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consumer_group.go
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consumer_group.go
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package sarama
import (
"context"
"errors"
"fmt"
"sort"
"sync"
"time"
"github.com/rcrowley/go-metrics"
)
// ErrClosedConsumerGroup is the error returned when a method is called on a consumer group that has been closed.
var ErrClosedConsumerGroup = errors.New("kafka: tried to use a consumer group that was closed")
// ConsumerGroup is responsible for dividing up processing of topics and partitions
// over a collection of processes (the members of the consumer group).
type ConsumerGroup interface {
// Consume joins a cluster of consumers for a given list of topics and
// starts a blocking ConsumerGroupSession through the ConsumerGroupHandler.
//
// The life-cycle of a session is represented by the following steps:
//
// 1. The consumers join the group (as explained in https://kafka.apache.org/documentation/#intro_consumers)
// and is assigned their "fair share" of partitions, aka 'claims'.
// 2. Before processing starts, the handler's Setup() hook is called to notify the user
// of the claims and allow any necessary preparation or alteration of state.
// 3. For each of the assigned claims the handler's ConsumeClaim() function is then called
// in a separate goroutine which requires it to be thread-safe. Any state must be carefully protected
// from concurrent reads/writes.
// 4. The session will persist until one of the ConsumeClaim() functions exits. This can be either when the
// parent context is canceled or when a server-side rebalance cycle is initiated.
// 5. Once all the ConsumeClaim() loops have exited, the handler's Cleanup() hook is called
// to allow the user to perform any final tasks before a rebalance.
// 6. Finally, marked offsets are committed one last time before claims are released.
//
// Please note, that once a rebalance is triggered, sessions must be completed within
// Config.Consumer.Group.Rebalance.Timeout. This means that ConsumeClaim() functions must exit
// as quickly as possible to allow time for Cleanup() and the final offset commit. If the timeout
// is exceeded, the consumer will be removed from the group by Kafka, which will cause offset
// commit failures.
// This method should be called inside an infinite loop, when a
// server-side rebalance happens, the consumer session will need to be
// recreated to get the new claims.
Consume(ctx context.Context, topics []string, handler ConsumerGroupHandler) error
// Errors returns a read channel of errors that occurred during the consumer life-cycle.
// By default, errors are logged and not returned over this channel.
// If you want to implement any custom error handling, set your config's
// Consumer.Return.Errors setting to true, and read from this channel.
Errors() <-chan error
// Close stops the ConsumerGroup and detaches any running sessions. It is required to call
// this function before the object passes out of scope, as it will otherwise leak memory.
Close() error
// Pause suspends fetching from the requested partitions. Future calls to the broker will not return any
// records from these partitions until they have been resumed using Resume()/ResumeAll().
// Note that this method does not affect partition subscription.
// In particular, it does not cause a group rebalance when automatic assignment is used.
Pause(partitions map[string][]int32)
// Resume resumes specified partitions which have been paused with Pause()/PauseAll().
// New calls to the broker will return records from these partitions if there are any to be fetched.
Resume(partitions map[string][]int32)
// Pause suspends fetching from all partitions. Future calls to the broker will not return any
// records from these partitions until they have been resumed using Resume()/ResumeAll().
// Note that this method does not affect partition subscription.
// In particular, it does not cause a group rebalance when automatic assignment is used.
PauseAll()
// Resume resumes all partitions which have been paused with Pause()/PauseAll().
// New calls to the broker will return records from these partitions if there are any to be fetched.
ResumeAll()
}
type consumerGroup struct {
client Client
config *Config
consumer Consumer
groupID string
groupInstanceId *string
memberID string
errors chan error
lock sync.Mutex
errorsLock sync.RWMutex
closed chan none
closeOnce sync.Once
userData []byte
metricRegistry metrics.Registry
}
// NewConsumerGroup creates a new consumer group the given broker addresses and configuration.
func NewConsumerGroup(addrs []string, groupID string, config *Config) (ConsumerGroup, error) {
client, err := NewClient(addrs, config)
if err != nil {
return nil, err
}
c, err := newConsumerGroup(groupID, client)
if err != nil {
_ = client.Close()
}
return c, err
}
// NewConsumerGroupFromClient creates a new consumer group using the given client. It is still
// necessary to call Close() on the underlying client when shutting down this consumer.
