require 'logstash/namespace' require 'logstash/inputs/base' require 'stud/interval' require 'java' require "json" require "logstash/json" require 'logstash-integration-kafka_jars.rb' require 'logstash/plugin_mixins/kafka/common' require 'logstash/plugin_mixins/kafka/avro_schema_registry' require 'logstash/plugin_mixins/deprecation_logger_support' # This input will read events from a Kafka topic. It uses the 0.10 version of # the consumer API provided by Kafka to read messages from the broker. # # Here's a compatibility matrix that shows the Kafka client versions that are compatible with each combination # of Logstash and the Kafka input plugin: # # [options="header"] # |========================================================== # |Kafka Client Version |Logstash Version |Plugin Version |Why? # |0.8 |2.0.0 - 2.x.x |<3.0.0 |Legacy, 0.8 is still popular # |0.9 |2.0.0 - 2.3.x | 3.x.x |Works with the old Ruby Event API (`event['product']['price'] = 10`) # |0.9 |2.4.x - 5.x.x | 4.x.x |Works with the new getter/setter APIs (`event.set('[product][price]', 10)`) # |0.10.0.x |2.4.x - 5.x.x | 5.x.x |Not compatible with the <= 0.9 broker # |0.10.1.x |2.4.x - 5.x.x | 6.x.x | # |========================================================== # # NOTE: We recommended that you use matching Kafka client and broker versions. During upgrades, you should # upgrade brokers before clients because brokers target backwards compatibility. For example, the 0.9 broker # is compatible with both the 0.8 consumer and 0.9 consumer APIs, but not the other way around. # # This input supports connecting to Kafka over: # # * SSL (requires plugin version 3.0.0 or later) # * Kerberos SASL (requires plugin version 5.1.0 or later) # # By default security is disabled but can be turned on as needed. # # The Logstash Kafka consumer handles group management and uses the default offset management # strategy using Kafka topics. # # Logstash instances by default form a single logical group to subscribe to Kafka topics # Each Logstash Kafka consumer can run multiple threads to increase read throughput. Alternatively, # you could run multiple Logstash instances with the same `group_id` to spread the load across # physical machines. Messages in a topic will be distributed to all Logstash instances with # the same `group_id`. # # Ideally you should have as many threads as the number of partitions for a perfect balance -- # more threads than partitions means that some threads will be idle # # For more information see http://kafka.apache.org/documentation.html#theconsumer # # Kafka consumer configuration: http://kafka.apache.org/documentation.html#consumerconfigs # class LogStash::Inputs::Kafka < LogStash::Inputs::Base DEFAULT_DESERIALIZER_CLASS = "org.apache.kafka.common.serialization.StringDeserializer" include LogStash::PluginMixins::Kafka::Common include LogStash::PluginMixins::Kafka::AvroSchemaRegistry include LogStash::PluginMixins::DeprecationLoggerSupport config_name 'kafka' # default :codec, 'plain' or 'json' depending whether schema registry is used # # @override LogStash::Inputs::Base - removing the `:default => :plain` config :codec, :validate => :codec # NOTE: isn't necessary due the params['codec'] = ... done in #initialize # having the `nil` default explicit makes the behavior more noticeable. # The frequency in milliseconds that the consumer offsets are committed to Kafka. config :auto_commit_interval_ms, :validate => :number, :default => 5000 # Kafka default # What to do when there is no initial offset in Kafka or if an offset is out of range: # # * earliest: automatically reset the offset to the earliest offset # * latest: automatically reset the offset to the latest offset # * none: throw exception to the consumer if no previous offset is found for the consumer's group # * anything else: throw exception to the consumer. config :auto_offset_reset, :validate => :string # A list of URLs of Kafka instances to use for establishing the initial connection to the cluster. # This list should be in the form of `host1:port1,host2:port2` These urls are just used # for the initial connection to discover the full cluster membership (which may change dynamically) # so this list need not contain the full set of servers (you may want more than one, though, in # case a server is down). config :bootstrap_servers, :validate => :string, :default => "localhost:9092" # Automatically check the CRC32 of the records consumed. This ensures no on-the-wire or on-disk # corruption to the messages occurred. This