name: "V3 DDD Architecture" description: "Domain-Driven Design architecture for claude-flow v3. Implements modular, bounded context architecture with clean separation of concerns and microkernel pattern."

V3 DDD Architecture

What This Skill Does

Designs and implements Domain-Driven Design (DDD) architecture for claude-flow v3, decomposing god objects into bounded contexts, implementing clean architecture patterns, and enabling modular, testable code structure.

Quick Start

# Initialize DDD architecture analysis
Task("Architecture analysis", "Analyze current architecture and design DDD boundaries", "core-architect")

# Domain modeling (parallel)
Task("Domain decomposition", "Break down orchestrator god object into domains", "core-architect")
Task("Context mapping", "Map bounded contexts and relationships", "core-architect")
Task("Interface design", "Design clean domain interfaces", "core-architect")

DDD Implementation Strategy

Current Architecture Analysis

├── PROBLEMATIC: core/orchestrator.ts (1,440 lines - GOD OBJECT)
│   ├── Task management responsibilities
│   ├── Session management responsibilities
│   ├── Health monitoring responsibilities
│   ├── Lifecycle management responsibilities
│   └── Event coordination responsibilities
│
└── TARGET: Modular DDD Architecture
    ├── core/domains/
    │   ├── task-management/
    │   ├── session-management/
    │   ├── health-monitoring/
    │   ├── lifecycle-management/
    │   └── event-coordination/
    └── core/shared/
        ├── interfaces/
        ├── value-objects/
        └── domain-events/

Domain Boundaries

1. Task Management Domain

// core/domains/task-management/
interface TaskManagementDomain {
  // Entities
  Task: TaskEntity;
  TaskQueue: TaskQueueEntity;

  // Value Objects
  TaskId: TaskIdVO;
  TaskStatus: TaskStatusVO;
  Priority: PriorityVO;

  // Services
  TaskScheduler: TaskSchedulingService;
  TaskValidator: TaskValidationService;

  // Repository
  TaskRepository: ITaskRepository;
}

2. Session Management Domain

// core/domains/session-management/
interface SessionManagementDomain {
  // Entities
  Session: SessionEntity;
  SessionState: SessionStateEntity;

  // Value Objects
  SessionId: SessionIdVO;
  SessionStatus: SessionStatusVO;

  // Services
  SessionLifecycle: SessionLifecycleService;
  SessionPersistence: SessionPersistenceService;

  // Repository
  SessionRepository: ISessionRepository;
}

3. Health Monitoring Domain

// core/domains/health-monitoring/
interface HealthMonitoringDomain {
  // Entities
  HealthCheck: HealthCheckEntity;
  Metric: MetricEntity;

  // Value Objects
  HealthStatus: HealthStatusVO;
  Threshold: ThresholdVO;

  // Services
  HealthCollector: HealthCollectionService;
  AlertManager: AlertManagementService;

  // Repository
  MetricsRepository: IMetricsRepository;
}

Microkernel Architecture Pattern

Core Kernel

// core/kernel/claude-flow-kernel.ts
export class ClaudeFlowKernel {
  private domains: Map<string, Domain> = new Map();
  private eventBus: DomainEventBus;
  private dependencyContainer: Container;

  async initialize(): Promise<void> {
    // Load core domains
    await this.loadDomain('task-management', new TaskManagementDomain());
    await this.loadDomain('session-management', new SessionManagementDomain());
    await this.loadDomain('health-monitoring', new HealthMonitoringDomain());

    // Wire up domain events
    this.setupDomainEventHandlers();
  }

  async loadDomain(name: string, domain: Domain): Promise<void> {
    await domain.initialize(this.dependencyContainer);
    this.domains.set(name, domain);
  }

  getDomain<T extends Domain>(name: string): T {
    const domain = this.domains.get(name);
    if (!domain) {
      throw new DomainNotLoadedError(name);
    }
    return domain as T;
  }
}

Plugin Architecture

// core/plugins/
interface DomainPlugin {
  name: string;
  version: string;
  dependencies: string[];

  initialize(kernel: ClaudeFlowKernel): Promise<void>;
  shutdown(): Promise<void>;
}

