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/*
* Copyright 2021-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 omcitst provides the omci test functionality
package omcitst
import (
"context"
"fmt"
"sync"
"time"
"github.com/looplab/fsm"
"github.com/opencord/omci-lib-go"
"github.com/opencord/omci-lib-go/generated"
me "github.com/opencord/omci-lib-go/generated"
"github.com/opencord/voltha-lib-go/v7/pkg/log"
cmn "github.com/opencord/voltha-openonu-adapter-go/internal/pkg/common"
"github.com/opencord/voltha-protos/v5/go/extension"
)
const (
// events of Self Test FSM
selfTestEventTestRequest = "selfTestEventTestRequest"
selfTestEventTestResponseSuccess = "selfTestEventTestResponseSuccess"
selfTestEventTestResultSuccess = "selfTestEventTestResultSuccess"
selfTestEventAbort = "selfTestEventAbort"
)
const (
// states of Self Test FSM
selfTestStNull = "selfTestStNull"
selfTestStHandleSelfTestReq = "selfTestStHandleSelfTestReq"
selfTestStHandleSelfTestResp = "selfTestStHandleSelfTestResp"
selfTestStHandleTestResult = "selfTestStHandleTestResult"
)
const (
//SelfTestResponseWaitTimeout specifies timeout value waiting for self test response. Unit in seconds
SelfTestResponseWaitTimeout = 2
)
// We initiate an fsmCb per Self Test Request
type fsmCb struct {
fsm *cmn.AdapterFsm
reqMsg extension.SingleGetValueRequest
respChan chan extension.SingleGetValueResponse
stopOmciChan chan bool
}
// SelfTestControlBlock - TODO: add comment
type SelfTestControlBlock struct {
deviceID string
pDeviceHandler cmn.IdeviceHandler
pDevEntry cmn.IonuDeviceEntry
selfTestFsmMap map[generated.ClassID]*fsmCb // The fsmCb is indexed by ME Class ID of the Test Action procedure
selfTestFsmLock sync.RWMutex
selfTestHandlerLock sync.RWMutex
selfTestHandlerActive bool
StopSelfTestModule chan bool
}
// NewSelfTestMsgHandlerCb creates the SelfTestControlBlock
// Self Test Handler module supports sending SelfTestRequest and handling of SelfTestResponse/SelfTestResults
// An ephemeral Self Test FSM is initiated for every Self Test request and multiple Self Tests on different
// MEs (that support it) can be handled in parallel.
// At the time of creating this module, only ANI-G self-test is supported.
func NewSelfTestMsgHandlerCb(ctx context.Context, dh cmn.IdeviceHandler, devEntry cmn.IonuDeviceEntry) *SelfTestControlBlock {
selfTestCb := SelfTestControlBlock{
deviceID: dh.GetDeviceID(),
pDeviceHandler: dh,
pDevEntry: devEntry,
}
selfTestCb.selfTestFsmMap = make(map[generated.ClassID]*fsmCb)
selfTestCb.StopSelfTestModule = make(chan bool)
go selfTestCb.waitForStopSelfTestModuleSignal(ctx)
return &selfTestCb
}
func (selfTestCb *SelfTestControlBlock) initiateNewSelfTestFsm(ctx context.Context, reqMsg extension.SingleGetValueRequest,
CommChan chan cmn.Message, classID generated.ClassID, respChan chan extension.SingleGetValueResponse) error {
aFsm := cmn.NewAdapterFsm("selfTestFsm", selfTestCb.deviceID, CommChan)
if aFsm == nil {
logger.Errorw(ctx, "selfTestFsm cmn.AdapterFsm could not be instantiated!!", log.Fields{
"device-id": selfTestCb.deviceID})
return fmt.Errorf("nil-adapter-fsm")
}
// Self Test FSM related state machine
aFsm.PFsm = fsm.NewFSM(
selfTestStNull,
fsm.Events{
{Name: selfTestEventTestRequest, Src: []string{selfTestStNull}, Dst: selfTestStHandleSelfTestReq},
{Name: selfTestEventTestResponseSuccess, Src: []string{selfTestStHandleSelfTestReq}, Dst: selfTestStHandleSelfTestResp},
{Name: selfTestEventTestResultSuccess, Src: []string{selfTestStHandleSelfTestResp}, Dst: selfTestStNull},
{Name: selfTestEventAbort, Src: []string{selfTestStHandleSelfTestReq, selfTestStHandleSelfTestReq, selfTestStHandleTestResult,
selfTestStNull}, Dst: selfTestStNull},
},
fsm.Callbacks{
"enter_state": func(e *fsm.Event) { aFsm.LogFsmStateChange(ctx, e) },
"enter_" + selfTestStHandleSelfTestReq: func(e *fsm.Event) { selfTestCb.selfTestFsmHandleSelfTestRequest(ctx, e) },
"enter_" + selfTestStHandleSelfTestResp: func(e *fsm.Event) { selfTestCb.selfTestFsmHandleSelfTestResponse(ctx, e) },
},
)
selfTestCb.selfTestFsmLock.Lock()
selfTestCb.selfTestFsmMap[classID] = &fsmCb{fsm: aFsm, reqMsg: reqMsg, respChan: respChan, stopOmciChan: make(chan bool)}
// Initiate the selfTestEventTestRequest on the FSM. Also pass the additional argument - classID.
