| name | output-error-direct-io |
| description | Fix direct I/O in Output SDK workflow functions. Use when workflow hangs, returns undefined, shows "workflow must be deterministic" errors, or when HTTP/API calls are made directly in workflow code. |
| allowed-tools | ["Bash","Read"] |
Fix Direct I/O in Workflow Functions
Overview
This skill helps diagnose and fix a critical error pattern where I/O operations (HTTP calls, database queries, file operations) are performed directly in workflow functions instead of in steps. This violates Temporal's determinism requirements.
When to Use This Skill
You're seeing:
- Workflow hangs indefinitely
- Undefined or empty responses
- "workflow must be deterministic" errors
- Network operations failing silently
- Timeouts without clear cause
Root Cause
Workflow functions must be deterministic - they should only orchestrate steps, not perform I/O directly. When you make HTTP calls, database queries, or any external operations directly in a workflow function:
- Hangs: The workflow may hang because I/O isn't properly handled
- Determinism violations: Temporal replays workflows, and I/O results differ
- No retry logic: Direct calls bypass Output SDK's retry mechanisms
- No tracing: Operations aren't recorded in the workflow trace
Symptoms
Direct fetch/axios in Workflow
export default workflow( {
fn: async input => {
const response = await fetch( 'https://api.example.com/data' );
const data = await response.json();
return { data };
}
} );
Direct Database Calls
export default workflow( {
fn: async input => {
const user = await db.users.findById( input.userId );
return { user };
}
} );
File System Operations
import fs from 'fs/promises';
export default workflow( {
fn: async input => {
const data = await fs.readFile( input.path, 'utf-8' );
return { data };
}
} );
Solution
Move ALL I/O operations to step functions. Steps are designed to handle non-deterministic operations.
Before (Wrong)
export default workflow( {
fn: async input => {
const response = await fetch( 'https://api.example.com/data' );
const data = await response.json();
return { data };
}
} );
After (Correct)
import { z, step, workflow } from '@outputai/core';
import { httpClient } from '@outputai/http';
export const fetchData = step( {
name: 'fetchData',
inputSchema: z.object( {
endpoint: z.string()
} ),
outputSchema: z.object( {
data: z.unknown()
} ),
fn: async input => {
const client = httpClient( { prefixUrl: 'https://api.example.com' } );
const data = await client.get( input.endpoint ).json();
return { data };
}
} );
export default workflow( {
inputSchema: z.object( {} ),
outputSchema: z.object( { data: z.unknown() } ),
fn: async input => {
const result = await fetchData( { endpoint: 'data' } );
return result;
}
} );
Complete Example: Database Operation
Before (Wrong)
export default workflow( {
fn: async input => {
const user = await prisma.user.findUnique( {
where: { id: input.userId }
} );
const orders = await prisma.order.findMany( {
where: { userId: input.userId }
} );
return { user, orders };
}
} );
After (Correct)
import { z, step, workflow } from '@outputai/core';
import { prisma } from '../lib/db';
export const fetchUser = step( {
name: 'fetchUser',
inputSchema: z.object( { userId: z.string() } ),
outputSchema: z.object( {
user: z.object( {
id: z.string(),
name: z.string(),
email: z.string()
} ).nullable()
} ),
fn: async input => {
const user = await prisma.user.findUnique( {
where: { id: input.userId }
} );
return { user };
}
} );
export const fetchOrders = step( {
name: 'fetchOrders',
inputSchema: z.object( { userId: z.string() } ),
outputSchema: z.object( {
orders: z.array( z.object( {
id: z.string(),
total: z.number()
} ) )
} ),
fn: async input => {
const orders = await prisma.order.findMany( {
where: { userId: input.userId }
} );
return { orders };
}
} );
export default workflow( {
inputSchema: z.object( { userId: z.string() } ),
outputSchema: z.object( {
user: z.unknown(),
orders: z.array( z.unknown() )
} ),
fn: async input => {
const { user } = await fetchUser( { userId: input.userId } );
const { orders } = await fetchOrders( { userId: input.userId } );
return { user, orders };
}
} );
Finding Direct I/O in Workflows
Search for common I/O patterns in workflow files:
grep -rn "await fetch" src/workflows/
grep -rn "axios\." src/workflows/
grep -rn "prisma\.\|db\.\|mongoose\." src/workflows/
grep -rn "fs\.\|readFile\|writeFile" src/workflows/
Then review each match to see if it's in a workflow function vs a step function.
What CAN Be in Workflow Functions
Workflow functions should contain:
- Step calls:
await myStep( input )
- Orchestration logic: conditionals, loops (over step calls)
- Data transformation: Pure functions on step results
- Constants: Static values and configuration
Workflow functions should NOT contain:
- HTTP/API calls
- Database operations
- File system operations
- External service calls
- Anything that talks to the network or filesystem
Verification
After moving I/O to steps:
- Run the workflow:
npx output workflow run <name> --input '<input>'
- Check the trace:
npx output workflow debug <id> --json
- Verify steps appear: Look for your I/O steps in the trace
- Confirm no errors: No determinism warnings or hangs
Benefits of Steps for I/O
- Retry logic: Steps can be retried on failure
- Tracing: I/O operations appear in workflow traces
- Timeouts: Steps can have individual timeouts
- Determinism: Replays use recorded results
- Debugging: Clear visibility into what happened
Related Issues
- For HTTP client best practices, see
output-error-http-client
- For non-determinism from other causes, see
output-error-nondeterminism