Kafka Topic Configuration Reference for Confluent Platform

This topic provides topic-level configuration parameters available for Confluent Platform. The Kafka topic configuration parameters are listed in alphabetical order.

Topic configurations have a server default and an optional per-topic override. If no per-topic value is provided, the server default is used. The server property for a given topic configuration is provided in the Server Default Property entry for each configuration. You can specify a topic override for a configuration when you create a topic using the kafka-topic tool and the --config option. You can modify the value for a topic override using the kafka-configs tool and the --alter option. To learn about dynamically modifying a topic configuration value, see Dynamically change topic settings.

To learn more about topics in Apache Kafka®, see the Topics module – Apache Kafka 101 and Kafka Internals free courses. You can find code samples for different programming languages in Getting Started with Apache Kafka.

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cleanup.policy

This config designates the retention policy to use on log segments. The “delete” policy (which is the default) will discard old segments when their retention time or size limit has been reached. The “compact” policy will enable log compaction, which retains the latest value for each key. It is also possible to specify both policies in a comma-separated list (e.g. “delete,compact”). In this case, old segments will be discarded per the retention time and size configuration, while retained segments will be compacted.

Type: list
Default: delete
Valid Values: [compact, delete]
Server Default Property: log.cleanup.policy
Importance: medium

compression.type

Specify the final compression type for a given topic. This configuration accepts the standard compression codecs (‘gzip’, ‘snappy’, ‘lz4’, ‘zstd’). It additionally accepts ‘uncompressed’ which is equivalent to no compression; and ‘producer’ which means retain the original compression codec set by the producer.

Type: string
Default: producer
Valid Values: [uncompressed, zstd, lz4, snappy, gzip, producer]
Server Default Property: compression.type
Importance: medium

confluent.key.schema.validation

True if schema validation at record key is enabled for this topic.

Type: boolean
Default: false
Valid Values:  
Server Default Property: null
Importance: medium

confluent.key.subject.name.strategy

Determines how to construct the subject name under which the key schema is registered with the schema registry. By default, TopicNameStrategy is used

Type: string
Default: io.confluent.kafka.serializers.subject.TopicNameStrategy
Valid Values:  
Server Default Property: null
Importance: medium

confluent.tier.cleaner.enable

Enables tiering and tiered cleaning of compacted topics. If disabled, tiering for those topics will be disabled and topics will be cleaned by local log cleaner.

Type: boolean
Default: false
Valid Values:  
Server Default Property: confluent.tier.cleaner.enable
Importance: medium

confluent.tier.enable

Allow tiering for topic(s). This enables tiering and fetching of data to and from the configured remote storage. When set to true, this causes all existing, non-compacted topics to also have this configuration set to true. Only topics explicitly set to false will remain false.It is not required to set confluent.tier.enable=true to enable Tiered Storage.

Type: boolean
Default: false
Valid Values:  
Server Default Property: confluent.tier.enable
Importance: medium

confluent.tier.local.hotset.bytes

When tiering is enabled, this configuration controls the maximum size a partition (which consists of log segments) can grow to on broker-local storage before we will discard old log segments to free up space. Log segments retained on broker-local storage is referred as the “hotset”. Segments discarded from local store could continue to exist in tiered storage and remain available for fetches depending on retention configurations. By default there is no size limit only a time limit. Since this limit is enforced at the partition level, multiply it by the number of partitions to compute the topic hotset in bytes.

Type: long
Default: -1
Valid Values:  
Server Default Property: confluent.tier.local.hotset.bytes
Importance: medium

confluent.tier.local.hotset.ms

When tiering is enabled, this configuration controls the maximum time we will retain a log segment on broker-local storage before we will discard it to free up space. Segments discarded from local store could continue to exist in tiered storage and remain available for fetches depending on retention configurations. If set to -1, no time limit is applied.

Type: long
Default: 86400000 (1 day)
Valid Values:  
Server Default Property: confluent.tier.local.hotset.ms
Importance: medium

confluent.value.schema.validation

True if schema validation at record value is enabled for this topic.

Type: boolean
Default: false
Valid Values:  
Server Default Property: null
Importance: medium

confluent.value.subject.name.strategy

Determines how to construct the subject name under which the value schema is registered with the schema registry. By default, TopicNameStrategy is used

Type: string
Default: io.confluent.kafka.serializers.subject.TopicNameStrategy
Valid Values:  
Server Default Property: null
Importance: medium

delete.retention.ms

The amount of time to retain delete tombstone markers for log compacted topics. This setting also gives a bound on the time in which a consumer must complete a read if they begin from offset 0 to ensure that they get a valid snapshot of the final stage (otherwise delete tombstones may be collected before they complete their scan).

