WAL-Listener
A service that helps implement the Event-Driven architecture.
To maintain the consistency of data in the system, we will use transactional messaging - publishing events in a single transaction with a domain model change.
The service allows you to subscribe to changes in the PostgreSQL database using its logical decoding capability and publish them to the NATS Streaming server.
Logic of work
To receive events about data changes in our PostgreSQL DB we use the standard logic decoding module (pgoutput) This module converts changes read from the WAL into a logical replication protocol. And we already consume all this information on our side. Then we filter out only the events we need and publish them in the queue
Event publishing
As the message broker will be used is of your choice:
NATS JetStream [type=nats
] or Apache Kafka [type=kafka
].
Service publishes the following structure.
The name of the topic for subscription to receive messages is formed from the prefix of the topic,
the name of the database and the name of the table prefix + schema_table
.
{
ID uuid.UUID # unique ID
Schema string
Table string
Action string
Data map[string]any
DataOld map[string]any # old data (see DB-settings note #1)
EventTime time.Time # commit time
}
Messages are published to the broker at least once!
Filter configuration example
databases:
filter:
tables:
users:
- insert
- update
This filter means that we only process events occurring with the users
table,
and in particular insert
and update
data.
Topic mapping
By default, output NATS topic name consist of prefix, DB schema, and DB table name, but if you want to send all update in one topic you should be configured the topic map:
topicsMap:
main_users: "notifier"
main_customers: "notifier"
DB setting
You must make the following settings in the db configuration (postgresql.conf)
- wal_level >= “logical”
- max_replication_slots >= 1
The publication & slot created automatically when the service starts (for all tables and all actions). You can delete the default publication and create your own (name: wal-listener) with the necessary filtering conditions, and then the filtering will occur at the database level and not at the application level.
https://www.postgresql.org/docs/current/sql-createpublication.html
If you change the publication, do not forget to change the slot name or delete the current one.
Notes:
- To receive
DataOld
field you need to change REPLICA IDENTITY to FULL as described here: #SQL-ALTERTABLE-REPLICA-IDENTITY
Service configuration
listener:
slotName: myslot_1
refreshConnection: 30s
heartbeatInterval: 10s
filter:
tables:
seasons:
- insert
- update
topicsMap:
schema_table_name: "notifier"
logger:
caller: false
level: info
format: json
database:
host: localhost
port: 5432
name: my_db
user: postgres
password: postgres
debug: false
publisher:
type: nats
address: localhost:4222
topic: "wal_listener"
topicPrefix: ""
monitoring:
sentryDSN: "dsn string"
promAddr: ":2112"
Monitoring
Sentry
If you specify an DSN-string for the Sentry project, the next level errors will be posted there via a hook:
- Panic
- Fatal
- Error
Prometheus
You can take metrics by specifying an endpoint for Prometheus in the configuration.
Available metrics
name | description | fields |
---|---|---|
published_events | the total number of published events | subject , table |
filter_skipped_events | the total number of skipped events | table |
Docker
You can start the container from the project folder (configuration file is required).
See ./config_example.yml
for an example configuration.
Be sure to copy the file to the docker image in the Dockerfile
prior to running after the build setp
ex:
COPY /config.yml .
Сontainer preparation is carried out with the help of a multi-stage build, which creates after itself auxiliary images of a large size. Please don't forget to delete them:
docker image prune --filter label=stage=builder
Docker Hub
https://hub.docker.com/r/ihippik/wal-listener
Example
docker run -v $(pwd)/config.yml:/app/config.yml ihippik/wal-listener:tag