Retro68/gcc/libgo/go/sync/atomic/atomic_test.go
2018-12-28 16:30:48 +01:00

1456 lines
34 KiB
Go

// Copyright 2011 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 atomic_test
import (
"fmt"
"runtime"
"strings"
. "sync/atomic"
"testing"
"unsafe"
)
// Tests of correct behavior, without contention.
// (Does the function work as advertised?)
//
// Test that the Add functions add correctly.
// Test that the CompareAndSwap functions actually
// do the comparison and the swap correctly.
//
// The loop over power-of-two values is meant to
// ensure that the operations apply to the full word size.
// The struct fields x.before and x.after check that the
// operations do not extend past the full word size.
const (
magic32 = 0xdedbeef
magic64 = 0xdeddeadbeefbeef
)
// Do the 64-bit functions panic? If so, don't bother testing.
var test64err = func() (err interface{}) {
defer func() {
err = recover()
}()
var x int64
AddInt64(&x, 1)
return nil
}()
func TestSwapInt32(t *testing.T) {
var x struct {
before int32
i int32
after int32
}
x.before = magic32
x.after = magic32
var j int32
for delta := int32(1); delta+delta > delta; delta += delta {
k := SwapInt32(&x.i, delta)
if x.i != delta || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
j = delta
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestSwapUint32(t *testing.T) {
var x struct {
before uint32
i uint32
after uint32
}
x.before = magic32
x.after = magic32
var j uint32
for delta := uint32(1); delta+delta > delta; delta += delta {
k := SwapUint32(&x.i, delta)
if x.i != delta || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
j = delta
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestSwapInt64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before int64
i int64
after int64
}
x.before = magic64
x.after = magic64
var j int64
for delta := int64(1); delta+delta > delta; delta += delta {
k := SwapInt64(&x.i, delta)
if x.i != delta || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
j = delta
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestSwapUint64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before uint64
i uint64
after uint64
}
x.before = magic64
x.after = magic64
var j uint64
for delta := uint64(1); delta+delta > delta; delta += delta {
k := SwapUint64(&x.i, delta)
if x.i != delta || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
j = delta
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestSwapUintptr(t *testing.T) {
var x struct {
before uintptr
i uintptr
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
var j uintptr
for delta := uintptr(1); delta+delta > delta; delta += delta {
k := SwapUintptr(&x.i, delta)
if x.i != delta || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
j = delta
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestSwapPointer(t *testing.T) {
var x struct {
before uintptr
i unsafe.Pointer
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
var j uintptr
for delta := uintptr(1 << 16); delta+delta > delta; delta += delta {
k := SwapPointer(&x.i, unsafe.Pointer(delta))
if uintptr(x.i) != delta || uintptr(k) != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
j = delta
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestAddInt32(t *testing.T) {
var x struct {
before int32
i int32
after int32
}
x.before = magic32
x.after = magic32
var j int32
for delta := int32(1); delta+delta > delta; delta += delta {
k := AddInt32(&x.i, delta)
j += delta
if x.i != j || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestAddUint32(t *testing.T) {
var x struct {
before uint32
i uint32
after uint32
}
x.before = magic32
x.after = magic32
var j uint32
for delta := uint32(1); delta+delta > delta; delta += delta {
k := AddUint32(&x.i, delta)
j += delta
if x.i != j || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestAddInt64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before int64
i int64
after int64
}
x.before = magic64
x.after = magic64
var j int64
for delta := int64(1); delta+delta > delta; delta += delta {
k := AddInt64(&x.i, delta)
j += delta
if x.i != j || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, int64(magic64), int64(magic64))
}
}
func TestAddUint64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before uint64
i uint64
after uint64
}
x.before = magic64
x.after = magic64
var j uint64
