From instantly-pack
Implements Instantly.ai API rate limiting with exponential backoff, jitter, and request queuing in TypeScript. Handles 429 errors, retries, and concurrency for high-throughput integrations.
How this skill is triggered — by the user, by Claude, or both
Slash command
/instantly-pack:instantly-rate-limitsThis skill is limited to the following tools:
The summary Claude sees in its skill listing — used to decide when to auto-load this skill
Handle Instantly API v2 rate limits. The API returns `429 Too Many Requests` when limits are exceeded. Most endpoints follow standard limits. The email listing endpoint has a stricter constraint of **20 requests per minute**. Failed webhook deliveries are retried up to **3 times within 30 seconds**.
Handle Instantly API v2 rate limits. The API returns 429 Too Many Requests when limits are exceeded. Most endpoints follow standard limits. The email listing endpoint has a stricter constraint of 20 requests per minute. Failed webhook deliveries are retried up to 3 times within 30 seconds.
instantly-install-auth setup| Endpoint | Limit | Notes |
|---|---|---|
| Most API endpoints | Standard REST limits | Varies by plan |
GET /emails | 20 req/min | Stricter — email listing |
| Webhook deliveries | 3 retries in 30s | Instantly retries to your endpoint |
| Background jobs | N/A | Async — poll via GET /background-jobs/{id} |
import { InstantlyApiError } from "./src/instantly/client";
interface RetryOptions {
maxRetries: number;
baseDelayMs: number;
maxDelayMs: number;
}
const DEFAULT_RETRY: RetryOptions = {
maxRetries: 5,
baseDelayMs: 1000,
maxDelayMs: 30000,
};
async function withBackoff<T>(
operation: () => Promise<T>,
opts: Partial<RetryOptions> = {}
): Promise<T> {
const { maxRetries, baseDelayMs, maxDelayMs } = { ...DEFAULT_RETRY, ...opts };
for (let attempt = 0; attempt <= maxRetries; attempt++) {
try {
return await operation();
} catch (err) {
const isRetryable =
err instanceof InstantlyApiError &&
(err.status === 429 || err.status >= 500);
if (!isRetryable || attempt === maxRetries) throw err;
// Parse Retry-After header if available
let delay = baseDelayMs * Math.pow(2, attempt);
delay = Math.min(delay, maxDelayMs);
// Add jitter (10-30% of delay)
const jitter = delay * (0.1 + Math.random() * 0.2);
const totalDelay = delay + jitter;
console.warn(
`Rate limited (attempt ${attempt + 1}/${maxRetries}). Waiting ${Math.round(totalDelay)}ms...`
);
await new Promise((r) => setTimeout(r, totalDelay));
}
}
throw new Error("Unreachable");
}
class RequestQueue {
private queue: Array<() => Promise<void>> = [];
private running = 0;
private readonly maxConcurrent: number;
private readonly delayBetweenMs: number;
constructor(maxConcurrent = 5, delayBetweenMs = 200) {
this.maxConcurrent = maxConcurrent;
this.delayBetweenMs = delayBetweenMs;
}
async add<T>(operation: () => Promise<T>): Promise<T> {
return new Promise((resolve, reject) => {
this.queue.push(async () => {
try {
const result = await withBackoff(operation);
resolve(result);
} catch (err) {
reject(err);
} finally {
this.running--;
this.processQueue();
}
});
this.processQueue();
});
}
private async processQueue() {
while (this.running < this.maxConcurrent && this.queue.length > 0) {
const task = this.queue.shift()!;
this.running++;
if (this.delayBetweenMs > 0) {
await new Promise((r) => setTimeout(r, this.delayBetweenMs));
}
task();
}
}
}
// Usage — add 500 leads with controlled concurrency
const queue = new RequestQueue(3, 300); // 3 concurrent, 300ms gap
for (const lead of leads) {
queue.add(() =>
instantly("/leads", {
method: "POST",
body: JSON.stringify({ campaign: campaignId, email: lead.email, ...lead }),
})
);
}
// The /emails endpoint has a 20 req/min limit
// Use a dedicated throttled fetcher
class ThrottledEmailFetcher {
private requestTimestamps: number[] = [];
private readonly maxPerMinute = 18; // leave 2 req margin
private async waitForSlot() {
const now = Date.now();
this.requestTimestamps = this.requestTimestamps.filter(
(t) => now - t < 60000
);
if (this.requestTimestamps.length >= this.maxPerMinute) {
const oldest = this.requestTimestamps[0];
const waitMs = 60000 - (now - oldest) + 1000; // +1s buffer
console.log(`Email API throttle: waiting ${waitMs}ms`);
await new Promise((r) => setTimeout(r, waitMs));
}
this.requestTimestamps.push(Date.now());
}
async listEmails(params: {
campaign_id?: string;
is_unread?: boolean;
limit?: number;
starting_after?: string;
}) {
await this.waitForSlot();
const qs = new URLSearchParams();
if (params.campaign_id) qs.set("campaign_id", params.campaign_id);
if (params.is_unread !== undefined) qs.set("is_unread", String(params.is_unread));
if (params.limit) qs.set("limit", String(params.limit));
if (params.starting_after) qs.set("starting_after", params.starting_after);
return instantly(`/emails?${qs}`);
}
}
// Instead of creating leads one-by-one, batch where possible
async function addLeadsBatched(
campaignId: string,
leads: Array<{ email: string; first_name?: string }>,
batchSize = 10,
delayBetweenBatchesMs = 1000
) {
let added = 0;
let failed = 0;
for (let i = 0; i < leads.length; i += batchSize) {
const batch = leads.slice(i, i + batchSize);
const results = await Promise.allSettled(
batch.map((lead) =>
withBackoff(() =>
instantly("/leads", {
method: "POST",
body: JSON.stringify({
campaign: campaignId,
email: lead.email,
first_name: lead.first_name,
skip_if_in_workspace: true,
}),
})
)
)
);
added += results.filter((r) => r.status === "fulfilled").length;
failed += results.filter((r) => r.status === "rejected").length;
console.log(`Batch ${Math.floor(i / batchSize) + 1}: ${added} added, ${failed} failed`);
if (i + batchSize < leads.length) {
await new Promise((r) => setTimeout(r, delayBetweenBatchesMs));
}
}
console.log(`\nTotal: ${added} added, ${failed} failed out of ${leads.length}`);
}
| Error | Cause | Solution |
|---|---|---|
429 on lead import | Too many sequential POSTs | Use batch pattern with delays |
429 on email listing | >20 req/min | Use ThrottledEmailFetcher |
5xx intermittent | Instantly server overload | Backoff + retry; check status.instantly.ai |
| Webhook delivery retries exhausted | Your endpoint too slow | Return 200 immediately, process async |
| Queue memory growing | Too many queued operations | Set max queue size, reject overflow |
For security patterns, see instantly-security-basics.
5plugins reuse this skill
First indexed Jul 10, 2026
npx claudepluginhub luxdevnet/claude-plus-lux --plugin instantly-packImplements Instantly.ai rate limiting with exponential backoff and jitter. Handles 429 errors, retry logic, and request queuing for high-throughput API integrations.
Implement Klaviyo rate limiting, backoff, and request queuing patterns. Use when handling 429 errors, implementing retry logic, or optimizing API request throughput for Klaviyo. Trigger with phrases like "klaviyo rate limit", "klaviyo throttling", "klaviyo 429", "klaviyo retry", "klaviyo backoff", "klaviyo Retry-After".
Handles Intercom API rate limits with exponential backoff, request queuing, and proactive header monitoring to avoid 429 errors.