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Kubectl-fzf

kubectl-fzf provides a fast and powerful fzf autocompletion for kubectl.

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Table of Contents

Features

Requirements

Installation

kubectl-fzf binaries

# Completion binary called during autocompletion
go install github.com/bonnefoa/kubectl-fzf/v3/cmd/kubectl-fzf-completion@main
# If you want to run the kubectl-fzf server locally
go install github.com/bonnefoa/kubectl-fzf/v3/cmd/kubectl-fzf-server@main

kubectl-fzf-completion needs to be in you $PATH so make sure that your $GOPATH bin is included:

PATH=$PATH:$GOPATH/bin

Shell autocompletion

Source the autocompletion functions:

# bash version
wget https://raw.githubusercontent.com/bonnefoa/kubectl-fzf/main/shell/kubectl_fzf.bash -O ~/.kubectl_fzf.bash
echo "source <(kubectl completion bash)" >> ~/.bashrc
echo "source ~/.kubectl_fzf.bash" >> ~/.bashrc

# zsh version
wget https://raw.githubusercontent.com/bonnefoa/kubectl-fzf/main/shell/kubectl_fzf.plugin.zsh -O ~/.kubectl_fzf.plugin.zsh
echo "source <(kubectl completion zsh)" >> ~/.zshrc
echo "source ~/.kubectl_fzf.plugin.zsh" >> ~/.zshrc

Zsh plugins: Antigen

You can use antigen to load it as a zsh plugin

antigen bundle robbyrussell/oh-my-zsh plugins/docker
antigen bundle bonnefoa/kubectl-fzf@main shell/

kubectl-fzf-server

Install kubectl-fzf-server as a pod

You can deploy kubectl-fzf-server as a pod in your cluster.

From the k8s directory:

helm template --namespace myns --set image.kubectl_fzf_server.tag=v3 --set toleration=aToleration . | kubectl apply -f -

You can check the latest image version here.

Install kubectl-fzf-server as a systemd service

You can install kubectl-fzf-server as a systemd unit server.

# Create user systemd config
mkdir -p ~/.config/systemd/user
wget https://raw.githubusercontent.com/bonnefoa/kubectl-fzf/main/systemd/kubectl_fzf_server.service -O ~/.config/systemd/user/kubectl_fzf_server.service
# Set fullpath of kubectl-fzf-server
sed -i "s#INSTALL_PATH#$GOPATH/bin#" ~/.config/systemd/user/kubectl_fzf_server.service

# Reload to pick up new service
systemctl --user daemon-reload

# Start the server
systemctl --user start kubectl_fzf_server.service

# Automatically enable it at startup
systemctl --user enable kubectl_fzf_server.service

# Get log
journalctl --user-unit=kubectl_fzf_server.service

Usage

kubectl-fzf-server: local version

flowchart TB
    subgraph TargetCluster
        k8s[api-server]
    end

    subgraph Laptop
        shell[Shell]
        fileNode([/tmp/kubectl_fzf_cache/TargetCluster/pods])
        comp[kubectl-fzf-completion]
        server[kubectl-fzf-server]
    end
    shell -- kubectl get pods TAB --> comp -- Read content and feed it to fzf --> fileNode
    server -- Write autocompletion informations --> fileNode

    k8s <-- Watch --o server

kubectl-fzf-server will watch cluster resources and keep the current state of the cluster in local files. By default, files are written in /tmp/kubectl_fzf_cache (defined by KUBECTL_FZF_CACHE)

Advantages:

Drawbacks:

To create cache files necessary for kubectl_fzf, just run in a tmux or a screen

kubectl-fzf-server

It will watch the cluster in the current context. If you switch context, kubectl-fzf-server will detect and start watching the new cluster. The initial resource listing can be long on big clusters and autocompletion might need 30s+.

connect: connection refused or similar messages are expected if there's network issues/interruptions and kubectl-fzf-server will automatically reconnect.

kubectl-fzf-server: pod version

flowchart TB
    subgraph TargetCluster
        k8s[api-server]
        server[kubectl-fzf-server]
    end

    subgraph Laptop
        shell[Shell]
        comp[kubectl-fzf-completion]
    end


    shell -- kubectl get pods TAB --> comp 
    comp -- Through port forward\nGET /k8s/resources/pods --> server

    k8s <-- Watch --o server

If the pod is deployed in your cluster, the autocompletion will be fetched automatically fetched using port forward.

Advantages:

Drawbacks:

Completion

Once kubectl-fzf-server is running, you will be able to use kubectl_fzf by calling the kubectl completion

# Get fzf completion on pods on all namespaces
kubectl get pod <TAB>

# Open fzf autocompletion on all available label
kubectl get pod -l <TAB>

# Open fzf autocompletion on all available field-selector. Usually much faster to list all pods running on an host compared to kubectl describe node.
kubectl get pod --field-selector <TAB>

# This will fallback to the normal kubectl completion (if sourced) 
kubectl <TAB>

Configuration

By default, the local port used for the port-forward is 8080. You can override it through an environment variable:

KUBECTL_FZF_PORT_FORWARD_LOCAL_PORT=8081

Troubleshooting

Debug kubectl-fzf-completion

Build and test a completion with debug logs:

go build ./cmd/kubectl-fzf-completion && KUBECTL_FZF_LOG_LEVEL=debug ./kubectl-fzf-completion k8s_completion 'get pods '  

Force Tab completion to use the completion binary in the current directory:

export KUBECTL_FZF_COMPLETION_BIN=./kubectl-fzf-completion

Debug Tab Completion

To debug Tab completion, you can activate the shell debug logs:

export KUBECTL_FZF_COMP_DEBUG_FILE=/tmp/debug

Check that the completion function is correctly sourced:

type kubectl_fzf_completion
kubectl_fzf_completion is a shell function from /home/bonnefoa/.antigen/bundles/kubectl-fzf-main/shell/kubectl_fzf.plugin.zsh

Use zsh completion debug:

kubectl get pods <C-X>?
Trace output left in /tmp/zsh497886kubectl1 (up-history to view)

Debug kubectl-fzf-server

To launch kubectl-fzf-server with debug logs

kubectl-fzf-server --log-level debug