zolfa
/
tendermint


								package v2


								import (

									"fmt"

									"sync/atomic"


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

								)


								// TODO

								// * revisit panic conditions

								// * audit log levels

								// * Convert routine to an interface with concrete implmentation

								// * determine the public interface


								type handleFunc = func(event Event) (Events, error)


								type Routine struct {

									name     string

									input    chan Event

									errors   chan error

									out      chan Event

									stopped  chan struct{}

									finished chan error

									running  *uint32

									handle   handleFunc

									logger   log.Logger

									metrics  *Metrics

								}


								func newRoutine(name string, handleFunc handleFunc) *Routine {

									return &Routine{

										name:     name,

										input:    make(chan Event, 1),

										handle:   handleFunc,

										errors:   make(chan error, 1),

										out:      make(chan Event, 1),

										stopped:  make(chan struct{}, 1),

										finished: make(chan error, 1),

										running:  new(uint32),

										logger:   log.NewNopLogger(),

										metrics:  NopMetrics(),

									}

								}


								func (rt *Routine) setLogger(logger log.Logger) {

									rt.logger = logger

								}


								func (rt *Routine) setMetrics(metrics *Metrics) {

									rt.metrics = metrics

								}


								func (rt *Routine) run() {

									rt.logger.Info(fmt.Sprintf("%s: run\n", rt.name))

									starting := atomic.CompareAndSwapUint32(rt.running, uint32(0), uint32(1))

									if !starting {

										panic("Routine has already started")

									}

									errorsDrained := false

									for {

										if !rt.isRunning() {

											break

										}

										select {

										case iEvent, ok := <-rt.input:

											rt.metrics.EventsIn.With("routine", rt.name).Add(1)

											if !ok {

												if !errorsDrained {

													continue // wait for errors to be drainned

												}

												rt.logger.Info(fmt.Sprintf("%s: stopping\n", rt.name))

												rt.stopped <- struct{}{}

												rt.terminate(fmt.Errorf("stopped"))

												return

											}

											oEvents, err := rt.handle(iEvent)

											rt.metrics.EventsHandled.With("routine", rt.name).Add(1)

											if err != nil {

												rt.terminate(err)

												return

											}

											rt.metrics.EventsOut.With("routine", rt.name).Add(float64(len(oEvents)))

											rt.logger.Info(fmt.Sprintf("%s handled %d events\n", rt.name, len(oEvents)))

											for _, event := range oEvents {

												rt.logger.Info(fmt.Sprintln("writting back to output"))

												rt.out <- event

											}

										case iEvent, ok := <-rt.errors:

											rt.metrics.ErrorsIn.With("routine", rt.name).Add(1)

											if !ok {

												rt.logger.Info(fmt.Sprintf("%s: errors closed\n", rt.name))

												errorsDrained = true

												continue

											}

											oEvents, err := rt.handle(iEvent)

											rt.metrics.ErrorsHandled.With("routine", rt.name).Add(1)

											if err != nil {

												rt.terminate(err)

												return

											}

											rt.metrics.ErrorsOut.With("routine", rt.name).Add(float64(len(oEvents)))

											for _, event := range oEvents {

												rt.out <- event

											}

										}

									}

								}

								func (rt *Routine) feedback() {

									for event := range rt.out {

										rt.send(event)

									}

								}


								// XXX: this should be called trySend for consistency

								func (rt *Routine) send(event Event) bool {

									if !rt.isRunning() {

										return false

									}

									rt.logger.Info(fmt.Sprintf("%s: sending %+v", rt.name, event))

									if err, ok := event.(error); ok {

										select {

										case rt.errors <- err:

											rt.metrics.ErrorsSent.With("routine", rt.name).Add(1)

											return true

										default:

											rt.metrics.ErrorsShed.With("routine", rt.name).Add(1)

											rt.logger.Info(fmt.Sprintf("%s: errors channel was full\n", rt.name))

											return false

										}

									} else {

										select {

										case rt.input <- event:

											rt.metrics.EventsSent.With("routine", rt.name).Add(1)

											return true

										default:

											rt.metrics.EventsShed.With("routine", rt.name).Add(1)

											rt.logger.Info(fmt.Sprintf("%s: channel was full\n", rt.name))

											return false

										}

									}

								}


								func (rt *Routine) isRunning() bool {

									return atomic.LoadUint32(rt.running) == 1

								}


								func (rt *Routine) output() chan Event {

									return rt.out

								}


								func (rt *Routine) stop() {

									if !rt.isRunning() {

										return

									}

									rt.logger.Info(fmt.Sprintf("%s: stop\n", rt.name))

									close(rt.input)

									close(rt.errors)

									<-rt.stopped

								}


								func (rt *Routine) terminate(reason error) {

									stopped := atomic.CompareAndSwapUint32(rt.running, uint32(1), uint32(0))

									if !stopped {

										panic("called stop but already stopped")

									}

									rt.finished <- reason

								}


								// XXX: this should probably produced the finished

								// channel and let the caller deicde how long to wait

								func (rt *Routine) wait() error {

									return <-rt.finished

								}