// PLEASE NOTE: consumer groups can only re-use but not share clients.
func NewConsumerGroupFromClient(groupID string, client Client) (ConsumerGroup, error) {
if client == nil {
return nil, ConfigurationError("client must not be nil")
}
// For clients passed in by the client, ensure we don't
// call Close() on it.
cli := &nopCloserClient{client}
return newConsumerGroup(groupID, cli)
}
func newConsumerGroup(groupID string, client Client) (ConsumerGroup, error) {
config := client.Config()
if !config.Version.IsAtLeast(V0_10_2_0) {
return nil, ConfigurationError("consumer groups require Version to be >= V0_10_2_0")
}
consumer, err := newConsumer(client)
if err != nil {
return nil, err
}
cg := &consumerGroup{
client: client,
consumer: consumer,
config: config,
groupID: groupID,
errors: make(chan error, config.ChannelBufferSize),
closed: make(chan none),
userData: config.Consumer.Group.Member.UserData,
metricRegistry: newCleanupRegistry(config.MetricRegistry),
}
if config.Consumer.Group.InstanceId != "" && config.Version.IsAtLeast(V2_3_0_0) {
cg.groupInstanceId = &config.Consumer.Group.InstanceId
}
return cg, nil
}
// Errors implements ConsumerGroup.
func (c *consumerGroup) Errors() <-chan error { return c.errors }
// Close implements ConsumerGroup.
func (c *consumerGroup) Close() (err error) {
c.closeOnce.Do(func() {
close(c.closed)
// leave group
if e := c.leave(); e != nil {
err = e
}
go func() {
c.errorsLock.Lock()
defer c.errorsLock.Unlock()
close(c.errors)
}()
// drain errors
for e := range c.errors {
err = e
}
if e := c.client.Close(); e != nil {
err = e
}
c.metricRegistry.UnregisterAll()
})
return
}
// Consume implements ConsumerGroup.
func (c *consumerGroup) Consume(ctx context.Context, topics []string, handler ConsumerGroupHandler) error {
// Ensure group is not closed
select {
case <-c.closed:
return ErrClosedConsumerGroup
default:
}
c.lock.Lock()
defer c.lock.Unlock()
// Quick exit when no topics are provided
if len(topics) == 0 {
return fmt.Errorf("no topics provided")
}
// Refresh metadata for requested topics
if err := c.client.RefreshMetadata(topics...); err != nil {
return err
}
// Init session
sess, err := c.newSession(ctx, topics, handler, c.config.Consumer.Group.Rebalance.Retry.Max)
if errors.Is(err, ErrClosedClient) {
return ErrClosedConsumerGroup
} else if err != nil {
return err
}
// Wait for session exit signal or Close() call
select {
case <-c.closed:
case <-sess.ctx.Done():
}
// Gracefully release session claims
return sess.release(true)
}
// Pause implements ConsumerGroup.
func (c *consumerGroup) Pause(partitions map[string][]int32) {
c.consumer.Pause(partitions)
}
// Resume implements ConsumerGroup.
func (c *consumerGroup) Resume(partitions map[string][]int32) {
c.consumer.Resume(partitions)
}
// PauseAll implements ConsumerGroup.
func (c *consumerGroup) PauseAll() {
c.consumer.PauseAll()
}
// ResumeAll implements ConsumerGroup.
