// Copyright © 2023 OpenIM. All rights reserved. // // 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 msgtransfer import ( "context" "strconv" "strings" "sync" "time" "github.com/OpenIMSDK/Open-IM-Server/pkg/errs" "github.com/Shopify/sarama" "github.com/go-redis/redis" "google.golang.org/protobuf/proto" "github.com/OpenIMSDK/Open-IM-Server/pkg/common/config" "github.com/OpenIMSDK/Open-IM-Server/pkg/common/constant" "github.com/OpenIMSDK/Open-IM-Server/pkg/common/db/controller" "github.com/OpenIMSDK/Open-IM-Server/pkg/common/kafka" "github.com/OpenIMSDK/Open-IM-Server/pkg/common/log" "github.com/OpenIMSDK/Open-IM-Server/pkg/common/mcontext" "github.com/OpenIMSDK/Open-IM-Server/pkg/proto/sdkws" "github.com/OpenIMSDK/Open-IM-Server/pkg/rpcclient" "github.com/OpenIMSDK/Open-IM-Server/pkg/utils" ) const ConsumerMsgs = 3 const SourceMessages = 4 const MongoMessages = 5 const ChannelNum = 100 type MsgChannelValue struct { uniqueKey string ctx context.Context ctxMsgList []*ContextMsg } type TriggerChannelValue struct { ctx context.Context cMsgList []*sarama.ConsumerMessage } type Cmd2Value struct { Cmd int Value interface{} } type ContextMsg struct { message *sdkws.MsgData ctx context.Context } type OnlineHistoryRedisConsumerHandler struct { historyConsumerGroup *kafka.MConsumerGroup chArrays [ChannelNum]chan Cmd2Value msgDistributionCh chan Cmd2Value singleMsgSuccessCount uint64 singleMsgFailedCount uint64 singleMsgSuccessCountMutex sync.Mutex singleMsgFailedCountMutex sync.Mutex msgDatabase controller.CommonMsgDatabase conversationRpcClient *rpcclient.ConversationRpcClient groupRpcClient *rpcclient.GroupRpcClient } func NewOnlineHistoryRedisConsumerHandler( database controller.CommonMsgDatabase, conversationRpcClient *rpcclient.ConversationRpcClient, groupRpcClient *rpcclient.GroupRpcClient, ) *OnlineHistoryRedisConsumerHandler { var och OnlineHistoryRedisConsumerHandler och.msgDatabase = database och.msgDistributionCh = make(chan Cmd2Value) //no buffer channel go och.MessagesDistributionHandle() for i := 0; i < ChannelNum; i++ { och.chArrays[i] = make(chan Cmd2Value, 50) go och.Run(i) } och.conversationRpcClient = conversationRpcClient och.groupRpcClient = groupRpcClient och.historyConsumerGroup = kafka.NewMConsumerGroup(&kafka.MConsumerGroupConfig{KafkaVersion: sarama.V2_0_0_0, OffsetsInitial: sarama.OffsetNewest, IsReturnErr: false}, []string{config.Config.Kafka.LatestMsgToRedis.Topic}, config.Config.Kafka.Addr, config.Config.Kafka.ConsumerGroupID.MsgToRedis) // statistics.NewStatistics(&och.singleMsgSuccessCount, config.Config.ModuleName.MsgTransferName, fmt.Sprintf("%d // second singleMsgCount insert to mongo", constant.StatisticsTimeInterval), constant.StatisticsTimeInterval) return &och } func (och *OnlineHistoryRedisConsumerHandler) Run(channelID int) { for { select { case cmd := <-och.chArrays[channelID]: switch cmd.Cmd { case SourceMessages: msgChannelValue := cmd.Value.