Note: This connector is in public preview. It is intended for experimental use only and is not fully tested, documented, or supported by SingleStore.
Warning: This connector temporarily doesn't work with Unlimited Storage Databases
SingleStore connector for Debezium ("the connector") captures and records row-level changes that occur in the database. You can configure the connector to read from a single table and to ignore, mask, or truncate values in specific columns.
- Getting started
- How the SingleStore Debezium connector works
- Data change events
- Data type mappings
- Connector properties
- Frequently asked question
- An active SingleStore workspace/cluster with
OBSERVE
queries enabled.- Run the following SQL statement to enable
OBSERVE
queries:SET GLOBAL enable_observe_queries=1;
- Run the following SQL statement to enable
- Install the following:
- ZooKeeper
- Kafka
- Kafka Connect
- Download the SingleStore connector for Debezium plugin archive.
- Extract the archive to a directory.
- Add the directory from the previous step to Kafka Connect’s plugin path.
Set the
plugin.path
property in theconnect-distributed.properties
file. - Restart the Kafka Connect process to pick up the new JARs.
After the connector is installed, you can register it using curl
command.
curl -i -X POST \
-H "Accept:application/json" \
-H "Content-Type:application/json" \
<Kafka Connect URL>/connectors/ \
-d '{
"name": "<Unique name for the connector>",
"config":
{
"connector.class": "com.singlestore.debezium.SingleStoreConnector",
"tasks.max": "1",
"database.hostname": "<SingleStoreDB Hostname>",
"database.port": "<SingleStoreDB Port>",
"database.user": "<SingleStoreDB User>",
"database.password": "<SingleStoreDB Password>",
"topic.prefix": "<Topic Preifx>",
"database.dbname": "<SingleStoreDB Database>",
"database.table": "<SingleStoreDB Table>",
"delete.handling.mode": "none"
}
}'
To optimally configure and run the connector, it is essential to understand how the connector performs snapshots, streams change events, determines Kafka topic names, and uses metadata.
SingleStore Debezium connector uses Change Data Capture (CDC) to capture change events.
The connector does not support handling schema changes.
You cannot run ALTER
and DROP
queries while the OBSERVE
query is running, specifically during
snapshotting and filtering.
When the connector starts for the first time, it performs an initial consistent snapshot of the database. The default procedure for performing a snapshot consists of the following steps:
- Establish a connection to the database.
- Identify the table to be captured.
- Read the schema of the captured table.
- Run the
OBSERVE
query and read everything until theCommitSnapshot
event is received for each database partition. - Record the successful completion of the snapshot. Offset will include a list of offsets
of
CommitSnapshot
events for each database partition.
After the initial snapshot is complete, the connector continues streaming from the offset that it receives in Steps 4 and 5 above. If the streaming stops again for any reason, upon restart, the connector tries to continue streaming changes from where it previously left off.
The SingleStore connector forwards change events in records to the Kafka Connect framework. The Kafka Connect process asynchronously writes the change event records in the same order in which they were generated to the appropriate Kafka topic. Kafka Connect periodically records the most recent offset in another Kafka topic. The offset indicates source-specific position information that Debezium includes with each event. The connector records database-level offsets for each database partition in each change event.
When Kafka Connect gracefully shuts down, it stops the connectors, flushes all event records to Kafka, and records the last offset received from each connector. When Kafka Connect restarts, it reads the last recorded offset for each connector, and starts each connector at its last recorded offset. When the connector restarts, it sends a request to the SingleStoreDB to send the events that occurred after the offset position.
The SingleStore Debezium connector writes change events for all INSERT
, UPDATE
, and DELETE
operations that occur in a table to a single Apache Kafka topic that is specific to that table. The
connector uses the following naming convention for the change event topics:
topicPrefix.databaseName.tableName
The following list provides definitions for the components of the default name:
Component | Description |
---|---|
topicPrefix |
Specified by the topic.prefix connector configuration property. |
databaseName |
The name of the database that contains the table. Specified using |
the database.dbname connector configuration property. |
|
tableName |
The name of the table in which the operation occurred. Specified using |
the database.table connector configuration property. |
For example, if the topic prefix is fulfillment
, database name is inventory
, and the table where
the operation occurred is orders
, the connector writes events to
the fulfillment.inventory.orders
Kafka topic.
Every data change event that the SingleStore Debezium connector generates has a key and a * value*. The structures of the key and value depend on the table from which the change events originate. For information on how Debezium constructs topic names, refer to Topic names.
