micro-broker-kgo/kgo.go

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// Package kgo provides a kafka broker using kgo
package kgo
import (
"context"
"errors"
"fmt"
"math/rand"
"strings"
"sync"
"time"
"github.com/google/uuid"
"github.com/twmb/franz-go/pkg/kgo"
"github.com/twmb/franz-go/pkg/kmsg"
"go.unistack.org/micro/v3/broker"
"go.unistack.org/micro/v3/logger"
"go.unistack.org/micro/v3/metadata"
"go.unistack.org/micro/v3/tracer"
mrand "go.unistack.org/micro/v3/util/rand"
)
var _ broker.Broker = (*Broker)(nil)
var ErrLostMessage = errors.New("message not marked for offsets commit and will be lost in next iteration")
var DefaultRetryBackoffFn = func() func(int) time.Duration {
var rngMu sync.Mutex
rng := rand.New(rand.NewSource(time.Now().UnixNano()))
return func(fails int) time.Duration {
const (
min = 100 * time.Millisecond
max = time.Second
)
if fails <= 0 {
return min
}
if fails > 10 {
return max
}
backoff := min * time.Duration(1<<(fails-1))
rngMu.Lock()
jitter := 0.8 + 0.4*rng.Float64()
rngMu.Unlock()
backoff = time.Duration(float64(backoff) * jitter)
if backoff > max {
return max
}
return backoff
}
}()
type Broker struct {
init bool
c *kgo.Client
kopts []kgo.Opt
connected bool
sync.RWMutex
opts broker.Options
subs []*subscriber
}
func (k *Broker) Address() string {
return strings.Join(k.opts.Addrs, ",")
}
func (k *Broker) Name() string {
return k.opts.Name
}
func (k *Broker) connect(ctx context.Context, opts ...kgo.Opt) (*kgo.Client, error) {
var c *kgo.Client
var err error
var span tracer.Span
ctx, span = k.opts.Tracer.Start(ctx, "Connect")
defer span.Finish()
clientID := "kgo"
group := ""
if k.opts.Context != nil {
if id, ok := k.opts.Context.Value(clientIDKey{}).(string); ok {
clientID = id
}
if id, ok := k.opts.Context.Value(groupKey{}).(string); ok {
group = id
}
}
opts = append(opts,
kgo.WithHooks(&hookMeter{meter: k.opts.Meter}),
kgo.WithHooks(&hookTracer{group: group, clientID: clientID, tracer: k.opts.Tracer}),
)
select {
case <-ctx.Done():
if ctx.Err() != nil {
span.SetStatus(tracer.SpanStatusError, ctx.Err().Error())
}
return nil, ctx.Err()
default:
c, err = kgo.NewClient(opts...)
if err == nil {
err = c.Ping(ctx) // check connectivity to cluster
}
if err != nil {
span.SetStatus(tracer.SpanStatusError, err.Error())
return nil, err
}
}
return c, nil
}
func (k *Broker) Connect(ctx context.Context) error {
k.RLock()
if k.connected {
k.RUnlock()
return nil
}
k.RUnlock()
nctx := k.opts.Context
if ctx != nil {
nctx = ctx
}
c, err := k.connect(nctx, k.kopts...)
if err != nil {
return err
}
k.Lock()
k.c = c
k.connected = true
k.Unlock()
return nil
}
func (k *Broker) Disconnect(ctx context.Context) error {
k.RLock()
if !k.connected {
k.RUnlock()
return nil
}
k.RUnlock()
nctx := k.opts.Context
if ctx != nil {
nctx = ctx
}
var span tracer.Span
ctx, span = k.opts.Tracer.Start(ctx, "Disconnect")
defer span.Finish()
k.Lock()
defer k.Unlock()
select {
case <-nctx.Done():
return nctx.Err()
default:
for _, sub := range k.subs {
if sub.closed {
continue
}
if err := sub.Unsubscribe(ctx); err != nil {
return err
}
}
if k.c != nil {
k.c.CloseAllowingRebalance()
// k.c.Close()
}
}
k.connected = false
return nil
}
func (k *Broker) Init(opts ...broker.Option) error {
k.Lock()
defer k.Unlock()
if len(opts) == 0 && k.init {
return nil
}
for _, o := range opts {
o(&k.opts)
}
if err := k.opts.Register.Init(); err != nil {
return err
}
if err := k.opts.Tracer.Init(); err != nil {
return err
}
if err := k.opts.Logger.Init(); err != nil {
return err
}
if err := k.opts.Meter.Init(); err != nil {
return err
}
if k.opts.Context != nil {
if v, ok := k.opts.Context.Value(optionsKey{}).([]kgo.Opt); ok && len(v) > 0 {
k.kopts = append(k.kopts, v...)
