client.go
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package sarama
import (
"math/rand"
"sort"
"sync"
"time"
)
// Client is a generic Kafka client. It manages connections to one or more Kafka brokers.
// You MUST call Close() on a client to avoid leaks, it will not be garbage-collected
// automatically when it passes out of scope. It is safe to share a client amongst many
// users, however Kafka will process requests from a single client strictly in serial,
// so it is generally more efficient to use the default one client per producer/consumer.
type Client interface {
// Config returns the Config struct of the client. This struct should not be
// altered after it has been created.
Config() *Config
// Controller returns the cluster controller broker. Requires Kafka 0.10 or higher.
Controller() (*Broker, error)
// Brokers returns the current set of active brokers as retrieved from cluster metadata.
Brokers() []*Broker
// Topics returns the set of available topics as retrieved from cluster metadata.
Topics() ([]string, error)
// Partitions returns the sorted list of all partition IDs for the given topic.
Partitions(topic string) ([]int32, error)
// WritablePartitions returns the sorted list of all writable partition IDs for
// the given topic, where "writable" means "having a valid leader accepting
// writes".
WritablePartitions(topic string) ([]int32, error)
// Leader returns the broker object that is the leader of the current
// topic/partition, as determined by querying the cluster metadata.
Leader(topic string, partitionID int32) (*Broker, error)
// Replicas returns the set of all replica IDs for the given partition.
Replicas(topic string, partitionID int32) ([]int32, error)
// InSyncReplicas returns the set of all in-sync replica IDs for the given
// partition. In-sync replicas are replicas which are fully caught up with
// the partition leader.
InSyncReplicas(topic string, partitionID int32) ([]int32, error)
// OfflineReplicas returns the set of all offline replica IDs for the given
// partition. Offline replicas are replicas which are offline
OfflineReplicas(topic string, partitionID int32) ([]int32, error)
// RefreshMetadata takes a list of topics and queries the cluster to refresh the
// available metadata for those topics. If no topics are provided, it will refresh
// metadata for all topics.
RefreshMetadata(topics ...string) error
// GetOffset queries the cluster to get the most recent available offset at the
// given time (in milliseconds) on the topic/partition combination.
// Time should be OffsetOldest for the earliest available offset,
// OffsetNewest for the offset of the message that will be produced next, or a time.
GetOffset(topic string, partitionID int32, time int64) (int64, error)
// Coordinator returns the coordinating broker for a consumer group. It will
// return a locally cached value if it's available. You can call
// RefreshCoordinator to update the cached value. This function only works on
// Kafka 0.8.2 and higher.
Coordinator(consumerGroup string) (*Broker, error)
// RefreshCoordinator retrieves the coordinator for a consumer group and stores it
// in local cache. This function only works on Kafka 0.8.2 and higher.
RefreshCoordinator(consumerGroup string) error
// InitProducerID retrieves information required for Idempotent Producer
InitProducerID() (*InitProducerIDResponse, error)
// Close shuts down all broker connections managed by this client. It is required
// to call this function before a client object passes out of scope, as it will
// otherwise leak memory. You must close any Producers or Consumers using a client
// before you close the client.
Close() error
// Closed returns true if the client has already had Close called on it
Closed() bool
}
const (
// OffsetNewest stands for the log head offset, i.e. the offset that will be
// assigned to the next message that will be produced to the partition. You
// can send this to a client's GetOffset method to get this offset, or when
// calling ConsumePartition to start consuming new messages.
OffsetNewest int64 = -1
// OffsetOldest stands for the oldest offset available on the broker for a
// partition. You can send this to a client's GetOffset method to get this
// offset, or when calling ConsumePartition to start consuming from the
// oldest offset that is still available on the broker.
OffsetOldest int64 = -2
)
type client struct {
conf *Config
closer, closed chan none // for shutting down background metadata updater
// the broker addresses given to us through the constructor are not guaranteed to be returned in
// the cluster metadata (I *think* it only returns brokers who are currently leading partitions?)
