| /* |
| * Copyright 2020-2024 Open Networking Foundation (ONF) and the ONF Contributors |
| * |
| * 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 avcfg provides anig and vlan configuration functionality |
| package avcfg |
| |
| import ( |
| "context" |
| "encoding/binary" |
| "fmt" |
| "net" |
| "strconv" |
| "sync" |
| "time" |
| |
| "github.com/cevaris/ordered_map" |
| "github.com/looplab/fsm" |
| "github.com/opencord/omci-lib-go/v2" |
| me "github.com/opencord/omci-lib-go/v2/generated" |
| "github.com/opencord/voltha-lib-go/v7/pkg/log" |
| |
| //ic "github.com/opencord/voltha-protos/v5/go/inter_container" |
| //"github.com/opencord/voltha-protos/v5/go/openflow_13" |
| //"github.com/opencord/voltha-protos/v5/go/voltha" |
| cmn "github.com/opencord/voltha-openonu-adapter-go/internal/pkg/common" |
| "github.com/opencord/voltha-openonu-adapter-go/internal/pkg/devdb" |
| ) |
| |
| const ( |
| // events of config PON ANI port FSM |
| aniEvStart = "aniEvStart" |
| aniEvStartConfig = "aniEvStartConfig" |
| aniEvRxDot1pmapCResp = "aniEvRxDot1pmapCResp" |
| aniEvRxMbpcdResp = "aniEvRxMbpcdResp" |
| aniEvRxTcontsResp = "aniEvRxTcontsResp" |
| aniEvRxGemntcpsResp = "aniEvRxGemntcpsResp" |
| aniEvRxGemiwsResp = "aniEvRxGemiwsResp" |
| aniEvRxPrioqsResp = "aniEvRxPrioqsResp" |
| aniEvRxDot1pmapSResp = "aniEvRxDot1pmapSResp" |
| aniEvRemGemiw = "aniEvRemGemiw" |
| aniEvWaitFlowRem = "aniEvWaitFlowRem" |
| aniEvFlowRemDone = "aniEvFlowRemDone" |
| aniEvRxRemGemiwResp = "aniEvRxRemGemiwResp" |
| aniEvRxRemGemntpResp = "aniEvRxRemGemntpResp" |
| aniEvRxRemTdResp = "aniEvRxRemTdResp" |
| aniEvRemTcontPath = "aniEvRemTcontPath" |
| aniEvRxResetTcontResp = "aniEvRxResetTcontResp" |
| aniEvRxRem1pMapperResp = "aniEvRxRem1pMapperResp" |
| aniEvRxRemAniBPCDResp = "aniEvRxRemAniBPCDResp" |
| aniEvTimeoutSimple = "aniEvTimeoutSimple" |
| aniEvTimeoutMids = "aniEvTimeoutMids" |
| aniEvReset = "aniEvReset" |
| aniEvRestart = "aniEvRestart" |
| aniEvSkipOmciConfig = "aniEvSkipOmciConfig" |
| aniEvRemGemDone = "aniEvRemGemDone" |
| ) |
| const ( |
| // states of config PON ANI port FSM |
| aniStDisabled = "aniStDisabled" |
| aniStStarting = "aniStStarting" |
| aniStCreatingDot1PMapper = "aniStCreatingDot1PMapper" |
| aniStCreatingMBPCD = "aniStCreatingMBPCD" |
| aniStSettingTconts = "aniStSettingTconts" |
| aniStCreatingGemNCTPs = "aniStCreatingGemNCTPs" |
| aniStCreatingGemIWs = "aniStCreatingGemIWs" |
| aniStSettingPQs = "aniStSettingPQs" |
| aniStSettingDot1PMapper = "aniStSettingDot1PMapper" |
| aniStConfigDone = "aniStConfigDone" |
| aniStRemovingGemIW = "aniStRemovingGemIW" |
| aniStWaitingFlowRem = "aniStWaitingFlowRem" |
| aniStRemovingGemNCTP = "aniStRemovingGemNCTP" |
| aniStRemovingTD = "aniStRemovingTD" |
| aniStResetTcont = "aniStResetTcont" |
| aniStRemDot1PMapper = "aniStRemDot1PMapper" |
| aniStRemAniBPCD = "aniStRemAniBPCD" |
| aniStRemoveDone = "aniStRemoveDone" |
| aniStResetting = "aniStResetting" |
| ) |
| |
| const ( |
| bitTrafficSchedulerPtrSetPermitted = 0x0002 // Refer section 9.1.2 ONU-2G, table for "Quality of service (QoS) configuration flexibility" IE |
| ) |
| const cTechProfileTypeXgsPon = "XGS-PON" |
| |
| // definitions as per G.988 |
| // Gem Encryption Key Ring |
| const ( |
| // No encryption. The downstream key index is ignored, and upstream traffic is transmitted with key index 0. |
| GemEncryptKeyRingNoEncrypt = 0 |
| // Unicast payload encryption in both directions. Keys are generated by the ONU and transmitted to the OLT via the PLOAM channel. |
| GemEncryptKeyRingUnicastPayload = 1 |
| // Broadcast (multicast) encryption. Keys are generated by the OLT and distributed via the OMCI. |
| GemEncryptKeyRingBroadcastMulticast = 2 |
| // Unicast encryption, downstream only. Keys are generated by the ONU and transmitted to the OLT via the PLOAM channel. |
| GemEncryptKeyRingUnicastDownstreamOnly = 3 |
| ) |
| |
| // CAniFsmIdleState - TODO: add comment |
| const CAniFsmIdleState = aniStConfigDone |
| |
| type ponAniGemPortAttribs struct { |
| gemPortID uint16 |
| upQueueID uint16 |
| downQueueID uint16 |
| direction uint8 |
| qosPolicy string |
| weight uint8 |
| pbitString string |
| isMulticast bool |
| multicastGemID uint16 |
| staticACL string |
| dynamicACL string |
| } |
| |
| // UniPonAniConfigFsm defines the structure for the state machine to config the PON ANI ports of ONU UNI ports via OMCI |
| type UniPonAniConfigFsm struct { |
| deviceID string |
| pDeviceHandler cmn.IdeviceHandler |
| pOnuDeviceEntry cmn.IonuDeviceEntry |
| pOmciCC *cmn.OmciCC |
| pOnuUniPort *cmn.OnuUniPort |
| pUniTechProf *OnuUniTechProf |
| pOnuDB *devdb.OnuDeviceDB |
| techProfileID uint8 |
| techProfileType string |
| uniTpKey uniTP |
| requestEvent cmn.OnuDeviceEvent |
| mutexIsAwaitingResponse sync.RWMutex |
| isCanceled bool |
| isAwaitingResponse bool |
| omciMIdsResponseReceived chan bool //separate channel needed for checking multiInstance OMCI message responses |
| PAdaptFsm *cmn.AdapterFsm |
| chSuccess chan<- uint8 |
| procStep uint8 |
| mutexChanSet sync.RWMutex |
| chanSet bool |
| mapperSP0ID uint16 |
| macBPCD0ID uint16 |
| tcont0ID uint16 |
| alloc0ID uint16 |
| gemPortAttribsSlice []ponAniGemPortAttribs |
| mutexPLastTxMeInstance sync.RWMutex |
| pLastTxMeInstance *me.ManagedEntity |
| requestEventOffset uint8 //used to indicate ConfigDone or Removed using successor (enum) |
| isWaitingForFlowDelete bool |
| waitFlowDeleteChannel chan bool |
| tcontSetBefore bool |
| } |
| |
| // NewUniPonAniConfigFsm is the 'constructor' for the state machine to config the PON ANI ports of ONU UNI ports via OMCI |
| func NewUniPonAniConfigFsm(ctx context.Context, apDevOmciCC *cmn.OmciCC, apUniPort *cmn.OnuUniPort, apUniTechProf *OnuUniTechProf, |
| apOnuDB *devdb.OnuDeviceDB, aTechProfileID uint8, aTechProfileType string, aRequestEvent cmn.OnuDeviceEvent, aName string, |
| apDeviceHandler cmn.IdeviceHandler, apOnuDeviceEntry cmn.IonuDeviceEntry, aCommChannel chan cmn.Message) *UniPonAniConfigFsm { |
| instFsm := &UniPonAniConfigFsm{ |
| pDeviceHandler: apDeviceHandler, |
| pOnuDeviceEntry: apOnuDeviceEntry, |
| deviceID: apDeviceHandler.GetDeviceID(), |
| pOmciCC: apDevOmciCC, |
| pOnuUniPort: apUniPort, |
| pUniTechProf: apUniTechProf, |
| pOnuDB: apOnuDB, |
| techProfileID: aTechProfileID, |
| techProfileType: aTechProfileType, |
| requestEvent: aRequestEvent, |
| chanSet: false, |
| tcontSetBefore: false, |
| } |
| instFsm.uniTpKey = uniTP{uniID: apUniPort.UniID, tpID: aTechProfileID} |
| instFsm.waitFlowDeleteChannel = make(chan bool) |
| |
| instFsm.PAdaptFsm = cmn.NewAdapterFsm(aName, instFsm.deviceID, aCommChannel) |
| if instFsm.PAdaptFsm == nil { |
| logger.Errorw(ctx, "UniPonAniConfigFsm's cmn.AdapterFsm could not be instantiated!!", log.Fields{ |
| "device-id": instFsm.deviceID}) |
| return nil |
| } |
| |
| instFsm.PAdaptFsm.PFsm = fsm.NewFSM( |
| aniStDisabled, |
| fsm.Events{ |
| |
| {Name: aniEvStart, Src: []string{aniStDisabled}, Dst: aniStStarting}, |
| |
| //Note: .1p-Mapper and MBPCD might also have multi instances (per T-Cont) - by now only one 1 T-Cont considered! |
| {Name: aniEvStartConfig, Src: []string{aniStStarting}, Dst: aniStCreatingDot1PMapper}, |
| {Name: aniEvRxDot1pmapCResp, Src: []string{aniStCreatingDot1PMapper}, Dst: aniStCreatingMBPCD}, |
| {Name: aniEvRxMbpcdResp, Src: []string{aniStCreatingMBPCD}, Dst: aniStSettingTconts}, |
| {Name: aniEvRxTcontsResp, Src: []string{aniStSettingTconts}, Dst: aniStCreatingGemNCTPs}, |
| // the creatingGemNCTPs state is used for multi ME config if required for all configured/available GemPorts |
| {Name: aniEvRxGemntcpsResp, Src: []string{aniStCreatingGemNCTPs}, Dst: aniStCreatingGemIWs}, |
| // the creatingGemIWs state is used for multi ME config if required for all configured/available GemPorts |
| {Name: aniEvRxGemiwsResp, Src: []string{aniStCreatingGemIWs}, Dst: aniStSettingPQs}, |
| // the settingPQs state is used for multi ME config if required for all configured/available upstream PriorityQueues |
| {Name: aniEvRxPrioqsResp, Src: []string{aniStSettingPQs}, Dst: aniStSettingDot1PMapper}, |
| {Name: aniEvRxDot1pmapSResp, Src: []string{aniStSettingDot1PMapper}, Dst: aniStConfigDone}, |
| |
| //for removing Gem related resources |
| {Name: aniEvRemGemiw, Src: []string{aniStConfigDone}, Dst: aniStRemovingGemIW}, |
| {Name: aniEvWaitFlowRem, Src: []string{aniStRemovingGemIW}, Dst: aniStWaitingFlowRem}, |
| {Name: aniEvFlowRemDone, Src: []string{aniStWaitingFlowRem}, Dst: aniStRemovingGemIW}, |
| {Name: aniEvRxRemGemiwResp, Src: []string{aniStRemovingGemIW}, Dst: aniStRemovingGemNCTP}, |
| {Name: aniEvRxRemGemntpResp, Src: []string{aniStRemovingGemNCTP}, Dst: aniStRemovingTD}, |
| {Name: aniEvRxRemTdResp, Src: []string{aniStRemovingTD}, Dst: aniStRemDot1PMapper}, |
| {Name: aniEvRemGemDone, Src: []string{aniStRemDot1PMapper}, Dst: aniStConfigDone}, |
| {Name: aniEvRxRem1pMapperResp, Src: []string{aniStRemDot1PMapper}, Dst: aniStRemAniBPCD}, |
| {Name: aniEvRxRemAniBPCDResp, Src: []string{aniStRemAniBPCD}, Dst: aniStRemoveDone}, |
| |
| //for removing TCONT related resources |
| {Name: aniEvRemTcontPath, Src: []string{aniStConfigDone}, Dst: aniStResetTcont}, |
| {Name: aniEvRxResetTcontResp, Src: []string{aniStResetTcont}, Dst: aniStConfigDone}, |
| |
| {Name: aniEvTimeoutSimple, Src: []string{aniStCreatingDot1PMapper, aniStCreatingMBPCD, aniStSettingTconts, aniStSettingDot1PMapper, |
| aniStRemovingGemIW, aniStRemovingGemNCTP, aniStRemovingTD, |
| aniStResetTcont, aniStRemDot1PMapper, aniStRemAniBPCD, aniStRemoveDone}, Dst: aniStStarting}, |
| {Name: aniEvTimeoutMids, Src: []string{ |
| aniStCreatingGemNCTPs, aniStCreatingGemIWs, aniStSettingPQs}, Dst: aniStStarting}, |
| |
| // exceptional treatment for all states except aniStResetting |
| {Name: aniEvReset, Src: []string{aniStStarting, aniStCreatingDot1PMapper, aniStCreatingMBPCD, |
| aniStSettingTconts, aniStCreatingGemNCTPs, aniStCreatingGemIWs, aniStSettingPQs, aniStSettingDot1PMapper, |
| aniStConfigDone, aniStRemovingGemIW, aniStWaitingFlowRem, aniStRemovingGemNCTP, aniStRemovingTD, |
| aniStResetTcont, aniStRemDot1PMapper, aniStRemAniBPCD, aniStRemoveDone}, Dst: aniStResetting}, |
| // the only way to get to resource-cleared disabled state again is via "resseting" |
| {Name: aniEvRestart, Src: []string{aniStResetting}, Dst: aniStDisabled}, |
| {Name: aniEvSkipOmciConfig, Src: []string{aniStStarting}, Dst: aniStConfigDone}, |
| }, |
| |
| fsm.Callbacks{ |
| "enter_state": func(e *fsm.Event) { instFsm.PAdaptFsm.LogFsmStateChange(ctx, e) }, |
| ("enter_" + aniStStarting): func(e *fsm.Event) { instFsm.enterConfigStartingState(ctx, e) }, |
| ("enter_" + aniStCreatingDot1PMapper): func(e *fsm.Event) { instFsm.enterCreatingDot1PMapper(ctx, e) }, |
| ("enter_" + aniStCreatingMBPCD): func(e *fsm.Event) { instFsm.enterCreatingMBPCD(ctx, e) }, |
| ("enter_" + aniStSettingTconts): func(e *fsm.Event) { instFsm.enterSettingTconts(ctx, e) }, |
| ("enter_" + aniStCreatingGemNCTPs): func(e *fsm.Event) { instFsm.enterCreatingGemNCTPs(ctx, e) }, |
| ("enter_" + aniStCreatingGemIWs): func(e *fsm.Event) { instFsm.enterCreatingGemIWs(ctx, e) }, |
| ("enter_" + aniStSettingPQs): func(e *fsm.Event) { instFsm.enterSettingPQs(ctx, e) }, |
| ("enter_" + aniStSettingDot1PMapper): func(e *fsm.Event) { instFsm.enterSettingDot1PMapper(ctx, e) }, |
| ("enter_" + aniStConfigDone): func(e *fsm.Event) { instFsm.enterAniConfigDone(ctx, e) }, |
| ("enter_" + aniStRemovingGemIW): func(e *fsm.Event) { instFsm.enterRemovingGemIW(ctx, e) }, |
| ("enter_" + aniStWaitingFlowRem): func(e *fsm.Event) { instFsm.enterWaitingFlowRem(ctx, e) }, |
| ("enter_" + aniStRemovingGemNCTP): func(e *fsm.Event) { instFsm.enterRemovingGemNCTP(ctx, e) }, |
| ("enter_" + aniStRemovingTD): func(e *fsm.Event) { instFsm.enterRemovingTD(ctx, e) }, |
| ("enter_" + aniStResetTcont): func(e *fsm.Event) { instFsm.enterResettingTcont(ctx, e) }, |
| ("enter_" + aniStRemDot1PMapper): func(e *fsm.Event) { instFsm.enterRemoving1pMapper(ctx, e) }, |
| ("enter_" + aniStRemAniBPCD): func(e *fsm.Event) { instFsm.enterRemovingAniBPCD(ctx, e) }, |
| ("enter_" + aniStRemoveDone): func(e *fsm.Event) { instFsm.enterAniRemoveDone(ctx, e) }, |
| ("enter_" + aniStResetting): func(e *fsm.Event) { instFsm.enterResettingState(ctx, e) }, |
| ("enter_" + aniStDisabled): func(e *fsm.Event) { instFsm.enterDisabledState(ctx, e) }, |
| }, |
| ) |
| if instFsm.PAdaptFsm.PFsm == nil { |
| logger.Errorw(ctx, "UniPonAniConfigFsm's Base FSM could not be instantiated!!", log.Fields{ |
| "device-id": instFsm.deviceID}) |
| return nil |
| } |
| |
| logger.Debugw(ctx, "UniPonAniConfigFsm created", log.Fields{"device-id": instFsm.deviceID}) |
| return instFsm |
| } |
| |
| // setFsmCompleteChannel sets the requested channel and channel result for transfer on success |
| func (oFsm *UniPonAniConfigFsm) setFsmCompleteChannel(aChSuccess chan<- uint8, aProcStep uint8) { |
| oFsm.chSuccess = aChSuccess |
| oFsm.procStep = aProcStep |
| oFsm.setChanSet(true) |
| } |
| |
| // CancelProcessing ensures that suspended processing at waiting on some response is aborted and reset of FSM |
| func (oFsm *UniPonAniConfigFsm) CancelProcessing(ctx context.Context) { |
| logger.Info(ctx, "CancelProcessing entered", log.Fields{"device-id": oFsm.deviceID}) |
| //early indication about started reset processing |
| oFsm.pUniTechProf.setProfileResetting(ctx, oFsm.pOnuUniPort.UniID, oFsm.techProfileID, true) |
| //mutex protection is required for possible concurrent access to FSM members |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isCanceled = true |
| if oFsm.isAwaitingResponse { |
| //attention: for an unbuffered channel the sender is blocked until the value is received (processed)! |
| // accordingly the mutex must be released before sending to channel here (mutex acquired in receiver) |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| //use channel to indicate that the response waiting shall be aborted |
| oFsm.omciMIdsResponseReceived <- false |
| } else { |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| } |
| |
| oFsm.mutexIsAwaitingResponse.Lock() |
| if oFsm.isWaitingForFlowDelete { |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| //use channel to indicate that the response waiting shall be aborted |
| oFsm.waitFlowDeleteChannel <- false |
| } else { |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| } |
| |
| // in any case (even if it might be automatically requested by above cancellation of waiting) ensure resetting the FSM |
| PAdaptFsm := oFsm.PAdaptFsm |
| if PAdaptFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm.PFsm != nil { |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| } |
| }(PAdaptFsm) |
| } |
| |
| // possible access conflicts on internal data by next needed data clearance |
| // are avoided by using mutexTPState also from within clearAniSideConfig |
| // do not try to lock TpProcMutex here as done in previous code version |
| // as it may result in deadlock situations (as observed at soft-reboot handling where |
| // TpProcMutex is already locked by some ongoing TechProfile config/removal processing |
| //remove all TechProf related internal data to allow for new configuration |
| oFsm.pUniTechProf.clearAniSideConfig(ctx, oFsm.pOnuUniPort.UniID, oFsm.techProfileID) |
| } |
| |
| // nolint: gocyclo |
| // TODO:visit here for refactoring for gocyclo |
| func (oFsm *UniPonAniConfigFsm) prepareAndEnterConfigState(ctx context.Context, aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| var err error |
| oFsm.mapperSP0ID, err = cmn.GenerateIeeMaperServiceProfileEID(uint16(oFsm.pOnuUniPort.MacBpNo), uint16(oFsm.techProfileID)) |
| if err != nil { |
| logger.Errorw(ctx, "error generating maper id", log.Fields{"device-id": oFsm.deviceID, |
| "techProfileID": oFsm.techProfileID, "error": err}) |
| return |
| } |
| oFsm.macBPCD0ID, err = cmn.GenerateANISideMBPCDEID(uint16(oFsm.pOnuUniPort.MacBpNo), uint16(oFsm.techProfileID)) |
| if err != nil { |
| logger.Errorw(ctx, "error generating mbpcd id", log.Fields{"device-id": oFsm.deviceID, |
| "techProfileID": oFsm.techProfileID, "error": err}) |
| return |
| } |
| logger.Debugw(ctx, "generated ids for ani config", log.Fields{"mapperSP0ID": strconv.FormatInt(int64(oFsm.mapperSP0ID), 16), |
| "macBPCD0ID": strconv.FormatInt(int64(oFsm.macBPCD0ID), 16), "device-id": oFsm.deviceID, |
| "macBpNo": oFsm.pOnuUniPort.MacBpNo, "techProfileID": oFsm.techProfileID}) |
| if oFsm.pOnuDeviceEntry == nil { |
| logger.Errorw(ctx, "No valid OnuDevice - aborting", log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| tcontInstID, tcontAlreadyExist, err := oFsm.pOnuDeviceEntry.AllocateFreeTcont(ctx, oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].tcontParams.allocID) |
| if err != nil { |
| logger.Errorw(ctx, "No TCont instances found", log.Fields{"device-id": oFsm.deviceID, "err": err}) |
| //reset the state machine to enable usage on subsequent requests |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| oFsm.tcont0ID = tcontInstID |
| oFsm.tcontSetBefore = tcontAlreadyExist |
| logger.Debugw(ctx, "used-tcont-instance-id", log.Fields{"tcont-inst-id": oFsm.tcont0ID, |
| "alloc-id": oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].tcontParams.allocID, |
| "tcontAlreadyExist": tcontAlreadyExist, |
| "device-id": oFsm.deviceID}) |
| |
| // Access critical state with lock |
| oFsm.pUniTechProf.mutexTPState.RLock() |
| oFsm.alloc0ID = oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].tcontParams.allocID |
| mapGemPortParams := oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].mapGemPortParams |
| oFsm.pUniTechProf.mutexTPState.RUnlock() |
| |
| //for all TechProfile set GemIndices |
| for _, gemEntry := range mapGemPortParams { |
| loGemPortAttribs := ponAniGemPortAttribs{} |
| |
| //collect all GemConfigData in a separate Fsm related slice (needed also to avoid mix-up with unsorted mapPonAniConfig) |
| |
| if queueInstKeys := oFsm.pOnuDB.GetSortedInstKeys(ctx, me.PriorityQueueClassID); len(queueInstKeys) > 0 { |
| |
| loGemPortAttribs.gemPortID = gemEntry.gemPortID |
| // MibDb usage: upstream PrioQueue.RelatedPort = xxxxyyyy with xxxx=TCont.Entity(incl. slot) and yyyy=prio |
| // i.e.: search PrioQueue list with xxxx=actual T-Cont.Entity, |
| // from that list use the PrioQueue.Entity with gemEntry.prioQueueIndex == yyyy (expect 0..7) |
| usQrelPortMask := uint32((((uint32)(oFsm.tcont0ID)) << 16) + uint32(gemEntry.prioQueueIndex)) |
| |
| // MibDb usage: downstream PrioQueue.RelatedPort = xxyyzzzz with xx=slot, yy=UniPort and zzzz=prio |
| // i.e.: search PrioQueue list with yy=actual pOnuUniPort.UniID, |
| // from that list use the PrioQueue.Entity with gemEntry.prioQueueIndex == zzzz (expect 0..7) |
| // Note: As we do not maintain any slot numbering, slot number will be excluded from search pattern. |
| // Furthermore OMCI Onu port-Id is expected to start with 1 (not 0). |
| dsQrelPortMask := uint32((((uint32)(oFsm.pOnuUniPort.UniID + 1)) << 16) + uint32(gemEntry.prioQueueIndex)) |
| |
| usQueueFound := false |
| dsQueueFound := false |
| for _, mgmtEntityID := range queueInstKeys { |
| if meAttributes := oFsm.pOnuDB.GetMe(me.PriorityQueueClassID, mgmtEntityID); meAttributes != nil { |
| returnVal := meAttributes[me.PriorityQueue_RelatedPort] |
| if returnVal != nil { |
| if relatedPort, err := oFsm.pOnuDB.GetUint32Attrib(returnVal); err == nil { |
| if relatedPort == usQrelPortMask { |
| loGemPortAttribs.upQueueID = mgmtEntityID |
| logger.Debugw(ctx, "UpQueue for GemPort found:", log.Fields{"gemPortID": loGemPortAttribs.gemPortID, |
| "upQueueID": strconv.FormatInt(int64(loGemPortAttribs.upQueueID), 16), "device-id": oFsm.deviceID}) |
| usQueueFound = true |
| } else if (relatedPort&0xFFFFFF) == dsQrelPortMask && mgmtEntityID < 0x8000 { |
| loGemPortAttribs.downQueueID = mgmtEntityID |
| logger.Debugw(ctx, "DownQueue for GemPort found:", log.Fields{"gemPortID": loGemPortAttribs.gemPortID, |
| "downQueueID": strconv.FormatInt(int64(loGemPortAttribs.downQueueID), 16), "device-id": oFsm.deviceID}) |
| dsQueueFound = true |
| } |
| if usQueueFound && dsQueueFound { |
| break |
| } |
| } else { |
| logger.Warnw(ctx, "Could not convert attribute value", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| } else { |
| logger.Warnw(ctx, "PrioQueue.RelatedPort not found in meAttributes:", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| } else { |
| logger.Warnw(ctx, "No attributes available in DB:", log.Fields{"meClassID": me.PriorityQueueClassID, |
| "mgmtEntityID": mgmtEntityID, "device-id": oFsm.deviceID}) |
| } |
| } |
| } else { |
| logger.Warnw(ctx, "No PriorityQueue instances found", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| loGemPortAttribs.direction = gemEntry.direction |
| loGemPortAttribs.qosPolicy = gemEntry.queueSchedPolicy |
| loGemPortAttribs.weight = gemEntry.queueWeight |
| loGemPortAttribs.pbitString = gemEntry.pbitString |
| |
| if gemEntry.isMulticast { |
| //TODO this might effectively ignore the for loop starting at line 316 |
| loGemPortAttribs.gemPortID = gemEntry.multicastGemPortID |
| loGemPortAttribs.isMulticast = true |
| loGemPortAttribs.multicastGemID = gemEntry.multicastGemPortID |
| loGemPortAttribs.staticACL = gemEntry.staticACL |
| loGemPortAttribs.dynamicACL = gemEntry.dynamicACL |
| |
| logger.Debugw(ctx, "Multicast GemPort attributes:", log.Fields{ |
| "gemPortID": loGemPortAttribs.gemPortID, |
| "isMulticast": loGemPortAttribs.isMulticast, |
| "multicastGemID": loGemPortAttribs.multicastGemID, |
| "staticACL": loGemPortAttribs.staticACL, |
| "dynamicACL": loGemPortAttribs.dynamicACL, |
| "device-id": oFsm.deviceID, |
| }) |
| |
| } else { |
| logger.Debugw(ctx, "Upstream GemPort attributes:", log.Fields{ |
| "gemPortID": loGemPortAttribs.gemPortID, |
| "upQueueID": loGemPortAttribs.upQueueID, |
| "downQueueID": loGemPortAttribs.downQueueID, |
| "pbitString": loGemPortAttribs.pbitString, |
| "prioQueueIndex": gemEntry.prioQueueIndex, |
| "device-id": oFsm.deviceID, |
| }) |
| } |
| |
| oFsm.gemPortAttribsSlice = append(oFsm.gemPortAttribsSlice, loGemPortAttribs) |
| if oFsm.pDeviceHandler.IsSkipOnuConfigReconciling() { |
| meParams := me.ParamData{ |
| EntityID: loGemPortAttribs.gemPortID, |
| Attributes: me.AttributeValueMap{ |
| me.GemPortNetworkCtp_PortId: loGemPortAttribs.gemPortID, |
| me.GemPortNetworkCtp_TContPointer: oFsm.tcont0ID, |
| me.GemPortNetworkCtp_Direction: loGemPortAttribs.direction, |
| me.GemPortNetworkCtp_TrafficManagementPointerForUpstream: loGemPortAttribs.upQueueID, |
| me.GemPortNetworkCtp_PriorityQueuePointerForDownStream: loGemPortAttribs.downQueueID, |
| }, |
| } |
| oFsm.pOnuDB.PutOnuSpeficMe(ctx, me.GemPortNetworkCtpClassID, loGemPortAttribs.gemPortID, meParams.Attributes) |
| var meAttributes me.AttributeValueMap //dummy , anyways we are not going to use the values. |
| oFsm.pOnuDB.PutOnuSpeficMe(ctx, me.GemPortNetworkCtpPerformanceMonitoringHistoryDataClassID, loGemPortAttribs.gemPortID, meAttributes) |
| |
| oFsm.pOnuDB.PutOnuSpeficMe(ctx, me.GemInterworkingTerminationPointClassID, loGemPortAttribs.gemPortID, meAttributes) |
| |
| } |
| } |
| if !oFsm.pDeviceHandler.IsSkipOnuConfigReconciling() { |
| _ = aPAFsm.PFsm.Event(aniEvStartConfig) |
| } else { |
| logger.Debugw(ctx, "reconciling - skip omci-config of ANI side ", log.Fields{"device-id": oFsm.deviceID}) |
| _ = aPAFsm.PFsm.Event(aniEvSkipOmciConfig) |
| } |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterConfigStartingState(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm start", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| // in case the used channel is not yet defined (can be re-used after restarts) |
| if oFsm.omciMIdsResponseReceived == nil { |
| oFsm.omciMIdsResponseReceived = make(chan bool) |
| logger.Debug(ctx, "UniPonAniConfigFsm - OMCI multiInstance RxChannel defined") |
| } else { |
| // as we may 're-use' this instance of FSM and the connected channel |
| // make sure there is no 'lingering' request in the already existing channel: |
| // (simple loop sufficient as we are the only receiver) |
| for len(oFsm.omciMIdsResponseReceived) > 0 { |
| <-oFsm.omciMIdsResponseReceived |
| } |
| } |
| //ensure internal slices are empty (which might be set from previous run) - release memory |
| oFsm.gemPortAttribsSlice = nil |
| oFsm.mutexIsAwaitingResponse.Lock() |
| //reset the canceled state possibly existing from previous reset |
| oFsm.isCanceled = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| |
| // start go routine for processing of ANI config messages |
| go oFsm.processOmciAniMessages(ctx) |
| |
| //let the state machine run forward from here directly |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go oFsm.prepareAndEnterConfigState(ctx, pConfigAniStateAFsm) |
| |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterCreatingDot1PMapper(ctx context.Context, e *fsm.Event) { |
| logger.Debugw(ctx, "UniPonAniConfigFsm Tx Create::Dot1PMapper", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(oFsm.mapperSP0ID), 16), |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| oFsm.requestEventOffset = 0 //0 offset for last config request activity |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendCreateDot1PMapper(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.mapperSP0ID, oFsm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "Dot1PMapper create failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterCreatingMBPCD(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "Creating Tx MAC Bridge Port Config Data", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(oFsm.macBPCD0ID), 16), |
| "TPPtr": strconv.FormatInt(int64(oFsm.mapperSP0ID), 16), |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| bridgePtr := cmn.MacBridgeServiceProfileEID + uint16(oFsm.pOnuUniPort.MacBpNo) //cmp also omci_cc.go::sendCreateMBServiceProfile |
| meParams := me.ParamData{ |
| EntityID: oFsm.macBPCD0ID, |
| Attributes: me.AttributeValueMap{ |
| me.MacBridgePortConfigurationData_BridgeIdPointer: bridgePtr, |
| me.MacBridgePortConfigurationData_PortNum: 0xFF, //fixed unique ANI side indication |
| me.MacBridgePortConfigurationData_TpType: 3, //for .1PMapper |
| me.MacBridgePortConfigurationData_TpPointer: oFsm.mapperSP0ID, |
| }, |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendCreateMBPConfigDataVar(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| logger.Errorw(ctx, "MBPConfigDataVar create failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterSettingTconts(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "Tx Setting Tcont ", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(oFsm.tcont0ID), 16), |
| "AllocId": strconv.FormatInt(int64(oFsm.alloc0ID), 16), |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, |
| "tcontExist": oFsm.tcontSetBefore}) |
| //If tcont was set before, then no need to set it again. Let state machine to proceed. |
| if oFsm.tcontSetBefore { |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvRxTcontsResp) |
| } |
| }(oFsm.PAdaptFsm) |
| return |
| } |
| meParams := me.ParamData{ |
| EntityID: oFsm.tcont0ID, |
| Attributes: me.AttributeValueMap{ |
| me.TCont_AllocId: oFsm.alloc0ID, |
| }, |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendSetTcontVar(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| logger.Errorw(ctx, "TcontVar set failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterCreatingGemNCTPs(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm - start creating GemNWCtp loop", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| go oFsm.performCreatingGemNCTPs(ctx) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterCreatingGemIWs(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm - start creating GemIwTP loop", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| go oFsm.performCreatingGemIWs(ctx) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterSettingPQs(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm - start setting PrioQueue loop", log.Fields{ |
| "in state": e.FSM.Current(), "device-id": oFsm.deviceID}) |
| go oFsm.performSettingPQs(ctx) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterSettingDot1PMapper(ctx context.Context, e *fsm.Event) { |
| |
| logger.Info(ctx, "UniPonAniConfigFsm Tx Set::.1pMapper with all PBits set", log.Fields{"EntitytId": 0x8042, /*cmp above*/ |
| "toGemIw": 1024, /* cmp above */ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| |
| logger.Info(ctx, "UniPonAniConfigFsm Tx Set::1pMapper", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(oFsm.mapperSP0ID), 16), |
| "in state": e.FSM.Current(), "device-id": oFsm.deviceID}) |
| |
| meParams := me.ParamData{ |
| EntityID: oFsm.mapperSP0ID, |
| Attributes: make(me.AttributeValueMap), |
| } |
| |
| //assign the GemPorts according to the configured Prio |
| var loPrioGemPortArray [8]uint16 |
| for _, gemPortAttribs := range oFsm.gemPortAttribsSlice { |
| if gemPortAttribs.isMulticast { |
| logger.Debugw(ctx, "UniPonAniConfigFsm Port is Multicast, ignoring .1pMapper", log.Fields{ |
| "device-id": oFsm.deviceID, "GemPort": gemPortAttribs.gemPortID, |
| "prioString": gemPortAttribs.pbitString}) |
| continue |
| } |
| if gemPortAttribs.pbitString == "" { |
| logger.Warnw(ctx, "UniPonAniConfigFsm PrioString empty string error", log.Fields{ |
| "device-id": oFsm.deviceID, "GemPort": gemPortAttribs.gemPortID, |
| "prioString": gemPortAttribs.pbitString}) |
| continue |
| } |
| for i := 0; i < 8; i++ { |
| // "lenOfPbitMap(8) - i + 1" will give i-th pbit value from LSB position in the pbit map string |
| if prio, err := strconv.Atoi(string(gemPortAttribs.pbitString[7-i])); err == nil { |
| if prio == 1 { // Check this p-bit is set |
| if loPrioGemPortArray[i] == 0 { |
| loPrioGemPortArray[i] = gemPortAttribs.gemPortID //gemPortId=EntityID and unique |
| } else { |
| logger.Warnw(ctx, "UniPonAniConfigFsm PrioString not unique", log.Fields{ |
| "device-id": oFsm.deviceID, "IgnoredGemPort": gemPortAttribs.gemPortID, |
| "SetGemPort": loPrioGemPortArray[i]}) |
| } |
| } |
| } else { |
| logger.Warnw(ctx, "UniPonAniConfigFsm PrioString evaluation error", log.Fields{ |
| "device-id": oFsm.deviceID, "GemPort": gemPortAttribs.gemPortID, |
| "prioString": gemPortAttribs.pbitString, "position": i}) |
| } |
| |
| } |
| } |
| |
| var foundIwPtr = false |
| for index, value := range loPrioGemPortArray { |
| meAttribute := fmt.Sprintf("InterworkTpPointerForPBitPriority%d", index) |
| if value != 0 { |
| foundIwPtr = true |
| meParams.Attributes[meAttribute] = value |
| logger.Debugw(ctx, "UniPonAniConfigFsm Set::1pMapper", log.Fields{ |
| "for Prio": index, |
| "IwPtr": strconv.FormatInt(int64(value), 16), |
| "device-id": oFsm.deviceID}) |
| } else { |
| // The null pointer 0xFFFF specifies that frames with the associated priority are to be discarded. |
| // setting this parameter is not strictly needed anymore with the ensured .1pMapper create default setting |
| // but except for processing effort does not really harm - left to keep changes low |
| meParams.Attributes[meAttribute] = 0xffff |
| } |
| } |
| // The TP type value 0 also indicates bridging mapping, and the TP pointer should be set to 0xFFFF |
| // setting this parameter is not strictly needed anymore with the ensured .1pMapper create default setting |
| // but except for processing effort does not really harm - left to keep changes low |
| meParams.Attributes[me.Ieee8021PMapperServiceProfile_TpPointer] = 0xffff |
| |
| if !foundIwPtr { |
| logger.Warn(ctx, "UniPonAniConfigFsm no GemIwPtr found for .1pMapper - abort", log.Fields{ |
| "device-id": oFsm.deviceID}) |
| //TODO With multicast is possible that no upstream gem ports are not present in the tech profile, |
| // this reset needs to be performed only if the tech profile provides upstream gem ports but no priority is set |
| //let's reset the state machine in order to release all resources now |
| //pConfigAniStateAFsm := oFsm.PAdaptFsm |
| //if pConfigAniStateAFsm != nil { |
| // // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| // go func(aPAFsm *cmn.AdapterFsm) { |
| // if aPAFsm != nil && aPAFsm.PFsm != nil { |
| // _ = aPAFsm.PFsm.Event(aniEvReset) |
| // } |
| // }(pConfigAniStateAFsm) |
| //} |
| //Moving forward the FSM as if the response was received correctly. |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvRxDot1pmapSResp) |
| } |
| }(pConfigAniStateAFsm) |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendSetDot1PMapperVar(context.TODO(), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| logger.Errorw(ctx, "Dot1PMapperVar set failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterAniConfigDone(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm ani config done", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| //store that the UNI related techProfile processing is done for the given Profile and Uni |
| oFsm.pUniTechProf.setConfigDone(oFsm.pOnuUniPort.UniID, oFsm.techProfileID, true) |
| if !oFsm.pDeviceHandler.IsSkipOnuConfigReconciling() { |
| //use DeviceHandler event notification directly |
| oFsm.pDeviceHandler.DeviceProcStatusUpdate(ctx, cmn.OnuDeviceEvent((uint8(oFsm.requestEvent) + oFsm.requestEventOffset))) |
| //if techProfile processing is done it must be checked, if some prior/parallel flow configuration is pending |
| // but only in case the techProfile was configured (not deleted) |
| if oFsm.requestEventOffset == 0 { |
| go oFsm.pDeviceHandler.VerifyUniVlanConfigRequest(ctx, oFsm.pOnuUniPort, oFsm.techProfileID) |
| } |
| } else { |
| logger.Debugw(ctx, "reconciling - skip AniConfigDone processing", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| if oFsm.isChanSet() { |
| // indicate processing done to the caller |
| logger.Debugw(ctx, "UniPonAniConfigFsm processingDone on channel", log.Fields{ |
| "ProcessingStep": oFsm.procStep, "from_State": e.FSM.Current(), "device-id": oFsm.deviceID}) |
| oFsm.chSuccess <- oFsm.procStep |
| oFsm.setChanSet(false) //reset the internal channel state |
| } |
| |
| //the FSM is left active in this state as long as no specific reset or remove is requested from outside |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterRemovingGemIW(ctx context.Context, e *fsm.Event) { |
| // no need to protect access to oFsm.waitFlowDeleteChannel, only used in synchronized state entries |
| // or CancelProcessing() that uses separate isWaitingForFlowDelete to write to the channel |
| //flush the waitFlowDeleteChannel - possibly already/still set by some previous activity |
| select { |
| case <-oFsm.waitFlowDeleteChannel: |
| logger.Debug(ctx, "flushed waitFlowDeleteChannel") |
| default: |
| } |
| |
| uniVlanConfigFsm := oFsm.pDeviceHandler.GetUniVlanConfigFsm(oFsm.pOnuUniPort.UniID) |
| if uniVlanConfigFsm != nil { |
| // ensure mutexTPState not locked before calling some VlanConfigFsm activity (that might already be pending on it) |
| if uniVlanConfigFsm.IsFlowRemovePending(ctx, oFsm.waitFlowDeleteChannel) { |
| logger.Debugw(ctx, "flow remove pending - wait before processing gem port delete", |
| log.Fields{"device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| // if flow remove is pending then wait for flow remove to finish first before proceeding with gem port delete |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvWaitFlowRem) |
| } |
| }(pConfigAniStateAFsm) |
| } else { |
| logger.Errorw(ctx, "pConfigAniStateAFsm is nil", log.Fields{"device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| } |
| return |
| } |
| } else { |
| logger.Debugw(ctx, "uni vlan config doesn't exist - no flow remove could be pending", |
| log.Fields{"device-id": oFsm.deviceID, "techProfile-id": oFsm.techProfileID}) |
| } |
| |
| oFsm.pUniTechProf.mutexTPState.RLock() |
| // get the related GemPort entity Id from pUniTechProf, OMCI Gem* entityID is set to be equal to GemPortId! |
| loGemPortID := (*(oFsm.pUniTechProf.mapRemoveGemEntry[oFsm.uniTpKey])).gemPortID |
| oFsm.pUniTechProf.mutexTPState.RUnlock() |
| logger.Debugw(ctx, "UniPonAniConfigFsm - start removing one GemIwTP", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, |
| "GemIwTp-entity-id": loGemPortID}) |
| oFsm.requestEventOffset = 1 //offset 1 to indicate last activity = remove |
| |
| // this state entry is only expected in a suitable state (checked outside in onu_uni_tp) |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendDeleteGemIWTP(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, loGemPortID) |
| if err != nil { |
| logger.Errorw(ctx, "GemIWTP delete failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| logger.Infow(ctx, "Deleting GemIWTP at the ONU DB ", log.Fields{"device-id": oFsm.deviceID, "GEMID": loGemPortID}) |
| oFsm.pOnuDB.DeleteMe(me.GemInterworkingTerminationPointClassID, loGemPortID) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterWaitingFlowRem(ctx context.Context, e *fsm.Event) { |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isWaitingForFlowDelete = true |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| select { |
| // maybe be also some outside cancel (but no context modeled for the moment ...) |
| // case <-ctx.Done(): |
| // logger.Infow("LockState-bridge-init message reception canceled", log.Fields{"for device-id": oFsm.deviceID}) |
| case <-time.After(2 * oFsm.pOmciCC.GetMaxOmciTimeoutWithRetries() * time.Second): //give flow processing enough time to finish (but try to be less than rwCore flow timeouts) |
| logger.Warnw(ctx, "UniPonAniConfigFsm WaitingFlowRem timeout", log.Fields{ |
| "for device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isWaitingForFlowDelete = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| //if the flow is not removed as expected we just try to continue with GemPort removal and hope things are clearing up afterwards |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvFlowRemDone) |
| } |
| }(pConfigAniStateAFsm) |
| } else { |
| logger.Errorw(ctx, "pConfigAniStateAFsm is nil", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| } |
| return |
| |
| case success := <-oFsm.waitFlowDeleteChannel: |
| if success { |
| logger.Debugw(ctx, "UniPonAniConfigFsm flow removed info received", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isWaitingForFlowDelete = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvFlowRemDone) |
| } |
| }(pConfigAniStateAFsm) |
| } else { |
| logger.Errorw(ctx, "pConfigAniStateAFsm is nil", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| } |
| return |
| } |
| // waiting was aborted (probably on external request) |
| logger.Debugw(ctx, "UniPonAniConfigFsm WaitingFlowRem aborted", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "techProfile-id": oFsm.techProfileID}) |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isWaitingForFlowDelete = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| //to be sure we can just generate the reset-event to ensure leaving this state towards 'reset' |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| } |
| return |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterRemovingGemNCTP(ctx context.Context, e *fsm.Event) { |
| oFsm.pUniTechProf.mutexTPState.RLock() |
| loGemPortID := (*(oFsm.pUniTechProf.mapRemoveGemEntry[oFsm.uniTpKey])).gemPortID |
| oFsm.pUniTechProf.mutexTPState.RUnlock() |
| logger.Info(ctx, "UniPonAniConfigFsm - start removing one GemNCTP", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, |
| "GemNCTP-entity-id": loGemPortID}) |
| // this state entry is only expected in a suitable state (checked outside in onu_uni_tp) |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendDeleteGemNCTP(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, loGemPortID) |
| if err != nil { |
| logger.Errorw(ctx, "GemNCTP delete failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| oFsm.pOnuDB.DeleteMe(me.GemPortNetworkCtpClassID, loGemPortID) |
| // Mark the gem port to be removed for Performance History monitoring |
| OnuMetricsManager := oFsm.pDeviceHandler.GetOnuMetricsManager() |
| if OnuMetricsManager != nil { |
| OnuMetricsManager.RemoveGemPortForPerfMonitoring(ctx, loGemPortID) |
| } |
| } |
| func (oFsm *UniPonAniConfigFsm) enterRemovingTD(ctx context.Context, e *fsm.Event) { |
| oFsm.pUniTechProf.mutexTPState.RLock() |
| loGemPortID := (*(oFsm.pUniTechProf.mapRemoveGemEntry[oFsm.uniTpKey])).gemPortID |
| oFsm.pUniTechProf.mutexTPState.RUnlock() |
| logger.Info(ctx, "UniPonAniConfigFsm - start removing Traffic Descriptor", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, |
| "TD-entity-id": loGemPortID}) |
| |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendDeleteTD(log.WithSpanFromContext(context.TODO(), ctx), |
| oFsm.pDeviceHandler.GetOmciTimeout(), true, oFsm.PAdaptFsm.CommChan, loGemPortID) |
| |
| if err != nil { |
| logger.Errorw(ctx, "TD delete failed - proceed fsm", |
| log.Fields{"device-id": oFsm.deviceID, "gemPortID": loGemPortID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterResettingTcont(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm - start resetting the TCont", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| |
| oFsm.requestEventOffset = 1 //offset 1 for last remove activity |
| // this state entry is only expected in a suitable state (checked outside in onu_uni_tp) |
| meParams := me.ParamData{ |
| EntityID: oFsm.tcont0ID, |
| Attributes: me.AttributeValueMap{ |
| me.TCont_AllocId: cmn.UnusedTcontAllocID, |
| }, |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendSetTcontVar(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| logger.Errorw(ctx, "TcontVar set failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterRemoving1pMapper(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm - start deleting the .1pMapper", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| mapGemPortParams := oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].mapGemPortParams |
| unicastGemCount := 0 |
| for _, gemEntry := range mapGemPortParams { |
| if !gemEntry.isMulticast { |
| unicastGemCount++ |
| } |
| } |
| if unicastGemCount > 1 { |
| logger.Debugw(ctx, "UniPonAniConfigFsm - Not the last gem in fsm. Skip the rest", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "unicast-gem-count": unicastGemCount, "gem-count": len(mapGemPortParams)}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvRemGemDone) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| logger.Debugw(ctx, "UniPonAniConfigFsm - Last gem in fsm. Continue with Mapper removal", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID, "unicast-gem-count": unicastGemCount, "gem-count": len(mapGemPortParams)}) |
| |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendDeleteDot1PMapper(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, oFsm.mapperSP0ID) |
| if err != nil { |
| logger.Errorw(ctx, "Dot1Mapper delete failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterRemovingAniBPCD(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm - start deleting the ANI MBCD", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendDeleteMBPConfigData(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, oFsm.macBPCD0ID) |
| if err != nil { |
| logger.Errorw(ctx, "MBPConfigData delete failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| return |
| } |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterAniRemoveDone(ctx context.Context, e *fsm.Event) { |
| logger.Info(ctx, "UniPonAniConfigFsm ani removal done", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| //use DeviceHandler event notification directly |
| oFsm.pDeviceHandler.DeviceProcStatusUpdate(ctx, cmn.OnuDeviceEvent((uint8(oFsm.requestEvent) + oFsm.requestEventOffset))) |
| if oFsm.isChanSet() { |
| // indicate processing done to the caller |
| logger.Debugw(ctx, "UniPonAniConfigFsm processingDone on channel", log.Fields{ |
| "ProcessingStep": oFsm.procStep, "from_State": e.FSM.Current(), "device-id": oFsm.deviceID}) |
| oFsm.chSuccess <- oFsm.procStep |
| oFsm.setChanSet(false) //reset the internal channel state |
| } |
| |
| //let's reset the state machine in order to release all resources now |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvReset) |
| } |
| }(pConfigAniStateAFsm) |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterResettingState(ctx context.Context, e *fsm.Event) { |
| logger.Debugw(ctx, "UniPonAniConfigFsm resetting", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| |
| if oFsm.isChanSet() { |
| // indicate processing error to the caller (in case there was still some open request) |
| logger.Debugw(ctx, "UniPonAniConfigFsm processingError on channel", log.Fields{ |
| "ProcessingStep": oFsm.procStep, "from_State": e.FSM.Current(), "device-id": oFsm.deviceID}) |
| //use non-blocking channel send to avoid blocking because of non-existing receiver |
| // (even though the channel is checked on 'set', the outside receiver channel might (theoretically) already be deleted) |
| select { |
| case oFsm.chSuccess <- 0: |
| default: |
| logger.Debugw(ctx, "UniPonAniConfigFsm processingError not send on channel (no receiver)", log.Fields{ |
| "device-id": oFsm.deviceID}) |
| } |
| oFsm.setChanSet(false) //reset the internal channel state |
| } |
| |
| pConfigAniStateAFsm := oFsm.PAdaptFsm |
| if pConfigAniStateAFsm != nil { |
| // abort running message processing |
| fsmAbortMsg := cmn.Message{ |
| Type: cmn.TestMsg, |
| Data: cmn.TestMessage{ |
| TestMessageVal: cmn.AbortMessageProcessing, |
| }, |
| } |
| pConfigAniStateAFsm.CommChan <- fsmAbortMsg |
| |
| //try to restart the FSM to 'disabled', decouple event transfer |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvRestart) |
| } |
| }(pConfigAniStateAFsm) |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) enterDisabledState(ctx context.Context, e *fsm.Event) { |
| logger.Debugw(ctx, "UniPonAniConfigFsm enters disabled state", log.Fields{ |
| "device-id": oFsm.deviceID, "uni-id": oFsm.pOnuUniPort.UniID}) |
| oFsm.mutexPLastTxMeInstance.Lock() |
| defer oFsm.mutexPLastTxMeInstance.Unlock() |
| oFsm.pLastTxMeInstance = nil |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) processOmciAniMessages(ctx context.Context) { |
| logger.Info(ctx, "Start UniPonAniConfigFsm Msg processing", log.Fields{"for device-id": oFsm.deviceID}) |
| loop: |
| for { |
| // case <-ctx.Done(): |
| // logger.Info("MibSync Msg", log.Fields{"Message handling canceled via context for device-id": oFsm.deviceID}) |
| // break loop |
| message, ok := <-oFsm.PAdaptFsm.CommChan |
| if !ok { |
| logger.Warn(ctx, "UniPonAniConfigFsm Rx Msg - could not read from channel", log.Fields{"device-id": oFsm.deviceID}) |
| // but then we have to ensure a restart of the FSM as well - as exceptional procedure |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| break loop |
| } |
| logger.Debugw(ctx, "UniPonAniConfigFsm Rx Msg", log.Fields{"device-id": oFsm.deviceID}) |
| |
| switch message.Type { |
| case cmn.TestMsg: |
| msg, _ := message.Data.(cmn.TestMessage) |
| if msg.TestMessageVal == cmn.AbortMessageProcessing { |
| logger.Infow(ctx, "UniPonAniConfigFsm abort ProcessMsg", log.Fields{"for device-id": oFsm.deviceID}) |
| break loop |
| } |
| logger.Warnw(ctx, "UniPonAniConfigFsm unknown TestMessage", log.Fields{"device-id": oFsm.deviceID, "MessageVal": msg.TestMessageVal}) |
| case cmn.OMCI: |
| msg, _ := message.Data.(cmn.OmciMessage) |
| oFsm.handleOmciAniConfigMessage(ctx, msg) |
| default: |
| logger.Warn(ctx, "UniPonAniConfigFsm Rx unknown message", log.Fields{"device-id": oFsm.deviceID, |
| "message.Type": message.Type}) |
| } |
| |
| } |
| logger.Infow(ctx, "End UniPonAniConfigFsm Msg processing", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) handleOmciAniConfigCreateResponseMessage(ctx context.Context, msg cmn.OmciMessage) { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeCreateResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "Omci Msg layer could not be detected for CreateResponse", |
| log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| msgObj, msgOk := msgLayer.(*omci.CreateResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "Omci Msg layer could not be assigned for CreateResponse", |
| log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| logger.Debugw(ctx, "CreateResponse Data", log.Fields{"device-id": oFsm.deviceID, "data-fields": msgObj}) |
| if msgObj.Result == me.Success || msgObj.Result == me.InstanceExists { |
| //if the result is ok or Instance already exists (latest needed at least as long as we do not clear the OMCI techProfile data) |
| oFsm.mutexPLastTxMeInstance.RLock() |
| if oFsm.pLastTxMeInstance != nil { |
| if msgObj.EntityClass == oFsm.pLastTxMeInstance.GetClassID() && |
| msgObj.EntityInstance == oFsm.pLastTxMeInstance.GetEntityID() { |
| // maybe we can use just the same eventName for different state transitions like "forward" |
| // - might be checked, but so far I go for sure and have to inspect the concrete state events ... |
| switch oFsm.pLastTxMeInstance.GetName() { |
| case "Ieee8021PMapperServiceProfile": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxDot1pmapCResp) |
| } |
| case "MacBridgePortConfigurationData": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxMbpcdResp) |
| } |
| case "GemPortNetworkCtp", "GemInterworkingTerminationPoint", "MulticastGemInterworkingTerminationPoint": |
| { // let aniConfig Multi-Id processing proceed by stopping the wait function |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| oFsm.omciMIdsResponseReceived <- true |
| } |
| default: |
| { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| logger.Warnw(ctx, "Unsupported ME name received!", |
| log.Fields{"ME name": oFsm.pLastTxMeInstance.GetName(), "device-id": oFsm.deviceID}) |
| } |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| logger.Warnw(ctx, "Pointer to last Tx MeInstance is nil!", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| } else { |
| logger.Errorw(ctx, "Omci CreateResponse Error - later: drive FSM to abort state ?", |
| log.Fields{"Error": msgObj.Result, "device-id": oFsm.deviceID}) |
| // possibly force FSM into abort or ignore some errors for some messages? |
| oFsm.pOmciCC.NotifyAboutOnuConfigFailure(ctx, cmn.OnuConfigFailureResponseErr, msgObj.EntityClass, |
| msgObj.EntityInstance, msgObj.EntityClass.String(), msgObj.Result) |
| return |
| } |
| } |
| func (oFsm *UniPonAniConfigFsm) handleOmciAniConfigSetFailResponseMessage(ctx context.Context, msgObj *omci.SetResponse) { |
| //If TCONT fails, then we need to revert the allocated TCONT in DB. |
| //Because FSMs are running sequentially, we don't expect the same TCONT hit by another tech-profile FSM while this FSM is running. |
| oFsm.mutexPLastTxMeInstance.RLock() |
| defer oFsm.mutexPLastTxMeInstance.RUnlock() |
| if oFsm.pLastTxMeInstance != nil && msgObj.EntityClass == oFsm.pLastTxMeInstance.GetClassID() && |
| msgObj.EntityInstance == oFsm.pLastTxMeInstance.GetEntityID() { |
| switch oFsm.pLastTxMeInstance.GetName() { |
| case "TCont": |
| //If this is for TCONT creation(requestEventOffset=0) and this is the first allocation of TCONT(so noone else is using the same TCONT) |
| //We should revert DB |
| if oFsm.requestEventOffset == 0 && !oFsm.tcontSetBefore && oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey] != nil { |
| logger.Debugw(ctx, "UniPonAniConfigFsm TCONT creation failed on device. Freeing alloc id", log.Fields{"device-id": oFsm.deviceID, |
| "alloc-id": oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].tcontParams.allocID, "uni-tp": oFsm.uniTpKey}) |
| if oFsm.pOnuDeviceEntry != nil { |
| oFsm.pOnuDeviceEntry.FreeTcont(ctx, oFsm.pUniTechProf.mapPonAniConfig[oFsm.uniTpKey].tcontParams.allocID) |
| } else { |
| logger.Warnw(ctx, "Unable to get device entry! couldn't free tcont", |
| log.Fields{"ME name": oFsm.pLastTxMeInstance.GetName(), "device-id": oFsm.deviceID}) |
| } |
| } |
| default: |
| logger.Warnw(ctx, "Unsupported ME name received with error!", |
| log.Fields{"ME name": oFsm.pLastTxMeInstance.GetName(), "result": msgObj.Result, "device-id": oFsm.deviceID}) |
| } |
| } |
| } |
| func (oFsm *UniPonAniConfigFsm) handleOmciAniConfigSetResponseMessage(ctx context.Context, msg cmn.OmciMessage) { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeSetResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Omci Msg layer could not be detected for SetResponse", |
| log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| msgObj, msgOk := msgLayer.(*omci.SetResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Omci Msg layer could not be assigned for SetResponse", |
| log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| logger.Debugw(ctx, "UniPonAniConfigFsm SetResponse Data", log.Fields{"device-id": oFsm.deviceID, "data-fields": msgObj}) |
| if msgObj.Result != me.Success { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Omci SetResponse Error - later: drive FSM to abort state ?", |
| log.Fields{"device-id": oFsm.deviceID, "Error": msgObj.Result}) |
| // possibly force FSM into abort or ignore some errors for some messages? |
| oFsm.pOmciCC.NotifyAboutOnuConfigFailure(ctx, cmn.OnuConfigFailureResponseErr, msgObj.EntityClass, |
| msgObj.EntityInstance, msgObj.EntityClass.String(), msgObj.Result) |
| oFsm.handleOmciAniConfigSetFailResponseMessage(ctx, msgObj) |
| return |
| } |
| oFsm.mutexPLastTxMeInstance.RLock() |
| if oFsm.pLastTxMeInstance != nil { |
| if msgObj.EntityClass == oFsm.pLastTxMeInstance.GetClassID() && |
| msgObj.EntityInstance == oFsm.pLastTxMeInstance.GetEntityID() { |
| //store the created ME into DB //TODO??? obviously the Python code does not store the config ... |
| // if, then something like: |
| //oFsm.pOnuDB.StoreMe(msgObj) |
| |
| switch oFsm.pLastTxMeInstance.GetName() { |
| case "TCont": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| if oFsm.requestEventOffset == 0 { //from TCont config request |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxTcontsResp) |
| } else { // from T-Cont reset request |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxResetTcontResp) |
| } |
| } |
| case "PriorityQueue", "MulticastGemInterworkingTerminationPoint": |
| { // let the PrioQueue init proceed by stopping the wait function |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| oFsm.omciMIdsResponseReceived <- true |
| } |
| case "Ieee8021PMapperServiceProfile": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxDot1pmapSResp) |
| } |
| default: |
| { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| logger.Warnw(ctx, "Unsupported ME name received!", |
| log.Fields{"ME name": oFsm.pLastTxMeInstance.GetName(), "device-id": oFsm.deviceID}) |
| } |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| logger.Warnw(ctx, "Pointer to last Tx MeInstance is nil!", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) handleOmciAniConfigDeleteResponseMessage(ctx context.Context, msg cmn.OmciMessage) { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeDeleteResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Omci Msg layer could not be detected for DeleteResponse", |
| log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| msgObj, msgOk := msgLayer.(*omci.DeleteResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Omci Msg layer could not be assigned for DeleteResponse", |
| log.Fields{"device-id": oFsm.deviceID}) |
| return |
| } |
| logger.Debugw(ctx, "UniPonAniConfigFsm DeleteResponse Data", log.Fields{"device-id": oFsm.deviceID, "data-fields": msgObj}) |
| if msgObj.Result == me.UnknownInstance { |
| logger.Warnw(ctx, "UniPonAniConfigFsm - Unknow Instance", |
| log.Fields{"device-id": oFsm.deviceID, "data-fields": msgObj, "Error": msgObj.Result}) |
| } else if msgObj.Result != me.Success { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Omci DeleteResponse Error", |
| log.Fields{"device-id": oFsm.deviceID, "Error": msgObj.Result}) |
| //TODO: - later: possibly force FSM into abort or ignore some errors for some messages? |
| oFsm.pOmciCC.NotifyAboutOnuConfigFailure(ctx, cmn.OnuConfigFailureResponseErr, msgObj.EntityClass, |
| msgObj.EntityInstance, msgObj.EntityClass.String(), msgObj.Result) |
| return |
| } |
| oFsm.mutexPLastTxMeInstance.RLock() |
| if oFsm.pLastTxMeInstance != nil { |
| if msgObj.EntityClass == oFsm.pLastTxMeInstance.GetClassID() && |
| msgObj.EntityInstance == oFsm.pLastTxMeInstance.GetEntityID() { |
| //remove ME from DB //TODO??? obviously the Python code does not store/remove the config ... |
| // if, then something like: oFsm.pOnuDB.XyyMe(msgObj) |
| |
| switch oFsm.pLastTxMeInstance.GetName() { |
| case "GemInterworkingTerminationPoint": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxRemGemiwResp) |
| } |
| case "GemPortNetworkCtp": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxRemGemntpResp) |
| } |
| case "TrafficDescriptor": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxRemTdResp) |
| } |
| case "Ieee8021PMapperServiceProfile": |
| { // let the FSM proceed ... |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxRem1pMapperResp) |
| } |
| case "MacBridgePortConfigurationData": |
| { // this is the last event of the T-Cont cleanup procedure, FSM may be reset here |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxRemAniBPCDResp) |
| } |
| default: |
| { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| logger.Warnw(ctx, "Unsupported ME name received!", |
| log.Fields{"ME name": oFsm.pLastTxMeInstance.GetName(), "device-id": oFsm.deviceID}) |
| } |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| } |
| } else { |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| logger.Warnw(ctx, "Pointer to last Tx MeInstance is nil!", log.Fields{"device-id": oFsm.deviceID}) |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) handleOmciAniConfigMessage(ctx context.Context, msg cmn.OmciMessage) { |
| logger.Debugw(ctx, "Rx OMCI UniPonAniConfigFsm Msg", log.Fields{"device-id": oFsm.deviceID, |
| "msgType": msg.OmciMsg.MessageType}) |
| |
| switch msg.OmciMsg.MessageType { |
| case omci.CreateResponseType: |
| { |
| oFsm.handleOmciAniConfigCreateResponseMessage(ctx, msg) |
| |
| } //CreateResponseType |
| case omci.SetResponseType: |
| { |
| oFsm.handleOmciAniConfigSetResponseMessage(ctx, msg) |
| |
| } //SetResponseType |
| case omci.DeleteResponseType: |
| { |
| oFsm.handleOmciAniConfigDeleteResponseMessage(ctx, msg) |
| |
| } //DeleteResponseType |
| default: |
| { |
| logger.Errorw(ctx, "UniPonAniConfigFsm - Rx OMCI unhandled MsgType", |
| log.Fields{"omciMsgType": msg.OmciMsg.MessageType, "device-id": oFsm.deviceID}) |
| return |
| } |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) performCreatingGemNCTPs(ctx context.Context) { |
| // for all GemPorts of this T-Cont as given by the size of set gemPortAttribsSlice |
| for gemIndex, gemPortAttribs := range oFsm.gemPortAttribsSlice { |
| logger.Info(ctx, "UniPonAniConfigFsm Tx Create::GemNWCtp", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(gemPortAttribs.gemPortID), 16), |
| "TcontId": strconv.FormatInt(int64(oFsm.tcont0ID), 16), |
| "device-id": oFsm.deviceID}) |
| meParams := me.ParamData{ |
| EntityID: gemPortAttribs.gemPortID, //unique, same as PortId |
| Attributes: me.AttributeValueMap{ |
| me.GemPortNetworkCtp_PortId: gemPortAttribs.gemPortID, |
| me.GemPortNetworkCtp_TContPointer: oFsm.tcont0ID, |
| me.GemPortNetworkCtp_Direction: gemPortAttribs.direction, |
| //ONU-G.TrafficManagementOption dependency ->PrioQueue or TCont |
| // TODO!! verify dependency and QueueId in case of Multi-GemPort setup! |
| me.GemPortNetworkCtp_TrafficManagementPointerForUpstream: gemPortAttribs.upQueueID, //might be different in wrr-only Setup - tcont0ID |
| me.GemPortNetworkCtp_PriorityQueuePointerForDownStream: gemPortAttribs.downQueueID, |
| }, |
| } |
| if oFsm.techProfileType == cTechProfileTypeXgsPon { |
| meParams.Attributes[me.GemPortNetworkCtp_EncryptionKeyRing] = GemEncryptKeyRingUnicastDownstreamOnly |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendCreateGemNCTPVar(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| logger.Errorw(ctx, "GemNCTPVar create failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| //verify response |
| err = oFsm.waitforOmciResponse(ctx) |
| if err != nil { |
| logger.Errorw(ctx, "GemNWCtp create failed, aborting AniConfig FSM!", |
| log.Fields{"device-id": oFsm.deviceID, "GemIndex": gemIndex}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| oFsm.pOnuDB.PutOnuSpeficMe(ctx, me.GemPortNetworkCtpClassID, gemPortAttribs.gemPortID, meParams.Attributes) |
| // Mark the gem port to be added for Performance History monitoring |
| OnuMetricsManager := oFsm.pDeviceHandler.GetOnuMetricsManager() |
| if OnuMetricsManager != nil { |
| OnuMetricsManager.AddGemPortForPerfMonitoring(ctx, gemPortAttribs.gemPortID) |
| } |
| } //for all GemPorts of this T-Cont |
| |
| // if Config has been done for all GemPort instances let the FSM proceed |
| logger.Debugw(ctx, "GemNWCtp create loop finished", log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxGemntcpsResp) |
| } |
| func (oFsm *UniPonAniConfigFsm) hasMulticastGem(ctx context.Context) bool { |
| for _, gemPortAttribs := range oFsm.gemPortAttribsSlice { |
| if gemPortAttribs.isMulticast { |
| logger.Debugw(ctx, "Found multicast gem", log.Fields{"device-id": oFsm.deviceID}) |
| return true |
| } |
| } |
| return false |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) performCreatingGemIWs(ctx context.Context) { |
| // for all GemPorts of this T-Cont as given by the size of set gemPortAttribsSlice |
| for gemIndex, gemPortAttribs := range oFsm.gemPortAttribsSlice { |
| logger.Info(ctx, "UniPonAniConfigFsm Tx Create::GemIwTp", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(gemPortAttribs.gemPortID), 16), |
| "SPPtr": strconv.FormatInt(int64(oFsm.mapperSP0ID), 16), |
| "device-id": oFsm.deviceID}) |
| |
| var meParams me.ParamData |
| //TODO if the port has only downstream direction the isMulticast flag can be removed. |
| if gemPortAttribs.isMulticast { |
| |
| meParams = me.ParamData{ |
| EntityID: gemPortAttribs.multicastGemID, |
| Attributes: me.AttributeValueMap{ |
| me.MulticastGemInterworkingTerminationPoint_GemPortNetworkCtpConnectivityPointer: gemPortAttribs.multicastGemID, |
| me.MulticastGemInterworkingTerminationPoint_InterworkingOption: 0, // Don't Care |
| me.MulticastGemInterworkingTerminationPoint_ServiceProfilePointer: 0, // Don't Care |
| me.MulticastGemInterworkingTerminationPoint_GalProfilePointer: cmn.GalEthernetEID, |
| }, |
| } |
| if oFsm.pUniTechProf.multicastConfiguredForOtherUniTps(ctx, oFsm.uniTpKey) { |
| logger.Debugw(ctx, "MulticastGemInterworkingTP already exist", log.Fields{"device-id": oFsm.deviceID, "multicast-gem-id": gemPortAttribs.multicastGemID}) |
| continue |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendCreateMulticastGemIWTPVar(context.TODO(), oFsm.pDeviceHandler.GetOmciTimeout(), |
| true, oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| logger.Errorw(ctx, "MulticastGemIWTPVar create failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| |
| } |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| //verify response |
| err = oFsm.waitforOmciResponse(ctx) |
| if err != nil { |
| logger.Errorw(ctx, "MulticastGemIWTP create failed, aborting AniConfig FSM!", |
| log.Fields{"device-id": oFsm.deviceID, "GemIndex": gemIndex}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| ipv4MulticastTable := make([]uint8, 12) |
| //Gem Port ID |
| binary.BigEndian.PutUint16(ipv4MulticastTable[0:], gemPortAttribs.multicastGemID) |
| //Secondary Key |
| binary.BigEndian.PutUint16(ipv4MulticastTable[2:], 0) |
| // Multicast IP range start This is the 224.0.0.1 address |
| binary.BigEndian.PutUint32(ipv4MulticastTable[4:], cmn.IPToInt32(net.IPv4(224, 0, 0, 0))) |
| // MulticastIp range stop |
| binary.BigEndian.PutUint32(ipv4MulticastTable[8:], cmn.IPToInt32(net.IPv4(239, 255, 255, 255))) |
| |
| meIPV4MCTableParams := me.ParamData{ |
| EntityID: gemPortAttribs.multicastGemID, |
| Attributes: me.AttributeValueMap{ |
| me.MulticastGemInterworkingTerminationPoint_Ipv4MulticastAddressTable: ipv4MulticastTable, |
| }, |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meIPV4MCTableInstance, err := oFsm.pOmciCC.SendSetMulticastGemIWTPVar(context.TODO(), oFsm.pDeviceHandler.GetOmciTimeout(), |
| true, oFsm.PAdaptFsm.CommChan, meIPV4MCTableParams) |
| if err != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| logger.Errorw(ctx, "MulticastGemIWTPVar set failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| oFsm.pLastTxMeInstance = meIPV4MCTableInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| } else { |
| meParams = me.ParamData{ |
| EntityID: gemPortAttribs.gemPortID, |
| Attributes: me.AttributeValueMap{ |
| me.GemInterworkingTerminationPoint_GemPortNetworkCtpConnectivityPointer: gemPortAttribs.gemPortID, //same as EntityID, see above |
| me.GemInterworkingTerminationPoint_InterworkingOption: 5, //fixed model:: G.998 .1pMapper |
| me.GemInterworkingTerminationPoint_ServiceProfilePointer: oFsm.mapperSP0ID, |
| me.GemInterworkingTerminationPoint_InterworkingTerminationPointPointer: 0, //not used with .1PMapper Mac bridge |
| me.GemInterworkingTerminationPoint_GalProfilePointer: cmn.GalEthernetEID, |
| }, |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendCreateGemIWTPVar(context.TODO(), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| logger.Errorw(ctx, "GEMIWTPVar create failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| } |
| //verify response |
| err := oFsm.waitforOmciResponse(ctx) |
| if err != nil { |
| logger.Errorw(ctx, "GemTP create failed, aborting AniConfig FSM!", |
| log.Fields{"device-id": oFsm.deviceID, "GemIndex": gemIndex}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| logger.Infow(ctx, "Adding GemIWTP to the ONU DB ", log.Fields{"device-id": oFsm.deviceID, "GEMID": gemPortAttribs.gemPortID}) |
| oFsm.pOnuDB.PutOnuSpeficMe(ctx, me.GemInterworkingTerminationPointClassID, gemPortAttribs.gemPortID, meParams.Attributes) |
| |
| } //for all GemPort's of this T-Cont |
| |
| // if Config has been done for all GemPort instances let the FSM proceed |
| logger.Debugw(ctx, "GemIwTp create loop finished", log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxGemiwsResp) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) performSettingPQs(ctx context.Context) { |
| //If upstream PQs were set before, then no need to set them again. Let state machine to proceed. |
| if oFsm.tcontSetBefore { |
| logger.Debugw(ctx, "No need to set PQs again.", log.Fields{ |
| "device-id": oFsm.deviceID, "tcont": oFsm.alloc0ID, |
