a new container image each time you release a particular code commit to the production environment. We also recommend that you tag the image with a tag that corresponds to the git commit of the code that's inside the image. If you tagged the image with the git commit, you can more quickly find which version of the code the image is running.
We also recommend that you turn on immutable image tags in Amazon Elastic Container Registry. With this setting, you can't change the container image that a tag points at. Instead Amazon ECR enforces that a new image must be uploaded to a new tag. For more information, see Image tag mutability in the Amazon ECR User Guide.
When you architect your application to run on AWS Fargate, you must decide between deploying multiple containers into the same task definition and deploying containers separately in multiple task definitions. If the following conditions are required, we recommend deploying multiple containers into the same task definition:
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Your containers share a common lifecycle (that is, they're launched and terminated together).
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Your containers must run on the same underlying host (that is, one container references the other on a localhost port).
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Your containers share resources.
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Your containers share data volumes.
If these conditions aren't required, we recommend deploying containers separately in multiple task definitions. This allows you to scale, provision, and deprovision the containers separately.