adaptercore/olt_state_transitions.go - voltha-openolt-adapter - Gitiles

 /*
  * Copyright 2018-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 adaptercore provides the utility for olt devices, flows and statistics
 package adaptercore

 import (
 	"reflect"
 	"runtime"

 	"github.com/opencord/voltha-lib-go/v2/pkg/log"
 )

 // DeviceState OLT Device state
 type DeviceState int

 const (
 	// deviceStateNull OLT is not instantiated
 	deviceStateNull DeviceState = iota
 	// deviceStateInit OLT is instantiated
 	deviceStateInit
 	// deviceStateConnected Grpc session established with OLT
 	deviceStateConnected
 	// deviceStateUp Admin state of OLT is UP
 	deviceStateUp
 	// deviceStateDown Admin state of OLT is down
 	deviceStateDown
 )

 // Trigger for changing the state
 type Trigger int

 const (
 	// DeviceInit Go to Device init state
 	DeviceInit Trigger = iota
 	// GrpcConnected Go to connected state
 	GrpcConnected
 	// DeviceUpInd Go to Device up state
 	DeviceUpInd
 	// DeviceDownInd Go to Device down state
 	DeviceDownInd
 	// GrpcDisconnected Go to Device init state
 	GrpcDisconnected
 )

 // TransitionHandler function type for handling transition
 type TransitionHandler func() error

 // Transition to store state machine
 type Transition struct {
 	previousState []DeviceState
 	currentState  DeviceState
 	before        []TransitionHandler
 	after         []TransitionHandler
 }

 // TransitionMap to store all the states and current device state
 type TransitionMap struct {
 	transitions        map[Trigger]Transition
 	currentDeviceState DeviceState
 }

 //    OpenoltDevice state machine:
 //
 //        null ----> init ------> connected -----> up -----> down
 //                   ^ ^             |             ^         | |
 //                   | |             |             |         | |
 //                   | +-------------+             +---------+ |
 //                   |                                         |
 //                   +-----------------------------------------+

 // NewTransitionMap create a new state machine with all the transitions
 func NewTransitionMap(dh *DeviceHandler) *TransitionMap {
 	var transitionMap TransitionMap
 	transitionMap.currentDeviceState = deviceStateNull
 	transitionMap.transitions = make(map[Trigger]Transition)
 	// In doInit establish the grpc session
 	transitionMap.transitions[DeviceInit] =
 		Transition{
 			previousState: []DeviceState{deviceStateNull, deviceStateDown},
 			currentState:  deviceStateInit,
 			before:        []TransitionHandler{dh.doStateInit},
 			after:         []TransitionHandler{dh.postInit}}
 	// If gRpc session fails, re-establish the grpc session
 	transitionMap.transitions[GrpcDisconnected] =
 		Transition{
 			previousState: []DeviceState{deviceStateConnected, deviceStateDown},
 			currentState:  deviceStateInit,
 			before:        []TransitionHandler{dh.doStateInit},
 			after:         []TransitionHandler{dh.postInit}}
 	// in doConnected, create logical device and read the indications
 	transitionMap.transitions[GrpcConnected] =
 		Transition{
 			previousState: []DeviceState{deviceStateInit},
 			currentState:  deviceStateConnected,
 			before:        []TransitionHandler{dh.doStateConnected}}

 	// Once the olt UP is indication received, then do state up
 	transitionMap.transitions[DeviceUpInd] =
 		Transition{
 			previousState: []DeviceState{deviceStateConnected, deviceStateDown},
 			currentState:  deviceStateUp,
 			before:        []TransitionHandler{dh.doStateUp}}
 	// If olt DOWN indication comes then do sate down
 	transitionMap.transitions[DeviceDownInd] =
 		Transition{
 			previousState: []DeviceState{deviceStateUp},
 			currentState:  deviceStateDown,
 			before:        []TransitionHandler{dh.doStateDown}}

 	return &transitionMap
 }

 // funcName gets the handler function name
 func funcName(f interface{}) string {
 	p := reflect.ValueOf(f).Pointer()
 	rf := runtime.FuncForPC(p)
 	return rf.Name()
 }

