blob: 1c464578dc5d03c32bcb37d3255ce1394997c365 [file] [log] [blame]
/*
* 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"
"errors"
"fmt"
"sync"
"time"
conf "github.com/opencord/voltha-lib-go/v4/pkg/config"
"github.com/golang/protobuf/ptypes"
"github.com/opencord/voltha-lib-go/v4/pkg/adapters/adapterif"
"github.com/opencord/voltha-lib-go/v4/pkg/db/kvstore"
"github.com/opencord/voltha-lib-go/v4/pkg/events/eventif"
"github.com/opencord/voltha-lib-go/v4/pkg/kafka"
"github.com/opencord/voltha-lib-go/v4/pkg/log"
"github.com/opencord/voltha-protos/v4/go/extension"
ic "github.com/opencord/voltha-protos/v4/go/inter_container"
"github.com/opencord/voltha-protos/v4/go/openflow_13"
oop "github.com/opencord/voltha-protos/v4/go/openolt"
"github.com/opencord/voltha-protos/v4/go/voltha"
"github.com/opencord/voltha-openonu-adapter-go/internal/pkg/config"
)
//OpenONUAC structure holds the ONU core information
type OpenONUAC struct {
deviceHandlers map[string]*deviceHandler
deviceHandlersCreateChan map[string]chan bool //channels for deviceHandler create events
lockDeviceHandlersMap sync.RWMutex
coreProxy adapterif.CoreProxy
adapterProxy adapterif.AdapterProxy
eventProxy eventif.EventProxy
kafkaICProxy kafka.InterContainerProxy
kvClient kvstore.Client
cm *conf.ConfigManager
config *config.AdapterFlags
numOnus int
KVStoreAddress string
KVStoreType string
KVStoreTimeout time.Duration
mibTemplatesGenerated map[string]bool
lockMibTemplateGenerated sync.RWMutex
exitChannel chan int
HeartbeatCheckInterval time.Duration
HeartbeatFailReportInterval time.Duration
AcceptIncrementalEvto bool
//GrpcTimeoutInterval time.Duration
pSupportedFsms *OmciDeviceFsms
maxTimeoutInterAdapterComm time.Duration
maxTimeoutReconciling time.Duration
pDownloadManager *adapterDownloadManager
pFileManager *fileDownloadManager //let coexist 'old and new' DownloadManager as long as 'old' does not get obsolete
metricsEnabled bool
mibAuditInterval time.Duration
omciTimeout int // in seconds
alarmAuditInterval time.Duration
dlToOnuTimeout4M time.Duration
}
//NewOpenONUAC returns a new instance of OpenONU_AC
func NewOpenONUAC(ctx context.Context, kafkaICProxy kafka.InterContainerProxy,
coreProxy adapterif.CoreProxy, adapterProxy adapterif.AdapterProxy,
eventProxy eventif.EventProxy, kvClient kvstore.Client, cfg *config.AdapterFlags, cm *conf.ConfigManager) *OpenONUAC {
var openOnuAc OpenONUAC
openOnuAc.exitChannel = make(chan int, 1)
openOnuAc.deviceHandlers = make(map[string]*deviceHandler)
openOnuAc.deviceHandlersCreateChan = make(map[string]chan bool)
openOnuAc.lockDeviceHandlersMap = sync.RWMutex{}
openOnuAc.kafkaICProxy = kafkaICProxy
openOnuAc.config = cfg
openOnuAc.cm = cm
openOnuAc.numOnus = cfg.OnuNumber
openOnuAc.coreProxy = coreProxy
openOnuAc.adapterProxy = adapterProxy
openOnuAc.eventProxy = eventProxy
openOnuAc.kvClient = kvClient
openOnuAc.KVStoreAddress = cfg.KVStoreAddress
openOnuAc.KVStoreType = cfg.KVStoreType
openOnuAc.KVStoreTimeout = cfg.KVStoreTimeout
openOnuAc.mibTemplatesGenerated = make(map[string]bool)
openOnuAc.lockMibTemplateGenerated = sync.RWMutex{}
openOnuAc.HeartbeatCheckInterval = cfg.HeartbeatCheckInterval
openOnuAc.HeartbeatFailReportInterval = cfg.HeartbeatFailReportInterval
openOnuAc.AcceptIncrementalEvto = cfg.AccIncrEvto
openOnuAc.maxTimeoutInterAdapterComm = cfg.MaxTimeoutInterAdapterComm
openOnuAc.maxTimeoutReconciling = cfg.MaxTimeoutReconciling
//openOnuAc.GrpcTimeoutInterval = cfg.GrpcTimeoutInterval
openOnuAc.metricsEnabled = cfg.MetricsEnabled
openOnuAc.mibAuditInterval = cfg.MibAuditInterval
// since consumers of OMCI timeout value everywhere in code is in "int seconds", do this useful conversion
openOnuAc.omciTimeout = int(cfg.OmciTimeout.Seconds())
openOnuAc.alarmAuditInterval = cfg.AlarmAuditInterval
openOnuAc.dlToOnuTimeout4M = cfg.DownloadToOnuTimeout4MB
openOnuAc.pSupportedFsms = &OmciDeviceFsms{
"mib-synchronizer": {
//mibSyncFsm, // Implements the MIB synchronization state machine
mibDbVolatileDictImpl, // Implements volatile ME MIB database
//true, // Advertise events on OpenOMCI event bus
openOnuAc.mibAuditInterval, // Time to wait between MIB audits. 0 to disable audits.