func (c *consumerGroup) ResumeAll() {
c.consumer.ResumeAll()
}
func (c *consumerGroup) retryNewSession(ctx context.Context, topics []string, handler ConsumerGroupHandler, retries int, refreshCoordinator bool) (*consumerGroupSession, error) {
select {
case <-ctx.Done():
return nil, ctx.Err()
case <-c.closed:
return nil, ErrClosedConsumerGroup
case <-time.After(c.config.Consumer.Group.Rebalance.Retry.Backoff):
}
if refreshCoordinator {
err := c.client.RefreshCoordinator(c.groupID)
if err != nil {
if retries <= 0 {
return nil, err
}
return c.retryNewSession(ctx, topics, handler, retries-1, true)
}
}
return c.newSession(ctx, topics, handler, retries-1)
}
func (c *consumerGroup) newSession(ctx context.Context, topics []string, handler ConsumerGroupHandler, retries int) (*consumerGroupSession, error) {
if ctx.Err() != nil {
return nil, ctx.Err()
}
coordinator, err := c.client.Coordinator(c.groupID)
if err != nil {
if retries <= 0 {
return nil, err
}
return c.retryNewSession(ctx, topics, handler, retries, true)
}
var (
metricRegistry = c.metricRegistry
consumerGroupJoinTotal metrics.Counter
consumerGroupJoinFailed metrics.Counter
consumerGroupSyncTotal metrics.Counter
consumerGroupSyncFailed metrics.Counter
)
if metricRegistry != nil {
consumerGroupJoinTotal = metrics.GetOrRegisterCounter(fmt.Sprintf("consumer-group-join-total-%s", c.groupID), metricRegistry)
consumerGroupJoinFailed = metrics.GetOrRegisterCounter(fmt.Sprintf("consumer-group-join-failed-%s", c.groupID), metricRegistry)
consumerGroupSyncTotal = metrics.GetOrRegisterCounter(fmt.Sprintf("consumer-group-sync-total-%s", c.groupID), metricRegistry)
consumerGroupSyncFailed = metrics.GetOrRegisterCounter(fmt.Sprintf("consumer-group-sync-failed-%s", c.groupID), metricRegistry)
}
// Join consumer group
join, err := c.joinGroupRequest(coordinator, topics)
if consumerGroupJoinTotal != nil {
consumerGroupJoinTotal.Inc(1)
}
if err != nil {
_ = coordinator.Close()
if consumerGroupJoinFailed != nil {
consumerGroupJoinFailed.Inc(1)
}
return nil, err
}
if !errors.Is(join.Err, ErrNoError) {
if consumerGroupJoinFailed != nil {
consumerGroupJoinFailed.Inc(1)
}
}
switch join.Err {
case ErrNoError:
c.memberID = join.MemberId
case ErrUnknownMemberId, ErrIllegalGeneration:
// reset member ID and retry immediately
c.memberID = ""
return c.newSession(ctx, topics, handler, retries)
case ErrNotCoordinatorForConsumer, ErrRebalanceInProgress, ErrOffsetsLoadInProgress:
// retry after backoff
if retries <= 0 {
return nil, join.Err
}
return c.retryNewSession(ctx, topics, handler, retries, true)
case ErrMemberIdRequired:
// from JoinGroupRequest v4 onwards (due to KIP-394) if the client starts
// with an empty member id, it needs to get the assigned id from the
// response and send another join request with that id to actually join the
// group
c.memberID = join.MemberId
return c.newSession(ctx, topics, handler, retries)
case ErrFencedInstancedId:
if c.groupInstanceId != nil {
Logger.Printf("JoinGroup failed: group instance id %s has been fenced\n", *c.groupInstanceId)
}
return nil, join.Err
default:
return nil, join.Err
}
var strategy BalanceStrategy
var ok bool
if strategy = c.config.Consumer.Group.Rebalance.Strategy; strategy == nil {
strategy, ok = c.findStrategy(join.GroupProtocol, c.config.Consumer.Group.Rebalance.GroupStrategies)
if !ok {
// this case shouldn't happen in practice, since the leader will choose the protocol
// that all the members support
return nil, fmt.Errorf("unable to find selected strategy: %s", join.GroupProtocol)
}
}
// Prepare distribution plan if we joined as the leader
var plan BalanceStrategyPlan
var members map[string]ConsumerGroupMemberMetadata
var allSubscribedTopicPartitions map[string][]int32
var allSubscribedTopics []string
if join.LeaderId == join.MemberId {
members, err = join.GetMembers()
if err != nil {
return nil, err
}
allSubscribedTopicPartitions, allSubscribedTopics, plan, err = c.balance(strategy, members)
if err != nil {
return nil, err
}
}
// Sync consumer group
syncGroupResponse, err := c.syncGroupRequest(coordinator, members, plan, join.GenerationId, strategy)
if consumerGroupSyncTotal != nil {
