Broker

Last updated: 3 minutes read.

Allows you to combine multiple inputs into a single stream of data, where each input will be read in parallel.

Common

# Common config fields, showing default values
input:
  label: ""
  broker:
    inputs: [] # No default (required)
    batching:
      count: 0
      byte_size: 0
      period: ""
      check: ""

## Advanced

# All config fields, showing default values
input:
  label: ""
  broker:
    copies: 1
    inputs: [] # No default (required)
    batching:
      count: 0
      byte_size: 0
      period: ""
      check: ""
      processors: [] # No default (optional)

A broker type is configured with its own list of input configurations and a field to specify how many copies of the list of inputs should be created.

Adding more input types allows you to combine streams from multiple sources into one. For example, reading from both RabbitMQ and Kafka:

input:
  broker:
    copies: 1
    inputs:
      - amqp_0_9:
          urls:
            - amqp://guest:guest@localhost:5672/
          consumer_tag: tyk-consumer
          queue: tyk-queue

        # Optional list of input specific processing steps
        processors:
          - mapping: |
              root.message = this
              root.meta.link_count = this.links.length()
              root.user.age = this.user.age.number()              

      - kafka:
          addresses:
            - localhost:9092
          client_id: tyk_kafka_input
          consumer_group: tyk_consumer_group
          topics: [ tyk_stream:0 ]

If the number of copies is greater than zero the list will be copied that number of times. For example, if your inputs were of type foo and bar, with ‘copies’ set to ‘2’, you would end up with two ‘foo’ inputs and two ‘bar’ inputs.

Batching

It’s possible to configure a batch policy with a broker using the batching fields. When doing this the feeds from all child inputs are combined. Some inputs do not support broker based batching and specify this in their documentation.

Processors

It is possible to configure processors at the broker level, where they will be applied to all child inputs, as well as on the individual child inputs. If you have processors at both the broker level and on child inputs then the broker processors will be applied after the child nodes processors.

Fields

copies

Whatever is specified within inputs will be created this many times.

Type: int
Default: 1

inputs

A list of inputs to create.

Type: array

batching

Allows you to configure a batching policy.

Type: object

# Examples

batching:
  byte_size: 5000
  count: 0
  period: 1s

batching:
  count: 10
  period: 1s

batching:
  check: this.contains("END BATCH")
  count: 0
  period: 1m

batching.count

A number of messages at which the batch should be flushed. If 0 disables count based batching.

Type: int
Default: 0

batching.byte_size

An amount of bytes at which the batch should be flushed. If 0 disables size based batching.

Type: int
Default: 0

batching.period

A period in which an incomplete batch should be flushed regardless of its size.

Type: string
Default: ""

# Examples

period: 1s

period: 1m

period: 500ms

batching.check

A Bloblang query that should return a boolean value indicating whether a message should end a batch.

Type: string
Default: ""

# Examples

check: this.type == "end_of_transaction"

batching.processors

A list of processors to apply to a batch as it is flushed. This allows you to aggregate and archive the batch however you see fit. Please note that all resulting messages are flushed as a single batch, therefore splitting the batch into smaller batches using these processors is a no-op.

Type: array

# Examples

processors:
  - archive:
      format: concatenate

processors:
  - archive:
      format: lines

processors:
  - archive:
      format: json_array