// map[string]func() error{
// "mib-upload": onuDeviceEntry.MibUploadTask,
// "mib-template": onuDeviceEntry.MibTemplateTask,
// "get-mds": onuDeviceEntry.GetMdsTask,
// "mib-audit": onuDeviceEntry.GetMdsTask,
// "mib-resync": onuDeviceEntry.MibResyncTask,
// "mib-reconcile": onuDeviceEntry.MibReconcileTask,
// },
},
}
openOnuAc.pDownloadManager = newAdapterDownloadManager(ctx)
openOnuAc.pFileManager = newFileDownloadManager(ctx)
openOnuAc.pFileManager.SetDownloadTimeout(ctx, cfg.DownloadToAdapterTimeout)
return &openOnuAc
}
//Start starts (logs) the adapter
func (oo *OpenONUAC) Start(ctx context.Context) error {
logger.Info(ctx, "starting-openonu-adapter")
return nil
}
/*
//stop terminates the session
func (oo *OpenONUAC) stop(ctx context.Context) error {
logger.Info(ctx,"stopping-device-manager")
oo.exitChannel <- 1
logger.Info(ctx,"device-manager-stopped")
return nil
}
*/
func (oo *OpenONUAC) addDeviceHandlerToMap(ctx context.Context, agent *deviceHandler) {
oo.lockDeviceHandlersMap.Lock()
defer oo.lockDeviceHandlersMap.Unlock()
if _, exist := oo.deviceHandlers[agent.deviceID]; !exist {
oo.deviceHandlers[agent.deviceID] = agent
oo.deviceHandlers[agent.deviceID].start(ctx)
if _, exist := oo.deviceHandlersCreateChan[agent.deviceID]; exist {
logger.Debugw(ctx, "deviceHandler created - trigger processing of pending ONU_IND_REQUEST", log.Fields{"device-id": agent.deviceID})
oo.deviceHandlersCreateChan[agent.deviceID] <- true
}
}
}
func (oo *OpenONUAC) deleteDeviceHandlerToMap(agent *deviceHandler) {
oo.lockDeviceHandlersMap.Lock()
defer oo.lockDeviceHandlersMap.Unlock()
delete(oo.deviceHandlers, agent.deviceID)
delete(oo.deviceHandlersCreateChan, agent.deviceID)
}
//getDeviceHandler gets the ONU deviceHandler and may wait until it is created
func (oo *OpenONUAC) getDeviceHandler(ctx context.Context, deviceID string, aWait bool) *deviceHandler {
oo.lockDeviceHandlersMap.Lock()
agent, ok := oo.deviceHandlers[deviceID]
if aWait && !ok {
logger.Infow(ctx, "Race condition: deviceHandler not present - wait for creation or timeout",
log.Fields{"device-id": deviceID})
if _, exist := oo.deviceHandlersCreateChan[deviceID]; !exist {
oo.deviceHandlersCreateChan[deviceID] = make(chan bool, 1)
}
deviceCreateChan := oo.deviceHandlersCreateChan[deviceID]
//keep the read sema short to allow for subsequent write
oo.lockDeviceHandlersMap.Unlock()
// based on concurrent processing the deviceHandler creation may not yet be finished at his point
// so it might be needed to wait here for that event with some timeout
select {
case <-time.After(1 * time.Second): //timer may be discussed ...
logger.Warnw(ctx, "No valid deviceHandler created after max WaitTime", log.Fields{"device-id": deviceID})
return nil
case <-deviceCreateChan:
logger.Debugw(ctx, "deviceHandler is ready now - continue", log.Fields{"device-id": deviceID})
oo.lockDeviceHandlersMap.RLock()
defer oo.lockDeviceHandlersMap.RUnlock()
return oo.deviceHandlers[deviceID]
}
}
oo.lockDeviceHandlersMap.Unlock()
return agent
}
func (oo *OpenONUAC) processInterAdapterONUIndReqMessage(ctx context.Context, msg *ic.InterAdapterMessage) error {
msgBody := msg.GetBody()
onuIndication := &oop.OnuIndication{}
if err := ptypes.UnmarshalAny(msgBody, onuIndication); err != nil {
logger.Warnw(ctx, "onu-ind-request-cannot-unmarshal-msg-body", log.Fields{"error": err})
return err
}
//ToDeviceId should address a DeviceHandler instance
targetDevice := msg.Header.ToDeviceId
onuOperstate := onuIndication.GetOperState()
waitForDhInstPresent := false
if onuOperstate == "up" {
//Race condition (relevant in BBSIM-environment only): Due to unsynchronized processing of olt-adapter and rw_core,
//ONU_IND_REQUEST msg by olt-adapter could arrive a little bit earlier than rw_core was able to announce the corresponding
//ONU by RPC of Adopt_device(). Therefore it could be necessary to wait with processing of ONU_IND_REQUEST until call of
//Adopt_device() arrived and DeviceHandler instance was created
waitForDhInstPresent = true
}
if handler := oo.getDeviceHandler(ctx, targetDevice, waitForDhInstPresent); handler != nil {
logger.Infow(ctx, "onu-ind-request", log.Fields{"device-id": targetDevice,
"OnuId": onuIndication.GetOnuId(),
"AdminState": onuIndication.GetAdminState(), "OperState": onuOperstate,
"SNR": onuIndication.GetSerialNumber()})
if onuOperstate == "up" {
return handler.createInterface(ctx, onuIndication)
} else if (onuOperstate == "down") || (onuOperstate == "unreachable") {
return handler.updateInterface(ctx, onuIndication)
} else {
logger.Errorw(ctx, "unknown-onu-ind-request operState", log.Fields{"OnuId": onuIndication.GetOnuId()})
return fmt.Errorf("invalidOperState: %s, %s", onuOperstate, targetDevice)
}
}
logger.Warnw(ctx, "no handler found for received onu-ind-request", log.Fields{
"msgToDeviceId": targetDevice})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", targetDevice))
}
// Adapter interface required methods ############## begin #########
// #################################################################
// for original content compare: (needs according deviceHandler methods)
// /voltha-openolt-adapter/adaptercore/openolt.go
// Adopt_device creates a new device handler if not present already and then adopts the device
func (oo *OpenONUAC) Adopt_device(ctx context.Context, device *voltha.Device) error {
if device == nil {
logger.Warn(ctx, "voltha-device-is-nil")
return errors.New("nil-device")
}
logger.Infow(ctx, "adopt-device", log.Fields{"device-id": device.Id})
var handler *deviceHandler
if handler = oo.getDeviceHandler(ctx, device.Id, false); handler == nil {
handler := newDeviceHandler(ctx, oo.coreProxy, oo.adapterProxy, oo.eventProxy, device, oo)
oo.addDeviceHandlerToMap(ctx, handler)
go handler.adoptOrReconcileDevice(ctx, device)
// Launch the creation of the device topic
// go oo.createDeviceTopic(device)
}
return nil
}
//Get_ofp_device_info returns OFP information for the given device
func (oo *OpenONUAC) Get_ofp_device_info(ctx context.Context, device *voltha.Device) (*ic.SwitchCapability, error) {
logger.Errorw(ctx, "device-handler-not-set", log.Fields{"device-id": device.Id})
return nil, fmt.Errorf("device-handler-not-set %s", device.Id)