consumerGroupSyncTotal.Inc(1)
}
if err != nil {
_ = coordinator.Close()
if consumerGroupSyncFailed != nil {
consumerGroupSyncFailed.Inc(1)
}
return nil, err
}
if !errors.Is(syncGroupResponse.Err, ErrNoError) {
if consumerGroupSyncFailed != nil {
consumerGroupSyncFailed.Inc(1)
}
}
switch syncGroupResponse.Err {
case ErrNoError:
case ErrUnknownMemberId, ErrIllegalGeneration:
// reset member ID and retry immediately
c.memberID = ""
return c.newSession(ctx, topics, handler, retries)
case ErrNotCoordinatorForConsumer, ErrRebalanceInProgress, ErrOffsetsLoadInProgress:
// retry after backoff
if retries <= 0 {
return nil, syncGroupResponse.Err
}
return c.retryNewSession(ctx, topics, handler, retries, true)
case ErrFencedInstancedId:
if c.groupInstanceId != nil {
Logger.Printf("JoinGroup failed: group instance id %s has been fenced\n", *c.groupInstanceId)
}
return nil, syncGroupResponse.Err
default:
return nil, syncGroupResponse.Err
}
// Retrieve and sort claims
var claims map[string][]int32
if len(syncGroupResponse.MemberAssignment) > 0 {
members, err := syncGroupResponse.GetMemberAssignment()
if err != nil {
return nil, err
}
claims = members.Topics
// in the case of stateful balance strategies, hold on to the returned
// assignment metadata, otherwise, reset the statically defined consumer
// group metadata
if members.UserData != nil {
c.userData = members.UserData
} else {
c.userData = c.config.Consumer.Group.Member.UserData
}
for _, partitions := range claims {
sort.Sort(int32Slice(partitions))
}
}
session, err := newConsumerGroupSession(ctx, c, claims, join.MemberId, join.GenerationId, handler)
if err != nil {
return nil, err
}
// only the leader needs to check whether there are newly-added partitions in order to trigger a rebalance
if join.LeaderId == join.MemberId {
go c.loopCheckPartitionNumbers(allSubscribedTopicPartitions, allSubscribedTopics, session)
}
return session, err
}
func (c *consumerGroup) joinGroupRequest(coordinator *Broker, topics []string) (*JoinGroupResponse, error) {
req := &JoinGroupRequest{
GroupId: c.groupID,
MemberId: c.memberID,
SessionTimeout: int32(c.config.Consumer.Group.Session.Timeout / time.Millisecond),
ProtocolType: "consumer",
}
if c.config.Version.IsAtLeast(V0_10_1_0) {
req.Version = 1
req.RebalanceTimeout = int32(c.config.Consumer.Group.Rebalance.Timeout / time.Millisecond)
}
if c.config.Version.IsAtLeast(V0_11_0_0) {
req.Version = 2
}
if c.config.Version.IsAtLeast(V0_11_0_0) {
req.Version = 2
}
if c.config.Version.IsAtLeast(V2_0_0_0) {
req.Version = 3
}
// from JoinGroupRequest v4 onwards (due to KIP-394) the client will actually
// send two JoinGroupRequests, once with the empty member id, and then again
// with the assigned id from the first response. This is handled via the
// ErrMemberIdRequired case.
if c.config.Version.IsAtLeast(V2_2_0_0) {
req.Version = 4
}
if c.config.Version.IsAtLeast(V2_3_0_0) {
req.Version = 5
req.GroupInstanceId = c.groupInstanceId
}
meta := &ConsumerGroupMemberMetadata{
Topics: topics,
UserData: c.userData,
}
var strategy BalanceStrategy
if strategy = c.config.Consumer.Group.Rebalance.Strategy; strategy != nil {
if err := req.AddGroupProtocolMetadata(strategy.Name(), meta); err != nil {
return nil, err
}
} else {
for _, strategy = range c.config.Consumer.Group.Rebalance.GroupStrategies {
if err := req.AddGroupProtocolMetadata(strategy.Name(), meta); err != nil {
return nil, err
}
}
}
return coordinator.JoinGroup(req)
}
// findStrategy returns the BalanceStrategy with the specified protocolName
// from the slice provided.
func (c *consumerGroup) findStrategy(name string, groupStrategies []BalanceStrategy) (BalanceStrategy, bool) {
for _, strategy := range groupStrategies {
if strategy.Name() == name {
return strategy, true
}
}
return nil, false
}
func (c *consumerGroup) syncGroupRequest(
coordinator *Broker,
members map[string]ConsumerGroupMemberMetadata,
plan BalanceStrategyPlan,
generationID int32,
strategy BalanceStrategy,
) (*SyncGroupResponse, error) {
req := &SyncGroupRequest{
GroupId: c.groupID,
MemberId: c.memberID,
GenerationId: generationID,
}
// Versions 1 and 2 are the same as version 0.
