confluent-kafka-go is Confluent's Golang client for Apache Kafka and the Confluent Platform.
Features:
-
High performance - confluent-kafka-go is a lightweight wrapper around librdkafka, a finely tuned C client.
-
Reliability - There are a lot of details to get right when writing an Apache Kafka client. We get them right in one place (librdkafka) and leverage this work across all of our clients (also confluent-kafka-python and confluent-kafka-dotnet).
-
Supported - Commercial support is offered by Confluent.
-
Future proof - Confluent, founded by the creators of Kafka, is building a streaming platform with Apache Kafka at its core. It's high priority for us that client features keep pace with core Apache Kafka and components of the Confluent Platform.
The Golang bindings provides a high-level Producer and Consumer with support for the balanced consumer groups of Apache Kafka 0.9 and above.
See the API documentation for more information.
License: Apache License v2.0
High-level balanced consumer
import (
"fmt"
"gopkg.in/confluentinc/confluent-kafka-go.v1/kafka"
)
func main() {
c, err := kafka.NewConsumer(&kafka.ConfigMap{
"bootstrap.servers": "localhost",
"group.id": "myGroup",
"auto.offset.reset": "earliest",
})
if err != nil {
panic(err)
}
c.SubscribeTopics([]string{"myTopic", "^aRegex.*[Tt]opic"}, nil)
for {
msg, err := c.ReadMessage(-1)
if err == nil {
fmt.Printf("Message on %s: %s\n", msg.TopicPartition, string(msg.Value))
} else {
// The client will automatically try to recover from all errors.
fmt.Printf("Consumer error: %v (%v)\n", err, msg)
}
}
c.Close()
}
Producer
import (
"fmt"
"gopkg.in/confluentinc/confluent-kafka-go.v1/kafka"
)
func main() {
p, err := kafka.NewProducer(&kafka.ConfigMap{"bootstrap.servers": "localhost"})
if err != nil {
panic(err)
}
defer p.Close()
// Delivery report handler for produced messages
go func() {
for e := range p.Events() {
switch ev := e.(type) {
case *kafka.Message:
if ev.TopicPartition.Error != nil {
fmt.Printf("Delivery failed: %v\n", ev.TopicPartition)
} else {
fmt.Printf("Delivered message to %v\n", ev.TopicPartition)
}
}
}
}()
// Produce messages to topic (asynchronously)
topic := "myTopic"
for _, word := range []string{"Welcome", "to", "the", "Confluent", "Kafka", "Golang", "client"} {
p.Produce(&kafka.Message{
TopicPartition: kafka.TopicPartition{Topic: &topic, Partition: kafka.PartitionAny},
Value: []byte(word),
}, nil)
}
// Wait for message deliveries before shutting down
p.Flush(15 * 1000)
}
More elaborate examples are available in the examples directory, including how to configure the Go client for use with Confluent Cloud.
Supports Go 1.11+ and librdkafka 1.4.0+.
Starting with Go 1.13, you can use Go Modules to install confluent-kafka-go.
Import the kafka
package from GitHub in your code:
import "github.com/confluentinc/confluent-kafka-go/kafka"
Build your project:
go build ./...
If you are building for Alpine Linux (musl), -tags musl
must be specified.
go build -tags musl ./...
A dependency to the latest stable version of confluent-kafka-go should be automatically added to
your go.mod
file.
If Go modules can't be used we recommend that you version pin the confluent-kafka-go import to v1 using gopkg.in:
Manual install:
go get -u gopkg.in/confluentinc/confluent-kafka-go.v1/kafka
Golang import:
import "gopkg.in/confluentinc/confluent-kafka-go.v1/kafka"
Prebuilt librdkafka binaries are included with the Go client and librdkafka does not need to be installed separately on the build or target system. The following platforms are supported by the prebuilt librdkafka binaries:
- Mac OSX x64
- glibc-based Linux x64 (e.g., RedHat, Debian, CentOS, Ubuntu, etc) - without GSSAPI/Kerberos support
- musl-based Linux 64 (Alpine) - without GSSAPI/Kerberos support
When building your application for Alpine Linux (musl libc) you must pass
-tags musl
to go get
, go build
, etc.
CGO_ENABLED
must NOT be set to 0 since the Go client is based on the
C library librdkafka.
If GSSAPI/Kerberos authentication support is required you will need
to install librdkafka separately, see the Installing librdkafka chapter
below, and then build your Go application with -tags dynamic
.
If the bundled librdkafka build is not supported on your platform, or you need a librdkafka with GSSAPI/Kerberos support, you must install librdkafka manually on the build and target system using one of the following alternatives:
- For Debian and Ubuntu based distros, install
librdkafka-dev
from the standard repositories or using Confluent's Deb repository. - For Redhat based distros, install
librdkafka-devel
using Confluent's YUM repository. - For MacOS X, install
librdkafka
from Homebrew. You may also need to brew install pkg-config if you don't already have it:brew install librdkafka pkg-config
. - For Alpine:
apk add librdkafka-dev pkgconf
- confluent-kafka-go is not supported on Windows.
- For source builds, see instructions below.
Build from source:
git clone https://github.com/edenhill/librdkafka.git
cd librdkafka
./configure
make
sudo make install
After installing librdkafka you will need to build your Go application
with -tags dynamic
.
Note: If you use the master branch of the Go client, then you need to use the master branch of librdkafka.
confluent-kafka-go requires librdkafka v1.4.0 or later.
There are two main API strands: function and channel based.
Messages, errors and events are polled through the consumer.Poll() function.
Pros:
- More direct mapping to underlying librdkafka functionality.
Cons:
- Makes it harder to read from multiple channels, but a go-routine easily solves that (see Cons in channel based consumer above about outdated events).
- Slower than the channel consumer.
Deprecated: The channel based consumer is deprecated due to the channel issues mentioned below. Use the function based consumer.
Messages, errors and events are posted on the consumer.Events channel for the application to read.
Pros:
- Possibly more Golang:ish
- Makes reading from multiple channels easy
- Fast
Cons:
- Outdated events and messages may be consumed due to the buffering nature
of channels. The extent is limited, but not remedied, by the Events channel
buffer size (
go.events.channel.size
).
See examples/consumer_channel_example
Application writes messages to the producer.ProducerChannel. Delivery reports are emitted on the producer.Events or specified private channel.
Pros:
- Go:ish
- Proper channel backpressure if librdkafka internal queue is full.
Cons:
- Double queueing: messages are first queued in the channel (size is configurable) and then inside librdkafka.
See examples/producer_channel_example
Application calls producer.Produce() to produce messages. Delivery reports are emitted on the producer.Events or specified private channel.
Pros:
- Go:ish
Cons:
- Produce() is a non-blocking call, if the internal librdkafka queue is full the call will fail.
- Somewhat slower than the channel producer.
See kafka/README
Contributions to the code, examples, documentation, et.al, are very much appreciated.
Make your changes, run gofmt, tests, etc, push your branch, create a PR, and sign the CLA.