blob: cec18ec194aacde28ac4e5d4a9fe7c36054e5405 [file] [log] [blame]
/*
* Copyright 2018-present Open Networking Foundation
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package kafka
import (
"errors"
"fmt"
"github.com/Shopify/sarama"
scc "github.com/bsm/sarama-cluster"
"github.com/golang/protobuf/proto"
"github.com/google/uuid"
"github.com/opencord/voltha-lib-go/pkg/log"
ic "github.com/opencord/voltha-protos/go/inter_container"
"strings"
"sync"
"time"
)
func init() {
log.AddPackage(log.JSON, log.DebugLevel, nil)
}
type returnErrorFunction func() error
// consumerChannels represents one or more consumers listening on a kafka topic. Once a message is received on that
// topic, the consumer(s) broadcasts the message to all the listening channels. The consumer can be a partition
//consumer or a group consumer
type consumerChannels struct {
consumers []interface{}
channels []chan *ic.InterContainerMessage
}
// SaramaClient represents the messaging proxy
type SaramaClient struct {
cAdmin sarama.ClusterAdmin
client sarama.Client
KafkaHost string
KafkaPort int
producer sarama.AsyncProducer
consumer sarama.Consumer
groupConsumers map[string]*scc.Consumer
lockOfGroupConsumers sync.RWMutex
consumerGroupPrefix string
consumerType int
consumerGroupName string
producerFlushFrequency int
producerFlushMessages int
producerFlushMaxmessages int
producerRetryMax int
producerRetryBackOff time.Duration
producerReturnSuccess bool
producerReturnErrors bool
consumerMaxwait int
maxProcessingTime int
numPartitions int
numReplicas int
autoCreateTopic bool
doneCh chan int
topicToConsumerChannelMap map[string]*consumerChannels
lockTopicToConsumerChannelMap sync.RWMutex
topicLockMap map[string]*sync.RWMutex
lockOfTopicLockMap sync.RWMutex
metadataMaxRetry int
}
type SaramaClientOption func(*SaramaClient)
func Host(host string) SaramaClientOption {
return func(args *SaramaClient) {
args.KafkaHost = host
}
}
func Port(port int) SaramaClientOption {
return func(args *SaramaClient) {
args.KafkaPort = port
}
}
func ConsumerGroupPrefix(prefix string) SaramaClientOption {
return func(args *SaramaClient) {
args.consumerGroupPrefix = prefix
}
}
func ConsumerGroupName(name string) SaramaClientOption {
return func(args *SaramaClient) {
args.consumerGroupName = name
}
}
func ConsumerType(consumer int) SaramaClientOption {
return func(args *SaramaClient) {
args.consumerType = consumer
}
}
func ProducerFlushFrequency(frequency int) SaramaClientOption {
return func(args *SaramaClient) {
args.producerFlushFrequency = frequency
}
}
func ProducerFlushMessages(num int) SaramaClientOption {
return func(args *SaramaClient) {
args.producerFlushMessages = num
}
}
func ProducerFlushMaxMessages(num int) SaramaClientOption {
return func(args *SaramaClient) {
args.producerFlushMaxmessages = num
}
}
func ProducerMaxRetries(num int) SaramaClientOption {
return func(args *SaramaClient) {
args.producerRetryMax = num
}
}
func ProducerRetryBackoff(duration time.Duration) SaramaClientOption {
return func(args *SaramaClient) {
args.producerRetryBackOff = duration
}
}
func ProducerReturnOnErrors(opt bool) SaramaClientOption {
return func(args *SaramaClient) {
args.producerReturnErrors = opt
}
}
func ProducerReturnOnSuccess(opt bool) SaramaClientOption {
return func(args *SaramaClient) {
args.producerReturnSuccess = opt
}
}
func ConsumerMaxWait(wait int) SaramaClientOption {
return func(args *SaramaClient) {
args.consumerMaxwait = wait
}
}
func MaxProcessingTime(pTime int) SaramaClientOption {
return func(args *SaramaClient) {
args.maxProcessingTime = pTime
}
}
func NumPartitions(number int) SaramaClientOption {
return func(args *SaramaClient) {
args.numPartitions = number
}
}
func NumReplicas(number int) SaramaClientOption {
return func(args *SaramaClient) {
args.numReplicas = number
}
}
func AutoCreateTopic(opt bool) SaramaClientOption {
return func(args *SaramaClient) {
args.autoCreateTopic = opt
}
}
func MetadatMaxRetries(retry int) SaramaClientOption {
return func(args *SaramaClient) {