check adds some overhead, so it may be # disabled in cases seeking extreme performance. config :check_crcs, :validate => :boolean, :default => true # How DNS lookups should be done. If set to `use_all_dns_ips`, when the lookup returns multiple # IP addresses for a hostname, they will all be attempted to connect to before failing the # connection. If the value is `resolve_canonical_bootstrap_servers_only` each entry will be # resolved and expanded into a list of canonical names. # Starting from Kafka 3 `default` value for `client.dns.lookup` value has been removed. If explicitly configured it fallbacks to `use_all_dns_ips`. config :client_dns_lookup, :validate => ["default", "use_all_dns_ips", "resolve_canonical_bootstrap_servers_only"], :default => "use_all_dns_ips" # The id string to pass to the server when making requests. The purpose of this # is to be able to track the source of requests beyond just ip/port by allowing # a logical application name to be included. config :client_id, :validate => :string, :default => "logstash" # Ideally you should have as many threads as the number of partitions for a perfect # balance — more threads than partitions means that some threads will be idle config :consumer_threads, :validate => :number, :default => 1 # If true, periodically commit to Kafka the offsets of messages already returned by the consumer. # This committed offset will be used when the process fails as the position from # which the consumption will begin. config :enable_auto_commit, :validate => :boolean, :default => true # Whether records from internal topics (such as offsets) should be exposed to the consumer. # If set to true the only way to receive records from an internal topic is subscribing to it. config :exclude_internal_topics, :validate => :string # The maximum amount of data the server should return for a fetch request. This is not an # absolute maximum, if the first message in the first non-empty partition of the fetch is larger # than this value, the message will still be returned to ensure that the consumer can make progress. config :fetch_max_bytes, :validate => :number, :default => 52_428_800 # (50MB) Kafka default # The maximum amount of time the server will block before answering the fetch request if # there isn't sufficient data to immediately satisfy `fetch_min_bytes`. This # should be less than or equal to the timeout used in `poll_timeout_ms` config :fetch_max_wait_ms, :validate => :number, :default => 500 # Kafka default # The minimum amount of data the server should return for a fetch request. If insufficient # data is available the request will wait for that much data to accumulate # before answering the request. config :fetch_min_bytes, :validate => :number # The identifier of the group this consumer belongs to. Consumer group is a single logical subscriber # that happens to be made up of multiple processors. Messages in a topic will be distributed to all # Logstash instances with the same `group_id` config :group_id, :validate => :string, :default => "logstash" # Set a static group instance id used in static membership feature to avoid rebalancing when a # consumer goes offline. If set and `consumer_threads` is greater than 1 then for each # consumer crated by each thread an artificial suffix is appended to the user provided `group_instance_id` # to avoid clashing. config :group_instance_id, :validate => :string # The expected time between heartbeats to the consumer coordinator. Heartbeats are used to ensure # that the consumer's session stays active and to facilitate rebalancing when new # consumers join or leave the group. The value must be set lower than # `session.timeout.ms`, but typically should be set no higher than 1/3 of that value. # It can be adjusted even lower to control the expected time for normal rebalances. config :heartbeat_interval_ms, :validate => :number, :default => 3000 # Kafka default # Controls how to read messages written transactionally. If set to read_committed, consumer.poll() # will only return transactional messages which have been committed. If set to read_uncommitted' # (the default), consumer.poll() will return all messages, even transactional messages which have # been aborted. Non-transactional messages will be returned unconditionally in either mode. config :isolation_level, :validate => ["read_uncommitted", "read_committed"], :default => "read_uncommitted" # Kafka default # Java Class used to deserialize the record's key config :key_deserializer_class, :validate => :string, :default => DEFAULT_DESERIALIZER_CLASS # The maximum delay between invocations of poll() when using consumer group management. This places # an upper bound on the amount of time that the consumer can be idle before fetching more records. # If poll() is not called before expiration of this timeout, then the consumer is considered failed and # the group will rebalance in order to reassign the partitions to another member. config :max_poll_interval_ms, :validate => :number, :default => 300_000 # (5m) Kafka default # The maximum amount of data per-partition the server will return. The maximum total memory used for a # request will be #partitions * max.partition.fetch.bytes. This size must be at least # as large as the maximum message size the server allows or else it is possible for the producer to # send messages larger than the consumer can fetch. If that happens, the consumer can get stuck trying # to fetch a large message on a certain partition. config :max_partition_fetch_bytes, :validate => :number, :default => 1_048_576 # (1MB) Kafka default # The maximum number of records returned in a single call to poll(). config :max_poll_records, :validate => :number, :default => 500 # Kafka default # The name of the partition assignment strategy that the client uses to distribute # partition ownership amongst consumer instances, supported options are `range`, # `round_robin`, `sticky` and `cooperative_sticky` # (for backwards compatibility setting the class name directly is supported). config :partition_assignment_strategy, :validate => :string # The size of the TCP receive buffer (SO_RCVBUF) to use when reading data. # If the value is `-1`, the OS default will be used. config :receive_buffer_bytes, :validate => :number, :default => 32_768 # (32KB) Kafka default # The base amount of time to wait before attempting to reconnect to a given host. # This avoids repeatedly connecting to a host in a tight loop. # This backoff applies to all connection attempts by the client to a broker. config :reconnect_backoff_ms, :validate => :number, :default => 50 # Kafka default # The amount of time to wait before attempting to retry a failed fetch request # to a given topic partition. This avoids repeated fetching-and-failing in a tight loop. config :retry_backoff_ms, :validate => :number, :default => 100 # Kafka default # The size of the TCP send buffer (SO_SNDBUF) to use when sending data. # If the value is -1, the OS default will be used. config :send_buffer_bytes, :validate => :number, :default => 131_072 # (128KB) Kafka default # The timeout after which, if the `poll_timeout_ms` is not invoked, the consumer is marked dead # and a rebalance operation is triggered for the group identified by `group_id` config :session_timeout_ms, :validate => :number, :default => 10_000 # (10s) Kafka default # Java Class used to deserialize the record's value config :value_deserializer_class, :validate => :string, :default => DEFAULT_DESERIALIZER_CLASS # A list of topics to subscribe to, defaults to ["logstash"]. config :topics, :validate => :array, :default => ["logstash"] # A topic regex pattern to subscribe to. # The topics configuration will be ignored when using this configuration. config :topics_pattern, :validate => :string # Time kafka consumer will wait to receive new messages from topics config :poll_timeout_ms, :validate => :number, :default => 100 # The rack id string to pass to the server when making requests. This is used # as a selector for a rack, region, or datacenter. Corresponds to the broker.rack parameter # in the broker configuration. # Only has an effect in combination with brokers with Kafka 2.4+ with the broker.rack setting. Ignored otherwise. config :client_rack, :validate => :string # The truststore type. config :ssl_truststore_type, :validate => :string # The JKS truststore path to validate the Kafka broker's certificate. config :ssl_truststore_location, :validate => :path # The truststore password config :ssl_truststore_password, :validate => :password # The keystore type. config :ssl_keystore_type, :validate => :string # If client authentication is required, this setting stores the keystore path. config :ssl_keystore_location, :validate => :path # If client authentication is required, this setting stores the keystore password config :ssl_keystore_password, :validate => :password # The password of the private key in the key store file. config :ssl_key_password, :validate => :password # Algorithm to use when verifying host. Set to "" to