}
//Get_ofp_port_info returns OFP port information for the given device
//200630: method removed as per [VOL-3202]: OF port info is now to be delivered within UniPort create
// cmp changes in onu_uni_port.go::CreateVolthaPort()
//Process_inter_adapter_message sends messages to a target device (between adapters)
func (oo *OpenONUAC) Process_inter_adapter_message(ctx context.Context, msg *ic.InterAdapterMessage) error {
logger.Debugw(ctx, "Process_inter_adapter_message", log.Fields{"msgId": msg.Header.Id,
"msgProxyDeviceId": msg.Header.ProxyDeviceId, "msgToDeviceId": msg.Header.ToDeviceId, "Type": msg.Header.Type})
if msg.Header.Type == ic.InterAdapterMessageType_ONU_IND_REQUEST {
// we have to handle ONU_IND_REQUEST already here - see comments in processInterAdapterONUIndReqMessage()
return oo.processInterAdapterONUIndReqMessage(ctx, msg)
}
//ToDeviceId should address a DeviceHandler instance
targetDevice := msg.Header.ToDeviceId
if handler := oo.getDeviceHandler(ctx, targetDevice, false); handler != nil {
/* 200724: modification towards synchronous implementation - possible errors within processing shall be
* in the accordingly delayed response, some timing effect might result in Techprofile processing for multiple UNI's
*/
return handler.processInterAdapterMessage(ctx, msg)
/* so far the processing has been in background with according commented error treatment restrictions:
go handler.ProcessInterAdapterMessage(msg)
// error treatment might be more sophisticated
// by now let's just accept the message on 'communication layer'
// message content problems have to be evaluated then in the handler
// and are by now not reported to the calling party (to force what reaction there?)
return nil
*/
}
logger.Warnw(ctx, "no handler found for received Inter-Proxy-message", log.Fields{
"msgToDeviceId": targetDevice})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", targetDevice))
}
//Adapter_descriptor not implemented
func (oo *OpenONUAC) Adapter_descriptor(ctx context.Context) error {
return errors.New("unImplemented")
}
//Device_types unimplemented
func (oo *OpenONUAC) Device_types(ctx context.Context) (*voltha.DeviceTypes, error) {
return nil, errors.New("unImplemented")
}
//Health returns unimplemented
func (oo *OpenONUAC) Health(ctx context.Context) (*voltha.HealthStatus, error) {
return nil, errors.New("unImplemented")
}
//Reconcile_device is called once when the adapter needs to re-create device - usually on core restart
func (oo *OpenONUAC) Reconcile_device(ctx context.Context, device *voltha.Device) error {
if device == nil {
logger.Warn(ctx, "reconcile-device-voltha-device-is-nil")
return errors.New("nil-device")
}
logger.Infow(ctx, "reconcile-device", log.Fields{"device-id": device.Id})
var handler *deviceHandler
if handler = oo.getDeviceHandler(ctx, device.Id, false); handler == nil {
handler := newDeviceHandler(ctx, oo.coreProxy, oo.adapterProxy, oo.eventProxy, device, oo)
oo.addDeviceHandlerToMap(ctx, handler)
handler.device = device
if err := handler.coreProxy.DeviceStateUpdate(ctx, device.Id, device.ConnectStatus, voltha.OperStatus_RECONCILING); err != nil {
return fmt.Errorf("not able to update device state to reconciling. Err : %s", err.Error())
}
handler.startReconciling(ctx, false)
go handler.adoptOrReconcileDevice(ctx, handler.device)
// reconcilement will be continued after onu-device entry is added
} else {
return fmt.Errorf(fmt.Sprintf("device-already-reconciled-or-active-%s", device.Id))
}
return nil
}
//Abandon_device unimplemented
func (oo *OpenONUAC) Abandon_device(ctx context.Context, device *voltha.Device) error {
return errors.New("unImplemented")
}
//Disable_device disables the given device
func (oo *OpenONUAC) Disable_device(ctx context.Context, device *voltha.Device) error {
logger.Infow(ctx, "disable-device", log.Fields{"device-id": device.Id})
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
go handler.disableDevice(ctx, device)
return nil
}
logger.Warnw(ctx, "no handler found for device-disable", log.Fields{"device-id": device.Id})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", device.Id))
}
//Reenable_device enables the onu device after disable
func (oo *OpenONUAC) Reenable_device(ctx context.Context, device *voltha.Device) error {
logger.Infow(ctx, "reenable-device", log.Fields{"device-id": device.Id})
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
go handler.reEnableDevice(ctx, device)
return nil
}
logger.Warnw(ctx, "no handler found for device-reenable", log.Fields{"device-id": device.Id})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", device.Id))
}
//Reboot_device reboots the given device
func (oo *OpenONUAC) Reboot_device(ctx context.Context, device *voltha.Device) error {
logger.Infow(ctx, "reboot-device", log.Fields{"device-id": device.Id})
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
go handler.rebootDevice(ctx, true, device) //reboot request with device checking
return nil
}
logger.Warnw(ctx, "no handler found for device-reboot", log.Fields{"device-id": device.Id})
return fmt.Errorf(fmt.Sprintf("handler-not-found-#{device.Id}"))
}
//Self_test_device unimplemented
func (oo *OpenONUAC) Self_test_device(ctx context.Context, device *voltha.Device) error {
return errors.New("unImplemented")
}
// Delete_device deletes the given device
func (oo *OpenONUAC) Delete_device(ctx context.Context, device *voltha.Device) error {
logger.Infow(ctx, "delete-device", log.Fields{"device-id": device.Id, "SerialNumber": device.SerialNumber})
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
var errorsList []error
handler.mutexDeletionInProgressFlag.Lock()
handler.deletionInProgress = true
handler.mutexDeletionInProgressFlag.Unlock()
if err := handler.deleteDevicePersistencyData(ctx); err != nil {
errorsList = append(errorsList, err)
}
select {
case handler.stopCollector <- true: // stop the metric collector routine
logger.Debugw(ctx, "sent stop signal to metric collector routine", log.Fields{"device-id": device.Id})
default:
logger.Warnw(ctx, "metric collector routine not waiting on stop signal", log.Fields{"device-id": device.Id})
}
select {
case handler.stopAlarmManager <- true: //stop the alarm manager.
