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sync: improve Mutex to allow successive acquisitions

This implementation allows a goroutine to do successive acquisitions
of a mutex even if there are blocked goroutines.
Moreover, it allows a newcomer goroutine to acquire a mutex ahead of
blocked goroutines (that is, it does not enforce FIFO).
On implementation level it's achieved by separating waiter count and
locked flag.
Benchmark results on HP Z600 (2 x Xeon E5620, 8 HT cores, 2.40GHz)
are as follows (with 4631059 "replace Semacquire/Semrelease implementation"
patch applied):
benchmark                                        old ns/op    new ns/op    delta
sync_test.BenchmarkMutexUncontended                  24.10        25.40   +5.39%
sync_test.BenchmarkMutexUncontended-2                12.00        13.00   +8.33%
sync_test.BenchmarkMutexUncontended-4                 6.06         6.83  +12.71%
sync_test.BenchmarkMutexUncontended-8                 3.63         3.60   -0.83%
sync_test.BenchmarkMutexUncontended-16                2.38         2.49   +4.62%

sync_test.BenchmarkMutex                             25.00        26.40   +5.60%
sync_test.BenchmarkMutex-2                          231.00        49.00  -78.79%
sync_test.BenchmarkMutex-4                          259.00       114.00  -55.98%
sync_test.BenchmarkMutex-8                          641.00       110.00  -82.84%
sync_test.BenchmarkMutex-16                        1380.00        96.30  -93.02%

sync_test.BenchmarkMutexSlack                        24.80        26.20   +5.65%
sync_test.BenchmarkMutexSlack-2                     210.00       106.00  -49.52%
sync_test.BenchmarkMutexSlack-4                     453.00       119.00  -73.73%
sync_test.BenchmarkMutexSlack-8                    1024.00       105.00  -89.75%
sync_test.BenchmarkMutexSlack-16                   1291.00        91.90  -92.88%

sync_test.BenchmarkMutexWork                        796.00       796.00   +0.00%
sync_test.BenchmarkMutexWork-2                      399.00       401.00   +0.50%
sync_test.BenchmarkMutexWork-4                      216.00       212.00   -1.85%
sync_test.BenchmarkMutexWork-8                     1547.00       196.00  -87.33%
sync_test.BenchmarkMutexWork-16                    2754.00       287.00  -89.58%

sync_test.BenchmarkMutexWorkSlack                   792.00       800.00   +1.01%
sync_test.BenchmarkMutexWorkSlack-2                 430.00       420.00   -2.33%
sync_test.BenchmarkMutexWorkSlack-4                 467.00       230.00  -50.75%
sync_test.BenchmarkMutexWorkSlack-8                1860.00       273.00  -85.32%
sync_test.BenchmarkMutexWorkSlack-16               3029.00       294.00  -90.29%

R=rsc
CC=golang-dev
https://golang.org/cl/4631075
This commit is contained in:
Dmitriy Vyukov 2011-06-30 11:13:29 -04:00 committed by Russ Cox
parent b4cae4aee2
commit dd2074c82a

View File

@ -17,8 +17,8 @@ import (
// Mutexes can be created as part of other structures;
// the zero value for a Mutex is an unlocked mutex.
type Mutex struct {
key int32
sema uint32
state int32
sema uint32
}
// A Locker represents an object that can be locked and unlocked.
@ -27,15 +27,41 @@ type Locker interface {
Unlock()
}
const (
mutexLocked = 1 << iota // mutex is locked
mutexWoken
mutexWaiterShift = iota
)
// Lock locks m.
// If the lock is already in use, the calling goroutine
// blocks until the mutex is available.
func (m *Mutex) Lock() {
if atomic.AddInt32(&m.key, 1) == 1 {
// changed from 0 to 1; we hold lock
// Fast path: grab unlocked mutex.
if atomic.CompareAndSwapInt32(&m.state, 0, mutexLocked) {
return
}
runtime.Semacquire(&m.sema)
awoke := false
for {
old := m.state
new := old | mutexLocked
if old&mutexLocked != 0 {
new = old + 1<<mutexWaiterShift
}
if awoke {
// The goroutine has been woken from sleep,
// so we need to reset the flag in either case.
new &^= mutexWoken
}
if atomic.CompareAndSwapInt32(&m.state, old, new) {
if old&mutexLocked == 0 {
break
}
runtime.Semacquire(&m.sema)
awoke = true
}
}
}
// Unlock unlocks m.
@ -45,14 +71,25 @@ func (m *Mutex) Lock() {
// It is allowed for one goroutine to lock a Mutex and then
// arrange for another goroutine to unlock it.
func (m *Mutex) Unlock() {
switch v := atomic.AddInt32(&m.key, -1); {
case v == 0:
// changed from 1 to 0; no contention
return
case v == -1:
// changed from 0 to -1: wasn't locked
// (or there are 4 billion goroutines waiting)
// Fast path: drop lock bit.
new := atomic.AddInt32(&m.state, -mutexLocked)
if (new+mutexLocked)&mutexLocked == 0 {
panic("sync: unlock of unlocked mutex")
}
runtime.Semrelease(&m.sema)
old := new
for {
// If there are no waiters or a goroutine has already
// been woken or grabbed the lock, no need to wake anyone.
if old>>mutexWaiterShift == 0 || old&(mutexLocked|mutexWoken) != 0 {
return
}
// Grab the right to wake someone.
new = (old - 1<<mutexWaiterShift) | mutexWoken
if atomic.CompareAndSwapInt32(&m.state, old, new) {
runtime.Semrelease(&m.sema)
return
}
old = m.state
}
}