kafka

package
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Published: Feb 26, 2021 License: Apache-2.0 Imports: 15 Imported by: 0

README

Information for confluent-kafka-go developers

Whenever librdkafka error codes are updated make sure to run generate before building:

  $ make -f mk/Makefile generr
  $ go build ./...

Testing

Some of the tests included in this directory, the benchmark and integration tests in particular, require an existing Kafka cluster and a testconf.json configuration file to provide tests with bootstrap brokers, topic name, etc.

The format of testconf.json is a JSON object:

{
  "Brokers": "<bootstrap-brokers>",
  "Topic": "<test-topic-name>"
}

See testconf-example.json for an example and full set of available options.

To run unit-tests:

$ go test

To run benchmark tests:

$ go test -bench .

For the code coverage:

$ go test -coverprofile=coverage.out -bench=.
$ go tool cover -func=coverage.out

Build tags

Different build types are supported through Go build tags (-tags ..), these tags should be specified on the application build/get/install command.

  • By default the bundled platform-specific static build of librdkafka will be used. This works out of the box on Mac OSX and glibc-based Linux distros, such as Ubuntu and CentOS.
  • -tags musl - must be specified when building on/for musl-based Linux distros, such as Alpine. Will use the bundled static musl build of librdkafka.
  • -tags dynamic - link librdkafka dynamically. A shared librdkafka library must be installed manually through other means (apt-get, yum, build from source, etc).

Generating HTML documentation

To generate one-page HTML documentation run the mk/doc-gen.py script from the top-level directory. This script requires the beautifulsoup4 Python package.

$ source .../your/virtualenv/bin/activate
$ pip install beautifulsoup4
...
$ make -f mk/Makefile docs

Release process

For each release candidate and final release, perform the following steps:

Update bundle to latest librdkafka

See instructions in kafka/librdkafka/README.md.

Update librdkafka version requirement

Update the minimum required librdkafka version in kafka/00version.go and README.md.

Update error codes

Error codes can be automatically generated from the current librdkafka version.

Update generated error codes:

$ make -f mk/Makefile generr
# Verify by building
Rebuild everything
$ go clean -i ./...
$ go build ./...
Run full test suite

Set up a test cluster using whatever mechanism you typically use (docker, trivup, ccloud, ..).

Make sure to update kafka/testconf.json as needed (broker list, $BROKERS)

Run test suite:

$ go test ./...
Verify examples

Manually verify that the examples/ applications work.

Also make sure the examples in README.md work.

Convert any examples using github.com/confluentinc/confluent-kafka-go/kafka to use gopkg.in/confluentinc/confluent-kafka-go.v1/kafka import path.

$ find examples/ -type f -name *\.go -exec sed -i -e 's|github\.com/confluentinc/confluent-kafka-go/kafka|gopkg\.in/confluentinc/confluent-kafka-go\.v1/kafka|g' {} +
Commit any changes

Make sure to push to github before creating the tag to have CI tests pass.

Create and push tag
$ git tag v1.3.0
$ git push --dry-run origin v1.3.0
# Remove --dry-run and re-execute if it looks ok.
Create release notes page on github

Documentation

Overview

Package kafka provides high-level Apache Kafka producer and consumers using bindings on-top of the librdkafka C library.

High-level Consumer

* Decide if you want to read messages and events by calling `.Poll()` or the deprecated option of using the `.Events()` channel. (If you want to use `.Events()` channel then set `"go.events.channel.enable": true`).

* Create a Consumer with `kafka.NewConsumer()` providing at least the `bootstrap.servers` and `group.id` configuration properties.

* Call `.Subscribe()` or (`.SubscribeTopics()` to subscribe to multiple topics) to join the group with the specified subscription set. Subscriptions are atomic, calling `.Subscribe*()` again will leave the group and rejoin with the new set of topics.

* Start reading events and messages from either the `.Events` channel or by calling `.Poll()`.

* When the group has rebalanced each client member is assigned a (sub-)set of topic+partitions. By default the consumer will start fetching messages for its assigned partitions at this point, but your application may enable rebalance events to get an insight into what the assigned partitions where as well as set the initial offsets. To do this you need to pass `"go.application.rebalance.enable": true` to the `NewConsumer()` call mentioned above. You will (eventually) see a `kafka.AssignedPartitions` event with the assigned partition set. You can optionally modify the initial offsets (they'll default to stored offsets and if there are no previously stored offsets it will fall back to `"auto.offset.reset"` which defaults to the `latest` message) and then call `.Assign(partitions)` to start consuming. If you don't need to modify the initial offsets you will not need to call `.Assign()`, the client will do so automatically for you if you dont, unless you are using the channel-based consumer in which case you MUST call `.Assign()` when receiving the `AssignedPartitions` and `RevokedPartitions` events.

* As messages are fetched they will be made available on either the `.Events` channel or by calling `.Poll()`, look for event type `*kafka.Message`.

* Handle messages, events and errors to your liking.

* When you are done consuming call `.Close()` to commit final offsets and leave the consumer group.

Producer

* Create a Producer with `kafka.NewProducer()` providing at least the `bootstrap.servers` configuration properties.

* Messages may now be produced either by sending a `*kafka.Message` on the `.ProduceChannel` or by calling `.Produce()`.

* Producing is an asynchronous operation so the client notifies the application of per-message produce success or failure through something called delivery reports. Delivery reports are by default emitted on the `.Events()` channel as `*kafka.Message` and you should check `msg.TopicPartition.Error` for `nil` to find out if the message was succesfully delivered or not. It is also possible to direct delivery reports to alternate channels by providing a non-nil `chan Event` channel to `.Produce()`. If no delivery reports are wanted they can be completely disabled by setting configuration property `"go.delivery.reports": false`.

* When you are done producing messages you will need to make sure all messages are indeed delivered to the broker (or failed), remember that this is an asynchronous client so some of your messages may be lingering in internal channels or tranmission queues. To do this you can either keep track of the messages you've produced and wait for their corresponding delivery reports, or call the convenience function `.Flush()` that will block until all message deliveries are done or the provided timeout elapses.

* Finally call `.Close()` to decommission the producer.

Transactional producer API

The transactional producer operates on top of the idempotent producer, and provides full exactly-once semantics (EOS) for Apache Kafka when used with the transaction aware consumer (`isolation.level=read_committed`).

A producer instance is configured for transactions by setting the `transactional.id` to an identifier unique for the application. This id will be used to fence stale transactions from previous instances of the application, typically following an outage or crash.

After creating the transactional producer instance using `NewProducer()` the transactional state must be initialized by calling `InitTransactions()`. This is a blocking call that will acquire a runtime producer id from the transaction coordinator broker as well as abort any stale transactions and fence any still running producer instances with the same `transactional.id`.

Once transactions are initialized the application may begin a new transaction by calling `BeginTransaction()`. A producer instance may only have one single on-going transaction.

Any messages produced after the transaction has been started will belong to the ongoing transaction and will be committed or aborted atomically. It is not permitted to produce messages outside a transaction boundary, e.g., before `BeginTransaction()` or after `CommitTransaction()`, `AbortTransaction()` or if the current transaction has failed.

If consumed messages are used as input to the transaction, the consumer instance must be configured with `enable.auto.commit` set to `false`. To commit the consumed offsets along with the transaction pass the list of consumed partitions and the last offset processed + 1 to `SendOffsetsToTransaction()` prior to committing the transaction. This allows an aborted transaction to be restarted using the previously committed offsets.

To commit the produced messages, and any consumed offsets, to the current transaction, call `CommitTransaction()`. This call will block until the transaction has been fully committed or failed (typically due to fencing by a newer producer instance).

Alternatively, if processing fails, or an abortable transaction error is raised, the transaction needs to be aborted by calling `AbortTransaction()` which marks any produced messages and offset commits as aborted.

After the current transaction has been committed or aborted a new transaction may be started by calling `BeginTransaction()` again.

Retriable errors: Some error cases allow the attempted operation to be retried, this is indicated by the error object having the retriable flag set which can be detected by calling `err.(kafka.Error).IsRetriable()`. When this flag is set the application may retry the operation immediately or preferably after a shorter grace period (to avoid busy-looping). Retriable errors include timeouts, broker transport failures, etc.

Abortable errors: An ongoing transaction may fail permanently due to various errors, such as transaction coordinator becoming unavailable, write failures to the Apache Kafka log, under-replicated partitions, etc. At this point the producer application must abort the current transaction using `AbortTransaction()` and optionally start a new transaction by calling `BeginTransaction()`. Whether an error is abortable or not is detected by calling `err.(kafka.Error).TxnRequiresAbort()` on the returned error object.

Fatal errors: While the underlying idempotent producer will typically only raise fatal errors for unrecoverable cluster errors where the idempotency guarantees can't be maintained, most of these are treated as abortable by the transactional producer since transactions may be aborted and retried in their entirety; The transactional producer on the other hand introduces a set of additional fatal errors which the application needs to handle by shutting down the producer and terminate. There is no way for a producer instance to recover from fatal errors. Whether an error is fatal or not is detected by calling `err.(kafka.Error).IsFatal()` on the returned error object or by checking the global `GetFatalError()`.

Handling of other errors: For errors that have neither retriable, abortable or the fatal flag set it is not always obvious how to handle them. While some of these errors may be indicative of bugs in the application code, such as when an invalid parameter is passed to a method, other errors might originate from the broker and be passed thru as-is to the application. The general recommendation is to treat these errors, that have neither the retriable or abortable flags set, as fatal.

Error handling example:

retry:

   err := producer.CommitTransaction(...)
   if err == nil {
       return nil
   } else if err.(kafka.Error).TxnRequiresAbort() {
       do_abort_transaction_and_reset_inputs()
   } else if err.(kafka.Error).IsRetriable() {
       goto retry
   } else { // treat all other errors as fatal errors
       panic(err)
   }

Events

Apart from emitting messages and delivery reports the client also communicates with the application through a number of different event types. An application may choose to handle or ignore these events.

Consumer events

* `*kafka.Message` - a fetched message.

* `AssignedPartitions` - The assigned partition set for this client following a rebalance. Requires `go.application.rebalance.enable`

* `RevokedPartitions` - The counter part to `AssignedPartitions` following a rebalance. `AssignedPartitions` and `RevokedPartitions` are symmetrical. Requires `go.application.rebalance.enable`

* `PartitionEOF` - Consumer has reached the end of a partition. NOTE: The consumer will keep trying to fetch new messages for the partition.

* `OffsetsCommitted` - Offset commit results (when `enable.auto.commit` is enabled).

Producer events

* `*kafka.Message` - delivery report for produced message. Check `.TopicPartition.Error` for delivery result.

Generic events for both Consumer and Producer

* `KafkaError` - client (error codes are prefixed with _) or broker error. These errors are normally just informational since the client will try its best to automatically recover (eventually).

* `OAuthBearerTokenRefresh` - retrieval of a new SASL/OAUTHBEARER token is required. This event only occurs with sasl.mechanism=OAUTHBEARER. Be sure to invoke SetOAuthBearerToken() on the Producer/Consumer/AdminClient instance when a successful token retrieval is completed, otherwise be sure to invoke SetOAuthBearerTokenFailure() to indicate that retrieval failed (or if setting the token failed, which could happen if an extension doesn't meet the required regular expression); invoking SetOAuthBearerTokenFailure() will schedule a new event for 10 seconds later so another retrieval can be attempted.