logger.Debugw(ctx, "sent stop signal to alarm manager", log.Fields{"device-id": device.Id})
default:
logger.Warnw(ctx, "alarm manager not waiting on stop signal", log.Fields{"device-id": device.Id})
}
if handler.pOnuMetricsMgr != nil {
if err := handler.pOnuMetricsMgr.clearAllPmData(ctx); err != nil {
errorsList = append(errorsList, err)
}
}
select {
case handler.pSelfTestHdlr.stopSelfTestModule <- true:
logger.Debugw(ctx, "sent stop signal to self test handler module", log.Fields{"device-id": device.Id})
default:
logger.Warnw(ctx, "self test handler module not waiting on stop signal", log.Fields{"device-id": device.Id})
}
//don't leave any garbage - even in error case
oo.deleteDeviceHandlerToMap(handler)
if len(errorsList) > 0 {
logger.Errorw(ctx, "one-or-more-error-during-device-delete", log.Fields{"device-id": device.Id})
return fmt.Errorf("one-or-more-error-during-device-delete, errors:%v", errorsList)
}
return nil
}
logger.Warnw(ctx, "no handler found for device-deletion", log.Fields{"device-id": device.Id})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", device.Id))
}
//Get_device_details unimplemented
func (oo *OpenONUAC) Get_device_details(ctx context.Context, device *voltha.Device) error {
return errors.New("unImplemented")
}
//Update_flows_bulk returns
func (oo *OpenONUAC) Update_flows_bulk(ctx context.Context, device *voltha.Device, flows *voltha.Flows, groups *voltha.FlowGroups, flowMetadata *voltha.FlowMetadata) error {
return errors.New("unImplemented")
}
//Update_flows_incrementally updates (add/remove) the flows on a given device
func (oo *OpenONUAC) Update_flows_incrementally(ctx context.Context, device *voltha.Device,
flows *openflow_13.FlowChanges, groups *openflow_13.FlowGroupChanges, flowMetadata *voltha.FlowMetadata) error {
logger.Infow(ctx, "update-flows-incrementally", log.Fields{"device-id": device.Id})
//flow config is relayed to handler even if the device might be in some 'inactive' state
// let the handler or related FSM's decide, what to do with the modified flow state info
// at least the flow-remove must be done in respect to internal data, while OMCI activity might not be needed here
// For now, there is no support for group changes (as in the actual Py-adapter code)
// but processing is continued for flowUpdate possibly also set in the request
if groups.ToAdd != nil && groups.ToAdd.Items != nil {
logger.Warnw(ctx, "Update-flow-incr: group add not supported (ignored)", log.Fields{"device-id": device.Id})
}
if groups.ToRemove != nil && groups.ToRemove.Items != nil {
logger.Warnw(ctx, "Update-flow-incr: group remove not supported (ignored)", log.Fields{"device-id": device.Id})
}
if groups.ToUpdate != nil && groups.ToUpdate.Items != nil {
logger.Warnw(ctx, "Update-flow-incr: group update not supported (ignored)", log.Fields{"device-id": device.Id})
}
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
err := handler.FlowUpdateIncremental(ctx, flows, groups, flowMetadata)
return err
}
logger.Warnw(ctx, "no handler found for incremental flow update", log.Fields{"device-id": device.Id})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", device.Id))
}
//Update_pm_config returns PmConfigs nil or error
func (oo *OpenONUAC) Update_pm_config(ctx context.Context, device *voltha.Device, pmConfigs *voltha.PmConfigs) error {
logger.Infow(ctx, "update-pm-config", log.Fields{"device-id": device.Id})
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
return handler.updatePmConfig(ctx, pmConfigs)
}
logger.Warnw(ctx, "no handler found for update-pm-config", log.Fields{"device-id": device.Id})
return fmt.Errorf(fmt.Sprintf("handler-not-found-%s", device.Id))
}
//Receive_packet_out sends packet out to the device
func (oo *OpenONUAC) Receive_packet_out(ctx context.Context, deviceID string, egressPortNo int, packet *openflow_13.OfpPacketOut) error {
return errors.New("unImplemented")
}
//Suppress_event unimplemented
func (oo *OpenONUAC) Suppress_event(ctx context.Context, filter *voltha.EventFilter) error {
return errors.New("unImplemented")
}
//Unsuppress_event unimplemented
func (oo *OpenONUAC) Unsuppress_event(ctx context.Context, filter *voltha.EventFilter) error {
return errors.New("unImplemented")
}
//Download_image requests downloading some image according to indications as given in request
//The ImageDownload needs to be called `request`due to library reflection requirements
func (oo *OpenONUAC) Download_image(ctx context.Context, device *voltha.Device, request *voltha.ImageDownload) (*voltha.ImageDownload, error) {
if request != nil && (*request).Name != "" {
if !oo.pDownloadManager.imageExists(ctx, request) {
logger.Debugw(ctx, "start image download", log.Fields{"image-description": request})
// Download_image is not supposed to be blocking, anyway let's call the DownloadManager still synchronously to detect 'fast' problems
// the download itself is later done in background
err := oo.pDownloadManager.startDownload(ctx, request)
return request, err
}
// image already exists
