rw_core/core/adapter_manager.go - voltha-go - Gitiles

 /*
  * Copyright 2019-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 core

 import (
 	"context"
 	"fmt"
 	"sync"
 	"time"

 	"github.com/golang/protobuf/ptypes"
 	"github.com/opencord/voltha-lib-go/v3/pkg/kafka"

 	"github.com/gogo/protobuf/proto"
 	"github.com/opencord/voltha-go/db/model"
 	"github.com/opencord/voltha-lib-go/v3/pkg/log"
 	"github.com/opencord/voltha-lib-go/v3/pkg/probe"
 	"github.com/opencord/voltha-protos/v3/go/voltha"
 )

 // sentinel constants
 const (
 	SentinelAdapterID    = "adapter_sentinel"
 	SentinelDevicetypeID = "device_type_sentinel"
 )

 // AdapterAgent represents adapter agent
 type AdapterAgent struct {
 	adapter     *voltha.Adapter
 	deviceTypes map[string]*voltha.DeviceType
 	lock        sync.RWMutex
 }

 func newAdapterAgent(adapter *voltha.Adapter, deviceTypes *voltha.DeviceTypes) *AdapterAgent {
 	var adapterAgent AdapterAgent
 	adapterAgent.adapter = adapter
 	adapterAgent.lock = sync.RWMutex{}
 	adapterAgent.deviceTypes = make(map[string]*voltha.DeviceType)
 	if deviceTypes != nil {
 		for _, dType := range deviceTypes.Items {
 			adapterAgent.deviceTypes[dType.Id] = dType
 		}
 	}
 	return &adapterAgent
 }

 func (aa *AdapterAgent) getDeviceType(deviceType string) *voltha.DeviceType {
 	aa.lock.RLock()
 	defer aa.lock.RUnlock()
 	if _, exist := aa.deviceTypes[deviceType]; exist {
 		return aa.deviceTypes[deviceType]
 	}
 	return nil
 }

 func (aa *AdapterAgent) getAdapter() *voltha.Adapter {
 	aa.lock.RLock()
 	defer aa.lock.RUnlock()
 	logger.Debugw("getAdapter", log.Fields{"adapter": aa.adapter})
 	return aa.adapter
 }

 func (aa *AdapterAgent) updateDeviceType(deviceType *voltha.DeviceType) {
 	aa.lock.Lock()
 	defer aa.lock.Unlock()
 	aa.deviceTypes[deviceType.Id] = deviceType
 }

 // updateCommunicationTime updates the message to the specified time.
 // No attempt is made to save the time to the db, so only recent times are guaranteed to be accurate.
 func (aa *AdapterAgent) updateCommunicationTime(new time.Time) {
 	// only update if new time is not in the future, and either the old time is invalid or new time > old time
 	if last, err := ptypes.Timestamp(aa.adapter.LastCommunication); !new.After(time.Now()) && (err != nil || new.After(last)) {
 		timestamp, err := ptypes.TimestampProto(new)
 		if err != nil {
 			return // if the new time cannot be encoded, just ignore it
 		}

 		aa.lock.Lock()
 		defer aa.lock.Unlock()
 		aa.adapter.LastCommunication = timestamp
 	}
 }

 // AdapterManager represents adapter manager attributes
 type AdapterManager struct {
 	adapterAgents               map[string]*AdapterAgent
 	deviceTypeToAdapterMap      map[string]string
 	clusterDataProxy            *model.Proxy
 	deviceMgr                   *DeviceManager
 	coreInstanceID              string
 	exitChannel                 chan int
 	lockAdaptersMap             sync.RWMutex
 	lockdDeviceTypeToAdapterMap sync.RWMutex
 }

 func newAdapterManager(cdProxy *model.Proxy, coreInstanceID string, kafkaClient kafka.Client, deviceMgr *DeviceManager) *AdapterManager {
 	aMgr := &AdapterManager{
 		exitChannel:            make(chan int, 1),
 		coreInstanceID:         coreInstanceID,
 		clusterDataProxy:       cdProxy,
 		adapterAgents:          make(map[string]*AdapterAgent),
 		deviceTypeToAdapterMap: make(map[string]string),
 		deviceMgr:              deviceMgr,
 	}
 	kafkaClient.SubscribeForMetadata(aMgr.updateLastAdapterCommunication)
 	return aMgr
 }

 func (aMgr *AdapterManager) start(ctx context.Context) error {
 	logger.Info("starting-adapter-manager")