disable config :ssl_endpoint_identification_algorithm, :validate => :string, :default => 'https' # Security protocol to use, which can be either of PLAINTEXT,SSL,SASL_PLAINTEXT,SASL_SSL config :security_protocol, :validate => ["PLAINTEXT", "SSL", "SASL_PLAINTEXT", "SASL_SSL"], :default => "PLAINTEXT" # SASL client callback handler class config :sasl_client_callback_handler_class, :validate => :string # http://kafka.apache.org/documentation.html#security_sasl[SASL mechanism] used for client connections. # This may be any mechanism for which a security provider is available. # GSSAPI is the default mechanism. config :sasl_mechanism, :validate => :string, :default => "GSSAPI" # The Kerberos principal name that Kafka broker runs as. # This can be defined either in Kafka's JAAS config or in Kafka's config. config :sasl_kerberos_service_name, :validate => :string # The Java Authentication and Authorization Service (JAAS) API supplies user authentication and authorization # services for Kafka. This setting provides the path to the JAAS file. Sample JAAS file for Kafka client: # [source,java] # ---------------------------------- # KafkaClient { # com.sun.security.auth.module.Krb5LoginModule required # useTicketCache=true # renewTicket=true # serviceName="kafka"; # }; # ---------------------------------- # # Please note that specifying `jaas_path` and `kerberos_config` in the config file will add these # to the global JVM system properties. This means if you have multiple Kafka inputs, all of them would be sharing the same # `jaas_path` and `kerberos_config`. If this is not desirable, you would have to run separate instances of Logstash on # different JVM instances. config :jaas_path, :validate => :path # JAAS configuration settings. This allows JAAS config to be a part of the plugin configuration and allows for different JAAS configuration per each plugin config. config :sasl_jaas_config, :validate => :string # Optional path to kerberos config file. This is krb5.conf style as detailed in https://web.mit.edu/kerberos/krb5-1.12/doc/admin/conf_files/krb5_conf.html config :kerberos_config, :validate => :path # Option to add Kafka metadata like topic, message size and header key values to the event. # With `basic` this will add a field named `kafka` to the logstash event containing the following attributes: # `topic`: The topic this message is associated with # `consumer_group`: The consumer group used to read in this event # `partition`: The partition this message is associated with # `offset`: The offset from the partition this message is associated with # `key`: A ByteBuffer containing the message key # `timestamp`: The timestamp of this message # While with `extended` it adds also all the key values present in the Kafka header if the key is valid UTF-8 else # silently skip it. # # Controls whether a kafka topic is automatically created when subscribing to a non-existent topic. # A topic will be auto-created only if this configuration is set to `true` and auto-topic creation is enabled on the broker using `auto.create.topics.enable`;  # otherwise auto-topic creation is not permitted. config :auto_create_topics, :validate => :boolean, :default => true config :decorate_events, :validate => %w(none basic extended false true), :default => "none" attr_reader :metadata_mode # @overload based on schema registry change the codec default def initialize(params = {}) unless params.key?('codec') params['codec'] = params.key?('schema_registry_url') ? 'json' : 'plain' end super(params) end public def register @runner_threads = [] @metadata_mode = extract_metadata_level(@decorate_events) reassign_dns_lookup @pattern ||= java.util.regex.Pattern.compile(@topics_pattern) unless @topics_pattern.nil? check_schema_registry_parameters end METADATA_NONE = Set[].freeze METADATA_BASIC = Set[:record_props].freeze METADATA_EXTENDED = Set[:record_props, :headers].freeze METADATA_DEPRECATION_MAP = { 'true' => 'basic', 'false' => 'none' } private def extract_metadata_level(decorate_events_setting) metadata_enabled = decorate_events_setting if METADATA_DEPRECATION_MAP.include?