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linkerd-failover

Linkerd-failover is a Linkerd extension whose goal is to provide a failover mechanism so that a service that exists in multiple clusters may continue to operate as long as the service is available in any cluster.

The mechanism relies on Linkerd’s traffic-splitting functionality by providing an operator to alter the backend services' weights in real time depending on their readiness.

Note: if you find issues in this extension, please file an issue against the main Linkerd2 repo.

Table of contents

Issue Tracking

Issues are disabled in this repository since we track issues with this extension in the main Linkerd2 repo. The rationale here is simply that we've found over time that having issues scattered across multiple repos makes it too easy to lose track of things.

Requirements

  • Linkerd stable-2.11.2 or later
  • Linkerd-smi v0.2.0 or later (required if using Linkerd stable-2.12.0 or later)

Configuration

The following Helm values are available:

  • selector: determines which TrafficSplit instances to consider for failover. It defaults to failover.linkerd.io/controlled-by={{.Release.Name}} (the value refers to the release name used in helm install).
  • logLevel, logFormat: for configuring the operator's logging.

Installation

Note the SMI extension CRD is included in Linkerd 2.11.x so you can skip this step for those versions. As of version stable-2.12.0, it's no longer included so you need to install it as described here.

The SMI extension and the operator are to be installed in the local cluster (where the clients consuming the service are located).

Linkerd-smi installation:

helm repo add linkerd-smi https://linkerd.github.io/linkerd-smi
helm repo up
helm install linkerd-smi -n linkerd-smi --create-namespace linkerd-smi/linkerd-smi

Linkerd-failover installation:

# For edge releases
helm repo add linkerd-edge https://helm.linkerd.io/edge
helm repo up
helm install linkerd-failover -n linkerd-failover --create-namespace --devel linkerd-edge/linkerd-failover

# For stable releases
helm repo add linkerd https://helm.linkerd.io/stable
helm repo up
helm install linkerd-failover -n linkerd-failover --create-namespace linkerd/linkerd-failover

Example

The following TrafficSplit serves as the initial state for a failover setup.

Clients should send requests to the apex service sample-svc. The primary service that will serve these requests is declared through the failover.linkerd.io/primary-service annotation, sample-svc in this case. If the TrafficSplit does not include this annotation, it will treat the first backend as the primary service.

When sample-svc starts failing, the weights will be switched over the other backends.

Note that the failover services can be located in the local cluster, or they can point to mirror services backed by services in other clusters (through Linkerd's multicluster functionality).

apiVersion: split.smi-spec.io/v1alpha2
kind: TrafficSplit
metadata:
    name: sample-svc
    annotations:
        failover.linkerd.io/primary-service: sample-svc
    labels:
        failover.linkerd.io/controlled-by: linkerd-failover
spec:
    service: sample-svc
    backends:
        - service: sample-svc
          weight: 1
        - service: sample-svc-central1
          weight: 0
        - service: sample-svc-east1
          weight: 0
        - service: sample-svc-east2
          weight: 0
        - service: sample-svc-asia1
          weight: 0

Implementation details

Failover criteria

The failover criteria is readiness failures on the targeted Pods. This is directly reflected on the Endpoints object associated with those Pods: only when Pods are ready, does the addresses field of the relevant Endpoints get populated.

Failover logic

The following describes the logic used to change the TrafficSplit weights:

  • Whenever the primary backend is ready, all the weight is set to it, setting the weights for all the secondary backends to zero.
  • Whenever the primary backend is not ready, the following rules apply only if there is at least one secondary backend that is ready:
    • The primary backend’s weight is set to zero.
    • The weight is distributed equally among all the secondary backends that are ready.
    • Whenever a secondary backend changes its readiness, the weight is redistributed among all the secondary backends that are ready
  • Whenever both the primary and secondaries are unavailable, the connection will fail at the client-side, as expected.