package logic import ( "Open_IM/pkg/common/config" "Open_IM/pkg/common/constant" "Open_IM/pkg/common/db" kfk "Open_IM/pkg/common/kafka" "Open_IM/pkg/common/log" pbMsg "Open_IM/pkg/proto/chat" "Open_IM/pkg/utils" "github.com/Shopify/sarama" "github.com/golang/protobuf/proto" "time" ) type OfflineHistoryConsumerHandler struct { msgHandle map[string]fcb historyConsumerGroup *kfk.MConsumerGroup cmdCh chan Cmd2Value msgCh chan Cmd2Value chArrays [ChannelNum]chan Cmd2Value msgDistributionCh chan Cmd2Value } func (mc *OfflineHistoryConsumerHandler) Init(cmdCh chan Cmd2Value) { mc.msgHandle = make(map[string]fcb) mc.msgDistributionCh = make(chan Cmd2Value) //no buffer channel go mc.MessagesDistributionHandle() mc.cmdCh = cmdCh mc.msgCh = make(chan Cmd2Value, 1000) for i := 0; i < ChannelNum; i++ { mc.chArrays[i] = make(chan Cmd2Value, 1000) go mc.Run(i) } if config.Config.ReliableStorage { mc.msgHandle[config.Config.Kafka.Ws2mschat.Topic] = mc.handleChatWs2Mongo } else { mc.msgHandle[config.Config.Kafka.Ws2mschat.Topic] = mc.handleChatWs2MongoLowReliability } mc.historyConsumerGroup = kfk.NewMConsumerGroup(&kfk.MConsumerGroupConfig{KafkaVersion: sarama.V2_0_0_0, OffsetsInitial: sarama.OffsetNewest, IsReturnErr: false}, []string{config.Config.Kafka.Ws2mschatOffline.Topic}, config.Config.Kafka.Ws2mschatOffline.Addr, config.Config.Kafka.ConsumerGroupID.MsgToMongoOffline) } func (och *OfflineHistoryConsumerHandler) Run(channelID int) { for { select { case cmd := <-och.chArrays[channelID]: switch cmd.Cmd { case UserMessages: msgChannelValue := cmd.Value.(MsgChannelValue) msgList := msgChannelValue.msgList triggerID := msgChannelValue.triggerID storageMsgList := make([]*pbMsg.MsgDataToMQ, 0, 80) pushMsgList := make([]*pbMsg.MsgDataToMQ, 0, 80) log.Debug(triggerID, "msg arrived channel", "channel id", channelID, msgList, msgChannelValue.userID, len(msgList)) for _, v := range msgList { log.Debug(triggerID, "msg come to storage center", v.String()) isHistory := utils.GetSwitchFromOptions(v.MsgData.Options, constant.IsHistory) isSenderSync := utils.GetSwitchFromOptions(v.MsgData.Options, constant.IsSenderSync) if isHistory { storageMsgList = append(storageMsgList, v) } if !(!isSenderSync && msgChannelValue.userID == v.MsgData.SendID) { pushMsgList = append(pushMsgList, v) } } //switch msgChannelValue.msg.MsgData.SessionType { //case constant.SingleChatType: //case constant.GroupChatType: //case constant.NotificationChatType: //default: // log.NewError(msgFromMQ.OperationID, "SessionType error", msgFromMQ.String()) // return //} err := saveUserChatList(msgChannelValue.userID, storageMsgList, triggerID) if err != nil { singleMsgFailedCount += uint64(len(storageMsgList)) log.NewError(triggerID, "single data insert to mongo err", err.Error(), storageMsgList) } else { singleMsgSuccessCountMutex.Lock() singleMsgSuccessCount += uint64(len(storageMsgList)) singleMsgSuccessCountMutex.Unlock() for _, v := range pushMsgList { sendMessageToPush(v, msgChannelValue.userID) } } } } } } func (och *OfflineHistoryConsumerHandler) MessagesDistributionHandle() { UserAggregationMsgs := make(map[string][]*pbMsg.MsgDataToMQ, ChannelNum) for { select { case cmd := <-och.msgDistributionCh: switch cmd.Cmd { case ConsumerMsgs: triggerChannelValue := cmd.Value.(TriggerChannelValue) triggerID := triggerChannelValue.triggerID consumerMessages := triggerChannelValue.cmsgList //Aggregation map[userid]message list log.Debug(triggerID, "batch messages come to distribution center", len(consumerMessages)) for i := 0; i < len(consumerMessages); i++ { msgFromMQ := pbMsg.MsgDataToMQ{} err := proto.Unmarshal(consumerMessages[i].Value, &msgFromMQ) if err != nil { log.Error(triggerID, "msg_transfer Unmarshal msg err", "msg", string(consumerMessages[i].Value), "err", err.Error()) return } log.Debug(triggerID, "single msg come to distribution center", msgFromMQ.String()) if oldM, ok := UserAggregationMsgs[string(consumerMessages[i].Key)]; ok { oldM = append(oldM, &msgFromMQ) UserAggregationMsgs[string(consumerMessages[i].Key)] = oldM } else { m := make([]*pbMsg.MsgDataToMQ, 0, 100) m = append(m, &msgFromMQ) UserAggregationMsgs[string(consumerMessages[i].Key)] = m } } log.Debug(triggerID, "generate map list users len", len(UserAggregationMsgs)) for userID, v := range UserAggregationMsgs { if len(v) >= 0 { channelID := getHashCode(userID) % ChannelNum go func(cID uint32, userID string, messages []*pbMsg.MsgDataToMQ) { och.chArrays[cID] <- Cmd2Value{Cmd: UserMessages, Value: MsgChannelValue{userID: userID, msgList: messages, triggerID: triggerID}} }(channelID, userID, v) } } } } } } func (mc *OfflineHistoryConsumerHandler) handleChatWs2Mongo(cMsg *sarama.ConsumerMessage, msgKey string, sess sarama.ConsumerGroupSession) { msg := cMsg.Value now := time.Now() msgFromMQ := pbMsg.MsgDataToMQ{} err := proto.Unmarshal(msg, &msgFromMQ) if err != nil { log.Error("msg_transfer Unmarshal msg err", "", "msg", string(msg), "err", err.Error()) return } operationID := msgFromMQ.OperationID log.NewInfo(operationID, "msg come mongo!!!", "", "msg", string(msg)) //Control whether to store offline messages (mongo) isHistory := utils.GetSwitchFromOptions(msgFromMQ.MsgData.Options, constant.IsHistory) //Control whether to store history messages (mysql) isPersist := utils.GetSwitchFromOptions(msgFromMQ.MsgData.Options, constant.IsPersistent) isSenderSync := utils.GetSwitchFromOptions(msgFromMQ.MsgData.Options, constant.IsSenderSync) switch msgFromMQ.MsgData.SessionType { case constant.SingleChatType: log.NewDebug(msgFromMQ.OperationID, "msg_transfer msg type = SingleChatType", isHistory, isPersist) if isHistory { err := saveUserChat(msgKey, &msgFromMQ) if err != nil { singleMsgFailedCount++ log.NewError(operationID, "single data insert to mongo err", err.Error(), msgFromMQ.String()) return } singleMsgSuccessCountMutex.Lock() singleMsgSuccessCount++ singleMsgSuccessCountMutex.Unlock() log.NewDebug(msgFromMQ.OperationID, "sendMessageToPush cost time ", time.Since(now)) } if !isSenderSync && msgKey == msgFromMQ.MsgData.SendID { } else { go sendMessageToPush(&msgFromMQ, msgKey) } log.NewDebug(operationID, "saveSingleMsg cost time ", time.Since(now)) case constant.GroupChatType: log.NewDebug(msgFromMQ.OperationID, "msg_transfer msg type = GroupChatType", isHistory, isPersist) if isHistory { err := saveUserChat(msgFromMQ.MsgData.RecvID, &msgFromMQ) if err != nil { log.NewError(operationID, "group data insert to mongo err", msgFromMQ.String(), msgFromMQ.MsgData.RecvID, err.Error()) return } groupMsgCount++ } go sendMessageToPush(&msgFromMQ, msgFromMQ.MsgData.RecvID) log.NewDebug(operationID, "saveGroupMsg cost time ", time.Since(now)) case constant.NotificationChatType: log.NewDebug(msgFromMQ.OperationID, "msg_transfer msg type = NotificationChatType", isHistory, isPersist) if isHistory { err := saveUserChat(msgKey, &msgFromMQ) if err != nil { log.NewError(operationID, "single data insert to mongo err", err.Error(), msgFromMQ.String()) return } log.NewDebug(msgFromMQ.OperationID, "sendMessageToPush cost time ", time.Since(now)) } if !isSenderSync && msgKey == msgFromMQ.MsgData.SendID { } else { go sendMessageToPush(&msgFromMQ, msgKey) } log.NewDebug(operationID, "saveUserChat cost time ", time.Since(now)) default: log.NewError(msgFromMQ.OperationID, "SessionType error", msgFromMQ.String()) return } sess.MarkMessage(cMsg, "") log.NewDebug(msgFromMQ.OperationID, "msg_transfer handle topic data to database success...", msgFromMQ.String()) } func (mc *OfflineHistoryConsumerHandler) handleChatWs2MongoLowReliability(cMsg *sarama.ConsumerMessage, msgKey string, sess sarama.ConsumerGroupSession) { msg := cMsg.Value msgFromMQ := pbMsg.MsgDataToMQ{} err := proto.Unmarshal(msg, &msgFromMQ) if err != nil { log.Error("msg_transfer Unmarshal msg err", "", "msg", string(msg), "err", err.Error()) return } operationID := msgFromMQ.OperationID log.NewInfo(operationID, "msg come mongo!!!", "", "msg", string(msg)) //Control