// WithProcessClosing returns a context.Context derived from ctx that
// is cancelled as p is Closing (after: <-p.Closing()). It is simply:
//
// func WithProcessClosing(ctx context.Context, p goprocess.Process) context.Context {
// ctx, cancel := context.WithCancel(ctx)
// go func() {
// <-p.Closing()
// cancel()
// }()
// return ctx
// }
//
func WithProcessClosing(ctx context.Context, p goprocess.Process) context.Context {
ctx, cancel := context.WithCancel(ctx)
go func() {
<-p.Closing()
cancel()
}()
return ctx
}
// CloseAfterContext schedules the process to close after the given
// context is done. It is the equivalent of:
//
// func CloseAfterContext(p goprocess.Process, ctx context.Context) {
// go func() {
// <-ctx.Done()
// p.Close()
// }()
// }
//
func CloseAfterContext(p goprocess.Process, ctx context.Context) {
if p == nil {
panic("nil Process")
}
if ctx == nil {
panic("nil Context")
}
// context.Background(). if ctx.Done() is nil, it will never be done.
// we check for this to avoid wasting a goroutine forever.
if ctx.Done() == nil {
return
}
go func() {
<-ctx.Done()
p.Close()
}()
}
// WaitForContext makes p WaitFor ctx. When Closing, p waits for
// ctx.Done(), before being Closed(). It is simply:
//
// p.WaitFor(goprocess.WithContext(ctx))
//
func WaitForContext(ctx context.Context, p goprocess.Process) {
p.WaitFor(WithContext(ctx))
}
// transport will grab message arrival times, wait until that time, and
// then write the message out when it is scheduled to arrive
func (s *stream) transport(proc process.Process) {
bufsize := 256
buf := new(bytes.Buffer)
ticker := time.NewTicker(time.Millisecond * 4)
// writeBuf writes the contents of buf through to the s.Writer.
// done only when arrival time makes sense.
drainBuf := func() {
if buf.Len() > 0 {
_, err := s.Writer.Write(buf.Bytes())
if err != nil {
return
}
buf.Reset()
}
}
// deliverOrWait is a helper func that processes
// an incoming packet. it waits until the arrival time,
// and then writes things out.
deliverOrWait := func(o *transportObject) {
buffered := len(o.msg) + buf.Len()
now := time.Now()
if now.Before(o.arrivalTime) {
if buffered < bufsize {
buf.Write(o.msg)
return
}
// we do not buffer + return here, instead hanging the
// call (i.e. not accepting any more transportObjects)
// so that we apply back-pressure to the sender.
// this sleep should wake up same time as ticker.
time.Sleep(o.arrivalTime.Sub(now))
}
// ok, we waited our due time. now rite the buf + msg.
// drainBuf first, before we write this message.
drainBuf()
// write this message.
_, err := s.Writer.Write(o.msg)
if err != nil {
log.Error("mock_stream", err)
}
}
for {
select {
case <-proc.Closing():
return // bail out of here.
case o, ok := <-s.toDeliver:
if !ok {
return
}
deliverOrWait(o)
case <-ticker.C: // ok, due to write it out.
drainBuf()
}
}
}
// OnClosedContext derives a context from a given goprocess that will
// be 'Done' when the process is closed
func OnClosedContext(p goprocess.Process) context.Context {
return &procContext{
done: p.Closed(),
which: closed,
}
}
// OnClosingContext derives a context from a given goprocess that will
// be 'Done' when the process is closing
func OnClosingContext(p goprocess.Process) context.Context {
return &procContext{
done: p.Closing(),
which: closing,
}
}