// This is useful for the the FSM handler function to pull out fsmCb from the selfTestCb.selfTestFsmMap map.
selfTestCb.triggerFsmEvent(aFsm, selfTestEventTestRequest, classID)
selfTestCb.selfTestFsmLock.Unlock()
return nil
}
///// FSM Handlers
func (selfTestCb *SelfTestControlBlock) selfTestFsmHandleSelfTestRequest(ctx context.Context, e *fsm.Event) {
classID := e.Args[0].(generated.ClassID)
selfTestCb.selfTestFsmLock.RLock()
pFsmCb, ok := selfTestCb.selfTestFsmMap[classID]
selfTestCb.selfTestFsmLock.RUnlock()
if !ok {
// This case is impossible. Would be curious to see if this happens
logger.Fatalw(ctx, "class-id-not-found", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
}
instKeys := selfTestCb.pDevEntry.GetOnuDB().GetSortedInstKeys(ctx, classID)
// TODO: Choosing the first index from the instance keys. For ANI-G, this is fine as there is only one ANI-G instance.
// How do we handle and report self test for multiple instances?
if err := selfTestCb.pDevEntry.GetDevOmciCC().SendSelfTestReq(ctx, classID, instKeys[0], selfTestCb.pDeviceHandler.GetOmciTimeout(),
false, pFsmCb.fsm.CommChan); err != nil {
logger.Errorw(ctx, "error sending self test request", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.triggerFsmEvent(pFsmCb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, pFsmCb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
return
}
go selfTestCb.handleOmciResponse(ctx, classID)
}
func (selfTestCb *SelfTestControlBlock) selfTestFsmHandleSelfTestResponse(ctx context.Context, e *fsm.Event) {
classID := e.Args[0].(generated.ClassID)
// Pass the test result processing to another routine
go selfTestCb.handleOmciResponse(ctx, classID)
}
///// Utility functions
func (selfTestCb *SelfTestControlBlock) getMeClassID(ctx context.Context, reqMsg extension.SingleGetValueRequest) (generated.ClassID, error) {
switch reqMsg.GetRequest().GetRequest().(type) {
case *extension.GetValueRequest_OnuOpticalInfo:
return me.AniGClassID, nil
default:
logger.Warnw(ctx, "unsupported me class id for self test", log.Fields{"device-id": selfTestCb.deviceID})
return 0, fmt.Errorf("unsupported me class id for self test %v", selfTestCb.deviceID)
}
}
func (selfTestCb *SelfTestControlBlock) triggerFsmEvent(pSelfTestFsm *cmn.AdapterFsm, event string, args ...generated.ClassID) {
go func() {
if len(args) > 0 {
_ = pSelfTestFsm.PFsm.Event(event, args[0])
} else {
_ = pSelfTestFsm.PFsm.Event(event)
}
}()
}
func (selfTestCb *SelfTestControlBlock) submitFailureGetValueResponse(ctx context.Context, respChan chan extension.SingleGetValueResponse,
errorCode extension.GetValueResponse_ErrorReason, statusCode extension.GetValueResponse_Status) {
singleValResp := extension.SingleGetValueResponse{
Response: &extension.GetValueResponse{
Status: statusCode,
ErrReason: errorCode,
},
}
logger.Infow(ctx, "OMCI test response failure - pushing failure response", log.Fields{"device-id": selfTestCb.deviceID})
respChan <- singleValResp
logger.Infow(ctx, "OMCI test response failure - pushing failure response complete", log.Fields{"device-id": selfTestCb.deviceID})
}
func (selfTestCb *SelfTestControlBlock) handleOmciMessage(ctx context.Context, msg cmn.OmciMessage, cb *fsmCb, classID generated.ClassID) {
logger.Debugw(ctx, "omci Msg", log.Fields{"device-id": selfTestCb.deviceID, "msgType": msg.OmciMsg.MessageType, "msg": msg})
switch msg.OmciMsg.MessageType {