whether to store offline messages (mongo) isHistory := utils.GetSwitchFromOptions(msgFromMQ.MsgData.Options, constant.IsHistory) isSenderSync := utils.GetSwitchFromOptions(msgFromMQ.MsgData.Options, constant.IsSenderSync) if isHistory { seq, err := db.DB.IncrUserSeq(msgKey) if err != nil { log.NewError(operationID, "data insert to redis err", err.Error(), string(msg)) return } sess.MarkMessage(cMsg, "") msgFromMQ.MsgData.Seq = uint32(seq) log.Debug(operationID, "send ch msg is ", msgFromMQ.String()) //mc.msgCh <- Cmd2Value{Cmd: Msg, Value: MsgChannelValue{msgKey, msgFromMQ}} //err := saveUserChat(msgKey, &msgFromMQ) //if err != nil { // singleMsgFailedCount++ // log.NewError(operationID, "single data insert to mongo err", err.Error(), msgFromMQ.String()) // return //} //singleMsgSuccessCountMutex.Lock() //singleMsgSuccessCount++ //singleMsgSuccessCountMutex.Unlock() //log.NewDebug(msgFromMQ.OperationID, "sendMessageToPush cost time ", time.Since(now)) } else { if !(!isSenderSync && msgKey == msgFromMQ.MsgData.SendID) { go sendMessageToPush(&msgFromMQ, msgKey) } } } func (OfflineHistoryConsumerHandler) Setup(_ sarama.ConsumerGroupSession) error { return nil } func (OfflineHistoryConsumerHandler) Cleanup(_ sarama.ConsumerGroupSession) error { return nil } //func (mc *OfflineHistoryConsumerHandler) ConsumeClaim(sess sarama.ConsumerGroupSession, // claim sarama.ConsumerGroupClaim) error { // a instance in the consumer group // //log.NewDebug("", "offline new session msg come", claim.HighWaterMarkOffset(), claim.Topic(), claim.Partition()) // //for msg := range claim.Messages() { // // log.NewDebug("", "kafka get info to delay mongo", "msgTopic", msg.Topic, "msgPartition", msg.Partition, "offline") // // //mc.msgHandle[msg.Topic](msg.Value, string(msg.Key)) // //} // for msg := range claim.Messages() { // if GetOnlineTopicStatus() == OnlineTopicVacancy { // log.NewDebug("", "vacancy offline kafka get info to mongo", "msgTopic", msg.Topic, "msgPartition", msg.Partition, "msg", string(msg.Value)) // mc.msgHandle[msg.Topic](msg, string(msg.Key), sess) // } else { // select { // case <-mc.cmdCh: // log.NewDebug("", "cmd offline kafka get info to mongo", "msgTopic", msg.Topic, "msgPartition", msg.Partition, "msg", string(msg.Value)) // case <-time.After(time.Millisecond * time.Duration(100)): // log.NewDebug("", "timeout offline kafka get info to mongo", "msgTopic", msg.Topic, "msgPartition", msg.Partition, "msg", string(msg.Value)) // } // mc.msgHandle[msg.Topic](msg, string(msg.Key), sess) // } // } // // return nil //} func (och *OfflineHistoryConsumerHandler) ConsumeClaim(sess sarama.ConsumerGroupSession, claim sarama.ConsumerGroupClaim) error { // a instance in the consumer group log.NewDebug("", "online new session msg come", claim.HighWaterMarkOffset(), claim.Topic(), claim.Partition()) cMsg := make([]*sarama.ConsumerMessage, 0, 500) t := time.NewTicker(time.Duration(500) * time.Millisecond) var triggerID string for msg := range claim.Messages() { //och.TriggerCmd(OnlineTopicBusy) cMsg = append(cMsg, msg) select { case <-t.C: if len(cMsg) >= 0 { triggerID = utils.OperationIDGenerator() log.Debug(triggerID, "timer trigger msg consumer start", len(cMsg)) och.msgDistributionCh <- Cmd2Value{Cmd: ConsumerMsgs, Value: TriggerChannelValue{ triggerID: triggerID, cmsgList: cMsg}} sess.MarkMessage(msg, "") cMsg = cMsg[0:0] log.Debug(triggerID, "timer trigger msg consumer end", len(cMsg)) } default: if len(cMsg) >= 500 { triggerID = utils.OperationIDGenerator() log.Debug(triggerID, "length trigger msg consumer start", len(cMsg)) och.msgDistributionCh <- Cmd2Value{Cmd: ConsumerMsgs, Value: TriggerChannelValue{ triggerID: triggerID, cmsgList: cMsg}} sess.MarkMessage(msg, "") cMsg = cMsg[0:0] log.Debug(triggerID, "length trigger msg consumer end", len(cMsg)) } } log.NewDebug("", "online kafka get info to mongo", "msgTopic", msg.Topic, "msgPartition", msg.Partition, "online", msg.Offset, claim.HighWaterMarkOffset()) } return nil }