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// Copyright 2018 The gVisor Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
package futex
import (
"math"
"runtime"
"sync/atomic"
"syscall"
"testing"
"unsafe"
"gvisor.dev/gvisor/pkg/sync"
"gvisor.dev/gvisor/pkg/usermem"
)
// testData implements the Target interface, and allows us to
// treat the address passed for futex operations as an index in
// a byte slice for testing simplicity.
type testData []byte
const sizeofInt32 = 4
func newTestData(size uint) testData {
return make([]byte, size)
}
func (t testData) SwapUint32(addr usermem.Addr, new uint32) (uint32, error) {
val := atomic.SwapUint32((*uint32)(unsafe.Pointer(&t[addr])), new)
return val, nil
}
func (t testData) CompareAndSwapUint32(addr usermem.Addr, old, new uint32) (uint32, error) {
if atomic.CompareAndSwapUint32((*uint32)(unsafe.Pointer(&t[addr])), old, new) {
return old, nil
}
return atomic.LoadUint32((*uint32)(unsafe.Pointer(&t[addr]))), nil
}
func (t testData) LoadUint32(addr usermem.Addr) (uint32, error) {
return atomic.LoadUint32((*uint32)(unsafe.Pointer(&t[addr]))), nil
}
func (t testData) GetSharedKey(addr usermem.Addr) (Key, error) {
return Key{
Kind: KindSharedMappable,
Offset: uint64(addr),
}, nil
}
func futexKind(private bool) string {
if private {
return "private"
}
return "shared"
}
func newPreparedTestWaiter(t *testing.T, m *Manager, ta Target, addr usermem.Addr, private bool, val uint32, bitmask uint32) *Waiter {
w := NewWaiter()
if err := m.WaitPrepare(w, ta, addr, private, val, bitmask); err != nil {
t.Fatalf("WaitPrepare failed: %v", err)
}
return w
}
func TestFutexWake(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(sizeofInt32)
// Start waiting for wakeup.
w := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w)
// Perform a wakeup.
if n, err := m.Wake(d, 0, private, ^uint32(0), 1); err != nil || n != 1 {
t.Errorf("Wake: got (%d, %v), wanted (1, nil)", n, err)
}
// Expect the waiter to have been woken.
if !w.woken() {
t.Error("waiter not woken")
}
})
}
}
func TestFutexWakeBitmask(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(sizeofInt32)
// Start waiting for wakeup.
w := newPreparedTestWaiter(t, m, d, 0, private, 0, 0x0000ffff)
defer m.WaitComplete(w)
// Perform a wakeup using the wrong bitmask.
if n, err := m.Wake(d, 0, private, 0xffff0000, 1); err != nil || n != 0 {
t.Errorf("Wake with non-matching bitmask: got (%d, %v), wanted (0, nil)", n, err)
}
// Expect the waiter to still be waiting.
if w.woken() {
t.Error("waiter woken unexpectedly")
}
// Perform a wakeup using the right bitmask.
if n, err := m.Wake(d, 0, private, 0x00000001, 1); err != nil || n != 1 {
t.Errorf("Wake with matching bitmask: got (%d, %v), wanted (1, nil)", n, err)
}
// Expect that the waiter was woken.
if !w.woken() {
t.Error("waiter not woken")
}
})
}
}
func TestFutexWakeTwo(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(sizeofInt32)
// Start three waiters waiting for wakeup.
var ws [3]*Waiter
for i := range ws {
ws[i] = newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(ws[i])
}
// Perform two wakeups.
const wakeups = 2
if n, err := m.Wake(d, 0, private, ^uint32(0), 2); err != nil || n != wakeups {
t.Errorf("Wake: got (%d, %v), wanted (%d, nil)", n, err, wakeups)
}
// Expect that exactly two waiters were woken.
