Coding & Refactoringlow risk
multi-stage-dockerfile
Create optimized multi-stage Dockerfiles for any language or framework
github/awesome-copilot·skills/multi-stage-dockerfile/SKILL.md
100/ 100品質
この Skill を導入
coding agent を選び、プロジェクト用または個人用コマンドをコピーします。
プロジェクトに導入.agents/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a codex -y個人環境に導入~/.agents/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a codex -g -yプロジェクトに導入.claude/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a claude-code -y個人環境に導入~/.claude/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a claude-code -g -yプロジェクトに導入.agents/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a github-copilot -y個人環境に導入~/.copilot/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a github-copilot -g -yプロジェクトに導入.agents/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a cursor -y個人環境に導入~/.cursor/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a cursor -g -yプロジェクトに導入.agents/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a gemini-cli -y個人環境に導入~/.gemini/skills/multi-stage-dockerfile
npx skills add https://github.com/github/awesome-copilot/tree/0aaced533251f5b86c69dfbc5e55db74c4b4d1af/skills/multi-stage-dockerfile -a gemini-cli -g -yNative Gemini CLI
gemini skills install https://github.com/github/awesome-copilot.git --scope workspace --path skills/multi-stage-dockerfile⚠ インストールには open-source skills CLI を使用します。実行前にソースと権限を確認してください。
Skill の指示
GitHub で元ファイルを表示 ↗Your goal is to help me create efficient multi-stage Dockerfiles that follow best practices, resulting in smaller, more secure container images. ## Multi-Stage Structure - Use a builder stage for compilation, dependency installation, and other build-time operations - Use a separate runtime stage that only includes what's needed to run the application - Copy only the necessary artifacts from the builder stage to the runtime stage - Use meaningful stage names with the `AS` keyword (e.g., `FROM node:18 AS builder`) - Place stages in logical order: dependencies → build → test → runtime ## Base Images - Start with official, minimal base images when possible - Specify exact version tags to ensure reproducible builds (e.g., `python:3.11-slim` not just `python`) - Consider distroless images for runtime stages where appropriate - Use Alpine-based images for smaller footprints when compatible with your application - Ensure the runtime image has the minimal necessary dependencies ## Layer Optimization - Organize commands to maximize layer caching - Place commands that change frequently (like code changes) after commands that change less frequently (like dependency installation) - Use `.dockerignore` to prevent unnecessary files from being included in the build context - Combine related RUN commands with `&&` to reduce layer count - Consider using COPY --chown to set permissions in one step ## Security Practices - Avoid running containers as root - use `USER` instruction to specify a non-root user - Remove build tools and unnecessary packages from the final image - Scan the final image for vulnerabilities - Set restrictive file permissions - Use multi-stage builds to avoid including build secrets in the final image ## Performance Considerations - Use build arguments for configuration that might change between environments - Leverage build cache efficiently by ordering layers from least to most frequently changing - Consider parallelization in build steps when possible - Set appropriate environment variables like NODE_ENV=production to optimize runtime behavior - Use appropriate healthchecks for the application type with the HEALTHCHECK instruction