logger.Debugw(ctx, "image already downloaded", log.Fields{"image-description": request})
return request, nil
}
return request, errors.New("invalid image definition")
}
//Get_image_download_status unimplemented
//The ImageDownload needs to be called `request`due to library reflection requirements
func (oo *OpenONUAC) Get_image_download_status(ctx context.Context, device *voltha.Device, request *voltha.ImageDownload) (*voltha.ImageDownload, error) {
return nil, errors.New("unImplemented")
}
//Cancel_image_download unimplemented
//The ImageDownload needs to be called `request`due to library reflection requirements
func (oo *OpenONUAC) Cancel_image_download(ctx context.Context, device *voltha.Device, request *voltha.ImageDownload) (*voltha.ImageDownload, error) {
return nil, errors.New("unImplemented")
}
//Activate_image_update requests downloading some Onu Software image to the INU via OMCI
// according to indications as given in request and on success activate the image on the ONU
//The ImageDownload needs to be called `request`due to library reflection requirements
func (oo *OpenONUAC) Activate_image_update(ctx context.Context, device *voltha.Device, request *voltha.ImageDownload) (*voltha.ImageDownload, error) {
if request != nil && (*request).Name != "" {
if oo.pDownloadManager.imageLocallyDownloaded(ctx, request) {
if handler := oo.getDeviceHandler(ctx, device.Id, false); handler != nil {
logger.Debugw(ctx, "image download on omci requested", log.Fields{
"image-description": request, "device-id": device.Id})
err := handler.doOnuSwUpgrade(ctx, request, oo.pDownloadManager)
return request, err
}
logger.Warnw(ctx, "no handler found for image activation", log.Fields{"device-id": device.Id})
return request, fmt.Errorf(fmt.Sprintf("handler-not-found - device-id: %s", device.Id))
}
logger.Debugw(ctx, "image not yet downloaded on activate request", log.Fields{"image-description": request})
return request, fmt.Errorf(fmt.Sprintf("image-not-yet-downloaded - device-id: %s", device.Id))
}
return request, errors.New("invalid image definition")
}
//Revert_image_update unimplemented
func (oo *OpenONUAC) Revert_image_update(ctx context.Context, device *voltha.Device, request *voltha.ImageDownload) (*voltha.ImageDownload, error) {
return nil, errors.New("unImplemented")
}
// Enable_port to Enable PON/NNI interface - seems not to be used/required according to python code
func (oo *OpenONUAC) Enable_port(ctx context.Context, deviceID string, port *voltha.Port) error {
return errors.New("unImplemented")
}
// Disable_port to Disable pon/nni interface - seems not to be used/required according to python code
func (oo *OpenONUAC) Disable_port(ctx context.Context, deviceID string, port *voltha.Port) error {
return errors.New("unImplemented")
}
//Child_device_lost - unimplemented
//needed for if update >= 3.1.x
func (oo *OpenONUAC) Child_device_lost(ctx context.Context, device *voltha.Device) error {
return errors.New("unImplemented")
}
// Start_omci_test unimplemented
func (oo *OpenONUAC) Start_omci_test(ctx context.Context, device *voltha.Device, request *voltha.OmciTestRequest) (*voltha.TestResponse, error) {
return nil, errors.New("unImplemented")
}
// Get_ext_value - unimplemented
func (oo *OpenONUAC) Get_ext_value(ctx context.Context, deviceID string, device *voltha.Device, valueparam voltha.ValueType_Type) (*voltha.ReturnValues, error) {
return nil, errors.New("unImplemented")
}
//Single_get_value_request handles the core request to retrieve uni status
func (oo *OpenONUAC) Single_get_value_request(ctx context.Context, request extension.SingleGetValueRequest) (*extension.SingleGetValueResponse, error) {
logger.Infow(ctx, "Single_get_value_request", log.Fields{"request": request})
if handler := oo.getDeviceHandler(ctx, request.TargetId, false); handler != nil {
switch reqType := request.GetRequest().GetRequest().(type) {
case *extension.GetValueRequest_UniInfo:
return handler.getUniPortStatus(ctx, reqType.UniInfo), nil
case *extension.GetValueRequest_OnuOpticalInfo:
commChan := make(chan Message)
respChan := make(chan extension.SingleGetValueResponse)
// Initiate the self test request
if err := handler.pSelfTestHdlr.SelfTestRequestStart(ctx, request, commChan, respChan); err != nil {
return &extension.SingleGetValueResponse{
Response: &extension.GetValueResponse{
Status: extension.GetValueResponse_ERROR,
ErrReason: extension.GetValueResponse_INTERNAL_ERROR,
},
}, err
}
// The timeout handling is already implemented in omci_self_test_handler module
resp := <-respChan
return &resp, nil
default:
return postUniStatusErrResponse(extension.GetValueResponse_UNSUPPORTED), nil
}
}
logger.Errorw(ctx, "Single_get_value_request failed ", log.Fields{"request": request})
return postUniStatusErrResponse(extension.GetValueResponse_INVALID_DEVICE_ID), nil
}
//if update >= 4.3.0
// Note: already with the implementation of the 'old' download interface problems were detected when the argument name used here is not the same
// as defined in the adapter interface file. That sounds strange and the effects were strange as well.