 	// Load the existing adapterAgents and device types - this will also ensure the correct paths have been
 	// created if there are no data in the dB to start
 	err := aMgr.loadAdaptersAndDevicetypesInMemory()
 	if err != nil {
 		logger.Errorw("Failed-to-load-adapters-and-device-types-in-memeory", log.Fields{"error": err})
 		return err
 	}

 	probe.UpdateStatusFromContext(ctx, "adapter-manager", probe.ServiceStatusRunning)
 	logger.Info("adapter-manager-started")
 	return nil
 }

 //loadAdaptersAndDevicetypesInMemory loads the existing set of adapters and device types in memory
 func (aMgr *AdapterManager) loadAdaptersAndDevicetypesInMemory() error {
 	// Load the adapters
 	var adapters []*voltha.Adapter
 	if err := aMgr.clusterDataProxy.List(context.Background(), "adapters", &adapters); err != nil {
 		logger.Errorw("Failed-to-list-adapters-from-cluster-data-proxy", log.Fields{"error": err})
 		return err
 	}
 	if len(adapters) != 0 {
 		for _, adapter := range adapters {
 			if err := aMgr.addAdapter(adapter, false); err != nil {
 				logger.Errorw("failed to add adapter", log.Fields{"adapterId": adapter.Id})
 			} else {
 				logger.Debugw("adapter added successfully", log.Fields{"adapterId": adapter.Id})
 			}
 		}
 	} else {
 		logger.Debug("no-existing-adapter-found")
 		//	No adapter data.   In order to have a proxy setup for that path let's create a fake adapter
 		return aMgr.addAdapter(&voltha.Adapter{Id: SentinelAdapterID}, true)
 	}

 	// Load the device types
 	var deviceTypes []*voltha.DeviceType
 	if err := aMgr.clusterDataProxy.List(context.Background(), "device_types", &deviceTypes); err != nil {
 		logger.Errorw("Failed-to-list-device-types-from-cluster-data-proxy", log.Fields{"error": err})
 		return err
 	}
 	if len(deviceTypes) != 0 {
 		dTypes := &voltha.DeviceTypes{Items: []*voltha.DeviceType{}}
 		for _, dType := range deviceTypes {
 			logger.Debugw("found-existing-device-types", log.Fields{"deviceTypes": dTypes})
 			dTypes.Items = append(dTypes.Items, dType)
 		}
 		return aMgr.addDeviceTypes(dTypes, false)
 	}

 	logger.Debug("no-existing-device-type-found")
 	//	No device types data.   In order to have a proxy setup for that path let's create a fake device type
 	return aMgr.addDeviceTypes(&voltha.DeviceTypes{Items: []*voltha.DeviceType{{Id: SentinelDevicetypeID, Adapter: SentinelAdapterID}}}, true)
 }

 func (aMgr *AdapterManager) updateLastAdapterCommunication(adapterID string, timestamp int64) {
 	aMgr.lockAdaptersMap.RLock()
 	adapterAgent, have := aMgr.adapterAgents[adapterID]
 	aMgr.lockAdaptersMap.RUnlock()

 	if have {
 		adapterAgent.updateCommunicationTime(time.Unix(timestamp/1000, timestamp%1000*1000))
 	}
 }

 func (aMgr *AdapterManager) addAdapter(adapter *voltha.Adapter, saveToDb bool) error {
 	aMgr.lockAdaptersMap.Lock()
 	defer aMgr.lockAdaptersMap.Unlock()
 	logger.Debugw("adding-adapter", log.Fields{"adapter": adapter})
 	if _, exist := aMgr.adapterAgents[adapter.Id]; !exist {
 		if saveToDb {
 			// Save the adapter to the KV store - first check if it already exist
 			if have, err := aMgr.clusterDataProxy.Get(context.Background(), "adapters/"+adapter.Id, &voltha.Adapter{}); err != nil {
 				logger.Errorw("failed-to-get-adapters-from-cluster-proxy", log.Fields{"error": err})
 				return err
 			} else if !have {
 				if err := aMgr.clusterDataProxy.AddWithID(context.Background(), "adapters", adapter.Id, adapter); err != nil {
 					logger.Errorw("failed-to-save-adapter-to-cluster-proxy", log.Fields{"error": err})
 					return err
 				}
 				logger.Debugw("adapter-saved-to-KV-Store", log.Fields{"adapter": adapter})
 			}
 		}
 		clonedAdapter := (proto.Clone(adapter)).(*voltha.Adapter)
 		aMgr.adapterAgents[adapter.Id] = newAdapterAgent(clonedAdapter, nil)
 	}
 	return nil
 }

