func collectd_status_handler(event models.AppEvent, ctxt string) (models.AppEvent, error) { // adding the details for event if strings.HasSuffix(event.Message, "inactive") { util.AppendServiceToNode(bson.M{"nodeid": event.NodeId}, models.SkyringServices[0], models.STATUS_DOWN, ctxt) event.Name = skyring.EventTypes["COLLECTD_STATE_CHANGED"] event.Message = fmt.Sprintf("Collectd process stopped on Host: %s", event.NodeName) event.Description = fmt.Sprintf("Collectd process is stopped on Host: %s. This might affect the monitoring functionality of skyring", event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_MAJOR } else if strings.HasSuffix(event.Message, "active") { util.AppendServiceToNode(bson.M{"nodeid": event.NodeId}, models.SkyringServices[0], models.STATUS_UP, ctxt) event.Name = skyring.EventTypes["COLLECTD_STATE_CHANGED"] event.Message = fmt.Sprintf("Collectd process started on Host: %s", event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_CLEARED } else { return event, nil } event.NotificationEntity = models.NOTIFICATION_ENTITY_HOST event.Notify = true if err := update_alarm_count(event, ctxt); err != nil { logger.Get().Error("%s-could not update alarm"+ " count for event: %s", ctxt, event.EventId.String()) return event, err } return event, nil }
func node_lost_handler(event models.AppEvent, ctxt string) (models.AppEvent, error) { //worry about the node only if the node in active state state, err := skyringutils.GetNodeStateById(ctxt, event.NodeId) if state == models.NODE_STATE_ACTIVE && err == nil { if err := skyringutils.Update_node_status_byId(ctxt, event.NodeId, models.NODE_STATUS_ERROR); err != nil { return event, err } } event.Name = skyring.EventTypes["NODE_STATE_CHANGED"] event.Message = fmt.Sprintf("Host: %s lost contact", event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_MAJOR event.NotificationEntity = models.NOTIFICATION_ENTITY_HOST event.Notify = true util.AppendServiceToNode(bson.M{"nodeid": event.NodeId}, models.SkyringServices[1], models.STATUS_DOWN, ctxt) if err := update_alarm_count(event, ctxt); err != nil { logger.Get().Error("%s-could not update alarm"+ " count for event: %s", ctxt, event.EventId.String()) return event, err } app := skyring.GetApp() if err := app.RouteProviderEvents(ctxt, event); err != nil { logger.Get().Error("%s-Event:%s could not be handled for node: %s. error: %v", ctxt, event.Name, event.NodeName, err) } return event, nil }
func resource_threshold_crossed(event models.AppEvent, ctxt string) (models.AppEvent, error) { event.Name = skyring.EventTypes[strings.ToUpper(event.Tags["Plugin"])] currentValue, currentValueErr := util.GetReadableFloat(event.Tags["CurrentValue"], ctxt) if currentValueErr != nil { logger.Get().Error("%s-Could not parse the CurrentValue: %s", ctxt, (event.Tags["Plugin"])) return event, currentValueErr } thresholdValue, thresholdValueErr := util.GetReadableFloat(event.Tags["FailureMax"], ctxt) if thresholdValueErr != nil { logger.Get().Error("%s-Could not parse the Failure max value: %s", ctxt, (event.Tags["FailureMax"])) return event, thresholdValueErr } if event.Tags["Plugin"] == "df" { event.Name = fmt.Sprintf("%s-%s", event.Name, event.Tags["PluginInstance"]) event.Tags["Plugin"] = fmt.Sprintf("%s MountPoint", event.Tags["PluginInstance"]) } if event.Tags["Severity"] == "WARNING" { event.Description = fmt.Sprintf("%s utilization on the node: %s has crossed the threshold value of %s%%. Current utilization: %s%%", event.Tags["Plugin"], event.NodeName, thresholdValue, currentValue) event.Message = fmt.Sprintf("%s utilization crossed threshold on: %s", event.Tags["Plugin"], event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_WARNING } else if event.Tags["Severity"] == "FAILURE" { event.Description = fmt.Sprintf("%s utilization on the node: %s has crossed the threshold value of %s%%. Current utilization: %s%%", event.Tags["Plugin"], event.NodeName, thresholdValue, currentValue) event.Message = fmt.Sprintf("%s utilization crossed threshold on: %s", event.Tags["Plugin"], event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_CRITICAL } else if event.Tags["Severity"] == "OKAY" { event.Description = fmt.Sprintf("%s utilization on the node: %s is back to normal. Threshold value: %s%%. Current utilization: %s%%", event.Tags["Plugin"], event.NodeName, thresholdValue, currentValue) event.Message = fmt.Sprintf("%s utilization back to normal on: %s", event.Tags["Plugin"], event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_CLEARED } event.Tags = map[string]string{ "Current Utilization": currentValue, "Threshold value": thresholdValue, } event.NotificationEntity = models.NOTIFICATION_ENTITY_HOST event.Notify = true if err := update_alarm_count(event, ctxt); err != nil { logger.Get().Error("%s-could not update alarm"+ " count for event: %s", ctxt, event.EventId.String()) return event, err } return event, nil }
func drive_remove_handler(event models.AppEvent, ctxt string) (models.AppEvent, error) { sessionCopy := db.GetDatastore().Copy() defer sessionCopy.Close() var node models.Node coll := sessionCopy.DB(conf.SystemConfig.DBConfig.Database).C(models.COLL_NAME_STORAGE_NODES) if err := coll.Find(bson.M{"nodeid": event.NodeId}).One(&node); err != nil { logger.Get().Error("%s-Node information read from DB failed for node: %s. error: %v", ctxt, event.NodeId, err) return event, err } sProfiles, err := skyring.GetDbProvider().StorageProfileInterface().StorageProfiles(ctxt, nil, models.QueryOps{}) if err != nil { logger.Get().Error("%s-Unable to get the storage profiles. err:%v", ctxt, err) return event, err } previous_disks := node.StorageDisks // sync the nodes to get new disks if ok, err := skyring.GetCoreNodeManager().SyncStorageDisks(node.Hostname, sProfiles, ctxt); err != nil || !ok { logger.Get().Error("%s-Failed to sync disk for host: %s Error: %v", ctxt, node.Hostname, err) return event, err } if err := coll.Find(bson.M{"nodeid": event.NodeId}).One(&node); err != nil { logger.Get().Error("%s-Node information read from DB failed for node: %s. error: %v", ctxt, event.NodeId, err) return event, err } var exists bool for _, disk := range previous_disks { exists = false for _, new_disk := range node.StorageDisks { if disk.DevName == new_disk.DevName { exists = true break } } if !exists && !disk.Used { event.EntityId = disk.DiskId event.Tags["DevName"] = disk.DevName event.Tags["DriveSize"] = strconv.FormatFloat(disk.Size, 'E', -1, 64) event.Tags["Type"] = disk.Type } } // adding the details for event event.Name = skyring.EventTypes["DRIVE_REMOVE"] event.NotificationEntity = models.NOTIFICATION_ENTITY_HOST event.Message = fmt.Sprintf("Storage Drive: %s removed from Host:%s", event.Tags["DevName"], node.Hostname) event.Severity = models.ALARM_STATUS_CLEARED event.Notify = false return event, nil }