if c.config.Version.IsAtLeast(V0_11_0_0) {
req.Version = 1
}
if c.config.Version.IsAtLeast(V2_0_0_0) {
req.Version = 2
}
// Starting from version 3, we add a new field called groupInstanceId to indicate member identity across restarts.
if c.config.Version.IsAtLeast(V2_3_0_0) {
req.Version = 3
req.GroupInstanceId = c.groupInstanceId
}
for memberID, topics := range plan {
assignment := &ConsumerGroupMemberAssignment{Topics: topics}
userDataBytes, err := strategy.AssignmentData(memberID, topics, generationID)
if err != nil {
return nil, err
}
assignment.UserData = userDataBytes
if err := req.AddGroupAssignmentMember(memberID, assignment); err != nil {
return nil, err
}
delete(members, memberID)
}
// add empty assignments for any remaining members
for memberID := range members {
if err := req.AddGroupAssignmentMember(memberID, &ConsumerGroupMemberAssignment{}); err != nil {
return nil, err
}
}
return coordinator.SyncGroup(req)
}
func (c *consumerGroup) heartbeatRequest(coordinator *Broker, memberID string, generationID int32) (*HeartbeatResponse, error) {
req := &HeartbeatRequest{
GroupId: c.groupID,
MemberId: memberID,
GenerationId: generationID,
}
// Version 1 and version 2 are the same as version 0.
if c.config.Version.IsAtLeast(V0_11_0_0) {
req.Version = 1
}
if c.config.Version.IsAtLeast(V2_0_0_0) {
req.Version = 2
}
// Starting from version 3, we add a new field called groupInstanceId to indicate member identity across restarts.
if c.config.Version.IsAtLeast(V2_3_0_0) {
req.Version = 3
req.GroupInstanceId = c.groupInstanceId
}
return coordinator.Heartbeat(req)
}
func (c *consumerGroup) balance(strategy BalanceStrategy, members map[string]ConsumerGroupMemberMetadata) (map[string][]int32, []string, BalanceStrategyPlan, error) {
topicPartitions := make(map[string][]int32)
for _, meta := range members {
for _, topic := range meta.Topics {
topicPartitions[topic] = nil
}
}
allSubscribedTopics := make([]string, 0, len(topicPartitions))
for topic := range topicPartitions {
allSubscribedTopics = append(allSubscribedTopics, topic)
}
// refresh metadata for all the subscribed topics in the consumer group
// to avoid using stale metadata to assigning partitions
err := c.client.RefreshMetadata(allSubscribedTopics...)
if err != nil {
return nil, nil, nil, err
}
for topic := range topicPartitions {
partitions, err := c.client.Partitions(topic)
if err != nil {
return nil, nil, nil, err
}
topicPartitions[topic] = partitions
}
plan, err := strategy.Plan(members, topicPartitions)
return topicPartitions, allSubscribedTopics, plan, err
}
// Leaves the cluster, called by Close.
func (c *consumerGroup) leave() error {
c.lock.Lock()
defer c.lock.Unlock()
if c.memberID == "" {
return nil
}
coordinator, err := c.client.Coordinator(c.groupID)
if err != nil {
return err
}
// as per KIP-345 if groupInstanceId is set, i.e. static membership is in action, then do not leave group when consumer closed, just clear memberID
if c.groupInstanceId != nil {
c.memberID = ""
return nil
}
req := &LeaveGroupRequest{
GroupId: c.groupID,
MemberId: c.memberID,
}
if c.config.Version.IsAtLeast(V0_11_0_0) {
req.Version = 1
}
if c.config.Version.IsAtLeast(V2_0_0_0) {
req.Version = 2
}
if c.config.Version.IsAtLeast(V2_4_0_0) {
req.Version = 3
req.Members = append(req.Members, MemberIdentity{
MemberId: c.memberID,
})
}
resp, err := coordinator.LeaveGroup(req)
if err != nil {
_ = coordinator.Close()
return err
}
// clear the memberID
c.memberID = ""
switch resp.Err {
case ErrRebalanceInProgress, ErrUnknownMemberId, ErrNoError:
return nil
default:
return resp.Err
}
}
func (c *consumerGroup) handleError(err error, topic string, partition int32) {
var consumerError *ConsumerError
if ok := errors.As(err, &consumerError); !ok && topic != "" && partition > -1 {
err = &ConsumerError{
Topic: topic,
Partition: partition,
Err: err,
}
}
if !c.config.Consumer.Return.Errors {
