A lightweight message queue. Like AWS SQS and RSMQ but on Postgres.
Documentation: https://tembo.io/pgmq/
Source: https://github.com/tembo-io/pgmq
- Lightweight - No background worker or external dependencies, just Postgres functions packaged in an extension
- Guaranteed "exactly once" delivery of messages to a consumer within a visibility timeout
- API parity with AWS SQS and RSMQ
- Messages stay in the queue until explicitly removed
- Messages can be archived, instead of deleted, for long-term retention and replayability
Supported on Postgres 14-17.
The fastest way to get started is by running the Tembo Docker image, where PGMQ comes pre-installed in Postgres.
docker run -d --name pgmq-postgres -e POSTGRES_PASSWORD=postgres -p 5432:5432 tembo.docker.scarf.sh/tembo/pg17-pgmq:latest
If you'd like to build from source, you can follow the instructions in CONTRIBUTING.md.
To update PGMQ versions, follow the instructions in UPDATING.md.
Community
- Dart
- Go
- Elixir
- Elixir + Broadway
- Java (Spring Boot)
- Kotlin JVM (JDBC)
- Javascript (NodeJs)
- TypeScript (NodeJs + Midway.js)
- TypeScript (Deno)
- .NET
- Python (with SQLAlchemy)
# Connect to Postgres
psql postgres://postgres:postgres@0.0.0.0:5432/postgres
-- create the extension in the "pgmq" schema
CREATE EXTENSION pgmq;
Every queue is its own table in the pgmq
schema. The table name is the queue name prefixed with q_
.
For example, pgmq.q_my_queue
is the table for the queue my_queue
.
-- creates the queue
SELECT pgmq.create('my_queue');
create
-------------
(1 row)
-- messages are sent as JSON
SELECT * from pgmq.send(
queue_name => 'my_queue',
msg => '{"foo": "bar1"}'
);
The message id is returned from the send function.
send
-----------
1
(1 row)
-- Optionally provide a delay
-- this message will be on the queue but unable to be consumed for 5 seconds
SELECT * from pgmq.send(
queue_name => 'my_queue',
msg => '{"foo": "bar2"}',
delay => 5
);
send
-----------
2
(1 row)
Read 2
message from the queue. Make them invisible for 30
seconds.
If the messages are not deleted or archived within 30 seconds, they will become visible again
and can be read by another consumer.
SELECT * FROM pgmq.read(
queue_name => 'my_queue',
vt => 30,
qty => 2
);
msg_id | read_ct | enqueued_at | vt | message
--------+---------+-------------------------------+-------------------------------+-----------------
1 | 1 | 2023-08-16 08:37:54.567283-05 | 2023-08-16 08:38:29.989841-05 | {"foo": "bar1"}
2 | 1 | 2023-08-16 08:37:54.572933-05 | 2023-08-16 08:38:29.989841-05 | {"foo": "bar2"}
If the queue is empty, or if all messages are currently invisible, no rows will be returned.
SELECT * FROM pgmq.read(
queue_name => 'my_queue',
vt => 30,
qty => 1
);
msg_id | read_ct | enqueued_at | vt | message
--------+---------+-------------+----+---------
-- Read a message and immediately delete it from the queue. Returns an empty record if the queue is empty or all messages are invisible.
SELECT * FROM pgmq.pop('my_queue');
msg_id | read_ct | enqueued_at | vt | message
--------+---------+-------------------------------+-------------------------------+-----------------
1 | 1 | 2023-08-16 08:37:54.567283-05 | 2023-08-16 08:38:29.989841-05 | {"foo": "bar1"}
Archiving a message removes it from the queue and inserts it to the archive table.
-- Archive message with msg_id=2.
SELECT pgmq.archive(
queue_name => 'my_queue',
msg_id => 2
);
archive
--------------
t
(1 row)
Or archive several messages in one operation using msg_ids
(plural) parameter:
First, send a batch of messages
SELECT pgmq.send_batch(
queue_name => 'my_queue',
msgs => ARRAY['{"foo": "bar3"}','{"foo": "bar4"}','{"foo": "bar5"}']::jsonb[]
);
send_batch
------------
3
4
5
(3 rows)
Then archive them by using the msg_ids (plural) parameter.
SELECT pgmq.archive(
queue_name => 'my_queue',
msg_ids => ARRAY[3, 4, 5]
);
archive
---------
3
4
5
(3 rows)
Archive tables can be inspected directly with SQL.
Archive tables have the prefix a_
in the pgmq
schema.