args.metadataMaxRetry = retry
}
}
func NewSaramaClient(opts ...SaramaClientOption) *SaramaClient {
client := &SaramaClient{
KafkaHost: DefaultKafkaHost,
KafkaPort: DefaultKafkaPort,
}
client.consumerType = DefaultConsumerType
client.producerFlushFrequency = DefaultProducerFlushFrequency
client.producerFlushMessages = DefaultProducerFlushMessages
client.producerFlushMaxmessages = DefaultProducerFlushMaxmessages
client.producerReturnErrors = DefaultProducerReturnErrors
client.producerReturnSuccess = DefaultProducerReturnSuccess
client.producerRetryMax = DefaultProducerRetryMax
client.producerRetryBackOff = DefaultProducerRetryBackoff
client.consumerMaxwait = DefaultConsumerMaxwait
client.maxProcessingTime = DefaultMaxProcessingTime
client.numPartitions = DefaultNumberPartitions
client.numReplicas = DefaultNumberReplicas
client.autoCreateTopic = DefaultAutoCreateTopic
client.metadataMaxRetry = DefaultMetadataMaxRetry
for _, option := range opts {
option(client)
}
client.groupConsumers = make(map[string]*scc.Consumer)
client.lockTopicToConsumerChannelMap = sync.RWMutex{}
client.topicLockMap = make(map[string]*sync.RWMutex)
client.lockOfTopicLockMap = sync.RWMutex{}
client.lockOfGroupConsumers = sync.RWMutex{}
return client
}
func (sc *SaramaClient) Start() error {
log.Info("Starting-kafka-sarama-client")
// Create the Done channel
sc.doneCh = make(chan int, 1)
var err error
// Add a cleanup in case of failure to startup
defer func() {
if err != nil {
sc.Stop()
}
}()
// Create the Cluster Admin
if err = sc.createClusterAdmin(); err != nil {
log.Errorw("Cannot-create-cluster-admin", log.Fields{"error": err})
return err
}
// Create the Publisher
if err := sc.createPublisher(); err != nil {
log.Errorw("Cannot-create-kafka-publisher", log.Fields{"error": err})
return err
}
if sc.consumerType == DefaultConsumerType {
// Create the master consumers
if err := sc.createConsumer(); err != nil {
log.Errorw("Cannot-create-kafka-consumers", log.Fields{"error": err})
return err
}
}
// Create the topic to consumers/channel map
sc.topicToConsumerChannelMap = make(map[string]*consumerChannels)
log.Info("kafka-sarama-client-started")
return nil
}
func (sc *SaramaClient) Stop() {
log.Info("stopping-sarama-client")
//Send a message over the done channel to close all long running routines
sc.doneCh <- 1
if sc.producer != nil {
if err := sc.producer.Close(); err != nil {
log.Errorw("closing-producer-failed", log.Fields{"error": err})
}
}
if sc.consumer != nil {
if err := sc.consumer.Close(); err != nil {
log.Errorw("closing-partition-consumer-failed", log.Fields{"error": err})
}
}
for key, val := range sc.groupConsumers {
log.Debugw("closing-group-consumer", log.Fields{"topic": key})
if err := val.Close(); err != nil {
log.Errorw("closing-group-consumer-failed", log.Fields{"error": err, "topic": key})
}
}
if sc.cAdmin != nil {
if err := sc.cAdmin.Close(); err != nil {
log.Errorw("closing-cluster-admin-failed", log.Fields{"error": err})
}
}
//TODO: Clear the consumers map
//sc.clearConsumerChannelMap()
log.Info("sarama-client-stopped")
}
//createTopic is an internal function to create a topic on the Kafka Broker. No locking is required as
// the invoking function must hold the lock
func (sc *SaramaClient) createTopic(topic *Topic, numPartition int, repFactor int) error {
// Set the topic details
topicDetail := &sarama.TopicDetail{}
topicDetail.NumPartitions = int32(numPartition)
topicDetail.ReplicationFactor = int16(repFactor)
topicDetail.ConfigEntries = make(map[string]*string)
topicDetails := make(map[string]*sarama.TopicDetail)
topicDetails[topic.Name] = topicDetail
if err := sc.cAdmin.CreateTopic(topic.Name, topicDetail, false); err != nil {
if err == sarama.ErrTopicAlreadyExists {
// Not an error
log.Debugw("topic-already-exist", log.Fields{"topic": topic.Name})
return nil
}
log.Errorw("create-topic-failure", log.Fields{"error": err})
return err
}
// TODO: Wait until the topic has been created. No API is available in the Sarama clusterAdmin to
// do so.
