sync: yield to the waiter when unlocking a starving mutex

When we have already assigned the semaphore ticket to a specific waiter, we want to get the waiter running as fast as possible since no other G waiting on the semaphore can acquire it optimistically. The net effect is that, when a sync.Mutex is contended, the code in the critical section guarded by the Mutex gets a priority boost. Fixes #33747 The original work was done in CL 200577 by Carlo Alberto Ferraris. The change was reverted in CL 205817 because it broke the linux-arm64-packet and solaris-amd64-oraclerel builders. Change-Id: I76d79b1d63fd206ed1c57fe6900cb7ae9e4d46cb Reviewed-on: https://go-review.googlesource.com/c/go/+/206180 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>

sync: yield to the waiter when unlocking a starving mutex
When we have already assigned the semaphore ticket to a specific waiter, we want to get the waiter running as fast as possible since no other G waiting on the semaphore can acquire it optimistically. The net effect is that, when a sync.Mutex is contended, the code in the critical section guarded by the Mutex gets a priority boost. Fixes #33747 The original work was done in CL 200577 by Carlo Alberto Ferraris. The change was reverted in CL 205817 because it broke the linux-arm64-packet and solaris-amd64-oraclerel builders. Change-Id: I76d79b1d63fd206ed1c57fe6900cb7ae9e4d46cb Reviewed-on: https://go-review.googlesource.com/c/go/+/206180 Run-TryBot: Brad Fitzpatrick <bradfitz@golang.org> TryBot-Result: Gobot Gobot <gobot@golang.org> Reviewed-by: Brad Fitzpatrick <bradfitz@golang.org>
7148478f · Rhys Hiltner · Brad Fitzpatrick · 6e111956 · 7148478f · 7148478f
Commit 7148478f authored Nov 08, 2019 by Rhys Hiltner Committed by Brad Fitzpatrick Nov 09, 2019
5 changed files
--- a/src/runtime/export_test.go
+++ b/src/runtime/export_test.go
@@ -900,3 +900,11 @@ func PageCachePagesLeaked() (leaked uintptr) {
 	startTheWorld()
 	return
 }
+
+var Semacquire = semacquire
+var Semrelease1 = semrelease1
+
+func SemNwait(addr *uint32) uint32 {
+	root := semroot(addr)
+	return atomic.Load(&root.nwait)
+}
--- a/src/runtime/proc.go
+++ b/src/runtime/proc.go
@@ -2753,7 +2753,22 @@ func preemptPark(gp *g) {
 	casGToPreemptScan(gp, _Grunning, _Gscan|_Gpreempted)
 	dropg()
 	casfrom_Gscanstatus(gp, _Gscan|_Gpreempted, _Gpreempted)
+	schedule()
+}

+// goyield is like Gosched, but it:
+// - does not emit a GoSched trace event
+// - puts the current G on the runq of the current P instead of the globrunq
+func goyield() {
+	checkTimeouts()
+	mcall(goyield_m)
+}
+
+func goyield_m(gp *g) {
+	pp := gp.m.p.ptr()
+	casgstatus(gp, _Grunning, _Grunnable)
+	dropg()
+	runqput(pp, gp, false)
 	schedule()
 }


--- a/src/runtime/sema.go
+++ b/src/runtime/sema.go
@@ -180,7 +180,7 @@ func semrelease1(addr *uint32, handoff bool, skipframes int) {
 		atomic.Xadd(&root.nwait, -1)
 	}
 	unlock(&root.lock)
-	if s != nil { // May be slow, so unlock first
+	if s != nil { // May be slow or even yield, so unlock first
 		acquiretime := s.acquiretime
 		if acquiretime != 0 {
 			mutexevent(t0-acquiretime, 3+skipframes)
@@ -192,6 +192,25 @@ func semrelease1(addr *uint32, handoff bool, skipframes int) {
 			s.ticket = 1
 		}
 		readyWithTime(s, 5+skipframes)
+		if s.ticket == 1 && getg().m.locks == 0 {
+			// Direct G handoff
+			// readyWithTime has added the waiter G as runnext in the
+			// current P; we now call the scheduler so that we start running
+			// the waiter G immediately.
+			// Note that waiter inherits our time slice: this is desirable
+			// to avoid having a highly contended semaphore hog the P
+			// indefinitely. goyield is like Gosched, but it does not emit a
+			// GoSched trace event and, more importantly, puts the current G
+			// on the local runq instead of the global one.
+			// We only do this in the starving regime (handoff=true), as in
+			// the non-starving case it is possible for a different waiter
+			// to acquire the semaphore while we are yielding/scheduling,
+			// and this would be wasteful. We wait instead to enter starving
+			// regime, and then we start to do direct handoffs of ticket and
+			// P.
+			// See issue 33747 for discussion.
+			goyield()
+		}
 	}
 }


