apollo-rate-limits
tessl install github:jeremylongshore/claude-code-plugins-plus-skills --skill apollo-rate-limitsgithub.com/jeremylongshore/claude-code-plugins-plus-skills
Implement Apollo.io rate limiting and backoff. Use when handling rate limits, implementing retry logic, or optimizing API request throughput. Trigger with phrases like "apollo rate limit", "apollo 429", "apollo throttling", "apollo backoff", "apollo request limits".
Review Score
78%
Validation Score
12/16
Implementation Score
65%
Activation Score
90%
Apollo Rate Limits
Overview
Implement robust rate limiting and backoff strategies for Apollo.io API to maximize throughput while avoiding 429 errors.
Apollo Rate Limits
| Endpoint Category | Rate Limit | Window | Burst Limit |
|---|---|---|---|
| People Search | 100/min | 1 minute | 10/sec |
| Person Enrichment | 100/min | 1 minute | 10/sec |
| Organization Enrichment | 100/min | 1 minute | 10/sec |
| Sequences/Campaigns | 50/min | 1 minute | 5/sec |
| Bulk Operations | 10/min | 1 minute | 2/sec |
| General API | 100/min | 1 minute | 10/sec |
Rate Limit Headers
# Check current rate limit status
curl -I -X POST "https://api.apollo.io/v1/people/search" \
-H "Content-Type: application/json" \
-d '{"api_key": "'$APOLLO_API_KEY'", "per_page": 1}'
# Response headers:
# X-RateLimit-Limit: 100
# X-RateLimit-Remaining: 95
# X-RateLimit-Reset: 1640000000
# Retry-After: 60 (only when rate limited)Implementation: Rate Limiter Class
// src/lib/apollo/rate-limiter.ts
interface RateLimiterConfig {
maxRequests: number;
windowMs: number;
minSpacingMs: number;
}
class RateLimiter {
private queue: Array<{
resolve: (value: void) => void;
reject: (error: Error) => void;
}> = [];
private requestTimestamps: number[] = [];
private lastRequestTime = 0;
private processing = false;
constructor(private config: RateLimiterConfig) {}
async acquire(): Promise<void> {
return new Promise((resolve, reject) => {
this.queue.push({ resolve, reject });
this.processQueue();
});
}
private async processQueue() {
if (this.processing || this.queue.length === 0) return;
this.processing = true;
while (this.queue.length > 0) {
// Clean old timestamps outside window
const now = Date.now();
this.requestTimestamps = this.requestTimestamps.filter(
(ts) => now - ts < this.config.windowMs
);
// Check if we're at capacity
if (this.requestTimestamps.length >= this.config.maxRequests) {
const oldestTs = this.requestTimestamps[0];
const waitTime = this.config.windowMs - (now - oldestTs) + 100;
await this.wait(waitTime);
continue;
}
// Enforce minimum spacing
const timeSinceLastRequest = now - this.lastRequestTime;
if (timeSinceLastRequest < this.config.minSpacingMs) {
await this.wait(this.config.minSpacingMs - timeSinceLastRequest);
}
// Process next request
const item = this.queue.shift()!;
this.requestTimestamps.push(Date.now());
this.lastRequestTime = Date.now();
item.resolve();
}
this.processing = false;
}
private wait(ms: number): Promise<void> {
return new Promise((resolve) => setTimeout(resolve, ms));
}
}
// Create rate limiter for Apollo
export const apolloRateLimiter = new RateLimiter({
maxRequests: 90, // Leave buffer below 100
windowMs: 60000,
minSpacingMs: 100, // 100ms between requests
});Implementation: Exponential Backoff
// src/lib/apollo/backoff.ts
interface BackoffConfig {
initialDelayMs: number;
maxDelayMs: number;
maxRetries: number;
multiplier: number;
jitter: boolean;
}
const defaultConfig: BackoffConfig = {
initialDelayMs: 1000,
maxDelayMs: 60000,
maxRetries: 5,
multiplier: 2,
jitter: true,
};
export async function withBackoff<T>(
fn: () => Promise<T>,
config: Partial<BackoffConfig> = {}
): Promise<T> {
const cfg = { ...defaultConfig, ...config };
let lastError: Error;
let delay = cfg.initialDelayMs;
for (let attempt = 0; attempt <= cfg.maxRetries; attempt++) {