log.Debugw("topic-created", log.Fields{"topic": topic, "numPartition": numPartition, "replicationFactor": repFactor})
return nil
}
//CreateTopic is a public API to create a topic on the Kafka Broker. It uses a lock on a specific topic to
// ensure no two go routines are performing operations on the same topic
func (sc *SaramaClient) CreateTopic(topic *Topic, numPartition int, repFactor int) error {
sc.lockTopic(topic)
defer sc.unLockTopic(topic)
return sc.createTopic(topic, numPartition, repFactor)
}
//DeleteTopic removes a topic from the kafka Broker
func (sc *SaramaClient) DeleteTopic(topic *Topic) error {
sc.lockTopic(topic)
defer sc.unLockTopic(topic)
// Remove the topic from the broker
if err := sc.cAdmin.DeleteTopic(topic.Name); err != nil {
if err == sarama.ErrUnknownTopicOrPartition {
// Not an error as does not exist
log.Debugw("topic-not-exist", log.Fields{"topic": topic.Name})
return nil
}
log.Errorw("delete-topic-failed", log.Fields{"topic": topic, "error": err})
return err
}
// Clear the topic from the consumer channel. This will also close any consumers listening on that topic.
if err := sc.clearTopicFromConsumerChannelMap(*topic); err != nil {
log.Errorw("failure-clearing-channels", log.Fields{"topic": topic, "error": err})
return err
}
return nil
}
// Subscribe registers a caller to a topic. It returns a channel that the caller can use to receive
// messages from that topic
func (sc *SaramaClient) Subscribe(topic *Topic, kvArgs ...*KVArg) (<-chan *ic.InterContainerMessage, error) {
sc.lockTopic(topic)
defer sc.unLockTopic(topic)
log.Debugw("subscribe", log.Fields{"topic": topic.Name})
// If a consumers already exist for that topic then resuse it
if consumerCh := sc.getConsumerChannel(topic); consumerCh != nil {
log.Debugw("topic-already-subscribed", log.Fields{"topic": topic.Name})
// Create a channel specific for that consumers and add it to the consumers channel map
ch := make(chan *ic.InterContainerMessage)
sc.addChannelToConsumerChannelMap(topic, ch)
return ch, nil
}
// Register for the topic and set it up
var consumerListeningChannel chan *ic.InterContainerMessage
var err error
// Use the consumerType option to figure out the type of consumer to launch
if sc.consumerType == PartitionConsumer {
if sc.autoCreateTopic {
if err = sc.createTopic(topic, sc.numPartitions, sc.numReplicas); err != nil {
log.Errorw("create-topic-failure", log.Fields{"error": err, "topic": topic.Name})
return nil, err
}
}
if consumerListeningChannel, err = sc.setupPartitionConsumerChannel(topic, getOffset(kvArgs...)); err != nil {
log.Warnw("create-consumers-channel-failure", log.Fields{"error": err, "topic": topic.Name})
return nil, err
}
} else if sc.consumerType == GroupCustomer {
// TODO: create topic if auto create is on. There is an issue with the sarama cluster library that
// does not consume from a precreated topic in some scenarios
//if sc.autoCreateTopic {
// if err = sc.createTopic(topic, sc.numPartitions, sc.numReplicas); err != nil {
// log.Errorw("create-topic-failure", log.Fields{"error": err, "topic": topic.Name})
// return nil, err
// }
//}
//groupId := sc.consumerGroupName
groupId := getGroupId(kvArgs...)
