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/*
* Copyright (c) 2020 AT&T Intellectual Property.
* Copyright (c) 2020 Nokia.
*
* 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.
*
* This source code is part of the near-RT RIC (RAN Intelligent Controller)
* platform project (RICP).
*/
package main
import (
"encoding/json"
"fmt"
"time"
clientruntime "github.com/go-openapi/runtime/client"
"github.com/go-openapi/strfmt"
"github.com/prometheus/alertmanager/api/v2/client"
"github.com/prometheus/alertmanager/api/v2/client/alert"
"github.com/prometheus/alertmanager/api/v2/models"
"github.com/spf13/viper"
"gerrit.o-ran-sc.org/r/ric-plt/alarm-go/alarm"
app "gerrit.o-ran-sc.org/r/ric-plt/xapp-frame/pkg/xapp"
)
func (a *AlarmManager) StartAlertTimer() {
tick := time.Tick(time.Duration(a.alertInterval) * time.Millisecond)
for range tick {
a.mutex.Lock()
for _, m := range a.activeAlarms {
app.Logger.Info("Re-raising alarm: %v", m)
a.PostAlert(a.GenerateAlertLabels(m.Alarm, AlertStatusActive, m.AlarmTime))
}
a.mutex.Unlock()
}
}
func (a *AlarmManager) Consume(rp *app.RMRParams) (err error) {
app.Logger.Info("Message received!")
defer app.Rmr.Free(rp.Mbuf)
switch rp.Mtype {
case alarm.RIC_ALARM_UPDATE:
a.HandleAlarms(rp)
default:
app.Logger.Info("Unknown Message Type '%d', discarding", rp.Mtype)
}
return nil
}
func (a *AlarmManager) HandleAlarms(rp *app.RMRParams) (*alert.PostAlertsOK, error) {
var m alarm.AlarmMessage
app.Logger.Info("Received JSON: %s", rp.Payload)
if err := json.Unmarshal(rp.Payload, &m); err != nil {
app.Logger.Error("json.Unmarshal failed: %v", err)
return nil, err
}
app.Logger.Info("newAlarm: %v", m)
return a.ProcessAlarm(&m)
}
func (a *AlarmManager) ProcessAlarm(m *alarm.AlarmMessage) (*alert.PostAlertsOK, error) {
if _, ok := alarm.RICAlarmDefinitions[m.Alarm.SpecificProblem]; !ok {
app.Logger.Warn("Alarm (SP='%d') not recognized, suppressing ...", m.Alarm.SpecificProblem)
return nil, nil
}
// Suppress duplicate alarms
idx, found := a.IsMatchFound(m.Alarm)
if found && m.AlarmAction == alarm.AlarmActionRaise {
app.Logger.Info("Duplicate alarm found, suppressing ...")
if m.PerceivedSeverity == a.activeAlarms[idx].PerceivedSeverity {
// Duplicate with same severity found
return nil, nil
} else {
// Remove duplicate with different severity
a.activeAlarms = a.RemoveAlarm(a.activeAlarms, idx, "active")
}
}
// Clear alarm if found from active alarm list
if m.AlarmAction == alarm.AlarmActionClear {
if found {
a.alarmHistory = append(a.alarmHistory, *m)
a.activeAlarms = a.RemoveAlarm(a.activeAlarms, idx, "active")
if a.postClear {
return a.PostAlert(a.GenerateAlertLabels(m.Alarm, AlertStatusResolved, m.AlarmTime))
}
}
app.Logger.Info("No matching active alarm found, suppressing ...")