--- a/src/runtime/sema_test.go
+++ b/src/runtime/sema_test.go
+// Copyright 2019 The Go Authors. All rights reserved.
+// Use of this source code is governed by a BSD-style
+// license that can be found in the LICENSE file.
+
+package runtime_test
+
+import (
+	. "runtime"
+	"sync/atomic"
+	"testing"
+)
+
+// TestSemaHandoff checks that when semrelease+handoff is
+// requested, the G that releases the semaphore yields its
+// P directly to the first waiter in line.
+// See issue 33747 for discussion.
+func TestSemaHandoff(t *testing.T) {
+	const iter = 10000
+	ok := 0
+	for i := 0; i < iter; i++ {
+		if testSemaHandoff() {
+			ok++
+		}
+	}
+	// As long as two thirds of handoffs are direct, we
+	// consider the test successful. The scheduler is
+	// nondeterministic, so this test checks that we get the
+	// desired outcome in a significant majority of cases.
+	// The actual ratio of direct handoffs is much higher
+	// (>90%) but we use a lower threshold to minimize the
+	// chances that unrelated changes in the runtime will
+	// cause the test to fail or become flaky.
+	if ok < iter*2/3 {
+		t.Fatal("direct handoff < 2/3:", ok, iter)
+	}
+}
+
+func TestSemaHandoff1(t *testing.T) {
+	if GOMAXPROCS(-1) <= 1 {
+		t.Skip("GOMAXPROCS <= 1")
+	}
+	defer GOMAXPROCS(GOMAXPROCS(-1))
+	GOMAXPROCS(1)
+	TestSemaHandoff(t)
+}
+
+func TestSemaHandoff2(t *testing.T) {
+	if GOMAXPROCS(-1) <= 2 {
+		t.Skip("GOMAXPROCS <= 2")
+	}
+	defer GOMAXPROCS(GOMAXPROCS(-1))
+	GOMAXPROCS(2)
+	TestSemaHandoff(t)
+}
+
+func testSemaHandoff() bool {
+	var sema, res uint32
+	done := make(chan struct{})
+
+	// We're testing that the current goroutine is able to yield its time slice
+	// to another goroutine. Stop the current goroutine from migrating to
+	// another CPU where it can win the race (and appear to have not yielded) by
+	// keeping the CPUs slightly busy.
+	for i := 0; i < GOMAXPROCS(-1); i++ {
+		go func() {
+			for {
+				select {
+				case <-done:
+					return
+				default:
+				}
+				Gosched()
+			}
+		}()
+	}
+
+	go func() {
+		Semacquire(&sema)
+		atomic.CompareAndSwapUint32(&res, 0, 1)
+
+		Semrelease1(&sema, true, 0)
+		close(done)
+	}()
+	for SemNwait(&sema) == 0 {
+		Gosched() // wait for goroutine to block in Semacquire
+	}
+
+	// The crux of the test: we release the semaphore with handoff
+	// and immediately perform a CAS both here and in the waiter; we
+	// want the CAS in the waiter to execute first.
+	Semrelease1(&sema, true, 0)
+	atomic.CompareAndSwapUint32(&res, 0, 2)
+
+	<-done // wait for goroutines to finish to avoid data races
+
+	return res == 1 // did the waiter run first?
+}
--- a/src/sync/mutex.go
+++ b/src/sync/mutex.go
@@ -216,7 +216,8 @@ func (m *Mutex) unlockSlow(new int32) {
 			old = m.state
 		}
 	} else {
-		// Starving mode: handoff mutex ownership to the next waiter.
+		// Starving mode: handoff mutex ownership to the next waiter, and yield
+		// our time slice so that the next waiter can start to run immediately.
 		// Note: mutexLocked is not set, the waiter will set it after wakeup.
 		// But mutex is still considered locked if mutexStarving is set,
 		// so new coming goroutines won't acquire it.