// so we store them separately
seedBrokers []*Broker
deadSeeds []*Broker
controllerID int32 // cluster controller broker id
brokers map[int32]*Broker // maps broker ids to brokers
metadata map[string]map[int32]*PartitionMetadata // maps topics to partition ids to metadata
metadataTopics map[string]none // topics that need to collect metadata
coordinators map[string]int32 // Maps consumer group names to coordinating broker IDs
// If the number of partitions is large, we can get some churn calling cachedPartitions,
// so the result is cached. It is important to update this value whenever metadata is changed
cachedPartitionsResults map[string][maxPartitionIndex][]int32
lock sync.RWMutex // protects access to the maps that hold cluster state.
}
// NewClient creates a new Client. It connects to one of the given broker addresses
// and uses that broker to automatically fetch metadata on the rest of the kafka cluster. If metadata cannot
// be retrieved from any of the given broker addresses, the client is not created.
func NewClient(addrs []string, conf *Config) (Client, error) {
Logger.Println("Initializing new client")
if conf == nil {
conf = NewConfig()
}
if err := conf.Validate(); err != nil {
return nil, err
}
if len(addrs) < 1 {
return nil, ConfigurationError("You must provide at least one broker address")
}
client := &client{
conf: conf,
closer: make(chan none),
closed: make(chan none),
brokers: make(map[int32]*Broker),
metadata: make(map[string]map[int32]*PartitionMetadata),
metadataTopics: make(map[string]none),
cachedPartitionsResults: make(map[string][maxPartitionIndex][]int32),
coordinators: make(map[string]int32),
}
random := rand.New(rand.NewSource(time.Now().UnixNano()))
for _, index := range random.Perm(len(addrs)) {
client.seedBrokers = append(client.seedBrokers, NewBroker(addrs[index]))
}
if conf.Metadata.Full {
// do an initial fetch of all cluster metadata by specifying an empty list of topics
err := client.RefreshMetadata()
switch err {
case nil:
break
case ErrLeaderNotAvailable, ErrReplicaNotAvailable, ErrTopicAuthorizationFailed, ErrClusterAuthorizationFailed:
// indicates that maybe part of the cluster is down, but is not fatal to creating the client
Logger.Println(err)
default:
close(client.closed) // we haven't started the background updater yet, so we have to do this manually
_ = client.Close()
return nil, err
}
}
go withRecover(client.backgroundMetadataUpdater)
Logger.Println("Successfully initialized new client")
return client, nil
}
func (client *client) Config() *Config {
return client.conf
}
func (client *client) Brokers() []*Broker {
client.lock.RLock()
defer client.lock.RUnlock()
brokers := make([]*Broker, 0, len(client.brokers))
for _, broker := range client.brokers {
brokers = append(brokers, broker)
}
return brokers
}
func (client *client) InitProducerID() (*InitProducerIDResponse, error) {
var err error
for broker := client.any(); broker != nil; broker = client.any() {
req := &InitProducerIDRequest{}
response, err := broker.InitProducerID(req)
switch err.(type) {
case nil:
return response, nil
default:
// some error, remove that broker and try again
Logger.Printf("Client got error from broker %d when issuing InitProducerID : %v\n", broker.ID(), err)
_ = broker.Close()
client.deregisterBroker(broker)
}
}
return nil, err
}
func (client *client) Close() error {
if client.Closed() {
// Chances are this is being called from a defer() and the error will go unobserved
// so we go ahead and log the event in this case.
