Blame - vendor/github.com/Shopify/sarama/sarama.go - voltctl

Scott Baker

2020-01-13 19:12:25 -0800

/*

Package sarama is a pure Go client library for dealing with Apache Kafka (versions 0.8 and later). It includes a high-level

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API for easily producing and consuming messages, and a low-level API for controlling bytes on the wire when the high-level

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API is insufficient. Usage examples for the high-level APIs are provided inline with their full documentation.

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To produce messages, use either the AsyncProducer or the SyncProducer. The AsyncProducer accepts messages on a channel

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and produces them asynchronously in the background as efficiently as possible; it is preferred in most cases.

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The SyncProducer provides a method which will block until Kafka acknowledges the message as produced. This can be

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useful but comes with two caveats: it will generally be less efficient, and the actual durability guarantees

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depend on the configured value of `Producer.RequiredAcks`. There are configurations where a message acknowledged by the

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SyncProducer can still sometimes be lost.

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To consume messages, use Consumer or Consumer-Group API.

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For lower-level needs, the Broker and Request/Response objects permit precise control over each connection

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and message sent on the wire; the Client provides higher-level metadata management that is shared between

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the producers and the consumer. The Request/Response objects and properties are mostly undocumented, as they line up

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exactly with the protocol fields documented by Kafka at

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https://cwiki.apache.org/confluence/display/KAFKA/A+Guide+To+The+Kafka+Protocol

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Metrics are exposed through https://github.com/rcrowley/go-metrics library in a local registry.

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Broker related metrics:

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+----------------------------------------------+------------+---------------------------------------------------------------+

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| Name | Type | Description |

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+----------------------------------------------+------------+---------------------------------------------------------------+

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| incoming-byte-rate | meter | Bytes/second read off all brokers |

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| incoming-byte-rate-for-broker-<broker-id> | meter | Bytes/second read off a given broker |

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| outgoing-byte-rate | meter | Bytes/second written off all brokers |

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| outgoing-byte-rate-for-broker-<broker-id> | meter | Bytes/second written off a given broker |

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| request-rate | meter | Requests/second sent to all brokers |

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| request-rate-for-broker-<broker-id> | meter | Requests/second sent to a given broker |

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| request-size | histogram | Distribution of the request size in bytes for all brokers |

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| request-size-for-broker-<broker-id> | histogram | Distribution of the request size in bytes for a given broker |

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| request-latency-in-ms | histogram | Distribution of the request latency in ms for all brokers |

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| request-latency-in-ms-for-broker-<broker-id> | histogram | Distribution of the request latency in ms for a given broker |

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| response-rate | meter | Responses/second received from all brokers |

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| response-rate-for-broker-<broker-id> | meter | Responses/second received from a given broker |

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| response-size | histogram | Distribution of the response size in bytes for all brokers |

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| response-size-for-broker-<broker-id> | histogram | Distribution of the response size in bytes for a given broker |

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+----------------------------------------------+------------+---------------------------------------------------------------+

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Note that we do not gather specific metrics for seed brokers but they are part of the "all brokers" metrics.

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Producer related metrics:

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+-------------------------------------------+------------+--------------------------------------------------------------------------------------+

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| Name | Type | Description |

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+-------------------------------------------+------------+--------------------------------------------------------------------------------------+

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| batch-size | histogram | Distribution of the number of bytes sent per partition per request for all topics |

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| batch-size-for-topic-<topic> | histogram | Distribution of the number of bytes sent per partition per request for a given topic |

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| record-send-rate | meter | Records/second sent to all topics |

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| record-send-rate-for-topic-<topic> | meter | Records/second sent to a given topic |

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| records-per-request | histogram | Distribution of the number of records sent per request for all topics |

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| records-per-request-for-topic-<topic> | histogram | Distribution of the number of records sent per request for a given topic |

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| compression-ratio | histogram | Distribution of the compression ratio times 100 of record batches for all topics |

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| compression-ratio-for-topic-<topic> | histogram | Distribution of the compression ratio times 100 of record batches for a given topic |

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+-------------------------------------------+------------+--------------------------------------------------------------------------------------+

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Consumer related metrics:

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+-------------------------------------------+------------+--------------------------------------------------------------------------------------+

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| Name | Type | Description |

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+-------------------------------------------+------------+--------------------------------------------------------------------------------------+

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| consumer-batch-size | histogram | Distribution of the number of messages in a batch |

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+-------------------------------------------+------------+--------------------------------------------------------------------------------------+

*/

package sarama

import (

"io/ioutil"

"log"

)

var (

// Logger is the instance of a StdLogger interface that Sarama writes connection

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// management events to. By default it is set to discard all log messages via ioutil.Discard,

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// but you can set it to redirect wherever you want.