return nil, nil
}
// New alarm -> update active alarms and post to Alert Manager
if m.AlarmAction == alarm.AlarmActionRaise {
a.UpdateAlarmLists(m)
return a.PostAlert(a.GenerateAlertLabels(m.Alarm, AlertStatusActive, m.AlarmTime))
}
return nil, nil
}
func (a *AlarmManager) IsMatchFound(newAlarm alarm.Alarm) (int, bool) {
for i, m := range a.activeAlarms {
if m.ManagedObjectId == newAlarm.ManagedObjectId && m.ApplicationId == newAlarm.ApplicationId &&
m.SpecificProblem == newAlarm.SpecificProblem && m.IdentifyingInfo == newAlarm.IdentifyingInfo {
return i, true
}
}
return -1, false
}
func (a *AlarmManager) RemoveAlarm(alarms []alarm.AlarmMessage, i int, listName string) []alarm.AlarmMessage {
a.mutex.Lock()
defer a.mutex.Unlock()
app.Logger.Info("Alarm '%+v' deleted from the '%s' list", alarms[i], listName)
copy(alarms[i:], alarms[i+1:])
return alarms[:len(alarms)-1]
}
func (a *AlarmManager) UpdateAlarmLists(newAlarm *alarm.AlarmMessage) {
a.mutex.Lock()
defer a.mutex.Unlock()
/* If maximum number of active alarms is reached, an error log writing is made, and new alarm indicating the problem is raised.
The attempt to raise the alarm next time will be supressed when found as duplicate. */
if len(a.activeAlarms) >= a.maxActiveAlarms {
app.Logger.Error("active alarm count exceeded maxActiveAlarms threshold")
actAlarm := a.alarmClient.NewAlarm(alarm.ACTIVE_ALARM_EXCEED_MAX_THRESHOLD, alarm.SeverityWarning, "clear alarms or raise threshold", "active alarms full")
actAlarmMessage := alarm.AlarmMessage{Alarm: actAlarm, AlarmAction: alarm.AlarmActionRaise, AlarmTime: (time.Now().UnixNano())}
a.activeAlarms = append(a.activeAlarms, actAlarmMessage)
a.alarmHistory = append(a.alarmHistory, actAlarmMessage)
}
if len(a.alarmHistory) >= a.maxAlarmHistory {
app.Logger.Error("alarm history count exceeded maxAlarmHistory threshold")
histAlarm := a.alarmClient.NewAlarm(alarm.ALARM_HISTORY_EXCEED_MAX_THRESHOLD, alarm.SeverityWarning, "clear alarms or raise threshold", "alarm history full")
histAlarmMessage := alarm.AlarmMessage{Alarm: histAlarm, AlarmAction: alarm.AlarmActionRaise, AlarmTime: (time.Now().UnixNano())}
a.activeAlarms = append(a.activeAlarms, histAlarmMessage)
a.alarmHistory = append(a.alarmHistory, histAlarmMessage)
}
// @todo: For now just keep the alarms (both active and history) in-memory. Use SDL later for persistence
a.activeAlarms = append(a.activeAlarms, *newAlarm)
a.alarmHistory = append(a.alarmHistory, *newAlarm)
}
func (a *AlarmManager) GenerateAlertLabels(newAlarm alarm.Alarm, status AlertStatus, alarmTime int64) (models.LabelSet, models.LabelSet) {
alarmDef := alarm.RICAlarmDefinitions[newAlarm.SpecificProblem]
amLabels := models.LabelSet{
"status": string(status),
"alertname": alarmDef.AlarmText,
"severity": string(newAlarm.PerceivedSeverity),
"service": fmt.Sprintf("%s:%s", newAlarm.ManagedObjectId, newAlarm.ApplicationId),
"system_name": fmt.Sprintf("RIC:%s:%s", newAlarm.ManagedObjectId, newAlarm.ApplicationId),
}
amAnnotations := models.LabelSet{
"alarm_id": fmt.Sprintf("%d", alarmDef.AlarmId),
"description": fmt.Sprintf("%d:%s:%s", newAlarm.SpecificProblem, newAlarm.IdentifyingInfo, newAlarm.AdditionalInfo),
"additional_info": newAlarm.AdditionalInfo,
"summary": alarmDef.EventType,
"instructions": alarmDef.OperationInstructions,
"timestamp": fmt.Sprintf("%s", time.Unix(0, alarmTime).Format("02/01/2006, 15:04:05")),
}
return amLabels, amAnnotations
}
func (a *AlarmManager) NewAlertmanagerClient() *client.Alertmanager {
cr := clientruntime.New(a.amHost, a.amBaseUrl, a.amSchemes)
return client.New(cr, strfmt.Default)
}
func (a *AlarmManager) PostAlert(amLabels, amAnnotations models.LabelSet) (*alert.PostAlertsOK, error) {
pa := &models.PostableAlert{
Alert: models.Alert{
GeneratorURL: strfmt.URI(""),
Labels: amLabels,
},
Annotations: amAnnotations,
}
alertParams := alert.NewPostAlertsParams().WithAlerts(models.PostableAlerts{pa})
app.Logger.Info("Posting alerts: labels: %+v, annotations: %+v", amLabels, amAnnotations)
ok, err := a.NewAlertmanagerClient().Alert.PostAlerts(alertParams)
if err != nil {
app.Logger.Error("Posting alerts to '%s/%s' failed with error: %v", a.amHost, a.amBaseUrl, err)
}
return ok, err
}
func (a *AlarmManager) StatusCB() bool {
if !a.rmrReady {
app.Logger.Info("RMR not ready yet!")