Logger.Printf("Close() called on already closed client")
return ErrClosedClient
}
// shutdown and wait for the background thread before we take the lock, to avoid races
close(client.closer)
<-client.closed
client.lock.Lock()
defer client.lock.Unlock()
Logger.Println("Closing Client")
for _, broker := range client.brokers {
safeAsyncClose(broker)
}
for _, broker := range client.seedBrokers {
safeAsyncClose(broker)
}
client.brokers = nil
client.metadata = nil
client.metadataTopics = nil
return nil
}
func (client *client) Closed() bool {
return client.brokers == nil
}
func (client *client) Topics() ([]string, error) {
if client.Closed() {
return nil, ErrClosedClient
}
client.lock.RLock()
defer client.lock.RUnlock()
ret := make([]string, 0, len(client.metadata))
for topic := range client.metadata {
ret = append(ret, topic)
}
return ret, nil
}
func (client *client) MetadataTopics() ([]string, error) {
if client.Closed() {
return nil, ErrClosedClient
}
client.lock.RLock()
defer client.lock.RUnlock()
ret := make([]string, 0, len(client.metadataTopics))
for topic := range client.metadataTopics {
ret = append(ret, topic)
}
return ret, nil
}
func (client *client) Partitions(topic string) ([]int32, error) {
if client.Closed() {
return nil, ErrClosedClient
}
partitions := client.cachedPartitions(topic, allPartitions)
if len(partitions) == 0 {
err := client.RefreshMetadata(topic)
if err != nil {
return nil, err
}
partitions = client.cachedPartitions(topic, allPartitions)
}
// no partitions found after refresh metadata
if len(partitions) == 0 {
return nil, ErrUnknownTopicOrPartition
}
return partitions, nil
}
func (client *client) WritablePartitions(topic string) ([]int32, error) {
if client.Closed() {
return nil, ErrClosedClient
}
partitions := client.cachedPartitions(topic, writablePartitions)
// len==0 catches when it's nil (no such topic) and the odd case when every single
// partition is undergoing leader election simultaneously. Callers have to be able to handle
// this function returning an empty slice (which is a valid return value) but catching it
// here the first time (note we *don't* catch it below where we return ErrUnknownTopicOrPartition) triggers
// a metadata refresh as a nicety so callers can just try again and don't have to manually
// trigger a refresh (otherwise they'd just keep getting a stale cached copy).
if len(partitions) == 0 {
err := client.RefreshMetadata(topic)
if err != nil {
return nil, err
}
partitions = client.cachedPartitions(topic, writablePartitions)
}
if partitions == nil {
return nil, ErrUnknownTopicOrPartition
}
return partitions, nil
}
func (client *client) Replicas(topic string, partitionID int32) ([]int32, error) {
if client.Closed() {
return nil, ErrClosedClient
}
metadata := client.cachedMetadata(topic, partitionID)
if metadata == nil {
err := client.RefreshMetadata(topic)
if err != nil {
return nil, err
}
metadata = client.cachedMetadata(topic, partitionID)
}
if metadata == nil {
return nil, ErrUnknownTopicOrPartition
}
if metadata.Err == ErrReplicaNotAvailable {
return dupInt32Slice(metadata.Replicas), metadata.Err
}
return dupInt32Slice(metadata.Replicas), nil
}
func (client *client) InSyncReplicas(topic string, partitionID int32) ([]int32, error) {
if client.Closed() {
return nil, ErrClosedClient
}
metadata := client.cachedMetadata(topic, partitionID)
if metadata == nil {
err := client.RefreshMetadata(topic)
if err != nil {
return nil, err
}
metadata = client.cachedMetadata(topic, partitionID)
}
if metadata == nil {
return nil, ErrUnknownTopicOrPartition
}
if metadata.Err == ErrReplicaNotAvailable {
return dupInt32Slice(metadata.Isr), metadata.Err
}
return dupInt32Slice(metadata.Isr), nil
}
func (client *client) OfflineReplicas(topic string, partitionID int32) ([]int32, error) {
if client.Closed() {
return nil, ErrClosedClient
}
metadata := client.cachedMetadata(topic, partitionID)
if metadata == nil {
err := client.RefreshMetadata(topic)
if err != nil {
return nil, err
}
metadata = client.cachedMetadata(topic, partitionID)
}
if metadata == nil {
return nil, ErrUnknownTopicOrPartition
}
if metadata.Err == ErrReplicaNotAvailable {
return dupInt32Slice(metadata.OfflineReplicas), metadata.Err
}
return dupInt32Slice(metadata.OfflineReplicas), nil
}
func (client *client) Leader(topic string, partitionID int32) (*Broker, error) {
if client.Closed() {
return nil, ErrClosedClient
}
leader, err := client.cachedLeader(topic, partitionID)
if leader == nil {
