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Simple Job Queues using SQL

Project description

raquel

Simple and elegant Job Queues for Python using SQL.

Tired of complex job queues for distributed computing or event based systems? Do you want full visibility and complete reliability of your job queue? Raquel is a perfect solution for a distributed task queue and background workers.

  • Simple: Use any existing or standalone SQL database. Requires a single table!
  • Flexible: Schedule whatever you want however you want. No frameworks, no restrictions.
  • Reliable: Uses SQL transactions and handles exceptions, retries, and "at least once" execution. SQL guarantees persistent jobs.
  • Transparent: Full visibility into which jobs are runnning, which failed and why, which are pending, etc.

Installation

pip install raquel

To install with async support, specify the asyncio extra. This simply adds the greenlet package as a dependency.

pip install raquel[asyncio]

Usage

Basic example

On the client side, schedule your jobs. Payload can be any JSON-serializable object or simply a string.

from raquel import Raquel

rq = Raquel("postgresql+psycopg2://postgres:postgres@localhost/postgres")
rq.enqueue('Hello, World!')

On the worker side, pick jobs from the queue and process them:

import time
from raquel import Raquel

rq = Raquel("postgresql+psycopg2://postgres:postgres@localhost/postgres")

while True:
    with rq.dequeue() as job:
        if job is None:
            time.sleep(1)
            continue
        do_work(job.payload)

Async example

Client side:

import asyncio
from raquel import AsyncRaquel

rq = AsyncRaquel("postgresql+asyncpg://postgres:postgres@localhost/postgres")

async def main():
    await rq.enqueue({'my': {'name_is': 'Slim Shady'}})

asyncio.run(main())

Worker side:

import asyncio
from raquel import AsyncRaquel

rq = AsyncRaquel("postgresql+asyncpg://postgres:postgres@localhost/postgres")

async def main():
    while True:
        async with rq.dequeue() as job:
            if job is None:
                await asyncio.sleep(1)
                continue
            await do_work(job.payload)

asyncio.run(main())

The jobs table

Raquel only needs a single table to work. Can you believe it? Here is what this table consists of:

Column Type Description Can be NULL
id UUID Unique identifier of the job. No
queue TEXT Name of the queue. By default jobs are placed into the "default" queue. No
payload TEXT Payload of the job. It can by anything. Just needs to be serializable to text. Yes
status TEXT Status of the job. No
max_age INTEGER Maximum age of the job in milliseconds. Yes
max_retry_count INTEGER Maximum number of retries. Yes
max_retry_exponent INTEGER Exponential backoff factor. No
min_retry_delay INTEGER Minimum delay between retries in milliseconds. No
max_retry_delay INTEGER Maximum delay between retries in milliseconds. No
enqueued_at BIGINT Time when the job was enqueued in milliseconds since epoch (UTC). No
scheduled_at BIGINT Time when the job is scheduled to run in milliseconds since epoch (UTC). No
attempts INTEGER Number of attempts to run the job. No
error TEXT Error message if the job failed. Yes
error_trace TEXT Error traceback if the job failed. Yes
claimed_by TEXT ID or name of the worked that claimed the job. Yes
claimed_at BIGINT Time when the job was claimed in milliseconds since epoch (UTC). Yes
finished_at BIGINT Time when the job was finished in milliseconds since epoch (UTC). Yes

Job status

Jobs can have the following statuses:

  • queued - Job is waiting to be picked up by a worker.
  • claimed - Job is currently locked and is being processed by a worker.
  • success - Job was successfully executed.
  • failed - Job failed to execute. This happens when an exception was caught by the dequeue() context manager. The last error message and traceback are stored in the error and error_trace columns. Job will be retried, mening it will be rescheduled with an exponential backoff delay.
  • cancelled - Job was manually cancelled.
  • expired - Job was not picked up by a worker in time (when max_age is set).
  • exhausted - Job has reached the maximum number of retries (when max_retry_count is set).

How we guarantee that same job is not picked up by multiple workers?

When a worker picks up a job, it first selects the job from the table and then updates the job status to claimed. This is done in a single transaction, so no other worker can pick up the same job at the same time.

In PostgreSQL, we use the SELECT FOR UPDATE SKIP LOCKED statement is used. In other databases that support this (such as Oracle, MySQL) a similar approach is used.

In extremely simple databases, such as SQLite, the fact that the whole database is locked during a write operation guarantees that no other worker will be able to set the job status to claimed at the same time.

Job scheduling

All jobs are scheduled to run at a specific time. By default, this time is set to the current time when the job is enqueued. You can set the scheduled_at field to a future time to schedule the job to run at that time.

rq.enqueue(10_000, queue="my-jobs", at=datetime.now() + timedelta(hours=10))

Fancy SQL? You can schedule jobs by directly inserting them into the table. For example, in PostgreSQL:

INSERT INTO jobs 
    (id, queue, status, payload)
VALUES
    (uuid_generate_v4(), 'my-jobs', 'queued', '{"my": "payload"}'),
    (uuid_generate_v4(), 'my-jobs', 'queued', '101'),
    (uuid_generate_v4(), 'my-jobs', 'queued', 'Is this the real life?');

Queue names

By default, all jobs are placed into the "default" queue. You can specify the queue name when enqueuing a job:

rq.enqueue("Hello, World!", queue="my-queue")

When jobs are dequeued by a worker, they are dequeued from whatever queue, whichever job is scheduled to run first. If you want to dequeue jobs from a specific queue, you can specify the queue name in the dequeue() context manager:

while True:
    with rq.dequeue(queue="my-queue") as job:
        if job:
            do_work(job.payload)
        time.sleep(1)

Job retries

Jobs are retried when they fail. When n exception is caught by the dequeue() context manager, the job is rescheduled with an exponential backoff delay.