// The reason for that was never finally investigated.
// To be on the safe side argument names are left here always as defined in iAdapter.go .
// Download_onu_image downloads (and optionally activates and commits) the indicated ONU image to the requested ONU(s)
// if the image is not yet present on the adapter it has to be automatically downloaded
func (oo *OpenONUAC) Download_onu_image(ctx context.Context, request *voltha.DeviceImageDownloadRequest) (*voltha.DeviceImageResponse, error) {
if request != nil && len((*request).DeviceId) > 0 && (*request).Image.Version != "" {
loResponse := voltha.DeviceImageResponse{}
imageIdentifier := (*request).Image.Version
//inform the deviceHandler about (possibly new) requested ONU download requests
firstDevice := true
var vendorID string
for _, pCommonID := range (*request).DeviceId {
loDeviceID := (*pCommonID).Id
onuVolthaDevice, err := oo.coreProxy.GetDevice(log.WithSpanFromContext(context.TODO(), ctx),
loDeviceID, loDeviceID)
if err != nil || onuVolthaDevice == nil {
logger.Warnw(ctx, "Failed to fetch Onu device for image download",
log.Fields{"device-id": loDeviceID, "err": err})
continue //try the work with next deviceId
}
if firstDevice {
//start/verify download of the image to the adapter based on first found device only
// use the OnuVendor identification from first given device
firstDevice = false
vendorID = onuVolthaDevice.VendorId
imageIdentifier = vendorID + imageIdentifier //head on vendor ID of the ONU
logger.Debugw(ctx, "download request for file", log.Fields{"image-id": imageIdentifier})
if !oo.pFileManager.ImageExists(ctx, imageIdentifier) {
logger.Debugw(ctx, "start image download", log.Fields{"image-description": request})
// Download_image is not supposed to be blocking, anyway let's call the DownloadManager still synchronously to detect 'fast' problems
// the download itself is later done in background
if err := oo.pFileManager.StartDownload(ctx, imageIdentifier, (*request).Image.Url); err != nil {
return nil, err
}
}
// image already exists
logger.Debugw(ctx, "image already downloaded", log.Fields{"image-description": imageIdentifier})
} else {
//for all following devices verify the matching vendorID
if onuVolthaDevice.VendorId != vendorID {
logger.Warnw(ctx, "onu vendor id does not match image vendor id, device ignored",
log.Fields{"onu-vendor-id": onuVolthaDevice.VendorId, "image-vendor-id": vendorID})
continue //try the work with next deviceId
}
}
loDeviceImageState := voltha.DeviceImageState{}
loDeviceImageState.DeviceId = loDeviceID
loImageState := voltha.ImageState{}
loDeviceImageState.ImageState = &loImageState
loDeviceImageState.ImageState.Version = (*request).Image.Version
// start the ONU download activity for each possible device
// assumption here is, that the concerned device was already created (automatic start after device creation not supported)
if handler := oo.getDeviceHandler(ctx, loDeviceID, false); handler != nil {
logger.Debugw(ctx, "image download on omci requested", log.Fields{
"image-id": imageIdentifier, "device-id": loDeviceID})
//onu upgrade handling called in background without immediate error evaluation here
// as the processing can be done for multiple ONU's and an error on one ONU should not stop processing for others
// state/progress/success of the request has to be verified using the Get_onu_image_status() API
go handler.onuSwUpgradeAfterDownload(ctx, request, oo.pFileManager, imageIdentifier)
loDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_STARTED
loDeviceImageState.ImageState.Reason = voltha.ImageState_NO_ERROR
loDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_UNKNOWN
} else {
//cannot start ONU download for requested device
logger.Warnw(ctx, "no handler found for image activation", log.Fields{"device-id": loDeviceID})
loDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_FAILED
loDeviceImageState.ImageState.Reason = voltha.ImageState_UNKNOWN_ERROR
loDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_UNKNOWN
}
loResponse.DeviceImageStates = append(loResponse.DeviceImageStates, &loDeviceImageState)
}
pImageResp := &loResponse
return pImageResp, nil
}
return nil, errors.New("invalid image download parameters")
}
// Get_onu_image_status delivers the adapter-related information about the download/activation/commitment
// status for the requested image
func (oo *OpenONUAC) Get_onu_image_status(ctx context.Context, in *voltha.DeviceImageRequest) (*voltha.DeviceImageResponse, error) {
if in != nil && len((*in).DeviceId) > 0 && (*in).Version != "" {
loResponse := voltha.DeviceImageResponse{}
pDlToAdapterImageState := &voltha.ImageState{}
imageIdentifier := (*in).Version
firstDevice := true
var vendorID string
for _, pCommonID := range (*in).DeviceId {
loDeviceID := (*pCommonID).Id
onuVolthaDevice, err := oo.coreProxy.GetDevice(log.WithSpanFromContext(context.TODO(), ctx),
loDeviceID, loDeviceID)
if err != nil || onuVolthaDevice == nil {
logger.Warnw(ctx, "Failed to fetch Onu device to get image status",
log.Fields{"device-id": loDeviceID, "err": err})
continue //try the work with next deviceId
}
if firstDevice {
//start/verify download of the image to the adapter based on first found device only
// use the OnuVendor identification from first given device
firstDevice = false
vendorID = onuVolthaDevice.VendorId
imageIdentifier = vendorID + imageIdentifier //head on vendor ID of the ONU
logger.Debugw(ctx, "status request for image", log.Fields{"image-id": imageIdentifier})
oo.pFileManager.RequestDownloadState(ctx, imageIdentifier, pDlToAdapterImageState)
