func (p *protocolV2) FIN(client *nsqd.ClientV2, params [][]byte) ([]byte, error) { state := atomic.LoadInt32(&client.State) if state != stateSubscribed && state != stateClosing { nsqd.NsqLogger().LogWarningf("[%s] command in wrong state: %v", client, state) return nil, protocol.NewFatalClientErr(nil, E_INVALID, "cannot FIN in current state") } if len(params) < 2 { nsqd.NsqLogger().LogDebugf("FIN error params: %v", params) return nil, protocol.NewFatalClientErr(nil, E_INVALID, "FIN insufficient number of params") } id, err := getFullMessageID(params[1]) if err != nil { nsqd.NsqLogger().LogDebugf("FIN error: %v, %v", params[1], err) return nil, protocol.NewFatalClientErr(nil, E_INVALID, err.Error()) } msgID := nsqd.GetMessageIDFromFullMsgID(*id) if int64(msgID) <= 0 { return nil, protocol.NewFatalClientErr(nil, E_INVALID, "Invalid Message ID") } if client.Channel == nil { nsqd.NsqLogger().LogDebugf("FIN error no channel: %v", msgID) return nil, protocol.NewFatalClientErr(nil, E_INVALID, "No channel") } if !p.ctx.checkForMasterWrite(client.Channel.GetTopicName(), client.Channel.GetTopicPart()) { nsqd.NsqLogger().Logf("topic %v fin message failed for not leader", client.Channel.GetTopicName()) return nil, protocol.NewFatalClientErr(nil, FailedOnNotLeader, "") } err = p.ctx.FinishMessage(client.Channel, client.ID, client.String(), msgID) if err != nil { client.IncrSubError(int64(1)) nsqd.NsqLogger().LogDebugf("FIN error : %v, err: %v, channel: %v, topic: %v", msgID, err, client.Channel.GetName(), client.Channel.GetTopicName()) if clusterErr, ok := err.(*consistence.CommonCoordErr); ok { if !clusterErr.IsLocalErr() { return nil, protocol.NewFatalClientErr(err, FailedOnNotWritable, "") } } return nil, protocol.NewClientErr(err, "E_FIN_FAILED", fmt.Sprintf("FIN %v failed %s", *id, err.Error())) } client.FinishedMessage() return nil, nil }
func (p *protocolV2) REQ(client *nsqd.ClientV2, params [][]byte) ([]byte, error) { state := atomic.LoadInt32(&client.State) if state != stateSubscribed && state != stateClosing { nsqd.NsqLogger().LogWarningf("[%s] command in wrong state: %v", client, state) return nil, protocol.NewFatalClientErr(nil, E_INVALID, "cannot REQ in current state") } if len(params) < 3 { return nil, protocol.NewFatalClientErr(nil, E_INVALID, "REQ insufficient number of params") } id, err := getFullMessageID(params[1]) if err != nil { return nil, protocol.NewFatalClientErr(nil, E_INVALID, err.Error()) } timeoutMs, err := protocol.ByteToBase10(params[2]) if err != nil { return nil, protocol.NewFatalClientErr(err, E_INVALID, fmt.Sprintf("REQ could not parse timeout %s", params[2])) } timeoutDuration := time.Duration(timeoutMs) * time.Millisecond if timeoutDuration < 0 || timeoutDuration > p.ctx.getOpts().MaxReqTimeout { return nil, protocol.NewFatalClientErr(nil, E_INVALID, fmt.Sprintf("REQ timeout %v out of range 0-%v", timeoutDuration, p.ctx.getOpts().MaxReqTimeout)) } if client.Channel == nil { return nil, protocol.NewFatalClientErr(nil, E_INVALID, "No channel") } err = client.Channel.RequeueMessage(client.ID, client.String(), nsqd.GetMessageIDFromFullMsgID(*id), timeoutDuration, true) if err != nil { client.IncrSubError(int64(1)) return nil, protocol.NewClientErr(err, "E_REQ_FAILED", fmt.Sprintf("REQ %v failed %s", *id, err.Error())) } client.RequeuedMessage(timeoutDuration > 0) return nil, nil }