Logger.Println(err)
return
}
c.errorsLock.RLock()
defer c.errorsLock.RUnlock()
select {
case <-c.closed:
// consumer is closed
return
default:
}
select {
case c.errors <- err:
default:
// no error listener
}
}
func (c *consumerGroup) loopCheckPartitionNumbers(allSubscribedTopicPartitions map[string][]int32, topics []string, session *consumerGroupSession) {
if c.config.Metadata.RefreshFrequency == time.Duration(0) {
return
}
defer session.cancel()
oldTopicToPartitionNum := make(map[string]int, len(allSubscribedTopicPartitions))
for topic, partitions := range allSubscribedTopicPartitions {
oldTopicToPartitionNum[topic] = len(partitions)
}
pause := time.NewTicker(c.config.Metadata.RefreshFrequency)
defer pause.Stop()
for {
if newTopicToPartitionNum, err := c.topicToPartitionNumbers(topics); err != nil {
return
} else {
for topic, num := range oldTopicToPartitionNum {
if newTopicToPartitionNum[topic] != num {
Logger.Printf(
"consumergroup/%s loop check partition number goroutine find partitions in topics %s changed from %d to %d\n",
c.groupID, topics, num, newTopicToPartitionNum[topic])
return // trigger the end of the session on exit
}
}
}
select {
case <-pause.C:
case <-session.ctx.Done():
Logger.Printf(
"consumergroup/%s loop check partition number goroutine will exit, topics %s\n",
c.groupID, topics)
// if session closed by other, should be exited
return
case <-c.closed:
return
}
}
}
func (c *consumerGroup) topicToPartitionNumbers(topics []string) (map[string]int, error) {
topicToPartitionNum := make(map[string]int, len(topics))
for _, topic := range topics {
if partitionNum, err := c.client.Partitions(topic); err != nil {
Logger.Printf(
"consumergroup/%s topic %s get partition number failed due to '%v'\n",
c.groupID, topic, err)
return nil, err
} else {
topicToPartitionNum[topic] = len(partitionNum)
}
}
return topicToPartitionNum, nil
}
// --------------------------------------------------------------------
// ConsumerGroupSession represents a consumer group member session.
type ConsumerGroupSession interface {
// Claims returns information about the claimed partitions by topic.
Claims() map[string][]int32
// MemberID returns the cluster member ID.
MemberID() string
// GenerationID returns the current generation ID.
GenerationID() int32
// MarkOffset marks the provided offset, alongside a metadata string
// that represents the state of the partition consumer at that point in time. The
// metadata string can be used by another consumer to restore that state, so it
// can resume consumption.
//
// To follow upstream conventions, you are expected to mark the offset of the
// next message to read, not the last message read. Thus, when calling `MarkOffset`
// you should typically add one to the offset of the last consumed message.
//
// Note: calling MarkOffset does not necessarily commit the offset to the backend
// store immediately for efficiency reasons, and it may never be committed if
// your application crashes. This means that you may end up processing the same
// message twice, and your processing should ideally be idempotent.
MarkOffset(topic string, partition int32, offset int64, metadata string)
// Commit the offset to the backend
//
// Note: calling Commit performs a blocking synchronous operation.
Commit()
// ResetOffset resets to the provided offset, alongside a metadata string that
// represents the state of the partition consumer at that point in time. Reset
// acts as a counterpart to MarkOffset, the difference being that it allows to
// reset an offset to an earlier or smaller value, where MarkOffset only
// allows incrementing the offset. cf MarkOffset for more details.
ResetOffset(topic string, partition int32, offset int64, metadata string)
// MarkMessage marks a message as consumed.
MarkMessage(msg *ConsumerMessage, metadata string)
// Context returns the session context.