case omci.TestResponseType:
selfTestCb.handleOmciTestResponse(ctx, msg, cb, classID)
case omci.TestResultType:
selfTestCb.handleOmciTestResult(ctx, msg, cb, classID)
default:
logger.Warnw(ctx, "Unknown Message Type", log.Fields{"msgType": msg.OmciMsg.MessageType})
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_UNSUPPORTED, extension.GetValueResponse_ERROR)
}
}
func (selfTestCb *SelfTestControlBlock) handleOmciTestResponse(ctx context.Context, msg cmn.OmciMessage, cb *fsmCb, classID generated.ClassID) {
msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeTestResponse)
if msgLayer == nil {
logger.Errorw(ctx, "omci Msg layer nil self test response", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.pDevEntry.GetDevOmciCC().ReleaseTid(ctx, msg.OmciMsg.TransactionID)
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
return
}
msgObj, msgOk := msgLayer.(*omci.TestResponse)
if !msgOk {
logger.Errorw(ctx, "omci Msg layer could not be detected for self test response", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.pDevEntry.GetDevOmciCC().ReleaseTid(ctx, msg.OmciMsg.TransactionID)
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
return
}
logger.Debugw(ctx, "OMCI test response Data", log.Fields{"device-id": selfTestCb.deviceID, "data-fields": msgObj})
if msgObj.Result == generated.Success && msgObj.EntityClass == classID {
logger.Infow(ctx, "OMCI test response success", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventTestResponseSuccess, classID)
return
}
logger.Infow(ctx, "OMCI test response failure", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.pDevEntry.GetDevOmciCC().ReleaseTid(ctx, msg.OmciMsg.TransactionID)
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_UNSUPPORTED, extension.GetValueResponse_ERROR)
}
func (selfTestCb *SelfTestControlBlock) handleOmciTestResult(ctx context.Context, msg cmn.OmciMessage, cb *fsmCb, classID generated.ClassID) {
msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeTestResult)
if msgLayer == nil {
logger.Errorw(ctx, "omci Msg layer nil self test result", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
return
}
var msgObj *omci.OpticalLineSupervisionTestResult
var msgOk bool
switch classID {
case me.AniGClassID:
msgObj, msgOk = msgLayer.(*omci.OpticalLineSupervisionTestResult)
default:
// We should not really land here
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
return
}
if !msgOk {
logger.Errorw(ctx, "omci Msg layer could not be detected for self test result", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, cb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
return
}
logger.Debugw(ctx, "raw omci values of ani-g test result",
log.Fields{"device-id": selfTestCb.deviceID,
"power-feed-voltage": msgObj.PowerFeedVoltage,
"rx-power": msgObj.ReceivedOpticalPower,
"tx-power": msgObj.MeanOpticalLaunch,
"laser-bias-current": msgObj.LaserBiasCurrent,
"temperature": msgObj.Temperature})
singleValResp := extension.SingleGetValueResponse{
Response: &extension.GetValueResponse{
Status: extension.GetValueResponse_OK,
Response: &extension.GetValueResponse_OnuOpticalInfo{
OnuOpticalInfo: &extension.GetOnuPonOpticalInfoResponse{
// OMCI representation is Volts, 2s compliment, 20mV resolution
PowerFeedVoltage: float32(cmn.TwosComplementToSignedInt16(msgObj.PowerFeedVoltage)) * 0.02,
// OMCI representation is Decibel-microwatts, 2s compliment, 0.002dB resolution.
