SkillHub ClubAnalyze Data & AIFull StackData / AI

trigger-tasks

Build AI agents, workflows and durable background tasks with Trigger.dev. Use when creating tasks, triggering jobs, handling retries, scheduling cron jobs, or implementing queues and concurrency control.

Packaged view

This page reorganizes the original catalog entry around fit, installability, and workflow context first. The original raw source lives below.

Stars

Hot score

Updated

March 20, 2026

Overall rating

C1.7

Composite score

1.7

Best-practice grade

A88.4

Install command

npx @skill-hub/cli install triggerdotdev-skills-trigger-tasks

Repository

triggerdotdev/skills

Skill path: trigger-tasks

Open repository

Best for

Primary workflow: Analyze Data & AI.

Technical facets: Full Stack, Data / AI.

Target audience: everyone.

License: Unknown.

Original source

Catalog source: SkillHub Club.

Repository owner: triggerdotdev.

This is still a mirrored public skill entry. Review the repository before installing into production workflows.

What it helps with

Install trigger-tasks into Claude Code, Codex CLI, Gemini CLI, or OpenCode workflows
Review https://github.com/triggerdotdev/skills before adding trigger-tasks to shared team environments
Use trigger-tasks for development workflows

Works across

Claude CodeCodex CLIGemini CLIOpenCode

Favorites: 0.

Sub-skills: 0.

Aggregator: No.

Original source / Raw SKILL.md

---
name: trigger-tasks
description: Build AI agents, workflows and durable background tasks with Trigger.dev. Use when creating tasks, triggering jobs, handling retries, scheduling cron jobs, or implementing queues and concurrency control.
---

# Trigger.dev Tasks

Build durable background tasks that run reliably with automatic retries, queuing, and observability.

## When to Use

- Creating background jobs or async workflows
- Building AI agents that need long-running execution
- Processing webhooks, emails, or file uploads
- Scheduling recurring tasks (cron)
- Any work that shouldn't block your main application

## Critical Rules

1. **Always use `@trigger.dev/sdk`** — never use deprecated `client.defineJob`
2. **Check `result.ok`** before accessing `result.output` from `triggerAndWait()`
3. **Never use `Promise.all`** with `triggerAndWait()` or `wait.*` calls
4. **Export tasks** from files in your `trigger/` directory

## Basic Task

```ts
import { task } from "@trigger.dev/sdk";

export const processData = task({
  id: "process-data",
  retry: {
    maxAttempts: 10,
    factor: 1.8,
    minTimeoutInMs: 500,
    maxTimeoutInMs: 30_000,
  },
  run: async (payload: { userId: string; data: any[] }) => {
    console.log(`Processing ${payload.data.length} items`);
    return { processed: payload.data.length };
  },
});
```

## Schema Task (Validated Input)

```ts
import { schemaTask } from "@trigger.dev/sdk";
import { z } from "zod";

export const validatedTask = schemaTask({
  id: "validated-task",
  schema: z.object({
    name: z.string(),
    email: z.string().email(),
  }),
  run: async (payload) => {
    // payload is typed and validated
    return { message: `Hello ${payload.name}` };
  },
});
```

## Triggering Tasks

### From Backend Code

```ts
import { tasks } from "@trigger.dev/sdk";
import type { processData } from "./trigger/tasks";

// Single trigger (fire and forget)
const handle = await tasks.trigger<typeof processData>("process-data", {
  userId: "123",
  data: [{ id: 1 }],
});

// Batch trigger (up to 1,000 items, 3MB per payload)
const batchHandle = await tasks.batchTrigger<typeof processData>("process-data", [
  { payload: { userId: "123", data: [] } },
  { payload: { userId: "456", data: [] } },
]);
```

### From Inside Tasks

```ts
export const parentTask = task({
  id: "parent-task",
  run: async (payload) => {
    // Fire and forget
    const handle = await childTask.trigger({ data: "value" });

    // Wait for result - returns Result object, NOT direct output
    const result = await childTask.triggerAndWait({ data: "value" });
    if (result.ok) {
      console.log("Output:", result.output);
    } else {
      console.error("Failed:", result.error);
    }

    // Quick unwrap (throws on error)
    const output = await childTask.triggerAndWait({ data: "value" }).unwrap();

    // Batch with wait
    const results = await childTask.batchTriggerAndWait([
      { payload: { data: "item1" } },
      { payload: { data: "item2" } },
    ]);
  },
});
```

## Waits

```ts
import { task, wait } from "@trigger.dev/sdk";

export const taskWithWaits = task({
  id: "task-with-waits",
  run: async (payload) => {
    await wait.for({ seconds: 30 });
    await wait.for({ minutes: 5 });
    await wait.until({ date: new Date("2024-12-25") });

    // Wait for external approval
    await wait.forToken({
      token: "user-approval-token",
      timeoutInSeconds: 3600,
    });
  },
});
```

> Waits > 5 seconds are checkpointed and don't count toward compute.