err = client.RefreshMetadata(topic)
if err != nil {
return nil, err
}
leader, err = client.cachedLeader(topic, partitionID)
}
return leader, err
}
func (client *client) RefreshMetadata(topics ...string) error {
if client.Closed() {
return ErrClosedClient
}
// Prior to 0.8.2, Kafka will throw exceptions on an empty topic and not return a proper
// error. This handles the case by returning an error instead of sending it
// off to Kafka. See: https://github.com/Shopify/sarama/pull/38#issuecomment-26362310
for _, topic := range topics {
if len(topic) == 0 {
return ErrInvalidTopic // this is the error that 0.8.2 and later correctly return
}
}
deadline := time.Time{}
if client.conf.Metadata.Timeout > 0 {
deadline = time.Now().Add(client.conf.Metadata.Timeout)
}
return client.tryRefreshMetadata(topics, client.conf.Metadata.Retry.Max, deadline)
}
func (client *client) GetOffset(topic string, partitionID int32, time int64) (int64, error) {
if client.Closed() {
return -1, ErrClosedClient
}
offset, err := client.getOffset(topic, partitionID, time)
if err != nil {
if err := client.RefreshMetadata(topic); err != nil {
return -1, err
}
return client.getOffset(topic, partitionID, time)
}
return offset, err
}
func (client *client) Controller() (*Broker, error) {
if client.Closed() {
return nil, ErrClosedClient
}
if !client.conf.Version.IsAtLeast(V0_10_0_0) {
return nil, ErrUnsupportedVersion
}
controller := client.cachedController()
if controller == nil {
if err := client.refreshMetadata(); err != nil {
return nil, err
}
controller = client.cachedController()
}
if controller == nil {
return nil, ErrControllerNotAvailable
}
_ = controller.Open(client.conf)
return controller, nil
}
func (client *client) Coordinator(consumerGroup string) (*Broker, error) {
if client.Closed() {
return nil, ErrClosedClient
}
coordinator := client.cachedCoordinator(consumerGroup)
if coordinator == nil {
if err := client.RefreshCoordinator(consumerGroup); err != nil {
return nil, err
}
coordinator = client.cachedCoordinator(consumerGroup)
}
if coordinator == nil {
return nil, ErrConsumerCoordinatorNotAvailable
}
_ = coordinator.Open(client.conf)
return coordinator, nil
}
func (client *client) RefreshCoordinator(consumerGroup string) error {
if client.Closed() {
return ErrClosedClient
}
response, err := client.getConsumerMetadata(consumerGroup, client.conf.Metadata.Retry.Max)
if err != nil {
return err
}
client.lock.Lock()
defer client.lock.Unlock()
client.registerBroker(response.Coordinator)
client.coordinators[consumerGroup] = response.Coordinator.ID()
return nil
}
// private broker management helpers
// registerBroker makes sure a broker received by a Metadata or Coordinator request is registered
// in the brokers map. It returns the broker that is registered, which may be the provided broker,
// or a previously registered Broker instance. You must hold the write lock before calling this function.
func (client *client) registerBroker(broker *Broker) {
if client.brokers[broker.ID()] == nil {
client.brokers[broker.ID()] = broker
Logger.Printf("client/brokers registered new broker #%d at %s", broker.ID(), broker.Addr())
} else if broker.Addr() != client.brokers[broker.ID()].Addr() {
safeAsyncClose(client.brokers[broker.ID()])
client.brokers[broker.ID()] = broker
Logger.Printf("client/brokers replaced registered broker #%d with %s", broker.ID(), broker.Addr())
}
}
// deregisterBroker removes a broker from the seedsBroker list, and if it's
// not the seedbroker, removes it from brokers map completely.
func (client *client) deregisterBroker(broker *Broker) {
client.lock.Lock()
defer client.lock.Unlock()
if len(client.seedBrokers) > 0 && broker == client.seedBrokers[0] {
client.deadSeeds = append(client.deadSeeds, broker)
client.seedBrokers = client.seedBrokers[1:]
} else {
// we do this so that our loop in `tryRefreshMetadata` doesn't go on forever,
// but we really shouldn't have to; once that loop is made better this case can be
// removed, and the function generally can be renamed from `deregisterBroker` to
// `nextSeedBroker` or something
Logger.Printf("client/brokers deregistered broker #%d at %s", broker.ID(), broker.Addr())
delete(client.brokers, broker.ID())
}
}
func (client *client) resurrectDeadBrokers() {
client.lock.Lock()
defer client.lock.Unlock()
Logger.Printf("client/brokers resurrecting %d dead seed brokers", len(client.deadSeeds))
client.seedBrokers = append(client.seedBrokers, client.deadSeeds...)