Hint: If your application registers a signal notification (signal.Notify) makes sure the signals channel is buffered to avoid possible complications with blocking Poll() calls.

Note: The Confluent Kafka Go client is safe for concurrent use.

Index

Constants

View Source
const (
	// ResourceUnknown - Unknown
	ResourceUnknown = ResourceType(C.RD_KAFKA_RESOURCE_UNKNOWN)
	// ResourceAny - match any resource type (DescribeConfigs)
	ResourceAny = ResourceType(C.RD_KAFKA_RESOURCE_ANY)
	// ResourceTopic - Topic
	ResourceTopic = ResourceType(C.RD_KAFKA_RESOURCE_TOPIC)
	// ResourceGroup - Group
	ResourceGroup = ResourceType(C.RD_KAFKA_RESOURCE_GROUP)
	// ResourceBroker - Broker
	ResourceBroker = ResourceType(C.RD_KAFKA_RESOURCE_BROKER)
)
View Source
const (
	// ConfigSourceUnknown is the default value
	ConfigSourceUnknown = ConfigSource(C.RD_KAFKA_CONFIG_SOURCE_UNKNOWN_CONFIG)
	// ConfigSourceDynamicTopic is dynamic topic config that is configured for a specific topic
	ConfigSourceDynamicTopic = ConfigSource(C.RD_KAFKA_CONFIG_SOURCE_DYNAMIC_TOPIC_CONFIG)
	// ConfigSourceDynamicBroker is dynamic broker config that is configured for a specific broker
	ConfigSourceDynamicBroker = ConfigSource(C.RD_KAFKA_CONFIG_SOURCE_DYNAMIC_BROKER_CONFIG)
	// ConfigSourceDynamicDefaultBroker is dynamic broker config that is configured as default for all brokers in the cluster
	ConfigSourceDynamicDefaultBroker = ConfigSource(C.RD_KAFKA_CONFIG_SOURCE_DYNAMIC_DEFAULT_BROKER_CONFIG)
	// ConfigSourceStaticBroker is static broker config provided as broker properties at startup (e.g. from server.properties file)
	ConfigSourceStaticBroker = ConfigSource(C.RD_KAFKA_CONFIG_SOURCE_STATIC_BROKER_CONFIG)
	// ConfigSourceDefault is built-in default configuration for configs that have a default value
	ConfigSourceDefault = ConfigSource(C.RD_KAFKA_CONFIG_SOURCE_DEFAULT_CONFIG)
)
View Source
const (
	// TimestampNotAvailable indicates no timestamp was set, or not available due to lacking broker support
	TimestampNotAvailable = TimestampType(C.RD_KAFKA_TIMESTAMP_NOT_AVAILABLE)
	// TimestampCreateTime indicates timestamp set by producer (source time)
	TimestampCreateTime = TimestampType(C.RD_KAFKA_TIMESTAMP_CREATE_TIME)
	// TimestampLogAppendTime indicates timestamp set set by broker (store time)
	TimestampLogAppendTime = TimestampType(C.RD_KAFKA_TIMESTAMP_LOG_APPEND_TIME)
)
View Source
const (
	// PurgeInFlight purges messages in-flight to or from the broker.
	// Purging these messages will void any future acknowledgements from the
	// broker, making it impossible for the application to know if these
	// messages were successfully delivered or not.
	// Retrying these messages may lead to duplicates.
	PurgeInFlight = int(C.RD_KAFKA_PURGE_F_INFLIGHT)

	// PurgeQueue Purge messages in internal queues.
	PurgeQueue = int(C.RD_KAFKA_PURGE_F_QUEUE)

	// PurgeNonBlocking Don't wait for background thread queue purging to finish.
	PurgeNonBlocking = int(C.RD_KAFKA_PURGE_F_NON_BLOCKING)
)
View Source
const (
	// AlterOperationSet sets/overwrites the configuration setting.
	AlterOperationSet = iota
)
View Source
const LibrdkafkaLinkInfo = "static glibc_linux from librdkafka-static-bundle-v1.6.1.tgz"

LibrdkafkaLinkInfo explains how librdkafka was linked to the Go client

View Source
const OffsetBeginning = Offset(C.RD_KAFKA_OFFSET_BEGINNING)

OffsetBeginning represents the earliest offset (logical)

OffsetEnd represents the latest offset (logical)

View Source
const OffsetInvalid = Offset(C.RD_KAFKA_OFFSET_INVALID)

OffsetInvalid represents an invalid/unspecified offset

View Source
const OffsetStored = Offset(C.RD_KAFKA_OFFSET_STORED)

OffsetStored represents a stored offset

View Source
const PartitionAny = int32(C.RD_KAFKA_PARTITION_UA)

PartitionAny represents any partition (for partitioning), or unspecified value (for all other cases)

Variables

This section is empty.

Functions

func LibraryVersion

func LibraryVersion() (int, string)

LibraryVersion returns the underlying librdkafka library version as a (version_int, version_str) tuple.

func WriteErrorCodes

func WriteErrorCodes(f *os.File)

WriteErrorCodes writes Go error code constants to file from the librdkafka error codes. This function is not intended for public use.

Types

type AdminClient

type AdminClient struct {
	// contains filtered or unexported fields
}

AdminClient is derived from an existing Producer or Consumer

func NewAdminClient

func NewAdminClient(conf *ConfigMap) (*AdminClient, error)

NewAdminClient creats a new AdminClient instance with a new underlying client instance

func NewAdminClientFromConsumer

func NewAdminClientFromConsumer(c *Consumer) (a *AdminClient, err error)

NewAdminClientFromConsumer derives a new AdminClient from an existing Consumer instance. The AdminClient will use the same configuration and connections as the parent instance.

func NewAdminClientFromProducer

func NewAdminClientFromProducer(p *Producer) (a *AdminClient, err error)

NewAdminClientFromProducer derives a new AdminClient from an existing Producer instance. The AdminClient will use the same configuration and connections as the parent instance.

func (*AdminClient) AlterConfigs

func (a *AdminClient) AlterConfigs(ctx context.Context, resources []ConfigResource, options ...AlterConfigsAdminOption) (result []ConfigResourceResult, err error)

AlterConfigs alters/updates cluster resource configuration.

Updates are not transactional so they may succeed for a subset of the provided resources while others fail. The configuration for a particular resource is updated atomically, replacing values using the provided ConfigEntrys and reverting unspecified ConfigEntrys to their default values.

Requires broker version >=0.11.0.0

AlterConfigs will replace all existing configuration for the provided resources with the new configuration given, reverting all other configuration to their default values.

Multiple resources and resource types may be set, but at most one resource of type ResourceBroker is allowed per call since these resource requests must be sent to the broker specified in the resource.

func (*AdminClient) Close

func (a *AdminClient) Close()

Close an AdminClient instance.

func (*AdminClient) ClusterID

func (a *AdminClient) ClusterID(ctx context.Context) (clusterID string, err error)

ClusterID returns the cluster ID as reported in broker metadata.

Note on cancellation: Although the underlying C function respects the timeout, it currently cannot be manually cancelled. That means manually cancelling the context will block until the C function call returns.

Requires broker version >= 0.10.0.

func (*AdminClient) ControllerID

func (a *AdminClient) ControllerID(ctx context.Context) (controllerID int32, err error)

ControllerID returns the broker ID of the current controller as reported in broker metadata.

Note on cancellation: Although the underlying C function respects the timeout, it currently cannot be manually cancelled. That means manually cancelling the context will block until the C function call returns.

Requires broker version >= 0.10.0.

func (*AdminClient) CreatePartitions

func (a *AdminClient) CreatePartitions(ctx context.Context, partitions []PartitionsSpecification, options ...CreatePartitionsAdminOption) (result []TopicResult, err error)

CreatePartitions creates additional partitions for topics.

func (*AdminClient) CreateTopics

func (a *AdminClient) CreateTopics(ctx context.Context, topics []TopicSpecification, options ...CreateTopicsAdminOption) (result []TopicResult, err error)

CreateTopics creates topics in cluster.

The list of TopicSpecification objects define the per-topic partition count, replicas, etc.

Topic creation is non-atomic and may succeed for some topics but fail for others, make sure to check the result for topic-specific errors.

Note: TopicSpecification is analogous to NewTopic in the Java Topic Admin API.

func (*AdminClient) DeleteTopics

func (a *AdminClient) DeleteTopics(ctx context.Context, topics []string, options ...DeleteTopicsAdminOption) (result []TopicResult, err error)

DeleteTopics deletes a batch of topics.

This operation is not transactional and may succeed for a subset of topics while failing others. It may take several seconds after the DeleteTopics result returns success for all the brokers to become aware that the topics are gone. During this time, topic metadata and configuration may continue to return information about deleted topics.

Requires broker version >= 0.10.1.0

func (*AdminClient) DescribeConfigs

func (a *AdminClient) DescribeConfigs(ctx context.Context, resources []ConfigResource, options ...DescribeConfigsAdminOption) (result []ConfigResourceResult, err error)

DescribeConfigs retrieves configuration for cluster resources.

The returned configuration includes default values, use ConfigEntryResult.IsDefault or ConfigEntryResult.Source to distinguish default values from manually configured settings.

The value of config entries where .IsSensitive is true will always be nil to avoid disclosing sensitive information, such as security settings.

Configuration entries where .IsReadOnly is true can't be modified (with AlterConfigs).

Synonym configuration entries are returned if the broker supports it (broker version >= 1.1.0). See .Synonyms.

Requires broker version >=0.11.0.0

Multiple resources and resource types may be requested, but at most one resource of type ResourceBroker is allowed per call since these resource requests must be sent to the broker specified in the resource.

func (*AdminClient) GetMetadata

func (a *AdminClient) GetMetadata(topic *string, allTopics bool, timeoutMs int) (*Metadata, error)

GetMetadata queries broker for cluster and topic metadata. If topic is non-nil only information about that topic is returned, else if allTopics is false only information about locally used topics is returned, else information about all topics is returned. GetMetadata is equivalent to listTopics, describeTopics and describeCluster in the Java API.

func (*AdminClient) SetOAuthBearerToken

func (a *AdminClient) SetOAuthBearerToken(oauthBearerToken OAuthBearerToken) error

SetOAuthBearerToken sets the the data to be transmitted to a broker during SASL/OAUTHBEARER authentication. It will return nil on success, otherwise an error if: 1) the token data is invalid (meaning an expiration time in the past or either a token value or an extension key or value that does not meet the regular expression requirements as per https://tools.ietf.org/html/rfc7628#section-3.1); 2) SASL/OAUTHBEARER is not supported by the underlying librdkafka build; 3) SASL/OAUTHBEARER is supported but is not configured as the client's authentication mechanism.

func (*AdminClient) SetOAuthBearerTokenFailure

func (a *AdminClient) SetOAuthBearerTokenFailure(errstr string) error

SetOAuthBearerTokenFailure sets the error message describing why token retrieval/setting failed; it also schedules a new token refresh event for 10 seconds later so the attempt may be retried. It will return nil on success, otherwise an error if: 1) SASL/OAUTHBEARER is not supported by the underlying librdkafka build; 2) SASL/OAUTHBEARER is supported but is not configured as the client's authentication mechanism.

func (*AdminClient) String

func (a *AdminClient) String() string

String returns a human readable name for an AdminClient instance

type AdminOption

type AdminOption interface {
	// contains filtered or unexported methods
}

AdminOption is a generic type not to be used directly.