Debezium and Kafka Connect are designed around continuous streams of event messages. However, the structure of these events may change over time, which can be difficult for topic consumers to handle. To facilitate the processing of mutable event structures, each event in Kafka Connect is self-contained. Every message key and value has two parts: a schema and payload. The schema describes the structure of the payload, while the payload contains the actual data.
The change event key payload for tables that have a primary key consists of primary key
fields.
The change event key payload for all other tables consists of a single field named InternalId
.
It represents a unique ID assigned to each row in the database.
{
"schema":{ (1)
"type":"struct",
"optional":false,
"fields":[
{
"type":"int64",
"optional":false,
"field":"InternalId"
}
]
},
"payload":{ (2)
"InternalId": "100000000000000600000007"
}
}
Item | Field name | Description |
---|---|---|
1 | schema |
Specifies a Kafka Connect schema that describes the structure of the key's payload . |
2 | payload |
For tables that have a primary key, contains primary key fields. For all other tables, contains a single field internalId used to specify the ID of the row for which this change event was generated. |
Similar to the key, the value has a schema
and a payload
. However, the value in a change event
is a bit more complicated than the key. The schema
describes the Event Envelope structure of
the payload
, including its nested fields. Change events for operations that create, update, or
delete data each have a value payload
with an envelope structure.
An envelope structure in the payload
sections of a change event value contains the following
fields:
op
(Required) - Contains a string value that describes the type of operation. Theop
field contains one of the following values:c
(insert),u
(update),d
(delete), orr
(read, which indicates a snapshot).before
(Optional) - Describes the state of the row before the event occurred. This field is alwaysnull
. It is added to match the format generated by other Debezium connectors.after
(Optional) - If present, describes the state of a row after a change occurs.source
(Required) - Contains a structure that describes the source metadata for the event. The structure includes the following fields:version
- The Debezium version.connector
- The connector plugin name.name
- The connector name.db
- Database name.table
- Table name.snapshot
- Whether the event is part of an ongoing snapshot or not.txId
- The database transaction ID.partitionId
- The database partition ID.offsets
- The list of database-level offsets for each database partition.ts_ms
- The time (based on the system clock in the JVM that runs the Kafka Connect task) at which the connector processed the event. Other Debezium connectors include timestamp that indicates when the record in the source database changed, but it is not possible to retrieve this information using SingleStore CDC.sequence
- An extra sequencing metadata about a change event (alwaysnull
).
ts_ms
(Optional) - If present, specifies the time (based on the system clock in the JVM that runs the Kafka Connect task) at which the connector processed the event.
The following example demonstrates the value of a change event that the connector generates for an
operation that inserts data in the t
table:
{
"schema":{...},
"payload":{
"before":null,
"after":{
"a":33
},
"source":{
"version":"0.1.8",
"connector":"singlestore",
"name":"singlestore",
"ts_ms":1706197043473,
"snapshot":"true",
"db":"db",
"sequence":null,
"table":"t",
"txId":"ffffffffffffffff0000000000000003000000000000004600000000000460390000000000000000",
"partitionId":0,
"offsets":[
"000000000000000300000000000000460000000000046049"
]
},
"op":"c",
"ts_ms":1706197043473,
"transaction":null
}
}
The following example shows an update change event that the connector captures from the same table as the preceding create event.
{
"schema":{...},
"payload":{
"before":null,
"after":{
"a":22
},
"source":{
"version":"0.1.8",
"connector":"singlestore",
"name":"singlestore",
"ts_ms":1706197446500,
"snapshot":"true",
"db":"db",
"sequence":null,
"table":"t",
"txId":"ffffffffffffffff0000000000000003000000000000004c000000000004c16e0000000000000000",
"partitionId":0,
"offsets":[
"0000000000000003000000000000004c000000000004c17e"
]
},
"op":"u",
"ts_ms":1706197446500,
"transaction":null
}
}
The payload
structure is the same as the create (insert) event, but the following values are
different:
- The value of the
op
field isu
, signifying that this row changed because of an update. - The
after
field shows the updated state of the row, with thea
value now set to22
. - The structure of the
source
field includes the same fields as before, but the values are different, because the connector captured the event from a different position. - The
ts_ms
field shows the timestamp that indicates when Debezium processed the event.
The following example shows a delete event for the table that is shown in the preceding create and update event examples.