func logAuditEvent( eventtype string, message string, description string, entityId *uuid.UUID, clusterId *uuid.UUID, notificationEntity models.NotificationEntity, taskId *uuid.UUID, deletionAudit bool, ctxt string) error { var event models.AppEvent eventId, err := uuid.New() if err != nil { logger.Get().Error("%s-Uuid generation for the event failed for event: %s. error: %v", ctxt, event.Name, err) return err } event.EventId = *eventId if entityId != nil { event.EntityId = *entityId } if clusterId != nil { event.ClusterId = *clusterId } event.NotificationEntity = notificationEntity event.Timestamp = time.Now() event.Notify = false event.Name = eventtype event.Message = message event.Description = description event.Severity = models.ALARM_STATUS_CLEARED if taskId != nil { event.Tags = map[string]string{ "Task Id": (*taskId).String(), } } if err := common_event.AuditLog(ctxt, event, GetDbProvider()); err != nil { logger.Get().Error("%s- Error logging the event: %s. Error:%v", ctxt, event.Name, err) return err } if deletionAudit { if err := common_event.DismissAllEventsForEntity(event.EntityId, event, ctxt); err != nil { logger.Get().Error("%s-Error while dismissing events for entity: %v. Error: %v", ctxt, event.EntityId, err) } } return nil }
func node_appeared_handler(event models.AppEvent, ctxt string) (models.AppEvent, error) { //worry about the node only if the node in active state state, err := skyringutils.GetNodeStateById(ctxt, event.NodeId) if state == models.NODE_STATE_ACTIVE && err == nil { if err := skyringutils.Update_node_status_byId(ctxt, event.NodeId, models.NODE_STATUS_OK); err != nil { return event, err } } event.Name = skyring.EventTypes["NODE_STATE_CHANGED"] event.Message = fmt.Sprintf("Host: %s gained contact", event.NodeName) event.EntityId = event.NodeId event.Severity = models.ALARM_STATUS_CLEARED event.NotificationEntity = models.NOTIFICATION_ENTITY_HOST event.Notify = true util.AppendServiceToNode(bson.M{"nodeid": event.NodeId}, models.SkyringServices[1], models.STATUS_UP, ctxt) if err := update_alarm_count(event, ctxt); err != nil { logger.Get().Error("%s-could not update alarm"+ " count for event: %s", ctxt, event.EventId.String()) return event, err } return event, nil }
func drive_add_handler(event models.AppEvent, ctxt string) (models.AppEvent, error) { sessionCopy := db.GetDatastore().Copy() defer sessionCopy.Close() var node models.Node coll := sessionCopy.DB(conf.SystemConfig.DBConfig.Database).C(models.COLL_NAME_STORAGE_NODES) if err := coll.Find(bson.M{"nodeid": event.NodeId}).One(&node); err != nil { logger.Get().Error("%s-Node information read from DB failed for node: %s. error: %v", ctxt, event.NodeId, err) return event, err } if node.State != models.NODE_STATE_ACTIVE { return event, nil } existing_disks := node.StorageDisks sProfiles, err := skyring.GetDbProvider().StorageProfileInterface().StorageProfiles(ctxt, nil, models.QueryOps{}) if err != nil { logger.Get().Error("%s-Unable to get the storage profiles. err:%v", ctxt, err) return event, err } // sync the nodes to get new disks if ok, err := skyring.GetCoreNodeManager().SyncStorageDisks(node.Hostname, sProfiles, ctxt); err != nil || !ok { logger.Get().Error("%s-Failed to sync disk for host: %s Error: %v", ctxt, node.Hostname, err) return event, err } // get the list of disks after syncing. if err := coll.Find(bson.M{"nodeid": event.NodeId}).One(&node); err != nil { logger.Get().Error("%s-Node information read from DB failed for node: %s. error: %v", ctxt, event.NodeId, err) return event, err } var cluster_nodes []models.ClusterNode var cluster_node models.ClusterNode cluster_node.NodeId = event.NodeId.String() cluster_node.NodeType = []string{models.NODE_TYPE_OSD} var exists bool for _, disk := range node.StorageDisks { exists = false for _, existing_disk := range existing_disks { if disk.DevName == existing_disk.DevName { exists = true break } } if !exists && !disk.Used && disk.Type == "disk" { cluster_node.Devices = append(cluster_node.Devices, models.ClusterNodeDevice{Name: disk.DevName, FSType: "xfs"}) event.EntityId = disk.DiskId