Type: long
Default: 86400000 (1 day)
Valid Values: [0,…]
Server Default Property: log.cleaner.delete.retention.ms
Importance: medium

file.delete.delay.ms

The time to wait before deleting a file from the filesystem

Type: long
Default: 60000 (1 minute)
Valid Values: [0,…]
Server Default Property: log.segment.delete.delay.ms
Importance: medium

flush.messages

This setting allows specifying an interval at which we will force an fsync of data written to the log. For example if this was set to 1 we would fsync after every message; if it were 5 we would fsync after every five messages. In general we recommend you not set this and use replication for durability and allow the operating system’s background flush capabilities as it is more efficient. This setting can be overridden on a per-topic basis (see the per-topic configuration section).

Type: long
Default: 9223372036854775807
Valid Values: [1,…]
Server Default Property: log.flush.interval.messages
Importance: medium

flush.ms

This setting allows specifying a time interval at which we will force an fsync of data written to the log. For example if this was set to 1000 we would fsync after 1000 ms had passed. In general we recommend you not set this and use replication for durability and allow the operating system’s background flush capabilities as it is more efficient.

Type: long
Default: 9223372036854775807
Valid Values: [0,…]
Server Default Property: log.flush.interval.ms
Importance: medium

follower.replication.throttled.replicas

A list of replicas for which log replication should be throttled on the follower side. The list should describe a set of replicas in the form [PartitionId]:[BrokerId],[PartitionId]:[BrokerId]:… or alternatively the wildcard ‘*’ can be used to throttle all replicas for this topic.

Type: list
Default: “”
Valid Values: [partitionId]:[brokerId],[partitionId]:[brokerId],…
Server Default Property: null
Importance: medium

index.interval.bytes

This setting controls how frequently Kafka adds an index entry to its offset index. The default setting ensures that we index a message roughly every 4096 bytes. More indexing allows reads to jump closer to the exact position in the log but makes the index larger. You probably don’t need to change this.

Type: int
Default: 4096 (4 kibibytes)
Valid Values: [0,…]
Server Default Property: log.index.interval.bytes
Importance: medium

leader.replication.throttled.replicas

A list of replicas for which log replication should be throttled on the leader side. The list should describe a set of replicas in the form [PartitionId]:[BrokerId],[PartitionId]:[BrokerId]:… or alternatively the wildcard ‘*’ can be used to throttle all replicas for this topic.

Type: list
Default: “”
Valid Values: [partitionId]:[brokerId],[partitionId]:[brokerId],…
Server Default Property: null
Importance: medium

local.retention.bytes

The maximum size of local log segments that can grow for a partition before it deletes the old segments. Default value is -2, it represents retention.bytes value to be used. The effective value should always be less than or equal to retention.bytes value.

Type: long
Default: -2
Valid Values: [-2,…]
Server Default Property: log.local.retention.bytes
Importance: medium

local.retention.ms

The number of milliseconds to keep the local log segment before it gets deleted. Default value is -2, it represents retention.ms value is to be used. The effective value should always be less than or equal to retention.ms value.

Type: long
Default: -2
Valid Values: [-2,…]
Server Default Property: log.local.retention.ms
Importance: medium

max.compaction.lag.ms

The maximum time a message will remain ineligible for compaction in the log. Only applicable for logs that are being compacted.

Type: long
Default: 9223372036854775807
Valid Values: [1,…]
Server Default Property: log.cleaner.max.compaction.lag.ms
Importance: medium

max.message.bytes

The largest record batch size allowed by Kafka (after compression if compression is enabled). If this is increased and there are consumers older than 0.10.2, the consumers’ fetch size must also be increased so that they can fetch record batches this large. In the latest message format version, records are always grouped into batches for efficiency. In previous message format versions, uncompressed records are not grouped into batches and this limit only applies to a single record in that case.

Type: int
Default: 1048588
Valid Values: [0,…]
Server Default Property: message.max.bytes
Importance: medium

message.format.version

[DEPRECATED] Specify the message format version the broker will use to append messages to the logs. The value of this config is always assumed to be 3.0 if inter.broker.protocol.version is 3.0 or higher (the actual config value is ignored). Otherwise, the value should be a valid ApiVersion. Some examples are: 0.10.0, 1.1, 2.8, 3.0. By setting a particular message format version, the user is certifying that all the existing messages on disk are smaller or equal than the specified version. Setting this value incorrectly will cause consumers with older versions to break as they will receive messages with a format that they don’t understand.

