| /* |
| * 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 pmmgr provides the utilities to manage onu metrics |
| package pmmgr |
| |
| import ( |
| "context" |
| "encoding/json" |
| "fmt" |
| "math" |
| "sync" |
| "time" |
| |
| "github.com/looplab/fsm" |
| "github.com/opencord/omci-lib-go/v2" |
| me "github.com/opencord/omci-lib-go/v2/generated" |
| "github.com/opencord/voltha-lib-go/v7/pkg/db" |
| "github.com/opencord/voltha-lib-go/v7/pkg/db/kvstore" |
| "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" |
| "github.com/opencord/voltha-protos/v5/go/voltha" |
| ) |
| |
| // events of L2 PM FSM |
| const ( |
| L2PmEventInit = "L2PmEventInit" |
| L2PmEventTick = "L2PmEventTick" |
| L2PmEventSuccess = "L2PmEventSuccess" |
| L2PmEventFailure = "L2PmEventFailure" |
| L2PmEventAddMe = "L2PmEventAddMe" |
| L2PmEventDeleteMe = "L2PmEventDeleteMe" |
| L2PmEventStop = "L2PmEventStop" |
| ) |
| |
| // states of L2 PM FSM |
| const ( |
| L2PmStNull = "L2PmStNull" |
| L2PmStStarting = "L2PmStStarting" |
| L2PmStSyncTime = "L2PmStSyncTime" |
| L2PmStIdle = "L2PmStIdle" |
| L2PmStCreatePmMe = "L2PmStCreatePm" |
| L2PmStDeletePmMe = "L2PmStDeletePmMe" |
| L2PmStCollectData = "L2PmStCollectData" |
| ) |
| |
| // CL2PmFsmIdleState - TODO: add comment |
| const CL2PmFsmIdleState = L2PmStIdle |
| |
| // general constants used for overall Metric Collection management |
| const ( |
| DefaultMetricCollectionFrequency = 15 * 60 // unit in seconds. This setting can be changed from voltha NBI PmConfig configuration |
| GroupMetricEnabled = true // This is READONLY and cannot be changed from VOLTHA NBI |
| DefaultFrequencyOverrideEnabled = true // This is READONLY and cannot be changed from VOLTHA NBI |
| FrequencyGranularity = 5 // The frequency (in seconds) has to be multiple of 5. This setting cannot changed later. |
| ) |
| |
| // constants for ethernet frame extended pm collection |
| const ( |
| ExtendedPmCreateAttempts = 3 |
| UnsupportedCounterValue32bit uint64 = 4294967294 |
| UnsupportedCounterValue64bit uint64 = 18446744073709551614 |
| dropEvents = "DropEvents" |
| octets = "Octets" |
| frames = "Frames" |
| broadcastFrames = "BroadcastFrames" |
| multicastFrames = "MulticastFrames" |
| crcErroredFrames = "CrcErroredFrames" |
| undersizeFrames = "UndersizeFrames" |
| oversizeFrames = "OversizeFrames" |
| frames64Octets = "Frames64Octets" |
| frames65To127Octets = "Frames65To127Octets" |
| frames128To255Octets = "Frames128To255Octets" |
| frames256To511Octets = "Frames256To511Octets" |
| frames512To1023Octets = "Frames512To1023Octets" |
| frames1024To1518Octets = "Frames1024To1518Octets" |
| ) |
| |
| // OpticalPowerGroupMetrics are supported optical pm names |
| var OpticalPowerGroupMetrics = map[string]voltha.PmConfig_PmType{ |
| "ani_g_instance_id": voltha.PmConfig_CONTEXT, |
| "transmit_power_dBm": voltha.PmConfig_GAUGE, |
| "receive_power_dBm": voltha.PmConfig_GAUGE, |
| } |
| |
| // OpticalPowerGroupMetrics specific constants |
| const ( |
| OpticalPowerGroupMetricName = "PON_Optical" |
| OpticalPowerGroupMetricEnabled = true // This setting can be changed from voltha NBI PmConfig configuration |
| OpticalPowerMetricGroupCollectionFrequency = 5 * 60 // unit in seconds. This setting can be changed from voltha NBI PmConfig configuration |
| ) |
| |
| // UniStatusGroupMetrics are supported UNI status names |
| var UniStatusGroupMetrics = map[string]voltha.PmConfig_PmType{ |
| "uni_port_no": voltha.PmConfig_CONTEXT, |
| "me_class_id": voltha.PmConfig_CONTEXT, |
| "entity_id": voltha.PmConfig_CONTEXT, |
| "configuration_ind": voltha.PmConfig_GAUGE, |
| "oper_status": voltha.PmConfig_GAUGE, |
| "uni_admin_state": voltha.PmConfig_GAUGE, |
| } |
| |
| // UniStatusGroupMetrics specific constants |
| const ( |
| UniStatusGroupMetricName = "UNI_Status" |
| UniStatusGroupMetricEnabled = true // This setting can be changed from voltha NBI PmConfig configuration |
| UniStatusMetricGroupCollectionFrequency = 5 * 60 // unit in seconds. This setting can be changed from voltha NBI PmConfig configuration |
| ) |
| |
| // *** Classical L2 PM Counters begin *** |
| |
| // EthernetBridgeHistory are supported ethernet bridge history counters fetched from |
| // Ethernet Frame Performance Monitoring History Data Downstream and Ethernet Frame Performance Monitoring History Data Upstream MEs. |
| var EthernetBridgeHistory = map[string]voltha.PmConfig_PmType{ |
| "class_id": voltha.PmConfig_CONTEXT, |
| "entity_id": voltha.PmConfig_CONTEXT, |
| "interval_end_time": voltha.PmConfig_CONTEXT, |
| "parent_class_id": voltha.PmConfig_CONTEXT, |
| "parent_entity_id": voltha.PmConfig_CONTEXT, |
| "upstream": voltha.PmConfig_CONTEXT, |
| |
| "drop_events": voltha.PmConfig_COUNTER, |
| "octets": voltha.PmConfig_COUNTER, |
| "packets": voltha.PmConfig_COUNTER, |
| "broadcast_packets": voltha.PmConfig_COUNTER, |
| "multicast_packets": voltha.PmConfig_COUNTER, |
| "crc_errored_packets": voltha.PmConfig_COUNTER, |
| "undersize_packets": voltha.PmConfig_COUNTER, |
| "oversize_packets": voltha.PmConfig_COUNTER, |
| "64_octets": voltha.PmConfig_COUNTER, |
| "65_to_127_octets": voltha.PmConfig_COUNTER, |
| "128_to_255_octets": voltha.PmConfig_COUNTER, |
| "256_to_511_octets": voltha.PmConfig_COUNTER, |
| "512_to_1023_octets": voltha.PmConfig_COUNTER, |
| "1024_to_1518_octets": voltha.PmConfig_COUNTER, |
| } |
| |
| // EthernetUniHistory are supported ethernet uni history counters fetched from |
| // Ethernet Performance Monitoring History Data ME. |
| var EthernetUniHistory = map[string]voltha.PmConfig_PmType{ |
| "class_id": voltha.PmConfig_CONTEXT, |
| "entity_id": voltha.PmConfig_CONTEXT, |
| "interval_end_time": voltha.PmConfig_CONTEXT, |
| |
| "fcs_errors": voltha.PmConfig_COUNTER, |
| "excessive_collision_counter": voltha.PmConfig_COUNTER, |
| "late_collision_counter": voltha.PmConfig_COUNTER, |
| "frames_too_long": voltha.PmConfig_COUNTER, |
| "buffer_overflows_on_rx": voltha.PmConfig_COUNTER, |
| "buffer_overflows_on_tx": voltha.PmConfig_COUNTER, |
| "single_collision_frame_counter": voltha.PmConfig_COUNTER, |
| "multiple_collisions_frame_counter": voltha.PmConfig_COUNTER, |
| "sqe_counter": voltha.PmConfig_COUNTER, |
| "deferred_tx_counter": voltha.PmConfig_COUNTER, |
| "internal_mac_tx_error_counter": voltha.PmConfig_COUNTER, |
| "carrier_sense_error_counter": voltha.PmConfig_COUNTER, |
| "alignment_error_counter": voltha.PmConfig_COUNTER, |
| "internal_mac_rx_error_counter": voltha.PmConfig_COUNTER, |
| } |
| |
| // FecHistory is supported FEC Performance Monitoring History Data related metrics |
| var FecHistory = map[string]voltha.PmConfig_PmType{ |
| "class_id": voltha.PmConfig_CONTEXT, |
| "entity_id": voltha.PmConfig_CONTEXT, |
| "interval_end_time": voltha.PmConfig_CONTEXT, |
| |
| "corrected_bytes": voltha.PmConfig_COUNTER, |
| "corrected_code_words": voltha.PmConfig_COUNTER, |
| "uncorrectable_code_words": voltha.PmConfig_COUNTER, |
| "total_code_words": voltha.PmConfig_COUNTER, |
| "fec_seconds": voltha.PmConfig_COUNTER, |
| } |
| |
| // GemPortHistory is supported GEM Port Network Ctp Performance Monitoring History Data |
| // related metrics |
| var GemPortHistory = map[string]voltha.PmConfig_PmType{ |
| "class_id": voltha.PmConfig_CONTEXT, |
| "entity_id": voltha.PmConfig_CONTEXT, |
| "interval_end_time": voltha.PmConfig_CONTEXT, |
| |
| "transmitted_gem_frames": voltha.PmConfig_COUNTER, |
| "received_gem_frames": voltha.PmConfig_COUNTER, |
| "received_payload_bytes": voltha.PmConfig_COUNTER, |
| "transmitted_payload_bytes": voltha.PmConfig_COUNTER, |
| "encryption_key_errors": voltha.PmConfig_COUNTER, |
| } |
| |
| var maskToEthernetFrameExtendedPM32Bit = map[uint16][]string{ |
| 0x3F00: {"drop_events", "octets", "frames", "broadcast_frames", "multicast_frames", "crc_errored_frames"}, |
| 0x00FC: {"undersize_frames", "oversize_frames", "64_octets", "65_to_127_octets", "128_to_255_octets", "256_to_511_octets"}, |
| 0x0003: {"512_to_1023_octets", "1024_to_1518_octets"}, |
| } |
| |
| var maskToEthernetFrameExtendedPM64Bit = map[uint16][]string{ |
| 0x3800: {"drop_events", "octets", "frames"}, |
| 0x0700: {"broadcast_frames", "multicast_frames", "crc_errored_frames"}, |
| 0x00E0: {"undersize_frames", "oversize_frames", "64_octets"}, |
| 0x001C: {"65_to_127_octets", "128_to_255_octets", "256_to_511_octets"}, |
| 0x0003: {"512_to_1023_octets", "1024_to_1518_octets"}, |
| } |
| |
| // Constants specific for L2 PM collection |
| const ( |
| L2PmCollectionInterval = 15 * 60 // Unit in seconds. Do not change this as this fixed by OMCI specification for L2 PM counters |
| SyncTimeRetryInterval = 15 // Unit seconds |
| L2PmCreateAttempts = 3 |
| L2PmDeleteAttempts = 3 |
| L2PmCollectAttempts = 3 |
| // Per Table 11.2.9-1 – OMCI baseline message limitations in G.988 spec, the max GET Response |
| // payload size is 25. We define 24 (one less) to allow for dynamic insertion of IntervalEndTime |
| // attribute (1 byte) in L2 PM GET Requests. |
| MaxL2PMGetPayLoadSize = 24 |
| MaxEthernetFrameExtPmPayloadSize = 25 |
| ) |
| |
| // EthernetUniHistoryName specific constants |
| const ( |
| EthernetBridgeHistoryName = "Ethernet_Bridge_Port_History" |
| EthernetBridgeHistoryEnabled = true // This setting can be changed from voltha NBI PmConfig configuration |
| EthernetBridgeHistoryFrequency = L2PmCollectionInterval |
| ) |
| |
| // EthernetBridgeHistory specific constants |
| const ( |
| EthernetUniHistoryName = "Ethernet_UNI_History" |
| EthernetUniHistoryEnabled = true // This setting can be changed from voltha NBI PmConfig configuration |
| EthernetUniHistoryFrequency = L2PmCollectionInterval |
| ) |
| |
| // FecHistory specific constants |
| const ( |
| FecHistoryName = "FEC_History" |
| FecHistoryEnabled = true // This setting can be changed from voltha NBI PmConfig configuration |
| FecHistoryFrequency = L2PmCollectionInterval |
| ) |
| |
| // GemPortHistory specific constants |
| const ( |
| GemPortHistoryName = "GEM_Port_History" |
| GemPortHistoryEnabled = true // This setting can be changed from voltha NBI PmConfig configuration |
| GemPortHistoryFrequency = L2PmCollectionInterval |
| ) |
| |
| // CPmKvStorePrefixBase - kv store base path of ONU specific PM data |
| const CPmKvStorePrefixBase = cmn.CBasePathOnuKVStore + "/pm-data" // <some-base-path>/openonu/pm-data |
| |
| // KV Store related constants |
| const ( |
| cPmKvStorePrefix = CPmKvStorePrefixBase + "/%s" // <some-base-path>/openonu/pm-data/<onu-device-id> |
| cPmAdd = "add" |
| cPmAdded = "added" |
| cPmRemove = "remove" |
| cPmRemoved = "removed" |
| cExtPmKvStorePrefix = "%s/omci_me" //<some-base-path>/omci_me/<onu_vendor>/<onu_equipment_id>/<onu_sw_version> |
| ) |
| |
| // Defines the type for generic metric population function |
| type groupMetricPopulateFunc func(context.Context, me.ClassID, uint16, me.AttributeValueMap, me.AttributeValueMap, map[string]float32, *int) error |
| |
| // *** Classical L2 PM Counters end *** |
| |
| type pmMEData struct { |
| InstancesActive []uint16 `json:"instances_active"` // list of active ME instance IDs for the group |
| InstancesToDelete []uint16 `json:"instances_to_delete"` // list of ME instance IDs marked for deletion for the group |
| InstancesToAdd []uint16 `json:"instances_to_add"` // list of ME instance IDs marked for addition for the group |
| } |
| |
| type groupMetric struct { |
| groupName string |
| Enabled bool |
| Frequency uint32 // valid only if FrequencyOverride is enabled. |
| metricMap map[string]voltha.PmConfig_PmType |
| NextCollectionInterval time.Time // valid only if FrequencyOverride is enabled. |
| IsL2PMCounter bool // true for only L2 PM counters |
| collectAttempts uint32 // number of attempts to collect L2 PM data |
| pmMEData *pmMEData |
| } |
| |
| type standaloneMetric struct { |
| metricName string |
| Enabled bool |
| Frequency uint32 // valid only if FrequencyOverride is enabled. |
| NextCollectionInterval time.Time // valid only if FrequencyOverride is enabled. |
| } |
| |
| // OnuMetricsManager - TODO: add comment |
| type OnuMetricsManager struct { |
| deviceID string |
| pDeviceHandler cmn.IdeviceHandler |
| pOnuDeviceEntry cmn.IonuDeviceEntry |
| PAdaptFsm *cmn.AdapterFsm |
| |
| opticalMetricsChan chan me.AttributeValueMap |
| uniStatusMetricsChan chan me.AttributeValueMap |
| l2PmChan chan me.AttributeValueMap |
| extendedPmMeChan chan me.AttributeValueMap |
| syncTimeResponseChan chan bool // true is success, false is fail |
| l2PmCreateOrDeleteResponseChan chan bool // true is success, false is fail |
| extendedPMMeResponseChan chan me.Results // true is sucesss, false is fail |
| |
| activeL2Pms []string // list of active l2 pm MEs created on the ONU. |
| l2PmToDelete []string // list of L2 PMs to delete |
| l2PmToAdd []string // list of L2 PM to add |
| |
| GroupMetricMap map[string]*groupMetric |
| StandaloneMetricMap map[string]*standaloneMetric |
| |
| StopProcessingOmciResponses chan bool |
| omciProcessingActive bool |
| |
| StopTicks chan bool |
| tickGenerationActive bool |
| |
| NextGlobalMetricCollectionTime time.Time // valid only if pmConfig.FreqOverride is set to false. |
| |
| OnuMetricsManagerLock sync.RWMutex |
| |
| pmKvStore *db.Backend |
| |
| supportedEthernetFrameExtendedPMClass me.ClassID |
| ethernetFrameExtendedPmUpStreamMEByEntityID map[uint16]*me.ManagedEntity |
| ethernetFrameExtendedPmDownStreamMEByEntityID map[uint16]*me.ManagedEntity |
| extPmKvStore *db.Backend |
| onuEthernetFrameExtendedPmLock sync.RWMutex |
| isDeviceReadyToCollectExtendedPmStats bool |
| isEthernetFrameExtendedPmOperationOngoing bool |
| } |
| |
| // NewOnuMetricsManager returns a new instance of the NewOnuMetricsManager |
| // The metrics manager module is responsible for configuration and management of individual and group metrics. |
| // Currently all the metrics are managed as a group which fall into two categories - L2 PM and "all others" |
| // The L2 PM counters have a fixed 15min interval for PM collection while all other group counters have |
| // the collection interval configurable. |
| // The global PM config is part of the voltha.Device struct and is backed up on KV store (by rw-core). |
| // This module also implements resiliency for L2 PM ME instances that are active/pending-delete/pending-add. |
| func NewOnuMetricsManager(ctx context.Context, dh cmn.IdeviceHandler, onuDev cmn.IonuDeviceEntry) *OnuMetricsManager { |
| |
| var metricsManager OnuMetricsManager |
| metricsManager.deviceID = dh.GetDeviceID() |
| logger.Debugw(ctx, "init-OnuMetricsManager", log.Fields{"device-id": metricsManager.deviceID}) |
| metricsManager.pDeviceHandler = dh |
| metricsManager.pOnuDeviceEntry = onuDev |
| |
| commMetricsChan := make(chan cmn.Message) |
| metricsManager.opticalMetricsChan = make(chan me.AttributeValueMap) |
| metricsManager.uniStatusMetricsChan = make(chan me.AttributeValueMap) |
| metricsManager.l2PmChan = make(chan me.AttributeValueMap) |
| metricsManager.extendedPmMeChan = make(chan me.AttributeValueMap) |
| |
| metricsManager.syncTimeResponseChan = make(chan bool) |
| metricsManager.l2PmCreateOrDeleteResponseChan = make(chan bool) |
| metricsManager.extendedPMMeResponseChan = make(chan me.Results) |
| |
| metricsManager.StopProcessingOmciResponses = make(chan bool) |
| metricsManager.StopTicks = make(chan bool) |
| |
| metricsManager.GroupMetricMap = make(map[string]*groupMetric) |
| metricsManager.StandaloneMetricMap = make(map[string]*standaloneMetric) |
| |
| metricsManager.ethernetFrameExtendedPmUpStreamMEByEntityID = make(map[uint16]*me.ManagedEntity) |
| metricsManager.ethernetFrameExtendedPmDownStreamMEByEntityID = make(map[uint16]*me.ManagedEntity) |
| |
| if dh.GetPmConfigs() == nil { // dh.GetPmConfigs() is NOT nil if adapter comes back from a restart. We should NOT go back to defaults in this case |
| metricsManager.initializeAllGroupMetrics() |
| } |
| |
| metricsManager.populateLocalGroupMetricData(ctx) |
| |
| if err := metricsManager.initializeL2PmFsm(ctx, commMetricsChan); err != nil { |
| return nil |
| } |
| |
| // initialize the next metric collection intervals. |
| metricsManager.InitializeMetricCollectionTime(ctx) |
| |
| baseKvStorePath := fmt.Sprintf(cPmKvStorePrefix, dh.GetBackendPathPrefix(), metricsManager.deviceID) |
| metricsManager.pmKvStore = dh.SetBackend(ctx, baseKvStorePath) |
| if metricsManager.pmKvStore == nil { |
| logger.Errorw(ctx, "Can't initialize pmKvStore - no backend connection to PM module", |
| log.Fields{"device-id": metricsManager.deviceID, "service": baseKvStorePath}) |
| return nil |
| } |
| // restore data from KV store |
| if err := metricsManager.restorePmData(ctx); err != nil { |
| logger.Errorw(ctx, "error restoring pm data", log.Fields{"err": err}) |
| // we continue given that it does not effect the actual services for the ONU, |
| // but there may be some negative effect on PM collection (there may be some mismatch in |
| // the actual PM config and what is present on the device). |
| } |
| |
| baseExtPmKvStorePath := fmt.Sprintf(cExtPmKvStorePrefix, dh.GetBackendPathPrefix()) |
| metricsManager.extPmKvStore = dh.SetBackend(ctx, baseExtPmKvStorePath) |
| if metricsManager.extPmKvStore == nil { |
| logger.Errorw(ctx, "Can't initialize extPmKvStore - no backend connection to PM module", |
| log.Fields{"device-id": metricsManager.deviceID, "service": baseExtPmKvStorePath}) |
| return nil |
| } |
| |
| logger.Info(ctx, "init-OnuMetricsManager completed", log.Fields{"device-id": metricsManager.deviceID}) |
| return &metricsManager |
| } |
| |
| // InitializeMetricCollectionTime - TODO: add comment |
| func (mm *OnuMetricsManager) InitializeMetricCollectionTime(ctx context.Context) { |
| if mm.pDeviceHandler.GetPmConfigs().FreqOverride { |
| // If mm.pDeviceHandler.GetPmConfigs().FreqOverride is set to true, then group/standalone metric specific interval applies |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| for _, v := range mm.GroupMetricMap { |
| if v.Enabled && !v.IsL2PMCounter { // L2 PM counter collection is managed in a L2PmFsm |
| v.NextCollectionInterval = time.Now().Add(time.Duration(v.Frequency) * time.Second) |
| } |
| } |
| |
| for _, v := range mm.StandaloneMetricMap { |
| if v.Enabled { |
| v.NextCollectionInterval = time.Now().Add(time.Duration(v.Frequency) * time.Second) |
| } |
| } |
| } else { |
| // If mm.pDeviceHandler.GetPmConfigs().FreqOverride is set to false, then overall metric specific interval applies |
| mm.NextGlobalMetricCollectionTime = time.Now().Add(time.Duration(mm.pDeviceHandler.GetPmConfigs().DefaultFreq) * time.Second) |
| } |
| logger.Infow(ctx, "initialized standalone group/metric collection time", log.Fields{"device-id": mm.deviceID}) |
| } |
| |
| // UpdateDefaultFrequency - TODO: add comment |
| func (mm *OnuMetricsManager) UpdateDefaultFrequency(ctx context.Context, pmConfigs *voltha.PmConfigs) error { |
| // Verify that the configured DefaultFrequency is > 0 and is a multiple of FrequencyGranularity |
| if pmConfigs.DefaultFreq == 0 || (pmConfigs.DefaultFreq > 0 && pmConfigs.DefaultFreq%FrequencyGranularity != 0) { |
| logger.Errorf(ctx, "frequency-%u-should-be-a-multiple-of-%u", pmConfigs.DefaultFreq, FrequencyGranularity) |
| return fmt.Errorf("frequency-%d-should-be-a-multiple-of-%d", pmConfigs.DefaultFreq, FrequencyGranularity) |
| } |
| mm.pDeviceHandler.GetPmConfigs().DefaultFreq = pmConfigs.DefaultFreq |
| // re-set the NextGlobalMetricCollectionTime based on the new DefaultFreq |
| mm.NextGlobalMetricCollectionTime = time.Now().Add(time.Duration(mm.pDeviceHandler.GetPmConfigs().DefaultFreq) * time.Second) |
| logger.Debugw(ctx, "frequency-updated--new-frequency", log.Fields{"device-id": mm.deviceID, "frequency": mm.pDeviceHandler.GetPmConfigs().DefaultFreq}) |
| return nil |
| } |
| |
| // UpdateGroupFreq - TODO: add comment |
| func (mm *OnuMetricsManager) UpdateGroupFreq(ctx context.Context, aGroupName string, pmConfigs *voltha.PmConfigs) error { |
| var newGroupFreq uint32 |
| found := false |
| groupSliceIdx := 0 |
| var group *voltha.PmGroupConfig |
| for groupSliceIdx, group = range pmConfigs.Groups { |
| if group.GroupName == aGroupName { |
| // freq 0 is not allowed and it should be multiple of FrequencyGranularity |
| if group.GroupFreq == 0 || (group.GroupFreq > 0 && group.GroupFreq%FrequencyGranularity != 0) { |
| logger.Errorf(ctx, "frequency-%u-should-be-a-multiple-of-%u", group.GroupFreq, FrequencyGranularity) |
| return fmt.Errorf("frequency-%d-should-be-a-multiple-of-%d", group.GroupFreq, FrequencyGranularity) |
| } |
| newGroupFreq = group.GroupFreq |
| found = true |
| break |
| } |
| } |
| // if not found update group freq and next collection interval for the group |
| if !found { |
| logger.Errorw(ctx, "group name not found", log.Fields{"device-id": mm.deviceID, "groupName": aGroupName}) |
| return fmt.Errorf("group-name-not-found-%v", aGroupName) |
| } |
| |
