uber go/zap和kafka go比赛条件

yvt65v4c  于 2021-06-04  发布在  Kafka
关注(0)|答案(1)|浏览(591)

我正在创建一个定制的记录器,在这里我们可以登录到std out和std err,但也添加了登录到kafka的可能性(代码示例如下:https://github.com/roppa/kafka-go). 我们有多个主题,所以我们需要多个记录器,但是当我们使用多个时,就会发生一些奇怪的事情。当两个kafka go设置都是异步的时,我不会收到消费者消息,当一个是异步的,另一个是同步的时,我们会得到如下结果:

//consumer topica
{"level":"\u001b[34mINFO\u001b[0m","timeStamp":"2020-12-09T15:31:04.023Z","msg":"topic-a log 1","UID":"abc123","ns":"test-service"}

{"level":"\u001b[34mINFO\u001b[0m","timeStamp":"2020-12-09T15:31:05.078Z","msg":"topic-a log 2","UID":"abc123","ns":"test-service"}

{"level":"\u001b[34mINFO\u001b[0m","timeStamp":"2020-12-09T15:31:06.085Z","msg":"topic-a log 3","UID":"abc123","ns":"test-service"}

//consumer topicb
2020-12-09T15:31:06.085Z    INFO    topic-a log 3   {"UID": "abc123", "ns": "test-service"}
2","UID":"abc123","ns":"test-service"}

更改同步会产生完全不同的效果。我是新来的。
这是main.go:

package main

import (
    "context"
    "kafka-log/logger"
)

func main() {
    loggerA := logger.Init("test-service", "localhost:9092", "topica", false, false)
    loggerB := logger.Init("test-service", "localhost:9092", "topicb", false, true)

    ctx := context.Background()
    ctx2 := context.WithValue(ctx, logger.UID, "abc123")

    loggerA.CInfo(ctx2, "topic-a log 1")
    loggerB.CInfo(ctx2, "topic-b log 1")

    loggerA.CInfo(ctx2, "topic-a log 2")
    loggerB.CInfo(ctx2, "topic-b log 2")

    loggerA.CInfo(ctx2, "topic-a log 3")
    loggerB.CInfo(ctx2, "topic-b log 3")
}

这是logger/logger.go:

package logger

import (
    "context"
    "os"

    "github.com/segmentio/kafka-go"
    "go.uber.org/zap"
    "go.uber.org/zap/zapcore"
)

type (
    key string

    // Logger type embeds zap and also contains the current system name (namespace, Ns)
    Logger struct {
        *zap.Logger
        Ns string
    }

    // KConfig type for creating a new Kafka logger. Takes a Namespace,
    // Broker (eg 'localhost:9092'), Topic (eg 'topic-a')
    KConfig struct {
        Namespace string
        Broker    string
        Topic     string
        Async     bool
    }

    producerInterface interface {
        WriteMessages(ctx context.Context, msgs ...kafka.Message) error
    }

    // KafkaProducer contains a kafka.Producer and Kafka topic
    KafkaProducer struct {
        Producer producerInterface
        Topic    string
    }
)

const (
    // UID - uniquely request identifier
    UID key = "request_id"
)

var customConfig = zapcore.EncoderConfig{
    TimeKey:        "timeStamp",
    LevelKey:       "level",
    NameKey:        "logger",
    CallerKey:      "caller",
    FunctionKey:    zapcore.OmitKey,
    MessageKey:     "msg",
    StacktraceKey:  "stacktrace",
    LineEnding:     zapcore.DefaultLineEnding,
    EncodeLevel:    zapcore.CapitalColorLevelEncoder,
    EncodeTime:     zapcore.ISO8601TimeEncoder,
    EncodeDuration: zapcore.SecondsDurationEncoder,
}

// CInfo this function takes a context as first parameter, extracts specific fields as well as namespace, and calls zap Info
func (l *Logger) CInfo(ctx context.Context, msg string, fields ...zap.Field) {
    l.Info(msg, consolidate(ctx, l.Ns, fields...)...)
}

func consolidate(ctx context.Context, namespace string, fields ...zap.Field) []zap.Field {
    return append(append(ctxToZapFields(ctx), fields...), zap.String("ns", namespace))
}

// See advanced config example: https://github.com/uber-go/zap/blob/master/example_test.go#L105
var lowPriority = zap.LevelEnablerFunc(func(lvl zapcore.Level) bool {
    return lvl < zapcore.ErrorLevel && lvl > zapcore.DebugLevel
})
var debugPriority = zap.LevelEnablerFunc(func(lvl zapcore.Level) bool {
    return lvl < zapcore.ErrorLevel
})
var kafkaPriority = zap.LevelEnablerFunc(func(lvl zapcore.Level) bool {
    return lvl > zapcore.DebugLevel
})

// Init creates a new instance of a logger. Namespace is the name of the module using the logger. broker and topic are Kafa specific,
// if either of these is not set a default console logger is created.
func Init(namespace, broker, topic string, debug, async bool) *Logger {
    var kp *KafkaProducer = nil
    if broker != "" && topic != "" {
        kp = NewKafkaProducer(&KConfig{
        Broker: broker,
        Topic:  topic,
        Async:  async,
    })
    }
    logger := getLogger(debug, kp)
    // logger.Info("initiated logger", zap.String("ns", namespace), zap.Bool("kafka", kp != nil), zap.Bool("debug", debug))
    return &Logger{logger, namespace}
}

func getLogger(debug bool, kp *KafkaProducer) *zap.Logger {
    // cores are logger interfaces
    var cores []zapcore.Core