event.Tags["DevName"] = disk.DevName event.Tags["size"] = strconv.FormatFloat(disk.Size, 'E', -1, 64) event.Tags["Type"] = disk.Type } } // adding the details for event event.Name = skyring.EventTypes["DRIVE_ADD"] event.NotificationEntity = models.NOTIFICATION_ENTITY_HOST event.Message = fmt.Sprintf("New Storage Drive: %s added to Host:%s", event.Tags["DevName"], node.Hostname) event.Severity = models.ALARM_STATUS_CLEARED event.Notify = false c := sessionCopy.DB(conf.SystemConfig.DBConfig.Database).C(models.COLL_NAME_STORAGE_CLUSTERS) var cluster models.Cluster if err := c.Find(bson.M{"clusterid": event.ClusterId}).One(&cluster); err != nil { logger.Get().Error("%s-Cluster information read from DB failed for Cluster: %s. error: %v", ctxt, event.ClusterId, err) return event, nil } // check if cluster is in managed/un-managed state ok, err := skyring.ClusterUnmanaged(event.ClusterId) if err != nil { logger.Get().Warning("%s-Error checking managed state of cluster: %v. error: %v", ctxt, event.ClusterId, err) return event, err } if ok { logger.Get().Error("%s-Cluster: %v is in un-managed state", ctxt, event.ClusterId) return event, err } vars := map[string]string{"cluster-id": event.ClusterId.String()} cluster_nodes = append(cluster_nodes, cluster_node) body, err := json.Marshal(cluster_nodes) if err != nil { logger.Get().Error(fmt.Sprintf("%s-Error forming request body. error: %v", ctxt, err)) return event, nil } // lock the node for expanding var nodes models.Nodes if err := coll.Find(bson.M{"clusterid": event.ClusterId}).All(&nodes); err != nil { logger.Get().Error("%s-Node information read from DB failed . error: %v", ctxt, err) return event, nil } // check if autoExpand is enabled or not if !cluster.AutoExpand { return event, nil } // Expand cluster var result models.RpcResponse var providerTaskId *uuid.UUID asyncTask := func(t *task.Task) { sessionCopy := db.GetDatastore().Copy() defer sessionCopy.Close() for { select { case <-t.StopCh: return default: t.UpdateStatus("Started task for cluster expansion: %v", t.ID) appLock, err := skyring.LockNodes(ctxt, nodes, "Expand_Cluster") if err != nil { util.FailTask("Failed to acquire lock", fmt.Errorf("%s-%v", ctxt, err), t) return } defer skyring.GetApp().GetLockManager().ReleaseLock(ctxt, *appLock) provider := skyring.GetApp().GetProviderFromClusterId(ctxt, node.ClusterId) if provider == nil { util.FailTask("", errors.New(fmt.Sprintf("%s-Error etting provider for cluster: %v", ctxt, event.ClusterId)), t) return } err = provider.Client.Call(fmt.Sprintf("%s.%s", provider.Name, "ExpandCluster"), models.RpcRequest{RpcRequestVars: vars, RpcRequestData: body, RpcRequestContext: ctxt}, &result) if err != nil || (result.Status.StatusCode != http.StatusOK && result.Status.StatusCode != http.StatusAccepted) { util.FailTask(fmt.Sprintf("Error expanding cluster: %v", event.ClusterId), fmt.Errorf("%s-%v", ctxt, err), t) return } // Update the master task id providerTaskId, err = uuid.Parse(result.Data.RequestId) if err != nil { util.FailTask(fmt.Sprintf("Error parsing provider task id while expand cluster: %v", event.ClusterId), fmt.Errorf("%s-%v", ctxt, err), t) return } t.UpdateStatus(fmt.Sprintf("Started provider task: %v", *providerTaskId)) if ok, err := t.AddSubTask(*providerTaskId); !ok || err != nil { util.FailTask(fmt.Sprintf("Error adding sub task while expand cluster: %v", event.ClusterId), fmt.Errorf("%s-%v", ctxt, err), t) return } // Check for provider task to complete and update the disk info for { time.Sleep(2 * time.Second) coll := sessionCopy.DB(conf.SystemConfig.DBConfig.Database).C(models.COLL_NAME_TASKS) var providerTask models.AppTask if err := coll.Find(bson.M{"id": *providerTaskId}).One(&providerTask); err != nil { util.FailTask(fmt.Sprintf("Error getting sub task status while expand cluster: %v", event.ClusterId), fmt.Errorf("%s-%v", ctxt, err), t) return } if providerTask.Completed { if providerTask.Status == models.TASK_STATUS_SUCCESS { t.UpdateStatus("Starting disk sync") if ok, err := skyring.GetCoreNodeManager().SyncStorageDisks(node.Hostname, sProfiles, ctxt); err != nil || !ok { logger.Get().Error("%s-Failed to sync disk for host: %s Error: %v", ctxt, node.Hostname, err) return } go skyring.ComputeSystemSummary(make(map[string]interface{})) t.UpdateStatus("Success") t.Done(models.TASK_STATUS_SUCCESS) } else { logger.Get().Error("%s-Failed to expand the cluster %s", ctxt, event.ClusterId) t.UpdateStatus("Failed") t.Done(models.TASK_STATUS_FAILURE) } break } } return } } } if taskId, err := skyring.GetApp().GetTaskManager().Run( models.ENGINE_NAME, fmt.Sprintf("Expand Cluster: %s", event.ClusterId.String()), asyncTask, nil, nil, nil); err != nil { logger.Get().Error("%s-Unable to create task to expand cluster: %v. error: %v", ctxt, event.ClusterId, err) return event, nil } else { logger.Get().Debug("%s-Task Created: %v to expand cluster: %v", ctxt, taskId, event.ClusterId) return event, nil } }
func RouteEvent(event models.NodeEvent) { reqId, err := uuid.New() if err != nil { logger.Get().Error("Error Creating the RequestId. error: %v", err) return } ctxt := fmt.Sprintf("%v:%v", models.ENGINE_NAME, reqId.String()) var e models.AppEvent e.Timestamp = event.Timestamp e.Tags = event.Tags e.Message = event.Message eventId, err := uuid.New() if err != nil { logger.Get().Error("%s-Uuid generation for the event failed for node: %s. error: %v", ctxt, event.Node, err) return } e.EventId = *eventId // querying DB to get node ID and Cluster ID for the event sessionCopy := db.GetDatastore().Copy() defer sessionCopy.Close() var node models.Node coll := sessionCopy.DB(conf.SystemConfig.DBConfig.Database).C(models.COLL_NAME_STORAGE_NODES) if err := coll.Find(bson.M{"hostname": event.Node}).One(&node); err != nil { logger.Get().Error("%s-Node information read from DB failed for node: %s. error: %v", ctxt, event.Node, err) return } // Push the event to DB only if the node is managed if node.Hostname == "" || !node.Enabled { return } e.ClusterId = node.ClusterId e.NodeId = node.NodeId e.NodeName = node.Hostname // Invoking the event handler for tag, handler := range handlermap { if match, err := filepath.Match(tag, event.Tag); err == nil { if match { if e, err = handler.(func(models.AppEvent, string) (models.AppEvent, error))(e, ctxt); err != nil { logger.Get().Error("%s-Event Handling Failed for event for node: %s. error: %v", ctxt, node.Hostname, err) return } if e.Name == "" { return } if err := common_event.AuditLog(ctxt, e, skyring.GetDbProvider()); err != nil { logger.Get().Error("%s-Could not persist the event to DB for node: %s. error: %v", ctxt, node.Hostname, err) return } else { // For upcoming any new event , broadcasting to all connected clients eventObj, err := json.Marshal(e) if err != nil { logger.Get().Error("%s-Error marshalling the event data for node: %s. error: %v", ctxt, node.Hostname, err) } GetBroadcaster().chBroadcast <- string(eventObj) return } } } else { logger.Get().Error("%s-Error while maping handler for event for node: %s. error: %v", ctxt, node.Hostname, err) return } } e.Name = event.Tag app := skyring.GetApp() if err := app.RouteProviderEvents(ctxt, e); err != nil { logger.Get().Error("%s-Event:%s could not be handled for node: %s. error: %v", ctxt, event.Tag, node.Hostname, err) } return }