for delta := uint64(1); delta+delta > delta; delta += delta {
k := AddUint64(&x.i, delta)
j += delta
if x.i != j || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestAddUintptr(t *testing.T) {
var x struct {
before uintptr
i uintptr
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
var j uintptr
for delta := uintptr(1); delta+delta > delta; delta += delta {
k := AddUintptr(&x.i, delta)
j += delta
if x.i != j || k != j {
t.Fatalf("delta=%d i=%d j=%d k=%d", delta, x.i, j, k)
}
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestCompareAndSwapInt32(t *testing.T) {
var x struct {
before int32
i int32
after int32
}
x.before = magic32
x.after = magic32
for val := int32(1); val+val > val; val += val {
x.i = val
if !CompareAndSwapInt32(&x.i, val, val+1) {
t.Fatalf("should have swapped %#x %#x", val, val+1)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
x.i = val + 1
if CompareAndSwapInt32(&x.i, val, val+2) {
t.Fatalf("should not have swapped %#x %#x", val, val+2)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestCompareAndSwapUint32(t *testing.T) {
var x struct {
before uint32
i uint32
after uint32
}
x.before = magic32
x.after = magic32
for val := uint32(1); val+val > val; val += val {
x.i = val
if !CompareAndSwapUint32(&x.i, val, val+1) {
t.Fatalf("should have swapped %#x %#x", val, val+1)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
x.i = val + 1
if CompareAndSwapUint32(&x.i, val, val+2) {
t.Fatalf("should not have swapped %#x %#x", val, val+2)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestCompareAndSwapInt64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before int64
i int64
after int64
}
x.before = magic64
x.after = magic64
for val := int64(1); val+val > val; val += val {
x.i = val
if !CompareAndSwapInt64(&x.i, val, val+1) {
t.Fatalf("should have swapped %#x %#x", val, val+1)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
x.i = val + 1
if CompareAndSwapInt64(&x.i, val, val+2) {
t.Fatalf("should not have swapped %#x %#x", val, val+2)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func testCompareAndSwapUint64(t *testing.T, cas func(*uint64, uint64, uint64) bool) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before uint64
i uint64
after uint64
}
x.before = magic64
x.after = magic64
for val := uint64(1); val+val > val; val += val {
x.i = val
if !cas(&x.i, val, val+1) {
t.Fatalf("should have swapped %#x %#x", val, val+1)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
x.i = val + 1
if cas(&x.i, val, val+2) {
t.Fatalf("should not have swapped %#x %#x", val, val+2)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestCompareAndSwapUint64(t *testing.T) {
testCompareAndSwapUint64(t, CompareAndSwapUint64)
}
func TestCompareAndSwapUintptr(t *testing.T) {
var x struct {
before uintptr
i uintptr
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
for val := uintptr(1); val+val > val; val += val {
x.i = val
if !CompareAndSwapUintptr(&x.i, val, val+1) {
t.Fatalf("should have swapped %#x %#x", val, val+1)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
x.i = val + 1
if CompareAndSwapUintptr(&x.i, val, val+2) {
t.Fatalf("should not have swapped %#x %#x", val, val+2)
}
if x.i != val+1 {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestCompareAndSwapPointer(t *testing.T) {
var x struct {
before uintptr
i unsafe.Pointer
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
for val := uintptr(1 << 16); val+val > val; val += val {
x.i = unsafe.Pointer(val)
if !CompareAndSwapPointer(&x.i, unsafe.Pointer(val), unsafe.Pointer(val+1)) {
t.Fatalf("should have swapped %#x %#x", val, val+1)
}
if x.i != unsafe.Pointer(val+1) {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
x.i = unsafe.Pointer(val + 1)
if CompareAndSwapPointer(&x.i, unsafe.Pointer(val), unsafe.Pointer(val+2)) {
t.Fatalf("should not have swapped %#x %#x", val, val+2)
}
if x.i != unsafe.Pointer(val+1) {
t.Fatalf("wrong x.i after swap: x.i=%#x val+1=%#x", x.i, val+1)
}
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestLoadInt32(t *testing.T) {
var x struct {
before int32
i int32
after int32
}
x.before = magic32
x.after = magic32
for delta := int32(1); delta+delta > delta; delta += delta {
k := LoadInt32(&x.i)
if k != x.i {
t.Fatalf("delta=%d i=%d k=%d", delta, x.i, k)
}
x.i += delta
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestLoadUint32(t *testing.T) {