(MsgChannelValue) ctxMsgList := msgChannelValue.ctxMsgList ctx := msgChannelValue.ctx log.ZDebug( ctx, "msg arrived channel", "channel id", channelID, "msgList length", len(ctxMsgList), "uniqueKey", msgChannelValue.uniqueKey, ) storageMsgList, notStorageMsgList, storageNotificationList, notStorageNotificationList, modifyMsgList := och.getPushStorageMsgList( ctxMsgList, ) log.ZDebug( ctx, "msg lens", "storageMsgList", len(storageMsgList), "notStorageMsgList", len(notStorageMsgList), "storageNotificationList", len(storageNotificationList), "notStorageNotificationList", len(notStorageNotificationList), "modifyMsgList", len(modifyMsgList), ) conversationIDMsg := utils.GetChatConversationIDByMsg(ctxMsgList[0].message) conversationIDNotification := utils.GetNotificationConversationID(ctxMsgList[0].message) och.handleMsg(ctx, msgChannelValue.uniqueKey, conversationIDMsg, storageMsgList, notStorageMsgList) och.handleNotification( ctx, msgChannelValue.uniqueKey, conversationIDNotification, storageNotificationList, notStorageNotificationList, ) if err := och.msgDatabase.MsgToModifyMQ(ctx, msgChannelValue.uniqueKey, conversationIDNotification, modifyMsgList); err != nil { log.ZError( ctx, "msg to modify mq error", err, "uniqueKey", msgChannelValue.uniqueKey, "modifyMsgList", modifyMsgList, ) } } } } } // 获取消息/通知 存储的消息列表, 不存储并且推送的消息列表, func (och *OnlineHistoryRedisConsumerHandler) getPushStorageMsgList( totalMsgs []*ContextMsg, ) (storageMsgList, notStorageMsgList, storageNotificatoinList, notStorageNotificationList, modifyMsgList []*sdkws.MsgData) { isStorage := func(msg *sdkws.MsgData) bool { options2 := utils.Options(msg.Options) if options2.IsHistory() { return true } else { // if !(!options2.IsSenderSync() && conversationID == msg.MsgData.SendID) { // return false // } return false } } for _, v := range totalMsgs { options := utils.Options(v.message.Options) if !options.IsNotNotification() { // clone msg from notificationMsg if options.IsSendMsg() { msg := proto.Clone(v.message).(*sdkws.MsgData) // 消息 if v.message.Options != nil { msg.Options = utils.NewMsgOptions() } if options.IsOfflinePush() { v.message.Options = utils.WithOptions( utils.Options(v.message.Options), utils.WithOfflinePush(false), ) msg.Options = utils.WithOptions(utils.Options(msg.Options), utils.WithOfflinePush(true)) } if options.IsUnreadCount() { v.message.Options = utils.WithOptions( utils.Options(v.message.Options), utils.WithUnreadCount(false), ) msg.Options = utils.WithOptions(utils.Options(msg.Options), utils.WithUnreadCount(true)) } storageMsgList = append(storageMsgList, msg) } if isStorage(v.message) { storageNotificatoinList = append(storageNotificatoinList, v.message) } else { notStorageNotificationList = append(notStorageNotificationList, v.message) } } else { if isStorage(v.message) { storageMsgList = append(storageMsgList, v.message) } else { notStorageMsgList = append(notStorageMsgList, v.message) } } if v.message.ContentType == constant.ReactionMessageModifier || v.message.ContentType == constant.ReactionMessageDeleter { modifyMsgList = append(modifyMsgList, v.message) } } return } func (och *OnlineHistoryRedisConsumerHandler) handleNotification( ctx context.Context, key, conversationID string, storageList, notStorageList []*sdkws.MsgData, ) { och.toPushTopic(ctx, key, conversationID, notStorageList) if len(storageList) > 0 { lastSeq, _, err := och.msgDatabase.BatchInsertChat2Cache(ctx, conversationID, storageList) if err != nil { log.ZError( ctx, "notification batch insert to redis error", err, "conversationID", conversationID, "storageList", storageList, ) return } log.ZDebug(ctx, "success