// We don't get guarantees about exactly which two,
// (although we expect them to be w1 and w2).
awake := 0
for i := range ws {
if ws[i].woken() {
awake++
}
}
if awake != wakeups {
t.Errorf("got %d woken waiters, wanted %d", awake, wakeups)
}
})
}
}
func TestFutexWakeUnrelated(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(2 * sizeofInt32)
// Start two waiters waiting for wakeup on different addresses.
w1 := newPreparedTestWaiter(t, m, d, 0*sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w1)
w2 := newPreparedTestWaiter(t, m, d, 1*sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w2)
// Perform two wakeups on the second address.
if n, err := m.Wake(d, 1*sizeofInt32, private, ^uint32(0), 2); err != nil || n != 1 {
t.Errorf("Wake: got (%d, %v), wanted (1, nil)", n, err)
}
// Expect that only the second waiter was woken.
if w1.woken() {
t.Error("w1 woken unexpectedly")
}
if !w2.woken() {
t.Error("w2 not woken")
}
})
}
}
func TestWakeOpEmpty(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(2 * sizeofInt32)
// Perform wakeups with no waiters.
if n, err := m.WakeOp(d, 0, sizeofInt32, private, 10, 10, 0); err != nil || n != 0 {
t.Fatalf("WakeOp: got (%d, %v), wanted (0, nil)", n, err)
}
})
}
}
func TestWakeOpFirstNonEmpty(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add two waiters on address 0.
w1 := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w1)
w2 := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w2)
// Perform 10 wakeups on address 0.
if n, err := m.WakeOp(d, 0, sizeofInt32, private, 10, 0, 0); err != nil || n != 2 {
t.Errorf("WakeOp: got (%d, %v), wanted (2, nil)", n, err)
}
// Expect that both waiters were woken.
if !w1.woken() {
t.Error("w1 not woken")
}
if !w2.woken() {
t.Error("w2 not woken")
}
})
}
}
func TestWakeOpSecondNonEmpty(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add two waiters on address sizeofInt32.
w1 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w1)
w2 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w2)
// Perform 10 wakeups on address sizeofInt32 (contingent on
// d.Op(0), which should succeed).
if n, err := m.WakeOp(d, 0, sizeofInt32, private, 0, 10, 0); err != nil || n != 2 {
t.Errorf("WakeOp: got (%d, %v), wanted (2, nil)", n, err)
}
// Expect that both waiters were woken.
if !w1.woken() {
t.Error("w1 not woken")
}
if !w2.woken() {
t.Error("w2 not woken")
}
})
}
}
func TestWakeOpSecondNonEmptyFailingOp(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add two waiters on address sizeofInt32.
w1 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w1)
w2 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w2)
// Perform 10 wakeups on address sizeofInt32 (contingent on
// d.Op(1), which should fail).
if n, err := m.WakeOp(d, 0, sizeofInt32, private, 0, 10, 1); err != nil || n != 0 {
t.Errorf("WakeOp: got (%d, %v), wanted (0, nil)", n, err)
}
// Expect that neither waiter was woken.
if w1.woken() {
t.Error("w1 woken unexpectedly")
}
if w2.woken() {
t.Error("w2 woken unexpectedly")
}
})
}
}
func TestWakeOpAllNonEmpty(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add two waiters on address 0.
w1 := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w1)
w2 := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w2)
// Add two waiters on address sizeofInt32.
w3 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w3)
w4 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w4)
// Perform 10 wakeups on address 0 (unconditionally), and 10
// wakeups on address sizeofInt32 (contingent on d.Op(0), which
// should succeed).
if n, err := m.WakeOp(d, 0, sizeofInt32, private, 10, 10, 0); err != nil || n != 4 {
t.Errorf("WakeOp: got (%d, %v), wanted (4, nil)", n, err)
}
// Expect that all waiters were woken.
if !w1.woken() {
t.Error("w1 not woken")
}
if !w2.woken() {
t.Error("w2 not woken")
}
if !w3.woken() {
t.Error("w3 not woken")
}
if !w4.woken() {
t.Error("w4 not woken")
}
})
}
}
func TestWakeOpAllNonEmptyFailingOp(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add two waiters on address 0.
w1 := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w1)
w2 := newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(w2)
// Add two waiters on address sizeofInt32.
w3 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w3)
w4 := newPreparedTestWaiter(t, m, d, sizeofInt32, private, 0, ^uint32(0))
defer m.WaitComplete(w4)
// Perform 10 wakeups on address 0 (unconditionally), and 10
// wakeups on address sizeofInt32 (contingent on d.Op(1), which
// should fail).
if n, err := m.WakeOp(d, 0, sizeofInt32, private, 10, 10, 1); err != nil || n != 2 {
t.Errorf("WakeOp: got (%d, %v), wanted (2, nil)", n, err)
}
// Expect that only the first two waiters were woken.