| updated := false |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| for k, v := range mm.GroupMetricMap { |
| if k == aGroupName && !v.IsL2PMCounter { // We cannot allow the L2 PM counter frequency to be updated. It is 15min fixed by OMCI spec |
| v.Frequency = newGroupFreq |
| // update internal pm config |
| mm.pDeviceHandler.GetPmConfigs().Groups[groupSliceIdx].GroupFreq = newGroupFreq |
| // Also updated the next group metric collection time from now |
| v.NextCollectionInterval = time.Now().Add(time.Duration(newGroupFreq) * time.Second) |
| updated = true |
| logger.Infow(ctx, "group frequency updated", log.Fields{"device-id": mm.deviceID, "newGroupFreq": newGroupFreq, "groupName": aGroupName}) |
| break |
| } |
| } |
| if !updated { |
| logger.Errorw(ctx, "group frequency not updated", log.Fields{"device-id": mm.deviceID, "newGroupFreq": newGroupFreq, "groupName": aGroupName}) |
| return fmt.Errorf("internal-error-during-group-freq-update--groupname-%s-freq-%d", aGroupName, newGroupFreq) |
| } |
| return nil |
| } |
| |
| // UpdateMetricFreq - TODO: add comment |
| func (mm *OnuMetricsManager) UpdateMetricFreq(ctx context.Context, aMetricName string, pmConfigs *voltha.PmConfigs) error { |
| var newMetricFreq uint32 |
| found := false |
| metricSliceIdx := 0 |
| var metric *voltha.PmConfig |
| for metricSliceIdx, metric = range pmConfigs.Metrics { |
| if metric.Name == aMetricName { |
| // freq 0 is not allowed and it should be multiple of FrequencyGranularity |
| if metric.SampleFreq == 0 || (metric.SampleFreq > 0 && metric.SampleFreq%FrequencyGranularity != 0) { |
| logger.Errorf(ctx, "frequency-%u-should-be-a-multiple-of-%u", metric.SampleFreq, FrequencyGranularity) |
| return fmt.Errorf("frequency-%d-should-be-a-multiple-of-%d", metric.SampleFreq, FrequencyGranularity) |
| } |
| newMetricFreq = metric.SampleFreq |
| found = true |
| break |
| } |
| } |
| if !found { |
| logger.Errorw(ctx, "metric name not found", log.Fields{"device-id": mm.deviceID, "metricName": aMetricName}) |
| return fmt.Errorf("metric-name-not-found-%v", aMetricName) |
| } |
| |
| updated := false |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| for k, v := range mm.GroupMetricMap { |
| if k == aMetricName { |
| v.Frequency = newMetricFreq |
| // update internal pm config |
| mm.pDeviceHandler.GetPmConfigs().Metrics[metricSliceIdx].SampleFreq = newMetricFreq |
| // Also updated the next standalone metric collection time from now |
| v.NextCollectionInterval = time.Now().Add(time.Duration(newMetricFreq) * time.Second) |
| updated = true |
| logger.Infow(ctx, "metric frequency updated", log.Fields{"device-id": mm.deviceID, "newMetricFreq": newMetricFreq, "aMetricName": aMetricName}) |
| break |
| } |
| } |
| if !updated { |
| logger.Errorw(ctx, "metric frequency not updated", log.Fields{"device-id": mm.deviceID, "newMetricFreq": newMetricFreq, "aMetricName": aMetricName}) |
| return fmt.Errorf("internal-error-during-standalone-metric-update--matricnane-%s-freq-%d", aMetricName, newMetricFreq) |
| } |
| return nil |
| } |
| |
| // UpdateGroupSupport - TODO: add comment |
| func (mm *OnuMetricsManager) UpdateGroupSupport(ctx context.Context, aGroupName string, pmConfigs *voltha.PmConfigs) error { |
| groupSliceIdx := 0 |
| var group *voltha.PmGroupConfig |
| |
| for groupSliceIdx, group = range pmConfigs.Groups { |
| if group.GroupName == aGroupName { |
| break |
| } |
| } |
| if group == nil { |
| logger.Errorw(ctx, "group metric not found", log.Fields{"device-id": mm.deviceID, "groupName": aGroupName}) |
| return fmt.Errorf("group-not-found--groupName-%s", aGroupName) |
| } |
| |
| updated := false |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| for k, v := range mm.GroupMetricMap { |
| if k == aGroupName && v.Enabled != group.Enabled { |
| mm.pDeviceHandler.GetPmConfigs().Groups[groupSliceIdx].Enabled = group.Enabled |
| v.Enabled = group.Enabled |
| if group.Enabled { |
| if v.IsL2PMCounter { |
| // If it is a L2 PM counter we need to mark the PM to be added |
| mm.l2PmToAdd = mm.appendIfMissingString(mm.l2PmToAdd, v.groupName) |
| // If the group support flag toggles too soon, we need to delete the group name from l2PmToDelete slice |
| mm.l2PmToDelete = mm.removeIfFoundString(mm.l2PmToDelete, v.groupName) |
| |
| // The GemPortHistory group requires some special handling as the instance IDs are not pre-defined |
| // unlike other L2 PM counters. We need to fetch the active gemport instance IDs in the system to |
| // take further action |
| if v.groupName == GemPortHistoryName { |
| mm.updateGemPortNTPInstanceToAddForPerfMonitoring(ctx) |
| } |
| } else if mm.pDeviceHandler.GetPmConfigs().FreqOverride { // otherwise just update the next collection interval |
| v.NextCollectionInterval = time.Now().Add(time.Duration(v.Frequency) * time.Second) |
| } |
| } else { // group counter is disabled |
| if v.IsL2PMCounter { |
| // If it is a L2 PM counter we need to mark the PM to be deleted |
| mm.l2PmToDelete = mm.appendIfMissingString(mm.l2PmToDelete, v.groupName) |
| // If the group support flag toggles too soon, we need to delete the group name from l2PmToAdd slice |
| mm.l2PmToAdd = mm.removeIfFoundString(mm.l2PmToAdd, v.groupName) |
| |
| // The GemPortHistory group requires some special handling as the instance IDs are not pre-defined |
| // unlike other L2 PM counters. We need to fetch the active gemport instance IDs in the system to |
| // take further action |
| if v.groupName == GemPortHistoryName { |
| mm.updateGemPortNTPInstanceToDeleteForPerfMonitoring(ctx) |
| } |
| } |
| } |
| updated = true |
| if v.IsL2PMCounter { |
| logger.Infow(ctx, "l2 pm group metric support updated", |
| log.Fields{"device-id": mm.deviceID, "groupName": aGroupName, "enabled": group.Enabled, "l2PmToAdd": mm.l2PmToAdd, "l2PmToDelete": mm.l2PmToDelete}) |
| } else { |
| logger.Infow(ctx, "group metric support updated", log.Fields{"device-id": mm.deviceID, "groupName": aGroupName, "enabled": group.Enabled}) |
| } |
| break |
| } |
| } |
| |
| if !updated { |
| logger.Errorw(ctx, "group metric support not updated", log.Fields{"device-id": mm.deviceID, "groupName": aGroupName}) |
| return fmt.Errorf("internal-error-during-group-support-update--groupName-%s", aGroupName) |
| } |
| return nil |
| } |
| |
| // UpdateMetricSupport - TODO: add comment |
| func (mm *OnuMetricsManager) UpdateMetricSupport(ctx context.Context, aMetricName string, pmConfigs *voltha.PmConfigs) error { |
| metricSliceIdx := 0 |
| var metric *voltha.PmConfig |
| |
| for metricSliceIdx, metric = range pmConfigs.Metrics { |
| if metric.Name == aMetricName { |
| break |
| } |
| } |
| |
| if metric == nil { |
| logger.Errorw(ctx, "standalone metric not found", log.Fields{"device-id": mm.deviceID, "metricName": aMetricName}) |
| return fmt.Errorf("metric-not-found--metricname-%s", aMetricName) |
| } |
| |
| updated := false |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| for k, v := range mm.StandaloneMetricMap { |
| if k == aMetricName && v.Enabled != metric.Enabled { |
| mm.pDeviceHandler.GetPmConfigs().Metrics[metricSliceIdx].Enabled = metric.Enabled |
| v.Enabled = metric.Enabled |
| // If the standalone metric is now enabled and frequency override is enabled, set the next metric collection time |
| if metric.Enabled && mm.pDeviceHandler.GetPmConfigs().FreqOverride { |
| v.NextCollectionInterval = time.Now().Add(time.Duration(v.Frequency) * time.Second) |
| } |
| updated = true |
| logger.Infow(ctx, "standalone metric support updated", log.Fields{"device-id": mm.deviceID, "metricName": aMetricName, "enabled": metric.Enabled}) |
| break |
| } |
| } |
| if !updated { |
| logger.Errorw(ctx, "standalone metric support not updated", log.Fields{"device-id": mm.deviceID, "metricName": aMetricName}) |
| return fmt.Errorf("internal-error-during-standalone-support-update--metricname-%s", aMetricName) |
| } |
| return nil |
| } |
| |
| // CollectAllGroupAndStandaloneMetrics - TODO: add comment |
| func (mm *OnuMetricsManager) CollectAllGroupAndStandaloneMetrics(ctx context.Context) { |
| if mm.pDeviceHandler.GetPmConfigs().Grouped { // metrics are managed as a group. |
| go mm.collectAllGroupMetrics(ctx) |
| } else { |
| go mm.collectAllStandaloneMetrics(ctx) |
| } |
| } |
| |
| func (mm *OnuMetricsManager) collectAllGroupMetrics(ctx context.Context) { |
| go func() { |
| logger.Debug(ctx, "startCollector before collecting optical metrics") |
| metricInfo, err := mm.collectOpticalMetrics(ctx) |
| if err != nil { |
| logger.Errorw(ctx, "collectOpticalMetrics failed", |
| log.Fields{"device-id": mm.deviceID, "Error": err}) |
| return |
| } |
| if metricInfo != nil { |
| mm.publishMetrics(ctx, metricInfo) |
| } |
| }() |
| |
| go func() { |
| logger.Debug(ctx, "startCollector before collecting uni metrics") |
| metricInfo, err := mm.collectUniStatusMetrics(ctx) |
| if err != nil { |
| logger.Errorw(ctx, "collectOpticalMetrics failed", |
| log.Fields{"device-id": mm.deviceID, "Error": err}) |
| return |
| } |
| if metricInfo != nil { |
| mm.publishMetrics(ctx, metricInfo) |
| } |
| }() |
| |
| // Add more here |
| } |
| |
| func (mm *OnuMetricsManager) collectAllStandaloneMetrics(ctx context.Context) { |
| // None exists as of now, add when available here |
| } |
| |
| // CollectGroupMetric - TODO: add comment |
| func (mm *OnuMetricsManager) CollectGroupMetric(ctx context.Context, groupName string) { |
| switch groupName { |
| case OpticalPowerGroupMetricName: |
| go func() { |
| if mi, _ := mm.collectOpticalMetrics(ctx); mi != nil { |
| mm.publishMetrics(ctx, mi) |
| } |
| }() |
| case UniStatusGroupMetricName: |
| go func() { |
| if mi, _ := mm.collectUniStatusMetrics(ctx); mi != nil { |
| mm.publishMetrics(ctx, mi) |
| } |
| }() |
| default: |
| logger.Errorw(ctx, "unhandled group metric name", log.Fields{"device-id": mm.deviceID, "groupName": groupName}) |
| } |
| } |
| |
| // CollectStandaloneMetric - TODO: add comment |
| func (mm *OnuMetricsManager) CollectStandaloneMetric(ctx context.Context, metricName string) { |
| switch metricName { |
| // None exist as of now, add when available |
| default: |
| logger.Errorw(ctx, "unhandled standalone metric name", log.Fields{"device-id": mm.deviceID, "metricName": metricName}) |
| } |
| } |
| |
| // collectOpticalMetrics collects groups metrics related to optical power from ani-g ME. |
| func (mm *OnuMetricsManager) collectOpticalMetrics(ctx context.Context) ([]*voltha.MetricInformation, error) { |
| logger.Debugw(ctx, "collectOpticalMetrics", log.Fields{"device-id": mm.deviceID}) |
| |
| mm.OnuMetricsManagerLock.RLock() |
| if !mm.GroupMetricMap[OpticalPowerGroupMetricName].Enabled { |
| mm.OnuMetricsManagerLock.RUnlock() |
| logger.Debugw(ctx, "optical power group metric is not enabled", log.Fields{"device-id": mm.deviceID}) |
| return nil, nil |
| } |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| var metricInfoSlice []*voltha.MetricInformation |
| metricsContext := make(map[string]string) |
| metricsContext["onuID"] = fmt.Sprintf("%d", mm.pDeviceHandler.GetProxyAddress().OnuId) |
| metricsContext["intfID"] = fmt.Sprintf("%d", mm.pDeviceHandler.GetProxyAddress().ChannelId) |
| metricsContext["devicetype"] = mm.pDeviceHandler.GetDeviceType() |
| |
| raisedTs := time.Now().Unix() |
| mmd := voltha.MetricMetaData{ |
| Title: OpticalPowerGroupMetricName, |
| Ts: float64(raisedTs), |
| Context: metricsContext, |
| DeviceId: mm.deviceID, |
| LogicalDeviceId: mm.pDeviceHandler.GetLogicalDeviceID(), |
| SerialNo: mm.pDeviceHandler.GetDevice().SerialNumber, |
| } |
| |
| // get the ANI-G instance IDs |
| anigInstKeys := mm.pOnuDeviceEntry.GetOnuDB().GetSortedInstKeys(ctx, me.AniGClassID) |
| loop: |
| for _, anigInstID := range anigInstKeys { |
| var meAttributes me.AttributeValueMap |
| opticalMetrics := make(map[string]float32) |
| // Get the ANI-G instance optical power attributes |
| requestedAttributes := me.AttributeValueMap{"OpticalSignalLevel": 0, "TransmitOpticalLevel": 0} |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, me.AniGClassID, anigInstID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetMe failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return nil, err |
| } |
| |
| if meInstance != nil { |
| select { |
| case meAttributes = <-mm.opticalMetricsChan: |
| logger.Debugw(ctx, "received optical metrics", log.Fields{"device-id": mm.deviceID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for optical metrics", log.Fields{"device-id": mm.deviceID}) |
| // The metrics will be empty in this case |
| break loop |
| } |
| // Populate metric only if it was enabled. |
| for k := range OpticalPowerGroupMetrics { |
| switch k { |
| case "ani_g_instance_id": |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| opticalMetrics[k] = float32(val.(uint16)) |
| } |
| case "transmit_power_dBm": |
| if val, ok := meAttributes["TransmitOpticalLevel"]; ok && val != nil { |
| opticalMetrics[k] = float32(math.Round((float64(cmn.TwosComplementToSignedInt16(val.(uint16)))/500.0)*10) / 10) // convert to dBm rounded of to single decimal place |
| } |
| case "receive_power_dBm": |
| if val, ok := meAttributes["OpticalSignalLevel"]; ok && val != nil { |
| opticalMetrics[k] = float32(math.Round((float64(cmn.TwosComplementToSignedInt16(val.(uint16)))/500.0)*10) / 10) // convert to dBm rounded of to single decimal place |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| // create slice of metrics given that there could be more than one ANI-G instance and |
| // optical metrics are collected per ANI-G instance |
| metricInfo := voltha.MetricInformation{Metadata: &mmd, Metrics: opticalMetrics} |
| metricInfoSlice = append(metricInfoSlice, &metricInfo) |
| } |
| |
| return metricInfoSlice, nil |
| } |
| |
| // collectUniStatusMetrics collects UNI status group metric from various MEs (uni-g, pptp and veip). |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) collectUniStatusMetrics(ctx context.Context) ([]*voltha.MetricInformation, error) { |
| logger.Debugw(ctx, "collectUniStatusMetrics", log.Fields{"device-id": mm.deviceID}) |
| mm.OnuMetricsManagerLock.RLock() |
| if !mm.GroupMetricMap[UniStatusGroupMetricName].Enabled { |
| mm.OnuMetricsManagerLock.RUnlock() |
| logger.Debugw(ctx, "uni status group metric is not enabled", log.Fields{"device-id": mm.deviceID}) |
| return nil, nil |
| } |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| var metricInfoSlice []*voltha.MetricInformation |
| metricsContext := make(map[string]string) |
| metricsContext["onuID"] = fmt.Sprintf("%d", mm.pDeviceHandler.GetDevice().ProxyAddress.OnuId) |
| metricsContext["intfID"] = fmt.Sprintf("%d", mm.pDeviceHandler.GetDevice().ProxyAddress.ChannelId) |
| metricsContext["devicetype"] = mm.pDeviceHandler.GetDeviceType() |
| |
| raisedTs := time.Now().Unix() |
| mmd := voltha.MetricMetaData{ |
| Title: UniStatusGroupMetricName, |
| Ts: float64(raisedTs), |
| Context: metricsContext, |
| DeviceId: mm.deviceID, |
| LogicalDeviceId: mm.pDeviceHandler.GetLogicalDeviceID(), |
| SerialNo: mm.pDeviceHandler.GetDevice().SerialNumber, |
| } |
| |
| // get the UNI-G instance IDs |
| unigInstKeys := mm.pOnuDeviceEntry.GetOnuDB().GetSortedInstKeys(ctx, me.UniGClassID) |
| loop1: |
| for _, unigInstID := range unigInstKeys { |
| // TODO: Include additional information in the voltha.MetricMetaData - like portno, uni-id, instance-id |
| // to uniquely identify this ME instance and also to correlate the ME instance to physical instance |
| unigMetrics := make(map[string]float32) |
| var meAttributes me.AttributeValueMap |
| // Get the UNI-G instance optical power attributes |
| requestedAttributes := me.AttributeValueMap{"AdministrativeState": 0} |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, me.UniGClassID, unigInstID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "UNI-G failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return nil, err |
| } |
| if meInstance != nil { |
| // Wait for metrics or timeout |
| select { |
| case meAttributes = <-mm.uniStatusMetricsChan: |
| logger.Debugw(ctx, "received uni-g metrics", log.Fields{"device-id": mm.deviceID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for uni status", log.Fields{"device-id": mm.deviceID}) |
| // The metrics could be empty in this case |
| break loop1 |
| } |
| // Populate metric only if it was enabled. |
| for k := range UniStatusGroupMetrics { |
| switch k { |
| case "uni_admin_state": |
| if val, ok := meAttributes["AdministrativeState"]; ok && val != nil { |
| unigMetrics[k] = float32(val.(byte)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| entityID := val.(uint16) |
| unigMetrics["entity_id"] = float32(entityID) |
| // TODO: Rlock needed for reading uniEntityMap? May not be needed given uniEntityMap is populated setup at initial ONU bring up |
| for _, uni := range *mm.pDeviceHandler.GetUniEntityMap() { |
| if uni.EntityID == entityID { |
| unigMetrics["uni_port_no"] = float32(uni.PortNo) |
| break |
| } |
| } |
| } |
| unigMetrics["me_class_id"] = float32(me.UniGClassID) |
| |
| // create slice of metrics given that there could be more than one UNI-G instance |
| metricInfo := voltha.MetricInformation{Metadata: &mmd, Metrics: unigMetrics} |
| metricInfoSlice = append(metricInfoSlice, &metricInfo) |
| } |
| } |
| |
| // get the PPTP instance IDs |
| pptpInstKeys := mm.pOnuDeviceEntry.GetOnuDB().GetSortedInstKeys(ctx, me.PhysicalPathTerminationPointEthernetUniClassID) |
| loop2: |
| for _, pptpInstID := range pptpInstKeys { |
| // TODO: Include additional information in the voltha.MetricMetaData - like portno, uni-id, instance-id |
| // to uniquely identify this ME instance and also to correlate the ME instance to physical instance |
| var meAttributes me.AttributeValueMap |
| pptpMetrics := make(map[string]float32) |
| |
| requestedAttributes := me.AttributeValueMap{"ConfigurationInd": 0, "OperationalState": 0, "AdministrativeState": 0} |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, me.PhysicalPathTerminationPointEthernetUniClassID, pptpInstID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetMe failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return nil, err |
| } |
| if meInstance != nil { |
| // Wait for metrics or timeout |
| select { |
| case meAttributes = <-mm.uniStatusMetricsChan: |
| logger.Debugw(ctx, "received pptp metrics", log.Fields{"device-id": mm.deviceID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for uni status", log.Fields{"device-id": mm.deviceID}) |
| // The metrics could be empty in this case |
| break loop2 |
| } |
| |
| // Populate metric only if it was enabled. |
| for k := range UniStatusGroupMetrics { |
| switch k { |
| case "configuration_ind": |
| if val, ok := meAttributes["ConfigurationInd"]; ok && val != nil { |
| pptpMetrics[k] = float32(val.(byte)) |
| } |
| case "oper_status": |
| if val, ok := meAttributes["OperationalState"]; ok && val != nil { |
| pptpMetrics[k] = float32(val.(byte)) |
| } |
| case "uni_admin_state": |
| if val, ok := meAttributes["AdministrativeState"]; ok && val != nil { |
| pptpMetrics[k] = float32(val.(byte)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| entityID := val.(uint16) |
| pptpMetrics["entity_id"] = float32(entityID) |
| // TODO: Rlock needed for reading uniEntityMap? May not be needed given uniEntityMap is populated setup at initial ONU bring up |
| for _, uni := range *mm.pDeviceHandler.GetUniEntityMap() { |
| if uni.EntityID == entityID { |
| pptpMetrics["uni_port_no"] = float32(uni.PortNo) |
| break |
| } |
| } |
| } |
| pptpMetrics["me_class_id"] = float32(me.PhysicalPathTerminationPointEthernetUniClassID) |
| |
| // create slice of metrics given that there could be more than one PPTP instance and |
| metricInfo := voltha.MetricInformation{Metadata: &mmd, Metrics: pptpMetrics} |
| metricInfoSlice = append(metricInfoSlice, &metricInfo) |
| } |
| |
| // get the VEIP instance IDs |
| veipInstKeys := mm.pOnuDeviceEntry.GetOnuDB().GetSortedInstKeys(ctx, me.VirtualEthernetInterfacePointClassID) |
| loop3: |
| for _, veipInstID := range veipInstKeys { |
| // TODO: Include additional information in the voltha.MetricMetaData - like portno, uni-id, instance-id |
| // to uniquely identify this ME instance and also to correlate the ME instance to physical instance |
| var meAttributes me.AttributeValueMap |
| veipMetrics := make(map[string]float32) |
| |
| requestedAttributes := me.AttributeValueMap{"OperationalState": 0, "AdministrativeState": 0} |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, me.VirtualEthernetInterfacePointClassID, veipInstID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetMe failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return nil, err |
| } |
| if meInstance != nil { |
| // Wait for metrics or timeout |
| select { |
| case meAttributes = <-mm.uniStatusMetricsChan: |