 func (aMgr *AdapterManager) addDeviceTypes(deviceTypes *voltha.DeviceTypes, saveToDb bool) error {
 	if deviceTypes == nil {
 		return fmt.Errorf("no-device-type")
 	}
 	logger.Debugw("adding-device-types", log.Fields{"deviceTypes": deviceTypes})
 	aMgr.lockAdaptersMap.Lock()
 	defer aMgr.lockAdaptersMap.Unlock()
 	aMgr.lockdDeviceTypeToAdapterMap.Lock()
 	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()

 	if saveToDb {
 		// Save the device types to the KV store
 		for _, deviceType := range deviceTypes.Items {
 			if have, err := aMgr.clusterDataProxy.Get(context.Background(), "device_types/"+deviceType.Id, &voltha.DeviceType{}); err != nil {
 				logger.Errorw("Failed-to--device-types-from-cluster-data-proxy", log.Fields{"error": err})
 				return err
 			} else if !have {
 				//	Does not exist - save it
 				clonedDType := (proto.Clone(deviceType)).(*voltha.DeviceType)
 				if err := aMgr.clusterDataProxy.AddWithID(context.Background(), "device_types", deviceType.Id, clonedDType); err != nil {
 					logger.Errorw("Failed-to-add-device-types-to-cluster-data-proxy", log.Fields{"error": err})
 					return err
 				}
 				logger.Debugw("device-type-saved-to-KV-Store", log.Fields{"deviceType": deviceType})
 			}
 		}
 	}
 	// and save locally
 	for _, deviceType := range deviceTypes.Items {
 		clonedDType := (proto.Clone(deviceType)).(*voltha.DeviceType)
 		if adapterAgent, exist := aMgr.adapterAgents[clonedDType.Adapter]; exist {
 			adapterAgent.updateDeviceType(clonedDType)
 		} else {
 			logger.Debugw("adapter-not-exist", log.Fields{"deviceTypes": deviceTypes, "adapterId": clonedDType.Adapter})
 			aMgr.adapterAgents[clonedDType.Adapter] = newAdapterAgent(&voltha.Adapter{Id: clonedDType.Adapter}, deviceTypes)
 		}
 		aMgr.deviceTypeToAdapterMap[clonedDType.Id] = clonedDType.Adapter
 	}
 	return nil
 }

 func (aMgr *AdapterManager) listAdapters(ctx context.Context) (*voltha.Adapters, error) {
 	result := &voltha.Adapters{Items: []*voltha.Adapter{}}
 	aMgr.lockAdaptersMap.RLock()
 	defer aMgr.lockAdaptersMap.RUnlock()
 	for _, adapterAgent := range aMgr.adapterAgents {
 		if a := adapterAgent.getAdapter(); a != nil {
 			if a.Id != SentinelAdapterID { // don't report the sentinel
 				result.Items = append(result.Items, (proto.Clone(a)).(*voltha.Adapter))
 			}
 		}
 	}
 	return result, nil
 }

 func (aMgr *AdapterManager) getAdapter(adapterID string) *voltha.Adapter {
 	aMgr.lockAdaptersMap.RLock()
 	defer aMgr.lockAdaptersMap.RUnlock()
 	if adapterAgent, ok := aMgr.adapterAgents[adapterID]; ok {
 		return adapterAgent.getAdapter()
 	}
 	return nil
 }

 func (aMgr *AdapterManager) registerAdapter(adapter *voltha.Adapter, deviceTypes *voltha.DeviceTypes) (*voltha.CoreInstance, error) {
 	logger.Debugw("registerAdapter", log.Fields{"adapter": adapter, "deviceTypes": deviceTypes.Items})