// Include the group prefix
if groupId != "" {
groupId = sc.consumerGroupPrefix + groupId
} else {
// Need to use a unique group Id per topic
groupId = sc.consumerGroupPrefix + topic.Name
}
if consumerListeningChannel, err = sc.setupGroupConsumerChannel(topic, groupId, getOffset(kvArgs...)); err != nil {
log.Warnw("create-consumers-channel-failure", log.Fields{"error": err, "topic": topic.Name, "groupId": groupId})
return nil, err
}
} else {
log.Warnw("unknown-consumer-type", log.Fields{"consumer-type": sc.consumerType})
return nil, errors.New("unknown-consumer-type")
}
return consumerListeningChannel, nil
}
//UnSubscribe unsubscribe a consumer from a given topic
func (sc *SaramaClient) UnSubscribe(topic *Topic, ch <-chan *ic.InterContainerMessage) error {
sc.lockTopic(topic)
defer sc.unLockTopic(topic)
log.Debugw("unsubscribing-channel-from-topic", log.Fields{"topic": topic.Name})
var err error
if err = sc.removeChannelFromConsumerChannelMap(*topic, ch); err != nil {
log.Errorw("failed-removing-channel", log.Fields{"error": err})
}
if err = sc.deleteFromGroupConsumers(topic.Name); err != nil {
log.Errorw("failed-deleting-group-consumer", log.Fields{"error": err})
}
return err
}
// send formats and sends the request onto the kafka messaging bus.
func (sc *SaramaClient) Send(msg interface{}, topic *Topic, keys ...string) error {
// Assert message is a proto message
var protoMsg proto.Message
var ok bool
// ascertain the value interface type is a proto.Message
if protoMsg, ok = msg.(proto.Message); !ok {
log.Warnw("message-not-proto-message", log.Fields{"msg": msg})
return errors.New(fmt.Sprintf("not-a-proto-msg-%s", msg))
}
var marshalled []byte
var err error
// Create the Sarama producer message
if marshalled, err = proto.Marshal(protoMsg); err != nil {
log.Errorw("marshalling-failed", log.Fields{"msg": protoMsg, "error": err})
return err
}
key := ""
if len(keys) > 0 {
key = keys[0] // Only the first key is relevant
}
kafkaMsg := &sarama.ProducerMessage{
Topic: topic.Name,
Key: sarama.StringEncoder(key),
Value: sarama.ByteEncoder(marshalled),
}
// Send message to kafka
sc.producer.Input() <- kafkaMsg
// Wait for result
// TODO: Use a lock or a different mechanism to ensure the response received corresponds to the message sent.
select {
case ok := <-sc.producer.Successes():
log.Debugw("message-sent", log.Fields{"status": ok.Topic})
case notOk := <-sc.producer.Errors():
log.Debugw("error-sending", log.Fields{"status": notOk})
return notOk
}
return nil
}
// getGroupId returns the group id from the key-value args.
func getGroupId(kvArgs ...*KVArg) string {
for _, arg := range kvArgs {
if arg.Key == GroupIdKey {
return arg.Value.(string)
}
}
return ""
}
// getOffset returns the offset from the key-value args.
func getOffset(kvArgs ...*KVArg) int64 {
for _, arg := range kvArgs {
if arg.Key == Offset {
return arg.Value.(int64)
}
}
return sarama.OffsetNewest
}
func (sc *SaramaClient) createClusterAdmin() error {
kafkaFullAddr := fmt.Sprintf("%s:%d", sc.KafkaHost, sc.KafkaPort)
config := sarama.NewConfig()
config.Version = sarama.V1_0_0_0
// Create a cluster Admin
var cAdmin sarama.ClusterAdmin
var err error
if cAdmin, err = sarama.NewClusterAdmin([]string{kafkaFullAddr}, config); err != nil {
log.Errorw("cluster-admin-failure", log.Fields{"error": err, "broker-address": kafkaFullAddr})
return err
}
sc.cAdmin = cAdmin
return nil
}
func (sc *SaramaClient) lockTopic(topic *Topic) {
sc.lockOfTopicLockMap.Lock()
if _, exist := sc.topicLockMap[topic.Name]; exist {
sc.lockOfTopicLockMap.Unlock()
sc.topicLockMap[topic.Name].Lock()
} else {
sc.topicLockMap[topic.Name] = &sync.RWMutex{}
sc.lockOfTopicLockMap.Unlock()
sc.topicLockMap[topic.Name].Lock()
}
}
func (sc *SaramaClient) unLockTopic(topic *Topic) {
sc.lockOfTopicLockMap.Lock()
defer sc.lockOfTopicLockMap.Unlock()