var x struct {
before uint32
i uint32
after uint32
}
x.before = magic32
x.after = magic32
for delta := uint32(1); delta+delta > delta; delta += delta {
k := LoadUint32(&x.i)
if k != x.i {
t.Fatalf("delta=%d i=%d k=%d", delta, x.i, k)
}
x.i += delta
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestLoadInt64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before int64
i int64
after int64
}
x.before = magic64
x.after = magic64
for delta := int64(1); delta+delta > delta; delta += delta {
k := LoadInt64(&x.i)
if k != x.i {
t.Fatalf("delta=%d i=%d k=%d", delta, x.i, k)
}
x.i += delta
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestLoadUint64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before uint64
i uint64
after uint64
}
x.before = magic64
x.after = magic64
for delta := uint64(1); delta+delta > delta; delta += delta {
k := LoadUint64(&x.i)
if k != x.i {
t.Fatalf("delta=%d i=%d k=%d", delta, x.i, k)
}
x.i += delta
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestLoadUintptr(t *testing.T) {
var x struct {
before uintptr
i uintptr
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
for delta := uintptr(1); delta+delta > delta; delta += delta {
k := LoadUintptr(&x.i)
if k != x.i {
t.Fatalf("delta=%d i=%d k=%d", delta, x.i, k)
}
x.i += delta
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestLoadPointer(t *testing.T) {
var x struct {
before uintptr
i unsafe.Pointer
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
for delta := uintptr(1 << 16); delta+delta > delta; delta += delta {
k := LoadPointer(&x.i)
if k != x.i {
t.Fatalf("delta=%d i=%d k=%d", delta, x.i, k)
}
x.i = unsafe.Pointer(uintptr(x.i) + delta)
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestStoreInt32(t *testing.T) {
var x struct {
before int32
i int32
after int32
}
x.before = magic32
x.after = magic32
v := int32(0)
for delta := int32(1); delta+delta > delta; delta += delta {
StoreInt32(&x.i, v)
if x.i != v {
t.Fatalf("delta=%d i=%d v=%d", delta, x.i, v)
}
v += delta
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestStoreUint32(t *testing.T) {
var x struct {
before uint32
i uint32
after uint32
}
x.before = magic32
x.after = magic32
v := uint32(0)
for delta := uint32(1); delta+delta > delta; delta += delta {
StoreUint32(&x.i, v)
if x.i != v {
t.Fatalf("delta=%d i=%d v=%d", delta, x.i, v)
}
v += delta
}
if x.before != magic32 || x.after != magic32 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magic32, magic32)
}
}
func TestStoreInt64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before int64
i int64
after int64
}
x.before = magic64
x.after = magic64
v := int64(0)
for delta := int64(1); delta+delta > delta; delta += delta {
StoreInt64(&x.i, v)
if x.i != v {
t.Fatalf("delta=%d i=%d v=%d", delta, x.i, v)
}
v += delta
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestStoreUint64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
var x struct {
before uint64
i uint64
after uint64
}
x.before = magic64
x.after = magic64
v := uint64(0)
for delta := uint64(1); delta+delta > delta; delta += delta {
StoreUint64(&x.i, v)
if x.i != v {
t.Fatalf("delta=%d i=%d v=%d", delta, x.i, v)
}
v += delta
}
if x.before != magic64 || x.after != magic64 {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, uint64(magic64), uint64(magic64))
}
}
func TestStoreUintptr(t *testing.T) {
var x struct {
before uintptr
i uintptr
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
v := uintptr(0)
for delta := uintptr(1); delta+delta > delta; delta += delta {
StoreUintptr(&x.i, v)
if x.i != v {
t.Fatalf("delta=%d i=%d v=%d", delta, x.i, v)
}
v += delta
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
func TestStorePointer(t *testing.T) {
var x struct {
before uintptr
i unsafe.Pointer
after uintptr
}
var m uint64 = magic64
magicptr := uintptr(m)
x.before = magicptr
x.after = magicptr
v := unsafe.Pointer(uintptr(0))
for delta := uintptr(1 << 16); delta+delta > delta; delta += delta {
StorePointer(&x.i, unsafe.Pointer(v))
if x.i != v {
t.Fatalf("delta=%d i=%d v=%d", delta, x.i, v)
}
v = unsafe.Pointer(uintptr(v) + delta)
}
if x.before != magicptr || x.after != magicptr {
t.Fatalf("wrong magic: %#x _ %#x != %#x _ %#x", x.before, x.after, magicptr, magicptr)
}
}
// Tests of correct behavior, with contention.
