C4 Container Level: System Deployment is a development claude skill built by sickn33.
- What it does
- C4 Container Level: System Deployment
- Category
- Development
- Created by
- sickn33
- Last updated
- Not tracked
C4 Container Level: System Deployment
C4 Container Level: System Deployment
Skill instructions
name: c4-container description: Expert C4 Container-level documentation specialist. risk: unknown source: community date_added: '2026-02-27'
C4 Container Level: System Deployment
Use this skill when
- Working on c4 container level: system deployment tasks or workflows
- Needing guidance, best practices, or checklists for c4 container level: system deployment
Do not use this skill when
- The task is unrelated to c4 container level: system deployment
- You need a different domain or tool outside this scope
Instructions
- Clarify goals, constraints, and required inputs.
- Apply relevant best practices and validate outcomes.
- Provide actionable steps and verification.
- If detailed examples are required, open
resources/implementation-playbook.md.
Containers
[Container Name]
- Name: [Container name]
- Description: [Short description of container purpose and deployment]
- Type: [Web Application, API, Database, Message Queue, etc.]
- Technology: [Primary technologies: Node.js, Python, PostgreSQL, Redis, etc.]
- Deployment: [Docker, Kubernetes, Cloud Service, etc.]
Purpose
[Detailed description of what this container does and how it's deployed]
Components
This container deploys the following components:
-
- Documentation: c4-component-name.md
Interfaces
[API/Interface Name]
- Protocol: [REST/GraphQL/gRPC/Events/etc.]
- Description: [What this interface provides]
- Specification: [Link to OpenAPI/Swagger/API Spec file]
- Endpoints:
GET /api/resource- [Description]POST /api/resource- [Description]
Dependencies
Containers Used
- [Container Name]: [How it's used, communication protocol]
External Systems
- [External System]: [How it's used, integration type]
Infrastructure
- Deployment Config: [Link to Dockerfile, K8s manifest, etc.]
- Scaling: [Horizontal/vertical scaling strategy]
- Resources: [CPU, memory, storage requirements]
Container Diagram
Use proper Mermaid C4Container syntax:
C4Container
title Container Diagram for [System Name]
Person(user, "User", "Uses the system")
System_Boundary(system, "System Name") {
Container(webApp, "Web Application", "Spring Boot, Java", "Provides web interface")
Container(api, "API Application", "Node.js, Express", "Provides REST API")
ContainerDb(database, "Database", "PostgreSQL", "Stores data")
Container_Queue(messageQueue, "Message Queue", "RabbitMQ", "Handles async messaging")
}
System_Ext(external, "External System", "Third-party service")
Rel(user, webApp, "Uses", "HTTPS")
Rel(webApp, api, "Makes API calls to", "JSON/HTTPS")
Rel(api, database, "Reads from and writes to", "SQL")
Rel(api, messageQueue, "Publishes messages to")
Rel(api, external, "Uses", "API")
**Key Principles** (from [c4model.com](https://c4model.com/diagrams/container)):
- Show **high-level technology choices** (this is where technology details belong)
- Show how **responsibilities are distributed** across containers
- Include **container types**: Applications, Databases, Message Queues, File Systems, etc.
- Show **communication protocols** between containers
- Include **external systems** that containers interact with
API Specification Template
For each container API, create an OpenAPI/Swagger specification:
openapi: 3.1.0
info:
title: [Container Name] API
description: [API description]
version: 1.0.0
servers:
- url: https://api.example.com
description: Production server
paths:
/api/resource:
get:
summary: [Operation summary]
description: [Operation description]
parameters:
- name: param1
in: query
schema:
type: string
responses:
'200':
description: [Response description]
content:
application/json:
schema:
type: object
Example Interactions
- "Synthesize all components into containers based on deployment definitions"
- "Map the API components to containers and document their APIs as OpenAPI specs"
- "Create container-level documentation for the microservices architecture"
- "Document container interfaces as Swagger/OpenAPI specifications"
- "Analyze Kubernetes manifests and create container documentation"
Key Distinctions
- vs C4-Component agent: Maps components to deployment units; Component agent focuses on logical grouping
- vs C4-Context agent: Provides container-level detail; Context agent creates high-level system diagrams
- vs C4-Code agent: Focuses on deployment architecture; Code agent documents individual code elements
Output Examples
When synthesizing containers, provide:
- Clear container boundaries with deployment rationale
- Descriptive container names and deployment characteristics
- Complete API documentation with OpenAPI/Swagger specifications
- Links to all contained components
- Mermaid container diagrams showing deployment architecture
- Links to deployment configurations (Dockerfiles, K8s manifests, etc.)
- Infrastructure requirements and scaling considerations
- Consistent documentation format across all containers
Limitations
- Use this skill only when the task clearly matches the scope described above.
- Do not treat the output as a substitute for environment-specific validation, testing, or expert review.
- Stop and ask for clarification if required inputs, permissions, safety boundaries, or success criteria are missing.
Use this skill
Most skills are portable instruction packages. Claude Code supports SKILL.md directly. Other agents can use adapted files like AGENTS.md, .cursorrules, and GEMINI.md.
Claude Code
Save SKILL.md into your Claude Skills folder, then restart Claude Code.
mkdir -p ~/.claude/skills/c4-container-level-system-deployment && curl -L "https://raw.githubusercontent.com/sickn33/antigravity-awesome-skills/HEAD/plugins/antigravity-awesome-skills-claude/skills/c4-container/SKILL.md" -o ~/.claude/skills/c4-container-level-system-deployment/SKILL.mdInstalls to ~/.claude/skills/c4-container-level-system-deployment/SKILL.md.
Reviews
No reviews yet. Be the first to review this skill.