if _, exist := sc.topicLockMap[topic.Name]; exist {
sc.topicLockMap[topic.Name].Unlock()
}
}
func (sc *SaramaClient) addTopicToConsumerChannelMap(id string, arg *consumerChannels) {
sc.lockTopicToConsumerChannelMap.Lock()
defer sc.lockTopicToConsumerChannelMap.Unlock()
if _, exist := sc.topicToConsumerChannelMap[id]; !exist {
sc.topicToConsumerChannelMap[id] = arg
}
}
func (sc *SaramaClient) deleteFromTopicToConsumerChannelMap(id string) {
sc.lockTopicToConsumerChannelMap.Lock()
defer sc.lockTopicToConsumerChannelMap.Unlock()
if _, exist := sc.topicToConsumerChannelMap[id]; exist {
delete(sc.topicToConsumerChannelMap, id)
}
}
func (sc *SaramaClient) getConsumerChannel(topic *Topic) *consumerChannels {
sc.lockTopicToConsumerChannelMap.RLock()
defer sc.lockTopicToConsumerChannelMap.RUnlock()
if consumerCh, exist := sc.topicToConsumerChannelMap[topic.Name]; exist {
return consumerCh
}
return nil
}
func (sc *SaramaClient) addChannelToConsumerChannelMap(topic *Topic, ch chan *ic.InterContainerMessage) {
sc.lockTopicToConsumerChannelMap.Lock()
defer sc.lockTopicToConsumerChannelMap.Unlock()
if consumerCh, exist := sc.topicToConsumerChannelMap[topic.Name]; exist {
consumerCh.channels = append(consumerCh.channels, ch)
return
}
log.Warnw("consumers-channel-not-exist", log.Fields{"topic": topic.Name})
}
//closeConsumers closes a list of sarama consumers. The consumers can either be a partition consumers or a group consumers
func closeConsumers(consumers []interface{}) error {
var err error
for _, consumer := range consumers {
// Is it a partition consumers?
if partionConsumer, ok := consumer.(sarama.PartitionConsumer); ok {
if errTemp := partionConsumer.Close(); errTemp != nil {
log.Debugw("partition!!!", log.Fields{"err": errTemp})
if strings.Compare(errTemp.Error(), sarama.ErrUnknownTopicOrPartition.Error()) == 0 {
// This can occur on race condition
err = nil
} else {
err = errTemp
}
}
} else if groupConsumer, ok := consumer.(*scc.Consumer); ok {
if errTemp := groupConsumer.Close(); errTemp != nil {
if strings.Compare(errTemp.Error(), sarama.ErrUnknownTopicOrPartition.Error()) == 0 {
// This can occur on race condition
err = nil
} else {
err = errTemp
}
}
}
}
return err
}
func (sc *SaramaClient) removeChannelFromConsumerChannelMap(topic Topic, ch <-chan *ic.InterContainerMessage) error {
sc.lockTopicToConsumerChannelMap.Lock()
defer sc.lockTopicToConsumerChannelMap.Unlock()
if consumerCh, exist := sc.topicToConsumerChannelMap[topic.Name]; exist {
// Channel will be closed in the removeChannel method
consumerCh.channels = removeChannel(consumerCh.channels, ch)
// If there are no more channels then we can close the consumers itself
if len(consumerCh.channels) == 0 {
log.Debugw("closing-consumers", log.Fields{"topic": topic})
err := closeConsumers(consumerCh.consumers)
//err := consumerCh.consumers.Close()
delete(sc.topicToConsumerChannelMap, topic.Name)
return err
}
return nil
}
log.Warnw("topic-does-not-exist", log.Fields{"topic": topic.Name})
return errors.New("topic-does-not-exist")
}
func (sc *SaramaClient) clearTopicFromConsumerChannelMap(topic Topic) error {
sc.lockTopicToConsumerChannelMap.Lock()
defer sc.lockTopicToConsumerChannelMap.Unlock()
if consumerCh, exist := sc.topicToConsumerChannelMap[topic.Name]; exist {
for _, ch := range consumerCh.channels {
// Channel will be closed in the removeChannel method
removeChannel(consumerCh.channels, ch)
}
err := closeConsumers(consumerCh.consumers)
//if err == sarama.ErrUnknownTopicOrPartition {
// // Not an error
// err = nil
//}
//err := consumerCh.consumers.Close()
delete(sc.topicToConsumerChannelMap, topic.Name)
return err
}
log.Debugw("topic-does-not-exist", log.Fields{"topic": topic.Name})
return nil
}
func (sc *SaramaClient) clearConsumerChannelMap() error {
sc.lockTopicToConsumerChannelMap.Lock()