// (Is the function atomic?)
//
// For each function, we write a "hammer" function that repeatedly
// uses the atomic operation to add 1 to a value. After running
// multiple hammers in parallel, check that we end with the correct
// total.
// Swap can't add 1, so it uses a different scheme.
// The functions repeatedly generate a pseudo-random number such that
// low bits are equal to high bits, swap, check that the old value
// has low and high bits equal.
var hammer32 = map[string]func(*uint32, int){
"SwapInt32": hammerSwapInt32,
"SwapUint32": hammerSwapUint32,
"SwapUintptr": hammerSwapUintptr32,
"AddInt32": hammerAddInt32,
"AddUint32": hammerAddUint32,
"AddUintptr": hammerAddUintptr32,
"CompareAndSwapInt32": hammerCompareAndSwapInt32,
"CompareAndSwapUint32": hammerCompareAndSwapUint32,
"CompareAndSwapUintptr": hammerCompareAndSwapUintptr32,
}
func init() {
var v uint64 = 1 << 50
if uintptr(v) != 0 {
// 64-bit system; clear uintptr tests
delete(hammer32, "SwapUintptr")
delete(hammer32, "AddUintptr")
delete(hammer32, "CompareAndSwapUintptr")
}
}
func hammerSwapInt32(uaddr *uint32, count int) {
addr := (*int32)(unsafe.Pointer(uaddr))
seed := int(uintptr(unsafe.Pointer(&count)))
for i := 0; i < count; i++ {
new := uint32(seed+i)<<16 | uint32(seed+i)<<16>>16
old := uint32(SwapInt32(addr, int32(new)))
if old>>16 != old<<16>>16 {
panic(fmt.Sprintf("SwapInt32 is not atomic: %v", old))
}
}
}
func hammerSwapUint32(addr *uint32, count int) {
seed := int(uintptr(unsafe.Pointer(&count)))
for i := 0; i < count; i++ {
new := uint32(seed+i)<<16 | uint32(seed+i)<<16>>16
old := SwapUint32(addr, new)
if old>>16 != old<<16>>16 {
panic(fmt.Sprintf("SwapUint32 is not atomic: %v", old))
}
}
}
func hammerSwapUintptr32(uaddr *uint32, count int) {
// only safe when uintptr is 32-bit.
// not called on 64-bit systems.
addr := (*uintptr)(unsafe.Pointer(uaddr))
seed := int(uintptr(unsafe.Pointer(&count)))
for i := 0; i < count; i++ {
new := uintptr(seed+i)<<16 | uintptr(seed+i)<<16>>16
old := SwapUintptr(addr, new)
if old>>16 != old<<16>>16 {
panic(fmt.Sprintf("SwapUintptr is not atomic: %#08x", old))
}
}
}
func hammerAddInt32(uaddr *uint32, count int) {
addr := (*int32)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
AddInt32(addr, 1)
}
}
func hammerAddUint32(addr *uint32, count int) {
for i := 0; i < count; i++ {
AddUint32(addr, 1)
}
}
func hammerAddUintptr32(uaddr *uint32, count int) {
// only safe when uintptr is 32-bit.
