zolfa
/
tendermint


								// eventmeter - generic system to subscribe to events and record their frequency.

								package eventmeter


								import (

									"context"

									"encoding/json"

									"fmt"

									"sync"

									"time"


									metrics "github.com/rcrowley/go-metrics"


									"github.com/tendermint/tendermint/libs/events"

									"github.com/tendermint/tendermint/libs/log"

									client "github.com/tendermint/tendermint/rpc/lib/client"

								)


								const (

									// Get ping/pong latency and call LatencyCallbackFunc with this period.

									latencyPeriod = 1 * time.Second


									// Check if the WS client is connected every

									connectionCheckPeriod = 100 * time.Millisecond

								)


								// EventMetric exposes metrics for an event.

								type EventMetric struct {

									ID          string    `json:"id"`

									Started     time.Time `json:"start_time"`

									LastHeard   time.Time `json:"last_heard"`

									MinDuration int64     `json:"min_duration"`

									MaxDuration int64     `json:"max_duration"`


									// tracks event count and rate

									meter metrics.Meter


									// filled in from the Meter

									Count    int64   `json:"count"`

									Rate1    float64 `json:"rate_1" amino:"unsafe"`

									Rate5    float64 `json:"rate_5" amino:"unsafe"`

									Rate15   float64 `json:"rate_15" amino:"unsafe"`

									RateMean float64 `json:"rate_mean" amino:"unsafe"`


									// so the event can have effects in the eventmeter's consumer. runs in a go

									// routine.

									callback EventCallbackFunc

								}


								func (metric *EventMetric) Copy() *EventMetric {

									metricCopy := *metric

									metricCopy.meter = metric.meter.Snapshot()

									return &metricCopy

								}


								// called on GetMetric

								func (metric *EventMetric) fillMetric() *EventMetric {

									metric.Count = metric.meter.Count()

									metric.Rate1 = metric.meter.Rate1()

									metric.Rate5 = metric.meter.Rate5()

									metric.Rate15 = metric.meter.Rate15()

									metric.RateMean = metric.meter.RateMean()

									return metric

								}


								// EventCallbackFunc is a closure to enable side effects from receiving an

								// event.

								type EventCallbackFunc func(em *EventMetric, data interface{})


								// EventUnmarshalFunc is a closure to get the query and data out of the raw

								// JSON received over the RPC WebSocket.

								type EventUnmarshalFunc func(b json.RawMessage) (string, events.EventData, error)


								// LatencyCallbackFunc is a closure to enable side effects from receiving a latency.

								type LatencyCallbackFunc func(meanLatencyNanoSeconds float64)


								// DisconnectCallbackFunc is a closure to notify a consumer that the connection

								// has died.

								type DisconnectCallbackFunc func()


								// EventMeter tracks events, reports latency and disconnects.

								type EventMeter struct {

									wsc *client.WSClient


									mtx              sync.Mutex

									queryToMetricMap map[string]*EventMetric


									unmarshalEvent     EventUnmarshalFunc

									latencyCallback    LatencyCallbackFunc

									disconnectCallback DisconnectCallbackFunc

									subscribed         bool


									quit chan struct{}


									logger log.Logger

								}


								func NewEventMeter(addr string, unmarshalEvent EventUnmarshalFunc) *EventMeter {

									return &EventMeter{

										wsc:              client.NewWSClient(addr, "/websocket", client.PingPeriod(1*time.Second)),

										queryToMetricMap: make(map[string]*EventMetric),

										unmarshalEvent:   unmarshalEvent,

										logger:           log.NewNopLogger(),

									}

								}


								// SetLogger lets you set your own logger.

								func (em *EventMeter) SetLogger(l log.Logger) {

									em.logger = l

									em.wsc.SetLogger(l.With("module", "rpcclient"))

								}


								// String returns a string representation of event meter.

								func (em *EventMeter) String() string {

									return em.wsc.Address

								}


								// Start boots up event meter.

								func (em *EventMeter) Start() error {

									if err := em.wsc.Start(); err != nil {

										return err

									}


									em.quit = make(chan struct{})

									go em.receiveRoutine()

									go em.disconnectRoutine()


									err := em.subscribe()

									if err != nil {

										return err

									}

									em.subscribed = true

									return nil

								}


								// Stop stops event meter.

								func (em *EventMeter) Stop() {

									close(em.quit)


									if em.wsc.IsRunning() {

										em.wsc.Stop()

									}

								}


								// Subscribe for the given query. Callback function will be called upon

								// receiving an event.