 	if aMgr.getAdapter(adapter.Id) != nil {
 		//	Already registered - Adapter may have restarted.  Trigger the reconcile process for that adapter
 		go func() {
 			err := aMgr.deviceMgr.adapterRestarted(context.Background(), adapter)
 			if err != nil {
 				logger.Errorw("unable-to-restart-adapter", log.Fields{"error": err})
 			}
 		}()
 		return &voltha.CoreInstance{InstanceId: aMgr.coreInstanceID}, nil
 	}
 	// Save the adapter and the device types
 	if err := aMgr.addAdapter(adapter, true); err != nil {
 		logger.Errorw("failed-to-add-adapter", log.Fields{"error": err})
 		return nil, err
 	}
 	if err := aMgr.addDeviceTypes(deviceTypes, true); err != nil {
 		logger.Errorw("failed-to-add-device-types", log.Fields{"error": err})
 		return nil, err
 	}

 	logger.Debugw("adapter-registered", log.Fields{"adapter": adapter.Id})

 	return &voltha.CoreInstance{InstanceId: aMgr.coreInstanceID}, nil
 }

 //getAdapterName returns the name of the device adapter that service this device type
 func (aMgr *AdapterManager) getAdapterName(deviceType string) (string, error) {
 	aMgr.lockdDeviceTypeToAdapterMap.Lock()
 	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()
 	if adapterID, exist := aMgr.deviceTypeToAdapterMap[deviceType]; exist {
 		return adapterID, nil
 	}
 	return "", fmt.Errorf("Adapter-not-registered-for-device-type %s", deviceType)
 }

 func (aMgr *AdapterManager) listDeviceTypes() []*voltha.DeviceType {
 	aMgr.lockdDeviceTypeToAdapterMap.Lock()
 	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()

 	deviceTypes := make([]*voltha.DeviceType, 0, len(aMgr.deviceTypeToAdapterMap))
 	for deviceTypeID, adapterID := range aMgr.deviceTypeToAdapterMap {
 		if adapterAgent, have := aMgr.adapterAgents[adapterID]; have {
 			if deviceType := adapterAgent.getDeviceType(deviceTypeID); deviceType != nil {
 				if deviceType.Id != SentinelDevicetypeID { // don't report the sentinel
 					deviceTypes = append(deviceTypes, deviceType)
 				}
 			}
 		}
 	}
 	return deviceTypes
 }

 // getDeviceType returns the device type proto definition given the name of the device type
 func (aMgr *AdapterManager) getDeviceType(deviceType string) *voltha.DeviceType {
 	aMgr.lockdDeviceTypeToAdapterMap.Lock()
 	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()

 	if adapterID, exist := aMgr.deviceTypeToAdapterMap[deviceType]; exist {
 		if adapterAgent := aMgr.adapterAgents[adapterID]; adapterAgent != nil {
 			return adapterAgent.getDeviceType(deviceType)
 		}
 	}
 	return nil
 }
	/*
	* Copyright 2019-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 core

	import (
	"context"
	"fmt"
	"sync"
	"time"

	"github.com/golang/protobuf/ptypes"
	"github.com/opencord/voltha-lib-go/v3/pkg/kafka"

	"github.com/gogo/protobuf/proto"
	"github.com/opencord/voltha-go/db/model"
	"github.com/opencord/voltha-lib-go/v3/pkg/log"
	"github.com/opencord/voltha-lib-go/v3/pkg/probe"
	"github.com/opencord/voltha-protos/v3/go/voltha"
	)

	// sentinel constants
	const (
	SentinelAdapterID = "adapter_sentinel"
	SentinelDevicetypeID = "device_type_sentinel"
	)

	// AdapterAgent represents adapter agent
	type AdapterAgent struct {
	adapter *voltha.Adapter
	deviceTypes map[string]*voltha.DeviceType
	lock sync.RWMutex
	}

	func newAdapterAgent(adapter voltha.Adapter, deviceTypes voltha.DeviceTypes) *AdapterAgent {
	var adapterAgent AdapterAgent
	adapterAgent.adapter = adapter
	adapterAgent.lock = sync.RWMutex{}
	adapterAgent.deviceTypes = make(map[string]*voltha.DeviceType)
	if deviceTypes != nil {
	for _, dType := range deviceTypes.Items {
	adapterAgent.deviceTypes[dType.Id] = dType
	}
	}
	return &adapterAgent
	}

	func (aa AdapterAgent) getDeviceType(deviceType string) voltha.DeviceType {
	aa.lock.RLock()
	defer aa.lock.RUnlock()
	if _, exist := aa.deviceTypes[deviceType]; exist {
	return aa.deviceTypes[deviceType]
	}
	return nil
	}

	func (aa AdapterAgent) getAdapter() voltha.Adapter {
	aa.lock.RLock()
	defer aa.lock.RUnlock()
	logger.Debugw("getAdapter", log.Fields{"adapter": aa.adapter})
	return aa.adapter
	}

	func (aa AdapterAgent) updateDeviceType(deviceType voltha.DeviceType) {
	aa.lock.Lock()
	defer aa.lock.Unlock()
	aa.deviceTypes[deviceType.Id] = deviceType
	}