See CreateTopicsAdminOption et.al.

type AdminOptionOperationTimeout

type AdminOptionOperationTimeout struct {
	// contains filtered or unexported fields
}

AdminOptionOperationTimeout sets the broker's operation timeout, such as the timeout for CreateTopics to complete the creation of topics on the controller before returning a result to the application.

CreateTopics, DeleteTopics, CreatePartitions: a value 0 will return immediately after triggering topic creation, while > 0 will wait this long for topic creation to propagate in cluster.

Default: 0 (return immediately).

Valid for CreateTopics, DeleteTopics, CreatePartitions.

func SetAdminOperationTimeout

func SetAdminOperationTimeout(t time.Duration) (ao AdminOptionOperationTimeout)

SetAdminOperationTimeout sets the broker's operation timeout, such as the timeout for CreateTopics to complete the creation of topics on the controller before returning a result to the application.

CreateTopics, DeleteTopics, CreatePartitions: a value 0 will return immediately after triggering topic creation, while > 0 will wait this long for topic creation to propagate in cluster.

Default: 0 (return immediately).

Valid for CreateTopics, DeleteTopics, CreatePartitions.

type AdminOptionRequestTimeout

type AdminOptionRequestTimeout struct {
	// contains filtered or unexported fields
}

AdminOptionRequestTimeout sets the overall request timeout, including broker lookup, request transmission, operation time on broker, and response.

Default: `socket.timeout.ms`.

Valid for all Admin API methods.

func SetAdminRequestTimeout

func SetAdminRequestTimeout(t time.Duration) (ao AdminOptionRequestTimeout)

SetAdminRequestTimeout sets the overall request timeout, including broker lookup, request transmission, operation time on broker, and response.

Default: `socket.timeout.ms`.

Valid for all Admin API methods.

type AdminOptionValidateOnly

type AdminOptionValidateOnly struct {
	// contains filtered or unexported fields
}

AdminOptionValidateOnly tells the broker to only validate the request, without performing the requested operation (create topics, etc).

Default: false.

Valid for CreateTopics, CreatePartitions, AlterConfigs

func SetAdminValidateOnly

func SetAdminValidateOnly(validateOnly bool) (ao AdminOptionValidateOnly)

SetAdminValidateOnly tells the broker to only validate the request, without performing the requested operation (create topics, etc).

Default: false.

Valid for CreateTopics, DeleteTopics, CreatePartitions, AlterConfigs

type AlterConfigsAdminOption

type AlterConfigsAdminOption interface {
	// contains filtered or unexported methods
}

AlterConfigsAdminOption - see setters.

See SetAdminRequestTimeout, SetAdminValidateOnly, SetAdminIncremental.

type AlterOperation

type AlterOperation int

AlterOperation specifies the operation to perform on the ConfigEntry. Currently only AlterOperationSet.

func (AlterOperation) String

func (o AlterOperation) String() string

String returns the human-readable representation of an AlterOperation

type AssignedPartitions

type AssignedPartitions struct {
	Partitions []TopicPartition
}

AssignedPartitions consumer group rebalance event: assigned partition set

func (AssignedPartitions) String

func (e AssignedPartitions) String() string

type BrokerMetadata

type BrokerMetadata struct {
	ID   int32
	Host string
	Port int
}

BrokerMetadata contains per-broker metadata

type ConfigEntry

type ConfigEntry struct {
	// Name of configuration entry, e.g., topic configuration property name.
	Name string
	// Value of configuration entry.
	Value string
	// Operation to perform on the entry.
	Operation AlterOperation
}

ConfigEntry holds parameters for altering a resource's configuration.

func StringMapToConfigEntries

func StringMapToConfigEntries(stringMap map[string]string, operation AlterOperation) []ConfigEntry

StringMapToConfigEntries creates a new map of ConfigEntry objects from the provided string map. The AlterOperation is set on each created entry.

func (ConfigEntry) String

func (c ConfigEntry) String() string

String returns a human-readable representation of a ConfigEntry.

type ConfigEntryResult

type ConfigEntryResult struct {
	// Name of configuration entry, e.g., topic configuration property name.
	Name string
	// Value of configuration entry.
	Value string
	// Source indicates the configuration source.
	Source ConfigSource
	// IsReadOnly indicates whether the configuration entry can be altered.
	IsReadOnly bool
	// IsSensitive indicates whether the configuration entry contains sensitive information, in which case the value will be unset.
	IsSensitive bool
	// IsSynonym indicates whether the configuration entry is a synonym for another configuration property.
	IsSynonym bool
	// Synonyms contains a map of configuration entries that are synonyms to this configuration entry.
	Synonyms map[string]ConfigEntryResult
}

ConfigEntryResult contains the result of a single configuration entry from a DescribeConfigs request.

func (ConfigEntryResult) String

func (c ConfigEntryResult) String() string

String returns a human-readable representation of a ConfigEntryResult.

type ConfigMap

type ConfigMap map[string]ConfigValue

ConfigMap is a map containing standard librdkafka configuration properties as documented in: https://github.com/edenhill/librdkafka/tree/master/CONFIGURATION.md

The special property "default.topic.config" (optional) is a ConfigMap containing default topic configuration properties.

The use of "default.topic.config" is deprecated, topic configuration properties shall be specified in the standard ConfigMap. For backwards compatibility, "default.topic.config" (if supplied) takes precedence.

func (ConfigMap) Get

func (m ConfigMap) Get(key string, defval ConfigValue) (ConfigValue, error)

Get finds the given key in the ConfigMap and returns its value. If the key is not found `defval` is returned. If the key is found but the type does not match that of `defval` (unless nil) an ErrInvalidArg error is returned.

func (ConfigMap) Set

func (m ConfigMap) Set(kv string) error

Set implements flag.Set (command line argument parser) as a convenience for `-X key=value` config.

func (ConfigMap) SetKey

func (m ConfigMap) SetKey(key string, value ConfigValue) error

SetKey sets configuration property key to value.

For user convenience a key prefixed with {topic}. will be set on the "default.topic.config" sub-map, this use is deprecated.

type ConfigResource

type ConfigResource struct {
	// Type of resource to set.
	Type ResourceType
	// Name of resource to set.
	Name string
	// Config entries to set.
	// Configuration updates are atomic, any configuration property not provided
	// here will be reverted (by the broker) to its default value.
	// Use DescribeConfigs to retrieve the list of current configuration entry values.
	Config []ConfigEntry
}

ConfigResource holds parameters for altering an Apache Kafka configuration resource

func (ConfigResource) String

func (c ConfigResource) String() string

String returns a human-readable representation of a ConfigResource

type ConfigResourceResult

type ConfigResourceResult struct {
	// Type of returned result resource.
	Type ResourceType
	// Name of returned result resource.
	Name string
	// Error, if any, of returned result resource.
	Error Error
	// Config entries, if any, of returned result resource.
	Config map[string]ConfigEntryResult
}

ConfigResourceResult provides the result for a resource from a AlterConfigs or DescribeConfigs request.

func (ConfigResourceResult) String

func (c ConfigResourceResult) String() string

String returns a human-readable representation of a ConfigResourceResult.

type ConfigSource

type ConfigSource int

ConfigSource represents an Apache Kafka config source

func (ConfigSource) String

func (t ConfigSource) String() string

String returns the human-readable representation of a ConfigSource type

type ConfigValue

type ConfigValue interface{}

ConfigValue supports the following types:

bool, int, string, any type with the standard String() interface

type Consumer

type Consumer struct {
	// contains filtered or unexported fields
}

Consumer implements a High-level Apache Kafka Consumer instance

func NewConsumer

func NewConsumer(conf *ConfigMap) (*Consumer, error)

NewConsumer creates a new high-level Consumer instance.

conf is a *ConfigMap with standard librdkafka configuration properties.

Supported special configuration properties:

go.application.rebalance.enable (bool, false) - Forward rebalancing responsibility to application via the Events() channel.
                                     If set to true the app must handle the AssignedPartitions and
                                     RevokedPartitions events and call Assign() and Unassign()
                                     respectively.
go.events.channel.enable (bool, false) - [deprecated] Enable the Events() channel. Messages and events will be pushed on the Events() channel and the Poll() interface will be disabled.
go.events.channel.size (int, 1000) - Events() channel size
go.logs.channel.enable (bool, false) - Forward log to Logs() channel.
go.logs.channel (chan kafka.LogEvent, nil) - Forward logs to application-provided channel instead of Logs(). Requires go.logs.channel.enable=true.

WARNING: Due to the buffering nature of channels (and queues in general) the use of the events channel risks receiving outdated events and messages. Minimizing go.events.channel.size reduces the risk and number of outdated events and messages but does not eliminate the factor completely. With a channel size of 1 at most one event or message may be outdated.

func (*Consumer) Assign

func (c *Consumer) Assign(partitions []TopicPartition) (err error)

Assign an atomic set of partitions to consume.

The .Offset field of each TopicPartition must either be set to an absolute starting offset (>= 0), or one of the logical offsets (`kafka.OffsetEnd` etc), but should typically be set to `kafka.OffsetStored` to have the consumer use the committed offset as a start position, with a fallback to `auto.offset.reset` if there is no committed offset.