if !w1.woken() {
t.Error("w1 not woken")
}
if !w2.woken() {
t.Error("w2 not woken")
}
if w3.woken() {
t.Error("w3 woken unexpectedly")
}
if w4.woken() {
t.Error("w4 woken unexpectedly")
}
})
}
}
func TestWakeOpSameAddress(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add four waiters on address 0.
var ws [4]*Waiter
for i := range ws {
ws[i] = newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(ws[i])
}
// Perform 1 wakeup on address 0 (unconditionally), and 1 wakeup
// on address 0 (contingent on d.Op(0), which should succeed).
const wakeups = 2
if n, err := m.WakeOp(d, 0, 0, private, 1, 1, 0); err != nil || n != wakeups {
t.Errorf("WakeOp: got (%d, %v), wanted (%d, nil)", n, err, wakeups)
}
// Expect that exactly two waiters were woken.
awake := 0
for i := range ws {
if ws[i].woken() {
awake++
}
}
if awake != wakeups {
t.Errorf("got %d woken waiters, wanted %d", awake, wakeups)
}
})
}
}
func TestWakeOpSameAddressFailingOp(t *testing.T) {
for _, private := range []bool{false, true} {
t.Run(futexKind(private), func(t *testing.T) {
m := NewManager()
d := newTestData(8)
// Add four waiters on address 0.
var ws [4]*Waiter
for i := range ws {
ws[i] = newPreparedTestWaiter(t, m, d, 0, private, 0, ^uint32(0))
defer m.WaitComplete(ws[i])
}
// Perform 1 wakeup on address 0 (unconditionally), and 1 wakeup
// on address 0 (contingent on d.Op(1), which should fail).
const wakeups = 1
if n, err := m.WakeOp(d, 0, 0, private, 1, 1, 1); err != nil || n != wakeups {
t.Errorf("WakeOp: got (%d, %v), wanted (%d, nil)", n, err, wakeups)
}
// Expect that exactly one waiter was woken.
awake := 0
for i := range ws {
if ws[i].woken() {
awake++
}
}
if awake != wakeups {
t.Errorf("got %d woken waiters, wanted %d", awake, wakeups)
}
})
}
}
const (
testMutexSize = sizeofInt32
testMutexLocked uint32 = 1
testMutexUnlocked uint32 = 0
)
// testMutex ties together a testData slice, an address, and a
// futex manager in order to implement the sync.Locker interface.
// Beyond being used as a Locker, this is a simple mechanism for
// changing the underlying values for simpler tests.
type testMutex struct {
a usermem.Addr
d testData
m *Manager
}
func newTestMutex(addr usermem.Addr, d testData, m *Manager) *testMutex {
return &testMutex{a: addr, d: d, m: m}
}
// Lock acquires the testMutex.
// This may wait for it to be available via the futex manager.
func (t *testMutex) Lock() {
for {
// Attempt to grab the lock.
if atomic.CompareAndSwapUint32(
(*uint32)(unsafe.Pointer(&t.d[t.a])),
testMutexUnlocked,
testMutexLocked) {
// Lock held.
return
}
// Wait for it to be "not locked".
w := NewWaiter()
err := t.m.WaitPrepare(w, t.d, t.a, true, testMutexLocked, ^uint32(0))
if err == syscall.EAGAIN {
continue
}
if err != nil {
// Should never happen.
panic("WaitPrepare returned unexpected error: " + err.Error())
}
<-w.C
t.m.WaitComplete(w)
}
}
// Unlock releases the testMutex.
// This will notify any waiters via the futex manager.
func (t *testMutex) Unlock() {
// Unlock.
atomic.StoreUint32((*uint32)(unsafe.Pointer(&t.d[t.a])), testMutexUnlocked)
// Notify all waiters.
t.m.Wake(t.d, t.a, true, ^uint32(0), math.MaxInt32)
}
// This function was shamelessly stolen from mutex_test.go.
func HammerMutex(l sync.Locker, loops int, cdone chan bool) {
for i := 0; i < loops; i++ {
l.Lock()
runtime.Gosched()
l.Unlock()
}
cdone <- true
}
func TestMutexStress(t *testing.T) {
m := NewManager()
d := newTestData(testMutexSize)
tm := newTestMutex(0*testMutexSize, d, m)
c := make(chan bool)
for i := 0; i < 10; i++ {
go HammerMutex(tm, 1000, c)
}
for i := 0; i < 10; i++ {
<-c
}
}
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