defer sc.lockTopicToConsumerChannelMap.Unlock()
var err error
for topic, consumerCh := range sc.topicToConsumerChannelMap {
for _, ch := range consumerCh.channels {
// Channel will be closed in the removeChannel method
removeChannel(consumerCh.channels, ch)
}
if errTemp := closeConsumers(consumerCh.consumers); errTemp != nil {
err = errTemp
}
//err = consumerCh.consumers.Close()
delete(sc.topicToConsumerChannelMap, topic)
}
return err
}
//createPublisher creates the publisher which is used to send a message onto kafka
func (sc *SaramaClient) createPublisher() error {
// This Creates the publisher
config := sarama.NewConfig()
config.Producer.Partitioner = sarama.NewRandomPartitioner
config.Producer.Flush.Frequency = time.Duration(sc.producerFlushFrequency)
config.Producer.Flush.Messages = sc.producerFlushMessages
config.Producer.Flush.MaxMessages = sc.producerFlushMaxmessages
config.Producer.Return.Errors = sc.producerReturnErrors
config.Producer.Return.Successes = sc.producerReturnSuccess
//config.Producer.RequiredAcks = sarama.WaitForAll
config.Producer.RequiredAcks = sarama.WaitForLocal
kafkaFullAddr := fmt.Sprintf("%s:%d", sc.KafkaHost, sc.KafkaPort)
brokers := []string{kafkaFullAddr}
if producer, err := sarama.NewAsyncProducer(brokers, config); err != nil {
log.Errorw("error-starting-publisher", log.Fields{"error": err})
return err
} else {
sc.producer = producer
}
log.Info("Kafka-publisher-created")
return nil
}
func (sc *SaramaClient) createConsumer() error {
config := sarama.NewConfig()
config.Consumer.Return.Errors = true
config.Consumer.Fetch.Min = 1
config.Consumer.MaxWaitTime = time.Duration(sc.consumerMaxwait) * time.Millisecond
config.Consumer.MaxProcessingTime = time.Duration(sc.maxProcessingTime) * time.Millisecond
config.Consumer.Offsets.Initial = sarama.OffsetNewest
config.Metadata.Retry.Max = sc.metadataMaxRetry
kafkaFullAddr := fmt.Sprintf("%s:%d", sc.KafkaHost, sc.KafkaPort)
brokers := []string{kafkaFullAddr}
if consumer, err := sarama.NewConsumer(brokers, config); err != nil {
log.Errorw("error-starting-consumers", log.Fields{"error": err})
return err
} else {
sc.consumer = consumer
}
log.Info("Kafka-consumers-created")
return nil
}
// createGroupConsumer creates a consumers group
func (sc *SaramaClient) createGroupConsumer(topic *Topic, groupId string, initialOffset int64, retries int) (*scc.Consumer, error) {
config := scc.NewConfig()
config.ClientID = uuid.New().String()
config.Group.Mode = scc.ConsumerModeMultiplex
//config.Consumer.Return.Errors = true
//config.Group.Return.Notifications = false
//config.Consumer.MaxWaitTime = time.Duration(DefaultConsumerMaxwait) * time.Millisecond
//config.Consumer.MaxProcessingTime = time.Duration(DefaultMaxProcessingTime) * time.Millisecond
config.Consumer.Offsets.Initial = initialOffset
//config.Consumer.Offsets.Initial = sarama.OffsetOldest
kafkaFullAddr := fmt.Sprintf("%s:%d", sc.KafkaHost, sc.KafkaPort)
brokers := []string{kafkaFullAddr}
topics := []string{topic.Name}
var consumer *scc.Consumer
var err error
if consumer, err = scc.NewConsumer(brokers, groupId, topics, config); err != nil {
log.Errorw("create-group-consumers-failure", log.Fields{"error": err, "topic": topic.Name, "groupId": groupId})
return nil, err
}
log.Debugw("create-group-consumers-success", log.Fields{"topic": topic.Name, "groupId": groupId})
//sc.groupConsumers[topic.Name] = consumer
sc.addToGroupConsumers(topic.Name, consumer)
return consumer, nil
}
// dispatchToConsumers sends the intercontainermessage received on a given topic to all subscribers for that
// topic via the unique channel each subscriber received during subscription
func (sc *SaramaClient) dispatchToConsumers(consumerCh *consumerChannels, protoMessage *ic.InterContainerMessage) {
// Need to go over all channels and publish messages to them - do we need to copy msg?