Context() context.Context
}
type consumerGroupSession struct {
parent *consumerGroup
memberID string
generationID int32
handler ConsumerGroupHandler
claims map[string][]int32
offsets *offsetManager
ctx context.Context
cancel func()
waitGroup sync.WaitGroup
releaseOnce sync.Once
hbDying, hbDead chan none
}
func newConsumerGroupSession(ctx context.Context, parent *consumerGroup, claims map[string][]int32, memberID string, generationID int32, handler ConsumerGroupHandler) (*consumerGroupSession, error) {
// init context
ctx, cancel := context.WithCancel(ctx)
// init offset manager
offsets, err := newOffsetManagerFromClient(parent.groupID, memberID, generationID, parent.client, cancel)
if err != nil {
return nil, err
}
// init session
sess := &consumerGroupSession{
parent: parent,
memberID: memberID,
generationID: generationID,
handler: handler,
offsets: offsets,
claims: claims,
ctx: ctx,
cancel: cancel,
hbDying: make(chan none),
hbDead: make(chan none),
}
// start heartbeat loop
go sess.heartbeatLoop()
// create a POM for each claim
for topic, partitions := range claims {
for _, partition := range partitions {
pom, err := offsets.ManagePartition(topic, partition)
if err != nil {
_ = sess.release(false)
return nil, err
}
// handle POM errors
go func(topic string, partition int32) {
for err := range pom.Errors() {
sess.parent.handleError(err, topic, partition)
}
}(topic, partition)
}
}
// perform setup
if err := handler.Setup(sess); err != nil {
_ = sess.release(true)
return nil, err
}
// start consuming
for topic, partitions := range claims {
for _, partition := range partitions {
sess.waitGroup.Add(1)
go func(topic string, partition int32) {
defer sess.waitGroup.Done()
// cancel the as session as soon as the first
// goroutine exits
defer sess.cancel()
// consume a single topic/partition, blocking
sess.consume(topic, partition)
}(topic, partition)
}
}
return sess, nil
}
func (s *consumerGroupSession) Claims() map[string][]int32 { return s.claims }
func (s *consumerGroupSession) MemberID() string { return s.memberID }
func (s *consumerGroupSession) GenerationID() int32 { return s.generationID }
func (s *consumerGroupSession) MarkOffset(topic string, partition int32, offset int64, metadata string) {
if pom := s.offsets.findPOM(topic, partition); pom != nil {
pom.MarkOffset(offset, metadata)
}
}
func (s *consumerGroupSession) Commit() {
s.offsets.Commit()
}
func (s *consumerGroupSession) ResetOffset(topic string, partition int32, offset int64, metadata string) {
if pom := s.offsets.findPOM(topic, partition); pom != nil {
pom.ResetOffset(offset, metadata)
}
}
func (s *consumerGroupSession) MarkMessage(msg *ConsumerMessage, metadata string) {
s.MarkOffset(msg.Topic, msg.Partition, msg.Offset+1, metadata)
}
func (s *consumerGroupSession) Context() context.Context {
return s.ctx
}
func (s *consumerGroupSession) consume(topic string, partition int32) {
// quick exit if rebalance is due
select {
case <-s.ctx.Done():
return
case <-s.parent.closed:
return
default:
}
// get next offset
offset := s.parent.config.Consumer.Offsets.Initial
if pom := s.offsets.findPOM(topic, partition); pom != nil {
offset, _ = pom.NextOffset()
}
// create new claim
claim, err := newConsumerGroupClaim(s, topic, partition, offset)
if err != nil {
s.parent.handleError(err, topic, partition)
return
}
// handle errors
go func() {
for err := range claim.Errors() {
s.parent.handleError(err, topic, partition)
}
}()
// trigger close when session is done
go func() {
select {
case <-s.ctx.Done():
case <-s.parent.closed:
}
claim.AsyncClose()
}()
// start processing
if err := s.handler.ConsumeClaim(s, claim); err != nil {
s.parent.handleError(err, topic, partition)
}
// ensure consumer is closed & drained
claim.AsyncClose()
for _, err := range claim.waitClosed() {
s.parent.handleError(err, topic, partition)
}
}
func (s *consumerGroupSession) release(withCleanup bool) (err error) {
// signal release, stop heartbeat
s.cancel()
// wait for consumers to exit
s.waitGroup.Wait()
// perform release
s.releaseOnce.Do(func() {
if withCleanup {
if e := s.handler.Cleanup(s); e != nil {
s.parent.handleError(e, "", -1)
err = e
}
}
if e := s.offsets.Close(); e != nil {
err = e
}
close(s.hbDying)
<-s.hbDead
})
Logger.Printf(
"consumergroup/session/%s/%d released\n",
s.MemberID(), s.GenerationID())
return
}
func (s *consumerGroupSession) heartbeatLoop() {
defer close(s.hbDead)
defer s.cancel() // trigger the end of the session on exit
defer func() {
Logger.Printf(
"consumergroup/session/%s/%d heartbeat loop stopped\n",
s.MemberID(), s.GenerationID())