								func (em *EventMeter) Subscribe(query string, cb EventCallbackFunc) error {

									em.mtx.Lock()

									defer em.mtx.Unlock()


									if err := em.wsc.Subscribe(context.TODO(), query); err != nil {

										return err

									}


									metric := &EventMetric{

										meter:    metrics.NewMeter(),

										callback: cb,

									}

									em.queryToMetricMap[query] = metric

									return nil

								}


								// Unsubscribe from the given query.

								func (em *EventMeter) Unsubscribe(query string) error {

									em.mtx.Lock()

									defer em.mtx.Unlock()


									return em.wsc.Unsubscribe(context.TODO(), query)

								}


								// GetMetric fills in the latest data for an query and return a copy.

								func (em *EventMeter) GetMetric(query string) (*EventMetric, error) {

									em.mtx.Lock()

									defer em.mtx.Unlock()

									metric, ok := em.queryToMetricMap[query]

									if !ok {

										return nil, fmt.Errorf("unknown query: %s", query)

									}

									return metric.fillMetric().Copy(), nil

								}


								// RegisterLatencyCallback allows you to set latency callback.

								func (em *EventMeter) RegisterLatencyCallback(f LatencyCallbackFunc) {

									em.mtx.Lock()

									defer em.mtx.Unlock()

									em.latencyCallback = f

								}


								// RegisterDisconnectCallback allows you to set disconnect callback.

								func (em *EventMeter) RegisterDisconnectCallback(f DisconnectCallbackFunc) {

									em.mtx.Lock()

									defer em.mtx.Unlock()

									em.disconnectCallback = f

								}


								///////////////////////////////////////////////////////////////////////////////

								// Private


								func (em *EventMeter) subscribe() error {

									for query, _ := range em.queryToMetricMap {

										if err := em.wsc.Subscribe(context.TODO(), query); err != nil {

											return err

										}

									}

									return nil

								}


								func (em *EventMeter) receiveRoutine() {

									latencyTicker := time.NewTicker(latencyPeriod)

									for {

										select {

										case resp := <-em.wsc.ResponsesCh:

											if resp.Error != nil {

												em.logger.Error("expected some event, got error", "err", resp.Error.Error())

												continue

											}

											query, data, err := em.unmarshalEvent(resp.Result)

											if err != nil {

												em.logger.Error("failed to unmarshal event", "err", err)

												continue

											}

											if query != "" { // FIXME how can it be an empty string?

												em.updateMetric(query, data)

											}

										case <-latencyTicker.C:

											if em.wsc.IsActive() {

												em.callLatencyCallback(em.wsc.PingPongLatencyTimer.Mean())

											}

										case <-em.wsc.Quit():

											return

										case <-em.quit:

											return

										}

									}

								}


								func (em *EventMeter) disconnectRoutine() {

									ticker := time.NewTicker(connectionCheckPeriod)

									for {

										select {

										case <-ticker.C:

											if em.wsc.IsReconnecting() && em.subscribed { // notify user about disconnect only once

												em.callDisconnectCallback()

												em.subscribed = false

											} else if !em.wsc.IsReconnecting() && !em.subscribed { // resubscribe

												em.subscribe()

												em.subscribed = true

											}

										case <-em.wsc.Quit():

											return

										case <-em.quit:

											return

										}

									}

								}


								func (em *EventMeter) updateMetric(query string, data events.EventData) {

									em.mtx.Lock()

									defer em.mtx.Unlock()


									metric, ok := em.queryToMetricMap[query]

									if !ok {

										// we already unsubscribed, or got an unexpected query

										return

									}


									last := metric.LastHeard

									metric.LastHeard = time.Now()

									metric.meter.Mark(1)

									dur := int64(metric.LastHeard.Sub(last))

									if dur < metric.MinDuration {

										metric.MinDuration = dur

									}

									if !last.IsZero() && dur > metric.MaxDuration {

										metric.MaxDuration = dur

									}


									if metric.callback != nil {

										go metric.callback(metric.Copy(), data)

									}

								}


								func (em *EventMeter) callDisconnectCallback() {

									em.mtx.Lock()

									if em.disconnectCallback != nil {

										go em.disconnectCallback()

									}

									em.mtx.Unlock()

								}


								func (em *EventMeter) callLatencyCallback(meanLatencyNanoSeconds float64) {

									em.mtx.Lock()

									if em.latencyCallback != nil {

										go em.latencyCallback(meanLatencyNanoSeconds)

									}

									em.mtx.Unlock()

								}