Ejemplo n.º 1
0
// Show a number of writers and readers operating concurrently from unique
// destinations.
func main() {

	st := time.Now()

	sngecomm.ShowRunParms(exampid)

	ll.Printf("%stag:%s connsess:%s main_starts\n",
		exampid, tag, sngecomm.Lcs)

	ll.Printf("%stag:%s connsess:%s main_profiling pprof:%v\n",
		exampid, tag, sngecomm.Lcs,
		sngecomm.Pprof())

	ll.Printf("%stag:%s connsess:%s main_current_GOMAXPROCS gmp:%v\n",
		exampid, tag, sngecomm.Lcs,
		runtime.GOMAXPROCS(-1))

	if sngecomm.SetMAXPROCS() {
		nc := runtime.NumCPU()
		ll.Printf("%stag:%s connsess:%s main_current_num_cpus cncpu:%v\n",
			exampid, tag, sngecomm.Lcs,
			nc)
		gmp := runtime.GOMAXPROCS(nc)
		ll.Printf("%stag:%s connsess:%s main_previous_num_cpus pncpu:%v\n",
			exampid, tag, sngecomm.Lcs,
			gmp)
		ll.Printf("%stag:%s connsess:%s main_current_GOMAXPROCS gmp:%v\n",
			exampid, tag, sngecomm.Lcs,
			runtime.GOMAXPROCS(-1))
	}
	//
	sw = sngecomm.SendWait()
	rw = sngecomm.RecvWait()
	sf = sngecomm.SendFactor()
	rf = sngecomm.RecvFactor()
	ll.Printf("%stag:%s connsess:%s main_wait_sleep_factors sw:%v rw:%v sf:%v rf:%v\n",
		exampid, tag, sngecomm.Lcs,
		sw, rw, sf, rf)
	//
	q := sngecomm.Nqs()
	//
	wga.Add(2)
	go startReceivers(q)
	go startSenders(q)
	wga.Wait()

	ll.Printf("%stag:%s connsess:%s main_elapsed:%v\n",
		exampid, tag, sngecomm.Lcs,
		time.Now().Sub(st))

}
Ejemplo n.º 2
0
func main() {

	st := time.Now()

	sngecomm.ShowRunParms(exampid)

	ll.Printf("%stag:%s connsess:%s main_starts\n",
		exampid, tag, sngecomm.Lcs)

	ll.Printf("%stag:%s connsess:%s main_profiling pprof:%v\n",
		exampid, tag, sngecomm.Lcs,
		sngecomm.Pprof())

	ll.Printf("%stag:%s connsess:%s main_current_GOMAXPROCS gmp:%v\n",
		exampid, tag, sngecomm.Lcs,
		runtime.GOMAXPROCS(-1))

	if sngecomm.SetMAXPROCS() {
		nc := runtime.NumCPU()
		ll.Printf("%stag:%s connsess:%s main_current_num_cpus cncpu:%v\n",
			exampid, tag, sngecomm.Lcs,
			nc)
		gmp := runtime.GOMAXPROCS(nc)
		ll.Printf("%stag:%s connsess:%s main_previous_num_cpus pncpu:%v\n",
			exampid, tag, sngecomm.Lcs,
			gmp)
		ll.Printf("%stag:%s connsess:%s main_current_GOMAXPROCS gmp:%v\n",
			exampid, tag, sngecomm.Lcs,
			runtime.GOMAXPROCS(-1))
	}
	//
	sw = sngecomm.SendWait()
	rw = sngecomm.RecvWait()
	sf = sngecomm.SendFactor()
	rf = sngecomm.RecvFactor()
	ll.Printf("%stag:%s connsess:%s main_wait_sleep_factors sw:%v rw:%v sf:%v rf:%v\n",
		exampid, tag, sngecomm.Lcs,
		sw, rw, sf, rf)
	//
	numq := sngecomm.Nqs()
	nmsgs = senv.Nmsgs() // message count
	//
	ll.Printf("%stag:%s connsess:%s main_starting_receivers\n",
		exampid, tag, sngecomm.Lcs)
	for q := 1; q <= numq; q++ {
		wgr.Add(1)
		go runReceiver(q)
	}
	ll.Printf("%stag:%s connsess:%s main_started_receivers\n",
		exampid, tag, sngecomm.Lcs)
	//
	ll.Printf("%stag:%s connsess:%s main_starting_senders\n",
		exampid, tag, sngecomm.Lcs)
	for q := 1; q <= numq; q++ {
		wgs.Add(1)
		go runSender(q)
	}
	ll.Printf("%stag:%s connsess:%s main_started_senders\n",
		exampid, tag, sngecomm.Lcs)
	//
	wgs.Wait()
	ll.Printf("%stag:%s connsess:%s main_senders_complete\n",
		exampid, tag, sngecomm.Lcs)
	wgr.Wait()
	ll.Printf("%stag:%s connsess:%s main_receivers_complete\n",
		exampid, tag, sngecomm.Lcs)
	//

