clay-reliability-patterns

Implement Clay reliability patterns including circuit breakers, idempotency, and graceful degradation. Use when building fault-tolerant Clay integrations, implementing retry strategies, or adding resilience to production Clay services. Trigger with phrases like "clay reliability", "clay circuit breaker", "clay idempotent", "clay resilience", "clay fallback", "clay bulkhead". allowed-tools: Read, Write, Edit version: 1.0.0 license: MIT author: Jeremy Longshore <jeremy@intentsolutions.io>

v1.0.0

Jeremy Longshore

MIT

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clay-pack

Claude Code skill pack for Clay (30 skills)

saas packs v1.0.0

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Installation

This skill is included in the clay-pack plugin:

/plugin install clay-pack@claude-code-plugins-plus

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Instructions

# Clay Reliability Patterns ## Overview Production-grade reliability patterns for Clay integrations. ## Prerequisites - Understanding of circuit breaker pattern - opossum or similar library installed - Queue infrastructure for DLQ - Caching layer for fallbacks ## Circuit Breaker ```typescript import CircuitBreaker from 'opossum'; const clayBreaker = new CircuitBreaker( async (operation: () => Promise) => operation(), { timeout: 30000, errorThresholdPercentage: 50, resetTimeout: 30000, volumeThreshold: 10, } ); // Events clayBreaker.on('open', () => { console.warn('Clay circuit OPEN - requests failing fast'); alertOps('Clay circuit breaker opened'); }); clayBreaker.on('halfOpen', () => { console.info('Clay circuit HALF-OPEN - testing recovery'); }); clayBreaker.on('close', () => { console.info('Clay circuit CLOSED - normal operation'); }); // Usage async function safeClayCall(fn: () => Promise): Promise { return clayBreaker.fire(fn); } ``` ## Idempotency Keys ```typescript import { v4 as uuidv4 } from 'uuid'; import crypto from 'crypto'; // Generate deterministic idempotency key from input function generateIdempotencyKey( operation: string, params: Record ): string { const data = JSON.stringify({ operation, params }); return crypto.createHash('sha256').update(data).digest('hex'); } // Or use random key with storage class IdempotencyManager { private store: Map = new Map(); getOrCreate(operationId: string): string { const existing = this.store.get(operationId); if (existing && existing.expiresAt > new Date()) { return existing.key; } const key = uuidv4(); this.store.set(operationId, { key, expiresAt: new Date(Date.now() + 24 * 60 * 60 * 1000), }); return key; } } ``` ## Bulkhead Pattern ```typescript import PQueue from 'p-queue'; // Separate queues for different operations const clayQueues = { critical: new PQueue({ concurrency: 10 }), normal: new PQueue({ concurrency: 5 }), bulk: new PQueue({ concurrency: 2 }), }; async function prioritizedClayCall( priority: 'critical' | 'normal' | 'bulk', fn: () => Promise ): Promise { return clayQueues[priority].add(fn); } // Usage await prioritizedClayCall('critical', () => clayClient.processPayment(order) ); await prioritizedClayCall('bulk', () => clayClient.syncCatalog(products) ); ``` ## Timeout Hierarchy ```typescript const TIMEOUT_CONFIG = { connect: 5000, // Initial connection request: 30000, // Standard requests upload: 120000, // File uploads longPoll: 300000, // Webhook long-polling }; async function timedoutClayCall( operation: 'connect' | 'request' | 'upload' | 'longPoll', fn: () => Promise ): Promise { const timeout = TIMEOUT_CONFIG[operation]; return Promise.race([ fn(), new Promise((_, reject) => setTimeout(() => reject(new Error(`Clay ${operation} timeout`)), timeout) ), ]); } ``` ## Graceful Degradation ```typescript interface ClayFallback { enabled: boolean; data: any; staleness: 'fresh' | 'stale' | 'very_stale'; } async function withClayFallback( fn: () => Promise, fallbackFn: () => Promise ): Promise<{ data: T; fallback: boolean }> { try { const data = await fn(); // Update cache for future fallback await updateFallbackCache(data); return { data, fallback: false }; } catch (error) { console.warn('Clay failed, using fallback:', error.message); const data = await fallbackFn(); return { data, fallback: true }; } } ``` ## Dead Letter Queue ```typescript interface DeadLetterEntry { id: string; operation: string; payload: any; error: string; attempts: number; lastAttempt: Date; } class ClayDeadLetterQueue { private queue: DeadLetterEntry[] = []; add(entry: Omit): void { this.queue.push({ ...entry, id: uuidv4(), lastAttempt: new Date(), }); } async processOne(): Promise { const entry = this.queue.shift(); if (!entry) return false; try { await clayClient[entry.operation](entry.payload); console.log(`DLQ: Successfully reprocessed ${entry.id}`); return true; } catch (error) { entry.attempts++; entry.lastAttempt = new Date(); if (entry.attempts < 5) { this.queue.push(entry); } else { console.error(`DLQ: Giving up on ${entry.id} after 5 attempts`); await alertOnPermanentFailure(entry); } return false; } } } ``` ## Health Check with Degraded State ```typescript type HealthStatus = 'healthy' | 'degraded' | 'unhealthy'; async function clayHealthCheck(): Promise<{ status: HealthStatus; details: Record; }> { const checks = { api: await checkApiConnectivity(), circuitBreaker: clayBreaker.stats(), dlqSize: deadLetterQueue.size(), }; const status: HealthStatus = !checks.api.connected ? 'unhealthy' : checks.circuitBreaker.state === 'open' ? 'degraded' : checks.dlqSize > 100 ? 'degraded' : 'healthy'; return { status, details: checks }; } ``` ## Instructions ### Step 1: Implement Circuit Breaker Wrap Clay calls with circuit breaker. ### Step 2: Add Idempotency Keys Generate deterministic keys for operations. ### Step 3: Configure Bulkheads Separate queues for different priorities. ### Step 4: Set Up Dead Letter Queue Handle permanent failures gracefully. ## Output - Circuit breaker protecting Clay calls - Idempotency preventing duplicates - Bulkhead isolation implemented - DLQ for failed operations ## Error Handling | Issue | Cause | Solution | |-------|-------|----------| | Circuit stays open | Threshold too low | Adjust error percentage | | Duplicate operations | Missing idempotency | Add idempotency key | | Queue full | Rate too high | Increase concurrency | | DLQ growing | Persistent failures | Investigate root cause | ## Examples ### Quick Circuit Check ```typescript const state = clayBreaker.stats().state; console.log('Clay circuit:', state); ``` ## Resources - [Circuit Breaker Pattern](https://martinfowler.com/bliki/CircuitBreaker.html) - [Opossum Documentation](https://nodeshift.dev/opossum/) - [Clay Reliability Guide](https://docs.clay.com/reliability) ## Next Steps For policy enforcement, see `clay-policy-guardrails`.