This replaces the current assignment.

func (*Consumer) Assignment

func (c *Consumer) Assignment() (partitions []TopicPartition, err error)

Assignment returns the current partition assignments

func (*Consumer) AssignmentLost

func (c *Consumer) AssignmentLost() bool

AssignmentLost returns true if current partition assignment has been lost. This method is only applicable for use with a subscribing consumer when handling a rebalance event or callback. Partitions that have been lost may already be owned by other members in the group and therefore commiting offsets, for example, may fail.

func (*Consumer) Close

func (c *Consumer) Close() (err error)

Close Consumer instance. The object is no longer usable after this call.

func (*Consumer) Commit

func (c *Consumer) Commit() ([]TopicPartition, error)

Commit offsets for currently assigned partitions This is a blocking call. Returns the committed offsets on success.

func (*Consumer) CommitMessage

func (c *Consumer) CommitMessage(m *Message) ([]TopicPartition, error)

CommitMessage commits offset based on the provided message. This is a blocking call. Returns the committed offsets on success.

func (*Consumer) CommitOffsets

func (c *Consumer) CommitOffsets(offsets []TopicPartition) ([]TopicPartition, error)

CommitOffsets commits the provided list of offsets This is a blocking call. Returns the committed offsets on success.

func (*Consumer) Committed

func (c *Consumer) Committed(partitions []TopicPartition, timeoutMs int) (offsets []TopicPartition, err error)

Committed retrieves committed offsets for the given set of partitions

func (*Consumer) Events

func (c *Consumer) Events() chan Event

Events returns the Events channel (if enabled)

func (*Consumer) GetConsumerGroupMetadata

func (c *Consumer) GetConsumerGroupMetadata() (*ConsumerGroupMetadata, error)

GetConsumerGroupMetadata returns the consumer's current group metadata. This object should be passed to the transactional producer's SendOffsetsToTransaction() API.

func (*Consumer) GetMetadata

func (c *Consumer) GetMetadata(topic *string, allTopics bool, timeoutMs int) (*Metadata, error)

GetMetadata queries broker for cluster and topic metadata. If topic is non-nil only information about that topic is returned, else if allTopics is false only information about locally used topics is returned, else information about all topics is returned. GetMetadata is equivalent to listTopics, describeTopics and describeCluster in the Java API.

func (*Consumer) GetRebalanceProtocol

func (c *Consumer) GetRebalanceProtocol() string

GetRebalanceProtocol returns the current consumer group rebalance protocol, which is either "EAGER" or "COOPERATIVE". If the rebalance protocol is not known in the current state an empty string is returned. Should typically only be called during rebalancing.

func (*Consumer) GetWatermarkOffsets

func (c *Consumer) GetWatermarkOffsets(topic string, partition int32) (low, high int64, err error)

GetWatermarkOffsets returns the cached low and high offsets for the given topic and partition. The high offset is populated on every fetch response or via calling QueryWatermarkOffsets. The low offset is populated every statistics.interval.ms if that value is set. OffsetInvalid will be returned if there is no cached offset for either value.

func (*Consumer) IncrementalAssign

func (c *Consumer) IncrementalAssign(partitions []TopicPartition) (err error)

IncrementalAssign adds the specified partitions to the current set of partitions to consume.

The .Offset field of each TopicPartition must either be set to an absolute starting offset (>= 0), or one of the logical offsets (`kafka.OffsetEnd` etc), but should typically be set to `kafka.OffsetStored` to have the consumer use the committed offset as a start position, with a fallback to `auto.offset.reset` if there is no committed offset.

The new partitions must not be part of the current assignment.

func (*Consumer) IncrementalUnassign

func (c *Consumer) IncrementalUnassign(partitions []TopicPartition) (err error)

IncrementalUnassign removes the specified partitions from the current set of partitions to consume.

The .Offset field of the TopicPartition is ignored.

The removed partitions must be part of the current assignment.

func (*Consumer) Logs

func (c *Consumer) Logs() chan LogEvent

Logs returns the log channel if enabled, or nil otherwise.

func (*Consumer) OffsetsForTimes

func (c *Consumer) OffsetsForTimes(times []TopicPartition, timeoutMs int) (offsets []TopicPartition, err error)

OffsetsForTimes looks up offsets by timestamp for the given partitions.

The returned offset for each partition is the earliest offset whose timestamp is greater than or equal to the given timestamp in the corresponding partition. If the provided timestamp exceeds that of the last message in the partition, a value of -1 will be returned.

The timestamps to query are represented as `.Offset` in the `times` argument and the looked up offsets are represented as `.Offset` in the returned `offsets` list.

The function will block for at most timeoutMs milliseconds.

Duplicate Topic+Partitions are not supported. Per-partition errors may be returned in the `.Error` field.

func (*Consumer) Pause

func (c *Consumer) Pause(partitions []TopicPartition) (err error)

Pause consumption for the provided list of partitions

Note that messages already enqueued on the consumer's Event channel (if `go.events.channel.enable` has been set) will NOT be purged by this call, set `go.events.channel.size` accordingly.

func (*Consumer) Poll

func (c *Consumer) Poll(timeoutMs int) (event Event)

Poll the consumer for messages or events.

Will block for at most timeoutMs milliseconds

The following callbacks may be triggered:

Subscribe()'s rebalanceCb

Returns nil on timeout, else an Event

func (*Consumer) Position

func (c *Consumer) Position(partitions []TopicPartition) (offsets []TopicPartition, err error)

Position returns the current consume position for the given partitions. Typical use is to call Assignment() to get the partition list and then pass it to Position() to get the current consume position for each of the assigned partitions. The consume position is the next message to read from the partition. i.e., the offset of the last message seen by the application + 1.

func (*Consumer) QueryWatermarkOffsets

func (c *Consumer) QueryWatermarkOffsets(topic string, partition int32, timeoutMs int) (low, high int64, err error)

QueryWatermarkOffsets queries the broker for the low and high offsets for the given topic and partition.

func (*Consumer) ReadMessage

func (c *Consumer) ReadMessage(timeout time.Duration) (*Message, error)

ReadMessage polls the consumer for a message.

This is a convenience API that wraps Poll() and only returns messages or errors. All other event types are discarded.

The call will block for at most `timeout` waiting for a new message or error. `timeout` may be set to -1 for indefinite wait.

Timeout is returned as (nil, err) where err is `err.(kafka.Error).Code() == kafka.ErrTimedOut`.

Messages are returned as (msg, nil), while general errors are returned as (nil, err), and partition-specific errors are returned as (msg, err) where msg.TopicPartition provides partition-specific information (such as topic, partition and offset).

All other event types, such as PartitionEOF, AssignedPartitions, etc, are silently discarded.

func (*Consumer) Resume

func (c *Consumer) Resume(partitions []TopicPartition) (err error)

Resume consumption for the provided list of partitions

func (*Consumer) Seek

func (c *Consumer) Seek(partition TopicPartition, timeoutMs int) error

Seek seeks the given topic partitions using the offset from the TopicPartition.

If timeoutMs is not 0 the call will wait this long for the seek to be performed. If the timeout is reached the internal state will be unknown and this function returns ErrTimedOut. If timeoutMs is 0 it will initiate the seek but return immediately without any error reporting (e.g., async).

Seek() may only be used for partitions already being consumed (through Assign() or implicitly through a self-rebalanced Subscribe()). To set the starting offset it is preferred to use Assign() and provide a starting offset for each partition.

Returns an error on failure or nil otherwise.

func (*Consumer) SetOAuthBearerToken

func (c *Consumer) SetOAuthBearerToken(oauthBearerToken OAuthBearerToken) error

SetOAuthBearerToken sets the the data to be transmitted to a broker during SASL/OAUTHBEARER authentication. It will return nil on success, otherwise an error if: 1) the token data is invalid (meaning an expiration time in the past or either a token value or an extension key or value that does not meet the regular expression requirements as per https://tools.ietf.org/html/rfc7628#section-3.1); 2) SASL/OAUTHBEARER is not supported by the underlying librdkafka build; 3) SASL/OAUTHBEARER is supported but is not configured as the client's authentication mechanism.

func (*Consumer) SetOAuthBearerTokenFailure

func (c *Consumer) SetOAuthBearerTokenFailure(errstr string) error

SetOAuthBearerTokenFailure sets the error message describing why token retrieval/setting failed; it also schedules a new token refresh event for 10 seconds later so the attempt may be retried. It will return nil on success, otherwise an error if: 1) SASL/OAUTHBEARER is not supported by the underlying librdkafka build; 2) SASL/OAUTHBEARER is supported but is not configured as the client's authentication mechanism.

func (*Consumer) StoreOffsets

func (c *Consumer) StoreOffsets(offsets []TopicPartition) (storedOffsets []TopicPartition, err error)

StoreOffsets stores the provided list of offsets that will be committed to the offset store according to `auto.commit.interval.ms` or manual offset-less Commit().

Returns the stored offsets on success. If at least one offset couldn't be stored, an error and a list of offsets is returned. Each offset can be checked for specific errors via its `.Error` member.

func (*Consumer) String

func (c *Consumer) String() string

Strings returns a human readable name for a Consumer instance

func (*Consumer) Subscribe

func (c *Consumer) Subscribe(topic string, rebalanceCb RebalanceCb) error

Subscribe to a single topic This replaces the current subscription

func (*Consumer) SubscribeTopics

func (c *Consumer) SubscribeTopics(topics []string, rebalanceCb RebalanceCb) (err error)

SubscribeTopics subscribes to the provided list of topics. This replaces the current subscription.

func (*Consumer) Subscription

func (c *Consumer) Subscription() (topics []string, err error)

Subscription returns the current subscription as set by Subscribe()

func (*Consumer) Unassign

func (c *Consumer) Unassign() (err error)

Unassign the current set of partitions to consume.

func (*Consumer) Unsubscribe

func (c *Consumer) Unsubscribe() (err error)

Unsubscribe from the current subscription, if any.

type ConsumerGroupMetadata

type ConsumerGroupMetadata struct {
	// contains filtered or unexported fields
}

ConsumerGroupMetadata reflects the current consumer group member metadata.

func NewTestConsumerGroupMetadata

func NewTestConsumerGroupMetadata(groupID string) (*ConsumerGroupMetadata, error)

NewTestConsumerGroupMetadata creates a new consumer group metadata instance mainly for testing use. Use GetConsumerGroupMetadata() to retrieve the real metadata.

type CreatePartitionsAdminOption

type CreatePartitionsAdminOption interface {
	// contains filtered or unexported methods
}

CreatePartitionsAdminOption - see setters.

See SetAdminRequestTimeout, SetAdminOperationTimeout, SetAdminValidateOnly.

type CreateTopicsAdminOption

type CreateTopicsAdminOption interface {
	// contains filtered or unexported methods
}

CreateTopicsAdminOption - see setters.

See SetAdminRequestTimeout, SetAdminOperationTimeout, SetAdminValidateOnly.

type DeleteTopicsAdminOption

type DeleteTopicsAdminOption interface {
	// contains filtered or unexported methods
}

DeleteTopicsAdminOption - see setters.

See SetAdminRequestTimeout, SetAdminOperationTimeout.

type DescribeConfigsAdminOption

type DescribeConfigsAdminOption interface {
	// contains filtered or unexported methods
}

DescribeConfigsAdminOption - see setters.