{
"schema":{...},
"payload":{
"before":null,
"after":null,
"source":{
"version":"0.1.8",
"connector":"singlestore",
"name":"singlestore",
"ts_ms":1706197665407,
"snapshot":"true",
"db":"db",
"sequence":null,
"table":"t",
"txId":"ffffffffffffffff00000000000000030000000000000053000000000005316e0000000000000000",
"partitionId":0,
"offsets":[
"000000000000000300000000000000530000000000053179"
]
},
"op":"d",
"ts_ms":1706197665408,
"transaction":null
}
}
The payload
is different when compared to the create or update event:
- The value of the
op
field isd
, signifying that the row was deleted. - The value of the after field is
null
, signifying that the row no longer exists. - The structure of the
source
field includes the same fields as before, but the values are different, because the connector captured the event from a different position. - The
ts_ms
field shows the timestamp that indicates when Debezium processed the event.
Each change event record is structured in the same way as the original table, where the event record includes a field for each column value. The data type of a table column determines how the connector represents the column’s values in change event fields, as shown in the tables in the following sections.
For each column in a table, Debezium maps the source data type to a literal type, and in some cases, to a semantic type in the corresponding event field.
- Literal types - Describe how the value is literally represented, using one of the following Kafka
Connect schema
types:
INT8
,INT16
,INT32
,INT64
,FLOAT32
,FLOAT64
,BOOLEAN
,STRING
,BYTES
,ARRAY
,MAP
, andSTRUCT
. - Semantic types - Describe how the Kafka Connect schema captures the meaning of the field, by using the name of the Kafka Connect schema for the field.
SingleStoreDB data type | Literal type |
---|---|
BOOL | INT16 |
BIT | BYTES |
TINYINT | INT16 |
SMALLINT | INT16 |
MEDIUMINT | INT32 |
INT | INT32 |
BIGINT | INT64 |
Note:
BIT
type is returned in reversed order.
SingleStoreDB data type | Literal type |
---|---|
FLOAT | FLOAT32 |
DOUBLE | FLOAT64 |
Debezium connectors handle DECIMAL
based on the value
of decimal.handling.mode
connector configuration property.
decimal.handling.mode |
Literal type | Semantic type |
---|---|---|
precise (default) | BYTES | org.apache.kafka.connect.data.Decimal - The scale schema parameter contains an integer that specifies the number of places the decimal point is shifted. |
double | FLOAT64 | n/a |
string | STRING | n/a |
Time and date types depend on the value of the time.precision.mode
connector configuration property.
time.precision.mode=adaptive_time_microseconds(default)
SingleStoreDB data type | Literal type | Semantic type |
---|---|---|
DATE | INT32 | io.debezium.time.Date - Represents the number of days since the epoch. |
TIME | INT64 | io.debezium.time.MicroTime - Represents the time value in microseconds. |
TIME(6) | INT64 | io.debezium.time.MicroTime - Represents the time value in microseconds. |
DATETIME | INT64 | io.debezium.time.Timestamp - Represents the number of milliseconds past the epoch. |
DATETIME(6) | INT64 | io.debezium.time.MicroTimestamp - Represents the number of microseconds past the epoch. |
TIMESTAMP | INT64 | io.debezium.time.Timestamp - Represents the number of milliseconds past the epoch. |
TIMESTAMP(6) | INT64 | io.debezium.time.MicroTimestamp - Represents the number of microseconds past the epoch. |
YEAR | INT32 | N/A |
time.precision.mode=connect
SingleStoreDB data type | Literal type | Semantic type |
---|---|---|
DATE | INT32 | org.apache.kafka.connect.data.Date - Represents the number of days since the epoch. |
TIME | INT64 | org.apache.kafka.connect.data.Time - Represents the time value in milliseconds. |
TIME(6) | INT64 | org.apache.kafka.connect.data.Time - Represents the time value in milliseconds. |
DATETIME | INT64 | org.apache.kafka.connect.data.Timestamp - Represents the number of milliseconds since the epoch. |
DATETIME(6) | INT64 | org.apache.kafka.connect.data.Timestamp - Represents the number of milliseconds since the epoch. |
TIMESTAMP | INT64 | org.apache.kafka.connect.data.Timestamp - Represents the number of milliseconds since the epoch. |
TIMESTAMP(6) | INT64 | org.apache.kafka.connect.data.Timestamp - Represents the number of milliseconds since the epoch. |
YEAR | INT32 | N/A |
time.precision.mode=adaptive
SingleStoreDB data type | Literal type | Semantic type |
---|---|---|
DATE | INT32 | io.debezium.time.Date - Represents the number of days since the epoch. |
TIME | INT64 | io.debezium.time.Time - Represents the time value in milliseconds. |
TIME(6) | INT64 | io.debezium.time.MicroTime - Represents the time value in microseconds. |
DATETIME | INT64 | io.debezium.time.Timestamp - Represents the number of milliseconds past the epoch. |
DATETIME(6) | INT64 | io.debezium.time.MicroTimestamp - Represents the number of microseconds past the epoch. |
TIMESTAMP | INT64 | io.debezium.time.Timestamp - Represents the number of milliseconds past the epoch. |
TIMESTAMP(6) | INT64 | io.debezium.time.MicroTimestamp - Represents the number of microseconds past the epoch. |
YEAR | INT32 | N/A |
SingleStoreDB data type | Literal type |
---|---|
TINYTEXT | STRING |
TEXT | STRING |
MEDIUMTEXT | STRING |
LONGTEXT | STRING |
CHAR | STRING |
VARCHAR | STRING |
Debezium connectors handle binary data types based on the value of
the binary.handling.mode
connector configuration property.