 // isValidTransition checks for the new state transition is valid from current state
 func (tMap *TransitionMap) isValidTransition(trigger Trigger) bool {
 	// Validate the state transition
 	for _, state := range tMap.transitions[trigger].previousState {
 		if tMap.currentDeviceState == state {
 			return true
 		}
 	}
 	return false
 }

 // Handle moves the state machine to next state based on the trigger and invokes the before and
 // after handlers if the transition is a valid transition
 func (tMap *TransitionMap) Handle(trigger Trigger) {

 	// Check whether the transtion is valid from current state
 	if !tMap.isValidTransition(trigger) {
 		log.Errorw("Invalid transition triggered ", log.Fields{"CurrentState": tMap.currentDeviceState, "Trigger": trigger})
 		return
 	}

 	// Invoke the before handlers
 	beforeHandlers := tMap.transitions[trigger].before
 	if beforeHandlers == nil {
 		log.Debugw("No handlers for before", log.Fields{"trigger": trigger})
 	}
 	for _, handler := range beforeHandlers {
 		log.Debugw("running-before-handler", log.Fields{"handler": funcName(handler)})
 		if err := handler(); err != nil {
 			// TODO handle error
 			log.Error(err)
 			return
 		}
 	}

 	// Update the state
 	tMap.currentDeviceState = tMap.transitions[trigger].currentState
 	log.Debugw("Updated device state ", log.Fields{"CurrentDeviceState": tMap.currentDeviceState})

 	// Invoke the after handlers
 	afterHandlers := tMap.transitions[trigger].after
 	if afterHandlers == nil {
 		log.Debugw("No handlers for after", log.Fields{"trigger": trigger})
 	}
 	for _, handler := range afterHandlers {
 		log.Debugw("running-after-handler", log.Fields{"handler": funcName(handler)})
 		if err := handler(); err != nil {
 			// TODO handle error
 			log.Error(err)
 			return
 		}
 	}
 }
	/*
	* Copyright 2018-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 adaptercore provides the utility for olt devices, flows and statistics
	package adaptercore

	import (
	"reflect"
	"runtime"

	"github.com/opencord/voltha-lib-go/v2/pkg/log"
	)

	// DeviceState OLT Device state
	type DeviceState int

	const (
	// deviceStateNull OLT is not instantiated
	deviceStateNull DeviceState = iota
	// deviceStateInit OLT is instantiated
	deviceStateInit
	// deviceStateConnected Grpc session established with OLT
	deviceStateConnected
	// deviceStateUp Admin state of OLT is UP
	deviceStateUp
	// deviceStateDown Admin state of OLT is down
	deviceStateDown
	)

	// Trigger for changing the state
	type Trigger int

	const (
	// DeviceInit Go to Device init state
	DeviceInit Trigger = iota
	// GrpcConnected Go to connected state
	GrpcConnected
	// DeviceUpInd Go to Device up state
	DeviceUpInd
	// DeviceDownInd Go to Device down state
	DeviceDownInd
	// GrpcDisconnected Go to Device init state
	GrpcDisconnected
	)

	// TransitionHandler function type for handling transition
	type TransitionHandler func() error

	// Transition to store state machine
	type Transition struct {
	previousState []DeviceState
	currentState DeviceState
	before []TransitionHandler
	after []TransitionHandler
	}

	// TransitionMap to store all the states and current device state
	type TransitionMap struct {
	transitions map[Trigger]Transition
	currentDeviceState DeviceState
	}

	// OpenoltDevice state machine:
	//
	// null ----> init ------> connected -----> up -----> down
	// ^ ^ \| ^ \| \|
	// \| \| \| \| \| \|
	// \| +-------------+ +---------+ \|
	// \| \|
	// +-----------------------------------------+