sc.lockTopicToConsumerChannelMap.RLock()
defer sc.lockTopicToConsumerChannelMap.RUnlock()
for _, ch := range consumerCh.channels {
go func(c chan *ic.InterContainerMessage) {
c <- protoMessage
}(ch)
}
}
func (sc *SaramaClient) consumeFromAPartition(topic *Topic, consumer sarama.PartitionConsumer, consumerChnls *consumerChannels) {
log.Debugw("starting-partition-consumption-loop", log.Fields{"topic": topic.Name})
startloop:
for {
select {
case err, ok := <-consumer.Errors():
if ok {
log.Warnw("partition-consumers-error", log.Fields{"error": err})
} else {
// Channel is closed
break startloop
}
case msg, ok := <-consumer.Messages():
//log.Debugw("message-received", log.Fields{"msg": msg, "receivedTopic": msg.Topic})
if !ok {
// channel is closed
break startloop
}
msgBody := msg.Value
icm := &ic.InterContainerMessage{}
if err := proto.Unmarshal(msgBody, icm); err != nil {
log.Warnw("partition-invalid-message", log.Fields{"error": err})
continue
}
go sc.dispatchToConsumers(consumerChnls, icm)
case <-sc.doneCh:
log.Infow("partition-received-exit-signal", log.Fields{"topic": topic.Name})
break startloop
}
}
log.Infow("partition-consumer-stopped", log.Fields{"topic": topic.Name})
}
func (sc *SaramaClient) consumeGroupMessages(topic *Topic, consumer *scc.Consumer, consumerChnls *consumerChannels) {
log.Debugw("starting-group-consumption-loop", log.Fields{"topic": topic.Name})
startloop:
for {
select {
case err, ok := <-consumer.Errors():
if ok {
log.Warnw("group-consumers-error", log.Fields{"topic": topic.Name, "error": err})
} else {
// channel is closed
break startloop
}
case msg, ok := <-consumer.Messages():
if !ok {
// Channel closed
break startloop
}
log.Debugw("message-received", log.Fields{"timestamp": msg.Timestamp, "receivedTopic": msg.Topic})
msgBody := msg.Value
icm := &ic.InterContainerMessage{}
if err := proto.Unmarshal(msgBody, icm); err != nil {
log.Warnw("invalid-message", log.Fields{"error": err})
continue
}
go sc.dispatchToConsumers(consumerChnls, icm)
consumer.MarkOffset(msg, "")
case ntf := <-consumer.Notifications():
log.Debugw("group-received-notification", log.Fields{"notification": ntf})
case <-sc.doneCh:
log.Infow("group-received-exit-signal", log.Fields{"topic": topic.Name})
break startloop
}
}
log.Infow("group-consumer-stopped", log.Fields{"topic": topic.Name})
}
func (sc *SaramaClient) startConsumers(topic *Topic) error {
log.Debugw("starting-consumers", log.Fields{"topic": topic.Name})
var consumerCh *consumerChannels
if consumerCh = sc.getConsumerChannel(topic); consumerCh == nil {
log.Errorw("consumers-not-exist", log.Fields{"topic": topic.Name})
return errors.New("consumers-not-exist")
}
// For each consumer listening for that topic, start a consumption loop
for _, consumer := range consumerCh.consumers {
if pConsumer, ok := consumer.(sarama.PartitionConsumer); ok {
go sc.consumeFromAPartition(topic, pConsumer, consumerCh)
} else if gConsumer, ok := consumer.(*scc.Consumer); ok {
go sc.consumeGroupMessages(topic, gConsumer, consumerCh)
} else {
log.Errorw("invalid-consumer", log.Fields{"topic": topic})
return errors.New("invalid-consumer")
}
}
return nil
}
//// setupConsumerChannel creates a consumerChannels object for that topic and add it to the consumerChannels map
//// for that topic. It also starts the routine that listens for messages on that topic.