client.deadSeeds = nil
}
func (client *client) any() *Broker {
client.lock.RLock()
defer client.lock.RUnlock()
if len(client.seedBrokers) > 0 {
_ = client.seedBrokers[0].Open(client.conf)
return client.seedBrokers[0]
}
// not guaranteed to be random *or* deterministic
for _, broker := range client.brokers {
_ = broker.Open(client.conf)
return broker
}
return nil
}
// private caching/lazy metadata helpers
type partitionType int
const (
allPartitions partitionType = iota
writablePartitions
// If you add any more types, update the partition cache in update()
// Ensure this is the last partition type value
maxPartitionIndex
)
func (client *client) cachedMetadata(topic string, partitionID int32) *PartitionMetadata {
client.lock.RLock()
defer client.lock.RUnlock()
partitions := client.metadata[topic]
if partitions != nil {
return partitions[partitionID]
}
return nil
}
func (client *client) cachedPartitions(topic string, partitionSet partitionType) []int32 {
client.lock.RLock()
defer client.lock.RUnlock()
partitions, exists := client.cachedPartitionsResults[topic]
if !exists {
return nil
}
return partitions[partitionSet]
}
func (client *client) setPartitionCache(topic string, partitionSet partitionType) []int32 {
partitions := client.metadata[topic]
if partitions == nil {
return nil
}
ret := make([]int32, 0, len(partitions))
for _, partition := range partitions {
if partitionSet == writablePartitions && partition.Err == ErrLeaderNotAvailable {
continue
}
ret = append(ret, partition.ID)
}
sort.Sort(int32Slice(ret))
return ret
}
func (client *client) cachedLeader(topic string, partitionID int32) (*Broker, error) {
client.lock.RLock()
defer client.lock.RUnlock()
partitions := client.metadata[topic]
if partitions != nil {
metadata, ok := partitions[partitionID]
if ok {
if metadata.Err == ErrLeaderNotAvailable {
return nil, ErrLeaderNotAvailable
}
b := client.brokers[metadata.Leader]
if b == nil {
return nil, ErrLeaderNotAvailable
}
_ = b.Open(client.conf)
return b, nil
}
}
return nil, ErrUnknownTopicOrPartition
}
func (client *client) getOffset(topic string, partitionID int32, time int64) (int64, error) {
broker, err := client.Leader(topic, partitionID)
if err != nil {
return -1, err
}
request := &OffsetRequest{}
if client.conf.Version.IsAtLeast(V0_10_1_0) {
request.Version = 1
}
request.AddBlock(topic, partitionID, time, 1)
response, err := broker.GetAvailableOffsets(request)
if err != nil {
_ = broker.Close()
return -1, err
}
block := response.GetBlock(topic, partitionID)
if block == nil {
_ = broker.Close()
return -1, ErrIncompleteResponse
}
if block.Err != ErrNoError {
return -1, block.Err
}
if len(block.Offsets) != 1 {
return -1, ErrOffsetOutOfRange
}
return block.Offsets[0], nil
}
// core metadata update logic
func (client *client) backgroundMetadataUpdater() {
defer close(client.closed)
if client.conf.Metadata.RefreshFrequency == time.Duration(0) {
return
}
ticker := time.NewTicker(client.conf.Metadata.RefreshFrequency)
defer ticker.Stop()
for {
select {
case <-ticker.C:
if err := client.refreshMetadata(); err != nil {
Logger.Println("Client background metadata update:", err)
}
case <-client.closer:
return
}
}
}
func (client *client) refreshMetadata() error {
topics := []string{}
if !client.conf.Metadata.Full {
if specificTopics, err := client.MetadataTopics(); err != nil {
return err
} else if len(specificTopics) == 0 {
return ErrNoTopicsToUpdateMetadata
} else {
topics = specificTopics
}
}
if err := client.RefreshMetadata(topics...); err != nil {
return err
}
return nil
}
func (client *client) tryRefreshMetadata(topics []string, attemptsRemaining int, deadline time.Time) error {
pastDeadline := func(backoff time.Duration) bool {