SingleStoreDB data type | Literal type | Semantic type |
---|---|---|
TINYBLOB | BYTES OR STRING | Either the raw bytes (the default), a base64-encoded String, or a |
base64-url-safe-encoded String, or a hex-encoded String, based on | ||
the binary.handling.mode connector configuration property. | ||
BLOB | BYTES OR STRING | Either the raw bytes (the default), a base64-encoded String, or a |
base64-url-safe-encoded String, or a hex-encoded String, based on | ||
the binary.handling.mode connector configuration property. | ||
MEDIUMBLOB | BYTES OR STRING | Either the raw bytes (the default), a base64-encoded String, or a |
base64-url-safe-encoded String, or a hex-encoded String, based on | ||
the binary.handling.mode connector configuration property. | ||
LONGBLOB | BYTES OR STRING | Either the raw bytes (the default), a base64-encoded String, or a |
base64-url-safe-encoded String, or a hex-encoded String, based on | ||
the binary.handling.mode connector configuration property. | ||
BINARY | BYTES OR STRING | Either the raw bytes (the default), a base64-encoded String, or a |
base64-url-safe-encoded String, or a hex-encoded String, based on | ||
the binary.handling.mode connector configuration property. | ||
VARBINARY | BYTES OR STRING | Either the raw bytes (the default), a base64-encoded String, or a |
base64-url-safe-encoded String, or a hex-encoded String, based on | ||
the binary.handling.mode connector configuration property. |
SingleStoreDB data type | Literal type | Semantic type |
---|---|---|
JSON | STRING | N/A |
ENUM | STRING | N/A |
SET | STRING | N/A |
GEOGRAPHYPOINT | STRUCT | io.debezium.data.geometry.Geometry - Contains a structure with two fields: srid (INT32): spatial reference system ID that defines the type of geometry object stored in the structure and wkb (BYTES): binary representation of the geometry object encoded in the Well-Known-Binary (wkb) format. Refer to the Open Geospatial Consortium for more details. |
GEOGRAPHY | STRUCT | io.debezium.data.geometry.Geometry - Contains a structure with two fields: srid (INT32): spatial reference system ID that defines the type of geometry object stored in the structure and wkb (BYTES): binary representation of the geometry object encoded in the Well-Known-Binary (wkb) format. Refer to the Open Geospatial Consortium for more details. |
The SingleStore Debezium connector supports the following configuration properties which can be used to achieve the right connector behavior for your application.
