- package v2
-
- import (
- "fmt"
- "sync/atomic"
-
- "github.com/Workiva/go-datastructures/queue"
- "github.com/tendermint/tendermint/libs/log"
- )
-
- type handleFunc = func(event Event) (Event, error)
-
- // Routine is a structure that models a finite state machine as serialized
- // stream of events processed by a handle function. This Routine structure
- // handles the concurrency and messaging guarantees. Events are sent via
- // `send` are handled by the `handle` function to produce an iterator
- // `next()`. Calling `stop()` on a routine will conclude processing of all
- // sent events and produce `final()` event representing the terminal state.
- type Routine struct {
- name string
- handle handleFunc
- queue *queue.PriorityQueue
- out chan Event
- fin chan error
- rdy chan struct{}
- running *uint32
- logger log.Logger
- metrics *Metrics
- }
-
- func newRoutine(name string, handleFunc handleFunc, bufferSize int) *Routine {
- return &Routine{
- name: name,
- handle: handleFunc,
- queue: queue.NewPriorityQueue(bufferSize, true),
- out: make(chan Event, bufferSize),
- rdy: make(chan struct{}, 1),
- fin: make(chan error, 1),
- running: new(uint32),
- logger: log.NewNopLogger(),
- metrics: NopMetrics(),
- }
- }
-
- // nolint: unused
- func (rt *Routine) setLogger(logger log.Logger) {
- rt.logger = logger
- }
-
- // nolint:unused
- func (rt *Routine) setMetrics(metrics *Metrics) {
- rt.metrics = metrics
- }
-
- func (rt *Routine) start() {
- rt.logger.Info(fmt.Sprintf("%s: run\n", rt.name))
- running := atomic.CompareAndSwapUint32(rt.running, uint32(0), uint32(1))
- if !running {
- panic(fmt.Sprintf("%s is already running", rt.name))
- }
- close(rt.rdy)
- defer func() {
- stopped := atomic.CompareAndSwapUint32(rt.running, uint32(1), uint32(0))
- if !stopped {
- panic(fmt.Sprintf("%s is failed to stop", rt.name))
- }
- }()
-
- for {
- events, err := rt.queue.Get(1)
- if err != nil {
- rt.logger.Info(fmt.Sprintf("%s: stopping\n", rt.name))
- rt.terminate(fmt.Errorf("stopped"))
- return
- }
- oEvent, err := rt.handle(events[0].(Event))
- rt.metrics.EventsHandled.With("routine", rt.name).Add(1)
- if err != nil {
- rt.terminate(err)
- return
- }
- rt.metrics.EventsOut.With("routine", rt.name).Add(1)
- rt.logger.Debug(fmt.Sprintf("%s: produced %T %+v\n", rt.name, oEvent, oEvent))
-
- rt.out <- oEvent
- }
- }
-
- // XXX: look into returning OpError in the net package
- func (rt *Routine) send(event Event) bool {
- rt.logger.Debug(fmt.Sprintf("%s: received %T %+v", rt.name, event, event))
- if !rt.isRunning() {
- return false
- }
- err := rt.queue.Put(event)
- if err != nil {
- rt.metrics.EventsShed.With("routine", rt.name).Add(1)
- rt.logger.Info(fmt.Sprintf("%s: send failed, queue was full/stopped \n", rt.name))
- return false
- }
-
- rt.metrics.EventsSent.With("routine", rt.name).Add(1)
- return true
- }
-
- func (rt *Routine) isRunning() bool {
- return atomic.LoadUint32(rt.running) == 1
- }
-
- func (rt *Routine) next() chan Event {
- return rt.out
- }
-
- func (rt *Routine) ready() chan struct{} {
- return rt.rdy
- }
-
- func (rt *Routine) stop() {
- if !rt.isRunning() { // XXX: this should check rt.queue.Disposed()
- return
- }
-
- rt.logger.Info(fmt.Sprintf("%s: stop\n", rt.name))
- rt.queue.Dispose() // this should block until all queue items are free?
- }
-
- func (rt *Routine) final() chan error {
- return rt.fin
- }
-
- // XXX: Maybe get rid of this
- func (rt *Routine) terminate(reason error) {
- close(rt.out)
- rt.fin <- reason
- }
|