(metadata_enabled) canonical_value = METADATA_DEPRECATION_MAP[metadata_enabled] deprecation_logger.deprecated("Deprecated value `#{decorate_events_setting}` for `decorate_events` option; use `#{canonical_value}` instead.") metadata_enabled = canonical_value end case metadata_enabled when 'none' then METADATA_NONE when 'basic' then METADATA_BASIC when 'extended' then METADATA_EXTENDED end end public def run(logstash_queue) @runner_consumers = consumer_threads.times.map do |i| thread_group_instance_id = consumer_threads > 1 && group_instance_id ? "#{group_instance_id}-#{i}" : group_instance_id subscribe(create_consumer("#{client_id}-#{i}", thread_group_instance_id)) end @runner_threads = @runner_consumers.map.with_index { |consumer, i| thread_runner(logstash_queue, consumer, "kafka-input-worker-#{client_id}-#{i}") } @runner_threads.each(&:start) @runner_threads.each(&:join) end # def run public def stop # if we have consumers, wake them up to unblock our runner threads @runner_consumers && @runner_consumers.each(&:wakeup) end public def kafka_consumers @runner_consumers end def subscribe(consumer) @pattern.nil? ? consumer.subscribe(topics) : consumer.subscribe(@pattern) consumer end def thread_runner(logstash_queue, consumer, name) java.lang.Thread.new do LogStash::Util::set_thread_name(name) begin codec_instance = @codec.clone until stop? records = do_poll(consumer) unless records.empty? records.each { |record| handle_record(record, codec_instance, logstash_queue) } maybe_commit_offset(consumer) end end ensure consumer.close end end end def do_poll(consumer) records = [] begin records = consumer.poll(java.time.Duration.ofMillis(poll_timeout_ms)) rescue org.apache.kafka.common.errors.WakeupException => e logger.debug("Wake up from poll", :kafka_error_message => e) raise e unless stop? rescue org.apache.kafka.common.errors.FencedInstanceIdException => e logger.error("Another consumer with same group.instance.id has connected", :original_error_message => e.message) raise e unless stop? rescue => e logger.error("Unable to poll Kafka consumer", :kafka_error_message => e, :cause => e.respond_to?(:getCause) ? e.getCause : nil) Stud.stoppable_sleep(1) { stop? } end records end def handle_record(record, codec_instance, queue) # use + since .to_s on nil/boolean returns a frozen string since ruby 2.7 codec_instance.decode(+record.value.to_s) do |event| decorate(event) maybe_set_metadata(event, record) queue << event end end def maybe_set_metadata(event, record) if @metadata_mode.include?(:record_props) event.set("[@metadata][kafka][topic]", record.topic) event.set("[@metadata][kafka][consumer_group]", @group_id) event.set("[@metadata][kafka][partition]", record.partition) event.set("[@metadata][kafka][offset]", record.offset) event.set("[@metadata][kafka][key]", record.key) event.set("[@metadata][kafka][timestamp]", record.timestamp) end if @metadata_mode.include?(:headers) record.headers .select{|h| header_with_value(h) } .each do |header| s = String.from_java_bytes(header.value) s.force_encoding(Encoding::UTF_8) if s.valid_encoding? event.set("[@metadata][kafka][headers][" + header.key + "]", s) end end end end def maybe_commit_offset(consumer) begin consumer.commitSync if @enable_auto_commit.eql?(false) rescue org.apache.kafka.common.errors.WakeupException => e logger.debug("Wake up from commitSync", :kafka_error_message => e) raise e unless stop? rescue StandardError => e # For transient errors, the commit should be successful after the next set of # polled records has been processed. # But, it might also be worth thinking about adding a configurable retry mechanism logger.error("Unable to commit records", :kafka_error_message => e, :cause => e.respond_to?(:getCause) ? e.getCause() : nil) end end private def create_consumer(client_id, group_instance_id) begin props = java.util.Properties.new kafka = org.apache.kafka.clients.consumer.ConsumerConfig props.put(kafka::AUTO_COMMIT_INTERVAL_MS_CONFIG, auto_commit_interval_ms.to_s) unless auto_commit_interval_ms.nil? props.put(kafka::AUTO_OFFSET_RESET_CONFIG, auto_offset_reset) unless auto_offset_reset.nil? props.put(kafka::ALLOW_AUTO_CREATE_TOPICS_CONFIG, auto_create_topics) unless auto_create_topics.nil? props.put(kafka::BOOTSTRAP_SERVERS_CONFIG, bootstrap_servers) props.put(kafka::CHECK_CRCS_CONFIG, check_crcs.to_s) unless check_crcs.nil? props.put(kafka::CLIENT_DNS_LOOKUP_CONFIG, client_dns_lookup) props.put(kafka::CLIENT_ID_CONFIG, client_id) props.put(kafka::CONNECTIONS_MAX_IDLE_MS_CONFIG, connections_max_idle_ms.to_s) unless connections_max_idle_ms.nil? props.put(kafka::ENABLE_AUTO_COMMIT_CONFIG, enable_auto_commit.to_s) props.put(kafka::EXCLUDE_INTERNAL_TOPICS_CONFIG, exclude_internal_topics) unless exclude_internal_topics.nil? props.put(kafka::FETCH_MAX_BYTES_CONFIG, fetch_max_bytes.to_s) unless fetch_max_bytes.nil? props.put(kafka::FETCH_MAX_WAIT_MS_CONFIG, fetch_max_wait_ms.to_s) unless