// Example: Swarm Coordination Plugin
export class SwarmCoordinationPlugin implements DomainPlugin {
  name = 'swarm-coordination';
  version = '3.0.0';
  dependencies = ['task-management', 'session-management'];

  async initialize(kernel: ClaudeFlowKernel): Promise<void> {
    const taskDomain = kernel.getDomain<TaskManagementDomain>('task-management');
    const sessionDomain = kernel.getDomain<SessionManagementDomain>('session-management');

    // Register swarm coordination services
    this.swarmCoordinator = new UnifiedSwarmCoordinator(taskDomain, sessionDomain);
    kernel.registerService('swarm-coordinator', this.swarmCoordinator);
  }
}

Domain Events & Integration

Event-Driven Communication

// core/shared/domain-events/
abstract class DomainEvent {
  public readonly eventId: string;
  public readonly aggregateId: string;
  public readonly occurredOn: Date;
  public readonly eventVersion: number;

  constructor(aggregateId: string) {
    this.eventId = crypto.randomUUID();
    this.aggregateId = aggregateId;
    this.occurredOn = new Date();
    this.eventVersion = 1;
  }
}

// Task domain events
export class TaskAssignedEvent extends DomainEvent {
  constructor(
    taskId: string,
    public readonly agentId: string,
    public readonly priority: Priority
  ) {
    super(taskId);
  }
}

export class TaskCompletedEvent extends DomainEvent {
  constructor(
    taskId: string,
    public readonly result: TaskResult,
    public readonly duration: number
  ) {
    super(taskId);
  }
}

// Event handlers
@EventHandler(TaskCompletedEvent)
export class TaskCompletedHandler {
  constructor(
    private metricsRepository: IMetricsRepository,
    private sessionService: SessionLifecycleService
  ) {}

  async handle(event: TaskCompletedEvent): Promise<void> {
    // Update metrics
    await this.metricsRepository.recordTaskCompletion(
      event.aggregateId,
      event.duration
    );

    // Update session state
    await this.sessionService.markTaskCompleted(
      event.aggregateId,
      event.result
    );
  }
}

Clean Architecture Layers

// Architecture layers
┌─────────────────────────────────────────┐
│              Presentation               │  ← CLI, API, UI
├─────────────────────────────────────────┤
│              Application                │  ← Use Cases, Commands
├─────────────────────────────────────────┤
│               Domain                    │  ← Entities, Services, Events
├─────────────────────────────────────────┤
│            Infrastructure               │  ← DB, MCP, External APIs
└─────────────────────────────────────────┘

// Dependency direction: Outside → Inside
// Domain layer has NO external dependencies

Application Layer (Use Cases)

// core/application/use-cases/
export class AssignTaskUseCase {
  constructor(
    private taskRepository: ITaskRepository,
    private agentRepository: IAgentRepository,
    private eventBus: DomainEventBus
  ) {}

  async execute(command: AssignTaskCommand): Promise<TaskResult> {
    // 1. Validate command
    await this.validateCommand(command);

    // 2. Load aggregates
    const task = await this.taskRepository.findById(command.taskId);
    const agent = await this.agentRepository.findById(command.agentId);

    // 3. Business logic (in domain)
    task.assignTo(agent);

    // 4. Persist changes
    await this.taskRepository.save(task);

    // 5. Publish domain events
    task.getUncommittedEvents().forEach(event =>
      this.eventBus.publish(event)
    );

    // 6. Return result
    return TaskResult.success(task);
  }
}

Module Configuration

Bounded Context Modules

// core/domains/task-management/module.ts
export const taskManagementModule = {
  name: 'task-management',

  entities: [
    TaskEntity,
    TaskQueueEntity
  ],

  valueObjects: [
    TaskIdVO,
    TaskStatusVO,
    PriorityVO
  ],

  services: [
    TaskSchedulingService,
    TaskValidationService
  ],

  repositories: [
    { provide: ITaskRepository, useClass: SqliteTaskRepository }
  ],

  eventHandlers: [
    TaskAssignedHandler,
    TaskCompletedHandler
  ]
};