| logger.Debugw(ctx, "received veip metrics", log.Fields{"device-id": mm.deviceID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for uni status", log.Fields{"device-id": mm.deviceID}) |
| // The metrics could be empty in this case |
| break loop3 |
| } |
| |
| // Populate metric only if it was enabled. |
| for k := range UniStatusGroupMetrics { |
| switch k { |
| case "oper_status": |
| if val, ok := meAttributes["OperationalState"]; ok && val != nil { |
| veipMetrics[k] = float32(val.(byte)) |
| } |
| case "uni_admin_state": |
| if val, ok := meAttributes["AdministrativeState"]; ok && val != nil { |
| veipMetrics[k] = float32(val.(byte)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| entityID := val.(uint16) |
| veipMetrics["entity_id"] = float32(entityID) |
| // TODO: Rlock needed for reading uniEntityMap? May not be needed given uniEntityMap is populated setup at initial ONU bring up |
| for _, uni := range *mm.pDeviceHandler.GetUniEntityMap() { |
| if uni.EntityID == entityID { |
| veipMetrics["uni_port_no"] = float32(uni.PortNo) |
| break |
| } |
| } |
| } |
| veipMetrics["me_class_id"] = float32(me.VirtualEthernetInterfacePointClassID) |
| |
| // create slice of metrics given that there could be more than one VEIP instance |
| metricInfo := voltha.MetricInformation{Metadata: &mmd, Metrics: veipMetrics} |
| metricInfoSlice = append(metricInfoSlice, &metricInfo) |
| } |
| |
| return metricInfoSlice, nil |
| } |
| |
| // publishMetrics publishes the metrics on kafka |
| func (mm *OnuMetricsManager) publishMetrics(ctx context.Context, metricInfo []*voltha.MetricInformation) { |
| var ke voltha.KpiEvent2 |
| ts := time.Now().Unix() |
| ke.SliceData = metricInfo |
| ke.Type = voltha.KpiEventType_slice |
| ke.Ts = float64(ts) |
| |
| if err := mm.pDeviceHandler.GetEventProxy().SendKpiEvent(ctx, "STATS_EVENT", &ke, voltha.EventCategory_EQUIPMENT, voltha.EventSubCategory_ONU, ts); err != nil { |
| logger.Errorw(ctx, "failed-to-send-pon-stats", log.Fields{"err": err}) |
| } |
| } |
| |
| // ProcessOmciMessages - TODO: add comment |
| func (mm *OnuMetricsManager) ProcessOmciMessages(ctx context.Context) { |
| logger.Infow(ctx, "Start routine to process OMCI-GET messages for device-id", log.Fields{"device-id": mm.deviceID}) |
| // Flush metric collection channels to be safe. |
| // It is possible that there is stale data on this channel if the ProcessOmciMessages routine |
| // is stopped right after issuing a OMCI-GET request and started again. |
| // The ProcessOmciMessages routine will get stopped if startCollector routine (in device_handler.go) |
| // is stopped - as a result of ONU going down. |
| mm.flushMetricCollectionChannels(ctx) |
| mm.updateOmciProcessingStatus(true) |
| for { |
| select { |
| case <-mm.StopProcessingOmciResponses: // stop this routine |
| logger.Infow(ctx, "Stop routine to process OMCI-GET messages for device-id", log.Fields{"device-id": mm.deviceID}) |
| mm.updateOmciProcessingStatus(false) |
| return |
| case message, ok := <-mm.PAdaptFsm.CommChan: |
| if !ok { |
| logger.Errorw(ctx, "Message couldn't be read from channel", log.Fields{"device-id": mm.deviceID}) |
| continue |
| } |
| logger.Debugw(ctx, "Received message on ONU metrics channel", log.Fields{"device-id": mm.deviceID}) |
| |
| switch message.Type { |
| case cmn.OMCI: |
| msg, _ := message.Data.(cmn.OmciMessage) |
| mm.handleOmciMessage(ctx, msg) |
| default: |
| logger.Warn(ctx, "Unknown message type received", log.Fields{"device-id": mm.deviceID, "message.Type": message.Type}) |
| } |
| } |
| } |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciMessage(ctx context.Context, msg cmn.OmciMessage) { |
| logger.Debugw(ctx, "omci Msg", log.Fields{"device-id": mm.deviceID, |
| "msgType": msg.OmciMsg.MessageType, "msg": msg}) |
| switch msg.OmciMsg.MessageType { |
| case omci.GetResponseType: |
| //TODO: error handling |
| _ = mm.handleOmciGetResponseMessage(ctx, msg) |
| case omci.SynchronizeTimeResponseType: |
| _ = mm.handleOmciSynchronizeTimeResponseMessage(ctx, msg) |
| case omci.CreateResponseType: |
| _ = mm.handleOmciCreateResponseMessage(ctx, msg) |
| case omci.DeleteResponseType: |
| _ = mm.handleOmciDeleteResponseMessage(ctx, msg) |
| case omci.GetCurrentDataResponseType: |
| _ = mm.handleOmciGetCurrentDataResponseMessage(ctx, msg) |
| case omci.SetResponseType: |
| _ = mm.handleOmciSetResponseMessage(ctx, msg) |
| default: |
| logger.Warnw(ctx, "Unknown Message Type", log.Fields{"msgType": msg.OmciMsg.MessageType}) |
| |
| } |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciGetResponseMessage(ctx context.Context, msg cmn.OmciMessage) error { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeGetResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "omci Msg layer could not be detected for GetResponse - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be detected for GetResponse - handling stopped: %s", mm.deviceID) |
| } |
| msgObj, msgOk := msgLayer.(*omci.GetResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "omci Msg layer could not be assigned for GetResponse - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be assigned for GetResponse - handling stopped: %s", mm.deviceID) |
| } |
| logger.Debugw(ctx, "OMCI GetResponse Data", log.Fields{"device-id": mm.deviceID, "data-fields": msgObj, "result": msgObj.Result}) |
| if msgObj.Result == me.Success { |
| meAttributes := msgObj.Attributes |
| switch msgObj.EntityClass { |
| case me.AniGClassID: |
| mm.opticalMetricsChan <- meAttributes |
| return nil |
| case me.UniGClassID: |
| mm.uniStatusMetricsChan <- meAttributes |
| return nil |
| case me.PhysicalPathTerminationPointEthernetUniClassID: |
| mm.uniStatusMetricsChan <- meAttributes |
| return nil |
| case me.VirtualEthernetInterfacePointClassID: |
| mm.uniStatusMetricsChan <- meAttributes |
| return nil |
| case me.EthernetFramePerformanceMonitoringHistoryDataUpstreamClassID, |
| me.EthernetFramePerformanceMonitoringHistoryDataDownstreamClassID, |
| me.EthernetPerformanceMonitoringHistoryDataClassID, |
| me.FecPerformanceMonitoringHistoryDataClassID, |
| me.GemPortNetworkCtpPerformanceMonitoringHistoryDataClassID: |
| mm.l2PmChan <- meAttributes |
| return nil |
| case me.EthernetFrameExtendedPmClassID, |
| me.EthernetFrameExtendedPm64BitClassID: |
| mm.extendedPmMeChan <- meAttributes |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci get response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| } else { |
| meAttributes := msgObj.Attributes |
| switch msgObj.EntityClass { |
| case me.EthernetFrameExtendedPmClassID, |
| me.EthernetFrameExtendedPm64BitClassID: |
| // not all counters may be supported in which case we have seen some ONUs throwing |
| // AttributeFailure error code, while correctly populating other counters it supports |
| mm.extendedPmMeChan <- meAttributes |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci get response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| } |
| return fmt.Errorf("unhandled-omci-get-response-message") |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciGetCurrentDataResponseMessage(ctx context.Context, msg cmn.OmciMessage) error { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeGetCurrentDataResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "omci Msg layer could not be detected for GetCurrentDataResponse - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be detected for GetCurrentDataResponse - handling stopped: %s", mm.deviceID) |
| } |
| msgObj, msgOk := msgLayer.(*omci.GetCurrentDataResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "omci Msg layer could not be assigned for GetCurrentDataResponse - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be assigned for GetCurrentDataResponse - handling stopped: %s", mm.deviceID) |
| } |
| logger.Debugw(ctx, "OMCI GetCurrentDataResponse Data", log.Fields{"device-id": mm.deviceID, "data-fields": msgObj, "result": msgObj.Result}) |
| if msgObj.Result == me.Success { |
| meAttributes := msgObj.Attributes |
| switch msgObj.EntityClass { |
| case me.EthernetFrameExtendedPmClassID, |
| me.EthernetFrameExtendedPm64BitClassID: |
| mm.extendedPmMeChan <- meAttributes |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci get current data response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| } else { |
| meAttributes := msgObj.Attributes |
| switch msgObj.EntityClass { |
| case me.EthernetFrameExtendedPmClassID, |
| me.EthernetFrameExtendedPm64BitClassID: |
| // not all counters may be supported in which case we have seen some ONUs throwing |
| // AttributeFailure error code, while correctly populating other counters it supports |
| mm.extendedPmMeChan <- meAttributes |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci get current data response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| } |
| return fmt.Errorf("unhandled-omci-get-current-data-response-message") |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciSynchronizeTimeResponseMessage(ctx context.Context, msg cmn.OmciMessage) error { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeSynchronizeTimeResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "omci Msg layer could not be detected for synchronize time response - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be detected for synchronize time response - handling stopped: %s", mm.deviceID) |
| } |
| msgObj, msgOk := msgLayer.(*omci.SynchronizeTimeResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "omci Msg layer could not be assigned for synchronize time response - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be assigned for synchronize time response - handling stopped: %s", mm.deviceID) |
| } |
| logger.Debugw(ctx, "OMCI synchronize time response Data", log.Fields{"device-id": mm.deviceID, "data-fields": msgObj}) |
| if msgObj.Result == me.Success { |
| switch msgObj.EntityClass { |
| case me.OnuGClassID: |
| logger.Infow(ctx, "omci synchronize time success", log.Fields{"device-id": mm.deviceID}) |
| mm.syncTimeResponseChan <- true |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| } |
| mm.syncTimeResponseChan <- false |
| logger.Errorf(ctx, "unhandled-omci-synchronize-time-response-message--error-code-%v", msgObj.Result) |
| return fmt.Errorf("unhandled-omci-synchronize-time-response-message--error-code-%v", msgObj.Result) |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciSetResponseMessage(ctx context.Context, msg cmn.OmciMessage) error { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeSetResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "omci Msg layer could not be detected for SetResponse - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be detected for SetResponse - handling stopped: %s", mm.deviceID) |
| } |
| msgObj, msgOk := msgLayer.(*omci.SetResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "omci Msg layer could not be assigned for SetResponse - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be assigned for SetResponse - handling stopped: %s", mm.deviceID) |
| } |
| logger.Debugw(ctx, "OMCI SetResponse Data", log.Fields{"device-id": mm.deviceID, "data-fields": msgObj, "result": msgObj.Result}) |
| switch msgObj.EntityClass { |
| case me.EthernetFrameExtendedPmClassID, |
| me.EthernetFrameExtendedPm64BitClassID: |
| mm.extendedPMMeResponseChan <- msgObj.Result |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci set response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| return fmt.Errorf("unhandled-omci-set-response-message-%v", mm.deviceID) |
| } |
| |
| // flushMetricCollectionChannels flushes all metric collection channels for any stale OMCI responses |
| func (mm *OnuMetricsManager) flushMetricCollectionChannels(ctx context.Context) { |
| // flush commMetricsChan |
| select { |
| case <-mm.PAdaptFsm.CommChan: |
| logger.Debug(ctx, "flushed common metrics channel") |
| default: |
| } |
| |
| // flush opticalMetricsChan |
| select { |
| case <-mm.opticalMetricsChan: |
| logger.Debug(ctx, "flushed optical metrics channel") |
| default: |
| } |
| |
| // flush uniStatusMetricsChan |
| select { |
| case <-mm.uniStatusMetricsChan: |
| logger.Debug(ctx, "flushed uni status metrics channel") |
| default: |
| } |
| |
| // flush syncTimeResponseChan |
| select { |
| case <-mm.syncTimeResponseChan: |
| logger.Debug(ctx, "flushed sync time response channel") |
| default: |
| } |
| |
| // flush l2PmChan |
| select { |
| case <-mm.l2PmChan: |
| logger.Debug(ctx, "flushed L2 PM collection channel") |
| default: |
| } |
| |
| // flush StopTicks |
| select { |
| case <-mm.StopTicks: |
| logger.Debug(ctx, "flushed StopTicks channel") |
| default: |
| } |
| |
| } |
| |
| // ** L2 PM FSM Handlers start ** |
| |
| func (mm *OnuMetricsManager) l2PMFsmStarting(ctx context.Context, e *fsm.Event) { |
| |
| // Loop through all the group metrics |
| // If it is a L2 PM Interval metric and it is enabled, then if it is not in the |
| // list of active L2 PM list then mark it for creation |
| // It it is a L2 PM Interval metric and it is disabled, then if it is in the |
| // list of active L2 PM list then mark it for deletion |
| mm.OnuMetricsManagerLock.Lock() |
| for n, g := range mm.GroupMetricMap { |
| if g.IsL2PMCounter { // it is a l2 pm counter |
| if g.Enabled { // metric enabled. |
| found := false |
| inner1: |
| for _, v := range mm.activeL2Pms { |
| if v == n { |
| found = true // metric already present in active l2 pm list |
| break inner1 |
| } |
| } |
| if !found { // metric not in active l2 pm list. Mark this to be added later |
| mm.l2PmToAdd = mm.appendIfMissingString(mm.l2PmToAdd, n) |
| } |
| } else { // metric not enabled. |
| found := false |
| inner2: |
| for _, v := range mm.activeL2Pms { |
| if v == n { |
| found = true // metric is found in active l2 pm list |
| break inner2 |
| } |
| } |
| if found { // metric is found in active l2 pm list. Mark this to be deleted later |
| mm.l2PmToDelete = mm.appendIfMissingString(mm.l2PmToDelete, n) |
| } |
| } |
| } |
| } |
| mm.OnuMetricsManagerLock.Unlock() |
| logger.Debugw(ctx, "pms to add and delete", |
| log.Fields{"device-id": mm.deviceID, "pms-to-add": mm.l2PmToAdd, "pms-to-delete": mm.l2PmToDelete}) |
| go func() { |
| // push a tick event to move to next state |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventTick); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| |
| func (mm *OnuMetricsManager) l2PMFsmSyncTime(ctx context.Context, e *fsm.Event) { |
| // Sync time with the ONU to establish 15min boundary for PM collection. |
| if err := mm.syncTime(ctx); err != nil { |
| go func() { |
| time.Sleep(SyncTimeRetryInterval * time.Second) // retry to sync time after this timeout |
| // This will result in FSM attempting to sync time again |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventFailure); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| // Initiate a tick generation routine every L2PmCollectionInterval |
| go mm.generateTicks(ctx) |
| |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventSuccess); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| |
| func (mm *OnuMetricsManager) l2PMFsmNull(ctx context.Context, e *fsm.Event) { |
| // We need to reset the local data so that the L2 PM MEs are re-provisioned once the ONU is back up based on the latest PM CONFIG |
| mm.OnuMetricsManagerLock.Lock() |
| mm.activeL2Pms = nil |
| mm.l2PmToAdd = nil |
| mm.l2PmToDelete = nil |
| mm.OnuMetricsManagerLock.Unlock() |
| // If the FSM was stopped, then clear PM data from KV store |
| // The FSM is stopped when ONU goes down. It is time to clear its data from store |
| if e.Event == L2PmEventStop { |
| _ = mm.clearPmGroupData(ctx) // ignore error |
| } |
| |
| } |
| func (mm *OnuMetricsManager) l2PMFsmIdle(ctx context.Context, e *fsm.Event) { |
| logger.Debugw(ctx, "Enter state idle", log.Fields{"device-id": mm.deviceID}) |
| |
| mm.OnuMetricsManagerLock.RLock() |
| numOfPmToDelete := len(mm.l2PmToDelete) |
| numOfPmToAdd := len(mm.l2PmToAdd) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| if numOfPmToDelete > 0 { |
| logger.Debugw(ctx, "state idle - pms to delete", log.Fields{"device-id": mm.deviceID, "pms-to-delete": numOfPmToDelete}) |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventDeleteMe); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } else if numOfPmToAdd > 0 { |
| logger.Debugw(ctx, "state idle - pms to add", log.Fields{"device-id": mm.deviceID, "pms-to-add": numOfPmToAdd}) |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventAddMe); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| } |
| |
| func (mm *OnuMetricsManager) l2PmFsmCollectData(ctx context.Context, e *fsm.Event) { |
| logger.Debugw(ctx, "state collect data", log.Fields{"device-id": mm.deviceID}) |
| // Copy the activeL2Pms for which we want to collect the metrics since activeL2Pms can change dynamically |
| mm.OnuMetricsManagerLock.RLock() |
| copyOfActiveL2Pms := make([]string, len(mm.activeL2Pms)) |
| _ = copy(copyOfActiveL2Pms, mm.activeL2Pms) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| for _, n := range copyOfActiveL2Pms { |
| var metricInfoSlice []*voltha.MetricInformation |
| |
| // mm.GroupMetricMap[n].pmMEData.InstancesActive could dynamically change, so make a copy |
| mm.OnuMetricsManagerLock.RLock() |
| copyOfEntityIDs := make([]uint16, len(mm.GroupMetricMap[n].pmMEData.InstancesActive)) |
| _ = copy(copyOfEntityIDs, mm.GroupMetricMap[n].pmMEData.InstancesActive) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| switch n { |
| case EthernetBridgeHistoryName: |
| logger.Debugw(ctx, "state collect data - collecting data for EthernetFramePerformanceMonitoringHistoryData ME", log.Fields{"device-id": mm.deviceID}) |
| for _, entityID := range copyOfEntityIDs { |
| if metricInfo := mm.collectEthernetFramePerformanceMonitoringHistoryData(ctx, true, entityID); metricInfo != nil { // upstream |
| metricInfoSlice = append(metricInfoSlice, metricInfo) |
| } |
| if metricInfo := mm.collectEthernetFramePerformanceMonitoringHistoryData(ctx, false, entityID); metricInfo != nil { // downstream |
| metricInfoSlice = append(metricInfoSlice, metricInfo) |
| } |
| } |
| case EthernetUniHistoryName: |
| logger.Debugw(ctx, "state collect data - collecting data for EthernetPerformanceMonitoringHistoryData ME", log.Fields{"device-id": mm.deviceID}) |
| for _, entityID := range copyOfEntityIDs { |
| if metricInfo := mm.collectEthernetUniHistoryData(ctx, entityID); metricInfo != nil { // upstream |
| metricInfoSlice = append(metricInfoSlice, metricInfo) |
| } |
| } |
| |
| case FecHistoryName: |
| for _, entityID := range copyOfEntityIDs { |
| if metricInfo := mm.collectFecHistoryData(ctx, entityID); metricInfo != nil { // upstream |
| metricInfoSlice = append(metricInfoSlice, metricInfo) |
| } |
| } |
| case GemPortHistoryName: |
| for _, entityID := range copyOfEntityIDs { |
| if metricInfo := mm.collectGemHistoryData(ctx, entityID); metricInfo != nil { // upstream |
| metricInfoSlice = append(metricInfoSlice, metricInfo) |
| } |
| } |
| |
| default: |
| logger.Errorw(ctx, "unsupported l2 pm", log.Fields{"device-id": mm.deviceID, "name": n}) |
| } |
| mm.handleMetricsPublish(ctx, n, metricInfoSlice) |
| } |
| // Does not matter we send success or failure here. |
| // Those PMs that we failed to collect data will be attempted to collect again in the next PM collection cycle (assuming |
| // we have not exceed max attempts to collect the PM data) |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventSuccess); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) l2PmFsmCreatePM(ctx context.Context, e *fsm.Event) error { |
| // Copy the l2PmToAdd for which we want to collect the metrics since l2PmToAdd can change dynamically |
| mm.OnuMetricsManagerLock.RLock() |
| copyOfL2PmToAdd := make([]string, len(mm.l2PmToAdd)) |
| _ = copy(copyOfL2PmToAdd, mm.l2PmToAdd) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| logger.Debugw(ctx, "state create pm - start", log.Fields{"device-id": mm.deviceID, "pms-to-add": copyOfL2PmToAdd}) |
| for _, n := range copyOfL2PmToAdd { |
| resp := false |
| atLeastOneSuccess := false // flag indicates if at least one ME instance of the PM was successfully created. |
| cnt := 0 |
| switch n { |
| case EthernetBridgeHistoryName: |
| // Create ME twice, one for each direction. Boolean true is used to indicate upstream and false for downstream. |
| for _, direction := range []bool{true, false} { |
| for _, uniPort := range *mm.pDeviceHandler.GetUniEntityMap() { |
| // Attach the EthernetFramePerformanceMonitoringHistoryData ME to MacBridgePortConfigData on the UNI port |
| entityID := cmn.MacBridgePortAniBaseEID + uniPort.EntityID |
| _ = mm.updatePmData(ctx, n, entityID, cPmAdd) // TODO: ignore error for now |
| inner1: |
| // retry L2PmCreateAttempts times to create the instance of PM |
| for cnt = 0; cnt < L2PmCreateAttempts; cnt++ { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteEthernetPerformanceMonitoringHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, direction, true, mm.PAdaptFsm.CommChan, entityID) |
