package netmap import ( "context" "encoding/hex" "git.frostfs.info/TrueCloudLab/frostfs-node/internal/logs" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/innerring/processors" timerEvent "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/innerring/timers" "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/event" netmapEvent "git.frostfs.info/TrueCloudLab/frostfs-node/pkg/morph/event/netmap" "go.uber.org/zap" ) func (np *Processor) HandleNewEpochTick(ev event.Event) { _ = ev.(timerEvent.NewEpochTick) np.log.Info(context.Background(), logs.NetmapTick, zap.String("type", "epoch")) // send an event to the worker pool err := processors.SubmitEvent(np.pool, np.metrics, "netmap_new_epoch_tick", np.processNewEpochTick) if err != nil { // there system can be moved into controlled degradation stage np.log.Warn(context.Background(), logs.NetmapNetmapWorkerPoolDrained, zap.Int("capacity", np.pool.Cap())) } } func (np *Processor) handleNewEpoch(ev event.Event) { epochEvent := ev.(netmapEvent.NewEpoch) np.log.Info(context.Background(), logs.Notification, zap.String("type", "new epoch"), zap.Uint64("value", epochEvent.EpochNumber())) // send an event to the worker pool err := processors.SubmitEvent(np.pool, np.metrics, "netmap_new_epoch", func() bool { return np.processNewEpoch(epochEvent) }) if err != nil { // there system can be moved into controlled degradation stage np.log.Warn(context.Background(), logs.NetmapNetmapWorkerPoolDrained, zap.Int("capacity", np.pool.Cap())) } } func (np *Processor) handleAddPeer(ev event.Event) { newPeer := ev.(netmapEvent.AddPeer) np.log.Info(context.Background(), logs.Notification, zap.String("type", "add peer"), ) // send an event to the worker pool err := processors.SubmitEvent(np.pool, np.metrics, "netmap_add_peer", func() bool { return np.processAddPeer(newPeer) }) if err != nil { // there system can be moved into controlled degradation stage np.log.Warn(context.Background(), logs.NetmapNetmapWorkerPoolDrained, zap.Int("capacity", np.pool.Cap())) } } func (np *Processor) handleUpdateState(ev event.Event) { updPeer := ev.(netmapEvent.UpdatePeer) np.log.Info(context.Background(), logs.Notification, zap.String("type", "update peer state"), zap.String("key", hex.EncodeToString(updPeer.PublicKey().Bytes()))) // send event to the worker pool err := processors.SubmitEvent(np.pool, np.metrics, "netmap_update_peer", func() bool { return np.processUpdatePeer(updPeer) }) if err != nil { // there system can be moved into controlled degradation stage np.log.Warn(context.Background(), logs.NetmapNetmapWorkerPoolDrained, zap.Int("capacity", np.pool.Cap())) } } func (np *Processor) handleCleanupTick(ev event.Event) { if !np.netmapSnapshot.enabled { np.log.Debug(context.Background(), logs.NetmapNetmapCleanUpRoutineIsDisabled518) return } cleanup := ev.(netmapCleanupTick) np.log.Info(context.Background(), logs.NetmapTick, zap.String("type", "netmap cleaner")) // send event to the worker pool err := processors.SubmitEvent(np.pool, np.metrics, "netmap_cleanup_tick", func() bool { return np.processNetmapCleanupTick(cleanup) }) if err != nil { // there system can be moved into controlled degradation stage np.log.Warn(context.Background(), logs.NetmapNetmapWorkerPoolDrained, zap.Int("capacity", np.pool.Cap())) } }