// Subtract 30 to convert the unit from dBu to dBm (as expected by proto interface)
ReceivedOpticalPower: float32(cmn.TwosComplementToSignedInt16(msgObj.ReceivedOpticalPower))*0.002 - 30,
// OMCI representation is Decibel-microwatts, 2s compliment, 0.002dB resolution
// Subtract 30 to convert the unit from dBu to dBm (as expected by proto interface)
MeanOpticalLaunchPower: float32(cmn.TwosComplementToSignedInt16(msgObj.MeanOpticalLaunch))*0.002 - 30,
// OMCI representation is unsigned int, 2uA resolution
// units of gRPC interface is mA.
LaserBiasCurrent: float32(msgObj.LaserBiasCurrent) * 0.000002 * 1000, // multiply by 1000 to get units in mA
// OMCI representation is 2s complement, 1/256 degree Celsius resolution
Temperature: float32(cmn.TwosComplementToSignedInt16(msgObj.Temperature)) / 256.0,
},
},
},
}
logger.Debugw(ctx, "ani-g test result after type/value conversion",
log.Fields{"device-id": selfTestCb.deviceID,
"power-feed-voltage": singleValResp.Response.GetOnuOpticalInfo().PowerFeedVoltage,
"rx-power": singleValResp.Response.GetOnuOpticalInfo().ReceivedOpticalPower,
"tx-power": singleValResp.Response.GetOnuOpticalInfo().MeanOpticalLaunchPower,
"laser-bias-current": singleValResp.Response.GetOnuOpticalInfo().LaserBiasCurrent,
"temperature": singleValResp.Response.GetOnuOpticalInfo().Temperature})
selfTestCb.triggerFsmEvent(cb.fsm, selfTestEventTestResultSuccess)
logger.Infow(ctx, "OMCI test result success - pushing results", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
cb.respChan <- singleValResp
selfTestCb.selfTestRequestComplete(ctx, cb.reqMsg)
logger.Infow(ctx, "OMCI test result success - pushing results complete", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
}
func (selfTestCb *SelfTestControlBlock) handleOmciResponse(ctx context.Context, classID generated.ClassID) {
selfTestCb.selfTestFsmLock.RLock()
pFsmCb, ok := selfTestCb.selfTestFsmMap[classID]
selfTestCb.selfTestFsmLock.RUnlock()
if !ok {
logger.Errorw(ctx, "fsb control block unavailable", log.Fields{"device-id": selfTestCb.deviceID, "class-id": classID})
return
}
select {
case <-pFsmCb.stopOmciChan:
logger.Infow(ctx, "omci processing stopped", log.Fields{"device-id": selfTestCb.deviceID, "class-id": classID})
selfTestCb.triggerFsmEvent(pFsmCb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, pFsmCb.respChan, extension.GetValueResponse_REASON_UNDEFINED, extension.GetValueResponse_ERROR)
case message, ok := <-pFsmCb.fsm.CommChan:
if !ok {
logger.Errorw(ctx, "Message couldn't be read from channel", log.Fields{"device-id": selfTestCb.deviceID})
selfTestCb.triggerFsmEvent(pFsmCb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, pFsmCb.respChan, extension.GetValueResponse_INTERNAL_ERROR, extension.GetValueResponse_ERROR)
}
logger.Debugw(ctx, "Received message on self test result channel", log.Fields{"device-id": selfTestCb.deviceID})
switch message.Type {
case cmn.OMCI:
msg, _ := message.Data.(cmn.OmciMessage)
selfTestCb.handleOmciMessage(ctx, msg, pFsmCb, classID)
default:
logger.Errorw(ctx, "Unknown message type received", log.Fields{"device-id": selfTestCb.deviceID, "message.Type": message.Type})
selfTestCb.submitFailureGetValueResponse(ctx, pFsmCb.respChan, extension.GetValueResponse_UNSUPPORTED, extension.GetValueResponse_ERROR)
}
case <-time.After(time.Duration(SelfTestResponseWaitTimeout) * time.Second):
logger.Errorw(ctx, "timeout waiting for test result", log.Fields{"device-id": selfTestCb.deviceID, "classID": classID})