| if err != nil { |
| logger.Errorw(ctx, "EthernetPerformanceMonitoringHistoryME create or delete failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| pPMFsm := mm.PAdaptFsm |
| if pPMFsm != nil { |
| go func(p_pmFsm *cmn.AdapterFsm) { |
| _ = p_pmFsm.PFsm.Event(L2PmEventFailure) |
| }(pPMFsm) |
| } |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteEthernetPerformanceMonitoringHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| if resp = mm.waitForResponseOrTimeout(ctx, true, entityID, "EthernetFramePerformanceMonitoringHistoryData"); resp { |
| atLeastOneSuccess = true |
| _ = mm.updatePmData(ctx, n, entityID, cPmAdded) // TODO: ignore error for now |
| break inner1 |
| } |
| } |
| if cnt == L2PmCreateAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| } |
| case EthernetUniHistoryName: |
| for _, uniPort := range *mm.pDeviceHandler.GetUniEntityMap() { |
| if uniPort.PortType == cmn.UniPPTP { // This metric is only applicable for PPTP Uni Type |
| // Attach the EthernetPerformanceMonitoringHistoryData ME to PPTP port instance |
| entityID := uniPort.EntityID |
| _ = mm.updatePmData(ctx, n, entityID, cPmAdd) // TODO: ignore error for now |
| inner2: |
| // retry L2PmCreateAttempts times to create the instance of PM |
| for cnt = 0; cnt < L2PmCreateAttempts; cnt++ { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteEthernetUniHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, true, mm.PAdaptFsm.CommChan, entityID) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteEthernetUNIHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteEthernetUniHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| if resp = mm.waitForResponseOrTimeout(ctx, true, entityID, "EthernetPerformanceMonitoringHistoryData"); resp { |
| atLeastOneSuccess = true |
| _ = mm.updatePmData(ctx, n, entityID, cPmAdded) // TODO: ignore error for now |
| break inner2 |
| } |
| } |
| if cnt == L2PmCreateAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| } |
| case FecHistoryName: |
| for _, anigInstID := range mm.pOnuDeviceEntry.GetOnuDB().GetSortedInstKeys(ctx, me.AniGClassID) { |
| // Attach the FecPerformanceMonitoringHistoryData ME to the ANI-G ME instance |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteFecHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, true, mm.PAdaptFsm.CommChan, anigInstID) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteFecHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteFecHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| _ = mm.updatePmData(ctx, n, anigInstID, cPmAdd) // TODO: ignore error for now |
| inner3: |
| // retry L2PmCreateAttempts times to create the instance of PM |
| for cnt = 0; cnt < L2PmCreateAttempts; cnt++ { |
| if resp = mm.waitForResponseOrTimeout(ctx, true, anigInstID, "FecPerformanceMonitoringHistoryData"); resp { |
| atLeastOneSuccess = true |
| _ = mm.updatePmData(ctx, n, anigInstID, cPmAdded) // TODO: ignore error for now |
| break inner3 |
| } |
| } |
| if cnt == L2PmCreateAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, anigInstID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| case GemPortHistoryName: |
| |
| mm.OnuMetricsManagerLock.RLock() |
| copyOfGemPortInstIDsToAdd := make([]uint16, len(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd)) |
| _ = copy(copyOfGemPortInstIDsToAdd, mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| if len(copyOfGemPortInstIDsToAdd) == 0 { |
| // If there are no gemport history MEs to be created, just skip further processing |
| // Otherwise down below (after 'switch' case handling) we assume the ME creation failed because resp and atLeastOneSuccess flag are false. |
| // Normally there are no GemPortHistory MEs to create at start up. They come in only after provisioning service on the ONU. |
| mm.OnuMetricsManagerLock.Lock() |
| mm.l2PmToAdd = mm.removeIfFoundString(mm.l2PmToAdd, n) |
| mm.OnuMetricsManagerLock.Unlock() |
| continue |
| } |
| |
| for _, v := range copyOfGemPortInstIDsToAdd { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteGemPortHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, true, mm.PAdaptFsm.CommChan, v) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteGemPortHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteGemPortHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| _ = mm.updatePmData(ctx, n, v, cPmAdd) // TODO: ignore error for now |
| inner4: |
| // retry L2PmCreateAttempts times to create the instance of PM |
| for cnt = 0; cnt < L2PmCreateAttempts; cnt++ { |
| if resp = mm.waitForResponseOrTimeout(ctx, true, v, "GemPortNetworkCtpPerformanceMonitoringHistoryData"); resp { |
| atLeastOneSuccess = true |
| _ = mm.updatePmData(ctx, n, v, cPmAdded) // TODO: ignore error for now |
| break inner4 |
| } |
| } |
| if cnt == L2PmCreateAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, v, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| |
| default: |
| logger.Errorw(ctx, "unsupported l2 pm", log.Fields{"device-id": mm.deviceID, "name": n}) |
| } |
| // On success of at least one instance of the PM for a given ME, update the local list maintained for active PMs and PMs to add |
| if atLeastOneSuccess { |
| mm.OnuMetricsManagerLock.Lock() |
| mm.activeL2Pms = mm.appendIfMissingString(mm.activeL2Pms, n) |
| // gem ports can be added dynamically for perf monitoring. We want to clear the GemPortHistoryName from mm.l2PmToAdd |
| // only if no more new gem port instances created. |
| if n != GemPortHistoryName || (n == GemPortHistoryName && len(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd) == 0) { |
| mm.l2PmToAdd = mm.removeIfFoundString(mm.l2PmToAdd, n) |
| } |
| logger.Debugw(ctx, "success-resp", log.Fields{"pm-name": n, "active-l2-pms": mm.activeL2Pms, "pms-to-add": mm.l2PmToAdd}) |
| mm.OnuMetricsManagerLock.Unlock() |
| } else { |
| // If we are here then no instance of the PM of the given ME were created successfully, so locally disable the PM |
| // and also remove it from l2PmToAdd slice so that we do not try to create the PM ME anymore |
| mm.OnuMetricsManagerLock.Lock() |
| logger.Debugw(ctx, "exceeded-max-add-retry-attempts--disabling-group", log.Fields{"groupName": n}) |
| mm.GroupMetricMap[n].Enabled = false |
| mm.l2PmToAdd = mm.removeIfFoundString(mm.l2PmToAdd, n) |
| |
| logger.Warnw(ctx, "state create pm - failed to create pm", |
| log.Fields{"device-id": mm.deviceID, "metricName": n, |
| "active-l2-pms": mm.activeL2Pms, "pms-to-add": mm.l2PmToAdd}) |
| mm.OnuMetricsManagerLock.Unlock() |
| } |
| } |
| mm.OnuMetricsManagerLock.RLock() |
| logger.Debugw(ctx, "state create pm - done", log.Fields{"device-id": mm.deviceID, "active-l2-pms": mm.activeL2Pms, "pms-to-add": mm.l2PmToAdd}) |
| mm.OnuMetricsManagerLock.RUnlock() |
| // Does not matter we send success or failure here. |
| // Those PMs that we failed to create will be attempted to create again in the next PM creation cycle (assuming |
| // we have not exceed max attempts to create the PM ME) |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventSuccess); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| return nil |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) l2PmFsmDeletePM(ctx context.Context, e *fsm.Event) error { |
| // Copy the l2PmToDelete for which we want to collect the metrics since l2PmToDelete can change dynamically |
| mm.OnuMetricsManagerLock.RLock() |
| copyOfL2PmToDelete := make([]string, len(mm.l2PmToDelete)) |
| _ = copy(copyOfL2PmToDelete, mm.l2PmToDelete) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| logger.Debugw(ctx, "state delete pm", log.Fields{"device-id": mm.deviceID, "pms-to-delete": copyOfL2PmToDelete}) |
| for _, n := range copyOfL2PmToDelete { |
| resp := false |
| cnt := 0 |
| atLeastOneDeleteFailure := false |
| |
| // mm.GroupMetricMap[n].pmMEData.InstancesActive could dynamically change, so make a copy |
| mm.OnuMetricsManagerLock.RLock() |
| copyOfEntityIDs := make([]uint16, len(mm.GroupMetricMap[n].pmMEData.InstancesActive)) |
| _ = copy(copyOfEntityIDs, mm.GroupMetricMap[n].pmMEData.InstancesActive) |
| mm.OnuMetricsManagerLock.RUnlock() |
| |
| if len(copyOfEntityIDs) == 0 { |
| // if there are no enityIDs to remove for the PM ME just clear the PM name entry from cache and continue |
| mm.OnuMetricsManagerLock.Lock() |
| mm.activeL2Pms = mm.removeIfFoundString(mm.activeL2Pms, n) |
| mm.l2PmToDelete = mm.removeIfFoundString(mm.l2PmToDelete, n) |
| logger.Debugw(ctx, "success-resp", log.Fields{"pm-name": n, "active-l2-pms": mm.activeL2Pms, "pms-to-delete": mm.l2PmToDelete}) |
| mm.OnuMetricsManagerLock.Unlock() |
| continue |
| } |
| logger.Debugw(ctx, "entities to delete", log.Fields{"device-id": mm.deviceID, "metricName": n, "entityIDs": copyOfEntityIDs}) |
| switch n { |
| case EthernetBridgeHistoryName: |
| // Create ME twice, one for each direction. Boolean true is used to indicate upstream and false for downstream. |
| for _, direction := range []bool{true, false} { |
| for _, entityID := range copyOfEntityIDs { |
| inner1: |
| // retry L2PmDeleteAttempts times to delete the instance of PM |
| for cnt = 0; cnt < L2PmDeleteAttempts; cnt++ { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteEthernetPerformanceMonitoringHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, direction, false, mm.PAdaptFsm.CommChan, entityID) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteEthernetPerformanceMonitoringHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| pPMFsm := mm.PAdaptFsm |
| if pPMFsm != nil { |
| go func(p_pmFsm *cmn.AdapterFsm) { |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| }(pPMFsm) |
| } |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteEthernetPerformanceMonitoringHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemove) // TODO: ignore error for now |
| if resp = mm.waitForResponseOrTimeout(ctx, false, entityID, "EthernetFramePerformanceMonitoringHistoryData"); !resp { |
| atLeastOneDeleteFailure = true |
| } else { |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| break inner1 |
| } |
| } |
| if cnt == L2PmDeleteAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| } |
| case EthernetUniHistoryName: |
| for _, entityID := range copyOfEntityIDs { |
| inner2: |
| // retry L2PmDeleteAttempts times to delete the instance of PM |
| for cnt = 0; cnt < L2PmDeleteAttempts; cnt++ { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteEthernetUniHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, false, mm.PAdaptFsm.CommChan, entityID) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteEthernetUniHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| pmFsm := mm.PAdaptFsm |
| if pmFsm != nil { |
| go func(p_pmFsm *cmn.AdapterFsm) { |
| _ = p_pmFsm.PFsm.Event(L2PmEventFailure) |
| }(pmFsm) |
| return err |
| } |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteEthernetUniHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| if resp = mm.waitForResponseOrTimeout(ctx, false, entityID, "EthernetPerformanceMonitoringHistoryData"); !resp { |
| atLeastOneDeleteFailure = true |
| } else { |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| break inner2 |
| } |
| } |
| if cnt == L2PmDeleteAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| case FecHistoryName: |
| for _, entityID := range copyOfEntityIDs { |
| inner3: |
| // retry L2PmDeleteAttempts times to delete the instance of PM |
| for cnt = 0; cnt < L2PmDeleteAttempts; cnt++ { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteFecHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, false, mm.PAdaptFsm.CommChan, entityID) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteFecHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteFecHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| if resp := mm.waitForResponseOrTimeout(ctx, false, entityID, "FecPerformanceMonitoringHistoryData"); !resp { |
| atLeastOneDeleteFailure = true |
| } else { |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| break inner3 |
| } |
| } |
| if cnt == L2PmDeleteAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| case GemPortHistoryName: |
| for _, entityID := range copyOfEntityIDs { |
| inner4: |
| // retry L2PmDeleteAttempts times to delete the instance of PM |
| for cnt = 0; cnt < L2PmDeleteAttempts; cnt++ { |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteGemPortHistoryME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, false, mm.PAdaptFsm.CommChan, entityID) |
| if err != nil { |
| logger.Errorw(ctx, "CreateOrDeleteGemPortHistoryME failed, failure PM FSM!", |
| log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("CreateOrDeleteGemPortHistoryMe-failed-%s-%s", |
| mm.deviceID, err)) |
| } |
| if resp = mm.waitForResponseOrTimeout(ctx, false, entityID, "GemPortNetworkCtpPerformanceMonitoringHistoryData"); !resp { |
| atLeastOneDeleteFailure = true |
| } else { |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| break inner4 |
| } |
| } |
| if cnt == L2PmDeleteAttempts { // if we reached max attempts just give up hope on this given instance of the PM ME |
| _ = mm.updatePmData(ctx, n, entityID, cPmRemoved) // TODO: ignore error for now |
| } |
| } |
| default: |
| logger.Errorw(ctx, "unsupported l2 pm", log.Fields{"device-id": mm.deviceID, "name": n}) |
| } |
| // If we could not completely clean up the PM ME then just give up. |
| if atLeastOneDeleteFailure { |
| logger.Warnw(ctx, "state delete pm - failed to delete at least one instance of the PM ME", |
| log.Fields{"device-id": mm.deviceID, "metricName": n, |
| "active-l2-pms": mm.activeL2Pms, "pms-to-delete": mm.l2PmToDelete}) |
| mm.OnuMetricsManagerLock.Lock() |
| logger.Debugw(ctx, "exceeded-max-delete-retry-attempts--disabling-group", log.Fields{"groupName": n}) |
| mm.activeL2Pms = mm.removeIfFoundString(mm.activeL2Pms, n) |
| mm.l2PmToDelete = mm.removeIfFoundString(mm.l2PmToDelete, n) |
| mm.GroupMetricMap[n].Enabled = false |
| mm.OnuMetricsManagerLock.Unlock() |
| } else { // success case |
| mm.OnuMetricsManagerLock.Lock() |
| mm.activeL2Pms = mm.removeIfFoundString(mm.activeL2Pms, n) |
| // gem ports can be deleted dynamically from perf monitoring. We want to clear the GemPortHistoryName from mm.l2PmToDelete |
| // only if no more new gem port instances removed. |
| if n != GemPortHistoryName || (n == GemPortHistoryName && len(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete) == 0) { |
| mm.l2PmToDelete = mm.removeIfFoundString(mm.l2PmToDelete, n) |
| } |
| logger.Debugw(ctx, "success-resp", log.Fields{"pm-name": n, "active-l2-pms": mm.activeL2Pms, "pms-to-delete": mm.l2PmToDelete}) |
| mm.OnuMetricsManagerLock.Unlock() |
| } |
| } |
| mm.OnuMetricsManagerLock.RLock() |
| logger.Debugw(ctx, "state delete pm - done", log.Fields{"device-id": mm.deviceID, "active-l2-pms": mm.activeL2Pms, "pms-to-delete": mm.l2PmToDelete}) |
| mm.OnuMetricsManagerLock.RUnlock() |
| // Does not matter we send success or failure here. |
| // Those PMs that we failed to delete will be attempted to create again in the next PM collection cycle |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventSuccess); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| return nil |
| } |
| |
| // ** L2 PM FSM Handlers end ** |
| |
| // syncTime synchronizes time with the ONU to establish a 15 min boundary for PM collection and reporting. |
| func (mm *OnuMetricsManager) syncTime(ctx context.Context) error { |
| if err := mm.pOnuDeviceEntry.GetDevOmciCC().SendSyncTime(ctx, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan); err != nil { |
| logger.Errorw(ctx, "cannot send sync time request", log.Fields{"device-id": mm.deviceID}) |
| return err |
| } |
| |
| select { |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timed out waiting for sync time response from onu", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("timed-out-waiting-for-sync-time-response-%v", mm.deviceID) |
| case syncTimeRes := <-mm.syncTimeResponseChan: |
| if !syncTimeRes { |
| return fmt.Errorf("failed-to-sync-time-%v", mm.deviceID) |
| } |
| logger.Infow(ctx, "sync time success", log.Fields{"device-id": mm.deviceID}) |
| return nil |
| } |
| } |
| |
| func (mm *OnuMetricsManager) collectEthernetFramePerformanceMonitoringHistoryData(ctx context.Context, upstream bool, entityID uint16) *voltha.MetricInformation { |
| var mEnt *me.ManagedEntity |
| var omciErr me.OmciErrors |
| var classID me.ClassID |
| var meAttributes me.AttributeValueMap |
| logger.Debugw(ctx, "collecting data for EthernetFramePerformanceMonitoringHistoryData", log.Fields{"device-id": mm.deviceID, "entityID": entityID, "upstream": upstream}) |
| meParam := me.ParamData{EntityID: entityID} |
| if upstream { |
| if mEnt, omciErr = me.NewEthernetFramePerformanceMonitoringHistoryDataUpstream(meParam); omciErr == nil || mEnt == nil || omciErr.GetError() != nil { |
| logger.Errorw(ctx, "error creating me", log.Fields{"device-id": mm.deviceID, "entityID": entityID, "upstream": upstream}) |
| return nil |
| } |
| classID = me.EthernetFramePerformanceMonitoringHistoryDataUpstreamClassID |
| } else { |
| if mEnt, omciErr = me.NewEthernetFramePerformanceMonitoringHistoryDataDownstream(meParam); omciErr == nil || mEnt == nil || omciErr.GetError() != nil { |
| logger.Errorw(ctx, "error creating me", log.Fields{"device-id": mm.deviceID, "entityID": entityID, "upstream": upstream}) |
| return nil |
| } |
| classID = me.EthernetFramePerformanceMonitoringHistoryDataDownstreamClassID |
| } |
| |
| intervalEndTime := -1 |
| ethPMHistData := make(map[string]float32) |
| if err := mm.populateGroupSpecificMetrics(ctx, mEnt, classID, entityID, meAttributes, ethPMHistData, &intervalEndTime); err != nil { |
| return nil |
| } |
| |
| // Populate some relevant context for the EthernetFramePerformanceMonitoringHistoryData PM |
| ethPMHistData["class_id"] = float32(classID) |
| ethPMHistData["interval_end_time"] = float32(intervalEndTime) |
| ethPMHistData["parent_class_id"] = float32(me.MacBridgeConfigurationDataClassID) // EthernetFramePerformanceMonitoringHistoryData is attached to MBPCD ME |
| ethPMHistData["parent_entity_id"] = float32(entityID) |
| if upstream { |
| ethPMHistData["upstream"] = float32(1) |
| } else { |
| ethPMHistData["upstream"] = float32(0) |
| } |
| |
| metricInfo := mm.populateOnuMetricInfo(EthernetBridgeHistoryName, ethPMHistData) |
| |
| logger.Debugw(ctx, "collecting data for EthernetFramePerformanceMonitoringHistoryData successful", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "upstream": upstream, "metricInfo": metricInfo}) |
| return &metricInfo |
| } |
| |
| func (mm *OnuMetricsManager) collectEthernetUniHistoryData(ctx context.Context, entityID uint16) *voltha.MetricInformation { |
| var mEnt *me.ManagedEntity |
| var omciErr me.OmciErrors |
| var classID me.ClassID |
| var meAttributes me.AttributeValueMap |
| logger.Debugw(ctx, "collecting data for EthernetFramePerformanceMonitoringHistoryData", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| meParam := me.ParamData{EntityID: entityID} |
| if mEnt, omciErr = me.NewEthernetPerformanceMonitoringHistoryData(meParam); omciErr == nil || mEnt == nil || omciErr.GetError() != nil { |
| logger.Errorw(ctx, "error creating me", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| return nil |
| } |
| classID = me.EthernetPerformanceMonitoringHistoryDataClassID |
| |
| intervalEndTime := -1 |
| ethUniHistData := make(map[string]float32) |
| if err := mm.populateGroupSpecificMetrics(ctx, mEnt, classID, entityID, meAttributes, ethUniHistData, &intervalEndTime); err != nil { |
| return nil |
| } |
| |
| // Populate some relevant context for the EthernetPerformanceMonitoringHistoryData PM |
| ethUniHistData["class_id"] = float32(classID) |
| ethUniHistData["interval_end_time"] = float32(intervalEndTime) |
| |
| metricInfo := mm.populateOnuMetricInfo(EthernetUniHistoryName, ethUniHistData) |
| |
| logger.Debugw(ctx, "collecting data for EthernetPerformanceMonitoringHistoryData successful", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "metricInfo": metricInfo}) |
| return &metricInfo |
| } |
| |
| func (mm *OnuMetricsManager) collectFecHistoryData(ctx context.Context, entityID uint16) *voltha.MetricInformation { |
| var mEnt *me.ManagedEntity |
| var omciErr me.OmciErrors |
| var classID me.ClassID |
| var meAttributes me.AttributeValueMap |
| logger.Debugw(ctx, "collecting data for FecPerformanceMonitoringHistoryData", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| meParam := me.ParamData{EntityID: entityID} |
| if mEnt, omciErr = me.NewFecPerformanceMonitoringHistoryData(meParam); omciErr == nil || mEnt == nil || omciErr.GetError() != nil { |
| logger.Errorw(ctx, "error creating me", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| return nil |
| } |
| classID = me.FecPerformanceMonitoringHistoryDataClassID |
| |