fetch_max_wait_ms.nil? props.put(kafka::FETCH_MIN_BYTES_CONFIG, fetch_min_bytes.to_s) unless fetch_min_bytes.nil? props.put(kafka::GROUP_ID_CONFIG, group_id) props.put(kafka::GROUP_INSTANCE_ID_CONFIG, group_instance_id) unless group_instance_id.nil? props.put(kafka::HEARTBEAT_INTERVAL_MS_CONFIG, heartbeat_interval_ms.to_s) unless heartbeat_interval_ms.nil? props.put(kafka::ISOLATION_LEVEL_CONFIG, isolation_level) props.put(kafka::KEY_DESERIALIZER_CLASS_CONFIG, key_deserializer_class) props.put(kafka::MAX_PARTITION_FETCH_BYTES_CONFIG, max_partition_fetch_bytes.to_s) unless max_partition_fetch_bytes.nil? props.put(kafka::MAX_POLL_RECORDS_CONFIG, max_poll_records.to_s) unless max_poll_records.nil? props.put(kafka::MAX_POLL_INTERVAL_MS_CONFIG, max_poll_interval_ms.to_s) unless max_poll_interval_ms.nil? props.put(kafka::METADATA_MAX_AGE_CONFIG, metadata_max_age_ms.to_s) unless metadata_max_age_ms.nil? props.put(kafka::PARTITION_ASSIGNMENT_STRATEGY_CONFIG, partition_assignment_strategy_class) unless partition_assignment_strategy.nil? props.put(kafka::RECEIVE_BUFFER_CONFIG, receive_buffer_bytes.to_s) unless receive_buffer_bytes.nil? props.put(kafka::RECONNECT_BACKOFF_MS_CONFIG, reconnect_backoff_ms.to_s) unless reconnect_backoff_ms.nil? props.put(kafka::REQUEST_TIMEOUT_MS_CONFIG, request_timeout_ms.to_s) unless request_timeout_ms.nil? props.put(kafka::RETRY_BACKOFF_MS_CONFIG, retry_backoff_ms.to_s) unless retry_backoff_ms.nil? props.put(kafka::SEND_BUFFER_CONFIG, send_buffer_bytes.to_s) unless send_buffer_bytes.nil? props.put(kafka::SESSION_TIMEOUT_MS_CONFIG, session_timeout_ms.to_s) unless session_timeout_ms.nil? props.put(kafka::VALUE_DESERIALIZER_CLASS_CONFIG, value_deserializer_class) props.put(kafka::CLIENT_RACK_CONFIG, client_rack) unless client_rack.nil? props.put("security.protocol", security_protocol) unless security_protocol.nil? if schema_registry_url props.put(kafka::VALUE_DESERIALIZER_CLASS_CONFIG, Java::io.confluent.kafka.serializers.KafkaAvroDeserializer.java_class) serdes_config = Java::io.confluent.kafka.serializers.AbstractKafkaAvroSerDeConfig props.put(serdes_config::SCHEMA_REGISTRY_URL_CONFIG, schema_registry_url.uri.to_s) if schema_registry_proxy && !schema_registry_proxy.empty? props.put(serdes_config::PROXY_HOST, @schema_registry_proxy_host) props.put(serdes_config::PROXY_PORT, @schema_registry_proxy_port) end if schema_registry_key && !schema_registry_key.empty? props.put(serdes_config::BASIC_AUTH_CREDENTIALS_SOURCE, 'USER_INFO') props.put(serdes_config::USER_INFO_CONFIG, schema_registry_key + ":" + schema_registry_secret.value) else props.put(serdes_config::BASIC_AUTH_CREDENTIALS_SOURCE, 'URL') end end if security_protocol == "SSL" set_trustore_keystore_config(props) elsif security_protocol == "SASL_PLAINTEXT" set_sasl_config(props) elsif security_protocol == "SASL_SSL" set_trustore_keystore_config(props) set_sasl_config(props) end if schema_registry_ssl_truststore_location props.put('schema.registry.ssl.truststore.location', schema_registry_ssl_truststore_location) props.put('schema.registry.ssl.truststore.password', schema_registry_ssl_truststore_password.value) props.put('schema.registry.ssl.truststore.type', schema_registry_ssl_truststore_type) end if schema_registry_ssl_keystore_location props.put('schema.registry.ssl.keystore.location', schema_registry_ssl_keystore_location) props.put('schema.registry.ssl.keystore.password', schema_registry_ssl_keystore_password.value) props.put('schema.registry.ssl.keystore.type', schema_registry_ssl_keystore_type) end org.apache.kafka.clients.consumer.KafkaConsumer.new(props) rescue => e logger.error("Unable to create Kafka consumer from given configuration", :kafka_error_message => e, :cause => e.respond_to?(:getCause) ? e.getCause() : nil) raise e end end def partition_assignment_strategy_class case partition_assignment_strategy when 'range' 'org.apache.kafka.clients.consumer.RangeAssignor' when 'round_robin' 'org.apache.kafka.clients.consumer.RoundRobinAssignor' when 'sticky' 'org.apache.kafka.clients.consumer.StickyAssignor' when 'cooperative_sticky' 'org.apache.kafka.clients.consumer.CooperativeStickyAssignor' else unless partition_assignment_strategy.index('.') raise LogStash::ConfigurationError, "unsupported partition_assignment_strategy: #{partition_assignment_strategy.inspect}" end partition_assignment_strategy # assume a fully qualified class-name end end def header_with_value(header) !header.nil? && !header.value.nil? && !header.key.nil? end end #class LogStash::Inputs::Kafka