See SetAdminRequestTimeout.

type Error

type Error struct {
	// contains filtered or unexported fields
}

Error provides a Kafka-specific error container

func NewError

func NewError(code ErrorCode, str string, fatal bool) (err Error)

NewError creates a new Error.

func (Error) Code

func (e Error) Code() ErrorCode

Code returns the ErrorCode of an Error

func (Error) Error

func (e Error) Error() string

Error returns a human readable representation of an Error Same as Error.String()

func (Error) IsFatal

func (e Error) IsFatal() bool

IsFatal returns true if the error is a fatal error. A fatal error indicates the client instance is no longer operable and should be terminated. Typical causes include non-recoverable idempotent producer errors.

func (Error) IsRetriable

func (e Error) IsRetriable() bool

IsRetriable returns true if the operation that caused this error may be retried. This flag is currently only set by the Transactional producer API.

func (Error) String

func (e Error) String() string

String returns a human readable representation of an Error

func (Error) TxnRequiresAbort

func (e Error) TxnRequiresAbort() bool

TxnRequiresAbort returns true if the error is an abortable transaction error that requires the application to abort the current transaction with AbortTransaction() and start a new transaction with BeginTransaction() if it wishes to proceed with transactional operations. This flag is only set by the Transactional producer API.

type ErrorCode

type ErrorCode int

ErrorCode is the integer representation of local and broker error codes

const (
	// ErrBadMsg Local: Bad message format
	ErrBadMsg ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__BAD_MSG)
	// ErrBadCompression Local: Invalid compressed data
	ErrBadCompression ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__BAD_COMPRESSION)
	// ErrDestroy Local: Broker handle destroyed
	ErrDestroy ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__DESTROY)
	// ErrFail Local: Communication failure with broker
	ErrFail ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__FAIL)
	// ErrTransport Local: Broker transport failure
	ErrTransport ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__TRANSPORT)
	// ErrCritSysResource Local: Critical system resource failure
	ErrCritSysResource ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__CRIT_SYS_RESOURCE)
	// ErrResolve Local: Host resolution failure
	ErrResolve ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__RESOLVE)
	// ErrMsgTimedOut Local: Message timed out
	ErrMsgTimedOut ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__MSG_TIMED_OUT)
	// ErrPartitionEOF Broker: No more messages
	ErrPartitionEOF ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__PARTITION_EOF)
	// ErrUnknownPartition Local: Unknown partition
	ErrUnknownPartition ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNKNOWN_PARTITION)
	// ErrFs Local: File or filesystem error
	ErrFs ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__FS)
	// ErrUnknownTopic Local: Unknown topic
	ErrUnknownTopic ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNKNOWN_TOPIC)
	// ErrAllBrokersDown Local: All broker connections are down
	ErrAllBrokersDown ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__ALL_BROKERS_DOWN)
	// ErrInvalidArg Local: Invalid argument or configuration
	ErrInvalidArg ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__INVALID_ARG)
	// ErrTimedOut Local: Timed out
	ErrTimedOut ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__TIMED_OUT)
	// ErrQueueFull Local: Queue full
	ErrQueueFull ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__QUEUE_FULL)
	// ErrIsrInsuff Local: ISR count insufficient
	ErrIsrInsuff ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__ISR_INSUFF)
	// ErrNodeUpdate Local: Broker node update
	ErrNodeUpdate ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__NODE_UPDATE)
	// ErrSsl Local: SSL error
	ErrSsl ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__SSL)
	// ErrWaitCoord Local: Waiting for coordinator
	ErrWaitCoord ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__WAIT_COORD)
	// ErrUnknownGroup Local: Unknown group
	ErrUnknownGroup ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNKNOWN_GROUP)
	// ErrInProgress Local: Operation in progress
	ErrInProgress ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__IN_PROGRESS)
	// ErrPrevInProgress Local: Previous operation in progress
	ErrPrevInProgress ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__PREV_IN_PROGRESS)
	// ErrExistingSubscription Local: Existing subscription
	ErrExistingSubscription ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__EXISTING_SUBSCRIPTION)
	// ErrAssignPartitions Local: Assign partitions
	ErrAssignPartitions ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__ASSIGN_PARTITIONS)
	// ErrRevokePartitions Local: Revoke partitions
	ErrRevokePartitions ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__REVOKE_PARTITIONS)
	// ErrConflict Local: Conflicting use
	ErrConflict ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__CONFLICT)
	// ErrState Local: Erroneous state
	ErrState ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__STATE)
	// ErrUnknownProtocol Local: Unknown protocol
	ErrUnknownProtocol ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNKNOWN_PROTOCOL)
	// ErrNotImplemented Local: Not implemented
	ErrNotImplemented ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__NOT_IMPLEMENTED)
	// ErrAuthentication Local: Authentication failure
	ErrAuthentication ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__AUTHENTICATION)
	// ErrNoOffset Local: No offset stored
	ErrNoOffset ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__NO_OFFSET)
	// ErrOutdated Local: Outdated
	ErrOutdated ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__OUTDATED)
	// ErrTimedOutQueue Local: Timed out in queue
	ErrTimedOutQueue ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__TIMED_OUT_QUEUE)
	// ErrUnsupportedFeature Local: Required feature not supported by broker
	ErrUnsupportedFeature ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNSUPPORTED_FEATURE)
	// ErrWaitCache Local: Awaiting cache update
	ErrWaitCache ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__WAIT_CACHE)
	// ErrIntr Local: Operation interrupted
	ErrIntr ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__INTR)
	// ErrKeySerialization Local: Key serialization error
	ErrKeySerialization ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__KEY_SERIALIZATION)
	// ErrValueSerialization Local: Value serialization error
	ErrValueSerialization ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__VALUE_SERIALIZATION)
	// ErrKeyDeserialization Local: Key deserialization error
	ErrKeyDeserialization ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__KEY_DESERIALIZATION)
	// ErrValueDeserialization Local: Value deserialization error
	ErrValueDeserialization ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__VALUE_DESERIALIZATION)
	// ErrPartial Local: Partial response
	ErrPartial ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__PARTIAL)
	// ErrReadOnly Local: Read-only object
	ErrReadOnly ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__READ_ONLY)
	// ErrNoent Local: No such entry
	ErrNoent ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__NOENT)
	// ErrUnderflow Local: Read underflow
	ErrUnderflow ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNDERFLOW)
	// ErrInvalidType Local: Invalid type
	ErrInvalidType ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__INVALID_TYPE)
	// ErrRetry Local: Retry operation
	ErrRetry ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__RETRY)
	// ErrPurgeQueue Local: Purged in queue
	ErrPurgeQueue ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__PURGE_QUEUE)
	// ErrPurgeInflight Local: Purged in flight
	ErrPurgeInflight ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__PURGE_INFLIGHT)
	// ErrFatal Local: Fatal error
	ErrFatal ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__FATAL)
	// ErrInconsistent Local: Inconsistent state
	ErrInconsistent ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__INCONSISTENT)
	// ErrGaplessGuarantee Local: Gap-less ordering would not be guaranteed if proceeding
	ErrGaplessGuarantee ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__GAPLESS_GUARANTEE)
	// ErrMaxPollExceeded Local: Maximum application poll interval (max.poll.interval.ms) exceeded
	ErrMaxPollExceeded ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__MAX_POLL_EXCEEDED)
	// ErrUnknownBroker Local: Unknown broker
	ErrUnknownBroker ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__UNKNOWN_BROKER)
	// ErrNotConfigured Local: Functionality not configured
	ErrNotConfigured ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__NOT_CONFIGURED)
	// ErrFenced Local: This instance has been fenced by a newer instance
	ErrFenced ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__FENCED)
	// ErrApplication Local: Application generated error
	ErrApplication ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__APPLICATION)
	// ErrAssignmentLost Local: Group partition assignment lost
	ErrAssignmentLost ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__ASSIGNMENT_LOST)
	// ErrNoop Local: No operation performed
	ErrNoop ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__NOOP)
	// ErrAutoOffsetReset Local: No offset to automatically reset to
	ErrAutoOffsetReset ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR__AUTO_OFFSET_RESET)
	// ErrUnknown Unknown broker error
	ErrUnknown ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNKNOWN)
	// ErrNoError Success
	ErrNoError ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NO_ERROR)
	// ErrOffsetOutOfRange Broker: Offset out of range
	ErrOffsetOutOfRange ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_OFFSET_OUT_OF_RANGE)
	// ErrInvalidMsg Broker: Invalid message
	ErrInvalidMsg ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_MSG)
	// ErrUnknownTopicOrPart Broker: Unknown topic or partition
	ErrUnknownTopicOrPart ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNKNOWN_TOPIC_OR_PART)
	// ErrInvalidMsgSize Broker: Invalid message size
	ErrInvalidMsgSize ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_MSG_SIZE)
	// ErrLeaderNotAvailable Broker: Leader not available
	ErrLeaderNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_LEADER_NOT_AVAILABLE)
	// ErrNotLeaderForPartition Broker: Not leader for partition
	ErrNotLeaderForPartition ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NOT_LEADER_FOR_PARTITION)
	// ErrRequestTimedOut Broker: Request timed out
	ErrRequestTimedOut ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_REQUEST_TIMED_OUT)
	// ErrBrokerNotAvailable Broker: Broker not available
	ErrBrokerNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_BROKER_NOT_AVAILABLE)
	// ErrReplicaNotAvailable Broker: Replica not available
	ErrReplicaNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_REPLICA_NOT_AVAILABLE)
	// ErrMsgSizeTooLarge Broker: Message size too large
	ErrMsgSizeTooLarge ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_MSG_SIZE_TOO_LARGE)
	// ErrStaleCtrlEpoch Broker: StaleControllerEpochCode
	ErrStaleCtrlEpoch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_STALE_CTRL_EPOCH)
	// ErrOffsetMetadataTooLarge Broker: Offset metadata string too large
	ErrOffsetMetadataTooLarge ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_OFFSET_METADATA_TOO_LARGE)
	// ErrNetworkException Broker: Broker disconnected before response received
	ErrNetworkException ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NETWORK_EXCEPTION)
	// ErrCoordinatorLoadInProgress Broker: Coordinator load in progress
	ErrCoordinatorLoadInProgress ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_COORDINATOR_LOAD_IN_PROGRESS)
	// ErrCoordinatorNotAvailable Broker: Coordinator not available
	ErrCoordinatorNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_COORDINATOR_NOT_AVAILABLE)
	// ErrNotCoordinator Broker: Not coordinator
	ErrNotCoordinator ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NOT_COORDINATOR)
	// ErrTopicException Broker: Invalid topic
	ErrTopicException ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_TOPIC_EXCEPTION)
	// ErrRecordListTooLarge Broker: Message batch larger than configured server segment size
	ErrRecordListTooLarge ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_RECORD_LIST_TOO_LARGE)
	// ErrNotEnoughReplicas Broker: Not enough in-sync replicas
	ErrNotEnoughReplicas ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NOT_ENOUGH_REPLICAS)
	// ErrNotEnoughReplicasAfterAppend Broker: Message(s) written to insufficient number of in-sync replicas
	ErrNotEnoughReplicasAfterAppend ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NOT_ENOUGH_REPLICAS_AFTER_APPEND)
	// ErrInvalidRequiredAcks Broker: Invalid required acks value
	ErrInvalidRequiredAcks ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_REQUIRED_ACKS)
	// ErrIllegalGeneration Broker: Specified group generation id is not valid
	ErrIllegalGeneration ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_ILLEGAL_GENERATION)
	// ErrInconsistentGroupProtocol Broker: Inconsistent group protocol
	ErrInconsistentGroupProtocol ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INCONSISTENT_GROUP_PROTOCOL)
	// ErrInvalidGroupID Broker: Invalid group.id