selfTestCb.triggerFsmEvent(pFsmCb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, pFsmCb.respChan, extension.GetValueResponse_TIMEOUT, extension.GetValueResponse_ERROR)
}
}
// selfTestRequestComplete removes the fsmCb from the local cache if found
func (selfTestCb *SelfTestControlBlock) selfTestRequestComplete(ctx context.Context, reqMsg extension.SingleGetValueRequest) {
meClassID, err := selfTestCb.getMeClassID(ctx, reqMsg)
if err != nil {
return
}
logger.Infow(ctx, "self test req handling complete", log.Fields{"device-id": selfTestCb.deviceID, "meClassID": meClassID})
// Clear the fsmCb from the map
delete(selfTestCb.selfTestFsmMap, meClassID)
}
func (selfTestCb *SelfTestControlBlock) waitForStopSelfTestModuleSignal(ctx context.Context) {
selfTestCb.SetSelfTestHandlerIsRunning(true)
<-selfTestCb.StopSelfTestModule // block on stop signal
selfTestCb.SetSelfTestHandlerIsRunning(false)
logger.Infow(ctx, "received stop signal - clean up start", log.Fields{"device-id": selfTestCb.deviceID})
selfTestCb.selfTestFsmLock.Lock()
for classID, fsmCb := range selfTestCb.selfTestFsmMap {
select {
case fsmCb.stopOmciChan <- true: // stop omci processing routine if one was active. It eventually aborts the fsm
logger.Debugw(ctx, "stopped omci processing", log.Fields{"device-id": selfTestCb.deviceID, "meClassID": classID})
default:
selfTestCb.triggerFsmEvent(fsmCb.fsm, selfTestEventAbort)
selfTestCb.submitFailureGetValueResponse(ctx, fsmCb.respChan, extension.GetValueResponse_REASON_UNDEFINED, extension.GetValueResponse_ERROR)
}
}
selfTestCb.selfTestFsmMap = make(map[generated.ClassID]*fsmCb) // reset map
selfTestCb.selfTestFsmLock.Unlock()
logger.Infow(ctx, "received stop signal - clean up end", log.Fields{"device-id": selfTestCb.deviceID})
}
//// Exported functions
// SetSelfTestHandlerIsRunning sets the value to selfTestCb.selfTestHandlerActive
func (selfTestCb *SelfTestControlBlock) SetSelfTestHandlerIsRunning(active bool) {
selfTestCb.selfTestHandlerLock.Lock()
defer selfTestCb.selfTestHandlerLock.Unlock()
selfTestCb.selfTestHandlerActive = active
}
// GetSelfTestHandlerIsRunning gets selfTestCb.selfTestHandlerActive
func (selfTestCb *SelfTestControlBlock) GetSelfTestHandlerIsRunning() bool {
selfTestCb.selfTestHandlerLock.RLock()
defer selfTestCb.selfTestHandlerLock.RUnlock()
return selfTestCb.selfTestHandlerActive
}
// SelfTestRequestStart initiate Test Request handling procedure. The results are asynchronously conveyed on the respChan.
// If the return from selfTestRequest is NOT nil, the caller shall not wait for async response.
func (selfTestCb *SelfTestControlBlock) SelfTestRequestStart(ctx context.Context, reqMsg extension.SingleGetValueRequest,
CommChan chan cmn.Message, respChan chan extension.SingleGetValueResponse) error {
meClassID, err := selfTestCb.getMeClassID(ctx, reqMsg)
if err != nil {
return err
}
if _, ok := selfTestCb.selfTestFsmMap[meClassID]; ok {
logger.Errorw(ctx, "self test already in progress for class id", log.Fields{"device-id": selfTestCb.deviceID, "class-id": meClassID})
return fmt.Errorf("self-test-already-in-progress-for-class-id-%v-device-id-%v", meClassID, selfTestCb.deviceID)
}
logger.Infow(ctx, "self test request initiated", log.Fields{"device-id": selfTestCb.deviceID, "meClassID": meClassID})
// indicates only if the FSM was initiated correctly. Response is asynchronous on respChan.
// If the return from here is NOT nil, the caller shall not wait for async response.
return selfTestCb.initiateNewSelfTestFsm(ctx, reqMsg, CommChan, meClassID, respChan)
}