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sentry-kubernetes

Kubernetes event reporter for Sentry.


⚠️ Note: this is BETA software that is still in development and may contain bugs. Use it at your own risk in production environments.

⚠️ Note: this is a new Go-based implementation of the agent. If you're looking for the documentation on the legacy Python-based implementation, it was moved here.


Errors and warnings in Kubernetes often go unnoticed by operators. Even when they are checked they are hard to read and understand in the context of what else is going on in the cluster. sentry-kubernetes is a small container you launch inside your Kubernetes cluster that will send errors and warnings to Sentry where they will be cleanly presented and intelligently grouped. Typical Sentry features such as notifications can then be used to help operation and developer visibility.

Configuration

  • SENTRY_DSN - Sentry DSN that will be used by the agent.

  • SENTRY_ENVIRONMENT - Sentry environment that will be used for reported events.

  • SENTRY_K8S_WATCH_NAMESPACES - a comma-separated list of namespaces that will be watched. Only the default namespace is watched by default. If you want to watch all namespaces, set the varible to value __all__.

  • SENTRY_K8S_WATCH_HISTORICAL - if set to 1, all existing (old) events will also be reported. Default is 0 (old events will not be reported).

  • SENTRY_K8S_CLUSTER_CONFIG_TYPE - the type of the cluster initialization method. Allowed options: auto, in-cluster, out-cluster. Default is auto.

  • SENTRY_K8S_KUBECONFIG_PATH - filesystem path to the kubeconfig configuration that will be used to connect to the cluster. Not used if SENTRY_K8S_CLUSTER_CONFIG_TYPE is set to in-cluster.

  • SENTRY_K8S_LOG_LEVEL - logging level. Can be trace, debug, info, warn, error, disabled. Default is info.

  • SENTRY_K8S_MONITOR_CRONJOBS - if set to 1, enables Sentry Crons integration for CronJob objects. Disabled by default.

  • SENTRY_K8S_CUSTOM_DSNS - if set to 1, enables custom DSN to be specified in the annotations with key k8s.sentry.io/dsn which would take precedence over `SENTRY_DSN. Disabled by default.

Adding custom tags

To add a custom tag to all events produced by the agent, set an environment variable, whose name is prefixed with SENTRY_K8S_GLOBAL_TAG_.

Example:

SENTRY_K8S_GLOBAL_TAG_cluster_name=main-cluster will add cluster_name=main_cluster tag to every outgoing Sentry event.

Integrations

  • SENTRY_K8S_INTEGRATION_GKE_ENABLED - if set to 1, enable the GKE integration. Default is 0 (disabled).

    The GKE integration will attempt to fetch GKE/GCE metadata from the GCP metadata server, such as project name, cluster name, and cluster location.

Client-side Filters

If you don't want to report certain kinds of events to Sentry, you can configure client-side filters.

  • Event Reason: filtering by Event.Reason field.

    SENTRY_K8S_FILTER_OUT_EVENT_REASONS is a comma separated set of event Reason values. If the event's Reason is in that list, the event will be dropped. By default, the following reasons are filtered out (muted): DockerStart, KubeletStart, NodeSysctlChange, ContainerdStart.

  • Event Source: filtering by Event.Source.Component field.

    SENTRY_K8S_FILTER_OUT_EVENT_SOURCES is a comma separated set of Source Component values (examples include kubelet, default-cheduler, job-controller, kernel-monitor). If the event's Source Component is in that list, the event will be dropped. By default, no events are filtered out by Source Component.

Custom DSN Support

By default, the Sentry project that the agent sends events to is specified by the environment variable SENTRY_DSN. However, if the flag SENTRY_K8S_CUSTOM_DSNS is enabled, a Kubernetes object manifest may specify a custom DSN that takes precedence over the global DSN. To do so, specified the custom DSN in the annotations using the k8s.sentry.io/dsn key as follows:

apiVersion: batch/v1
kind: CronJob
metadata:
  name: cronjob-basic-success
  labels:
    type: test-pod
  annotations:
    k8s.sentry.io/dsn: "<Insert DSN here>"
spec:
  schedule: "* * * * *"
  jobTemplate:
    spec:
      template:
        metadata:
          labels:
            type: test-pod
            run: cronjob-basic-success
        spec:
          containers:
            - name: hello
              image: busybox:1.28
              imagePullPolicy: IfNotPresent
              command:
                - /bin/sh
                - -c
                - date; echo Hello!; sleep 3
          restartPolicy: OnFailure

Integration with Sentry Crons

A useful feature offered by Sentry is Crons Monitoring. This feature may be enabled by setting the environment variable SENTRY_K8S_MONITOR_CRONJOBS variable to true. The agent is compatible with Sentry Crons and can automatically upsert CronJob objects with a Sentry project.

The agent automatically creates a Crons monitor for any detected CronJob with the monitor slug name to be the name of the CronJob. Additionally, the schedule is automatically taken from the CronJob manifest.

Moreover, any the events of any resource object (e.g. pod, job, event) that is associated with a CronJob will have the corresponding monitor slug name is a metadata. This allows the grouping of events based on Crons monitors in Issues as well.