} else {
//for all following devices verify the matching vendorID
if onuVolthaDevice.VendorId != vendorID {
logger.Warnw(ctx, "onu vendor id does not match image vendor id, device ignored",
log.Fields{"onu-vendor-id": onuVolthaDevice.VendorId, "image-vendor-id": vendorID})
continue //try the work with next deviceId
}
}
pDeviceImageState := &voltha.DeviceImageState{
ImageState: &voltha.ImageState{
DownloadState: (*pDlToAdapterImageState).DownloadState,
Reason: (*pDlToAdapterImageState).Reason,
},
}
// get the handler for the device
if handler := oo.getDeviceHandler(ctx, loDeviceID, false); handler != nil {
logger.Debugw(ctx, "image status request for", log.Fields{
"image-id": imageIdentifier, "device-id": loDeviceID})
//status request is called synchronously to collect the indications for all concerned devices
handler.requestOnuSwUpgradeState(ctx, imageIdentifier, (*in).Version, pDeviceImageState)
} else {
//cannot get the handler
logger.Warnw(ctx, "no handler found for image status request ", log.Fields{"device-id": loDeviceID})
pDeviceImageState.DeviceId = loDeviceID
pDeviceImageState.ImageState.Version = (*in).Version
pDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_FAILED
pDeviceImageState.ImageState.Reason = voltha.ImageState_UNKNOWN_ERROR
pDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_UNKNOWN
}
loResponse.DeviceImageStates = append(loResponse.DeviceImageStates, pDeviceImageState)
}
pImageResp := &loResponse
return pImageResp, nil
}
return nil, errors.New("invalid image status request parameters")
}
// Abort_onu_image_upgrade stops the actual download/activation/commitment process (on next possibly step)
func (oo *OpenONUAC) Abort_onu_image_upgrade(ctx context.Context, in *voltha.DeviceImageRequest) (*voltha.DeviceImageResponse, error) {
if in != nil && len((*in).DeviceId) > 0 && (*in).Version != "" {
loResponse := voltha.DeviceImageResponse{}
imageIdentifier := (*in).Version
firstDevice := true
var vendorID string
for _, pCommonID := range (*in).DeviceId {
loDeviceID := (*pCommonID).Id
onuVolthaDevice, err := oo.coreProxy.GetDevice(log.WithSpanFromContext(context.TODO(), ctx),
loDeviceID, loDeviceID)
if err != nil || onuVolthaDevice == nil {
logger.Warnw(ctx, "Failed to fetch Onu device to abort its download",
log.Fields{"device-id": loDeviceID, "err": err})
continue //try the work with next deviceId
}
pDeviceImageState := &voltha.DeviceImageState{}
loImageState := voltha.ImageState{}
pDeviceImageState.ImageState = &loImageState
if firstDevice {
//start/verify download of the image to the adapter based on first found device only
// use the OnuVendor identification from first given device
firstDevice = false
vendorID = onuVolthaDevice.VendorId
imageIdentifier = vendorID + imageIdentifier //head on vendor ID of the ONU
logger.Debugw(ctx, "abort request for file", log.Fields{"image-id": imageIdentifier})
} else {
//for all following devices verify the matching vendorID
if onuVolthaDevice.VendorId != vendorID {
logger.Warnw(ctx, "onu vendor id does not match image vendor id, device ignored",
log.Fields{"onu-vendor-id": onuVolthaDevice.VendorId, "image-vendor-id": vendorID})
continue //try the work with next deviceId
}
}
// cancel the ONU upgrade activity for each possible device
if handler := oo.getDeviceHandler(ctx, loDeviceID, false); handler != nil {
logger.Debugw(ctx, "image upgrade abort requested", log.Fields{
"image-id": imageIdentifier, "device-id": loDeviceID})
//upgrade cancel is called synchronously to collect the imageResponse indications for all concerned devices
handler.cancelOnuSwUpgrade(ctx, imageIdentifier, (*in).Version, pDeviceImageState)
} else {
//cannot start ONU download for requested device
logger.Warnw(ctx, "no handler found for aborting upgrade ", log.Fields{"device-id": loDeviceID})
pDeviceImageState.DeviceId = loDeviceID
pDeviceImageState.ImageState.Version = (*in).Version
//nolint:misspell
pDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_CANCELLED
//nolint:misspell
pDeviceImageState.ImageState.Reason = voltha.ImageState_CANCELLED_ON_REQUEST
pDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_UNKNOWN
}
loResponse.DeviceImageStates = append(loResponse.DeviceImageStates, pDeviceImageState)
}
if !firstDevice {
//if at least one valid device was found cancel also a possibly running download to adapter and remove the image
// this is to be done after the upgradeOnu cancel activities in order to not subduct the file for still running processes
oo.pFileManager.CancelDownload(ctx, imageIdentifier)
}
pImageResp := &loResponse
return pImageResp, nil
}
return nil, errors.New("invalid image upgrade abort parameters")
}
// Get_onu_images retrieves the ONU SW image status information via OMCI
func (oo *OpenONUAC) Get_onu_images(ctx context.Context, deviceID string) (*voltha.OnuImages, error) {
logger.Infow(ctx, "Get_onu_images", log.Fields{"device-id": deviceID})
if handler := oo.getDeviceHandler(ctx, deviceID, false); handler != nil {
var err error
if images, err := handler.getOnuImages(ctx); err == nil {
return images, nil
}
return nil, fmt.Errorf(fmt.Sprintf("%s-%s", err, deviceID))
}
logger.Warnw(ctx, "no handler found for Get_onu_images", log.Fields{"device-id": deviceID})
return nil, fmt.Errorf(fmt.Sprintf("handler-not-found-%s", deviceID))
}
// Activate_onu_image initiates the activation of the image for the requested ONU(s)
// precondition: image downloaded and not yet activated or image refers to current inactive image
