func (r *req) SendHook(m *mangos.Message) bool {
if r.raw {
// Raw mode has no automatic retry, and must include the
// request id in the header coming down.
return true
}
r.Lock()
defer r.Unlock()
// We need to generate a new request id, and append it to the header.
r.reqid = r.nextID()
v := r.reqid
m.Header = append(m.Header,
byte(v>>24), byte(v>>16), byte(v>>8), byte(v))
r.reqmsg = m.Dup()
// Schedule a retry, in case we don't get a reply.
if r.retry > 0 {
r.waker.Reset(r.retry)
} else {
r.waker.Stop()
}
r.sock.SetRecvError(nil)
return true
}
func (x *bus) broadcast(m *mangos.Message, sender uint32) {
x.Lock()
for id, pe := range x.peers {
if sender == id {
continue
}
m = m.Dup()
select {
case pe.q <- m:
default:
// No room on outbound queue, drop it.
// Note that if we are passing on a linger/shutdown
// notification and we can't deliver due to queue
// full, it means we will wind up waiting the full
// linger time in the lower sender. Its correct, if
// suboptimal, behavior.
m.Free()
}
}
x.Unlock()
}
func (x *star) broadcast(m *mangos.Message, sender *starEp) {
x.Lock()
if sender == nil || !x.raw {
for _, pe := range x.eps {
if sender == pe {
continue
}
m = m.Dup()
select {
case pe.q <- m:
default:
// No room on outbound queue, drop it.
if m != nil {
m.Free()
}
}
}
}
x.Unlock()
// Grab a local copy and send it up if we aren't originator
if sender != nil {
select {
case x.sock.RecvChannel() <- m:
case <-x.sock.CloseChannel():
m.Free()
return
default:
// No room, so we just drop it.
m.Free()
}
} else {
// Not sending it up, so we need to release it.
m.Free()
}
}