	// updateCommunicationTime updates the message to the specified time.
	// No attempt is made to save the time to the db, so only recent times are guaranteed to be accurate.
	func (aa *AdapterAgent) updateCommunicationTime(new time.Time) {
	// only update if new time is not in the future, and either the old time is invalid or new time > old time
	if last, err := ptypes.Timestamp(aa.adapter.LastCommunication); !new.After(time.Now()) && (err != nil \|\| new.After(last)) {
	timestamp, err := ptypes.TimestampProto(new)
	if err != nil {
	return // if the new time cannot be encoded, just ignore it
	}

	aa.lock.Lock()
	defer aa.lock.Unlock()
	aa.adapter.LastCommunication = timestamp
	}
	}

	// AdapterManager represents adapter manager attributes
	type AdapterManager struct {
	adapterAgents map[string]*AdapterAgent
	deviceTypeToAdapterMap map[string]string
	clusterDataProxy *model.Proxy
	deviceMgr *DeviceManager
	coreInstanceID string
	exitChannel chan int
	lockAdaptersMap sync.RWMutex
	lockdDeviceTypeToAdapterMap sync.RWMutex
	}

	func newAdapterManager(cdProxy model.Proxy, coreInstanceID string, kafkaClient kafka.Client, deviceMgr DeviceManager) *AdapterManager {
	aMgr := &AdapterManager{
	exitChannel: make(chan int, 1),
	coreInstanceID: coreInstanceID,
	clusterDataProxy: cdProxy,
	adapterAgents: make(map[string]*AdapterAgent),
	deviceTypeToAdapterMap: make(map[string]string),
	deviceMgr: deviceMgr,
	}
	kafkaClient.SubscribeForMetadata(aMgr.updateLastAdapterCommunication)
	return aMgr
	}

	func (aMgr *AdapterManager) start(ctx context.Context) error {
	logger.Info("starting-adapter-manager")

	// Load the existing adapterAgents and device types - this will also ensure the correct paths have been
	// created if there are no data in the dB to start
	err := aMgr.loadAdaptersAndDevicetypesInMemory()
	if err != nil {
	logger.Errorw("Failed-to-load-adapters-and-device-types-in-memeory", log.Fields{"error": err})
	return err
	}

	probe.UpdateStatusFromContext(ctx, "adapter-manager", probe.ServiceStatusRunning)
	logger.Info("adapter-manager-started")
	return nil
	}

	//loadAdaptersAndDevicetypesInMemory loads the existing set of adapters and device types in memory
	func (aMgr *AdapterManager) loadAdaptersAndDevicetypesInMemory() error {
	// Load the adapters
	var adapters []*voltha.Adapter
	if err := aMgr.clusterDataProxy.List(context.Background(), "adapters", &adapters); err != nil {
	logger.Errorw("Failed-to-list-adapters-from-cluster-data-proxy", log.Fields{"error": err})
	return err
	}
	if len(adapters) != 0 {
	for _, adapter := range adapters {
	if err := aMgr.addAdapter(adapter, false); err != nil {
	logger.Errorw("failed to add adapter", log.Fields{"adapterId": adapter.Id})
	} else {
	logger.Debugw("adapter added successfully", log.Fields{"adapterId": adapter.Id})
	}
	}
	} else {
	logger.Debug("no-existing-adapter-found")
	// No adapter data. In order to have a proxy setup for that path let's create a fake adapter
	return aMgr.addAdapter(&voltha.Adapter{Id: SentinelAdapterID}, true)
	}

