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agent-quorum-manager

The agent-quorum-manager is a distributed systems coordinator skill that dynamically adjusts quorum requirements and manages node membership in consensus protocols based on real-time network conditions, fault tolerance needs, and weighted voting schemes. Use this skill when implementing or maintaining distributed consensus systems that require adaptive quorum sizing, intelligent node addition or removal, network monitoring, and optimized availability versus consistency tradeoffs.

View sourceRepository: ruflo
Install in Claude Code
Copy
git clone --depth 1 https://github.com/ruvnet/ruflo /tmp/agent-quorum-manager && cp -r /tmp/agent-quorum-manager/.agents/skills/agent-quorum-manager ~/.claude/skills/agent-quorum-manager
Then start a new Claude Code session; the skill loads automatically.
Definition

SKILL.md

---
name: quorum-manager
type: coordinator
color: "#673AB7"
description: Implements dynamic quorum adjustment and intelligent membership management
capabilities:
  - dynamic_quorum_calculation
  - membership_management
  - network_monitoring
  - weighted_voting
  - fault_tolerance_optimization
priority: high
hooks:
  pre: |
    echo "🎯 Quorum Manager adjusting: $TASK"
    # Assess current network conditions
    if [[ "$TASK" == *"quorum"* ]]; then
      echo "📡 Analyzing network topology and node health"
    fi
  post: |
    echo "⚖️  Quorum adjustment complete"
    # Validate new quorum configuration
    echo "✅ Verifying fault tolerance and availability guarantees"
---

# Quorum Manager

Implements dynamic quorum adjustment and intelligent membership management for distributed consensus protocols.

## Core Responsibilities

1. **Dynamic Quorum Calculation**: Adapt quorum requirements based on real-time network conditions
2. **Membership Management**: Handle seamless node addition, removal, and failure scenarios
3. **Network Monitoring**: Assess connectivity, latency, and partition detection
4. **Weighted Voting**: Implement capability-based voting weight assignments
5. **Fault Tolerance Optimization**: Balance availability and consistency guarantees

## Technical Implementation

### Core Quorum Management System
```javascript
class QuorumManager {
  constructor(nodeId, consensusProtocol) {
    this.nodeId = nodeId;
    this.protocol = consensusProtocol;
    this.currentQuorum = new Map(); // nodeId -> QuorumNode
    this.quorumHistory = [];
    this.networkMonitor = new NetworkConditionMonitor();
    this.membershipTracker = new MembershipTracker();
    this.faultToleranceCalculator = new FaultToleranceCalculator();
    this.adjustmentStrategies = new Map();
    
    this.initializeStrategies();
  }

  // Initialize quorum adjustment strategies
  initializeStrategies() {
    this.adjustmentStrategies.set('NETWORK_BASED', new NetworkBasedStrategy());
    this.adjustmentStrategies.set('PERFORMANCE_BASED', new PerformanceBasedStrategy());
    this.adjustmentStrategies.set('FAULT_TOLERANCE_BASED', new FaultToleranceStrategy());
    this.adjustmentStrategies.set('HYBRID', new HybridStrategy());
  }

  // Calculate optimal quorum size based on current conditions
  async calculateOptimalQuorum(context = {}) {
    const networkConditions = await this.networkMonitor.getCurrentConditions();
    const membershipStatus = await this.membershipTracker.getMembershipStatus();
    const performanceMetrics = context.performanceMetrics || await this.getPerformanceMetrics();
    
    const analysisInput = {
      networkConditions: networkConditions,
      membershipStatus: membershipStatus,
      performanceMetrics: performanceMetrics,
      currentQuorum: this.currentQuorum,
      protocol: this.protocol,
      faultToleranceRequirements: context.faultToleranceRequirements || this.getDefaultFaultTolerance()
    };
    
    // Apply multiple strategies and select optimal result
    const strategyResults = new Map();
    
    for (const [strategyName, strategy] of this.adjustmentStrategies) {
      try {
        const result = await strategy.calculateQuorum(analysisInput);
        strategyResults.set(strategyName, result);
      } catch (error) {
        console.warn(`Strategy ${strategyName} failed:`, error);
      }
    }
    
    // Select best strategy result
    const optimalResult = this.selectOptimalStrategy(strategyResults, analysisInput);
    
    return {
      recommendedQuorum: optimalResult.quorum,
      strategy: optimalResult.strategy,
      confidence: optimalResult.confidence,
      reasoning: optimalResult.reasoning,
      expectedImpact: optimalResult.expectedImpact
    };
  }

  // Apply quorum changes with validation and rollback capability
  async adjustQuorum(newQuorumConfig, options = {}) {
    const adjustmentId = `adjustment_${Date.now()}`;
    
    try {
      // Validate new quorum configuration
      await this.validateQuorumConfiguration(newQuorumConfig);
      
      // Create adjustment plan
      const adjustmentPlan = await this.createAdjustmentPlan(
        this.currentQuorum, newQuorumConfig
      );
      
      // Execute adjustment with monitoring
      const adjustmentResult = await this.executeQuorumAdjustment(
        adjustmentPlan, adjustmentId, options
      );
      
      // Verify adjustment success
      await this.verifyQuorumAdjustment(adjustmentResult);
      
      // Update current quorum
      this.currentQuorum = newQuorumConfig.quorum;
      
      // Record successful adjustment
      this.recordQuorumChange(adjustmentId, adjustmentResult);
      
      return {
        success: true,
        adjustmentId: adjustmentId,
        previousQuorum: adjustmentPlan.previousQuorum,
        newQuorum: this.currentQuorum,
        impact: adjustmentResult.impact
      };
      
    } catch (error) {
      console.error(`Quorum adjustment failed:`, error);
      
      // Attempt rollback
      await this.rollbackQuorumAdjustment(adjustmentId);
      
      throw error;
    }
  }

  async executeQuorumAdjustment(adjustmentPlan, adjustmentId, options) {
    const startTime = Date.now();
    
    // Phase 1: Prepare nodes for quorum change
    await this.prepareNodesForAdjustment(adjustmentPlan.affectedNodes);
    
    // Phase 2: Execute membership changes
    const membershipChanges = await this.executeMembershipChanges(
      adjustmentPlan.membershipChanges
    );
    
    // Phase 3: Update voting weights if needed
    if (adjustmentPlan.weightChanges.length > 0) {
      await this.updateVotingWeights(adjustmentPlan.weightChanges);
    }
    
    // Phase 4: Reconfigure consensus protocol
    await this.reconfigureConsensusProtocol(adjustmentPlan.protocolChanges);
    
    // Phase 5: Verify new quorum is operational
    const verificationResult = await this.verifyQuorumOperational(adjustmentPlan.newQuorum);
    
    const endTime = Date.now();
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