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Sample sidecar demonstrating automatic collection of container performance data using Linux perf tool in a Kubernetes cluster

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perf-sidecar-injector

Sample sidecar demonstrating automatic collection of container performance data using Linux perf tool in a Kubernetes cluster

Introduction

This is a sidecar injector to allow injecting 'perf' container with PID sharing.
The purpose of this injector is to inject 'perf' container in deployed PODs to capture perf statistics for performance analysis

Acknowledgement: The code is based on Morven Cao's sample MutatingAdmissionWebhook as described in the following medium article. The code can be found here

The first iteration of this work was by extending the istio sidecar injector

Note

'perf' container requires PID namespace sharing and privilege access.

Source for perf container is available from the following github link

Deploy

  • Ensure you are using Kubernetes 1.10+ and the following settings enabled:
    • PodShareProcessNamespace=true feature-gate turned on
    • Ensure kube-apiserver has the admission-control flag set with MutatingAdmissionWebhook and ValidatingAdmissionWebhook admission controllers added
$kubectl api-versions | grep admissionregistration

admissionregistration.k8s.io/v1beta1

Build

  1. Setup dep

    The repo uses dep as the dependency management tool for its Go codebase. Install dep by the following command:

go get -u github.com/golang/dep/cmd/dep
  1. Build and push docker image
make image
make release

Deploy

  1. Create a signed cert/key pair and store it in a Kubernetes secret that will be consumed by sidecar deployment
./deployment/webhook-create-signed-cert.sh \
    --service perf-sidecar-injector-webhook-svc \
    --secret perf-sidecar-injector-webhook-certs \
    --namespace default
  1. Patch the MutatingWebhookConfiguration by setting caBundle with correct value from Kubernetes cluster
cat deployment/mutatingwebhook.yaml | \
    deployment/webhook-patch-ca-bundle.sh > \
    deployment/mutatingwebhook-ca-bundle.yaml
  1. Deploy resources
kubectl create -f deployment/configmap.yaml
kubectl create -f deployment/deployment.yaml
kubectl create -f deployment/service.yaml
kubectl create -f deployment/mutatingwebhook-ca-bundle.yaml

Verify

  1. The sidecar inject webhook should be running
$ kubectl get pods
NAME                                                  READY     STATUS    RESTARTS   AGE
sidecar-injector-webhook-deployment-bbb689d69-882dd   1/1       Running   0          5m

$ kubectl get deployment
NAME                                  DESIRED   CURRENT   UP-TO-DATE   AVAILABLE   AGE
sidecar-injector-webhook-deployment   1         1         1            1           5m
  1. Label the default namespace with sidecar-injector=enabled
$ kubectl label namespace default sidecar-injector=enabled
$ kubectl get namespace -L sidecar-injector
NAME          STATUS    AGE       SIDECAR-INJECTOR
default       Active    18h       enabled
kube-public   Active    18h
kube-system   Active    18h
  1. Deploy an app in Kubernetes cluster, take sleep app as an example
$ cat <<EOF | kubectl create -f -
apiVersion: apps/v1
kind: Deployment
metadata:
  name: sleep
spec:
  replicas: 1
  selector:
    matchLabels:
      app: sleep
  template:
    metadata:
      annotations:
        perf-sidecar-injector-webhook/inject: "yes"
      labels:
        app: sleep
    spec:
      containers:
      - name: sleep
        image: tutum/curl
        command: ["/bin/sleep","infinity"]
        imagePullPolicy: 
EOF
  1. Verify sidecar container injected
$ kubectl get pods
NAME                     READY     STATUS        RESTARTS   AGE
sleep-5c55f85f5c-tn2cs   2/2       Running       0          1m

Perf Considerations

  1. Ensure the application binaries have symbol information otherwise perf report -i <path_to_captured_perf_record> will not be able to show the symbol names. You can use file <path_to_binary> to know if the symbols have been stripped from the binary or not

  2. perf report -i <path_to_captured_perf_record> will require the application binary to resolve the symbol names. Let's say, you are using perf sidecar to capture data for envoy which is in the following path of the envoy container image - /usr/local/bin/envoy. You'll need to copy the envoy binary to the system where you are analyzing the perf data. In the envoy example, copy the binary from the respective container image to /my_home/perf_data/usr/local/bin/envoy and then run perf report -i <path_to_captured_perf_record> --symfs /my_home/perf_data --kallsyms /proc/kallsyms

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