if !deadline.IsZero() && time.Now().Add(backoff).After(deadline) {
// we are past the deadline
return true
}
return false
}
retry := func(err error) error {
if attemptsRemaining > 0 {
backoff := client.computeBackoff(attemptsRemaining)
if pastDeadline(backoff) {
Logger.Println("client/metadata skipping last retries as we would go past the metadata timeout")
return err
}
Logger.Printf("client/metadata retrying after %dms... (%d attempts remaining)\n", client.conf.Metadata.Retry.Backoff/time.Millisecond, attemptsRemaining)
if backoff > 0 {
time.Sleep(backoff)
}
return client.tryRefreshMetadata(topics, attemptsRemaining-1, deadline)
}
return err
}
broker := client.any()
for ; broker != nil && !pastDeadline(0); broker = client.any() {
allowAutoTopicCreation := true
if len(topics) > 0 {
Logger.Printf("client/metadata fetching metadata for %v from broker %s\n", topics, broker.addr)
} else {
allowAutoTopicCreation = false
Logger.Printf("client/metadata fetching metadata for all topics from broker %s\n", broker.addr)
}
req := &MetadataRequest{Topics: topics, AllowAutoTopicCreation: allowAutoTopicCreation}
if client.conf.Version.IsAtLeast(V1_0_0_0) {
req.Version = 5
} else if client.conf.Version.IsAtLeast(V0_10_0_0) {
req.Version = 1
}
response, err := broker.GetMetadata(req)
switch err.(type) {
case nil:
allKnownMetaData := len(topics) == 0
// valid response, use it
shouldRetry, err := client.updateMetadata(response, allKnownMetaData)
if shouldRetry {
Logger.Println("client/metadata found some partitions to be leaderless")
return retry(err) // note: err can be nil
}
return err
case PacketEncodingError:
// didn't even send, return the error
return err
case KError:
// if SASL auth error return as this _should_ be a non retryable err for all brokers
if err.(KError) == ErrSASLAuthenticationFailed {
Logger.Println("client/metadata failed SASL authentication")
return err
}
// else remove that broker and try again
Logger.Printf("client/metadata got error from broker %d while fetching metadata: %v\n", broker.ID(), err)
_ = broker.Close()
client.deregisterBroker(broker)
default:
// some other error, remove that broker and try again
Logger.Printf("client/metadata got error from broker %d while fetching metadata: %v\n", broker.ID(), err)
_ = broker.Close()
client.deregisterBroker(broker)
}
}
if broker != nil {
Logger.Println("client/metadata not fetching metadata from broker %s as we would go past the metadata timeout\n", broker.addr)
return retry(ErrOutOfBrokers)
}
Logger.Println("client/metadata no available broker to send metadata request to")
client.resurrectDeadBrokers()
return retry(ErrOutOfBrokers)
}
// if no fatal error, returns a list of topics that need retrying due to ErrLeaderNotAvailable
func (client *client) updateMetadata(data *MetadataResponse, allKnownMetaData bool) (retry bool, err error) {
client.lock.Lock()
defer client.lock.Unlock()
// For all the brokers we received:
// - if it is a new ID, save it
// - if it is an existing ID, but the address we have is stale, discard the old one and save it
// - otherwise ignore it, replacing our existing one would just bounce the connection
for _, broker := range data.Brokers {
client.registerBroker(broker)
}
client.controllerID = data.ControllerID
if allKnownMetaData {
client.metadata = make(map[string]map[int32]*PartitionMetadata)
client.metadataTopics = make(map[string]none)
client.cachedPartitionsResults = make(map[string][maxPartitionIndex][]int32)
}
for _, topic := range data.Topics {
// topics must be added firstly to `metadataTopics` to guarantee that all
// requested topics must be recorded to keep them trackable for periodically
// metadata refresh.