## Concurrency & Queues

```ts
import { task, queue } from "@trigger.dev/sdk";

// Shared queue
const emailQueue = queue({
  name: "email-processing",
  concurrencyLimit: 5,
});

// Task-level concurrency
export const oneAtATime = task({
  id: "sequential-task",
  queue: { concurrencyLimit: 1 },
  run: async (payload) => {
    // Only one instance runs at a time
  },
});

// Use shared queue
export const emailTask = task({
  id: "send-email",
  queue: emailQueue,
  run: async (payload) => {},
});

// Per-tenant concurrency (at trigger time)
await childTask.trigger(payload, {
  queue: {
    name: `user-${userId}`,
    concurrencyLimit: 2,
  },
});
```

## Debouncing

Consolidate rapid triggers into a single execution:

```ts
await myTask.trigger(
  { userId: "123" },
  {
    debounce: {
      key: "user-123-update",
      delay: "5s",
      mode: "trailing", // Use latest payload (default: "leading")
    },
  }
);
```

## Idempotency

```ts
import { task, idempotencyKeys } from "@trigger.dev/sdk";

export const paymentTask = task({
  id: "process-payment",
  run: async (payload: { orderId: string }) => {
    const key = await idempotencyKeys.create(`payment-${payload.orderId}`);

    await chargeCustomer.trigger(payload, {
      idempotencyKey: key,
      idempotencyKeyTTL: "24h",
    });
  },
});
```

## Error Handling & Retries

```ts
import { task, retry, AbortTaskRunError } from "@trigger.dev/sdk";

export const resilientTask = task({
  id: "resilient-task",
  retry: {
    maxAttempts: 10,
    factor: 1.8,
    minTimeoutInMs: 500,
    maxTimeoutInMs: 30_000,
  },
  catchError: async ({ error, ctx }) => {
    if (error.code === "FATAL_ERROR") {
      throw new AbortTaskRunError("Cannot retry");
    }
    return { retryAt: new Date(Date.now() + 60000) };
  },
  run: async (payload) => {
    // Retry specific operations
    const result = await retry.onThrow(
      async () => unstableApiCall(payload),
      { maxAttempts: 3 }
    );

    // HTTP retries with conditions
    const response = await retry.fetch("https://api.example.com", {
      retry: {
        maxAttempts: 5,
        condition: (res, err) => res?.status === 429 || res?.status >= 500,
      },
    });
  },
});
```

## Scheduled Tasks (Cron)

```ts
import { schedules } from "@trigger.dev/sdk";

// Declarative schedule
export const dailyTask = schedules.task({
  id: "daily-cleanup",
  cron: "0 0 * * *", // Midnight UTC
  run: async (payload) => {
    // payload.timestamp - scheduled time
    // payload.timezone - IANA timezone
    // payload.scheduleId - schedule identifier
  },
});

// With timezone
export const tokyoTask = schedules.task({
  id: "tokyo-morning",
  cron: { pattern: "0 9 * * *", timezone: "Asia/Tokyo" },
  run: async () => {},
});

// Dynamic/multi-tenant schedules
await schedules.create({
  task: "reminder-task",
  cron: "0 8 * * *",
  timezone: "America/New_York",
  externalId: userId,
  deduplicationKey: `${userId}-daily`,
});
```

## Metadata & Progress

```ts
import { task, metadata } from "@trigger.dev/sdk";

export const batchProcessor = task({
  id: "batch-processor",
  run: async (payload: { items: any[] }) => {
    metadata.set("progress", 0).set("total", payload.items.length);

    for (let i = 0; i < payload.items.length; i++) {
      await processItem(payload.items[i]);
      metadata.set("progress", ((i + 1) / payload.items.length) * 100);
    }

    metadata.set("status", "completed");
  },
});
```

## Tags

```ts
import { task, tags } from "@trigger.dev/sdk";

export const processUser = task({
  id: "process-user",
  run: async (payload: { userId: string }) => {
    await tags.add(`user_${payload.userId}`);
  },
});

// Trigger with tags
await processUser.trigger(
  { userId: "123" },
  { tags: ["priority", "user_123"] }
);
```

## Machine Presets

```ts
export const heavyTask = task({
  id: "heavy-computation",
  machine: { preset: "large-2x" }, // 8 vCPU, 16 GB RAM
  maxDuration: 1800, // 30 minutes
  run: async (payload) => {},
});
```

| Preset | vCPU | RAM |
|--------|------|-----|
| micro | 0.25 | 0.25 GB |
| small-1x | 0.5 | 0.5 GB (default) |
| small-2x | 1 | 1 GB |
| medium-1x | 1 | 2 GB |
| medium-2x | 2 | 4 GB |
| large-1x | 4 | 8 GB |
| large-2x | 8 | 16 GB |

## Best Practices

1. **Make tasks idempotent** — safe to retry without side effects
2. **Use queues** to prevent overwhelming external services
3. **Configure appropriate retries** with exponential backoff
4. **Track progress with metadata** for long-running tasks
5. **Use debouncing** for user activity and webhook bursts
6. **Match machine size** to computational requirements

See `references/` for detailed documentation on each feature.