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Logger StdLogger = log.New(ioutil.Discard, "[Sarama] ", log.LstdFlags)

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// PanicHandler is called for recovering from panics spawned internally to the library (and thus

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// not recoverable by the caller's goroutine). Defaults to nil, which means panics are not recovered.

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PanicHandler func(interface{})

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// MaxRequestSize is the maximum size (in bytes) of any request that Sarama will attempt to send. Trying

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// to send a request larger than this will result in an PacketEncodingError. The default of 100 MiB is aligned

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// with Kafka's default `socket.request.max.bytes`, which is the largest request the broker will attempt

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// to process.

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MaxRequestSize int32 = 100 * 1024 * 1024

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// MaxResponseSize is the maximum size (in bytes) of any response that Sarama will attempt to parse. If

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// a broker returns a response message larger than this value, Sarama will return a PacketDecodingError to

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// protect the client from running out of memory. Please note that brokers do not have any natural limit on

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// the size of responses they send. In particular, they can send arbitrarily large fetch responses to consumers

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// (see https://issues.apache.org/jira/browse/KAFKA-2063).

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MaxResponseSize int32 = 100 * 1024 * 1024

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)

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// StdLogger is used to log error messages.

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type StdLogger interface {

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Print(v ...interface{})

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Printf(format string, v ...interface{})

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Println(v ...interface{})