By default, the job will be retried indefinitely. You can set the max_retry_count or max_age fields to limit the number of retries or the maximum age of the job.

while True:
    with rq.dequeue() as job:
        if job:
            do_work(job.payload)
            raise Exception("Oh no")
        time.sleep(1)

The next retry is calculated as follows:

  • Take the current scheduled_at time.
  • Add the time it took to process the job (aka duration).
  • Add the retry delay.

Now, the retry delay is calculated as 2 to the power of number attempts (2 ^ attempts). However, the power is limited by the max_retry_exponent field, which defaults to 32. So, even if the number of attempts is 100, the planned retry delay will not exceed 2^32 milliseconds or about 50 days.

That's the planned retry delay. The actual retry delay is capped by the min_retry_delay and max_retry_delay fields. The min_retry_delay defaults to 1 second and the max_retry_delay defaults to 12 hours.

In other words, here is how your job will be retried (assuming there is always a worker available and the job takes almost no time to process):

  • First retry: in 1 second
  • Second retry: after 1 second 2 milliseconds
  • Third retry: after 1 second 4 milliseconds
  • ...
  • 7'th retry: after 1 second 128 milliseconds
  • ...
  • 10'th retry: after 2 seconds 24 milliseconds
  • 11'th retry: after 3 seconds 48 milliseconds
  • ...
  • 15'th retry: after about 33.7 seconds
  • ...
  • 20'th retry: after about 17.5 minutes
  • ...
  • 25'th retry: after about 9 hours 19 minutes
  • ... and so on with the maximum delay of 12 hours, set by max_retry_delay.

In some tasks it makes sense to chill out a bit before retrying. For example, Firebase API's have a rate limit or some kind of a Cloud Function is not ready to reply immediately. In such cases, you can set the min_retry_delay to a higher value, such as 10 or 30 seconds.

Remeber, that all durations and timestampts are in milliseconds. So 10 seconds is 10 * 1000 = 10000 milliseconds. 1 minute is 60 * 1000 = 60000 milliseconds.

Prepare your database

You can configure the table using the create_all() method, which will automatically use the supported syntax for the database you are using (it is safe to run it multiple times, it only creates the table once.).

rq.create_all()

Alternatively, you can create the table manually. For example, in Postgres:

CREATE TABLE IF NOT EXISTS jobs (
    id UUID PRIMARY KEY DEFAULT uuid_generate_v4(),
    queue TEXT NOT NULL,
    payload TEXT,
    status TEXT NOT NULL DEFAULT 'queued',
    max_age BIGINT,
    max_retry_count INTEGER,
    max_retry_exponent INTEGER NOT NULL DEFAULT 32,
    min_retry_delay INTEGER NOT NULL DEFAULT 1000,
    max_retry_delay INTEGER NOT NULL DEFAULT 43200000,
    enqueued_at BIGINT NOT NULL DEFAULT extract(epoch from now()) * 1000,
    scheduled_at BIGINT NOT NULL DEFAULT extract(epoch from now()) * 1000,
    attempts INTEGER NOT NULL DEFAULT 0,
    error TEXT,
    error_trace TEXT,
    claimed_by TEXT,
    claimed_at BIGINT,
    finished_at BIGINT
);
CREATE INDEX IF NOT EXISTS idx_jobs_queue ON jobs (queue);
CREATE INDEX IF NOT EXISTS idx_jobs_status ON jobs (status);
CREATE INDEX IF NOT EXISTS idx_jobs_scheduled_at ON jobs (scheduled_at);
CREATE INDEX IF NOT EXISTS idx_jobs_claimed_by ON jobs (claimed_by);

Fun facts

  • Raquel is named after the famous actress Raquel Welch, who I have never seen in a movie. But her poster was one of the cutouts hanging in the shrine dedicated to Arnold Schwarzenegger in the local gym I used to attend. Don't ask me why and how.
  • The name Raquel is also a combination of the words "queue" and "SQL".
  • The payload can be empty or Null (None). You can use it to schedule jobs without any payload, for example, to send a notification or to run a periodic task.

Comparison to alternatives

Feature Raquel Celery RQ Dramatiq arq pgqueuer pq
Special tooling to run workers No ✅ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌
Needs message queue No ✅ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌
Supports SQL Yes ✅ No ❌ No ❌ No ❌ No ❌ Yes ✅ Yes ✅
Full visibility Yes ✅ No ❌ No ❌ No ❌ No ❌ Yes ✅ Yes ✅
Reliable Yes ✅ Yes ✅ Yes ✅ Yes ✅ Yes ✅ Yes ✅ Yes ✅
Supports async Yes ✅ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌
Persistent jobs Yes ✅ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ✅ Yes ✅
Schedule from anywhere Yes ✅ No ❌ No ❌ Yes ✅ No ❌ Yes ✅ Yes ✅
Job payload size limit No ✅ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌ Yes ❌

As you can clearly see, not only is Raquel a superior distributed task queue, job queue, and background worker system, but very likely the best software ever written in the history of mankind. And I claim this without any bias.

Thinking behind Raquel

  • Random UUID (uuid4) is used as job ID, to facilitate migration between databases and HA setups.
  • Payload is stored as text, to allow any kind of data to be stored.
  • Job lock is performed by first selecting the first unclaimed job through SELECT... WHERE status = 'queued' and then doing the UPDATE... WHERE id = ? query in the same transaction, to ensure atomicity. When possible (in PostgreSQL or MySQL), SELECT FOR UPDATE SKIP LOCKED is used for more efficiency.
  • All timestamps are stored as milliseconds since epoch (UTC timezone). This removes any confusion about timezones.

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