	ErrInvalidGroupID ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_GROUP_ID)
	// ErrUnknownMemberID Broker: Unknown member
	ErrUnknownMemberID ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNKNOWN_MEMBER_ID)
	// ErrInvalidSessionTimeout Broker: Invalid session timeout
	ErrInvalidSessionTimeout ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_SESSION_TIMEOUT)
	// ErrRebalanceInProgress Broker: Group rebalance in progress
	ErrRebalanceInProgress ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_REBALANCE_IN_PROGRESS)
	// ErrInvalidCommitOffsetSize Broker: Commit offset data size is not valid
	ErrInvalidCommitOffsetSize ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_COMMIT_OFFSET_SIZE)
	// ErrTopicAuthorizationFailed Broker: Topic authorization failed
	ErrTopicAuthorizationFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_TOPIC_AUTHORIZATION_FAILED)
	// ErrGroupAuthorizationFailed Broker: Group authorization failed
	ErrGroupAuthorizationFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_GROUP_AUTHORIZATION_FAILED)
	// ErrClusterAuthorizationFailed Broker: Cluster authorization failed
	ErrClusterAuthorizationFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_CLUSTER_AUTHORIZATION_FAILED)
	// ErrInvalidTimestamp Broker: Invalid timestamp
	ErrInvalidTimestamp ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_TIMESTAMP)
	// ErrUnsupportedSaslMechanism Broker: Unsupported SASL mechanism
	ErrUnsupportedSaslMechanism ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNSUPPORTED_SASL_MECHANISM)
	// ErrIllegalSaslState Broker: Request not valid in current SASL state
	ErrIllegalSaslState ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_ILLEGAL_SASL_STATE)
	// ErrUnsupportedVersion Broker: API version not supported
	ErrUnsupportedVersion ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNSUPPORTED_VERSION)
	// ErrTopicAlreadyExists Broker: Topic already exists
	ErrTopicAlreadyExists ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_TOPIC_ALREADY_EXISTS)
	// ErrInvalidPartitions Broker: Invalid number of partitions
	ErrInvalidPartitions ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_PARTITIONS)
	// ErrInvalidReplicationFactor Broker: Invalid replication factor
	ErrInvalidReplicationFactor ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_REPLICATION_FACTOR)
	// ErrInvalidReplicaAssignment Broker: Invalid replica assignment
	ErrInvalidReplicaAssignment ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_REPLICA_ASSIGNMENT)
	// ErrInvalidConfig Broker: Configuration is invalid
	ErrInvalidConfig ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_CONFIG)
	// ErrNotController Broker: Not controller for cluster
	ErrNotController ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NOT_CONTROLLER)
	// ErrInvalidRequest Broker: Invalid request
	ErrInvalidRequest ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_REQUEST)
	// ErrUnsupportedForMessageFormat Broker: Message format on broker does not support request
	ErrUnsupportedForMessageFormat ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNSUPPORTED_FOR_MESSAGE_FORMAT)
	// ErrPolicyViolation Broker: Policy violation
	ErrPolicyViolation ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_POLICY_VIOLATION)
	// ErrOutOfOrderSequenceNumber Broker: Broker received an out of order sequence number
	ErrOutOfOrderSequenceNumber ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_OUT_OF_ORDER_SEQUENCE_NUMBER)
	// ErrDuplicateSequenceNumber Broker: Broker received a duplicate sequence number
	ErrDuplicateSequenceNumber ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DUPLICATE_SEQUENCE_NUMBER)
	// ErrInvalidProducerEpoch Broker: Producer attempted an operation with an old epoch
	ErrInvalidProducerEpoch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_PRODUCER_EPOCH)
	// ErrInvalidTxnState Broker: Producer attempted a transactional operation in an invalid state
	ErrInvalidTxnState ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_TXN_STATE)
	// ErrInvalidProducerIDMapping Broker: Producer attempted to use a producer id which is not currently assigned to its transactional id
	ErrInvalidProducerIDMapping ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_PRODUCER_ID_MAPPING)
	// ErrInvalidTransactionTimeout Broker: Transaction timeout is larger than the maximum value allowed by the broker's max.transaction.timeout.ms
	ErrInvalidTransactionTimeout ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_TRANSACTION_TIMEOUT)
	// ErrConcurrentTransactions Broker: Producer attempted to update a transaction while another concurrent operation on the same transaction was ongoing
	ErrConcurrentTransactions ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_CONCURRENT_TRANSACTIONS)
	// ErrTransactionCoordinatorFenced Broker: Indicates that the transaction coordinator sending a WriteTxnMarker is no longer the current coordinator for a given producer
	ErrTransactionCoordinatorFenced ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_TRANSACTION_COORDINATOR_FENCED)
	// ErrTransactionalIDAuthorizationFailed Broker: Transactional Id authorization failed
	ErrTransactionalIDAuthorizationFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_TRANSACTIONAL_ID_AUTHORIZATION_FAILED)
	// ErrSecurityDisabled Broker: Security features are disabled
	ErrSecurityDisabled ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_SECURITY_DISABLED)
	// ErrOperationNotAttempted Broker: Operation not attempted
	ErrOperationNotAttempted ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_OPERATION_NOT_ATTEMPTED)
	// ErrKafkaStorageError Broker: Disk error when trying to access log file on disk
	ErrKafkaStorageError ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_KAFKA_STORAGE_ERROR)
	// ErrLogDirNotFound Broker: The user-specified log directory is not found in the broker config
	ErrLogDirNotFound ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_LOG_DIR_NOT_FOUND)
	// ErrSaslAuthenticationFailed Broker: SASL Authentication failed
	ErrSaslAuthenticationFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_SASL_AUTHENTICATION_FAILED)
	// ErrUnknownProducerID Broker: Unknown Producer Id
	ErrUnknownProducerID ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNKNOWN_PRODUCER_ID)
	// ErrReassignmentInProgress Broker: Partition reassignment is in progress
	ErrReassignmentInProgress ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_REASSIGNMENT_IN_PROGRESS)
	// ErrDelegationTokenAuthDisabled Broker: Delegation Token feature is not enabled
	ErrDelegationTokenAuthDisabled ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DELEGATION_TOKEN_AUTH_DISABLED)
	// ErrDelegationTokenNotFound Broker: Delegation Token is not found on server
	ErrDelegationTokenNotFound ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DELEGATION_TOKEN_NOT_FOUND)
	// ErrDelegationTokenOwnerMismatch Broker: Specified Principal is not valid Owner/Renewer
	ErrDelegationTokenOwnerMismatch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DELEGATION_TOKEN_OWNER_MISMATCH)
	// ErrDelegationTokenRequestNotAllowed Broker: Delegation Token requests are not allowed on this connection
	ErrDelegationTokenRequestNotAllowed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DELEGATION_TOKEN_REQUEST_NOT_ALLOWED)
	// ErrDelegationTokenAuthorizationFailed Broker: Delegation Token authorization failed
	ErrDelegationTokenAuthorizationFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DELEGATION_TOKEN_AUTHORIZATION_FAILED)
	// ErrDelegationTokenExpired Broker: Delegation Token is expired
	ErrDelegationTokenExpired ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DELEGATION_TOKEN_EXPIRED)
	// ErrInvalidPrincipalType Broker: Supplied principalType is not supported
	ErrInvalidPrincipalType ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_PRINCIPAL_TYPE)
	// ErrNonEmptyGroup Broker: The group is not empty
	ErrNonEmptyGroup ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NON_EMPTY_GROUP)
	// ErrGroupIDNotFound Broker: The group id does not exist
	ErrGroupIDNotFound ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_GROUP_ID_NOT_FOUND)
	// ErrFetchSessionIDNotFound Broker: The fetch session ID was not found
	ErrFetchSessionIDNotFound ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_FETCH_SESSION_ID_NOT_FOUND)
	// ErrInvalidFetchSessionEpoch Broker: The fetch session epoch is invalid
	ErrInvalidFetchSessionEpoch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_FETCH_SESSION_EPOCH)
	// ErrListenerNotFound Broker: No matching listener
	ErrListenerNotFound ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_LISTENER_NOT_FOUND)
	// ErrTopicDeletionDisabled Broker: Topic deletion is disabled
	ErrTopicDeletionDisabled ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_TOPIC_DELETION_DISABLED)
	// ErrFencedLeaderEpoch Broker: Leader epoch is older than broker epoch
	ErrFencedLeaderEpoch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_FENCED_LEADER_EPOCH)
	// ErrUnknownLeaderEpoch Broker: Leader epoch is newer than broker epoch
	ErrUnknownLeaderEpoch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNKNOWN_LEADER_EPOCH)
	// ErrUnsupportedCompressionType Broker: Unsupported compression type
	ErrUnsupportedCompressionType ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNSUPPORTED_COMPRESSION_TYPE)
	// ErrStaleBrokerEpoch Broker: Broker epoch has changed
	ErrStaleBrokerEpoch ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_STALE_BROKER_EPOCH)
	// ErrOffsetNotAvailable Broker: Leader high watermark is not caught up
	ErrOffsetNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_OFFSET_NOT_AVAILABLE)
	// ErrMemberIDRequired Broker: Group member needs a valid member ID
	ErrMemberIDRequired ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_MEMBER_ID_REQUIRED)
	// ErrPreferredLeaderNotAvailable Broker: Preferred leader was not available
	ErrPreferredLeaderNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_PREFERRED_LEADER_NOT_AVAILABLE)
	// ErrGroupMaxSizeReached Broker: Consumer group has reached maximum size
	ErrGroupMaxSizeReached ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_GROUP_MAX_SIZE_REACHED)
	// ErrFencedInstanceID Broker: Static consumer fenced by other consumer with same group.instance.id
	ErrFencedInstanceID ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_FENCED_INSTANCE_ID)
	// ErrEligibleLeadersNotAvailable Broker: Eligible partition leaders are not available
	ErrEligibleLeadersNotAvailable ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_ELIGIBLE_LEADERS_NOT_AVAILABLE)
	// ErrElectionNotNeeded Broker: Leader election not needed for topic partition
	ErrElectionNotNeeded ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_ELECTION_NOT_NEEDED)
	// ErrNoReassignmentInProgress Broker: No partition reassignment is in progress
	ErrNoReassignmentInProgress ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_NO_REASSIGNMENT_IN_PROGRESS)
	// ErrGroupSubscribedToTopic Broker: Deleting offsets of a topic while the consumer group is subscribed to it
	ErrGroupSubscribedToTopic ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_GROUP_SUBSCRIBED_TO_TOPIC)
	// ErrInvalidRecord Broker: Broker failed to validate record
	ErrInvalidRecord ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_RECORD)
	// ErrUnstableOffsetCommit Broker: There are unstable offsets that need to be cleared
	ErrUnstableOffsetCommit ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNSTABLE_OFFSET_COMMIT)
	// ErrThrottlingQuotaExceeded Broker: Throttling quota has been exceeded
	ErrThrottlingQuotaExceeded ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_THROTTLING_QUOTA_EXCEEDED)
	// ErrProducerFenced Broker: There is a newer producer with the same transactionalId which fences the current one
	ErrProducerFenced ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_PRODUCER_FENCED)
	// ErrResourceNotFound Broker: Request illegally referred to resource that does not exist
	ErrResourceNotFound ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_RESOURCE_NOT_FOUND)
	// ErrDuplicateResource Broker: Request illegally referred to the same resource twice
	ErrDuplicateResource ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_DUPLICATE_RESOURCE)
	// ErrUnacceptableCredential Broker: Requested credential would not meet criteria for acceptability
	ErrUnacceptableCredential ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_UNACCEPTABLE_CREDENTIAL)
	// ErrInconsistentVoterSet Broker: Indicates that the either the sender or recipient of a voter-only request is not one of the expected voters
	ErrInconsistentVoterSet ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INCONSISTENT_VOTER_SET)
	// ErrInvalidUpdateVersion Broker: Invalid update version
	ErrInvalidUpdateVersion ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_INVALID_UPDATE_VERSION)
	// ErrFeatureUpdateFailed Broker: Unable to update finalized features due to server error
	ErrFeatureUpdateFailed ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_FEATURE_UPDATE_FAILED)
	// ErrPrincipalDeserializationFailure Broker: Request principal deserialization failed during forwarding
	ErrPrincipalDeserializationFailure ErrorCode = ErrorCode(C.RD_KAFKA_RESP_ERR_PRINCIPAL_DESERIALIZATION_FAILURE)
)

func (ErrorCode) String

func (c ErrorCode) String() string

String returns a human readable representation of an error code

type Event

type Event interface {
	// String returns a human-readable representation of the event
	String() string
}