SELECT * FROM pgmq.a_my_queue;
msg_id | read_ct | enqueued_at | archived_at | vt | message
--------+---------+-------------------------------+-------------------------------+-------------------------------+-----------------
2 | 0 | 2024-08-06 16:03:41.531556+00 | 2024-08-06 16:03:52.811063+00 | 2024-08-06 16:03:46.532246+00 | {"foo": "bar2"}
3 | 0 | 2024-08-06 16:03:58.586444+00 | 2024-08-06 16:04:02.85799+00 | 2024-08-06 16:03:58.587272+00 | {"foo": "bar3"}
4 | 0 | 2024-08-06 16:03:58.586444+00 | 2024-08-06 16:04:02.85799+00 | 2024-08-06 16:03:58.587508+00 | {"foo": "bar4"}
5 | 0 | 2024-08-06 16:03:58.586444+00 | 2024-08-06 16:04:02.85799+00 | 2024-08-06 16:03:58.587543+00 | {"foo": "bar5"}
Send another message, so that we can delete it.
SELECT pgmq.send('my_queue', '{"foo": "bar6"}');
send
-----------
6
(1 row)
Delete the message with id 6
from the queue named my_queue
.
SELECT pgmq.delete('my_queue', 6);
delete
-------------
t
(1 row)
Delete the queue my_queue
.
SELECT pgmq.drop_queue('my_queue');
drop_queue
-----------------
t
(1 row)
You will need to install pg_partman if you want to use pgmq
partitioned queues.
pgmq
queue tables can be created as a partitioned table by using pgmq.create_partitioned()
. pg_partman
handles all maintenance of queue tables. This includes creating new partitions and dropping old partitions.
Partitions behavior is configured at the time queues are created, via pgmq.create_partitioned()
. This function has three parameters:
queue_name: text
: The name of the queue. Queues are Postgres tables prepended with q_
. For example, q_my_queue
. The archive is instead prefixed by a_
, for example a_my_queue
.
partition_interval: text
- The interval at which partitions are created. This can be either any valid Postgres Duration
supported by pg_partman, or an integer value. When it is a duration, queues are partitioned by the time at which messages are sent to the table (enqueued_at
). A value of 'daily'
would create a new partition each day. When it is an integer value, queues are partitioned by the msg_id
. A value of '100'
will create a new partition every 100 messages. The value must agree with retention_interval
(time based or numeric). The default value is daily
. For archive table, when interval is an integer value, then it will be partitioned by msg_id
. In case of duration it will be partitioned on archived_at
unlike queue table.
retention_interval: text
- The interval for retaining partitions. This can be either any valid Postgres Duration
supported by pg_partman, or an integer value. When it is a duration, partitions containing data greater than the duration will be dropped. When it is an integer value, any messages that have a msg_id
less than max(msg_id) - retention_interval
will be dropped. For example, if the max msg_id
is 100 and the retention_interval
is 60, any partitions with msg_id
values less than 40 will be dropped. The value must agree with partition_interval
(time based or numeric). The default is '5 days'
. Note: retention_interval
does not apply to messages that have been deleted via pgmq.delete()
or archived with pgmq.archive()
. pgmq.delete()
removes messages forever and pgmq.archive()
moves messages to the corresponding archive table forever (for example, a_my_queue
).
In order for automatic partition maintenance to take place, several settings must be added to the postgresql.conf
file, which is typically located in the postgres DATADIR
.
pg_partman_bgw.interval
in postgresql.conf
. Below are the default configuration values set in Tembo docker images.
Add the following to postgresql.conf
. Note, changing shared_preload_libraries
requires a restart of Postgres.
pg_partman_bgw.interval
sets the interval at which pg_partman
conducts maintenance. This creates new partitions and dropping of partitions falling out of the retention_interval
. By default, pg_partman
will keep 4 partitions "ahead" of the currently active partition.
shared_preload_libraries = 'pg_partman_bgw' # requires restart of Postgres
pg_partman_bgw.interval = 60
pg_partman_bgw.role = 'postgres'
pg_partman_bgw.dbname = 'postgres'
pgmq guarantees exactly once delivery of a message within a visibility timeout. The visibility timeout is the amount of time a message is invisible to other consumers after it has been read by a consumer. If the message is NOT deleted or archived within the visibility timeout, it will become visible again and can be read by another consumer. The visibility timeout is set when a message is read from the queue, via pgmq.read()
. It is recommended to set a vt
value that is greater than the expected time it takes to process a message. After the application successfully processes the message, it should call pgmq.delete()
to completely remove the message from the queue or pgmq.archive()
to move it to the archive table for the queue.
As the pgmq community grows, we'd love to see who is using it. Please send a PR with your company name and @githubhandle.
Currently, officially using pgmq:
Thanks goes to these incredible people: