| /* |
| * Copyright 2020-present Open Networking Foundation |
| * |
| * Licensed under the Apache License, Version 2.0 (the "License"); |
| * you may not use this file except in compliance with the License. |
| * You may obtain a copy of the License at |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| |
| //Package adaptercoreonu provides the utility for onu devices, flows and statistics |
| package adaptercoreonu |
| |
| import ( |
| "context" |
| "fmt" |
| "time" |
| |
| "github.com/looplab/fsm" |
| |
| "github.com/opencord/omci-lib-go" |
| me "github.com/opencord/omci-lib-go/generated" |
| "github.com/opencord/voltha-lib-go/v3/pkg/log" |
| //ic "github.com/opencord/voltha-protos/v3/go/inter_container" |
| //"github.com/opencord/voltha-protos/v3/go/openflow_13" |
| ) |
| |
| //lockStateFsm defines the structure for the state machine to lock/unlock the ONU UNI ports via OMCI |
| type lockStateFsm struct { |
| pDeviceHandler *deviceHandler |
| pOmciCC *omciCC |
| adminState bool |
| requestEvent OnuDeviceEvent |
| omciLockResponseReceived chan bool //seperate channel needed for checking UNI port OMCi message responses |
| pAdaptFsm *AdapterFsm |
| } |
| |
| const ( |
| // events of lock/unlock UNI port FSM |
| uniEvStart = "uniEvStart" |
| uniEvStartAdmin = "uniEvStartAdmin" |
| uniEvRxUnisResp = "uniEvRxUnisResp" |
| uniEvRxOnugResp = "uniEvRxOnugResp" |
| uniEvTimeoutSimple = "uniEvTimeoutSimple" |
| uniEvTimeoutUnis = "uniEvTimeoutUnis" |
| uniEvReset = "uniEvReset" |
| uniEvRestart = "uniEvRestart" |
| ) |
| const ( |
| // states of lock/unlock UNI port FSM |
| uniStDisabled = "uniStDisabled" |
| uniStStarting = "uniStStarting" |
| uniStSettingUnis = "uniStSettingUnis" |
| uniStSettingOnuG = "uniStSettingOnuG" |
| uniStAdminDone = "uniStAdminDone" |
| uniStResetting = "uniStResetting" |
| ) |
| |
| //newLockStateFsm is the 'constructor' for the state machine to lock/unlock the ONU UNI ports via OMCI |
| func newLockStateFsm(apDevOmciCC *omciCC, aAdminState bool, aRequestEvent OnuDeviceEvent, |
| aName string, apDeviceHandler *deviceHandler, aCommChannel chan Message) *lockStateFsm { |
| instFsm := &lockStateFsm{ |
| pDeviceHandler: apDeviceHandler, |
| pOmciCC: apDevOmciCC, |
| adminState: aAdminState, |
| requestEvent: aRequestEvent, |
| } |
| instFsm.pAdaptFsm = NewAdapterFsm(aName, apDeviceHandler.deviceID, aCommChannel) |
| if instFsm.pAdaptFsm == nil { |
| logger.Errorw("LockStateFsm's AdapterFsm could not be instantiated!!", log.Fields{ |
| "device-id": apDeviceHandler.deviceID}) |
| return nil |
| } |
| if aAdminState { //port locking requested |
| instFsm.pAdaptFsm.pFsm = fsm.NewFSM( |
| uniStDisabled, |
| fsm.Events{ |
| |
| {Name: uniEvStart, Src: []string{uniStDisabled}, Dst: uniStStarting}, |
| |
| {Name: uniEvStartAdmin, Src: []string{uniStStarting}, Dst: uniStSettingUnis}, |
| // the settingUnis state is used for multi ME config for all UNI related ports |
| // maybe such could be reflected in the state machine as well (port number parametrized) |
| // but that looks not straightforward here - so we keep it simple here for the beginning(?) |
| {Name: uniEvRxUnisResp, Src: []string{uniStSettingUnis}, Dst: uniStSettingOnuG}, |
| {Name: uniEvRxOnugResp, Src: []string{uniStSettingOnuG}, Dst: uniStAdminDone}, |
| |
| {Name: uniEvTimeoutSimple, Src: []string{uniStSettingOnuG}, Dst: uniStStarting}, |
| {Name: uniEvTimeoutUnis, Src: []string{uniStSettingUnis}, Dst: uniStStarting}, |
| |
| {Name: uniEvReset, Src: []string{uniStStarting, uniStSettingOnuG, uniStSettingUnis, |
| uniStAdminDone}, Dst: uniStResetting}, |
| // exceptional treatment for all states except uniStResetting |
| {Name: uniEvRestart, Src: []string{uniStStarting, uniStSettingOnuG, uniStSettingUnis, |
| uniStAdminDone, uniStResetting}, Dst: uniStDisabled}, |
| }, |
| |
| fsm.Callbacks{ |
| "enter_state": func(e *fsm.Event) { instFsm.pAdaptFsm.logFsmStateChange(e) }, |
| ("enter_" + uniStStarting): func(e *fsm.Event) { instFsm.enterAdminStartingState(e) }, |
| ("enter_" + uniStSettingOnuG): func(e *fsm.Event) { instFsm.enterSettingOnuGState(e) }, |
| ("enter_" + uniStSettingUnis): func(e *fsm.Event) { instFsm.enterSettingUnisState(e) }, |
| ("enter_" + uniStAdminDone): func(e *fsm.Event) { instFsm.enterAdminDoneState(e) }, |
| ("enter_" + uniStResetting): func(e *fsm.Event) { instFsm.enterResettingState(e) }, |
| }, |
| ) |
| } else { //port unlocking requested |
| instFsm.pAdaptFsm.pFsm = fsm.NewFSM( |
| uniStDisabled, |
| fsm.Events{ |
| |
| {Name: uniEvStart, Src: []string{uniStDisabled}, Dst: uniStStarting}, |
| |
| {Name: uniEvStartAdmin, Src: []string{uniStStarting}, Dst: uniStSettingOnuG}, |
| {Name: uniEvRxOnugResp, Src: []string{uniStSettingOnuG}, Dst: uniStSettingUnis}, |
| // the settingUnis state is used for multi ME config for all UNI related ports |
| // maybe such could be reflected in the state machine as well (port number parametrized) |
| // but that looks not straightforward here - so we keep it simple here for the beginning(?) |
| {Name: uniEvRxUnisResp, Src: []string{uniStSettingUnis}, Dst: uniStAdminDone}, |
| |
| {Name: uniEvTimeoutSimple, Src: []string{uniStSettingOnuG}, Dst: uniStStarting}, |
| {Name: uniEvTimeoutUnis, Src: []string{uniStSettingUnis}, Dst: uniStStarting}, |
| |
| {Name: uniEvReset, Src: []string{uniStStarting, uniStSettingOnuG, uniStSettingUnis, |
| uniStAdminDone}, Dst: uniStResetting}, |
| // exceptional treatment for all states except uniStResetting |
| {Name: uniEvRestart, Src: []string{uniStStarting, uniStSettingOnuG, uniStSettingUnis, |
| uniStAdminDone, uniStResetting}, Dst: uniStDisabled}, |
| }, |
| |
| fsm.Callbacks{ |
| "enter_state": func(e *fsm.Event) { instFsm.pAdaptFsm.logFsmStateChange(e) }, |
| ("enter_" + uniStStarting): func(e *fsm.Event) { instFsm.enterAdminStartingState(e) }, |
| ("enter_" + uniStSettingOnuG): func(e *fsm.Event) { instFsm.enterSettingOnuGState(e) }, |
| ("enter_" + uniStSettingUnis): func(e *fsm.Event) { instFsm.enterSettingUnisState(e) }, |
| ("enter_" + uniStAdminDone): func(e *fsm.Event) { instFsm.enterAdminDoneState(e) }, |
| ("enter_" + uniStResetting): func(e *fsm.Event) { instFsm.enterResettingState(e) }, |
| }, |
| ) |
| } |
| if instFsm.pAdaptFsm.pFsm == nil { |
| logger.Errorw("LockStateFsm's Base FSM could not be instantiated!!", log.Fields{ |
| "device-id": apDeviceHandler.deviceID}) |
| return nil |
| } |
| |
| logger.Infow("LockStateFsm created", log.Fields{"device-id": apDeviceHandler.deviceID}) |
| return instFsm |
| } |
| |
| //setSuccessEvent modifies the requested event notified on success |
| //assumption is that this is only called in the disabled (idle) state of the FSM, hence no sem protection required |
| func (oFsm *lockStateFsm) setSuccessEvent(aEvent OnuDeviceEvent) { |
| oFsm.requestEvent = aEvent |
| } |
| |
| func (oFsm *lockStateFsm) enterAdminStartingState(e *fsm.Event) { |
| logger.Debugw("LockStateFSM start", log.Fields{"in state": e.FSM.Current(), |
| "device-id": oFsm.pAdaptFsm.deviceID}) |
| // in case the used channel is not yet defined (can be re-used after restarts) |
| if oFsm.omciLockResponseReceived == nil { |
| oFsm.omciLockResponseReceived = make(chan bool) |
| logger.Debug("LockStateFSM - OMCI UniLock 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.omciLockResponseReceived) > 0 { |
| <-oFsm.omciLockResponseReceived |
| } |
| } |
| // start go routine for processing of LockState messages |
| go oFsm.processOmciLockMessages() |
| |
| //let the state machine run forward from here directly |
| pLockStateAFsm := oFsm.pAdaptFsm |
| if pLockStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(a_pAFsm *AdapterFsm) { |
| if a_pAFsm != nil && a_pAFsm.pFsm != nil { |
| _ = a_pAFsm.pFsm.Event(uniEvStartAdmin) |
| } |
| }(pLockStateAFsm) |
| } |
| } |
| |
| func (oFsm *lockStateFsm) enterSettingOnuGState(e *fsm.Event) { |
| var omciAdminState uint8 = 1 //default locked |
| if !oFsm.adminState { |
| omciAdminState = 0 |
| } |
| logger.Debugw("LockStateFSM Tx Set::ONU-G:admin", log.Fields{ |
| "omciAdmin": omciAdminState, "in state": e.FSM.Current(), "device-id": oFsm.pAdaptFsm.deviceID}) |
| requestedAttributes := me.AttributeValueMap{"AdministrativeState": omciAdminState} |
| meInstance := oFsm.pOmciCC.sendSetOnuGLS(context.TODO(), ConstDefaultOmciTimeout, true, |
| requestedAttributes, oFsm.pAdaptFsm.commChan) |
| //accept also nil as (error) return value for writing to LastTx |
| // - this avoids misinterpretation of new received OMCI messages |
| // we might already abort the processing with nil here, but maybe some auto-recovery may be tried |
| // - may be improved later, for now we just handle it with the Rx timeout or missing next event (stick in state) |
| oFsm.pOmciCC.pLastTxMeInstance = meInstance |
| } |
| |
| func (oFsm *lockStateFsm) enterSettingUnisState(e *fsm.Event) { |
| logger.Infow("LockStateFSM - starting PPTP config loop", log.Fields{ |
| "in state": e.FSM.Current(), "device-id": oFsm.pAdaptFsm.deviceID, "LockState": oFsm.adminState}) |
| go oFsm.performUniPortAdminSet() |
| } |
| |
| func (oFsm *lockStateFsm) enterAdminDoneState(e *fsm.Event) { |
| logger.Debugw("LockStateFSM", log.Fields{"send notification to core in State": e.FSM.Current(), "device-id": oFsm.pAdaptFsm.deviceID}) |
| //use DeviceHandler event notification directly, no need/support to update DeviceEntryState for lock/unlock |
| oFsm.pOmciCC.pBaseDeviceHandler.deviceProcStatusUpdate(oFsm.requestEvent) |
| |
| //let's reset the state machine in order to release all resources now |
| pLockStateAFsm := oFsm.pAdaptFsm |
| if pLockStateAFsm != nil { |
| // obviously calling some FSM event here directly does not work - so trying to decouple it ... |
| go func(a_pAFsm *AdapterFsm) { |
| if a_pAFsm != nil && a_pAFsm.pFsm != nil { |
| _ = a_pAFsm.pFsm.Event(uniEvReset) |
| } |
| }(pLockStateAFsm) |
| } |
| } |
| |
| func (oFsm *lockStateFsm) enterResettingState(e *fsm.Event) { |
| logger.Debugw("LockStateFSM resetting", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| pLockStateAFsm := oFsm.pAdaptFsm |
| if pLockStateAFsm != nil { |
| // abort running message processing |
| fsmAbortMsg := Message{ |
| Type: TestMsg, |
| Data: TestMessage{ |
| TestMessageVal: AbortMessageProcessing, |
| }, |
| } |
| pLockStateAFsm.commChan <- fsmAbortMsg |
| |
| //try to restart the FSM to 'disabled' |
| // see DownloadedState: decouple event transfer |
| go func(a_pAFsm *AdapterFsm) { |
| if a_pAFsm != nil && a_pAFsm.pFsm != nil { |
| _ = a_pAFsm.pFsm.Event(uniEvRestart) |
| } |
| }(pLockStateAFsm) |
| } |
| } |
| |
| func (oFsm *lockStateFsm) processOmciLockMessages( /*ctx context.Context*/ ) { |
| logger.Debugw("Start LockStateFsm Msg processing", log.Fields{"for device-id": oFsm.pAdaptFsm.deviceID}) |
| loop: |
| for { |
| // case <-ctx.Done(): |
| // logger.Info("MibSync Msg", log.Fields{"Message handling canceled via context for device-id": oFsm.pAdaptFsm.deviceID}) |
| // break loop |
| message, ok := <-oFsm.pAdaptFsm.commChan |
| if !ok { |
| logger.Info("LockStateFsm Rx Msg - could not read from channel", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| // but then we have to ensure a restart of the FSM as well - as exceptional procedure |
| _ = oFsm.pAdaptFsm.pFsm.Event(uniEvRestart) |
| break loop |
| } |
| logger.Debugw("LockStateFsm Rx Msg", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| |
| switch message.Type { |
| case TestMsg: |
| msg, _ := message.Data.(TestMessage) |
| if msg.TestMessageVal == AbortMessageProcessing { |
| logger.Infow("LockStateFsm abort ProcessMsg", log.Fields{"for device-id": oFsm.pAdaptFsm.deviceID}) |
| break loop |
| } |
| logger.Warnw("LockStateFsm unknown TestMessage", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID, "MessageVal": msg.TestMessageVal}) |
| case OMCI: |
| msg, _ := message.Data.(OmciMessage) |
| oFsm.handleOmciLockStateMessage(msg) |
| default: |
| logger.Warn("LockStateFsm Rx unknown message", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID, |
| "message.Type": message.Type}) |
| } |
| } |
| logger.Infow("End LockStateFsm Msg processing", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| } |
| |
| func (oFsm *lockStateFsm) handleOmciLockStateMessage(msg OmciMessage) { |
| logger.Debugw("Rx OMCI LockStateFsm Msg", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID, |
| "msgType": msg.OmciMsg.MessageType}) |
| |
| if msg.OmciMsg.MessageType == omci.SetResponseType { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeSetResponse) |
| if msgLayer == nil { |
| logger.Errorw("LockStateFsm - Omci Msg layer could not be detected for SetResponse", |
| log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| return |
| } |
| msgObj, msgOk := msgLayer.(*omci.SetResponse) |
| if !msgOk { |
| logger.Errorw("LockStateFsm - Omci Msg layer could not be assigned for SetResponse", |
| log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| return |
| } |
| logger.Debugw("LockStateFsm SetResponse Data", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID, "data-fields": msgObj}) |
| if msgObj.Result != me.Success { |
| logger.Errorw("LockStateFsm - Omci SetResponse Error - later: drive FSM to abort state ?", log.Fields{"Error": msgObj.Result}) |
| // possibly force FSM into abort or ignore some errors for some messages? store error for mgmt display? |
| return |
| } |
| // compare comments above for CreateResponse (apply also here ...) |
| if msgObj.EntityClass == oFsm.pOmciCC.pLastTxMeInstance.GetClassID() && |
| msgObj.EntityInstance == oFsm.pOmciCC.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.pOmciCC.pLastTxMeInstance.GetName() { |
| case "OnuG": |
| { // let the FSM proceed ... |
| _ = oFsm.pAdaptFsm.pFsm.Event(uniEvRxOnugResp) |
| } |
| case "UniG", "VEIP": |
| { // let the PPTP init proceed by stopping the wait function |
| oFsm.omciLockResponseReceived <- true |
| } |
| } |
| } |
| } else { |
| logger.Errorw("LockStateFsm - Rx OMCI unhandled MsgType", log.Fields{"omciMsgType": msg.OmciMsg.MessageType}) |
| return |
| } |
| } |
| |
| func (oFsm *lockStateFsm) performUniPortAdminSet() { |
| var omciAdminState uint8 = 1 //default locked |
| if !oFsm.adminState { |
| omciAdminState = 0 |
| } |
| //set UNI-G or VEIP AdminState |
| requestedAttributes := me.AttributeValueMap{"AdministrativeState": omciAdminState} |
| |
| for uniNo, uniPort := range oFsm.pOmciCC.pBaseDeviceHandler.uniEntityMap { |
| logger.Debugw("Setting PPTP admin state", log.Fields{ |
| "device-id": oFsm.pAdaptFsm.deviceID, "for PortNo": uniNo}) |
| |
| var meInstance *me.ManagedEntity |
| if uniPort.portType == uniPPTP { |
| meInstance = oFsm.pOmciCC.sendSetUniGLS(context.TODO(), uniPort.entityID, ConstDefaultOmciTimeout, |
| true, requestedAttributes, oFsm.pAdaptFsm.commChan) |
| oFsm.pOmciCC.pLastTxMeInstance = meInstance |
| } else if uniPort.portType == uniVEIP { |
| meInstance = oFsm.pOmciCC.sendSetVeipLS(context.TODO(), uniPort.entityID, ConstDefaultOmciTimeout, |
| true, requestedAttributes, oFsm.pAdaptFsm.commChan) |
| oFsm.pOmciCC.pLastTxMeInstance = meInstance |
| } else { |
| logger.Warnw("Unsupported PPTP type - skip", |
| log.Fields{"device-id": oFsm.pAdaptFsm.deviceID, "Port": uniNo}) |
| continue |
| } |
| |
| //verify response |
| err := oFsm.waitforOmciResponse(meInstance) |
| if err != nil { |
| logger.Errorw("PPTP Admin State set failed, aborting LockState set!", |
| log.Fields{"device-id": oFsm.pAdaptFsm.deviceID, "Port": uniNo}) |
| _ = oFsm.pAdaptFsm.pFsm.Event(uniEvReset) |
| return |
| } |
| } //for all UNI ports |
| // if Config has been done for all UNI related instances let the FSM proceed |
| // while we did not check here, if there is some port at all - !? |
| logger.Infow("PPTP config loop finished", log.Fields{"device-id": oFsm.pAdaptFsm.deviceID}) |
| _ = oFsm.pAdaptFsm.pFsm.Event(uniEvRxUnisResp) |
| } |
| |
| func (oFsm *lockStateFsm) waitforOmciResponse(apMeInstance *me.ManagedEntity) error { |
| 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.pAdaptFsm.deviceID}) |
| case <-time.After(30 * time.Second): //3s was detected to be to less in 8*8 bbsim test with debug Info/Debug |
| logger.Warnw("LockStateFSM uni-set timeout", log.Fields{"for device-id": oFsm.pAdaptFsm.deviceID}) |
| return fmt.Errorf("lockStateFsm uni-set timeout for device-id %s", oFsm.pAdaptFsm.deviceID) |
| case success := <-oFsm.omciLockResponseReceived: |
| if success { |
| logger.Debug("LockStateFSM uni-set response received") |
| return nil |
| } |
| // should not happen so far |
| logger.Warnw("LockStateFSM uni-set response error", log.Fields{"for device-id": oFsm.pAdaptFsm.deviceID}) |
| return fmt.Errorf("lockStateFsm uni-set responseError for device-id %s", oFsm.pAdaptFsm.deviceID) |
| } |
| } |