| "uni-id": oFsm.pOnuUniPort.UniID, |
| "techProfile-id": oFsm.techProfileID}) |
| go func(aPAFsm *cmn.AdapterFsm) { |
| if aPAFsm != nil && aPAFsm.PFsm != nil { |
| _ = aPAFsm.PFsm.Event(aniEvRxPrioqsResp) |
| } |
| }(oFsm.PAdaptFsm) |
| return |
| } |
| const cu16StrictPrioWeight uint16 = 0xFFFF |
| //find all upstream PrioQueues related to this T-Cont |
| loQueueMap := ordered_map.NewOrderedMap() |
| for _, gemPortAttribs := range oFsm.gemPortAttribsSlice { |
| if gemPortAttribs.isMulticast { |
| logger.Debugw(ctx, "UniPonAniConfigFsm Port is Multicast, ignoring PQs", log.Fields{ |
| "device-id": oFsm.deviceID, "GemPort": gemPortAttribs.gemPortID, |
| "prioString": gemPortAttribs.pbitString}) |
| continue |
| } |
| if gemPortAttribs.qosPolicy == "WRR" { |
| if _, ok := loQueueMap.Get(gemPortAttribs.upQueueID); !ok { |
| //key does not yet exist |
| loQueueMap.Set(gemPortAttribs.upQueueID, uint16(gemPortAttribs.weight)) |
| } |
| } else { |
| loQueueMap.Set(gemPortAttribs.upQueueID, cu16StrictPrioWeight) //use invalid weight value to indicate SP |
| } |
| } |
| |
| trafficSchedPtrSetSupported := false |
| loOnu2g := oFsm.pOnuDB.GetMe(me.Onu2GClassID, cmn.Onu2gMeID) |
| if loOnu2g == nil { |
| logger.Errorw(ctx, "onu2g is nil, cannot read qos configuration flexibility parameter", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| returnVal := loOnu2g["QualityOfServiceQosConfigurationFlexibility"] |
| if returnVal != nil { |
| if qosCfgFlexParam, err := oFsm.pOnuDB.GetUint16Attrib(returnVal); err == nil { |
| trafficSchedPtrSetSupported = qosCfgFlexParam&bitTrafficSchedulerPtrSetPermitted == bitTrafficSchedulerPtrSetPermitted |
| logger.Debugw(ctx, "trafficSchedPtrSetSupported set", |
| log.Fields{"qosCfgFlexParam": qosCfgFlexParam, "trafficSchedPtrSetSupported": trafficSchedPtrSetSupported}) |
| } else { |
| logger.Errorw(ctx, "Cannot extract qos configuration flexibility parameter", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| } else { |
| logger.Errorw(ctx, "Cannot read qos configuration flexibility parameter", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| |
| //TODO: assumption here is that ONU data uses SP setting in the T-Cont and WRR in the TrafficScheduler |
| // if that is not the case, the reverse case could be checked and reacted accordingly or if the |
| // complete chain is not valid, then some error should be thrown and configuration can be aborted |
| // or even be finished without correct SP/WRR setting |
| |
| //TODO: search for the (WRR)trafficScheduler related to the T-Cont of this queue |
| //By now assume fixed value 0x8000, which is the only announce BBSIM TrafficScheduler, |
| // even though its T-Cont seems to be wrong ... |
| loTrafficSchedulerEID := 0x8000 |
| //for all found queues |
| iter := loQueueMap.IterFunc() |
| for kv, ok := iter(); ok; kv, ok = iter() { |
| queueIndex := (kv.Key).(uint16) |
| meParams := me.ParamData{ |
| EntityID: queueIndex, |
| Attributes: make(me.AttributeValueMap), |
| } |
| if trafficSchedPtrSetSupported { |
| if (kv.Value).(uint16) == cu16StrictPrioWeight { |
| //StrictPrio indication |
| logger.Debugw(ctx, "uniPonAniConfigFsm Tx Set::PrioQueue to StrictPrio", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(queueIndex), 16), |
| "device-id": oFsm.deviceID}) |
| meParams.Attributes[me.PriorityQueue_TrafficSchedulerPointer] = 0 //ensure T-Cont defined StrictPrio scheduling |
| } else { |
| //WRR indication |
| logger.Debugw(ctx, "uniPonAniConfigFsm Tx Set::PrioQueue to WRR", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(queueIndex), 16), |
| "Weight": kv.Value, |
| "device-id": oFsm.deviceID}) |
| meParams.Attributes[me.PriorityQueue_TrafficSchedulerPointer] = loTrafficSchedulerEID //ensure assignment of the relevant trafficScheduler |
| meParams.Attributes[me.PriorityQueue_Weight] = uint8(kv.Value.(uint16)) |
| } |
| } else { |
| // setting Traffic Scheduler (TS) pointer is not supported unless we point to another TS that points to the same TCONT. |
| // For now lets use TS that is hardwired in the ONU and just update the weight in case of WRR, which in fact is all we need at the moment. |
| // The code could get unnecessarily convoluted if we provide the flexibility try to find and point to another TS that points to the same TCONT. |
| if (kv.Value).(uint16) == cu16StrictPrioWeight { // SP case, nothing to be done. Proceed to the next queue |
| logger.Debugw(ctx, "uniPonAniConfigFsm Tx Set::PrioQueue to StrictPrio, traffic sched ptr set unsupported", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(queueIndex), 16), |
| "device-id": oFsm.deviceID}) |
| continue |
| } |
| // WRR case, update weight. |
| logger.Debugw(ctx, "uniPonAniConfigFsm Tx Set::PrioQueue to WRR, traffic sched ptr set unsupported", log.Fields{ |
| "EntitytId": strconv.FormatInt(int64(queueIndex), 16), |
| "Weight": kv.Value, |
| "device-id": oFsm.deviceID}) |
| meParams.Attributes[me.PriorityQueue_Weight] = uint8(kv.Value.(uint16)) |
| } |
| oFsm.mutexPLastTxMeInstance.Lock() |
| meInstance, err := oFsm.pOmciCC.SendSetPrioQueueVar(log.WithSpanFromContext(context.TODO(), ctx), oFsm.pDeviceHandler.GetOmciTimeout(), true, |
| oFsm.PAdaptFsm.CommChan, meParams) |
| if err != nil { |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| logger.Errorw(ctx, "PrioQueueVar set failed, aborting UniPonAniConfigFsm!", |
| log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| oFsm.pLastTxMeInstance = meInstance |
| oFsm.mutexPLastTxMeInstance.Unlock() |
| |
| //verify response |
| err = oFsm.waitforOmciResponse(ctx) |
| if err != nil { |
| logger.Errorw(ctx, "PrioQueue set failed, aborting AniConfig FSM!", |
| log.Fields{"device-id": oFsm.deviceID, "QueueId": strconv.FormatInt(int64(queueIndex), 16)}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvReset) |
| return |
| } |
| |
| //TODO: In case of WRR setting of the GemPort/PrioQueue it might further be necessary to |
| // write the assigned trafficScheduler with the requested Prio to be considered in the StrictPrio scheduling |
| // of the (next upstream) assigned T-Cont, which is f(prioQueue[priority]) - in relation to other SP prioQueues |
| // not yet done because of BBSIM TrafficScheduler issues (and not done in py code as well) |
| |
| } //for all upstream prioQueues |
| |
| // if Config has been done for all PrioQueue instances let the FSM proceed |
| logger.Debugw(ctx, "PrioQueue set loop finished", log.Fields{"device-id": oFsm.deviceID}) |
| _ = oFsm.PAdaptFsm.PFsm.Event(aniEvRxPrioqsResp) |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) waitforOmciResponse(ctx context.Context) error { |
| oFsm.mutexIsAwaitingResponse.Lock() |
| if oFsm.isCanceled { |
| // FSM already canceled before entering wait |
| logger.Debugw(ctx, "UniPonAniConfigFsm wait-for-multi-entity-response aborted (on enter)", log.Fields{"for device-id": oFsm.deviceID}) |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| return fmt.Errorf(cmn.CErrWaitAborted) |
| } |
| oFsm.isAwaitingResponse = true |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| select { |
| // maybe be also some outside cancel (but no context modeled for the moment ...) |
| // case <-ctx.Done(): |
| // logger.Infow("LockState-bridge-init message reception canceled", log.Fields{"for device-id": oFsm.deviceID}) |
| case <-time.After(oFsm.pOmciCC.GetMaxOmciTimeoutWithRetries() * time.Second): //3s was detected to be to less in 8*8 bbsim test with debug Info/Debug |
| logger.Warnw(ctx, "UniPonAniConfigFsm multi entity timeout", log.Fields{"for device-id": oFsm.deviceID}) |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isAwaitingResponse = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| oFsm.mutexPLastTxMeInstance.RLock() |
| if oFsm.pLastTxMeInstance != nil { |
| oFsm.pOmciCC.NotifyAboutOnuConfigFailure(ctx, cmn.OnuConfigFailureTimeout, oFsm.pLastTxMeInstance.GetClassID(), |
| oFsm.pLastTxMeInstance.GetEntityID(), oFsm.pLastTxMeInstance.GetClassID().String(), 0) |
| } |
| oFsm.mutexPLastTxMeInstance.RUnlock() |
| return fmt.Errorf("uniPonAniConfigFsm multi entity timeout %s", oFsm.deviceID) |
| case success := <-oFsm.omciMIdsResponseReceived: |
| if success { |
| logger.Debugw(ctx, "UniPonAniConfigFsm multi entity response received", log.Fields{"for device-id": oFsm.deviceID}) |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isAwaitingResponse = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| return nil |
| } |
| // waiting was aborted (probably on external request) |
| logger.Debugw(ctx, "UniPonAniConfigFsm wait-for-multi-entity-response aborted", log.Fields{"for device-id": oFsm.deviceID}) |
| oFsm.mutexIsAwaitingResponse.Lock() |
| oFsm.isAwaitingResponse = false |
| oFsm.mutexIsAwaitingResponse.Unlock() |
| return fmt.Errorf(cmn.CErrWaitAborted) |
| } |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) setChanSet(flagValue bool) { |
| oFsm.mutexChanSet.Lock() |
| oFsm.chanSet = flagValue |
| oFsm.mutexChanSet.Unlock() |
| } |
| |
| func (oFsm *UniPonAniConfigFsm) isChanSet() bool { |
| oFsm.mutexChanSet.RLock() |
| flagValue := oFsm.chanSet |
| oFsm.mutexChanSet.RUnlock() |
| return flagValue |
| } |
| |
| // PrepareForGarbageCollection - remove references to prepare for garbage collection |
| func (oFsm *UniPonAniConfigFsm) PrepareForGarbageCollection(ctx context.Context, aDeviceID string) { |
| logger.Info(ctx, "prepare for garbage collection", log.Fields{"device-id": oFsm.deviceID}) |
| oFsm.pDeviceHandler = nil |
| oFsm.pOnuDeviceEntry = nil |
| oFsm.pOmciCC = nil |
| } |