	// NewTransitionMap create a new state machine with all the transitions
	func NewTransitionMap(dh DeviceHandler) TransitionMap {
	var transitionMap TransitionMap
	transitionMap.currentDeviceState = deviceStateNull
	transitionMap.transitions = make(map[Trigger]Transition)
	// In doInit establish the grpc session
	transitionMap.transitions[DeviceInit] =
	Transition{
	previousState: []DeviceState{deviceStateNull, deviceStateDown},
	currentState: deviceStateInit,
	before: []TransitionHandler{dh.doStateInit},
	after: []TransitionHandler{dh.postInit}}
	// If gRpc session fails, re-establish the grpc session
	transitionMap.transitions[GrpcDisconnected] =
	Transition{
	previousState: []DeviceState{deviceStateConnected, deviceStateDown},
	currentState: deviceStateInit,
	before: []TransitionHandler{dh.doStateInit},
	after: []TransitionHandler{dh.postInit}}
	// in doConnected, create logical device and read the indications
	transitionMap.transitions[GrpcConnected] =
	Transition{
	previousState: []DeviceState{deviceStateInit},
	currentState: deviceStateConnected,
	before: []TransitionHandler{dh.doStateConnected}}

	// Once the olt UP is indication received, then do state up
	transitionMap.transitions[DeviceUpInd] =
	Transition{
	previousState: []DeviceState{deviceStateConnected, deviceStateDown},
	currentState: deviceStateUp,
	before: []TransitionHandler{dh.doStateUp}}
	// If olt DOWN indication comes then do sate down
	transitionMap.transitions[DeviceDownInd] =
	Transition{
	previousState: []DeviceState{deviceStateUp},
	currentState: deviceStateDown,
	before: []TransitionHandler{dh.doStateDown}}

	return &transitionMap
	}

	// funcName gets the handler function name
	func funcName(f interface{}) string {
	p := reflect.ValueOf(f).Pointer()
	rf := runtime.FuncForPC(p)
	return rf.Name()
	}

	// isValidTransition checks for the new state transition is valid from current state
	func (tMap *TransitionMap) isValidTransition(trigger Trigger) bool {
	// Validate the state transition
	for _, state := range tMap.transitions[trigger].previousState {
	if tMap.currentDeviceState == state {
	return true
	}
	}
	return false
	}

	// Handle moves the state machine to next state based on the trigger and invokes the before and
	// after handlers if the transition is a valid transition
	func (tMap *TransitionMap) Handle(trigger Trigger) {

	// Check whether the transtion is valid from current state
	if !tMap.isValidTransition(trigger) {
	log.Errorw("Invalid transition triggered ", log.Fields{"CurrentState": tMap.currentDeviceState, "Trigger": trigger})
	return
	}

	// Invoke the before handlers
	beforeHandlers := tMap.transitions[trigger].before
	if beforeHandlers == nil {
	log.Debugw("No handlers for before", log.Fields{"trigger": trigger})
	}
	for _, handler := range beforeHandlers {
	log.Debugw("running-before-handler", log.Fields{"handler": funcName(handler)})
	if err := handler(); err != nil {
	// TODO handle error
	log.Error(err)
	return
	}
	}

	// Update the state
	tMap.currentDeviceState = tMap.transitions[trigger].currentState
	log.Debugw("Updated device state ", log.Fields{"CurrentDeviceState": tMap.currentDeviceState})

	// Invoke the after handlers
	afterHandlers := tMap.transitions[trigger].after
	if afterHandlers == nil {
	log.Debugw("No handlers for after", log.Fields{"trigger": trigger})
	}
	for _, handler := range afterHandlers {
	log.Debugw("running-after-handler", log.Fields{"handler": funcName(handler)})
	if err := handler(); err != nil {
	// TODO handle error
	log.Error(err)
	return
	}
	}
	}