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Sending signals to a Debezium connector

Overview

The Debezium signaling mechanism provides a way to modify the behavior of a connector, or to trigger a one-time action, such as initiating an ad hoc snapshot of a table. To trigger a connector to perform a specified action, you issue a SQL command to add a signal message to a specialized signaling table, also referred to as a signaling data collection. The signaling table, which you create on the source database, is designated exclusively for communicating with Debezium. When Debezium detects that a new logging record or ad hoc snapshot record is added to the signaling table, it reads the signal, and initiates the requested operation.

Signaling is available for use with the following Debezium connectors:

  • Db2

  • MongoDB (Technology Preview)

  • MySQL

  • Oracle

  • PostgreSQL

  • SQL Server

Enabling signaling

By default, the Debezium signaling mechanism is disabled. You must explicitly enable signaling for each connector that you want to use it with.

Procedure
  1. On the source database, create a signaling data collection table for sending signals to the connector. For information about the required structure of the signaling data collection, see Structure of a signaling data collection.

  2. For source databases such as Db2 or SQL Server that implement a native change data capture (CDC) mechanism, enable CDC for the signaling table.

  3. Add the name of the signaling data collection to the Debezium connector configuration.
    In the connector configuration, add the property signal.data.collection, and set its value to the fully-qualified name of the signaling data collection that you created in Step 1.

    For example, signal.data.collection = inventory.debezium_signals.

    The format for the fully-qualified name of the signaling collection depends on the connector.
    The following example shows the naming formats to use for each connector:

    Db2

    <schemaName>.<tableName>

    MongoDB

    <databaseName>.<collectionName>

    MySQL

    <databaseName>.<tableName>

    Oracle

    <databaseName>.<schemaName>.<tableName>

    PostgreSQL

    <schemaName>.<tableName>

    SQL Server

    <databaseName>.<schemaName>.<tableName>

    For more information about setting the signal.data.collection property, see the table of configuration properties for your connector.

  4. Add the signaling table to the list of tables to monitor.
    In the configuration for the Debezium connector, add the name of the data collection that you created in Step 1 to the table.include.list property.

    For more information about the table.include.list property, see the table of configuration properties for your connector.

Structure of a signaling data collection

A signaling data collection, or signaling table, stores signals that you send to a connector to trigger a specified operation. The structure of the signaling table must conform to the following standard format.

  • Contains three fields (columns).

  • Fields are arranged in a specific order, as shown in Table 1.

Table 1. Required structure of a signaling data collection
Field Type Description

id
(required)

string

An arbitrary unique string that identifies a signal instance.
You assign an id to each signal that you submit to the signaling table.
Typically the ID is a UUID string.
You can use signal instances for logging, debugging, or de-duplication.
When a signal triggers Debezium to perform an incremental snapshot, it generates a signal message with an arbitrary id string. The id string that the generated message contains is unrelated to the id string in the submitted signal.

type
(required)

string

Specifies the type of signal to send.
You can use some signal types with any connector for which signaling is available, while other signal types are available for specific connectors only.

data
(optional)

string

Specifies JSON-formatted parameters to pass to a signal action.
Each signal type requires a specific set of data.

The field names in a data collection are arbitrary. The preceding table provides suggested names. If you use a different naming convention, ensure that the values in each field are consistent with the expected content.

Creating a signaling data collection

You create a signaling table by submitting a standard SQL DDL query to the source database.

Prerequisites
  • You have sufficient access privileges to create a table on the target database.

Procedure
  • Submit a SQL query to the source database to create a table that is consistent with the required structure, as shown in the following example:

    CREATE TABLE <tableName> (id VARCHAR(<varcharValue>) PRIMARY KEY, type VARCHAR(<varcharValue>) NOT NULL, data VARCHAR(<varcharValue>) NULL);

The amount of space that you allocate to the VARCHAR parameter of the id variable must be sufficient to accommodate the size of the ID strings of signals sent to the signaling table.
If the size of an ID exceeds the available space, the connector cannot process the signal.

The following example shows a CREATE TABLE command that creates a three-column debezium_signal table:

CREATE TABLE debezium_signal (id VARCHAR(42) PRIMARY KEY, type VARCHAR(32) NOT NULL, data VARCHAR(2048) NULL);

Signal actions

You can use signaling to initiate the following actions:

Some signals are not compatible with all connectors.

Logging signals

You can request a connector to add an entry to the log by creating a signaling table entry with the log signal type. After processing the signal, the connector prints the specified message to the log. Optionally, you can configure the signal so that the resulting message includes the streaming coordinates.

Table 2. Example of a signaling record for adding a log message
Column Value Description

id

924e3ff8-2245-43ca-ba77-2af9af02fa07

type

log

The action type of the signal.

data

{"message": "Signal message at offset {}"}

The message parameter specifies the string to print to the log.
If you add a placeholder ({}) to the message, it is replaced with streaming coordinates.

Ad hoc snapshot signals

You can request a connector to initiate an ad hoc snapshot by creating a signaling table entry with the execute-snapshot signal type. After processing the signal, the connector runs the requested snapshot operation.

Unlike the initial snapshot that a connector runs after it first starts, an ad hoc snapshot occurs during runtime, after the connector has already begun to stream change events from a database. You can initiate ad hoc snapshots at any time.

Ad hoc snapshots are available for the following Debezium connectors:

  • Db2

  • MongoDB

  • MySQL

  • Oracle

  • PostgreSQL

  • SQL Server

Table 3. Example of an ad hoc snapshot signal record
Column Value

id

d139b9b7-7777-4547-917d-e1775ea61d41

type

execute-snapshot

data

{"data-collections": ["public.MyFirstTable", "public.MySecondTable"]}

Currently, the execute-snapshot action triggers incremental snapshots only.

For more information about ad hoc snapshots, see the Snapshots topic in the documentation for your connector.

Incremental snapshots

Incremental snapshots are a specific type of ad hoc snapshot. In an incremental snapshot, the connector captures the baseline state of the tables that you specify, similar to an initial snapshot. However, unlike an initial snapshot, an incremental snapshot captures tables in chunks, rather than all at once. The connector uses a watermarking method to track the progress of the snapshot.

By capturing the initial state of the specified tables in chunks rather than in a single monolithic operation, incremental snapshots provide the following advantages over the initial snapshot process:

  • While the connector captures the baseline state of the specified tables, streaming of near real-time events from the transaction log continues uninterrupted.

  • If the incremental snapshot process is interrupted, it can be resumed from the point at which it stopped.

  • You can initiate an incremental snapshot at any time.

For more information about incremental snapshots, see the Snapshots topic in the documentation for your connector.