| intervalEndTime := -1 |
| fecHistData := make(map[string]float32) |
| if err := mm.populateGroupSpecificMetrics(ctx, mEnt, classID, entityID, meAttributes, fecHistData, &intervalEndTime); err != nil { |
| return nil |
| } |
| |
| // Populate some relevant context for the EthernetPerformanceMonitoringHistoryData PM |
| fecHistData["class_id"] = float32(classID) |
| fecHistData["interval_end_time"] = float32(intervalEndTime) |
| |
| metricInfo := mm.populateOnuMetricInfo(FecHistoryName, fecHistData) |
| |
| logger.Debugw(ctx, "collecting data for FecPerformanceMonitoringHistoryData successful", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "metricInfo": metricInfo}) |
| return &metricInfo |
| } |
| |
| func (mm *OnuMetricsManager) collectGemHistoryData(ctx context.Context, entityID uint16) *voltha.MetricInformation { |
| var mEnt *me.ManagedEntity |
| var omciErr me.OmciErrors |
| var classID me.ClassID |
| var meAttributes me.AttributeValueMap |
| logger.Debugw(ctx, "collecting data for GemPortNetworkCtpPerformanceMonitoringHistoryData", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| meParam := me.ParamData{EntityID: entityID} |
| if mEnt, omciErr = me.NewGemPortNetworkCtpPerformanceMonitoringHistoryData(meParam); omciErr == nil || mEnt == nil || omciErr.GetError() != nil { |
| logger.Errorw(ctx, "error creating me", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| return nil |
| } |
| classID = me.GemPortNetworkCtpPerformanceMonitoringHistoryDataClassID |
| |
| intervalEndTime := -1 |
| gemHistData := make(map[string]float32) |
| if err := mm.populateGroupSpecificMetrics(ctx, mEnt, classID, entityID, meAttributes, gemHistData, &intervalEndTime); err != nil { |
| return nil |
| } |
| |
| // Populate some relevant context for the GemPortNetworkCtpPerformanceMonitoringHistoryData PM |
| gemHistData["class_id"] = float32(classID) |
| gemHistData["interval_end_time"] = float32(intervalEndTime) |
| |
| metricInfo := mm.populateOnuMetricInfo(GemPortHistoryName, gemHistData) |
| |
| logger.Debugw(ctx, "collecting data for GemPortNetworkCtpPerformanceMonitoringHistoryData successful", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "metricInfo": metricInfo}) |
| return &metricInfo |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) populateEthernetBridgeHistoryMetrics(ctx context.Context, classID me.ClassID, entityID uint16, |
| meAttributes me.AttributeValueMap, requestedAttributes me.AttributeValueMap, ethPMHistData map[string]float32, intervalEndTime *int) error { |
| upstream := false |
| if classID == me.EthernetFramePerformanceMonitoringHistoryDataUpstreamClassID { |
| upstream = true |
| } |
| // Insert "IntervalEndTime" as part of the requested attributes as we need this to compare the get responses when get request is multipart |
| requestedAttributes["IntervalEndTime"] = 0 |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, classID, entityID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetME failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| pmFsm := mm.PAdaptFsm |
| if pmFsm != nil { |
| go func(p_pmFsm *cmn.AdapterFsm) { |
| _ = p_pmFsm.PFsm.Event(L2PmEventFailure) |
| }(pmFsm) |
| return err |
| } |
| return fmt.Errorf(fmt.Sprintf("GetME-failed-%s-%s", mm.deviceID, err)) |
| } |
| if meInstance != nil { |
| select { |
| case meAttributes = <-mm.l2PmChan: |
| logger.Debugw(ctx, "received ethernet pm history data metrics", |
| log.Fields{"device-id": mm.deviceID, "upstream": upstream, "entityID": entityID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for ethernet pm history data", |
| log.Fields{"device-id": mm.deviceID, "upstream": upstream, "entityID": entityID}) |
| // The metrics will be empty in this case |
| return fmt.Errorf("timeout-during-l2-pm-collection-for-ethernet-bridge-history-%v", mm.deviceID) |
| } |
| // verify that interval end time has not changed during metric collection. If it changed, we abort the procedure |
| if valid := mm.updateAndValidateIntervalEndTime(ctx, entityID, meAttributes, intervalEndTime); !valid { |
| return fmt.Errorf("interval-end-time-changed-during-metric-collection-for-ethernet-bridge-history-%v", mm.deviceID) |
| } |
| } |
| for k := range EthernetBridgeHistory { |
| // populate ethPMHistData only if metric key not already present (or populated), since it is possible that we populate |
| // the attributes in multiple iterations for a given L2 PM ME as there is a limit on the max OMCI GET payload size. |
| if _, ok := ethPMHistData[k]; !ok { |
| switch k { |
| case "entity_id": |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint16)) |
| } |
| case "drop_events": |
| if val, ok := meAttributes["DropEvents"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "octets": |
| if val, ok := meAttributes["Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "packets": |
| if val, ok := meAttributes["Packets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "broadcast_packets": |
| if val, ok := meAttributes["BroadcastPackets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "multicast_packets": |
| if val, ok := meAttributes["MulticastPackets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "crc_errored_packets": |
| if val, ok := meAttributes["CrcErroredPackets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "undersize_packets": |
| if val, ok := meAttributes["UndersizePackets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "oversize_packets": |
| if val, ok := meAttributes["OversizePackets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "64_octets": |
| if val, ok := meAttributes["Packets64Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "65_to_127_octets": |
| if val, ok := meAttributes["Packets65To127Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "128_to_255_octets": |
| if val, ok := meAttributes["Packets128To255Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "256_to_511_octets": |
| if val, ok := meAttributes["Packets256To511Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "512_to_1023_octets": |
| if val, ok := meAttributes["Packets512To1023Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| case "1024_to_1518_octets": |
| if val, ok := meAttributes["Packets1024To1518Octets"]; ok && val != nil { |
| ethPMHistData[k] = float32(val.(uint32)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| return nil |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) populateEthernetUniHistoryMetrics(ctx context.Context, classID me.ClassID, entityID uint16, |
| meAttributes me.AttributeValueMap, requestedAttributes me.AttributeValueMap, ethPMUniHistData map[string]float32, intervalEndTime *int) error { |
| // Insert "IntervalEndTime" as part of the requested attributes as we need this to compare the get responses when get request is multipart |
| if _, ok := requestedAttributes["IntervalEndTime"]; !ok { |
| requestedAttributes["IntervalEndTime"] = 0 |
| } |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, classID, entityID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetMe failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("GetME-failed-%s-%s", mm.deviceID, err)) |
| } |
| if meInstance != nil { |
| select { |
| case meAttributes = <-mm.l2PmChan: |
| logger.Debugw(ctx, "received ethernet uni history data metrics", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for ethernet uni history data", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| // The metrics will be empty in this case |
| return fmt.Errorf("timeout-during-l2-pm-collection-for-ethernet-uni-history-%v", mm.deviceID) |
| } |
| // verify that interval end time has not changed during metric collection. If it changed, we abort the procedure |
| if valid := mm.updateAndValidateIntervalEndTime(ctx, entityID, meAttributes, intervalEndTime); !valid { |
| return fmt.Errorf("interval-end-time-changed-during-metric-collection-for-ethernet-uni-history-%v", mm.deviceID) |
| } |
| } |
| for k := range EthernetUniHistory { |
| // populate ethPMUniHistData only if metric key not already present (or populated), since it is possible that we populate |
| // the attributes in multiple iterations for a given L2 PM ME as there is a limit on the max OMCI GET payload size. |
| if _, ok := ethPMUniHistData[k]; !ok { |
| switch k { |
| case "entity_id": |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint16)) |
| } |
| case "fcs_errors": |
| if val, ok := meAttributes["FcsErrors"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "excessive_collision_counter": |
| if val, ok := meAttributes["ExcessiveCollisionCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "late_collision_counter": |
| if val, ok := meAttributes["LateCollisionCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "frames_too_long": |
| if val, ok := meAttributes["FramesTooLong"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "buffer_overflows_on_rx": |
| if val, ok := meAttributes["BufferOverflowsOnReceive"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "buffer_overflows_on_tx": |
| if val, ok := meAttributes["BufferOverflowsOnTransmit"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "single_collision_frame_counter": |
| if val, ok := meAttributes["SingleCollisionFrameCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "multiple_collisions_frame_counter": |
| if val, ok := meAttributes["MultipleCollisionsFrameCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "sqe_counter": |
| if val, ok := meAttributes["SqeCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "deferred_tx_counter": |
| if val, ok := meAttributes["DeferredTransmissionCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "internal_mac_tx_error_counter": |
| if val, ok := meAttributes["InternalMacTransmitErrorCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "carrier_sense_error_counter": |
| if val, ok := meAttributes["CarrierSenseErrorCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "alignment_error_counter": |
| if val, ok := meAttributes["AlignmentErrorCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| case "internal_mac_rx_error_counter": |
| if val, ok := meAttributes["InternalMacReceiveErrorCounter"]; ok && val != nil { |
| ethPMUniHistData[k] = float32(val.(uint32)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| return nil |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) populateFecHistoryMetrics(ctx context.Context, classID me.ClassID, entityID uint16, |
| meAttributes me.AttributeValueMap, requestedAttributes me.AttributeValueMap, fecHistData map[string]float32, intervalEndTime *int) error { |
| // Insert "IntervalEndTime" as part of the requested attributes as we need this to compare the get responses when get request is multipart |
| if _, ok := requestedAttributes["IntervalEndTime"]; !ok { |
| requestedAttributes["IntervalEndTime"] = 0 |
| } |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, classID, entityID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetMe failed, failure PM FSM!", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("GetME-failed-%s-%s", mm.deviceID, err)) |
| } |
| if meInstance != nil { |
| select { |
| case meAttributes = <-mm.l2PmChan: |
| logger.Debugw(ctx, "received fec history data metrics", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for fec history data", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| // The metrics will be empty in this case |
| return fmt.Errorf("timeout-during-l2-pm-collection-for-fec-history-%v", mm.deviceID) |
| } |
| // verify that interval end time has not changed during metric collection. If it changed, we abort the procedure |
| if valid := mm.updateAndValidateIntervalEndTime(ctx, entityID, meAttributes, intervalEndTime); !valid { |
| return fmt.Errorf("interval-end-time-changed-during-metric-collection-for-fec-history-%v", mm.deviceID) |
| } |
| } |
| for k := range FecHistory { |
| // populate fecHistData only if metric key not already present (or populated), since it is possible that we populate |
| // the attributes in multiple iterations for a given L2 PM ME as there is a limit on the max OMCI GET payload size. |
| if _, ok := fecHistData[k]; !ok { |
| switch k { |
| case "entity_id": |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| fecHistData[k] = float32(val.(uint16)) |
| } |
| case "corrected_bytes": |
| if val, ok := meAttributes["CorrectedBytes"]; ok && val != nil { |
| fecHistData[k] = float32(val.(uint32)) |
| } |
| case "corrected_code_words": |
| if val, ok := meAttributes["CorrectedCodeWords"]; ok && val != nil { |
| fecHistData[k] = float32(val.(uint32)) |
| } |
| case "uncorrectable_code_words": |
| if val, ok := meAttributes["UncorrectableCodeWords"]; ok && val != nil { |
| fecHistData[k] = float32(val.(uint32)) |
| } |
| case "total_code_words": |
| if val, ok := meAttributes["TotalCodeWords"]; ok && val != nil { |
| fecHistData[k] = float32(val.(uint32)) |
| } |
| case "fec_seconds": |
| if val, ok := meAttributes["FecSeconds"]; ok && val != nil { |
| fecHistData[k] = float32(val.(uint16)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| return nil |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) populateGemPortMetrics(ctx context.Context, classID me.ClassID, entityID uint16, |
| meAttributes me.AttributeValueMap, requestedAttributes me.AttributeValueMap, gemPortHistData map[string]float32, intervalEndTime *int) error { |
| // Insert "IntervalEndTime" is part of the requested attributes as we need this to compare the get responses when get request is multipart |
| if _, ok := requestedAttributes["IntervalEndTime"]; !ok { |
| requestedAttributes["IntervalEndTime"] = 0 |
| } |
| meInstance, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMe(ctx, classID, entityID, requestedAttributes, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "GetMe failed", log.Fields{"device-id": mm.deviceID}) |
| _ = mm.PAdaptFsm.PFsm.Event(L2PmEventFailure) |
| return fmt.Errorf(fmt.Sprintf("GetME-failed-%s-%s", mm.deviceID, err)) |
| } |
| if meInstance != nil { |
| select { |
| case meAttributes = <-mm.l2PmChan: |
| logger.Debugw(ctx, "received gem port history data metrics", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for omci-get response for gem port history data", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| // The metrics will be empty in this case |
| return fmt.Errorf("timeout-during-l2-pm-collection-for-gemport-history-%v", mm.deviceID) |
| } |
| // verify that interval end time has not changed during metric collection. If it changed, we abort the procedure |
| if valid := mm.updateAndValidateIntervalEndTime(ctx, entityID, meAttributes, intervalEndTime); !valid { |
| return fmt.Errorf("interval-end-time-changed-during-metric-collection-for-gemport-history-%v", mm.deviceID) |
| } |
| } |
| for k := range GemPortHistory { |
| // populate gemPortHistData only if metric key not already present (or populated), since it is possible that we populate |
| // the attributes in multiple iterations for a given L2 PM ME as there is a limit on the max OMCI GET payload size. |
| if _, ok := gemPortHistData[k]; !ok { |
| switch k { |
| case "entity_id": |
| if val, ok := meAttributes["ManagedEntityId"]; ok && val != nil { |
| gemPortHistData[k] = float32(val.(uint16)) |
| } |
| case "transmitted_gem_frames": |
| if val, ok := meAttributes["TransmittedGemFrames"]; ok && val != nil { |
| gemPortHistData[k] = float32(val.(uint32)) |
| } |
| case "received_gem_frames": |
| if val, ok := meAttributes["ReceivedGemFrames"]; ok && val != nil { |
| gemPortHistData[k] = float32(val.(uint32)) |
| } |
| case "received_payload_bytes": |
| if val, ok := meAttributes["ReceivedPayloadBytes"]; ok && val != nil { |
| gemPortHistData[k] = float32(val.(uint64)) |
| } |
| case "transmitted_payload_bytes": |
| if val, ok := meAttributes["TransmittedPayloadBytes"]; ok && val != nil { |
| gemPortHistData[k] = float32(val.(uint64)) |
| } |
| case "encryption_key_errors": |
| if val, ok := meAttributes["EncryptionKeyErrors"]; ok && val != nil { |
| gemPortHistData[k] = float32(val.(uint32)) |
| } |
| default: |
| // do nothing |
| } |
| } |
| } |
| return nil |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciCreateResponseMessage(ctx context.Context, msg cmn.OmciMessage) error { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeCreateResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "omci Msg layer could not be detected for create response - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be detected for create response - handling stopped: %s", mm.deviceID) |
| } |
| msgObj, msgOk := msgLayer.(*omci.CreateResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "omci Msg layer could not be assigned for create response - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be assigned for delete response - handling stopped: %s", mm.deviceID) |
| } |
| logger.Debugw(ctx, "OMCI create response Data", log.Fields{"device-id": mm.deviceID, "data-fields": msgObj}) |
| switch msgObj.EntityClass { |
| case me.EthernetFramePerformanceMonitoringHistoryDataUpstreamClassID, |
| me.EthernetFramePerformanceMonitoringHistoryDataDownstreamClassID, |
| me.EthernetPerformanceMonitoringHistoryDataClassID, |
| me.FecPerformanceMonitoringHistoryDataClassID, |
| me.GemPortNetworkCtpPerformanceMonitoringHistoryDataClassID: |
| // If the result is me.InstanceExists it means the entity was already created. It is ok handled that as success |
| if msgObj.Result == me.Success || msgObj.Result == me.InstanceExists { |
| mm.l2PmCreateOrDeleteResponseChan <- true |
| } else { |
| logger.Warnw(ctx, "failed to create me", log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| mm.l2PmCreateOrDeleteResponseChan <- false |
| } |
| return nil |
| case me.EthernetFrameExtendedPmClassID, |
| me.EthernetFrameExtendedPm64BitClassID: |
| mm.extendedPMMeResponseChan <- msgObj.Result |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci create response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| return fmt.Errorf("unhandled-omci-create-response-message-%v", mm.deviceID) |
| } |
| |
| func (mm *OnuMetricsManager) handleOmciDeleteResponseMessage(ctx context.Context, msg cmn.OmciMessage) error { |
| msgLayer := (*msg.OmciPacket).Layer(omci.LayerTypeDeleteResponse) |
| if msgLayer == nil { |
| logger.Errorw(ctx, "omci Msg layer could not be detected for delete response - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be detected for create response - handling stopped: %s", mm.deviceID) |
| } |
| msgObj, msgOk := msgLayer.(*omci.DeleteResponse) |
| if !msgOk { |
| logger.Errorw(ctx, "omci Msg layer could not be assigned for delete response - handling stopped", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf("omci Msg layer could not be assigned for delete response - handling stopped: %s", mm.deviceID) |
| } |
| logger.Debugw(ctx, "OMCI delete response Data", log.Fields{"device-id": mm.deviceID, "data-fields": msgObj}) |
| switch msgObj.EntityClass { |
| case me.EthernetFramePerformanceMonitoringHistoryDataUpstreamClassID, |
| me.EthernetFramePerformanceMonitoringHistoryDataDownstreamClassID, |
| me.EthernetPerformanceMonitoringHistoryDataClassID, |
| me.FecPerformanceMonitoringHistoryDataClassID, |
| me.GemPortNetworkCtpPerformanceMonitoringHistoryDataClassID: |
| // If the result is me.UnknownInstance it means the entity was already deleted. It is ok handled that as success |
| if msgObj.Result == me.Success || msgObj.Result == me.UnknownInstance { |
| mm.l2PmCreateOrDeleteResponseChan <- true |
| } else { |
| logger.Warnw(ctx, "failed to delete me", log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| mm.l2PmCreateOrDeleteResponseChan <- false |
| } |
| return nil |
| default: |
| logger.Errorw(ctx, "unhandled omci delete response message", |
| log.Fields{"device-id": mm.deviceID, "class-id": msgObj.EntityClass}) |
| } |
| return fmt.Errorf("unhandled-omci-delete-response-message-%v", mm.deviceID) |
| } |
| |
| func (mm *OnuMetricsManager) generateTicks(ctx context.Context) { |
| mm.updateTickGenerationStatus(true) |
| for { |
| select { |
| case <-time.After(L2PmCollectionInterval * time.Second): |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventTick); err != nil { |
| logger.Errorw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| case <-mm.StopTicks: |
| logger.Infow(ctx, "stopping ticks", log.Fields{"device-id": mm.deviceID}) |
| mm.updateTickGenerationStatus(false) |
| return |
| } |
| } |
| } |
| |
| func (mm *OnuMetricsManager) handleMetricsPublish(ctx context.Context, metricName string, metricInfoSlice []*voltha.MetricInformation) { |
| // Publish metrics if it is valid |
| if metricInfoSlice != nil { |
| mm.publishMetrics(ctx, metricInfoSlice) |
| } else { |
| // If collectAttempts exceeds L2PmCollectAttempts then remove it from activeL2Pms |
| // slice so that we do not collect data from that PM ME anymore |
| mm.OnuMetricsManagerLock.Lock() |