	// Load the device types
	var deviceTypes []*voltha.DeviceType
	if err := aMgr.clusterDataProxy.List(context.Background(), "device_types", &deviceTypes); err != nil {
	logger.Errorw("Failed-to-list-device-types-from-cluster-data-proxy", log.Fields{"error": err})
	return err
	}
	if len(deviceTypes) != 0 {
	dTypes := &voltha.DeviceTypes{Items: []*voltha.DeviceType{}}
	for _, dType := range deviceTypes {
	logger.Debugw("found-existing-device-types", log.Fields{"deviceTypes": dTypes})
	dTypes.Items = append(dTypes.Items, dType)
	}
	return aMgr.addDeviceTypes(dTypes, false)
	}

	logger.Debug("no-existing-device-type-found")
	// No device types data. In order to have a proxy setup for that path let's create a fake device type
	return aMgr.addDeviceTypes(&voltha.DeviceTypes{Items: []*voltha.DeviceType{{Id: SentinelDevicetypeID, Adapter: SentinelAdapterID}}}, true)
	}

	func (aMgr *AdapterManager) updateLastAdapterCommunication(adapterID string, timestamp int64) {
	aMgr.lockAdaptersMap.RLock()
	adapterAgent, have := aMgr.adapterAgents[adapterID]
	aMgr.lockAdaptersMap.RUnlock()

	if have {
	adapterAgent.updateCommunicationTime(time.Unix(timestamp/1000, timestamp%1000*1000))
	}
	}

	func (aMgr AdapterManager) addAdapter(adapter voltha.Adapter, saveToDb bool) error {
	aMgr.lockAdaptersMap.Lock()
	defer aMgr.lockAdaptersMap.Unlock()
	logger.Debugw("adding-adapter", log.Fields{"adapter": adapter})
	if _, exist := aMgr.adapterAgents[adapter.Id]; !exist {
	if saveToDb {
	// Save the adapter to the KV store - first check if it already exist
	if have, err := aMgr.clusterDataProxy.Get(context.Background(), "adapters/"+adapter.Id, &voltha.Adapter{}); err != nil {
	logger.Errorw("failed-to-get-adapters-from-cluster-proxy", log.Fields{"error": err})
	return err
	} else if !have {
	if err := aMgr.clusterDataProxy.AddWithID(context.Background(), "adapters", adapter.Id, adapter); err != nil {
	logger.Errorw("failed-to-save-adapter-to-cluster-proxy", log.Fields{"error": err})
	return err
	}
	logger.Debugw("adapter-saved-to-KV-Store", log.Fields{"adapter": adapter})
	}
	}
	clonedAdapter := (proto.Clone(adapter)).(*voltha.Adapter)
	aMgr.adapterAgents[adapter.Id] = newAdapterAgent(clonedAdapter, nil)
	}
	return nil
	}

	func (aMgr AdapterManager) addDeviceTypes(deviceTypes voltha.DeviceTypes, saveToDb bool) error {
	if deviceTypes == nil {
	return fmt.Errorf("no-device-type")
	}
	logger.Debugw("adding-device-types", log.Fields{"deviceTypes": deviceTypes})
	aMgr.lockAdaptersMap.Lock()
	defer aMgr.lockAdaptersMap.Unlock()
	aMgr.lockdDeviceTypeToAdapterMap.Lock()
	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()

	if saveToDb {
	// Save the device types to the KV store
	for _, deviceType := range deviceTypes.Items {
	if have, err := aMgr.clusterDataProxy.Get(context.Background(), "device_types/"+deviceType.Id, &voltha.DeviceType{}); err != nil {
	logger.Errorw("Failed-to--device-types-from-cluster-data-proxy", log.Fields{"error": err})
	return err
	} else if !have {
	// Does not exist - save it
	clonedDType := (proto.Clone(deviceType)).(*voltha.DeviceType)
	if err := aMgr.clusterDataProxy.AddWithID(context.Background(), "device_types", deviceType.Id, clonedDType); err != nil {
	logger.Errorw("Failed-to-add-device-types-to-cluster-data-proxy", log.Fields{"error": err})
	return err
	}
	logger.Debugw("device-type-saved-to-KV-Store", log.Fields{"deviceType": deviceType})
	}
	}
	}
	// and save locally
	for _, deviceType := range deviceTypes.Items {
	clonedDType := (proto.Clone(deviceType)).(*voltha.DeviceType)
	if adapterAgent, exist := aMgr.adapterAgents[clonedDType.Adapter]; exist {
	adapterAgent.updateDeviceType(clonedDType)
	} else {
	logger.Debugw("adapter-not-exist", log.Fields{"deviceTypes": deviceTypes, "adapterId": clonedDType.Adapter})
	aMgr.adapterAgents[clonedDType.Adapter] = newAdapterAgent(&voltha.Adapter{Id: clonedDType.Adapter}, deviceTypes)
	}
	aMgr.deviceTypeToAdapterMap[clonedDType.Id] = clonedDType.Adapter
	}
	return nil
	}