Event generic interface

type Handle

type Handle interface {
	// SetOAuthBearerToken sets the the data to be transmitted
	// to a broker during SASL/OAUTHBEARER authentication. It will return nil
	// on success, otherwise an error if:
	// 1) the token data is invalid (meaning an expiration time in the past
	// or either a token value or an extension key or value that does not meet
	// the regular expression requirements as per
	// https://tools.ietf.org/html/rfc7628#section-3.1);
	// 2) SASL/OAUTHBEARER is not supported by the underlying librdkafka build;
	// 3) SASL/OAUTHBEARER is supported but is not configured as the client's
	// authentication mechanism.
	SetOAuthBearerToken(oauthBearerToken OAuthBearerToken) error

	// SetOAuthBearerTokenFailure sets the error message describing why token
	// retrieval/setting failed; it also schedules a new token refresh event for 10
	// seconds later so the attempt may be retried. It will return nil on
	// success, otherwise an error if:
	// 1) SASL/OAUTHBEARER is not supported by the underlying librdkafka build;
	// 2) SASL/OAUTHBEARER is supported but is not configured as the client's
	// authentication mechanism.
	SetOAuthBearerTokenFailure(errstr string) error
	// contains filtered or unexported methods
}

Handle represents a generic client handle containing common parts for both Producer and Consumer.

type Header struct {
	Key   string // Header name (utf-8 string)
	Value []byte // Header value (nil, empty, or binary)
}

Header represents a single Kafka message header.

Message headers are made up of a list of Header elements, retaining their original insert order and allowing for duplicate Keys.

Key is a human readable string identifying the header. Value is the key's binary value, Kafka does not put any restrictions on the format of of the Value but it should be made relatively compact. The value may be a byte array, empty, or nil.

NOTE: Message headers are not available on producer delivery report messages.

func (Header) String

func (h Header) String() string

String returns the Header Key and data in a human representable possibly truncated form suitable for displaying to the user.

type LogEvent

type LogEvent struct {
	Name      string    // Name of client instance
	Tag       string    // Log tag that provides context to the log Message (e.g., "METADATA" or "GRPCOORD")
	Message   string    // Log message
	Level     int       // Log syslog level, lower is more critical.
	Timestamp time.Time // Log timestamp
}

LogEvent represent the log from librdkafka internal log queue

func (LogEvent) String

func (logEvent LogEvent) String() string

type Message

type Message struct {
	TopicPartition TopicPartition
	Value          []byte
	Key            []byte
	Timestamp      time.Time
	TimestampType  TimestampType
	Opaque         interface{}
	Headers        []Header
}

Message represents a Kafka message

func (*Message) String

func (m *Message) String() string

String returns a human readable representation of a Message. Key and payload are not represented.

type Metadata

type Metadata struct {
	Brokers []BrokerMetadata
	Topics  map[string]TopicMetadata

	OriginatingBroker BrokerMetadata
}

Metadata contains broker and topic metadata for all (matching) topics

type OAuthBearerToken

type OAuthBearerToken struct {
	// Token value, often (but not necessarily) a JWS compact serialization
	// as per https://tools.ietf.org/html/rfc7515#section-3.1; it must meet
	// the regular expression for a SASL/OAUTHBEARER value defined at
	// https://tools.ietf.org/html/rfc7628#section-3.1
	TokenValue string
	// Metadata about the token indicating when it expires (local time);
	// it must represent a time in the future
	Expiration time.Time
	// Metadata about the token indicating the Kafka principal name
	// to which it applies (for example, "admin")
	Principal string
	// SASL extensions, if any, to be communicated to the broker during
	// authentication (all keys and values of which must meet the regular
	// expressions defined at https://tools.ietf.org/html/rfc7628#section-3.1,
	// and it must not contain the reserved "auth" key)
	Extensions map[string]string
}

OAuthBearerToken represents the data to be transmitted to a broker during SASL/OAUTHBEARER authentication.

type OAuthBearerTokenRefresh

type OAuthBearerTokenRefresh struct {
	// Config is the value of the sasl.oauthbearer.config property
	Config string
}

OAuthBearerTokenRefresh indicates token refresh is required

func (OAuthBearerTokenRefresh) String

func (o OAuthBearerTokenRefresh) String() string

type Offset

type Offset int64

Offset type (int64) with support for canonical names

func NewOffset

func NewOffset(offset interface{}) (Offset, error)

NewOffset creates a new Offset using the provided logical string, or an absolute int64 offset value. Logical offsets: "beginning", "earliest", "end", "latest", "unset", "invalid", "stored"

func OffsetTail

func OffsetTail(relativeOffset Offset) Offset

OffsetTail returns the logical offset relativeOffset from current end of partition

func (*Offset) Set

func (o *Offset) Set(offset interface{}) error

Set offset value, see NewOffset()

func (Offset) String

func (o Offset) String() string

type OffsetsCommitted

type OffsetsCommitted struct {
	Error   error
	Offsets []TopicPartition
}

OffsetsCommitted reports committed offsets

func (OffsetsCommitted) String

func (o OffsetsCommitted) String() string

type PartitionEOF

type PartitionEOF TopicPartition

PartitionEOF consumer reached end of partition Needs to be explicitly enabled by setting the `enable.partition.eof` configuration property to true.

func (PartitionEOF) String

func (p PartitionEOF) String() string

type PartitionMetadata

type PartitionMetadata struct {
	ID       int32
	Error    Error
	Leader   int32
	Replicas []int32
	Isrs     []int32
}

PartitionMetadata contains per-partition metadata

type PartitionsSpecification

type PartitionsSpecification struct {
	// Topic to create more partitions for.
	Topic string
	// New partition count for topic, must be higher than current partition count.
	IncreaseTo int
	// (Optional) Explicit replica assignment. The outer array is
	// indexed by the new partition index (i.e., 0 for the first added
	// partition), while the inner per-partition array
	// contains the replica broker ids. The first broker in each
	// broker id list will be the preferred replica.
	ReplicaAssignment [][]int32
}

PartitionsSpecification holds parameters for creating additional partitions for a topic. PartitionsSpecification is analogous to NewPartitions in the Java Topic Admin API.

type Producer

type Producer struct {
	// contains filtered or unexported fields
}

Producer implements a High-level Apache Kafka Producer instance

func NewProducer

func NewProducer(conf *ConfigMap) (*Producer, error)

NewProducer creates a new high-level Producer instance.

conf is a *ConfigMap with standard librdkafka configuration properties.

Supported special configuration properties:

go.batch.producer (bool, false) - EXPERIMENTAL: Enable batch producer (for increased performance).
                                  These batches do not relate to Kafka message batches in any way.
                                  Note: timestamps and headers are not supported with this interface.
go.delivery.reports (bool, true) - Forward per-message delivery reports to the
                                   Events() channel.
go.delivery.report.fields (string, all) - Comma separated list of fields to enable for delivery reports.
                                          Allowed values: all, none (or empty string), key, value
go.events.channel.size (int, 1000000) - Events().
go.produce.channel.size (int, 1000000) - ProduceChannel() buffer size (in number of messages)
go.logs.channel.enable (bool, false) - Forward log to Logs() channel.
go.logs.channel (chan kafka.LogEvent, nil) - Forward logs to application-provided channel instead of Logs(). Requires go.logs.channel.enable=true.

func (*Producer) AbortTransaction

func (p *Producer) AbortTransaction(ctx context.Context) error

AbortTransaction aborts the ongoing transaction.

This function should also be used to recover from non-fatal abortable transaction errors.

Any outstanding messages will be purged and fail with `ErrPurgeInflight` or `ErrPurgeQueue`.

Parameters:

  • `ctx` - The maximum amount of time to block, or nil for indefinite.

Note: This function will block until all outstanding messages are purged and the transaction abort request has been successfully handled by the transaction coordinator, or until the `ctx` expires, which ever comes first. On timeout the application may call the function again.

Note: Will automatically call `Purge()` and `Flush()` to ensure all queued and in-flight messages are purged before attempting to abort the transaction. The application MUST serve the `producer.Events()` channel for delivery reports in a separate go-routine during this time.

Returns nil on success or an error object on failure. Check whether the returned error object permits retrying by calling `err.(kafka.Error).IsRetriable()`, or whether a fatal error has been raised by calling `err.(kafka.Error).IsFatal()`.

func (*Producer) BeginTransaction

func (p *Producer) BeginTransaction() error

BeginTransaction starts a new transaction.

`InitTransactions()` must have been called successfully (once) before this function is called.

Any messages produced, offsets sent (`SendOffsetsToTransaction()`), etc, after the successful return of this function will be part of the transaction and committed or aborted atomatically.

Finish the transaction by calling `CommitTransaction()` or abort the transaction by calling `AbortTransaction()`.

Returns nil on success or an error object on failure. Check whether a fatal error has been raised by calling `err.(kafka.Error).IsFatal()`.

Note: With the transactional producer, `Produce()`, et.al, are only allowed during an on-going transaction, as started with this function. Any produce call outside an on-going transaction, or for a failed transaction, will fail.

func (*Producer) Close

func (p *Producer) Close()

Close a Producer instance. The Producer object or its channels are no longer usable after this call.

func (*Producer) CommitTransaction

func (p *Producer) CommitTransaction(ctx context.Context) error

CommitTransaction commits the current transaction.

Any outstanding messages will be flushed (delivered) before actually committing the transaction.

If any of the outstanding messages fail permanently the current transaction will enter the abortable error state and this function will return an abortable error, in this case the application must call `AbortTransaction()` before attempting a new transaction with `BeginTransaction()`.

Parameters:

  • `ctx` - The maximum amount of time to block, or nil for indefinite.

Note: This function will block until all outstanding messages are delivered and the transaction commit request has been successfully handled by the transaction coordinator, or until the `ctx` expires, which ever comes first. On timeout the application may call the function again.

Note: Will automatically call `Flush()` to ensure all queued messages are delivered before attempting to commit the transaction. The application MUST serve the `producer.Events()` channel for delivery reports in a separate go-routine during this time.