	// The end
	ll.Printf("%stag:%s connsess:%s main_elapsed:%v\n",
		exampid, tag, sngecomm.Lcs,
		time.Now().Sub(st))

}
Ejemplo n.º 3
0
// Show a number of writers and readers operating concurrently from unique
// destinations.
func main() {

	st := time.Now()

	sngecomm.ShowRunParms(exampid)

	ll.Printf("%stag:%s connsess:%s main_starts\n",
		exampid, tag, sngecomm.Lcs)

	ll.Printf("%stag:%s connsess:%s main_profiling pprof:%v\n",
		exampid, tag, sngecomm.Lcs,
		sngecomm.Pprof())

	ll.Printf("%stag:%s connsess:%s main_current_GOMAXPROCS gmp:%v\n",
		exampid, tag, sngecomm.Lcs,
		runtime.GOMAXPROCS(-1))

	if sngecomm.SetMAXPROCS() {
		nc := runtime.NumCPU()
		ll.Printf("%stag:%s connsess:%s main_current_num_cpus cncpu:%v\n",
			exampid, tag, sngecomm.Lcs,
			nc)
		gmp := runtime.GOMAXPROCS(nc)
		ll.Printf("%stag:%s connsess:%s main_previous_num_cpus pncpu:%v\n",
			exampid, tag, sngecomm.Lcs,
			gmp)
		ll.Printf("%stag:%s connsess:%s main_current_GOMAXPROCS gmp:%v\n",
			exampid, tag, sngecomm.Lcs,
			runtime.GOMAXPROCS(-1))
	}
	// Wait flags
	sw = sngecomm.SendWait()
	rw = sngecomm.RecvWait()
	sf = sngecomm.SendFactor()
	rf = sngecomm.RecvFactor()
	ll.Printf("%stag:%s connsess:%s main_wait_sleep_factors sw:%v rw:%v sf:%v rf:%v\n",
		exampid, tag, sngecomm.Lcs,
		sw, rw, sf, rf)
	// Number of queues
	nqs := sngecomm.Nqs()

	// Standard example connect sequence
	var e error
	n, conn, e = sngecomm.CommonConnect(exampid, tag, ll)
	if e != nil {
		if conn != nil {
			ll.Printf("%stag:%s  connsess:%s Connect Response headers:%v body%s\n",
				exampid, tag, conn.Session(), conn.ConnectResponse.Headers,
				string(conn.ConnectResponse.Body))
		}
		ll.Fatalf("%stag:%s connsess:%s main_on_connect error:%v",
			exampid, tag, sngecomm.Lcs,
			e.Error()) // Handle this ......
	}

	// Many receivers running under the same connection can cause
	// (wire read) performance issues.  This is *very* dependent on the broker
	// being used, specifically the broker's algorithm for putting messages on
	// the wire.
	// To alleviate those issues, this strategy insures that messages are
	// received from the wire as soon as possible.  Those messages are then
	// buffered internally for (possibly later) application processing. In
	// this example, buffering occurs in the stompngo package.
	conn.SetSubChanCap(senv.SubChanCap()) // Experiment with this value, YMMV

	// Run everything
	wga.Add(2)
	go startReceivers(nqs)
	go startSenders(nqs)
	wga.Wait()

	// Standard example disconnect sequence
	e = sngecomm.CommonDisconnect(n, conn, exampid, tag, ll)
	if e != nil {
		ll.Fatalf("%stag:%s connsess:%s main_on_disconnect error:%v",
			exampid, tag, conn.Session(),
			e.Error()) // Handle this ......
	}

	sngecomm.ShowStats(exampid, tag, conn)

	ll.Printf("%stag:%s connsess:%s main_elapsed:%v\n",
		exampid, tag, conn.Session(),
		time.Now().Sub(st))

}