}
}
k.init = true
return nil
}
func (k *Broker) Options() broker.Options {
return k.opts
}
func (k *Broker) BatchPublish(ctx context.Context, msgs []*broker.Message, opts ...broker.PublishOption) error {
return k.publish(ctx, msgs, opts...)
}
func (k *Broker) Publish(ctx context.Context, topic string, msg *broker.Message, opts ...broker.PublishOption) error {
msg.Header.Set(metadata.HeaderTopic, topic)
return k.publish(ctx, []*broker.Message{msg}, opts...)
}
func (k *Broker) publish(ctx context.Context, msgs []*broker.Message, opts ...broker.PublishOption) error {
var span tracer.Span
ctx, span = k.opts.Tracer.Start(ctx, "Publish")
defer span.Finish()
k.Lock()
if !k.connected {
c, err := k.connect(ctx, k.kopts...)
if err != nil {
k.Unlock()
return err
}
k.c = c
k.connected = true
}
k.Unlock()
options := broker.NewPublishOptions(opts...)
records := make([]*kgo.Record, 0, len(msgs))
var errs []string
var err error
var key []byte
var promise func(*kgo.Record, error)
if options.Context != nil {
if k, ok := options.Context.Value(publishKey{}).([]byte); ok && k != nil {
key = k
}
if p, ok := options.Context.Value(publishPromiseKey{}).(func(*kgo.Record, error)); ok && p != nil {
promise = p
}
}
for _, msg := range msgs {
rec := &kgo.Record{Context: ctx, Key: key}
rec.Topic, _ = msg.Header.Get(metadata.HeaderTopic)
msg.Header.Del(metadata.HeaderTopic)
// k.opts.Meter.Counter(broker.PublishMessageInflight, "endpoint", rec.Topic).Inc()
if options.BodyOnly || k.opts.Codec.String() == "noop" {
rec.Value = msg.Body
for k, v := range msg.Header {
rec.Headers = append(rec.Headers, kgo.RecordHeader{Key: k, Value: []byte(v)})
}
} else {
rec.Value, err = k.opts.Codec.Marshal(msg)
if err != nil {
return err
}
}
records = append(records, rec)
}
if promise != nil {
// ts := time.Now()
for _, rec := range records {
k.c.Produce(ctx, rec, func(r *kgo.Record, err error) {
// te := time.Since(ts)
// k.opts.Meter.Counter(broker.PublishMessageInflight, "endpoint", rec.Topic).Dec()
// k.opts.Meter.Summary(broker.PublishMessageLatencyMicroseconds, "endpoint", r.Topic).Update(te.Seconds())
// k.opts.Meter.Histogram(broker.PublishMessageDurationSeconds, "endpoint", r.Topic).Update(te.Seconds())
if err != nil {
// k.opts.Meter.Counter(broker.PublishMessageTotal, "endpoint", r.Topic, "status", "failure").Inc()
} else {
// k.opts.Meter.Counter(broker.PublishMessageTotal, "endpoint", r.Topic, "status", "success").Inc()
}
promise(r, err)
})
}
return nil
}
// ts := time.Now()
results := k.c.ProduceSync(ctx, records...)