if _, exists := client.metadataTopics[topic.Name]; !exists {
client.metadataTopics[topic.Name] = none{}
}
delete(client.metadata, topic.Name)
delete(client.cachedPartitionsResults, topic.Name)
switch topic.Err {
case ErrNoError:
// no-op
case ErrInvalidTopic, ErrTopicAuthorizationFailed: // don't retry, don't store partial results
err = topic.Err
continue
case ErrUnknownTopicOrPartition: // retry, do not store partial partition results
err = topic.Err
retry = true
continue
case ErrLeaderNotAvailable: // retry, but store partial partition results
retry = true
default: // don't retry, don't store partial results
Logger.Printf("Unexpected topic-level metadata error: %s", topic.Err)
err = topic.Err
continue
}
client.metadata[topic.Name] = make(map[int32]*PartitionMetadata, len(topic.Partitions))
for _, partition := range topic.Partitions {
client.metadata[topic.Name][partition.ID] = partition
if partition.Err == ErrLeaderNotAvailable {
retry = true
}
}
var partitionCache [maxPartitionIndex][]int32
partitionCache[allPartitions] = client.setPartitionCache(topic.Name, allPartitions)
partitionCache[writablePartitions] = client.setPartitionCache(topic.Name, writablePartitions)
client.cachedPartitionsResults[topic.Name] = partitionCache
}
return
}
func (client *client) cachedCoordinator(consumerGroup string) *Broker {
client.lock.RLock()
defer client.lock.RUnlock()
if coordinatorID, ok := client.coordinators[consumerGroup]; ok {
return client.brokers[coordinatorID]
}
return nil
}
func (client *client) cachedController() *Broker {
client.lock.RLock()
defer client.lock.RUnlock()
return client.brokers[client.controllerID]
}
func (client *client) computeBackoff(attemptsRemaining int) time.Duration {
if client.conf.Metadata.Retry.BackoffFunc != nil {
maxRetries := client.conf.Metadata.Retry.Max
retries := maxRetries - attemptsRemaining
return client.conf.Metadata.Retry.BackoffFunc(retries, maxRetries)
}
return client.conf.Metadata.Retry.Backoff
}
func (client *client) getConsumerMetadata(consumerGroup string, attemptsRemaining int) (*FindCoordinatorResponse, error) {
retry := func(err error) (*FindCoordinatorResponse, error) {
if attemptsRemaining > 0 {
backoff := client.computeBackoff(attemptsRemaining)
Logger.Printf("client/coordinator retrying after %dms... (%d attempts remaining)\n", backoff/time.Millisecond, attemptsRemaining)
time.Sleep(backoff)
return client.getConsumerMetadata(consumerGroup, attemptsRemaining-1)
}
return nil, err
}
for broker := client.any(); broker != nil; broker = client.any() {
Logger.Printf("client/coordinator requesting coordinator for consumergroup %s from %s\n", consumerGroup, broker.Addr())
request := new(FindCoordinatorRequest)
request.CoordinatorKey = consumerGroup
request.CoordinatorType = CoordinatorGroup
response, err := broker.FindCoordinator(request)
if err != nil {
Logger.Printf("client/coordinator request to broker %s failed: %s\n", broker.Addr(), err)
switch err.(type) {
case PacketEncodingError:
return nil, err
default:
_ = broker.Close()
client.deregisterBroker(broker)
continue
}
}
switch response.Err {
case ErrNoError:
Logger.Printf("client/coordinator coordinator for consumergroup %s is #%d (%s)\n", consumerGroup, response.Coordinator.ID(), response.Coordinator.Addr())
return response, nil
case ErrConsumerCoordinatorNotAvailable:
Logger.Printf("client/coordinator coordinator for consumer group %s is not available\n", consumerGroup)
// This is very ugly, but this scenario will only happen once per cluster.
// The __consumer_offsets topic only has to be created one time.
// The number of partitions not configurable, but partition 0 should always exist.
if _, err := client.Leader("__consumer_offsets", 0); err != nil {
Logger.Printf("client/coordinator the __consumer_offsets topic is not initialized completely yet. Waiting 2 seconds...\n")
time.Sleep(2 * time.Second)
}
return retry(ErrConsumerCoordinatorNotAvailable)
default:
return nil, response.Err
}
}
Logger.Println("client/coordinator no available broker to send consumer metadata request to")
client.resurrectDeadBrokers()
return retry(ErrOutOfBrokers)
}
// nopCloserClient embeds an existing Client, but disables
// the Close method (yet all other methods pass
// through unchanged). This is for use in larger structs
// where it is undesirable to close the client that was
// passed in by the caller.
type nopCloserClient struct {
Client
}
// Close intercepts and purposely does not call the underlying
// client's Close() method.
func (ncc *nopCloserClient) Close() error {
return nil
}