    // optimise message for console output (human readable)
    consoleEncoder := zapcore.NewConsoleEncoder(customConfig)
    // Lock wraps a WriteSyncer in a mutex to make it safe for concurrent use.
    // See https://godoc.org/go.uber.org/zap/zapcore
    cores = append(cores,
        zapcore.NewCore(consoleEncoder, zapcore.Lock(os.Stdout), getPriority(debug)),
        zapcore.NewCore(consoleEncoder, zapcore.Lock(os.Stderr), zap.ErrorLevel),
    )

    if kp != nil {
        cores = append(cores, zapcore.NewCore(zapcore.NewJSONEncoder(customConfig), zapcore.Lock(zapcore.AddSync(kp)), kafkaPriority))
    }

    // join inputs, encoders, level-handling functions into cores, then "tee" together
    logger := zap.New(zapcore.NewTee(cores...))
    defer logger.Sync()
    return logger
}

func getPriority(debug bool) zap.LevelEnablerFunc {
    if debug {
        return debugPriority
    }
    return lowPriority
}

func ctxToZapFields(ctx context.Context) []zap.Field {
    reqID, _ := ctx.Value(UID).(string)
    return []zap.Field{
        zap.String("UID", reqID),
    }
}

// NewKafkaProducer instantiates a kafka.Producer, saves topic, and returns a KafkaProducer
func NewKafkaProducer(c *KConfig) *KafkaProducer {
    return &KafkaProducer{
        Producer: kafka.NewWriter(kafka.WriterConfig{
            Brokers:      []string{c.Broker},
            Topic:        c.Topic,
            Balancer:     &kafka.Hash{},
            Async:        c.Async,
            RequiredAcks: -1, // -1 = all
        }),
        Topic: c.Topic,
    }
}

// Write takes a message as a byte slice, wraps in a kafka.message and calls kafka Produce
func (kp *KafkaProducer) Write(msg []byte) (int, error) {
    return len(msg), kp.Producer.WriteMessages(context.Background(), kafka.Message{
        Key:   []byte(""),
        Value: msg,
    })
}

我为消费者使用这些:

docker exec kafka kafka-console-consumer --bootstrap-server localhost:9092 --topic topica

docker exec kafka kafka-console-consumer --bootstrap-server localhost:9092 --topic topicb

这是我的Kafka Docker 作品:

version: '3.8'

services:

  zookeeper:
    image: confluentinc/cp-zookeeper
    networks:
      - kafka-net
    container_name: zookeeper
    environment:
        ZOOKEEPER_CLIENT_PORT: 2181
    ports:
        - 2181:2181

  kafka:
    image: confluentinc/cp-kafka
    networks:
      - kafka-net
    container_name: kafka
    environment:
        KAFKA_ZOOKEEPER_CONNECT: zookeeper:2181
        KAFKA_OFFSETS_TOPIC_REPLICATION_FACTOR: 1
        ALLOW_PLAINTEXT_LISTENER: "yes"
        KAFKA_LISTENERS-INTERNAL: //kafka:29092,EXTERNAL://localhost:9092
        KAFKA_ADVERTISED: INTERNAL://kafka:29092,EXTERNAL://localhost:9092
        KAFKA_ADVERTISED_LISTENERS: INTERNAL://kafka:29092,EXTERNAL://localhost:9092
        KAFKA_LISTENER_SECURITY_PROTOCOL_MAP: INTERNAL:PLAINTEXT,EXTERNAL:PLAINTEXT
        KAFKA_INTER_BROKER_LISTENER_NAME: INTERNAL
    ports:
        - 9092:9092
        - 29092:29092
    depends_on:
        - zookeeper
    restart: on-failure

networks:
  kafka-net:
    driver: bridge
8ehkhllq

8ehkhllq1#

我设想您的程序在异步消息有时间发送之前就已经退出了(尽管如果我正确地阅读了您的示例,我很奇怪“topic-a log3”是唯一的日志消息)。与javascript不同,go在退出之前不会等待所有线程/goroutine终止。
还会突出显示kafka go异步配置的docstring:

// Setting this flag to true causes the WriteMessages method to never block.
// It also means that errors are ignored since the caller will not receive
// the returned value. Use this only if you don't care about guarantees of
// whether the messages were written to kafka.

在解决方案方面:我想你可以打电话解决这个问题 Close 关于作者:
https://pkg.go.dev/github.com/segmentio/kafka-go#writer.close
close刷新挂起的写入,并等待所有写入完成后返回。调用close还会阻止新的写操作提交给writer,对writemessages等的进一步调用将因io.errclosedpipe而失败。
你需要把下面的 KafkaProducer.Producer 打电话给我 KafkaProducer.Producer.Close 在离开之前。
可能有更聪明的方法来组织清理,但我似乎找不到比直接调用writer更简单的方法来清除挂起的消息。

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