try {
await apolloRateLimiter.acquire();
return await fn();
} catch (error: any) {
lastError = error;
// Check if retryable
const status = error.response?.status;
if (status === 401 || status === 403 || status === 422) {
throw error; // Don't retry auth/validation errors
}
if (attempt === cfg.maxRetries) {
break;
}
// Get delay from Retry-After header or calculate
const retryAfter = error.response?.headers?.['retry-after'];
if (retryAfter) {
delay = parseInt(retryAfter) * 1000;
}
// Add jitter to prevent thundering herd
const jitter = cfg.jitter ? Math.random() * 1000 : 0;
const actualDelay = Math.min(delay + jitter, cfg.maxDelayMs);
console.log(`Retry ${attempt + 1}/${cfg.maxRetries} after ${actualDelay}ms`);
await new Promise((r) => setTimeout(r, actualDelay));
delay *= cfg.multiplier;
}
}
throw lastError!;
}Implementation: Request Queue
// src/lib/apollo/request-queue.ts
import PQueue from 'p-queue';
// Concurrency-limited queue
export const apolloQueue = new PQueue({
concurrency: 5, // Max 5 concurrent requests
interval: 1000, // Per second
intervalCap: 10, // Max 10 per interval
});
// Usage
async function batchSearchPeople(domains: string[]): Promise<Person[]> {
const results = await Promise.all(
domains.map((domain) =>
apolloQueue.add(() =>
withBackoff(() => apollo.searchPeople({ q_organization_domains: [domain] }))
)
)
);
return results.flat().map((r) => r?.people || []).flat();
}Usage Patterns
Pattern 1: Simple Rate-Limited Request
import { withBackoff } from './backoff';
const people = await withBackoff(() =>
apollo.searchPeople({
q_organization_domains: ['stripe.com'],
per_page: 100,
})
);Pattern 2: Batch Processing with Queue
import { apolloQueue } from './request-queue';
async function enrichCompanies(domains: string[]) {
const results = [];
for (const domain of domains) {
const result = await apolloQueue.add(
() => withBackoff(() => apollo.enrichOrganization(domain)),
{ priority: 1 } // Lower priority
);
results.push(result);
}
return results;
}Pattern 3: Priority Queue for Interactive vs Background
// High priority for user-facing requests
async function interactiveSearch(query: string) {
return apolloQueue.add(
() => withBackoff(() => apollo.searchPeople({ q_keywords: query })),
{ priority: 0 } // Highest priority
);
}
// Low priority for background sync
async function backgroundSync(contacts: string[]) {
return Promise.all(
contacts.map((id) =>
apolloQueue.add(
() => withBackoff(() => apollo.getContact(id)),
{ priority: 10 } // Low priority
)
)
);
}Monitoring Rate Limit Usage
// src/lib/apollo/rate-monitor.ts
class RateLimitMonitor {
private requests: Array<{ timestamp: number; remaining: number }> = [];
recordRequest(remaining: number) {
this.requests.push({
timestamp: Date.now(),
remaining,
});
// Keep only last 5 minutes
const cutoff = Date.now() - 5 * 60 * 1000;
this.requests = this.requests.filter((r) => r.timestamp > cutoff);
}
getStats() {
const lastMinute = this.requests.filter(
(r) => r.timestamp > Date.now() - 60000
);
return {
requestsLastMinute: lastMinute.length,
currentRemaining: lastMinute[lastMinute.length - 1]?.remaining ?? 100,
utilizationPercent: (lastMinute.length / 100) * 100,
isNearLimit: lastMinute.length > 80,
};
}
}
export const rateLimitMonitor = new RateLimitMonitor();Output
- Rate limiter class with token bucket algorithm
- Exponential backoff with jitter
- Request queue with concurrency control
- Priority-based request scheduling
- Rate limit monitoring and alerts
Error Handling
| Scenario | Strategy |
|---|---|
| 429 response | Use Retry-After header |
| Burst limit hit | Add minimum spacing |
| Sustained limit | Queue with concurrency |
| Network timeout | Exponential backoff |
Resources
Next Steps
Proceed to apollo-security-basics for API security best practices.