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Excerpt

This page describes the rules all containers deployed on the infrastructure must apply to.

If the delivered component violate violates any of the demands below the component will be rejected.

Table of Contents

1. Docker Image

  1. Must build upon one of the predefined eHealth docker base images (Docker Base Images)

  2. The applications in the container must run as non-root  (Docker Base Images Security)

  3. The docker image that is pushed to the central docker image repository must be signed with an approved private key. (Image Signing)

2. Application Requirements

  1. The application containers must be stateless. (see also 2.3. Handle being scaled)

    1. At restart the application filesystem is reset to the one from the docker image.

    2. Persistence is handled by the infrastructure applications.

  2. Server restart and reset must be acceptable at any time.

    1. The container may at any time receive a SIGTERM signal to the main process (PID 1).

    2. If the application fails to exit gracefully before a timeout of 10 seconds the application will be killed by the platform.

  3. Handle being scaled to multiple instances.

    1. It is a requirement that all services

...

    1. run at least in two instances in different data

...

    1. centres to have high availability.

    2. If a service is busy it may be scaled to more than two instances, to handle extra requests.

    3. For this reason, a service cannot have any state that cannot be recreated if the service is moved to another worker node, or if the service is

...

    1. called

      1. A service cannot hold sessions locally

      2. A service cannot run its

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      1. database

      2. A service may keep an in-memory cache, as long as all instances of the same service can also handle requests for objects in the cache. And the service has a sane strategy to refresh/

...

      1. clean up the cache.

3. Health Checks

...

  1. The Services must expose one or two endpoints for readiness and liveness status.

    1. Such as a /healthz endpoint that responds with status code 200 when the application is ready to receive requests

      1. Liveness Probe

        1. Suppose that a Pod is running our application inside a container, but due to some reason let’s say memory leak,

...

        1. CPU usage, application deadlock etc the application is not responding to our requests, and is stuck in an error state.

...

        1. The liveness probe checks the container health as we tell it to do, and if for some reason the liveness probe fails (x times), it restarts the container.

        2. See also this article: Kubernetes liveness and readiness probes difference

      1. Readiness Probe

        1. In some cases, we would like our application to be alive, but not serve traffic unless some conditions are met e.g., populating a dataset, waiting for some other service to be alive etc. In such cases, we use a readiness probe. If the condition inside the readiness probe passes, only then our application can serve traffic.

        2. See also this article: Kubernetes liveness and readiness probes difference

4. Request Headers

  1. Headers used for authentication and authorization must be set

  2. B3 header propagation

    1. Tracing headers must be propagated as described in https://istio.io/docs/tasks/telemetry/distributed-tracing/.

    2. This can be handled by libraries like https://github.com/jaegertracing/jaeger-client-java

  3. Applications accessing the infrastructure are encouraged to expose their application identity by using the HTTP Header User Agent, eg: User agent : HAPI-FHIR/4.1.0 (FHIR Client; FHIR 3.0.2/DSTU3; apache) or User agent : CGI-CC360-COPD/1.0.3. This information can then in the future be used to provide proper redirects.

5. Logging requirements

  1. Follow the specification for the application log (Logging model)

  2. Errors and essential

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  1. incidents must be found in the application log

7. Helm charts

...

  1. The application must be deployed using one of the official eHealth helm charts available here: https://registry.admin.ehealth.sundhed.dk/harbor/projects/5/helm-charts

    1. See Helm Charts

...

  1. The application must be deployed using the most recent version of the helm chart.

8. Documentation

  1. Documentation of the

...

  1. component's purpose, service requirements and resource usage

9. Rollout plan

  1. Every release must follow a strict release plan where all four eHealth Environments (see Environments ) are visited in the show order.

    1. Internal test  → external test → pre-production → production

  2. New releases must be able to coexist with the previous version.

  3. Rollback must always be possible. A new release must never have contradictory demands with the previous version.

  4. The system runs 24/7 meaning that service windows with down time is not an option.