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A PostgreSQL logical decoder output plugin to deliver data as Protocol Buffers

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decoderbufs

A PostgreSQL logical decoder output plugin to deliver data as Protocol Buffers

decoderbufs

Version: 0.0.1

decoderbufs is a PostgreSQL logical decoder output plugin to deliver data as Protocol Buffers.

decoderbufs is released under the MIT license (See LICENSE file).

Shoutouts:

Version Compatability

This code is built with the following assumptions. You may get mixed results if you deviate from these versions.

Requirements

  • PostgreSQL
  • PostGIS
  • Protocol Buffers
  • protobuf-c

Building

To build you will need to install PostgreSQL (for pg_config) and PostgreSQL server development packages. On Debian based distributions you can usually do something like this:

apt-get install -y postgresql postgresql-server-dev-9.4

You will also need to make sure that protobuf-c and it's header files have been installed. See their Github page for further details.

If you have all of the prerequisites installed you should be able to just:

make && make install

Once the extension has been installed you just need to enable it and logical replication in postgresql.conf:

# MODULES
shared_preload_libraries = 'decoderbufs'

# REPLICATION
wal_level = logical             # minimal, archive, hot_standby, or logical (change requires restart)
max_wal_senders = 8             # max number of walsender processes (change requires restart)
wal_keep_segments = 4           # in logfile segments, 16MB each; 0 disables
#wal_sender_timeout = 60s       # in milliseconds; 0 disables
max_replication_slots = 4       # max number of replication slots (change requires restart)

In addition, permissions will have to be added for the user that connects to the DB to be able to replicate. This can be modified in pg_hba.conf like so:

local   replication     <youruser>                          trust
host    replication     <youruser>  127.0.0.1/32            trust
host    replication     <youruser>  ::1/128                 trust

And restart PostgreSQL.

Usage

-- can use SQL for demo purposes
select * from pg_create_logical_replication_slot('decoderbufs_demo', 'decoderbufs');

-- DO SOME TABLE MODIFICATIONS (see below about UPDATE/DELETE)

-- peek at WAL changes using decoderbufs debug mode for SQL console
select data from pg_logical_slot_peek_changes('decoderbufs_demo', NULL, NULL, 'debug-mode', '1');
-- get WAL changes using decoderbufs to update the WAL position
select data from pg_logical_slot_get_changes('decoderbufs_demo', NULL, NULL, 'debug-mode', '1');

-- check the WAL position of logical replicators
select * from pg_replication_slots where slot_type = 'logical';

If you're performing an UPDATE/DELETE on your table and you don't see results for those operations from logical decoding, make sure you have set REPLICA IDENTITY appropriately for your use case.

The binary format uses simple frame encoding, which uses an 8-byte length (uint64_t) followed by that number of bytes for the Protocol Buffer payload. The easy way to test check this out is to use pg_recvlogical like so:

pg_recvlogical -h localhost -d <yourdb> -U <youruser> -w -S decoderbufs_demo -P decoderbufs -f decoderbuf.frames -s 1 -F 1 --start

For something a bit more useful, I am looking to implement a custom PostgreSQL logical replication client that publishes to something like Apache Kafka.

Type Mappings

The following table shows how current PostgreSQL type OIDs are mapped to which decoderbuf fields:

PostgreSQL Type OID Decoderbuf Field
BOOLOID datum_boolean
INT2OID datum_int32
INT4OID datum_int32
INT8OID datum_int64
OIDOID datum_int64
FLOAT4OID datum_float
FLOAT8OID datum_double
NUMERICOID datum_double
CHAROID datum_string
VARCHAROID datum_string
BPCHAROID datum_string
TEXTOID datum_string
JSONOID datum_string
XMLOID datum_string
UUIDOID datum_string
TIMESTAMPOID datum_string
TIMESTAMPTZOID datum_string
BYTEAOID datum_bytes
POINTOID datum_point
PostGIS geometry datum_point
PostGIS geography datum_point

Support

File bug reports, feature requests and questions using GitHub Issues

Notes

This approach is the one we wanted when we first started kicking around ideas for how to replicate our Postgres DBs in near-realtime. It should provide much better resiliency in the face of network outages and unplanned downtime than a push mechanism (like using pg_kafka with a trigger) would.

The PostgreSQL docs are pretty good and are definitely worth a read.

NOT ALL OID TYPES ARE SUPPORTED CURRENTLY. I really want to iterate this point. There are lots of OIDs in Postgres. Right now I'm translating the ones that I see used a lot, but it is by no means comprehensive. I hope to update this project to support most if not all types at some point.

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