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}

Scott Baker	ed4efab	2020-01-13 19:12:25 -0800	[diff] [blame]	1	/*
				2	Package sarama is a pure Go client library for dealing with Apache Kafka (versions 0.8 and later). It includes a high-level
				3	API for easily producing and consuming messages, and a low-level API for controlling bytes on the wire when the high-level
				4	API is insufficient. Usage examples for the high-level APIs are provided inline with their full documentation.
				5
				6	To produce messages, use either the AsyncProducer or the SyncProducer. The AsyncProducer accepts messages on a channel
				7	and produces them asynchronously in the background as efficiently as possible; it is preferred in most cases.
				8	The SyncProducer provides a method which will block until Kafka acknowledges the message as produced. This can be
				9	useful but comes with two caveats: it will generally be less efficient, and the actual durability guarantees
				10	depend on the configured value of `Producer.RequiredAcks`. There are configurations where a message acknowledged by the
				11	SyncProducer can still sometimes be lost.
				12
				13	To consume messages, use Consumer or Consumer-Group API.
				14
				15	For lower-level needs, the Broker and Request/Response objects permit precise control over each connection
				16	and message sent on the wire; the Client provides higher-level metadata management that is shared between
				17	the producers and the consumer. The Request/Response objects and properties are mostly undocumented, as they line up
				18	exactly with the protocol fields documented by Kafka at
				19	https://cwiki.apache.org/confluence/display/KAFKA/A+Guide+To+The+Kafka+Protocol
				20
				21	Metrics are exposed through https://github.com/rcrowley/go-metrics library in a local registry.
				22
				23	Broker related metrics:
				24
				25	+----------------------------------------------+------------+---------------------------------------------------------------+
				26	\| Name \| Type \| Description \|
				27	+----------------------------------------------+------------+---------------------------------------------------------------+
				28	\| incoming-byte-rate \| meter \| Bytes/second read off all brokers \|
				29	\| incoming-byte-rate-for-broker-<broker-id> \| meter \| Bytes/second read off a given broker \|
				30	\| outgoing-byte-rate \| meter \| Bytes/second written off all brokers \|
				31	\| outgoing-byte-rate-for-broker-<broker-id> \| meter \| Bytes/second written off a given broker \|
				32	\| request-rate \| meter \| Requests/second sent to all brokers \|
				33	\| request-rate-for-broker-<broker-id> \| meter \| Requests/second sent to a given broker \|
				34	\| request-size \| histogram \| Distribution of the request size in bytes for all brokers \|
				35	\| request-size-for-broker-<broker-id> \| histogram \| Distribution of the request size in bytes for a given broker \|
				36	\| request-latency-in-ms \| histogram \| Distribution of the request latency in ms for all brokers \|
				37	\| request-latency-in-ms-for-broker-<broker-id> \| histogram \| Distribution of the request latency in ms for a given broker \|
				38	\| response-rate \| meter \| Responses/second received from all brokers \|
				39	\| response-rate-for-broker-<broker-id> \| meter \| Responses/second received from a given broker \|
				40	\| response-size \| histogram \| Distribution of the response size in bytes for all brokers \|
				41	\| response-size-for-broker-<broker-id> \| histogram \| Distribution of the response size in bytes for a given broker \|
				42	+----------------------------------------------+------------+---------------------------------------------------------------+
				43
				44	Note that we do not gather specific metrics for seed brokers but they are part of the "all brokers" metrics.
				45
				46	Producer related metrics:
				47
				48	+-------------------------------------------+------------+--------------------------------------------------------------------------------------+
				49	\| Name \| Type \| Description \|
				50	+-------------------------------------------+------------+--------------------------------------------------------------------------------------+
				51	\| batch-size \| histogram \| Distribution of the number of bytes sent per partition per request for all topics \|
				52	\| batch-size-for-topic-<topic> \| histogram \| Distribution of the number of bytes sent per partition per request for a given topic \|
				53	\| record-send-rate \| meter \| Records/second sent to all topics \|
				54	\| record-send-rate-for-topic-<topic> \| meter \| Records/second sent to a given topic \|
				55	\| records-per-request \| histogram \| Distribution of the number of records sent per request for all topics \|
				56	\| records-per-request-for-topic-<topic> \| histogram \| Distribution of the number of records sent per request for a given topic \|
				57	\| compression-ratio \| histogram \| Distribution of the compression ratio times 100 of record batches for all topics \|
				58	\| compression-ratio-for-topic-<topic> \| histogram \| Distribution of the compression ratio times 100 of record batches for a given topic \|
				59	+-------------------------------------------+------------+--------------------------------------------------------------------------------------+
				60
				61	Consumer related metrics:
				62
				63	+-------------------------------------------+------------+--------------------------------------------------------------------------------------+
				64	\| Name \| Type \| Description \|
				65	+-------------------------------------------+------------+--------------------------------------------------------------------------------------+
				66	\| consumer-batch-size \| histogram \| Distribution of the number of messages in a batch \|
				67	+-------------------------------------------+------------+--------------------------------------------------------------------------------------+
				68
				69	*/
				70	package sarama
				71
				72	import (
				73	"io/ioutil"
				74	"log"
				75	)
				76
				77	var (
				78	// Logger is the instance of a StdLogger interface that Sarama writes connection
				79	// management events to. By default it is set to discard all log messages via ioutil.Discard,
				80	// but you can set it to redirect wherever you want.
				81	Logger StdLogger = log.New(ioutil.Discard, "[Sarama] ", log.LstdFlags)
				82
				83	// PanicHandler is called for recovering from panics spawned internally to the library (and thus
				84	// not recoverable by the caller's goroutine). Defaults to nil, which means panics are not recovered.
				85	PanicHandler func(interface{})
				86
				87	// MaxRequestSize is the maximum size (in bytes) of any request that Sarama will attempt to send. Trying
				88	// to send a request larger than this will result in an PacketEncodingError. The default of 100 MiB is aligned
				89	// with Kafka's default `socket.request.max.bytes`, which is the largest request the broker will attempt
				90	// to process.
				91	MaxRequestSize int32 = 100 * 1024 * 1024
				92
				93	// MaxResponseSize is the maximum size (in bytes) of any response that Sarama will attempt to parse. If
				94	// a broker returns a response message larger than this value, Sarama will return a PacketDecodingError to
				95	// protect the client from running out of memory. Please note that brokers do not have any natural limit on
				96	// the size of responses they send. In particular, they can send arbitrarily large fetch responses to consumers
				97	// (see https://issues.apache.org/jira/browse/KAFKA-2063).
				98	MaxResponseSize int32 = 100 * 1024 * 1024
				99	)
				100
				101	// StdLogger is used to log error messages.
				102	type StdLogger interface {
				103	Print(v ...interface{})
				104	Printf(format string, v ...interface{})
				105	Println(v ...interface{})
				106	}