}
return a.rmrReady
}
func (a *AlarmManager) ConfigChangeCB(configparam string) {
a.maxActiveAlarms = app.Config.GetInt("controls.maxActiveAlarms")
a.maxAlarmHistory = app.Config.GetInt("controls.maxAlarmHistory")
app.Logger.Debug("ConfigChangeCB: maxActiveAlarms %v", a.maxActiveAlarms)
app.Logger.Debug("ConfigChangeCB: maxAlarmHistory = %v", a.maxAlarmHistory)
return
}
func (a *AlarmManager) Run(sdlcheck bool) {
app.Logger.SetMdc("alarmManager", fmt.Sprintf("%s:%s", Version, Hash))
app.SetReadyCB(func(d interface{}) { a.rmrReady = true }, true)
app.Resource.InjectStatusCb(a.StatusCB)
app.AddConfigChangeListener(a.ConfigChangeCB)
alarm.RICAlarmDefinitions = make(map[int]*alarm.AlarmDefinition)
app.Resource.InjectRoute("/ric/v1/alarms", a.RaiseAlarm, "POST")
app.Resource.InjectRoute("/ric/v1/alarms", a.ClearAlarm, "DELETE")
app.Resource.InjectRoute("/ric/v1/alarms/active", a.GetActiveAlarms, "GET")
app.Resource.InjectRoute("/ric/v1/alarms/history", a.GetAlarmHistory, "GET")
app.Resource.InjectRoute("/ric/v1/alarms/config", a.SetAlarmConfig, "POST")
app.Resource.InjectRoute("/ric/v1/alarms/config", a.GetAlarmConfig, "GET")
app.Resource.InjectRoute("/ric/v1/alarms/define", a.SetAlarmDefinition, "POST")
app.Resource.InjectRoute("/ric/v1/alarms/define/{alarmId}", a.DeleteAlarmDefinition, "DELETE")
app.Resource.InjectRoute("/ric/v1/alarms/define", a.GetAlarmDefinition, "GET")
app.Resource.InjectRoute("/ric/v1/alarms/define/{alarmId}", a.GetAlarmDefinition, "GET")
// Start background timer for re-raising alerts
a.postClear = sdlcheck
go a.StartAlertTimer()
a.alarmClient, _ = alarm.InitAlarm("SEP", "ALARMMANAGER")
app.RunWithParams(a, sdlcheck)
}
func NewAlarmManager(amHost string, alertInterval int) *AlarmManager {
if alertInterval == 0 {
alertInterval = viper.GetInt("controls.promAlertManager.alertInterval")
}
if amHost == "" {
amHost = viper.GetString("controls.promAlertManager.address")
}
return &AlarmManager{
rmrReady: false,
amHost: amHost,
amBaseUrl: viper.GetString("controls.promAlertManager.baseUrl"),
amSchemes: []string{viper.GetString("controls.promAlertManager.schemes")},
alertInterval: alertInterval,
activeAlarms: make([]alarm.AlarmMessage, 0),
alarmHistory: make([]alarm.AlarmMessage, 0),
maxActiveAlarms: app.Config.GetInt("controls.maxActiveAlarms"),
maxAlarmHistory: app.Config.GetInt("controls.maxAlarmHistory"),
}
}
// Main function
func main() {
NewAlarmManager("", 0).Run(true)
}