func (oo *OpenONUAC) Activate_onu_image(ctx context.Context, in *voltha.DeviceImageRequest) (*voltha.DeviceImageResponse, error) {
if in != nil && len((*in).DeviceId) > 0 && (*in).Version != "" {
loResponse := voltha.DeviceImageResponse{}
imageIdentifier := (*in).Version
//let the deviceHandler find the adequate way of requesting the image activation
for _, pCommonID := range (*in).DeviceId {
loDeviceID := (*pCommonID).Id
loDeviceImageState := voltha.DeviceImageState{}
loDeviceImageState.DeviceId = loDeviceID
loImageState := voltha.ImageState{}
loDeviceImageState.ImageState = &loImageState
loDeviceImageState.ImageState.Version = imageIdentifier
//compared to download procedure the vendorID (from device) is secondary here
// and only needed in case the upgrade process is based on some ongoing download process (and can be retrieved in deviceHandler if needed)
// start image activation activity for each possible device
// assumption here is, that the concerned device was already created (automatic start after device creation not supported)
if handler := oo.getDeviceHandler(ctx, loDeviceID, false); handler != nil {
logger.Debugw(ctx, "onu image activation requested", log.Fields{
"image-id": imageIdentifier, "device-id": loDeviceID})
//onu activation handling called in background without immediate error evaluation here
// as the processing can be done for multiple ONU's and an error on one ONU should not stop processing for others
// state/progress/success of the request has to be verified using the Get_onu_image_status() API
if pImageStates, err := handler.onuSwActivateRequest(ctx, imageIdentifier, (*in).CommitOnSuccess); err != nil {
loDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_UNKNOWN
loDeviceImageState.ImageState.Reason = voltha.ImageState_UNKNOWN_ERROR
loDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_ACTIVATION_ABORTED
} else {
loDeviceImageState.ImageState.DownloadState = pImageStates.DownloadState
loDeviceImageState.ImageState.Reason = pImageStates.Reason
loDeviceImageState.ImageState.ImageState = pImageStates.ImageState
}
} else {
//cannot start SW activation for requested device
logger.Warnw(ctx, "no handler found for image activation", log.Fields{"device-id": loDeviceID})
loDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_UNKNOWN
loDeviceImageState.ImageState.Reason = voltha.ImageState_UNKNOWN_ERROR
loDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_ACTIVATION_ABORTED
}
loResponse.DeviceImageStates = append(loResponse.DeviceImageStates, &loDeviceImageState)
}
pImageResp := &loResponse
return pImageResp, nil
}
return nil, errors.New("invalid image activation parameters")
}
// Commit_onu_image enforces the commitment of the image for the requested ONU(s)
// precondition: image activated and not yet committed
func (oo *OpenONUAC) Commit_onu_image(ctx context.Context, in *voltha.DeviceImageRequest) (*voltha.DeviceImageResponse, error) {
if in != nil && len((*in).DeviceId) > 0 && (*in).Version != "" {
loResponse := voltha.DeviceImageResponse{}
imageIdentifier := (*in).Version
//let the deviceHandler find the adequate way of requesting the image activation
for _, pCommonID := range (*in).DeviceId {
loDeviceID := (*pCommonID).Id
loDeviceImageState := voltha.DeviceImageState{}
loDeviceImageState.DeviceId = loDeviceID
loImageState := voltha.ImageState{}
loDeviceImageState.ImageState = &loImageState
loDeviceImageState.ImageState.Version = imageIdentifier
//compared to download procedure the vendorID (from device) is secondary here
// and only needed in case the upgrade process is based on some ongoing download process (and can be retrieved in deviceHandler if needed)
// start image activation activity for each possible device
// assumption here is, that the concerned device was already created (automatic start after device creation not supported)
if handler := oo.getDeviceHandler(ctx, loDeviceID, false); handler != nil {
logger.Debugw(ctx, "onu image commitment requested", log.Fields{
"image-id": imageIdentifier, "device-id": loDeviceID})
//onu commitment handling called in background without immediate error evaluation here
// as the processing can be done for multiple ONU's and an error on one ONU should not stop processing for others
// state/progress/success of the request has to be verified using the Get_onu_image_status() API
if pImageStates, err := handler.onuSwCommitRequest(ctx, imageIdentifier); err != nil {
loDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_UNKNOWN
loDeviceImageState.ImageState.Reason = voltha.ImageState_UNKNOWN_ERROR
loDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_COMMIT_ABORTED
} else {
loDeviceImageState.ImageState.DownloadState = pImageStates.DownloadState
loDeviceImageState.ImageState.Reason = pImageStates.Reason
loDeviceImageState.ImageState.ImageState = pImageStates.ImageState
}
} else {
//cannot start SW commitment for requested device
logger.Warnw(ctx, "no handler found for image commitment", log.Fields{"device-id": loDeviceID})
loDeviceImageState.ImageState.DownloadState = voltha.ImageState_DOWNLOAD_UNKNOWN
loDeviceImageState.ImageState.Reason = voltha.ImageState_UNKNOWN_ERROR
loDeviceImageState.ImageState.ImageState = voltha.ImageState_IMAGE_COMMIT_ABORTED
}
loResponse.DeviceImageStates = append(loResponse.DeviceImageStates, &loDeviceImageState)
}
pImageResp := &loResponse
return pImageResp, nil
}
return nil, errors.New("invalid image commitment parameters")
}
// Adapter interface required methods ################ end #########
// #################################################################