Migration Strategy

Phase 1: Extract Domain Services

// Extract services from orchestrator.ts
const extractionPlan = {
  week1: [
    'TaskManager → task-management domain',
    'SessionManager → session-management domain'
  ],
  week2: [
    'HealthMonitor → health-monitoring domain',
    'LifecycleManager → lifecycle-management domain'
  ],
  week3: [
    'EventCoordinator → event-coordination domain',
    'Wire up domain events'
  ]
};

Phase 2: Implement Clean Interfaces

// Clean separation with dependency injection
export class TaskController {
  constructor(
    @Inject('AssignTaskUseCase') private assignTask: AssignTaskUseCase,
    @Inject('CompleteTaskUseCase') private completeTask: CompleteTaskUseCase
  ) {}

  async assign(request: AssignTaskRequest): Promise<TaskResponse> {
    const command = AssignTaskCommand.fromRequest(request);
    const result = await this.assignTask.execute(command);
    return TaskResponse.fromResult(result);
  }
}

Phase 3: Plugin System

// Enable plugin-based extensions
const pluginSystem = {
  core: ['task-management', 'session-management', 'health-monitoring'],
  optional: ['swarm-coordination', 'learning-integration', 'performance-monitoring']
};

Testing Strategy

Domain Testing (London School TDD)

// Pure domain logic testing
describe('Task Entity', () => {
  let task: TaskEntity;
  let mockAgent: jest.Mocked<AgentEntity>;

  beforeEach(() => {
    task = new TaskEntity(TaskId.create(), 'Test task');
    mockAgent = createMock<AgentEntity>();
  });

  it('should assign to agent when valid', () => {
    mockAgent.canAcceptTask.mockReturnValue(true);

    task.assignTo(mockAgent);

    expect(task.assignedAgent).toBe(mockAgent);
    expect(task.status.value).toBe('assigned');
  });

  it('should emit TaskAssignedEvent when assigned', () => {
    mockAgent.canAcceptTask.mockReturnValue(true);

    task.assignTo(mockAgent);

    const events = task.getUncommittedEvents();
    expect(events).toHaveLength(1);
    expect(events[0]).toBeInstanceOf(TaskAssignedEvent);
  });
});

Success Metrics

God Object Elimination: orchestrator.ts (1,440 lines) → 5 focused domains (<300 lines each)
Bounded Context Isolation: 100% domain independence
Plugin Architecture: Core + optional modules loading
Clean Architecture: Dependency inversion maintained
Event-Driven Communication: Loose coupling between domains
Test Coverage: >90% domain logic coverage

Related V3 Skills

v3-core-implementation - Implementation of DDD domains
v3-memory-unification - AgentDB integration within bounded contexts
v3-swarm-coordination - Swarm coordination as domain plugin
v3-performance-optimization - Performance optimization across domains

Usage Examples

Complete Domain Extraction

# Full DDD architecture implementation
Task("DDD architecture implementation",
     "Extract orchestrator into DDD domains with clean architecture",
     "core-architect")

Plugin Development

# Create domain plugin
npm run create:plugin -- --name swarm-coordination --template domain

V3 DDD Architecture

Installation

Details

Usage

Skill Instructions

name: "V3 DDD Architecture" description: "Domain-Driven Design architecture for claude-flow v3. Implements modular, bounded context architecture with clean separation of concerns and microkernel pattern."

V3 DDD Architecture

What This Skill Does

Quick Start

DDD Implementation Strategy

Current Architecture Analysis

Domain Boundaries

1. Task Management Domain

2. Session Management Domain

3. Health Monitoring Domain

Microkernel Architecture Pattern

Core Kernel

Plugin Architecture

Domain Events & Integration

Event-Driven Communication

Clean Architecture Layers

Application Layer (Use Cases)

Module Configuration

Bounded Context Modules

Migration Strategy

Phase 1: Extract Domain Services

Phase 2: Implement Clean Interfaces

Phase 3: Plugin System

Testing Strategy

Domain Testing (London School TDD)

Success Metrics

Related V3 Skills

Usage Examples

Complete Domain Extraction

Plugin Development

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