Type: string
Default: 3.0-IV1
Valid Values: [0.8.0, 0.8.1, 0.8.2, 0.9.0, 0.10.0-IV0, 0.10.0-IV1, 0.10.1-IV0, 0.10.1-IV1, 0.10.1-IV2, 0.10.2-IV0, 0.11.0-IV0, 0.11.0-IV1, 0.11.0-IV2, 1.0-IV0, 1.1-IV0, 2.0-IV0, 2.0-IV1, 2.1-IV0, 2.1-IV1, 2.1-IV2, 2.2-IV0, 2.2-IV1, 2.3-IV0, 2.3-IV1, 2.4-IV0, 2.4-IV1, 2.5-IV0, 2.6-IV0, 2.7-IV0, 2.7-IV1, 2.7-IV2, 2.8-IV0, 2.8-IV1, 3.0-IV0, 3.0-IV1, 3.1-IV0, 3.2-IV0, 3.3-IV0, 3.3-IV1, 3.3-IV2, 3.3-IV3, 3.4-IV0, 3.5-IV0, 3.5-IV1, 3.5-IV2, 3.6-IV0, 3.6-IV1, 3.6-IV2, 3.7-IV0, 3.7-IV1, 3.7-IV2, 3.7-IV3, 3.7-IV4, 3.8-IV0]
Server Default Property: log.message.format.version
Importance: medium

message.timestamp.after.max.ms

This configuration sets the allowable timestamp difference between the message timestamp and the broker’s timestamp. The message timestamp can be later than or equal to the broker’s timestamp, with the maximum allowable difference determined by the value set in this configuration. If message.timestamp.type=CreateTime, the message will be rejected if the difference in timestamps exceeds this specified threshold. This configuration is ignored if message.timestamp.type=LogAppendTime.

Type: long
Default: 9223372036854775807
Valid Values: [0,…]
Server Default Property: log.message.timestamp.after.max.ms
Importance: medium

message.timestamp.before.max.ms

This configuration sets the allowable timestamp difference between the broker’s timestamp and the message timestamp. The message timestamp can be earlier than or equal to the broker’s timestamp, with the maximum allowable difference determined by the value set in this configuration. If message.timestamp.type=CreateTime, the message will be rejected if the difference in timestamps exceeds this specified threshold. This configuration is ignored if message.timestamp.type=LogAppendTime.

Type: long
Default: 9223372036854775807
Valid Values: [0,…]
Server Default Property: log.message.timestamp.before.max.ms
Importance: medium

message.timestamp.difference.max.ms

[DEPRECATED] The maximum difference allowed between the timestamp when a broker receives a message and the timestamp specified in the message. If message.timestamp.type=CreateTime, a message will be rejected if the difference in timestamp exceeds this threshold. This configuration is ignored if message.timestamp.type=LogAppendTime.

Type: long
Default: 9223372036854775807
Valid Values: [0,…]
Server Default Property: log.message.timestamp.difference.max.ms
Importance: medium

message.timestamp.type

Define whether the timestamp in the message is message create time or log append time. The value should be either CreateTime or LogAppendTime

Type: string
Default: CreateTime
Valid Values: [CreateTime, LogAppendTime]
Server Default Property: log.message.timestamp.type
Importance: medium

min.cleanable.dirty.ratio

This configuration controls how frequently the log compactor will attempt to clean the log (assuming log compaction is enabled). By default we will avoid cleaning a log where more than 50% of the log has been compacted. This ratio bounds the maximum space wasted in the log by duplicates (at 50% at most 50% of the log could be duplicates). A higher ratio will mean fewer, more efficient cleanings but will mean more wasted space in the log. If the max.compaction.lag.ms or the min.compaction.lag.ms configurations are also specified, then the log compactor considers the log to be eligible for compaction as soon as either: (i) the dirty ratio threshold has been met and the log has had dirty (uncompacted) records for at least the min.compaction.lag.ms duration, or (ii) if the log has had dirty (uncompacted) records for at most the max.compaction.lag.ms period.

Type: double
Default: 0.5
Valid Values: [0,…,1]
Server Default Property: log.cleaner.min.cleanable.ratio
Importance: medium

min.compaction.lag.ms

The minimum time a message will remain uncompacted in the log. Only applicable for logs that are being compacted.