// te := time.Since(ts)
for _, result := range results {
// k.opts.Meter.Summary(broker.PublishMessageLatencyMicroseconds, "endpoint", result.Record.Topic).Update(te.Seconds())
// k.opts.Meter.Histogram(broker.PublishMessageDurationSeconds, "endpoint", result.Record.Topic).Update(te.Seconds())
/// k.opts.Meter.Counter(broker.PublishMessageInflight, "endpoint", result.Record.Topic).Dec()
if result.Err != nil {
// k.opts.Meter.Counter(broker.PublishMessageTotal, "endpoint", result.Record.Topic, "status", "failure").Inc()
errs = append(errs, result.Err.Error())
} else {
// k.opts.Meter.Counter(broker.PublishMessageTotal, "endpoint", result.Record.Topic, "status", "success").Inc()
}
}
if len(errs) > 0 {
return fmt.Errorf("publish error: %s", strings.Join(errs, "\n"))
}
return nil
}
func (k *Broker) BatchSubscribe(ctx context.Context, topic string, handler broker.BatchHandler, opts ...broker.SubscribeOption) (broker.Subscriber, error) {
return nil, nil
}
func (k *Broker) Subscribe(ctx context.Context, topic string, handler broker.Handler, opts ...broker.SubscribeOption) (broker.Subscriber, error) {
options := broker.NewSubscribeOptions(opts...)
if options.Group == "" {
uid, err := uuid.NewRandom()
if err != nil {
return nil, err
}
options.Group = uid.String()
}
commitInterval := DefaultCommitInterval
if k.opts.Context != nil {
if v, ok := k.opts.Context.Value(commitIntervalKey{}).(time.Duration); ok && v > 0 {
commitInterval = v
}
}
sub := &subscriber{
topic: topic,
opts: options,
handler: handler,
kopts: k.opts,
consumers: make(map[tp]*consumer),
done: make(chan struct{}),
}
kopts := append(k.kopts,
kgo.ConsumerGroup(options.Group),
kgo.ConsumeTopics(topic),
kgo.ConsumeResetOffset(kgo.NewOffset().AtStart()),
kgo.FetchMaxWait(1*time.Second),
kgo.AutoCommitInterval(commitInterval),
kgo.OnPartitionsAssigned(sub.assigned),
kgo.OnPartitionsRevoked(sub.revoked),
kgo.OnPartitionsLost(sub.lost),
kgo.AutoCommitMarks(),
)
if options.Context != nil {
if v, ok := options.Context.Value(optionsKey{}).([]kgo.Opt); ok && len(v) > 0 {
kopts = append(kopts, v...)
}
}
c, err := k.connect(ctx, kopts...)
if err != nil {
return nil, err
}
mdreq := kmsg.NewMetadataRequest()
mdreq.Topics = []kmsg.MetadataRequestTopic{
{Topic: &topic},
}
mdrsp, err := mdreq.RequestWith(ctx, c)
if err != nil {
return nil, err
} else if mdrsp.Topics[0].ErrorCode != 0 {
return nil, fmt.Errorf("topic %s not exists or permission error", topic)
}
sub.c = c
go sub.poll(ctx)
k.Lock()
k.subs = append(k.subs, sub)
k.Unlock()
return sub, nil
}
func (k *Broker) String() string {
return "kgo"
}
func NewBroker(opts ...broker.Option) *Broker {
options := broker.NewOptions(opts...)
kaddrs := options.Addrs
// shuffle addrs
var rng mrand.Rand
rng.Shuffle(len(kaddrs), func(i, j int) {
kaddrs[i], kaddrs[j] = kaddrs[j], kaddrs[i]
})
kopts := []kgo.Opt{
kgo.DialTimeout(3 * time.Second),
kgo.DisableIdempotentWrite(),
kgo.ProducerBatchCompression(kgo.NoCompression()),
kgo.WithLogger(&mlogger{l: options.Logger.Clone(logger.WithCallerSkipCount(options.Logger.Options().CallerSkipCount + 2)), ctx: options.Context}),
kgo.SeedBrokers(kaddrs...),
kgo.RetryBackoffFn(DefaultRetryBackoffFn),
kgo.BlockRebalanceOnPoll(),
kgo.Balancers(kgo.CooperativeStickyBalancer()),
kgo.FetchIsolationLevel(kgo.ReadUncommitted()),
}
if options.Context != nil {
if v, ok := options.Context.Value(optionsKey{}).([]kgo.Opt); ok && len(v) > 0 {
kopts = append(kopts, v...)
}
}
return &Broker{
opts: options,
kopts: kopts,
}
}