Returns nil on success or an error object on failure. Check whether the returned error object permits retrying by calling `err.(kafka.Error).IsRetriable()`, or whether an abortable or fatal error has been raised by calling `err.(kafka.Error).TxnRequiresAbort()` or `err.(kafka.Error).IsFatal()` respectively.

func (*Producer) Events

func (p *Producer) Events() chan Event

Events returns the Events channel (read)

func (*Producer) Flush

func (p *Producer) Flush(timeoutMs int) int

Flush and wait for outstanding messages and requests to complete delivery. Includes messages on ProduceChannel. Runs until value reaches zero or on timeoutMs. Returns the number of outstanding events still un-flushed.

func (*Producer) GetFatalError

func (p *Producer) GetFatalError() error

GetFatalError returns an Error object if the client instance has raised a fatal error, else nil.

func (*Producer) GetMetadata

func (p *Producer) GetMetadata(topic *string, allTopics bool, timeoutMs int) (*Metadata, error)

GetMetadata queries broker for cluster and topic metadata. If topic is non-nil only information about that topic is returned, else if allTopics is false only information about locally used topics is returned, else information about all topics is returned. GetMetadata is equivalent to listTopics, describeTopics and describeCluster in the Java API.

func (*Producer) InitTransactions

func (p *Producer) InitTransactions(ctx context.Context) error

InitTransactions Initializes transactions for the producer instance.

This function ensures any transactions initiated by previous instances of the producer with the same `transactional.id` are completed. If the previous instance failed with a transaction in progress the previous transaction will be aborted. This function needs to be called before any other transactional or produce functions are called when the `transactional.id` is configured.

If the last transaction had begun completion (following transaction commit) but not yet finished, this function will await the previous transaction's completion.

When any previous transactions have been fenced this function will acquire the internal producer id and epoch, used in all future transactional messages issued by this producer instance.

Upon successful return from this function the application has to perform at least one of the following operations within `transaction.timeout.ms` to avoid timing out the transaction on the broker:

  • `Produce()` (et.al)
  • `SendOffsetsToTransaction()`
  • `CommitTransaction()`
  • `AbortTransaction()`

Parameters:

  • `ctx` - The maximum time to block, or nil for indefinite. On timeout the operation may continue in the background, depending on state, and it is okay to call `InitTransactions()` again.

Returns nil on success or an error on failure. Check whether the returned error object permits retrying by calling `err.(kafka.Error).IsRetriable()`, or whether a fatal error has been raised by calling `err.(kafka.Error).IsFatal()`.

func (*Producer) Len

func (p *Producer) Len() int

Len returns the number of messages and requests waiting to be transmitted to the broker as well as delivery reports queued for the application. Includes messages on ProduceChannel.

func (*Producer) Logs

func (p *Producer) Logs() chan LogEvent

Logs returns the Log channel (if enabled), else nil

func (*Producer) OffsetsForTimes

func (p *Producer) OffsetsForTimes(times []TopicPartition, timeoutMs int) (offsets []TopicPartition, err error)

OffsetsForTimes looks up offsets by timestamp for the given partitions.

The returned offset for each partition is the earliest offset whose timestamp is greater than or equal to the given timestamp in the corresponding partition. If the provided timestamp exceeds that of the last message in the partition, a value of -1 will be returned.

The timestamps to query are represented as `.Offset` in the `times` argument and the looked up offsets are represented as `.Offset` in the returned `offsets` list.

The function will block for at most timeoutMs milliseconds.

Duplicate Topic+Partitions are not supported. Per-partition errors may be returned in the `.Error` field.

func (*Producer) Produce

func (p *Producer) Produce(msg *Message, deliveryChan chan Event) error

Produce single message. This is an asynchronous call that enqueues the message on the internal transmit queue, thus returning immediately. The delivery report will be sent on the provided deliveryChan if specified, or on the Producer object's Events() channel if not. msg.Timestamp requires librdkafka >= 0.9.4 (else returns ErrNotImplemented), api.version.request=true, and broker >= 0.10.0.0. msg.Headers requires librdkafka >= 0.11.4 (else returns ErrNotImplemented), api.version.request=true, and broker >= 0.11.0.0. Returns an error if message could not be enqueued.

func (*Producer) ProduceChannel

func (p *Producer) ProduceChannel() chan *Message

ProduceChannel returns the produce *Message channel (write)

func (*Producer) Purge

func (p *Producer) Purge(flags int) error

Purge messages currently handled by this producer instance.

flags is a combination of PurgeQueue, PurgeInFlight and PurgeNonBlocking.

The application will need to call Poll(), Flush() or read the Events() channel after this call to serve delivery reports for the purged messages.

Messages purged from internal queues fail with the delivery report error code set to ErrPurgeQueue, while purged messages that are in-flight to or from the broker will fail with the error code set to ErrPurgeInflight.

Warning: Purging messages that are in-flight to or from the broker will ignore any sub-sequent acknowledgement for these messages received from the broker, effectively making it impossible for the application to know if the messages were successfully produced or not. This may result in duplicate messages if the application retries these messages at a later time.

Note: This call may block for a short time while background thread queues are purged.

Returns nil on success, ErrInvalidArg if the purge flags are invalid or unknown.

func (*Producer) QueryWatermarkOffsets

func (p *Producer) QueryWatermarkOffsets(topic string, partition int32, timeoutMs int) (low, high int64, err error)

QueryWatermarkOffsets returns the broker's low and high offsets for the given topic and partition.

func (*Producer) SendOffsetsToTransaction

func (p *Producer) SendOffsetsToTransaction(ctx context.Context, offsets []TopicPartition, consumerMetadata *ConsumerGroupMetadata) error

SendOffsetsToTransaction sends a list of topic partition offsets to the consumer group coordinator for `consumerMetadata`, and marks the offsets as part part of the current transaction. These offsets will be considered committed only if the transaction is committed successfully.

The offsets should be the next message your application will consume, i.e., the last processed message's offset + 1 for each partition. Either track the offsets manually during processing or use `consumer.Position()` (on the consumer) to get the current offsets for the partitions assigned to the consumer.

Use this method at the end of a consume-transform-produce loop prior to committing the transaction with `CommitTransaction()`.

Parameters:

  • `ctx` - The maximum amount of time to block, or nil for indefinite.
  • `offsets` - List of offsets to commit to the consumer group upon successful commit of the transaction. Offsets should be the next message to consume, e.g., last processed message + 1.
  • `consumerMetadata` - The current consumer group metadata as returned by `consumer.GetConsumerGroupMetadata()` on the consumer instance the provided offsets were consumed from.

Note: The consumer must disable auto commits (set `enable.auto.commit` to false on the consumer).

Note: Logical and invalid offsets (e.g., OffsetInvalid) in `offsets` will be ignored. If there are no valid offsets in `offsets` the function will return nil and no action will be taken.

Returns nil on success or an error object on failure. Check whether the returned error object permits retrying by calling `err.(kafka.Error).IsRetriable()`, or whether an abortable or fatal error has been raised by calling `err.(kafka.Error).TxnRequiresAbort()` or `err.(kafka.Error).IsFatal()` respectively.

func (*Producer) SetOAuthBearerToken

func (p *Producer) SetOAuthBearerToken(oauthBearerToken OAuthBearerToken) error

SetOAuthBearerToken sets the the data to be transmitted to a broker during SASL/OAUTHBEARER authentication. It will return nil on success, otherwise an error if: 1) the token data is invalid (meaning an expiration time in the past or either a token value or an extension key or value that does not meet the regular expression requirements as per https://tools.ietf.org/html/rfc7628#section-3.1); 2) SASL/OAUTHBEARER is not supported by the underlying librdkafka build; 3) SASL/OAUTHBEARER is supported but is not configured as the client's authentication mechanism.

func (*Producer) SetOAuthBearerTokenFailure

func (p *Producer) SetOAuthBearerTokenFailure(errstr string) error

SetOAuthBearerTokenFailure sets the error message describing why token retrieval/setting failed; it also schedules a new token refresh event for 10 seconds later so the attempt may be retried. It will return nil on success, otherwise an error if: 1) SASL/OAUTHBEARER is not supported by the underlying librdkafka build; 2) SASL/OAUTHBEARER is supported but is not configured as the client's authentication mechanism.

func (*Producer) String

func (p *Producer) String() string

String returns a human readable name for a Producer instance

func (*Producer) TestFatalError

func (p *Producer) TestFatalError(code ErrorCode, str string) ErrorCode

TestFatalError triggers a fatal error in the underlying client. This is to be used strictly for testing purposes.

type RebalanceCb

type RebalanceCb func(*Consumer, Event) error

RebalanceCb provides a per-Subscribe*() rebalance event callback. The passed Event will be either AssignedPartitions or RevokedPartitions

type ResourceType

type ResourceType int

ResourceType represents an Apache Kafka resource type

func ResourceTypeFromString

func ResourceTypeFromString(typeString string) (ResourceType, error)

ResourceTypeFromString translates a resource type name/string to a ResourceType value.

func (ResourceType) String

func (t ResourceType) String() string

String returns the human-readable representation of a ResourceType

type RevokedPartitions

type RevokedPartitions struct {
	Partitions []TopicPartition
}

RevokedPartitions consumer group rebalance event: revoked partition set

func (RevokedPartitions) String

func (e RevokedPartitions) String() string

type Stats

type Stats struct {
	// contains filtered or unexported fields
}

Stats statistics event

func (Stats) String

func (e Stats) String() string

type TimestampType

type TimestampType int

TimestampType is a the Message timestamp type or source

func (TimestampType) String

func (t TimestampType) String() string

type TopicMetadata

type TopicMetadata struct {
	Topic      string
	Partitions []PartitionMetadata
	Error      Error
}

TopicMetadata contains per-topic metadata

type TopicPartition

type TopicPartition struct {
	Topic     *string
	Partition int32
	Offset    Offset
	Metadata  *string
	Error     error
}

TopicPartition is a generic placeholder for a Topic+Partition and optionally Offset.

func (TopicPartition) String

func (p TopicPartition) String() string

type TopicPartitions

type TopicPartitions []TopicPartition

TopicPartitions is a slice of TopicPartitions that also implements the sort interface

func (TopicPartitions) Len

func (tps TopicPartitions) Len() int

func (TopicPartitions) Less

func (tps TopicPartitions) Less(i, j int) bool

func (TopicPartitions) Swap

func (tps TopicPartitions) Swap(i, j int)

type TopicResult

type TopicResult struct {
	// Topic name
	Topic string
	// Error, if any, of result. Check with `Error.Code() != ErrNoError`.
	Error Error
}

TopicResult provides per-topic operation result (error) information.

func (TopicResult) String

func (t TopicResult) String() string

String returns a human-readable representation of a TopicResult.

type TopicSpecification

type TopicSpecification struct {
	// Topic name to create.
	Topic string
	// Number of partitions in topic.
	NumPartitions int
	// Default replication factor for the topic's partitions, or zero
	// if an explicit ReplicaAssignment is set.
	ReplicationFactor int
	// (Optional) Explicit replica assignment. The outer array is
	// indexed by the partition number, while the inner per-partition array
	// contains the replica broker ids. The first broker in each
	// broker id list will be the preferred replica.
	ReplicaAssignment [][]int32
	// Topic configuration.
	Config map[string]string
}

TopicSpecification holds parameters for creating a new topic. TopicSpecification is analogous to NewTopic in the Java Topic Admin API.

Directories

Path Synopsis
confluent-kafka-go internal tool to generate error constants from librdkafka
confluent-kafka-go internal tool to generate error constants from librdkafka

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