Type: long
Default: 0
Valid Values: [0,…]
Server Default Property: log.cleaner.min.compaction.lag.ms
Importance: medium

min.insync.replicas

When a producer sets acks to “all” (or “-1”), this configuration specifies the minimum number of replicas that must acknowledge a write for the write to be considered successful. If this minimum cannot be met, then the producer will raise an exception (either NotEnoughReplicas or NotEnoughReplicasAfterAppend).When used together, min.insync.replicas and acks allow you to enforce greater durability guarantees. A typical scenario would be to create a topic with a replication factor of 3, set min.insync.replicas to 2, and produce with acks of “all”. This will ensure that the producer raises an exception if a majority of replicas do not receive a write.

Type: int
Default: 1
Valid Values: [1,…]
Server Default Property: min.insync.replicas
Importance: medium

preallocate

True if we should preallocate the file on disk when creating a new log segment.

Type: boolean
Default: false
Valid Values:  
Server Default Property: log.preallocate
Importance: medium

remote.storage.enable

To enable tiered storage for a topic, set this configuration as true. You can not disable this config once it is enabled. It will be provided in future versions.

Type: boolean
Default: false
Valid Values:  
Server Default Property: null
Importance: medium

retention.bytes

This configuration controls the maximum size a partition (which consists of log segments) can grow to before we will discard old log segments to free up space if we are using the “delete” retention policy. By default there is no size limit only a time limit. Since this limit is enforced at the partition level, multiply it by the number of partitions to compute the topic retention in bytes.

Type: long
Default: -1
Valid Values:  
Server Default Property: log.retention.bytes
Importance: medium

retention.ms

This configuration controls the maximum time we will retain a log before we will discard old log segments to free up space if we are using the “delete” retention policy. This represents an SLA on how soon consumers must read their data. If set to -1, no time limit is applied.

Type: long
Default: 604800000 (7 days)
Valid Values: [-1,…]
Server Default Property: log.retention.ms
Importance: medium

segment.bytes

This configuration controls the segment file size for the log. Retention and cleaning is always done a file at a time so a larger segment size means fewer files but less granular control over retention.

Type: int
Default: 1073741824 (1 gibibyte)
Valid Values: [14,…]
Server Default Property: log.segment.bytes
Importance: medium

segment.index.bytes

This configuration controls the size of the index that maps offsets to file positions. We preallocate this index file and shrink it only after log rolls. You generally should not need to change this setting.

Type: int
Default: 10485760 (10 mebibytes)
Valid Values: [4,…]
Server Default Property: log.index.size.max.bytes
Importance: medium

segment.jitter.ms

The maximum random jitter subtracted from the scheduled segment roll time to avoid thundering herds of segment rolling

Type: long
Default: 0
Valid Values: [0,…]
Server Default Property: log.roll.jitter.ms
Importance: medium

segment.ms

This configuration controls the period of time after which Kafka will force the log to roll even if the segment file isn’t full to ensure that retention can delete or compact old data.

Type: long
Default: 604800000 (7 days)
Valid Values: [1,…]
Server Default Property: log.roll.ms
Importance: medium

unclean.leader.election.enable

Indicates whether to enable replicas not in the ISR set to be elected as leader as a last resort, even though doing so may result in data loss.

Type: boolean
Default: false
Valid Values:  
Server Default Property: unclean.leader.election.enable
Importance: medium

confluent.placement.constraints

This configuration is a JSON object that controls the set of brokers (replicas) which will always be allowed to join the ISR. And the set of brokers (observers) which are not allowed to join the ISR. The format of JSON is:{ “version”: 1, “replicas”: [ { “count”: 2, “constraints”: {“rack”: “east-1”} }, { “count”: 1, “constraints”: {“rack”: “east-2”} } ], “observers”:[ { “count”: 1, “constraints”: {“rack”: “west-1”} } ]}

Type: string
Default: “”
Valid Values: org.apache.kafka.metadata.TopicPlacement$TopicPlacementValidator@134593bf
Server Default Property: null
Importance: low

message.downconversion.enable

This configuration controls whether down-conversion of message formats is enabled to satisfy consume requests. When set to false, broker will not perform down-conversion for consumers expecting an older message format. The broker responds with UNSUPPORTED_VERSION error for consume requests from such older clients. This configurationdoes not apply to any message format conversion that might be required for replication to followers.

Type: boolean
Default: true
Valid Values:  
Server Default Property: log.message.downconversion.enable
Importance: low

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