Property | Default | Description |
---|---|---|
name | Unique name for the connector. Any attempts to register again with the same name will fail. This property is required by all Kafka Connect connectors. | |
connector.class | The name of the Java Class for the connector. For the SingleStore connector specify com.singlestore.debezium.SingleStoreConnector . |
|
tasks.max | 1 | The maximum number of tasks that can be created for this connector. The SingleStoreDB connector only uses a single task and fails if more is specified. Hence, the default is always acceptable. |
Property | Default | Description |
---|---|---|
database.hostname | Resolvable hostname or IP address of the database server. | |
database.port | 3306 | Port of the database server. |
database.user | Name of the database user to be used when connecting to the database. | |
database.password | Password of the database user to be used when connecting to the database. | |
database.dbname | The name of the database from which the connector should capture changes. | |
database.table | The name of the table from which the connector should capture changes. | |
database.ssl.mode | disable | Whether to use an encrypted connection to SingleStore. Options include: 'disable' to use an unencrypted connection (the default), 'trust' to use a secure (encrypted) connection (no certificate and hostname validation), 'verify_ca' to use a secure (encrypted) connection but additionally verify the server TLS certificate against the configured Certificate Authority (CA) certificates, or fail if no valid matching CA certificates are found, or 'verify-full' like 'verify-ca' but additionally verify that the server certificate matches the host to which the connection is attempted. |
database.ssl.keystore | The location of the key store file. This is optional and can be used for two-way authentication between the client and the SingleStore server. | |
database.ssl.keystore.password | The password for the key store file. This is optional and only needed if 'database.ssl.keystore' is configured. | |
database.ssl.truststore | The location of the trust store file for the server certificate verification. | |
database.ssl.truststore.password | The password for the trust store file. Used to check the integrity of the truststore and unlock the truststore. | |
database.ssl.server.cert | Server's certificate in DER format or the server's CA certificate. The certificate is added to the trust store, which allows the connection to trust a self-signed certificate. | |
connect.timeout.ms | 30000 | Maximum time to wait after trying to connect to the database before timing out, specified in milliseconds. |
driver.parameters | Additional JDBC parameters to use in the connection string to connect to the SingleStore server in the following format: 'param1=value1; param2 = value2; ...'. Refer to SingleStore Connection String Parameters for more information. |
The following configuration properties are required unless a default value is available.
Property | Default | Description |
---|---|---|
topic.prefix | Specifies the topic prefix that identifies and provides a namespace for the particular database server/cluster that is capturing the changes. The topic prefix should be unique across all other connectors, since it is used as a prefix for all Kafka topic names that receive events generated by this connector. Only alphanumeric characters, hyphens, dots, and underscores are accepted. | |
decimal.handling.mode | precise | Specifies how DECIMAL and NUMERIC columns are represented in change events. Values include: 'precise' - uses java.math.BigDecimal to represent values, which are encoded in the change events using a binary representation and Kafka Connect's 'org.apache.kafka.connect.data.Decimal' type; 'string' - uses string to represent values; 'double' - represents values using Java's 'double', which may not offer the precision, but it is easier to use in consumers. |
binary.handling.mode | bytes | Specifies how binary (blob, binary, etc.) columns are represented in change events. Values include: 'bytes' - represents binary data as byte array (default); 'base64' - represents binary data as base64-encoded string; 'base64-url-safe' - represents binary data as base64-url-safe-encoded string; 'hex' - represents binary data as hex-encoded (base16) string. |
time.precision.mode | advanced | Specifies the precision type for time, date, and timestamps. Values include: 'adaptive' - bases the precision of time, date, and timestamp values on the database column's precision; 'adaptive_time_microseconds' - similar to 'adaptive' mode, but TIME fields always use microseconds precision; 'connect' - always represents time, date, and timestamp values using Kafka Connect's built-in representations for Time, Date, and Timestamp, which uses millisecond precision regardless of the database columns' precision. |
tombstones.on.delete | true | Whether delete operations should be represented by a delete event and a subsequent tombstone event ('true') or only by a delete event ('false'). Generating the tombstone event (the default behavior) allows Kafka to completely delete all events pertaining to the given key once the source record is deleted. |
column.include.list | Regular expressions matching columns to include in change events. | |
column.exclude.list | Regular expressions matching columns to exclude from change events. | |
column.mask.hash.([^.]+).with.salt.(.+) | A comma-separated list of regular expressions matching fully-qualified names of columns that should be masked by hashing the input, using the specified hash algorithms and salt. | |
column.mask.with.(d+).chars | A comma-separated list of regular expressions matching fully-qualified names of columns that should be masked with the specified number of asterisks ('*'). | |
column.truncate.to.(d+).chars | A comma-separated list of regular expressions matching fully-qualified names of columns that should be truncated to the configured amount of characters. | |
column.propagate.source.type | A comma-separated list of regular expressions matching fully-qualified names of columns that adds the column’s original type and original length as parameters to the corresponding field schemas in the emitted change records. | |
datatype.propagate.source.type | A comma-separated list of regular expressions matching the database-specific data type names that adds the data type's original type and original length as parameters to the corresponding field schemas in the generated change records. | |
populate.internal.id | false | Specifies whether to add internalId to the after field of the event message. |
The following advanced configuration properties have defaults that work in most situations and therefore rarely need to be specified in the connector’s configuration.