to next topic", "conversationID", conversationID) och.msgDatabase.MsgToMongoMQ(ctx, key, conversationID, storageList, lastSeq) och.toPushTopic(ctx, key, conversationID, storageList) } } func (och *OnlineHistoryRedisConsumerHandler) toPushTopic( ctx context.Context, key, conversationID string, msgs []*sdkws.MsgData, ) { for _, v := range msgs { och.msgDatabase.MsgToPushMQ(ctx, key, conversationID, v) } } func (och *OnlineHistoryRedisConsumerHandler) handleMsg( ctx context.Context, key, conversationID string, storageList, notStorageList []*sdkws.MsgData, ) { och.toPushTopic(ctx, key, conversationID, notStorageList) if len(storageList) > 0 { lastSeq, isNewConversation, err := och.msgDatabase.BatchInsertChat2Cache(ctx, conversationID, storageList) if err != nil && errs.Unwrap(err) != redis.Nil { log.ZError(ctx, "batch data insert to redis err", err, "storageMsgList", storageList) och.singleMsgFailedCountMutex.Lock() och.singleMsgFailedCount += uint64(len(storageList)) och.singleMsgFailedCountMutex.Unlock() return } if isNewConversation { if storageList[0].SessionType == constant.SuperGroupChatType { log.ZInfo(ctx, "group chat first create conversation", "conversationID", conversationID) userIDs, err := och.groupRpcClient.GetGroupMemberIDs(ctx, storageList[0].GroupID) if err != nil { log.ZWarn(ctx, "get group member ids error", err, "conversationID", conversationID) } else { if err := och.conversationRpcClient.GroupChatFirstCreateConversation(ctx, storageList[0].GroupID, userIDs); err != nil { log.ZWarn(ctx, "single chat first create conversation error", err, "conversationID", conversationID) } } } else { if err := och.conversationRpcClient.SingleChatFirstCreateConversation(ctx, storageList[0].RecvID, storageList[0].SendID); err != nil { log.ZWarn(ctx, "single chat first create conversation error", err, "conversationID", conversationID) } } } log.ZDebug(ctx, "success incr to next topic") och.singleMsgSuccessCountMutex.Lock() och.singleMsgSuccessCount += uint64(len(storageList)) och.singleMsgSuccessCountMutex.Unlock() och.msgDatabase.MsgToMongoMQ(ctx, key, conversationID, storageList, lastSeq) och.toPushTopic(ctx, key, conversationID, storageList) } } func (och *OnlineHistoryRedisConsumerHandler) MessagesDistributionHandle() { for { aggregationMsgs := make(map[string][]*ContextMsg, ChannelNum) select { case cmd := <-och.msgDistributionCh: switch cmd.Cmd { case ConsumerMsgs: triggerChannelValue := cmd.Value.(TriggerChannelValue) ctx := triggerChannelValue.ctx consumerMessages := triggerChannelValue.cMsgList //Aggregation map[userid]message list log.ZDebug(ctx, "batch messages come to distribution center", "length", len(consumerMessages)) for i := 0; i < len(consumerMessages); i++ { ctxMsg := &ContextMsg{} msgFromMQ := &sdkws.MsgData{} err := proto.Unmarshal(consumerMessages[i].Value, msgFromMQ) if err != nil { log.ZError(ctx, "msg_transfer Unmarshal msg err", err, string(consumerMessages[i].Value)) continue } var arr []string for i, header := range consumerMessages[i].Headers { arr = append(arr, strconv.Itoa(i), string(header.Key), string(header.Value)) } log.ZInfo( ctx, "consumer.kafka.GetContextWithMQHeader", "len", len(consumerMessages[i].Headers), "header", strings.Join(arr, ", "), ) ctxMsg.ctx = kafka.GetContextWithMQHeader(consumerMessages[i].Headers) ctxMsg.message = msgFromMQ log.ZDebug( ctx, "single msg come to distribution center", "message", msgFromMQ, "key", string(consumerMessages[i].Key), ) // aggregationMsgs[string(consumerMessages[i].Key)] = // append(aggregationMsgs[string(consumerMessages[i].Key)], ctxMsg) if oldM, ok := aggregationMsgs[string(consumerMessages[i].Key)]; ok { oldM = append(oldM, ctxMsg) aggregationMsgs[string(consumerMessages[i].Key)] = oldM } else { m := make([]*ContextMsg, 0, 100) m = append(m, ctxMsg) aggregationMsgs[string(consumerMessages[i].Key)] = m } } log.ZDebug(ctx, "generate map list users len", "length", len(aggregationMsgs)) for uniqueKey, v := range aggregationMsgs { if len(v) >= 0 { hashCode := utils.GetHashCode(uniqueKey) channelID := hashCode % ChannelNum newCtx := withAggregationCtx(ctx, v) log.ZDebug( newCtx, "generate channelID", "hashCode", hashCode, "channelID", channelID, "uniqueKey", uniqueKey, ) och.chArrays[channelID] <- Cmd2Value{Cmd: SourceMessages, Value: MsgChannelValue{uniqueKey: uniqueKey, ctxMsgList: v, ctx: newCtx}} } } } } } } func withAggregationCtx(ctx context.Context, values []*ContextMsg) context.Context { var allMessageOperationID string for i, v := range values { if opid := mcontext.GetOperationID(v.ctx); opid != "" { if i == 0 { allMessageOperationID += opid } else { allMessageOperationID += "$" + opid } } } return mcontext.SetOperationID(ctx, allMessageOperationID) } func (och *OnlineHistoryRedisConsumerHandler) Setup(_ sarama.ConsumerGroupSession) error { return nil } func (och *OnlineHistoryRedisConsumerHandler) Cleanup(_ sarama.ConsumerGroupSession) error { return nil } func (och *OnlineHistoryRedisConsumerHandler) ConsumeClaim( sess sarama.ConsumerGroupSession, claim sarama.ConsumerGroupClaim, ) error { // a instance in the consumer group for { if sess == nil { log.ZWarn(context.Background(), "sess == nil, waiting", nil) time.Sleep(100 * time.Millisecond) } else { break } } rwLock := new(sync.RWMutex) log.ZDebug(context.Background(), "online new session msg come", "highWaterMarkOffset", claim.HighWaterMarkOffset(), "topic", claim.Topic(), "partition", claim.Partition()) cMsg := make([]*sarama.ConsumerMessage, 0, 1000) t := time.NewTicker(time.Millisecond * 100) go func() { for { select { case <-t.C: if len(cMsg) > 0 { rwLock.Lock() ccMsg := make([]*sarama.ConsumerMessage, 0, 1000) for _, v := range cMsg { ccMsg = append(ccMsg, v) } cMsg = make([]*sarama.ConsumerMessage, 0, 1000) rwLock.Unlock() split := 1000 ctx := mcontext.WithTriggerIDContext(context.Background(), utils.OperationIDGenerator()) log.ZDebug(ctx, "timer trigger msg consumer start", "length", len(ccMsg)) for i := 0; i < len(ccMsg)/split; i++ { //log.Debug() och.msgDistributionCh <- Cmd2Value{Cmd: ConsumerMsgs, Value: TriggerChannelValue{ ctx: ctx, cMsgList: ccMsg[i*split : (i+1)*split]}} } if (len(ccMsg) % split) > 0 { och.msgDistributionCh <- Cmd2Value{Cmd: ConsumerMsgs, Value: TriggerChannelValue{ ctx: ctx, cMsgList: ccMsg[split*(len(ccMsg)/split):]}} } log.ZDebug(ctx, "timer trigger msg consumer end", "length", len(ccMsg)) } } } }() for msg := range claim.Messages() { rwLock.Lock() if len(msg.Value) != 0 { cMsg = append(cMsg, msg) } rwLock.Unlock() sess.MarkMessage(msg, "") } return nil }