func (sc *SaramaClient) setupPartitionConsumerChannel(topic *Topic, initialOffset int64) (chan *ic.InterContainerMessage, error) {
var pConsumers []sarama.PartitionConsumer
var err error
if pConsumers, err = sc.createPartitionConsumers(topic, initialOffset); err != nil {
log.Errorw("creating-partition-consumers-failure", log.Fields{"error": err, "topic": topic.Name})
return nil, err
}
consumersIf := make([]interface{}, 0)
for _, pConsumer := range pConsumers {
consumersIf = append(consumersIf, pConsumer)
}
// Create the consumers/channel structure and set the consumers and create a channel on that topic - for now
// unbuffered to verify race conditions.
consumerListeningChannel := make(chan *ic.InterContainerMessage)
cc := &consumerChannels{
consumers: consumersIf,
channels: []chan *ic.InterContainerMessage{consumerListeningChannel},
}
// Add the consumers channel to the map
sc.addTopicToConsumerChannelMap(topic.Name, cc)
//Start a consumers to listen on that specific topic
go sc.startConsumers(topic)
return consumerListeningChannel, nil
}
// setupConsumerChannel creates a consumerChannels object for that topic and add it to the consumerChannels map
// for that topic. It also starts the routine that listens for messages on that topic.
func (sc *SaramaClient) setupGroupConsumerChannel(topic *Topic, groupId string, initialOffset int64) (chan *ic.InterContainerMessage, error) {
// TODO: Replace this development partition consumers with a group consumers
var pConsumer *scc.Consumer
var err error
if pConsumer, err = sc.createGroupConsumer(topic, groupId, initialOffset, DefaultMaxRetries); err != nil {
log.Errorw("creating-partition-consumers-failure", log.Fields{"error": err, "topic": topic.Name})
return nil, err
}
// Create the consumers/channel structure and set the consumers and create a channel on that topic - for now
// unbuffered to verify race conditions.
consumerListeningChannel := make(chan *ic.InterContainerMessage)
cc := &consumerChannels{
consumers: []interface{}{pConsumer},
channels: []chan *ic.InterContainerMessage{consumerListeningChannel},
}
// Add the consumers channel to the map
sc.addTopicToConsumerChannelMap(topic.Name, cc)
//Start a consumers to listen on that specific topic
go sc.startConsumers(topic)
return consumerListeningChannel, nil
}
func (sc *SaramaClient) createPartitionConsumers(topic *Topic, initialOffset int64) ([]sarama.PartitionConsumer, error) {
log.Debugw("creating-partition-consumers", log.Fields{"topic": topic.Name})
partitionList, err := sc.consumer.Partitions(topic.Name)
if err != nil {
log.Warnw("get-partition-failure", log.Fields{"error": err, "topic": topic.Name})
return nil, err
}
pConsumers := make([]sarama.PartitionConsumer, 0)
for _, partition := range partitionList {
var pConsumer sarama.PartitionConsumer
if pConsumer, err = sc.consumer.ConsumePartition(topic.Name, partition, initialOffset); err != nil {
log.Warnw("consumers-partition-failure", log.Fields{"error": err, "topic": topic.Name})
return nil, err
}
pConsumers = append(pConsumers, pConsumer)
}
return pConsumers, nil
}
func removeChannel(channels []chan *ic.InterContainerMessage, ch <-chan *ic.InterContainerMessage) []chan *ic.InterContainerMessage {
var i int
var channel chan *ic.InterContainerMessage
for i, channel = range channels {
if channel == ch {
channels[len(channels)-1], channels[i] = channels[i], channels[len(channels)-1]
close(channel)
log.Debug("channel-closed")
return channels[:len(channels)-1]
}
}
return channels
}
func (sc *SaramaClient) addToGroupConsumers(topic string, consumer *scc.Consumer) {
sc.lockOfGroupConsumers.Lock()
defer sc.lockOfGroupConsumers.Unlock()
if _, exist := sc.groupConsumers[topic]; !exist {
sc.groupConsumers[topic] = consumer
}
}
func (sc *SaramaClient) deleteFromGroupConsumers(topic string) error {
sc.lockOfGroupConsumers.Lock()
defer sc.lockOfGroupConsumers.Unlock()
if _, exist := sc.groupConsumers[topic]; exist {
consumer := sc.groupConsumers[topic]
delete(sc.groupConsumers, topic)
if err := consumer.Close(); err != nil {
log.Errorw("failure-closing-consumer", log.Fields{"error": err})
return err
}
}
return nil
}