Crons Example

The following manifest is of a cronjob that sometimes fails and completes with variable durations:

apiVersion: batch/v1
kind: CronJob
metadata:
  name: cronjob-late-maybe-error
  labels:
    type: test-pod
spec:
  schedule: "* * * * *"
  jobTemplate:
    spec:
      backoffLimit: 0
      template:
        metadata:
          labels:
            type: test-pod
            run: cronjob-late-maybe-error
        spec:
          containers:
            - name: hello
              image: busybox:1.28
              imagePullPolicy: IfNotPresent
              command:
                - /bin/sh
                - -c
                - |
                  MINWAIT=0
                  MAXWAIT=60
                  sleep $((MINWAIT+RANDOM % (MAXWAIT-MINWAIT)))
                  sleep 3
                  r=$((RANDOM%2))
                  if [ $r -eq 0 ]; then echo Hello!; else exit 1; fi
          restartPolicy: Never

In the Sentry Crons tab of the corresponding project, we may see the following:

ExampleCronsMonitor

Local Development (out of cluster configuration)

  1. Install necessary dependencies to run Kubernetes locally

    1. Install docker and start the docker daemon

      https://docs.docker.com/engine/install/

      docker is a service that manages containers and is used by Kubernetes to create nodes (since kind actually create Kubernetes “nodes” as docker containers rather than VMs)

    2. Install kind and add it to PATH

      https://kind.sigs.k8s.io/docs/user/quick-start/

      kind is a tool for running local Kubernetes clusters and we use it here for testing. The container runtime used by it is containerd, which is the same runtime used now by Docker.

    3. Install kubectl, which is the command line tool we use to interact with Kubernetes clusters ran locally by kind

      https://kubernetes.io/docs/tasks/tools/

  2. Run Kubernetes cluster locally for development purposes

    1. Create a Kubernetes cluster with kind using the command (the cluster name is “kind” by default)

    kind create cluster

    b. Output information about the created cluster named “kind” or some cluster name you have chosen using the following command (replacing <cluster name> with kind if default used)

    kubectl cluster-info --context kind-<cluster name>

    You should see an output similar to the following:

    Kubernetes control plane is running at https://127.0.0.1:61502
    CoreDNS is running at https://127.0.0.1:61502/api/v1/namespaces/kube-system/services/kube-dns:dns/proxy
  3. Run the sentry-kubernetes Go module (which must be performed after the Kubernetes cluster is already running because the module requires the kubeconfig file)

    1. Clone the sentry-kubernetes repository

    git clone https://github.com/getsentry/sentry-kubernetes.git

    b. Pass a valid Sentry DSN to the an environment variable named SENTRY_DSN (https://docs.sentry.io/product/sentry-basics/concepts/dsn-explainer/)

    c. At the root of the repository directory, build the Go module with the command

    make build

    d. Run the module outside of the k8s cluster by executing the command

    go run .

    which now starts up the process that automatically detects the cluster configuration in order to detect events

  4. Add error-producing pods to test event capturing

    1. Create resources (e.g. pods or deployments) using existing manifests meant to produce errors to be captured by sentry-kubernetes. For example, we can apply the manifest for a pod that exhibits crash loop behavior with the command

    kubectl apply -f ./k8s/errors/pod-crashloop.yaml

    b. Check that the pod is created using the command

    kubectl get pods

    which should produce an output similar to the following:

    NAME            READY   STATUS             RESTARTS       AGE
    pod-crashloop   0/1     CrashLoopBackOff   32 (33s ago)   3h10m

    Notice that the Status is CrashLoopBackOff, which is the intended state for our purpose

    c. Check that the sentry-kubernetes process capture this crash loop error by checking for the an output similar to the following:

    [Sentry] 2023/11/08 12:07:53 Using release from Git: abc123
    12:07PM INF Auto-detecting cluster configuration...
    12:07PM WRN Could not initialize in-cluster config
    12:07PM INF Detected out-of-cluster configuration
    12:07PM INF Running integrations...
    12:07PM INF Watching events starting from: Wed, 08 Nov 2023 12:07:53 -0800 namespace=default watcher=events
    12:07PM INF CronJob monitoring is disabled namespace=default watcher=events
    [Sentry] 2023/11/08 12:09:27 Sending error event [w0dc9c22094d7rg9b27afabc868e32] to o4506191942320128.ingest.sentry.io project: 4506191948087296
    [Sentry] 2023/11/08 12:10:57 Sending error event [4808b623f0eb446eac0eb6c5f0a43681] to o4506191942320128.ingest.sentry.io project: 4506191948087296

    d. Check the Issues tab of the corresponding Sentry project to ensure the events captured are shown similar to below:

    ExampleEvent

Caveats

  • When the same event (for example, a failed readiness check) happens multiple times, Kubernetes might not report each of them individually, and instead combine them, and send with some backoff. The event message in that case will be prefixed with "(combined from similar events)" string, that we currently strip. AFAIK, there's no way to disable this batching behaviour.

Potential Improvements

  • For pod-related events: fetch last log lines and displaying them as breadcrumbs or stacktrace.