	func (aMgr AdapterManager) listAdapters(ctx context.Context) (voltha.Adapters, error) {
	result := &voltha.Adapters{Items: []*voltha.Adapter{}}
	aMgr.lockAdaptersMap.RLock()
	defer aMgr.lockAdaptersMap.RUnlock()
	for _, adapterAgent := range aMgr.adapterAgents {
	if a := adapterAgent.getAdapter(); a != nil {
	if a.Id != SentinelAdapterID { // don't report the sentinel
	result.Items = append(result.Items, (proto.Clone(a)).(*voltha.Adapter))
	}
	}
	}
	return result, nil
	}

	func (aMgr AdapterManager) getAdapter(adapterID string) voltha.Adapter {
	aMgr.lockAdaptersMap.RLock()
	defer aMgr.lockAdaptersMap.RUnlock()
	if adapterAgent, ok := aMgr.adapterAgents[adapterID]; ok {
	return adapterAgent.getAdapter()
	}
	return nil
	}

	func (aMgr AdapterManager) registerAdapter(adapter voltha.Adapter, deviceTypes voltha.DeviceTypes) (voltha.CoreInstance, error) {
	logger.Debugw("registerAdapter", log.Fields{"adapter": adapter, "deviceTypes": deviceTypes.Items})

	if aMgr.getAdapter(adapter.Id) != nil {
	// Already registered - Adapter may have restarted. Trigger the reconcile process for that adapter
	go func() {
	err := aMgr.deviceMgr.adapterRestarted(context.Background(), adapter)
	if err != nil {
	logger.Errorw("unable-to-restart-adapter", log.Fields{"error": err})
	}
	}()
	return &voltha.CoreInstance{InstanceId: aMgr.coreInstanceID}, nil
	}
	// Save the adapter and the device types
	if err := aMgr.addAdapter(adapter, true); err != nil {
	logger.Errorw("failed-to-add-adapter", log.Fields{"error": err})
	return nil, err
	}
	if err := aMgr.addDeviceTypes(deviceTypes, true); err != nil {
	logger.Errorw("failed-to-add-device-types", log.Fields{"error": err})
	return nil, err
	}

	logger.Debugw("adapter-registered", log.Fields{"adapter": adapter.Id})

	return &voltha.CoreInstance{InstanceId: aMgr.coreInstanceID}, nil
	}

	//getAdapterName returns the name of the device adapter that service this device type
	func (aMgr *AdapterManager) getAdapterName(deviceType string) (string, error) {
	aMgr.lockdDeviceTypeToAdapterMap.Lock()
	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()
	if adapterID, exist := aMgr.deviceTypeToAdapterMap[deviceType]; exist {
	return adapterID, nil
	}
	return "", fmt.Errorf("Adapter-not-registered-for-device-type %s", deviceType)
	}

	func (aMgr AdapterManager) listDeviceTypes() []voltha.DeviceType {
	aMgr.lockdDeviceTypeToAdapterMap.Lock()
	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()

	deviceTypes := make([]*voltha.DeviceType, 0, len(aMgr.deviceTypeToAdapterMap))
	for deviceTypeID, adapterID := range aMgr.deviceTypeToAdapterMap {
	if adapterAgent, have := aMgr.adapterAgents[adapterID]; have {
	if deviceType := adapterAgent.getDeviceType(deviceTypeID); deviceType != nil {
	if deviceType.Id != SentinelDevicetypeID { // don't report the sentinel
	deviceTypes = append(deviceTypes, deviceType)
	}
	}
	}
	}
	return deviceTypes
	}

	// getDeviceType returns the device type proto definition given the name of the device type
	func (aMgr AdapterManager) getDeviceType(deviceType string) voltha.DeviceType {
	aMgr.lockdDeviceTypeToAdapterMap.Lock()
	defer aMgr.lockdDeviceTypeToAdapterMap.Unlock()

	if adapterID, exist := aMgr.deviceTypeToAdapterMap[deviceType]; exist {
	if adapterAgent := aMgr.adapterAgents[adapterID]; adapterAgent != nil {
	return adapterAgent.getDeviceType(deviceType)
	}
	}
	return nil
	}