Property | Default | Description |
---|---|---|
converters | Optional list of custom converters to use instead of default ones. The converters are defined using the <converter.prefix>.type option and configured using <converter.prefix>.<option> . |
|
snapshot.mode | initial | Specifies the snapshot strategy to use on connector startup. Supported modes: - 'initial' (default) - If the connector does not detect any offsets for the logical server name, it performs a full snapshot that captures the current state of the configured tables. After the snapshot completes, the connector begins to stream changes. - 'initial_only' - Similar to the 'initial' mode, the connector performs a full snapshot. Once the snapshot is complete, the connector stops, and does not stream any changes. - 'when_needed' - Performs a snapshot only if the connector doesn't detect any offset or detected offset is not valid or stale. - 'no_data' - The connector never performs snapshots. When a connector is configured this way, after it starts, it behaves as follows: If there is a previously stored offset in the Kafka offsets topic, the connector continues streaming changes from that position. If no offset is stored, the connector starts streaming changes from the tail of the database log. |
event.processing.failure.handling.mode | fail | Specifies how failures that may occur during event processing should be handled, for example, failures because of a corrupted event. Supported modes: 'fail' (Default) - An exception indicating the problematic event and its position is raised and the connector is stopped; 'warn' - The problematic event and its position are logged and the event is skipped; 'ignore' - The problematic event is skipped. |
max.batch.size | 2048 | Maximum size of each batch of source records. |
max.queue.size | 8192 | Maximum size of the queue for change events read from the database log but not yet recorded or forwarded. |
max.queue.size.in.bytes | 0 (disabled) | Maximum size of the queue in bytes for change events read from the database log but not yet recorded or forwarded. |
poll.interval.ms | 500 | Time (in milliseconds) that the connector waits for new change events to appear after receiving no events. |
heartbeat.topics.prefix | __debezium-heartbeat | The prefix that is used to name heartbeat topics. |
heartbeat.action.query | An optional query to execute with every heartbeat. | |
heartbeat.interval.ms | 0 (disabled) | The time interval in milliseconds at which the connector periodically sends heartbeat messages to a heartbeat topic. |
snapshot.delay.ms | 0 | Number of milliseconds to wait before a snapshot begins. |
retriable.restart.connector.wait.ms | 10000 | Number of milliseconds to wait before restarting connector after a retriable exception occurs. |
skipped.operations | t | The comma-separated list of operations to skip during streaming, defined as: 'c' for inserts/create; 'u' for updates; 'd' for deletes, 't' for truncates, and 'none' to indicate that nothing is skipped. |
notification.enabled.channels | List of notification channels names that are enabled. | |
topic.naming.strategy | The name of the TopicNamingStrategy Class that should be used to determine the topic name for data change, schema change, transaction, heartbeat event, etc. | |
custom.metric.tags | The custom metric tags will accept key-value pairs to customize the MBean object name which should be appended at the end of the regular name. Each key represents a tag for the MBean object name, and the corresponding value represents the value of that key. For example: k1=v1,k2=v2. | |
errors.max.retries | -1 (no limit) | The maximum number of retries on connection errors before failing. |
sourceinfo.struct.maker | SingleStoreSourceInfoStructMaker | The name of the SourceInfoStructMaker Class that returns the SourceInfo schema and struct. |
notification.sink.topic.name | The name of the topic for the notifications. This property is required if the 'sink' is in the list of enabled channels. | |
post.processors | Optional list of post processors. The processors are defined using the <post.processor.prefix>.type option and configured using <post.processor.prefix.<option> . |
A connector that is stopped for a long period fails to start and reports the following exception:
Offset the connector is trying to resume from is considered stale...
This exception indicates that the offset entry the connector is trying to resume from is considered stale. Therefore, the connector cannot resume streaming. You can use either of the following options to recover from the failure:
- Delete the failed connector, and create a new connector with the same configuration but with a different connector name.
- Pause the connector and then remove offsets, or change the offset topic.
- Run connector with
snapshot.mode
property set towhen_needed
option ( see here). Connector removes stale offsets automatically and starts with a snapshot.
To help prevent failures related to stale offsets, you can increase the value of the following engine variables in SingleStore:
snapshots_to_keep
- Defines the number of snapshots to keep for backup and replication.snapshot_trigger_size
- Defines the size of transaction logs in bytes, which, when reached, triggers a snapshot that is written to disk.