| mm.GroupMetricMap[metricName].collectAttempts++ |
| if mm.GroupMetricMap[metricName].collectAttempts > L2PmCollectAttempts { |
| mm.activeL2Pms = mm.removeIfFoundString(mm.activeL2Pms, metricName) |
| } |
| logger.Warnw(ctx, "state collect data - no metrics collected", |
| log.Fields{"device-id": mm.deviceID, "metricName": metricName, "collectAttempts": mm.GroupMetricMap[metricName].collectAttempts}) |
| mm.OnuMetricsManagerLock.Unlock() |
| } |
| } |
| |
| func (mm *OnuMetricsManager) populateGroupSpecificMetrics(ctx context.Context, mEnt *me.ManagedEntity, classID me.ClassID, entityID uint16, |
| meAttributes me.AttributeValueMap, data map[string]float32, intervalEndTime *int) error { |
| var grpFunc groupMetricPopulateFunc |
| switch classID { |
| case me.EthernetFramePerformanceMonitoringHistoryDataUpstreamClassID, me.EthernetFramePerformanceMonitoringHistoryDataDownstreamClassID: |
| grpFunc = mm.populateEthernetBridgeHistoryMetrics |
| case me.EthernetPerformanceMonitoringHistoryDataClassID: |
| grpFunc = mm.populateEthernetUniHistoryMetrics |
| case me.FecPerformanceMonitoringHistoryDataClassID: |
| grpFunc = mm.populateFecHistoryMetrics |
| case me.GemPortNetworkCtpPerformanceMonitoringHistoryDataClassID: |
| grpFunc = mm.populateGemPortMetrics |
| default: |
| return fmt.Errorf("unknown-classid-%v", classID) |
| } |
| |
| size := 0 |
| requestedAttributes := make(me.AttributeValueMap) |
| for _, v := range mEnt.GetAttributeDefinitions() { |
| if v.Name == "ManagedEntityId" || v.Name == "IntervalEndTime" || v.Name == "ThresholdData12Id" { |
| // Exclude the ManagedEntityId , it will be inserted by omci library based on 'entityID' information |
| // Exclude IntervalEndTime. It will be inserted by the group PM populater function. |
| // Exclude ThresholdData12Id as that is of no particular relevance for metrics collection. |
| continue |
| } |
| if (v.Size + size) <= MaxL2PMGetPayLoadSize { |
| requestedAttributes[v.Name] = v.DefValue |
| size = v.Size + size |
| } else { // We exceeded the allow omci get size |
| // Let's collect the attributes via get now and collect remaining in the next iteration |
| if err := grpFunc(ctx, classID, entityID, meAttributes, requestedAttributes, data, intervalEndTime); err != nil { |
| logger.Errorw(ctx, "error during metric collection", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "err": err}) |
| return err |
| } |
| requestedAttributes = make(me.AttributeValueMap) // reset map |
| requestedAttributes[v.Name] = v.DefValue // populate the metric that was missed in the current iteration |
| size = v.Size // reset size |
| } |
| } |
| // Collect the omci get attributes for the last bunch of attributes. |
| if err := grpFunc(ctx, classID, entityID, meAttributes, requestedAttributes, data, intervalEndTime); err != nil { |
| logger.Errorw(ctx, "error during metric collection", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "err": err}) |
| return err |
| } |
| return nil |
| } |
| |
| func (mm *OnuMetricsManager) populateOnuMetricInfo(title string, data map[string]float32) voltha.MetricInformation { |
| metricsContext := make(map[string]string) |
| metricsContext["onuID"] = fmt.Sprintf("%d", mm.pDeviceHandler.GetDevice().ProxyAddress.OnuId) |
| metricsContext["intfID"] = fmt.Sprintf("%d", mm.pDeviceHandler.GetDevice().ProxyAddress.ChannelId) |
| metricsContext["devicetype"] = mm.pDeviceHandler.GetDeviceType() |
| |
| raisedTs := time.Now().Unix() |
| mmd := voltha.MetricMetaData{ |
| Title: title, |
| Ts: float64(raisedTs), |
| Context: metricsContext, |
| DeviceId: mm.deviceID, |
| LogicalDeviceId: mm.pDeviceHandler.GetLogicalDeviceID(), |
| SerialNo: mm.pDeviceHandler.GetDevice().SerialNumber, |
| } |
| |
| // create slice of metrics given that there could be more than one VEIP instance |
| metricInfo := voltha.MetricInformation{Metadata: &mmd, Metrics: data} |
| return metricInfo |
| } |
| |
| func (mm *OnuMetricsManager) updateAndValidateIntervalEndTime(ctx context.Context, entityID uint16, meAttributes me.AttributeValueMap, intervalEndTime *int) bool { |
| valid := false |
| if *intervalEndTime == -1 { // first time |
| // Update the interval end time |
| if val, ok := meAttributes["IntervalEndTime"]; ok && val != nil { |
| *intervalEndTime = int(meAttributes["IntervalEndTime"].(uint8)) |
| valid = true |
| } |
| } else { |
| var currIntervalEndTime int |
| if val, ok := meAttributes["IntervalEndTime"]; ok && val != nil { |
| currIntervalEndTime = int(meAttributes["IntervalEndTime"].(uint8)) |
| } |
| if currIntervalEndTime != *intervalEndTime { // interval end time changed during metric collection |
| logger.Errorw(ctx, "interval end time changed during metrics collection for ethernet pm history data", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, |
| "currIntervalEndTime": *intervalEndTime, "newIntervalEndTime": currIntervalEndTime}) |
| } else { |
| valid = true |
| } |
| } |
| return valid |
| } |
| |
| func (mm *OnuMetricsManager) waitForResponseOrTimeout(ctx context.Context, create bool, instID uint16, meClassName string) bool { |
| logger.Debugw(ctx, "waitForResponseOrTimeout", log.Fields{"create": create, "instID": instID, "meClassName": meClassName}) |
| select { |
| case resp := <-mm.l2PmCreateOrDeleteResponseChan: |
| logger.Debugw(ctx, "received l2 pm me response", |
| log.Fields{"device-id": mm.deviceID, "resp": resp, "create": create, "meClassName": meClassName, "instID": instID}) |
| return resp |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout waiting for l2 pm me response", |
| log.Fields{"device-id": mm.deviceID, "resp": false, "create": create, "meClassName": meClassName, "instID": instID}) |
| } |
| return false |
| } |
| |
| func (mm *OnuMetricsManager) initializeGroupMetric(grpMtrcs map[string]voltha.PmConfig_PmType, grpName string, grpEnabled bool, grpFreq uint32) { |
| var pmConfigSlice []*voltha.PmConfig |
| for k, v := range grpMtrcs { |
| pmConfigSlice = append(pmConfigSlice, |
| &voltha.PmConfig{ |
| Name: k, |
| Type: v, |
| Enabled: grpEnabled && mm.pDeviceHandler.GetMetricsEnabled(), |
| SampleFreq: grpFreq}) |
| } |
| groupMetric := voltha.PmGroupConfig{ |
| GroupName: grpName, |
| Enabled: grpEnabled && mm.pDeviceHandler.GetMetricsEnabled(), |
| GroupFreq: grpFreq, |
| Metrics: pmConfigSlice, |
| } |
| mm.pDeviceHandler.GetPmConfigs().Groups = append(mm.pDeviceHandler.GetPmConfigs().Groups, &groupMetric) |
| |
| } |
| |
| func (mm *OnuMetricsManager) initializeL2PmFsm(ctx context.Context, aCommChannel chan cmn.Message) error { |
| mm.PAdaptFsm = cmn.NewAdapterFsm("L2PmFSM", mm.deviceID, aCommChannel) |
| if mm.PAdaptFsm == nil { |
| logger.Errorw(ctx, "L2PMFsm cmn.AdapterFsm could not be instantiated!!", log.Fields{ |
| "device-id": mm.deviceID}) |
| return fmt.Errorf("nil-adapter-fsm") |
| } |
| // L2 PM FSM related state machine |
| mm.PAdaptFsm.PFsm = fsm.NewFSM( |
| L2PmStNull, |
| fsm.Events{ |
| {Name: L2PmEventInit, Src: []string{L2PmStNull}, Dst: L2PmStStarting}, |
| {Name: L2PmEventTick, Src: []string{L2PmStStarting}, Dst: L2PmStSyncTime}, |
| {Name: L2PmEventTick, Src: []string{L2PmStIdle, L2PmStCreatePmMe, L2PmStDeletePmMe}, Dst: L2PmStCollectData}, |
| {Name: L2PmEventSuccess, Src: []string{L2PmStSyncTime, L2PmStCreatePmMe, L2PmStDeletePmMe, L2PmStCollectData}, Dst: L2PmStIdle}, |
| {Name: L2PmEventFailure, Src: []string{L2PmStCreatePmMe, L2PmStDeletePmMe, L2PmStCollectData}, Dst: L2PmStIdle}, |
| {Name: L2PmEventFailure, Src: []string{L2PmStSyncTime}, Dst: L2PmStSyncTime}, |
| {Name: L2PmEventAddMe, Src: []string{L2PmStIdle}, Dst: L2PmStCreatePmMe}, |
| {Name: L2PmEventDeleteMe, Src: []string{L2PmStIdle}, Dst: L2PmStDeletePmMe}, |
| {Name: L2PmEventStop, Src: []string{L2PmStNull, L2PmStStarting, L2PmStSyncTime, L2PmStIdle, L2PmStCreatePmMe, L2PmStDeletePmMe, L2PmStCollectData}, Dst: L2PmStNull}, |
| }, |
| fsm.Callbacks{ |
| "enter_state": func(e *fsm.Event) { mm.PAdaptFsm.LogFsmStateChange(ctx, e) }, |
| "enter_" + L2PmStNull: func(e *fsm.Event) { mm.l2PMFsmNull(ctx, e) }, |
| "enter_" + L2PmStIdle: func(e *fsm.Event) { mm.l2PMFsmIdle(ctx, e) }, |
| "enter_" + L2PmStStarting: func(e *fsm.Event) { mm.l2PMFsmStarting(ctx, e) }, |
| "enter_" + L2PmStSyncTime: func(e *fsm.Event) { mm.l2PMFsmSyncTime(ctx, e) }, |
| "enter_" + L2PmStCollectData: func(e *fsm.Event) { mm.l2PmFsmCollectData(ctx, e) }, |
| "enter_" + L2PmStCreatePmMe: func(e *fsm.Event) { _ = mm.l2PmFsmCreatePM(ctx, e) }, |
| "enter_" + L2PmStDeletePmMe: func(e *fsm.Event) { _ = mm.l2PmFsmDeletePM(ctx, e) }, |
| }, |
| ) |
| return nil |
| } |
| |
| func (mm *OnuMetricsManager) initializeAllGroupMetrics() { |
| mm.pDeviceHandler.InitPmConfigs() |
| mm.pDeviceHandler.GetPmConfigs().Id = mm.deviceID |
| mm.pDeviceHandler.GetPmConfigs().DefaultFreq = DefaultMetricCollectionFrequency |
| mm.pDeviceHandler.GetPmConfigs().Grouped = GroupMetricEnabled |
| mm.pDeviceHandler.GetPmConfigs().FreqOverride = DefaultFrequencyOverrideEnabled |
| |
| // Populate group metrics. |
| // Lets populate irrespective of GroupMetricEnabled is true or not. |
| // The group metrics collection will decided on this flag later |
| |
| mm.initializeGroupMetric(OpticalPowerGroupMetrics, OpticalPowerGroupMetricName, |
| OpticalPowerGroupMetricEnabled, OpticalPowerMetricGroupCollectionFrequency) |
| |
| mm.initializeGroupMetric(UniStatusGroupMetrics, UniStatusGroupMetricName, |
| UniStatusGroupMetricEnabled, UniStatusMetricGroupCollectionFrequency) |
| |
| // classical l2 pm counter start |
| |
| mm.initializeGroupMetric(EthernetBridgeHistory, EthernetBridgeHistoryName, |
| EthernetBridgeHistoryEnabled, EthernetBridgeHistoryFrequency) |
| |
| mm.initializeGroupMetric(EthernetUniHistory, EthernetUniHistoryName, |
| EthernetUniHistoryEnabled, EthernetUniHistoryFrequency) |
| |
| mm.initializeGroupMetric(FecHistory, FecHistoryName, |
| FecHistoryEnabled, FecHistoryFrequency) |
| |
| mm.initializeGroupMetric(GemPortHistory, GemPortHistoryName, |
| GemPortHistoryEnabled, GemPortHistoryFrequency) |
| |
| // classical l2 pm counter end |
| |
| // Add standalone metric (if present) after this (will be added to dh.pmConfigs.Metrics) |
| } |
| |
| func (mm *OnuMetricsManager) populateLocalGroupMetricData(ctx context.Context) { |
| // Populate local group metric structures |
| for _, g := range mm.pDeviceHandler.GetPmConfigs().Groups { |
| mm.GroupMetricMap[g.GroupName] = &groupMetric{ |
| groupName: g.GroupName, |
| Enabled: g.Enabled, |
| Frequency: g.GroupFreq, |
| } |
| switch g.GroupName { |
| case OpticalPowerGroupMetricName: |
| mm.GroupMetricMap[g.GroupName].metricMap = OpticalPowerGroupMetrics |
| case UniStatusGroupMetricName: |
| mm.GroupMetricMap[g.GroupName].metricMap = UniStatusGroupMetrics |
| case EthernetBridgeHistoryName: |
| mm.GroupMetricMap[g.GroupName].metricMap = EthernetBridgeHistory |
| mm.GroupMetricMap[g.GroupName].IsL2PMCounter = true |
| case EthernetUniHistoryName: |
| mm.GroupMetricMap[g.GroupName].metricMap = EthernetUniHistory |
| mm.GroupMetricMap[g.GroupName].IsL2PMCounter = true |
| case FecHistoryName: |
| mm.GroupMetricMap[g.GroupName].metricMap = FecHistory |
| mm.GroupMetricMap[g.GroupName].IsL2PMCounter = true |
| case GemPortHistoryName: |
| mm.GroupMetricMap[g.GroupName].metricMap = GemPortHistory |
| mm.GroupMetricMap[g.GroupName].IsL2PMCounter = true |
| default: |
| logger.Errorw(ctx, "unhandled-group-name", log.Fields{"groupName": g.GroupName}) |
| } |
| } |
| |
| // Populate local standalone metric structures |
| for _, m := range mm.pDeviceHandler.GetPmConfigs().Metrics { |
| mm.StandaloneMetricMap[m.Name] = &standaloneMetric{ |
| metricName: m.Name, |
| Enabled: m.Enabled, |
| Frequency: m.SampleFreq, |
| } |
| switch m.Name { |
| // None exist as of now. Add when available. |
| default: |
| logger.Errorw(ctx, "unhandled-metric-name", log.Fields{"metricName": m.Name}) |
| } |
| } |
| } |
| |
| // AddGemPortForPerfMonitoring - TODO: add comment |
| func (mm *OnuMetricsManager) AddGemPortForPerfMonitoring(ctx context.Context, gemPortNTPInstID uint16) { |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| logger.Debugw(ctx, "add gemport for perf monitoring - start", log.Fields{"device-id": mm.deviceID, "gemPortID": gemPortNTPInstID}) |
| // mark the instance for addition |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd = mm.appendIfMissingUnt16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd, gemPortNTPInstID) |
| // If the instance presence toggles too soon, we need to remove it from gemPortNCTPPerfHistInstToDelete slice |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete = mm.removeIfFoundUint16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete, gemPortNTPInstID) |
| |
| mm.l2PmToAdd = mm.appendIfMissingString(mm.l2PmToAdd, GemPortHistoryName) |
| // We do not need to remove from l2PmToDelete slice as we could have Add and Delete of |
| // GemPortPerfHistory ME simultaneously for different instances of the ME. |
| // The creation or deletion of an instance is decided based on its presence in gemPortNCTPPerfHistInstToDelete or |
| // gemPortNCTPPerfHistInstToAdd slice |
| |
| logger.Debugw(ctx, "add gemport for perf monitoring - end", |
| log.Fields{"device-id": mm.deviceID, "pms-to-add": mm.l2PmToAdd, |
| "instances-to-add": mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd}) |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventAddMe); err != nil { |
| // log at warn level as the gem port for monitoring is going to be added eventually |
| logger.Warnw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| |
| // RemoveGemPortForPerfMonitoring - TODO: add comment |
| func (mm *OnuMetricsManager) RemoveGemPortForPerfMonitoring(ctx context.Context, gemPortNTPInstID uint16) { |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| logger.Debugw(ctx, "remove gemport for perf monitoring - start", log.Fields{"device-id": mm.deviceID, "gemPortID": gemPortNTPInstID}) |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete = mm.appendIfMissingUnt16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete, gemPortNTPInstID) |
| // If the instance presence toggles too soon, we need to remove it from gemPortNCTPPerfHistInstToAdd slice |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd = mm.removeIfFoundUint16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd, gemPortNTPInstID) |
| |
| mm.l2PmToDelete = mm.appendIfMissingString(mm.l2PmToDelete, GemPortHistoryName) |
| // We do not need to remove from l2PmToAdd slice as we could have Add and Delete of |
| // GemPortPerfHistory ME simultaneously for different instances of the ME. |
| // The creation or deletion of an instance is decided based on its presence in gemPortNCTPPerfHistInstToDelete or |
| // gemPortNCTPPerfHistInstToAdd slice |
| |
| logger.Debugw(ctx, "remove gemport from perf monitoring - end", |
| log.Fields{"device-id": mm.deviceID, "pms-to-delete": mm.l2PmToDelete, |
| "instances-to-delete": mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete}) |
| go func() { |
| if err := mm.PAdaptFsm.PFsm.Event(L2PmEventDeleteMe); err != nil { |
| // log at warn level as the gem port for monitoring is going to be removed eventually |
| logger.Warnw(ctx, "error calling event", log.Fields{"device-id": mm.deviceID, "err": err}) |
| } |
| }() |
| } |
| |
| func (mm *OnuMetricsManager) updateGemPortNTPInstanceToAddForPerfMonitoring(ctx context.Context) { |
| if mm.pDeviceHandler.GetOnuTP() != nil { |
| gemPortInstIDs := mm.pDeviceHandler.GetOnuTP().GetAllBidirectionalGemPortIDsForOnu() |
| // NOTE: It is expected that caller of this function has acquired the required mutex for synchronization purposes |
| for _, v := range gemPortInstIDs { |
| // mark the instance for addition |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd = mm.appendIfMissingUnt16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd, v) |
| // If the instance presence toggles too soon, we need to remove it from gemPortNCTPPerfHistInstToDelete slice |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete = mm.removeIfFoundUint16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete, v) |
| } |
| logger.Debugw(ctx, "updateGemPortNTPInstanceToAddForPerfMonitoring", |
| log.Fields{"deviceID": mm.deviceID, "gemToAdd": mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd, "gemToDel": mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete}) |
| } |
| } |
| |
| func (mm *OnuMetricsManager) updateGemPortNTPInstanceToDeleteForPerfMonitoring(ctx context.Context) { |
| if mm.pDeviceHandler.GetOnuTP() != nil { |
| gemPortInstIDs := mm.pDeviceHandler.GetOnuTP().GetAllBidirectionalGemPortIDsForOnu() |
| // NOTE: It is expected that caller of this function has acquired the required mutex for synchronization purposes |
| for _, v := range gemPortInstIDs { |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete = mm.appendIfMissingUnt16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete, v) |
| // If the instance presence toggles too soon, we need to remove it from gemPortNCTPPerfHistInstToAdd slice |
| mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd = mm.removeIfFoundUint16(mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd, v) |
| } |
| } |
| logger.Debugw(ctx, "updateGemPortNTPInstanceToDeleteForPerfMonitoring", |
| log.Fields{"deviceID": mm.deviceID, "gemToAdd": mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToAdd, "gemToDel": mm.GroupMetricMap[GemPortHistoryName].pmMEData.InstancesToDelete}) |
| } |
| |
| // restorePmData restores any PM data available on the KV store to local cache |
| func (mm *OnuMetricsManager) restorePmData(ctx context.Context) error { |
| logger.Debugw(ctx, "restorePmData - start", log.Fields{"device-id": mm.deviceID}) |
| if mm.pmKvStore == nil { |
| logger.Errorw(ctx, "pmKvStore not set - abort", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf(fmt.Sprintf("pmKvStore-not-set-abort-%s", mm.deviceID)) |
| } |
| var errorsList []error |
| for groupName, group := range mm.GroupMetricMap { |
| group.pmMEData = &pmMEData{} |
| Value, err := mm.pmKvStore.Get(ctx, groupName) |
| if err == nil { |
| if Value != nil { |
| logger.Debugw(ctx, "PM data read", |
| log.Fields{"Key": Value.Key, "device-id": mm.deviceID}) |
| tmpBytes, _ := kvstore.ToByte(Value.Value) |
| |
| if err = json.Unmarshal(tmpBytes, &group.pmMEData); err != nil { |
| logger.Errorw(ctx, "unable to unmarshal PM data", log.Fields{"error": err, "device-id": mm.deviceID}) |
| errorsList = append(errorsList, fmt.Errorf(fmt.Sprintf("unable-to-unmarshal-PM-data-%s-for-group-%s", mm.deviceID, groupName))) |
| continue |
| } |
| logger.Debugw(ctx, "restorePmData - success", log.Fields{"pmData": group.pmMEData, "groupName": groupName, "device-id": mm.deviceID}) |
| } else { |
| logger.Debugw(ctx, "no PM data found", log.Fields{"groupName": groupName, "device-id": mm.deviceID}) |
| continue |
| } |
| } else { |
| logger.Errorw(ctx, "restorePmData - fail", log.Fields{"device-id": mm.deviceID, "groupName": groupName, "err": err}) |
| errorsList = append(errorsList, fmt.Errorf(fmt.Sprintf("unable-to-read-from-KVstore-%s-for-group-%s", mm.deviceID, groupName))) |
| continue |
| } |
| } |
| if len(errorsList) > 0 { |
| return fmt.Errorf("errors-restoring-pm-data-for-one-or-more-groups--errors:%v", errorsList) |
| } |
| logger.Debugw(ctx, "restorePmData - complete success", log.Fields{"device-id": mm.deviceID}) |
| return nil |
| } |
| |
| // getPmData gets pmMEData from cache. Since we have write through cache implementation for pmMEData, |
| // the data must be available in cache. |
| // Note, it is expected that caller of this function manages the required synchronization (like using locks etc.). |
| func (mm *OnuMetricsManager) getPmData(ctx context.Context, groupName string) (*pmMEData, error) { |
| if grp, ok := mm.GroupMetricMap[groupName]; ok { |
| return grp.pmMEData, nil |
| } |
| // Data not in cache, try to fetch from kv store. |
| data := &pmMEData{} |
| if mm.pmKvStore == nil { |
| logger.Errorw(ctx, "pmKvStore not set - abort", log.Fields{"device-id": mm.deviceID}) |
| return data, fmt.Errorf("pmKvStore not set. device-id - %s", mm.deviceID) |
| } |
| Value, err := mm.pmKvStore.Get(ctx, groupName) |
| if err == nil { |
| if Value != nil { |
| logger.Debugw(ctx, "PM data read", |
| log.Fields{"Key": Value.Key, "device-id": mm.deviceID}) |
| tmpBytes, _ := kvstore.ToByte(Value.Value) |
| |
| if err = json.Unmarshal(tmpBytes, data); err != nil { |
| logger.Errorw(ctx, "unable to unmarshal PM data", log.Fields{"error": err, "device-id": mm.deviceID}) |
| return data, err |
| } |
| logger.Debugw(ctx, "PM data", log.Fields{"pmData": data, "groupName": groupName, "device-id": mm.deviceID}) |
| } else { |
| logger.Debugw(ctx, "no PM data found", log.Fields{"groupName": groupName, "device-id": mm.deviceID}) |
| return data, err |
| } |
| } else { |
