@wpank/postgres-job-queue — Agent Skill

---
name: postgres-job-queue
model: standard
description: PostgreSQL-based job queue with priority scheduling, batch claiming, and progress tracking. Use when building job queues without external dependencies. Triggers on PostgreSQL job queue, background jobs, task queue, priority queue, SKIP LOCKED.
---

# PostgreSQL Job Queue

Production-ready job queue using PostgreSQL with priority scheduling, batch claiming, and progress tracking.


## Installation

### OpenClaw / Moltbot / Clawbot

```bash
npx clawhub@latest install postgres-job-queue
```


---

## When to Use

- Need job queue but want to avoid Redis/RabbitMQ dependencies
- Jobs need priority-based scheduling
- Long-running jobs need progress visibility
- Jobs should survive service restarts

---

## Schema Design

```sql
CREATE TABLE jobs (
    id UUID PRIMARY KEY DEFAULT gen_random_uuid(),
    job_type VARCHAR(50) NOT NULL,
    priority INT NOT NULL DEFAULT 100,
    status VARCHAR(20) NOT NULL DEFAULT 'pending',
    data JSONB NOT NULL DEFAULT '{}',
    
    -- Progress tracking
    progress INT DEFAULT 0,
    current_stage VARCHAR(100),
    events_count INT DEFAULT 0,
    
    -- Worker tracking
    worker_id VARCHAR(100),
    claimed_at TIMESTAMPTZ,
    
    -- Timing
    created_at TIMESTAMPTZ DEFAULT NOW(),
    started_at TIMESTAMPTZ,
    completed_at TIMESTAMPTZ,
    
    -- Retry handling
    attempts INT DEFAULT 0,
    max_attempts INT DEFAULT 3,
    last_error TEXT,
    
    CONSTRAINT valid_status CHECK (
        status IN ('pending', 'claimed', 'running', 'completed', 'failed', 'cancelled')
    )
);

-- Critical: Partial index for fast claiming
CREATE INDEX idx_jobs_claimable ON jobs (priority DESC, created_at ASC) 
    WHERE status = 'pending';
CREATE INDEX idx_jobs_worker ON jobs (worker_id) 
    WHERE status IN ('claimed', 'running');
```

---

## Batch Claiming with SKIP LOCKED

```sql
CREATE OR REPLACE FUNCTION claim_job_batch(
    p_worker_id VARCHAR(100),
    p_job_types VARCHAR(50)[],
    p_batch_size INT DEFAULT 10
) RETURNS SETOF jobs AS $$
BEGIN
    RETURN QUERY
    WITH claimable AS (
        SELECT id
        FROM jobs
        WHERE status = 'pending'
          AND job_type = ANY(p_job_types)
          AND attempts < max_attempts
        ORDER BY priority DESC, created_at ASC
        LIMIT p_batch_size
        FOR UPDATE SKIP LOCKED  -- Critical: skip locked rows
    ),
    claimed AS (
        UPDATE jobs
        SET status = 'claimed',
            worker_id = p_worker_id,
            claimed_at = NOW(),
            attempts = attempts + 1
        WHERE id IN (SELECT id FROM claimable)
        RETURNING *
    )
    SELECT * FROM claimed;
END;
$$ LANGUAGE plpgsql;
```

---

## Go Implementation

```go
const (
    PriorityExplicit   = 150  // User-requested
    PriorityDiscovered = 100  // System-discovered
    PriorityBackfill   = 30   // Background backfills
)

type JobQueue struct {
    db       *pgx.Pool
    workerID string
}

func (q *JobQueue) Claim(ctx context.Context, types []string, batchSize int) ([]Job, error) {
    rows, err := q.db.Query(ctx,
        "SELECT * FROM claim_job_batch($1, $2, $3)",
        q.workerID, types, batchSize,
    )
    if err != nil {
        return nil, err
    }
    defer rows.Close()

    var jobs []Job
    for rows.Next() {
        var job Job
        if err := rows.Scan(&job); err != nil {
            return nil, err
        }
        jobs = append(jobs, job)
    }
    return jobs, nil
}

func (q *JobQueue) Complete(ctx context.Context, jobID uuid.UUID) error {
    _, err := q.db.Exec(ctx, `
        UPDATE jobs 
        SET status = 'completed',
            progress = 100,
            completed_at = NOW()
        WHERE id = $1`,
        jobID,
    )
    return err
}

func (q *JobQueue) Fail(ctx context.Context, jobID uuid.UUID, errMsg string) error {
    _, err := q.db.Exec(ctx, `
        UPDATE jobs 
        SET status = CASE 
                WHEN attempts >= max_attempts THEN 'failed' 
                ELSE 'pending' 
            END,
            last_error = $2,
            worker_id = NULL,
            claimed_at = NULL
        WHERE id = $1`,
        jobID, errMsg,
    )
    return err
}
```

---

## Stale Job Recovery

```go
func (q *JobQueue) RecoverStaleJobs(ctx context.Context, timeout time.Duration) (int, error) {
    result, err := q.db.Exec(ctx, `
        UPDATE jobs 
        SET status = 'pending',
            worker_id = NULL,
            claimed_at = NULL
        WHERE status IN ('claimed', 'running')
          AND claimed_at < NOW() - $1::interval
          AND attempts < max_attempts`,
        timeout.String(),
    )
    if err != nil {
        return 0, err
    }
    return int(result.RowsAffected()), nil
}
```

---

## Decision Tree

| Scenario | Approach |
|----------|----------|
| Need guaranteed delivery | PostgreSQL queue |
| Need sub-ms latency | Use Redis instead |
| < 1000 jobs/sec | PostgreSQL is fine |
| > 10000 jobs/sec | Add Redis layer |
| Need strict ordering | Single worker per type |

---

## Related Skills

- **Related:** [service-layer-architecture](../service-layer-architecture/) — Service patterns for job handlers
- **Related:** [realtime/dual-stream-architecture](../../realtime/dual-stream-architecture/) — Event publishing from jobs

---

## NEVER Do

- **NEVER use SELECT then UPDATE** — Race condition. Use SKIP LOCKED.
- **NEVER claim without SKIP LOCKED** — Workers will deadlock.
- **NEVER store large payloads** — Store references only.
- **NEVER forget partial index** — Claiming is slow without it.