| logger.Errorw(ctx, "unable to read from KVstore", log.Fields{"device-id": mm.deviceID}) |
| return data, err |
| } |
| |
| return data, nil |
| } |
| |
| // updatePmData update pmMEData to store. It is write through cache, i.e., write to cache first and then update store |
| func (mm *OnuMetricsManager) updatePmData(ctx context.Context, groupName string, meInstanceID uint16, pmAction string) error { |
| logger.Debugw(ctx, "updatePmData - start", log.Fields{"device-id": mm.deviceID, "groupName": groupName, "entityID": meInstanceID, "pmAction": pmAction}) |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| |
| if mm.pmKvStore == nil { |
| logger.Errorw(ctx, "pmKvStore not set - abort", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf(fmt.Sprintf("pmKvStore-not-set-abort-%s", mm.deviceID)) |
| } |
| |
| pmMEData, err := mm.getPmData(ctx, groupName) |
| if err != nil || pmMEData == nil { |
| // error already logged in called function. |
| return err |
| } |
| switch pmAction { |
| case cPmAdd: |
| pmMEData.InstancesToAdd = mm.appendIfMissingUnt16(pmMEData.InstancesToAdd, meInstanceID) |
| pmMEData.InstancesToDelete = mm.removeIfFoundUint16(pmMEData.InstancesToDelete, meInstanceID) |
| pmMEData.InstancesActive = mm.removeIfFoundUint16(pmMEData.InstancesActive, meInstanceID) |
| case cPmAdded: |
| pmMEData.InstancesActive = mm.appendIfMissingUnt16(pmMEData.InstancesActive, meInstanceID) |
| pmMEData.InstancesToAdd = mm.removeIfFoundUint16(pmMEData.InstancesToAdd, meInstanceID) |
| pmMEData.InstancesToDelete = mm.removeIfFoundUint16(pmMEData.InstancesToDelete, meInstanceID) |
| case cPmRemove: |
| pmMEData.InstancesToDelete = mm.appendIfMissingUnt16(pmMEData.InstancesToDelete, meInstanceID) |
| pmMEData.InstancesToAdd = mm.removeIfFoundUint16(pmMEData.InstancesToAdd, meInstanceID) |
| pmMEData.InstancesActive = mm.removeIfFoundUint16(pmMEData.InstancesActive, meInstanceID) |
| case cPmRemoved: |
| pmMEData.InstancesToDelete = mm.removeIfFoundUint16(pmMEData.InstancesToDelete, meInstanceID) |
| pmMEData.InstancesToAdd = mm.removeIfFoundUint16(pmMEData.InstancesToAdd, meInstanceID) |
| pmMEData.InstancesActive = mm.removeIfFoundUint16(pmMEData.InstancesActive, meInstanceID) |
| default: |
| logger.Errorw(ctx, "unknown pm action", log.Fields{"device-id": mm.deviceID, "pmAction": pmAction, "groupName": groupName}) |
| return fmt.Errorf(fmt.Sprintf("unknown-pm-action-deviceid-%s-groupName-%s-pmaction-%s", mm.deviceID, groupName, pmAction)) |
| } |
| // write through cache |
| mm.GroupMetricMap[groupName].pmMEData = pmMEData |
| |
| Value, err := json.Marshal(*pmMEData) |
| if err != nil { |
| logger.Errorw(ctx, "unable to marshal PM data", log.Fields{"groupName": groupName, "pmAction": pmAction, "pmData": *pmMEData, "err": err}) |
| return err |
| } |
| // Update back to kv store |
| if err = mm.pmKvStore.Put(ctx, groupName, Value); err != nil { |
| logger.Errorw(ctx, "unable to put PM data to kv store", log.Fields{"groupName": groupName, "pmData": *pmMEData, "pmAction": pmAction, "err": err}) |
| return err |
| } |
| logger.Debugw(ctx, "updatePmData - success", log.Fields{"device-id": mm.deviceID, "groupName": groupName, "pmData": *pmMEData, "pmAction": pmAction}) |
| |
| return nil |
| } |
| |
| // clearPmGroupData cleans PM Group data from store |
| func (mm *OnuMetricsManager) clearPmGroupData(ctx context.Context) error { |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| logger.Debugw(ctx, "clearPmGroupData - start", log.Fields{"device-id": mm.deviceID}) |
| if mm.pmKvStore == nil { |
| logger.Errorw(ctx, "pmKvStore not set - abort", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf(fmt.Sprintf("pmKvStore-not-set-abort-%s", mm.deviceID)) |
| } |
| |
| for n := range mm.GroupMetricMap { |
| if err := mm.pmKvStore.Delete(ctx, n); err != nil { |
| logger.Errorw(ctx, "clearPmGroupData - fail", log.Fields{"deviceID": mm.deviceID, "groupName": n, "err": err}) |
| // do not abort this procedure. continue to delete next group. |
| } else { |
| logger.Debugw(ctx, "clearPmGroupData - success", log.Fields{"device-id": mm.deviceID, "groupName": n}) |
| } |
| } |
| |
| return nil |
| } |
| |
| // ClearAllPmData clears all PM data associated with the device from KV store |
| func (mm *OnuMetricsManager) ClearAllPmData(ctx context.Context) error { |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| logger.Debugw(ctx, "ClearAllPmData - start", log.Fields{"device-id": mm.deviceID}) |
| if mm.pmKvStore == nil { |
| logger.Errorw(ctx, "pmKvStore not set - abort", log.Fields{"device-id": mm.deviceID}) |
| return fmt.Errorf(fmt.Sprintf("pmKvStore-not-set-abort-%s", mm.deviceID)) |
| } |
| var value error |
| for n := range mm.GroupMetricMap { |
| if err := mm.pmKvStore.Delete(ctx, n); err != nil { |
| logger.Errorw(ctx, "clearPmGroupData - fail", log.Fields{"deviceID": mm.deviceID, "groupName": n, "err": err}) |
| value = err |
| // do not abort this procedure - continue to delete next group. |
| } else { |
| logger.Debugw(ctx, "clearPmGroupData - success", log.Fields{"device-id": mm.deviceID, "groupName": n}) |
| } |
| } |
| if value == nil { |
| logger.Debugw(ctx, "ClearAllPmData - success", log.Fields{"device-id": mm.deviceID}) |
| } |
| return value |
| } |
| |
| func (mm *OnuMetricsManager) updateOmciProcessingStatus(status bool) { |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| mm.omciProcessingActive = status |
| } |
| |
| // updateTickGenerationStatus - TODO: add comment |
| func (mm *OnuMetricsManager) updateTickGenerationStatus(status bool) { |
| mm.OnuMetricsManagerLock.Lock() |
| defer mm.OnuMetricsManagerLock.Unlock() |
| mm.tickGenerationActive = status |
| } |
| |
| // GetOmciProcessingStatus - TODO: add comment |
| func (mm *OnuMetricsManager) GetOmciProcessingStatus() bool { |
| mm.OnuMetricsManagerLock.RLock() |
| defer mm.OnuMetricsManagerLock.RUnlock() |
| return mm.omciProcessingActive |
| } |
| |
| // GetTickGenerationStatus - TODO: add comment |
| func (mm *OnuMetricsManager) GetTickGenerationStatus() bool { |
| mm.OnuMetricsManagerLock.RLock() |
| defer mm.OnuMetricsManagerLock.RUnlock() |
| return mm.tickGenerationActive |
| } |
| |
| func (mm *OnuMetricsManager) appendIfMissingString(slice []string, n string) []string { |
| for _, ele := range slice { |
| if ele == n { |
| return slice |
| } |
| } |
| return append(slice, n) |
| } |
| |
| func (mm *OnuMetricsManager) removeIfFoundString(slice []string, n string) []string { |
| for i, ele := range slice { |
| if ele == n { |
| return append(slice[:i], slice[i+1:]...) |
| } |
| } |
| return slice |
| } |
| |
| func (mm *OnuMetricsManager) appendIfMissingUnt16(slice []uint16, n uint16) []uint16 { |
| for _, ele := range slice { |
| if ele == n { |
| return slice |
| } |
| } |
| return append(slice, n) |
| } |
| |
| func (mm *OnuMetricsManager) removeIfFoundUint16(slice []uint16, n uint16) []uint16 { |
| for i, ele := range slice { |
| if ele == n { |
| return append(slice[:i], slice[i+1:]...) |
| } |
| } |
| return slice |
| } |
| |
| func (mm *OnuMetricsManager) getEthernetFrameExtendedMETypeFromKvStore(ctx context.Context) (bool, error) { |
| // Check if the data is already available in KV store, if yes, do not send the request for get me. |
| var data me.ClassID |
| key := fmt.Sprintf("%s/%s/%s", mm.pOnuDeviceEntry.GetPersVendorID(), |
| mm.pOnuDeviceEntry.GetPersEquipmentID(), |
| mm.pOnuDeviceEntry.GetPersActiveSwVersion()) |
| Value, err := mm.extPmKvStore.Get(ctx, key) |
| if err == nil { |
| if Value != nil { |
| logger.Debugw(ctx, "me-type-read", |
| log.Fields{"key": Value.Key, "device-id": mm.deviceID}) |
| tmpBytes, _ := kvstore.ToByte(Value.Value) |
| |
| if err = json.Unmarshal(tmpBytes, &data); err != nil { |
| logger.Errorw(ctx, "unable-to-unmarshal-data", log.Fields{"error": err, "device-id": mm.deviceID}) |
| return false, err |
| } |
| logger.Debugw(ctx, "me-ext-pm-class-data", log.Fields{"class-id": data, "device-id": mm.deviceID}) |
| // We have found the data from db, no need to get through omci get message. |
| mm.supportedEthernetFrameExtendedPMClass = data |
| return true, nil |
| } |
| logger.Debugw(ctx, "no-me-ext-pm-class-data-found", log.Fields{"device-id": mm.deviceID}) |
| return false, nil |
| } |
| logger.Errorw(ctx, "unable-to-read-from-kv-store", log.Fields{"device-id": mm.deviceID}) |
| return false, err |
| } |
| |
| func (mm *OnuMetricsManager) waitForEthernetFrameCreateOrDeleteResponseOrTimeout(ctx context.Context, create bool, instID uint16, meClassID me.ClassID, upstream bool) (bool, error) { |
| logger.Debugw(ctx, "wait-for-ethernet-frame-create-or-delete-response-or-timeout", log.Fields{"create": create, "instID": instID, "meClassID": meClassID}) |
| select { |
| case resp := <-mm.extendedPMMeResponseChan: |
| logger.Debugw(ctx, "received-extended-pm-me-response", |
| log.Fields{"device-id": mm.deviceID, "resp": resp, "create": create, "meClassID": meClassID, "instID": instID, "upstream": upstream}) |
| // If the result is me.InstanceExists it means the entity was already created. It is ok handled that as success |
| if resp == me.Success || resp == me.InstanceExists { |
| return true, nil |
| } else if resp == me.UnknownEntity || resp == me.ParameterError || |
| resp == me.ProcessingError || resp == me.NotSupported || resp == me.AttributeFailure { |
| return false, fmt.Errorf("not-supported-me--resp-code-%v", resp) |
| } else { |
| logger.Warnw(ctx, "failed to create me", log.Fields{"device-id": mm.deviceID, "resp": resp, "class-id": meClassID, "instID": instID, "upstream": upstream}) |
| return true, fmt.Errorf("error-while-creating-me--resp-code-%v", resp) |
| } |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout-waiting-for-ext-pm-me-response", |
| log.Fields{"device-id": mm.deviceID, "resp": false, "create": create, "meClassID": meClassID, "instID": instID, "upstream": upstream}) |
| } |
| return false, fmt.Errorf("timeout-while-waiting-for-response") |
| } |
| |
| func (mm *OnuMetricsManager) tryCreateExtPmMe(ctx context.Context, meType me.ClassID) (bool, error) { |
| cnt := 0 |
| // Create ME twice, one for each direction. Boolean true is used to indicate upstream and false for downstream. |
| for _, direction := range []bool{true, false} { |
| for _, uniPort := range *mm.pDeviceHandler.GetUniEntityMap() { |
| var entityID uint16 |
| if direction { |
| entityID = uniPort.EntityID + 0x100 |
| } else { |
| entityID = uniPort.EntityID |
| } |
| logger.Debugw(ctx, "try-creating-extended-pm-me", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| // parent entity id will be same for both direction |
| controlBlock := mm.getControlBlockForExtendedPMDirection(ctx, direction, uniPort.EntityID, false) |
| |
| inner1: |
| // retry ExtendedPmCreateAttempts times to create the instance of PM |
| for cnt = 0; cnt < ExtendedPmCreateAttempts; cnt++ { |
| meEnt, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendCreateOrDeleteEthernetFrameExtendedPMME( |
| ctx, mm.pDeviceHandler.GetOmciTimeout(), true, direction, true, |
| mm.PAdaptFsm.CommChan, entityID, meType, controlBlock) |
| if err != nil { |
| logger.Errorw(ctx, "EthernetFrameExtendedPMME-create-or-delete-failed", |
| log.Fields{"device-id": mm.deviceID}) |
| return false, err |
| } |
| if supported, err := mm.waitForEthernetFrameCreateOrDeleteResponseOrTimeout(ctx, true, entityID, |
| meType, direction); err == nil && supported { |
| if direction { |
| mm.ethernetFrameExtendedPmUpStreamMEByEntityID[entityID] = meEnt |
| } else { |
| mm.ethernetFrameExtendedPmDownStreamMEByEntityID[entityID] = meEnt |
| } |
| break inner1 |
| } else if err != nil { |
| if !supported { |
| // Need to return immediately |
| return false, err |
| } |
| //In case of failure, go for a retry |
| } |
| } |
| if cnt == ExtendedPmCreateAttempts { |
| logger.Error(ctx, "exceeded-attempts-while-creating-me-for-ethernet-frame-extended-pm") |
| return true, fmt.Errorf("unable-to-create-me") |
| } |
| } |
| } |
| return true, nil |
| } |
| |
| func (mm *OnuMetricsManager) putExtPmMeKvStore(ctx context.Context) { |
| key := fmt.Sprintf("%s/%s/%s", mm.pOnuDeviceEntry.GetPersVendorID(), |
| mm.pOnuDeviceEntry.GetPersEquipmentID(), |
| mm.pOnuDeviceEntry.GetPersActiveSwVersion()) |
| // check if we get the supported type me for ethernet frame extended pm class id |
| if mm.supportedEthernetFrameExtendedPMClass == 0 { |
| logger.Error(ctx, "unable-to-get-any-supported-extended-pm-me-class") |
| } |
| classSupported, err := json.Marshal(mm.supportedEthernetFrameExtendedPMClass) |
| if err != nil { |
| logger.Errorw(ctx, "unable-to-marshal-data", log.Fields{"err": err}) |
| } |
| if err := mm.extPmKvStore.Put(ctx, key, classSupported); err != nil { |
| logger.Errorw(ctx, "unable-to-add-data-in-db", log.Fields{"err": err}) |
| } |
| } |
| |
| func (mm *OnuMetricsManager) setAllExtPmMeCreatedFlag() { |
| mm.onuEthernetFrameExtendedPmLock.Lock() |
| mm.isDeviceReadyToCollectExtendedPmStats = true |
| mm.onuEthernetFrameExtendedPmLock.Unlock() |
| } |
| |
| // CreateEthernetFrameExtendedPMME - This method tries to create the possible me type for extended pms |
| func (mm *OnuMetricsManager) CreateEthernetFrameExtendedPMME(ctx context.Context) { |
| //get the type of extended frame pm me supported by onu first |
| exist, err := mm.getEthernetFrameExtendedMETypeFromKvStore(ctx) |
| if err != nil { |
| logger.Error(ctx, "unable-to-get-supported-me-for-ethernet-frame-extended-pm") |
| return |
| } |
| if exist { |
| // we have the me type, go ahead with the me type supported. |
| if _, err := mm.tryCreateExtPmMe(ctx, mm.supportedEthernetFrameExtendedPMClass); err != nil { |
| logger.Errorw(ctx, "unable-to-create-me-type", log.Fields{"device-id": mm.deviceID, |
| "meClassID": mm.supportedEthernetFrameExtendedPMClass}) |
| return |
| } |
| mm.setAllExtPmMeCreatedFlag() |
| return |
| } |
| // First try with 64 bit me |
| // we have the me type, go ahead with the me type supported. |
| supported64Bit, err := mm.tryCreateExtPmMe(ctx, me.EthernetFrameExtendedPm64BitClassID) |
| if err != nil && !supported64Bit { |
| logger.Errorw(ctx, "unable-to-create-me-type-as-it-is-not-supported", |
| log.Fields{"device-id": mm.deviceID, "meClassID": me.EthernetFrameExtendedPm64BitClassID, |
| "supported": supported64Bit}) |
| // Then Try with 32 bit type |
| if supported32Bit, err := mm.tryCreateExtPmMe(ctx, me.EthernetFrameExtendedPmClassID); err != nil { |
| logger.Errorw(ctx, "unable-to-create-me-type", log.Fields{"device-id": mm.deviceID, |
| "meClassID": me.EthernetFrameExtendedPmClassID, "supported": supported32Bit}) |
| } else if supported32Bit { |
| mm.supportedEthernetFrameExtendedPMClass = me.EthernetFrameExtendedPmClassID |
| mm.putExtPmMeKvStore(ctx) |
| mm.setAllExtPmMeCreatedFlag() |
| } |
| } else if err == nil && supported64Bit { |
| mm.supportedEthernetFrameExtendedPMClass = me.EthernetFrameExtendedPm64BitClassID |
| mm.putExtPmMeKvStore(ctx) |
| mm.setAllExtPmMeCreatedFlag() |
| } |
| } |
| |
| func (mm *OnuMetricsManager) setControlBlockResetFlagForEthernetExtendedPMME(ctx context.Context, upstream bool, |
| entityID uint16, meName string, reset bool) (extension.GetValueResponse_ErrorReason, error) { |
| uniPortEntityID := entityID |
| if upstream { |
| uniPortEntityID = entityID - 0x100 |
| } |
| controlBlock := mm.getControlBlockForExtendedPMDirection(ctx, upstream, uniPortEntityID, reset) |
| _, err := mm.pOnuDeviceEntry.GetDevOmciCC().SendSetEthernetFrameExtendedPMME(ctx, |
| mm.pDeviceHandler.GetOmciTimeout(), true, |
| mm.PAdaptFsm.CommChan, entityID, mm.supportedEthernetFrameExtendedPMClass, controlBlock) |
| if err != nil { |
| logger.Errorw(ctx, "EthernetFrameExtendedPMME-set-reset-bit-failed", |
| log.Fields{"device-id": mm.deviceID}) |
| return extension.GetValueResponse_INTERNAL_ERROR, err |
| } |
| |
| if resp := mm.waitForResetResponseOrTimeout(ctx, entityID, meName); resp { |
| return extension.GetValueResponse_REASON_UNDEFINED, nil |
| } |
| return extension.GetValueResponse_INTERNAL_ERROR, fmt.Errorf("unable-to-reset-pm-counters") |
| } |
| |
| func (mm *OnuMetricsManager) waitForResetResponseOrTimeout(ctx context.Context, instID uint16, meClassName string) bool { |
| logger.Debugw(ctx, "wait-for-ethernet-frame-reset-counters-response-or-timeout", log.Fields{"instID": instID, "meClassName": meClassName}) |
| select { |
| case resp := <-mm.extendedPMMeResponseChan: |
| logger.Debugw(ctx, "received-extended-pm-me-reset-response", |
| log.Fields{"device-id": mm.deviceID, "resp": resp, "meClassName": meClassName, "instID": instID}) |
| if resp == me.Success { |
| return true |
| } |
| return false |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout-waiting-for-ext-pm-me-reset-response", |
| log.Fields{"device-id": mm.deviceID, "resp": false, "meClassName": meClassName, "instID": instID}) |
| } |
| return false |
| } |
| |
| func (mm *OnuMetricsManager) resetEthernetFrameExtendedPMCounters(ctx context.Context, |
| upstreamEntityMap map[uint16]*me.ManagedEntity, downstreamEntityMap map[uint16]*me.ManagedEntity) (extension.GetValueResponse_ErrorReason, error) { |
| className := "EthernetFrameExtendedPm64Bit" |
| if mm.supportedEthernetFrameExtendedPMClass == me.EthernetFrameExtendedPmClassID { |
| className = "EthernetFrameExtendedPm" |
| } |
| // Reset the counters if option is specified |
| for entityID := range upstreamEntityMap { |
| errReason, err := mm.setControlBlockResetFlagForEthernetExtendedPMME(ctx, true, entityID, className, |
| true) |
| if err != nil { |
| return errReason, err |
| } |
| } |
| |
| for entityID := range downstreamEntityMap { |
| errReason, err := mm.setControlBlockResetFlagForEthernetExtendedPMME(ctx, false, entityID, className, |
| true) |
| if err != nil { |
| return errReason, err |
| } |
| } |
| // This is currently done as a workaround for sercomm glasfaser onu as the reset bit is not getting cleared by the |
| // device itself. |
| // Unset the reset bit if option is specified |
| for entityID := range upstreamEntityMap { |
| errReason, err := mm.setControlBlockResetFlagForEthernetExtendedPMME(ctx, true, entityID, className, |
| false) |
| if err != nil { |
| return errReason, err |
| } |
| } |
| |
| for entityID := range downstreamEntityMap { |
| errReason, err := mm.setControlBlockResetFlagForEthernetExtendedPMME(ctx, false, entityID, className, |
| false) |
| if err != nil { |
| return errReason, err |
| } |
| } |
| return extension.GetValueResponse_REASON_UNDEFINED, nil |
| } |
| |
| func (mm *OnuMetricsManager) setEthernetFrameExtendedPmCounterOperationFlag(val bool) { |
| mm.onuEthernetFrameExtendedPmLock.Lock() |
| defer mm.onuEthernetFrameExtendedPmLock.Unlock() |
| mm.isEthernetFrameExtendedPmOperationOngoing = val |
| } |
| |
| func (mm *OnuMetricsManager) getEthernetFrameExtendedPmCounterOperationFlag() bool { |
| mm.onuEthernetFrameExtendedPmLock.Lock() |
| defer mm.onuEthernetFrameExtendedPmLock.Unlock() |
| return mm.isEthernetFrameExtendedPmOperationOngoing |
| } |
| |
| // CollectEthernetFrameExtendedPMCounters - This method collects the ethernet frame extended pm counters from the device |
| func (mm *OnuMetricsManager) CollectEthernetFrameExtendedPMCounters(ctx context.Context, |
| onuInfo *extension.GetOmciEthernetFrameExtendedPmRequest) *extension.SingleGetValueResponse { |
| errFunc := func(reason extension.GetValueResponse_ErrorReason, err string) *extension.SingleGetValueResponse { |
| logger.Error(ctx, err) |
| return &extension.SingleGetValueResponse{ |
| Response: &extension.GetValueResponse{ |
| Status: extension.GetValueResponse_ERROR, |
| ErrReason: reason, |
| }, |
| } |
| } |
| mm.onuEthernetFrameExtendedPmLock.RLock() |
| if !mm.isDeviceReadyToCollectExtendedPmStats { |
| mm.onuEthernetFrameExtendedPmLock.RUnlock() |
| return errFunc(extension.GetValueResponse_INTERNAL_ERROR, fmt.Sprintf("onu-%v-not-ready-to-collect-stats", mm.deviceID)) |
| } |
| mm.onuEthernetFrameExtendedPmLock.RUnlock() |
| |
| if mm.getEthernetFrameExtendedPmCounterOperationFlag() { |
| return errFunc(extension.GetValueResponse_INTERNAL_ERROR, |
| fmt.Sprintf("extended-pm-reset-or-get-operation-is-still-going-on-for-onu-%v", mm.deviceID)) |
| } |
| mm.setEthernetFrameExtendedPmCounterOperationFlag(true) |
| defer mm.setEthernetFrameExtendedPmCounterOperationFlag(false) |
| |
| upstreamEntityMap := make(map[uint16]*me.ManagedEntity) |
| downstreamEntityMap := make(map[uint16]*me.ManagedEntity) |
| if onuInfo.IsUniIndex != nil { |
| for _, uniPort := range *mm.pDeviceHandler.GetUniEntityMap() { |
| if uniPort.UniID == uint8(onuInfo.GetUniIndex()) { |
| logger.Debugw(ctx, "mapped-uni-index-to-uni-port", log.Fields{"device-id": mm.deviceID, "uni-index": onuInfo.GetUniIndex()}) |
| upstreamEntityMap[uniPort.EntityID+0x100] = mm.ethernetFrameExtendedPmUpStreamMEByEntityID[uniPort.EntityID+0x100] |
| downstreamEntityMap[uniPort.EntityID] = mm.ethernetFrameExtendedPmDownStreamMEByEntityID[uniPort.EntityID] |
| break |
| } |
| } |
| if len(downstreamEntityMap) == 0 { |
| logger.Errorw(ctx, "invalid-uni-index-provided-while-fetching-the-extended-pm", |
| log.Fields{"device-id": mm.deviceID, "uni-index": onuInfo.GetUniIndex()}) |
| return errFunc(extension.GetValueResponse_INVALID_REQ_TYPE, |
| fmt.Sprintf("onu-%s-invalid-uni-%v", mm.deviceID, onuInfo.GetUniIndex())) |
| } |
| } else { |
| // make a copy of all downstream and upstream maps in the local ones |
| for entityID, meEnt := range mm.ethernetFrameExtendedPmUpStreamMEByEntityID { |
| upstreamEntityMap[entityID] = meEnt |
| } |
| for entityID, meEnt := range mm.ethernetFrameExtendedPmDownStreamMEByEntityID { |
| downstreamEntityMap[entityID] = meEnt |
| } |
| } |
| logger.Debugw(ctx, "extended-pm-collection-me-count", log.Fields{"device-id": mm.deviceID, |
| "count": len(upstreamEntityMap) + len(downstreamEntityMap)}) |
| // Reset the metrics first for all required me's |
| if onuInfo.Reset_ { |
| errReason, err := mm.resetEthernetFrameExtendedPMCounters(ctx, upstreamEntityMap, downstreamEntityMap) |
| if err != nil { |
| logger.Errorw(ctx, "unable-to-reset-ethernet-frame-extended-pm-counters", |
| log.Fields{"device-id": mm.deviceID}) |
| return errFunc(errReason, fmt.Sprintf("%v", err.Error())) |
| } |
| } |
| // Collect metrics for upstream for all the PM Mes per uni port and aggregate |
| var pmUpstream extension.OmciEthernetFrameExtendedPm |
| var pmDownstream extension.OmciEthernetFrameExtendedPm |
| counterFormat := extension.GetOmciEthernetFrameExtendedPmResponse_SIXTY_FOUR_BIT |
| if mm.supportedEthernetFrameExtendedPMClass == me.EthernetFrameExtendedPmClassID { |
| counterFormat = extension.GetOmciEthernetFrameExtendedPmResponse_THIRTY_TWO_BIT |
| } |
| if !onuInfo.Reset_ { |
| for entityID, meEnt := range upstreamEntityMap { |
| logger.Debugw(ctx, "collect-upstream-pm-counters-for-entity-id", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| var receivedMask uint16 |
| if metricInfo, errResp, err := mm.collectEthernetFrameExtendedPMData(ctx, meEnt, entityID, true, &receivedMask); metricInfo != nil { // upstream |
| if receivedMask == 0 { |
| pmUpstream = mm.aggregateEthernetFrameExtendedPM(metricInfo, pmUpstream, false) |
| logger.Error(ctx, "all-the-attributes-of-ethernet-frame-extended-pm-counters-for-upstream-are-unsupported") |
| // It might be possible that still some downstream pms are supported and hence we need to continue |
| // further to collect the downstream stats but stop collecting upstream stats for other ME's. |
| break |
| } |
| // Aggregate the result for upstream |
| pmUpstream = mm.aggregateEthernetFrameExtendedPM(metricInfo, pmUpstream, true) |
| } else { |
| return errFunc(errResp, fmt.Sprintf("%v", err.Error())) |
| } |
| } |
| |
| for entityID, meEnt := range downstreamEntityMap { |
| logger.Debugw(ctx, "collect-downstream-pm-counters-for-entity-id", log.Fields{"device-id": mm.deviceID, "entityID": entityID}) |
| var receivedMask uint16 |
| if metricInfo, errResp, err := mm.collectEthernetFrameExtendedPMData(ctx, meEnt, entityID, false, &receivedMask); metricInfo != nil { // downstream |
| if receivedMask == 0 { |
| pmDownstream = mm.aggregateEthernetFrameExtendedPM(metricInfo, pmDownstream, false) |
| logger.Error(ctx, "all-the-attributes-of-ethernet-frame-extended-pm-counters-for-downstream-are-unsupported") |
| // Stop collecting downstream counters for other ME's. |
| break |
| } |
| // Aggregate the result for downstream |
| pmDownstream = mm.aggregateEthernetFrameExtendedPM(metricInfo, pmDownstream, true) |
| } else { |
| return errFunc(errResp, fmt.Sprintf("%v", err.Error())) |
| } |
| } |
| } |
| singleValResp := extension.SingleGetValueResponse{ |
| Response: &extension.GetValueResponse{ |
| Status: extension.GetValueResponse_OK, |
| Response: &extension.GetValueResponse_OnuCounters{ |
| OnuCounters: &extension.GetOmciEthernetFrameExtendedPmResponse{ |
| Upstream: &pmUpstream, |
| Downstream: &pmDownstream, |
| OmciEthernetFrameExtendedPmFormat: counterFormat, |
| }, |
| }, |
| }, |
| } |
| return &singleValResp |
| } |
| |
| func (mm *OnuMetricsManager) collectEthernetFrameExtendedPMData(ctx context.Context, meEnt *me.ManagedEntity, entityID uint16, upstream bool, receivedMask *uint16) (map[string]uint64, extension.GetValueResponse_ErrorReason, error) { |
| var classID me.ClassID |
| logger.Debugw(ctx, "collecting-data-for-ethernet-frame-extended-pm", log.Fields{"device-id": mm.deviceID, "entityID": entityID, "upstream": upstream}) |
| |
| classID = mm.supportedEthernetFrameExtendedPMClass |
| attributeMaskList := maskToEthernetFrameExtendedPM64Bit |
| if classID == me.EthernetFrameExtendedPmClassID { |
| attributeMaskList = maskToEthernetFrameExtendedPM32Bit |
| } |
| ethPMData := make(map[string]uint64) |
| var sumReceivedMask uint16 |
| for mask := range attributeMaskList { |
| if errResp, err := mm.populateEthernetFrameExtendedPMMetrics(ctx, classID, entityID, mask, ethPMData, upstream, &sumReceivedMask); err != nil { |
| logger.Errorw(ctx, "error-during-metric-collection", |
| log.Fields{"device-id": mm.deviceID, "entityID": entityID, "err": err}) |
| return nil, errResp, err |
| } |
| if (mask == 0x3F00 || mask == 0x3800) && sumReceivedMask == 0 { |
| //It means the first attributes fetch was a failure, hence instead of sending multiple failure get requests |
| //populate all counters as failure and return |
| mm.fillAllErrorCountersEthernetFrameExtendedPM(ethPMData) |
| break |
| } |
| } |
| *receivedMask = sumReceivedMask |
| return ethPMData, extension.GetValueResponse_REASON_UNDEFINED, nil |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) populateEthernetFrameExtendedPMMetrics(ctx context.Context, classID me.ClassID, entityID uint16, |
| requestedAttributesMask uint16, ethFrameExtPMData map[string]uint64, upstream bool, sumReceivedMask *uint16) (extension.GetValueResponse_ErrorReason, error) { |
| var meAttributes me.AttributeValueMap |
| logger.Debugw(ctx, "requesting-attributes", log.Fields{"attributes-mask": requestedAttributesMask, "entityID": entityID, "classID": classID}) |
| err := mm.pOnuDeviceEntry.GetDevOmciCC().SendGetMeWithAttributeMask(ctx, classID, entityID, requestedAttributesMask, mm.pDeviceHandler.GetOmciTimeout(), true, mm.PAdaptFsm.CommChan) |
| if err != nil { |
| logger.Errorw(ctx, "get-me-failed", log.Fields{"device-id": mm.deviceID}) |
| return extension.GetValueResponse_INTERNAL_ERROR, err |
| } |
| select { |
| case meAttributes = <-mm.extendedPmMeChan: |
| logger.Debugw(ctx, "received-extended-pm-data", |
| log.Fields{"device-id": mm.deviceID, "upstream": upstream, "entityID": entityID}) |
| case <-time.After(mm.pOnuDeviceEntry.GetDevOmciCC().GetMaxOmciTimeoutWithRetries() * time.Second): |
| logger.Errorw(ctx, "timeout-waiting-for-omci-get-response-for-received-extended-pm-data", |
| log.Fields{"device-id": mm.deviceID, "upstream": upstream, "entityID": entityID}) |
| return extension.GetValueResponse_TIMEOUT, fmt.Errorf("timeout-waiting-for-omci-get-response-for-received-extended-pm-data") |
| } |
| if mm.supportedEthernetFrameExtendedPMClass == me.EthernetFrameExtendedPmClassID { |
| mask := mm.getEthFrameExtPMDataFromResponse(ctx, ethFrameExtPMData, meAttributes, requestedAttributesMask) |
| *sumReceivedMask += mask |
| logger.Debugw(ctx, "data-received-for-ethernet-frame-ext-pm", log.Fields{"data": ethFrameExtPMData, "entityID": entityID}) |
| } else { |
| mask := mm.getEthFrameExtPM64BitDataFromResponse(ctx, ethFrameExtPMData, meAttributes, requestedAttributesMask) |
| *sumReceivedMask += mask |
| logger.Debugw(ctx, "data-received-for-ethernet-frame-ext-pm", log.Fields{"data": ethFrameExtPMData, "entityID": entityID}) |
| } |
| |
| return extension.GetValueResponse_REASON_UNDEFINED, nil |
| } |
| |
| func (mm *OnuMetricsManager) fillAllErrorCountersEthernetFrameExtendedPM(ethFrameExtPMData map[string]uint64) { |
| sourceMap := maskToEthernetFrameExtendedPM64Bit |
| errorCounterValue := UnsupportedCounterValue64bit |
| if mm.supportedEthernetFrameExtendedPMClass == me.EthernetFrameExtendedPmClassID { |
| sourceMap = maskToEthernetFrameExtendedPM32Bit |
| errorCounterValue = UnsupportedCounterValue32bit |
| } |
| for _, value := range sourceMap { |
| for _, k := range value { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| ethFrameExtPMData[k] = errorCounterValue |
| } |
| } |
| } |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) getEthFrameExtPMDataFromResponse(ctx context.Context, ethFrameExtPMData map[string]uint64, meAttributes me.AttributeValueMap, requestedAttributesMask uint16) uint16 { |
| receivedMask := uint16(0) |
| switch requestedAttributesMask { |
| case 0x3F00: |
| for _, k := range maskToEthernetFrameExtendedPM32Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "drop_events": |
| if val, ok := meAttributes[dropEvents]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x2000 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "octets": |
| if val, ok := meAttributes[octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x1000 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "frames": |
| if val, ok := meAttributes[frames]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x800 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "broadcast_frames": |
| if val, ok := meAttributes[broadcastFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x400 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "multicast_frames": |
| if val, ok := meAttributes[multicastFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x200 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "crc_errored_frames": |
| if val, ok := meAttributes[crcErroredFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x100 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| default: |
| //do nothing |
| } |
| } |
| } |
| case 0x00FC: |
| for _, k := range maskToEthernetFrameExtendedPM32Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "undersize_frames": |
| if val, ok := meAttributes[undersizeFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x80 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "oversize_frames": |
| if val, ok := meAttributes[oversizeFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x40 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "64_octets": |
| if val, ok := meAttributes[frames64Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x20 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "65_to_127_octets": |
| if val, ok := meAttributes[frames65To127Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x10 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "128_to_255_octets": |
| if val, ok := meAttributes[frames128To255Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x8 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "256_to_511_octets": |
| if val, ok := meAttributes[frames256To511Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x4 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| default: |
| //do nothing |
| } |
| } |
| } |
| case 0x0003: |
| for _, k := range maskToEthernetFrameExtendedPM32Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "512_to_1023_octets": |
| if val, ok := meAttributes[frames512To1023Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x2 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| case "1024_to_1518_octets": |
| if val, ok := meAttributes[frames1024To1518Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = uint64(val.(uint32)) |
| receivedMask |= 0x1 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue32bit |
| } |
| default: |
| //do nothing |
| } |
| } |
| } |
| default: |
| //do nothing |
| } |
| return receivedMask |
| } |
| |
| // nolint: gocyclo |
| func (mm *OnuMetricsManager) getEthFrameExtPM64BitDataFromResponse(ctx context.Context, ethFrameExtPMData map[string]uint64, meAttributes me.AttributeValueMap, requestedAttributesMask uint16) uint16 { |
| receivedMask := uint16(0) |
| switch requestedAttributesMask { |
| case 0x3800: |
| for _, k := range maskToEthernetFrameExtendedPM64Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "drop_events": |
| if val, ok := meAttributes[dropEvents]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x2000 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "octets": |
| if val, ok := meAttributes[octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x1000 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "frames": |
| if val, ok := meAttributes[frames]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x800 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| } |
| } |
| } |
| case 0x0700: |
| for _, k := range maskToEthernetFrameExtendedPM64Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "broadcast_frames": |
| if val, ok := meAttributes[broadcastFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x400 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "multicast_frames": |
| if val, ok := meAttributes[multicastFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x200 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "crc_errored_frames": |
| if val, ok := meAttributes[crcErroredFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x100 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| } |
| } |
| } |
| case 0x00E0: |
| for _, k := range maskToEthernetFrameExtendedPM64Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "undersize_frames": |
| if val, ok := meAttributes[undersizeFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x80 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "oversize_frames": |
| if val, ok := meAttributes[oversizeFrames]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x40 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "64_octets": |
| if val, ok := meAttributes[frames64Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x20 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| } |
| } |
| } |
| case 0x001C: |
| for _, k := range maskToEthernetFrameExtendedPM64Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "65_to_127_octets": |
| if val, ok := meAttributes[frames65To127Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x10 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "128_to_255_octets": |
| if val, ok := meAttributes[frames128To255Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x8 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "256_to_511_octets": |
| if val, ok := meAttributes[frames256To511Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x4 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| default: |
| //do nothing |
| } |
| } |
| } |
| case 0x0003: |
| for _, k := range maskToEthernetFrameExtendedPM64Bit[requestedAttributesMask] { |
| if _, ok := ethFrameExtPMData[k]; !ok { |
| switch k { |
| case "512_to_1023_octets": |
| if val, ok := meAttributes[frames512To1023Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x2 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| case "1024_to_1518_octets": |
| if val, ok := meAttributes[frames1024To1518Octets]; ok && val != nil { |
| ethFrameExtPMData[k] = val.(uint64) |
| receivedMask |= 0x1 |
| } else if !ok { |
| ethFrameExtPMData[k] = UnsupportedCounterValue64bit |
| } |
| default: |
| //do nothing |
| } |
| } |
| } |
| } |
| return receivedMask |
| } |
| |
| func (mm *OnuMetricsManager) aggregateEthernetFrameExtendedPM(pmDataIn map[string]uint64, |
| pmData extension.OmciEthernetFrameExtendedPm, aggregate bool) extension.OmciEthernetFrameExtendedPm { |
| errorCounterValue := UnsupportedCounterValue64bit |
| if mm.supportedEthernetFrameExtendedPMClass == me.EthernetFrameExtendedPmClassID { |
| errorCounterValue = UnsupportedCounterValue32bit |
| } |
| var pmDataOut extension.OmciEthernetFrameExtendedPm |
| if aggregate { |
| if pmData.DropEvents != errorCounterValue { |
| pmDataOut.DropEvents = pmData.DropEvents + pmDataIn["drop_events"] |
| } else { |
| pmDataOut.DropEvents = pmData.DropEvents |
| } |
| if pmData.Octets != errorCounterValue { |
| pmDataOut.Octets = pmData.Octets + pmDataIn["octets"] |
| } else { |
| pmDataOut.Octets = pmData.Octets |
| } |
| if pmData.Frames != errorCounterValue { |
| pmDataOut.Frames = pmData.Frames + pmDataIn["frames"] |
| } else { |
| pmDataOut.Frames = pmData.Frames |
| } |
| if pmData.BroadcastFrames != errorCounterValue { |
| pmDataOut.BroadcastFrames = pmData.BroadcastFrames + pmDataIn["broadcast_frames"] |
| } else { |
| pmDataOut.BroadcastFrames = pmData.BroadcastFrames |
| } |
| if pmData.MulticastFrames != errorCounterValue { |
| pmDataOut.MulticastFrames = pmData.MulticastFrames + pmDataIn["multicast_frames"] |
| } else { |
| pmDataOut.MulticastFrames = pmData.MulticastFrames |
| } |
| if pmData.CrcErroredFrames != errorCounterValue { |
| pmDataOut.CrcErroredFrames = pmData.CrcErroredFrames + pmDataIn["crc_errored_frames"] |
| } else { |
| pmDataOut.CrcErroredFrames = pmData.CrcErroredFrames |
| } |
| if pmData.UndersizeFrames != errorCounterValue { |
| pmDataOut.UndersizeFrames = pmData.UndersizeFrames + pmDataIn["undersize_frames"] |
| } else { |
| pmDataOut.UndersizeFrames = pmData.UndersizeFrames |
| } |
| if pmData.OversizeFrames != errorCounterValue { |
| pmDataOut.OversizeFrames = pmData.OversizeFrames + pmDataIn["oversize_frames"] |
| } else { |
| pmDataOut.OversizeFrames = pmData.OversizeFrames |
| } |
| if pmData.Frames_64Octets != errorCounterValue { |
| pmDataOut.Frames_64Octets = pmData.Frames_64Octets + pmDataIn["64_octets"] |
| } else { |
| pmDataOut.Frames_64Octets = pmData.Frames_64Octets |
| } |
| if pmData.Frames_65To_127Octets != errorCounterValue { |
| pmDataOut.Frames_65To_127Octets = pmData.Frames_65To_127Octets + pmDataIn["65_to_127_octets"] |
| } else { |
| pmDataOut.Frames_65To_127Octets = pmData.Frames_65To_127Octets |
| } |
| if pmData.Frames_128To_255Octets != errorCounterValue { |
| pmDataOut.Frames_128To_255Octets = pmData.Frames_128To_255Octets + pmDataIn["128_to_255_octets"] |
| } else { |
| pmDataOut.Frames_128To_255Octets = pmData.Frames_128To_255Octets |
| } |
| if pmData.Frames_256To_511Octets != errorCounterValue { |
| pmDataOut.Frames_256To_511Octets = pmData.Frames_256To_511Octets + pmDataIn["256_to_511_octets"] |
| } else { |
| pmDataOut.Frames_256To_511Octets = pmData.Frames_256To_511Octets |
| } |
| if pmData.Frames_512To_1023Octets != errorCounterValue { |
| pmDataOut.Frames_512To_1023Octets = pmData.Frames_512To_1023Octets + pmDataIn["512_to_1023_octets"] |
| } else { |
| pmDataOut.Frames_512To_1023Octets = pmData.Frames_512To_1023Octets |
| } |
| if pmData.Frames_1024To_1518Octets != errorCounterValue { |
| pmDataOut.Frames_1024To_1518Octets = pmData.Frames_1024To_1518Octets + pmDataIn["1024_to_1518_octets"] |
| } else { |
| pmDataOut.Frames_1024To_1518Octets = pmData.Frames_1024To_1518Octets |
| } |
| } else { |
| pmDataOut.DropEvents = pmDataIn["drop_events"] |
| pmDataOut.Octets = pmDataIn["octets"] |
| pmDataOut.Frames = pmDataIn["frames"] |
| pmDataOut.BroadcastFrames = pmDataIn["broadcast_frames"] |
| pmDataOut.MulticastFrames = pmDataIn["multicast_frames"] |
| pmDataOut.CrcErroredFrames = pmDataIn["crc_errored_frames"] |
| pmDataOut.UndersizeFrames = pmDataIn["undersize_frames"] |
| pmDataOut.OversizeFrames = pmDataIn["oversize_frames"] |
| pmDataOut.Frames_64Octets = pmDataIn["64_octets"] |
| pmDataOut.Frames_65To_127Octets = pmDataIn["65_to_127_octets"] |
| pmDataOut.Frames_128To_255Octets = pmDataIn["128_to_255_octets"] |
| pmDataOut.Frames_256To_511Octets = pmDataIn["256_to_511_octets"] |
| pmDataOut.Frames_512To_1023Octets = pmDataIn["512_to_1023_octets"] |
| pmDataOut.Frames_1024To_1518Octets = pmDataIn["1024_to_1518_octets"] |
| } |
| return pmDataOut |
| } |
| |
| func (mm *OnuMetricsManager) getControlBlockForExtendedPMDirection(ctx context.Context, upstream bool, entityID uint16, reset bool) []uint16 { |
| controlBlock := make([]uint16, 8) |
| // Control Block First two bytes are for threshold data 1/2 id - does not matter here |
| controlBlock[0] = 0 |
| // Next two bytes are for the parent class ID |
| controlBlock[1] = (uint16)(me.PhysicalPathTerminationPointEthernetUniClassID) |
| // Next two bytes are for the parent me instance id |
| controlBlock[2] = entityID |
| // Next two bytes are for accumulation disable |
| if reset { |
| controlBlock[3] = 1 << 15 //Set the 16th bit of AD to reset the counters. |
| } else { |
| controlBlock[3] = 0 |
| } |
| // Next two bytes are for tca disable |
| controlBlock[4] = 0x4000 //tca global disable |
| // Next two bytes are for control fields - bit 1(lsb) as 1 for continuous accumulation and bit 2(0 for upstream) |
| if upstream { |
| controlBlock[5] = 1 << 0 |
| } else { |
| controlBlock[5] = (1 << 0) | (1 << 1) |
| } |
| // Next two bytes are for tci - does not matter here |
| controlBlock[6] = 0 |
| // Next two bytes are for reserved bits - does not matter here |
| controlBlock[7] = 0 |
| return controlBlock |
| } |