// not called on 64-bit systems.
addr := (*uintptr)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
AddUintptr(addr, 1)
}
}
func hammerCompareAndSwapInt32(uaddr *uint32, count int) {
addr := (*int32)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
for {
v := LoadInt32(addr)
if CompareAndSwapInt32(addr, v, v+1) {
break
}
}
}
}
func hammerCompareAndSwapUint32(addr *uint32, count int) {
for i := 0; i < count; i++ {
for {
v := LoadUint32(addr)
if CompareAndSwapUint32(addr, v, v+1) {
break
}
}
}
}
func hammerCompareAndSwapUintptr32(uaddr *uint32, count int) {
// only safe when uintptr is 32-bit.
// not called on 64-bit systems.
addr := (*uintptr)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
for {
v := LoadUintptr(addr)
if CompareAndSwapUintptr(addr, v, v+1) {
break
}
}
}
}
func TestHammer32(t *testing.T) {
const p = 4
n := 100000
if testing.Short() {
n = 1000
}
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(p))
for name, testf := range hammer32 {
c := make(chan int)
var val uint32
for i := 0; i < p; i++ {
go func() {
defer func() {
if err := recover(); err != nil {
t.Error(err.(string))
}
c <- 1
}()
testf(&val, n)
}()
}
for i := 0; i < p; i++ {
<-c
}
if !strings.HasPrefix(name, "Swap") && val != uint32(n)*p {
t.Fatalf("%s: val=%d want %d", name, val, n*p)
}
}
}
var hammer64 = map[string]func(*uint64, int){
"SwapInt64": hammerSwapInt64,
"SwapUint64": hammerSwapUint64,
"SwapUintptr": hammerSwapUintptr64,
"AddInt64": hammerAddInt64,
"AddUint64": hammerAddUint64,
"AddUintptr": hammerAddUintptr64,
"CompareAndSwapInt64": hammerCompareAndSwapInt64,
"CompareAndSwapUint64": hammerCompareAndSwapUint64,
"CompareAndSwapUintptr": hammerCompareAndSwapUintptr64,
}
func init() {
var v uint64 = 1 << 50
if uintptr(v) == 0 {
// 32-bit system; clear uintptr tests
delete(hammer64, "SwapUintptr")
delete(hammer64, "AddUintptr")
delete(hammer64, "CompareAndSwapUintptr")
}
}
func hammerSwapInt64(uaddr *uint64, count int) {
addr := (*int64)(unsafe.Pointer(uaddr))
seed := int(uintptr(unsafe.Pointer(&count)))
for i := 0; i < count; i++ {
new := uint64(seed+i)<<32 | uint64(seed+i)<<32>>32
old := uint64(SwapInt64(addr, int64(new)))
if old>>32 != old<<32>>32 {
panic(fmt.Sprintf("SwapInt64 is not atomic: %v", old))
}
}
}
func hammerSwapUint64(addr *uint64, count int) {
seed := int(uintptr(unsafe.Pointer(&count)))
for i := 0; i < count; i++ {
new := uint64(seed+i)<<32 | uint64(seed+i)<<32>>32
old := SwapUint64(addr, new)
if old>>32 != old<<32>>32 {
panic(fmt.Sprintf("SwapUint64 is not atomic: %v", old))
}
}
}
const arch32 = unsafe.Sizeof(uintptr(0)) == 4
func hammerSwapUintptr64(uaddr *uint64, count int) {
// only safe when uintptr is 64-bit.
// not called on 32-bit systems.
if !arch32 {
addr := (*uintptr)(unsafe.Pointer(uaddr))
seed := int(uintptr(unsafe.Pointer(&count)))
for i := 0; i < count; i++ {
new := uintptr(seed+i)<<32 | uintptr(seed+i)<<32>>32
old := SwapUintptr(addr, new)
if old>>32 != old<<32>>32 {
panic(fmt.Sprintf("SwapUintptr is not atomic: %v", old))
}
}
}
}
func hammerAddInt64(uaddr *uint64, count int) {
addr := (*int64)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
AddInt64(addr, 1)
}
}
func hammerAddUint64(addr *uint64, count int) {
for i := 0; i < count; i++ {
AddUint64(addr, 1)
}
}
func hammerAddUintptr64(uaddr *uint64, count int) {
// only safe when uintptr is 64-bit.
// not called on 32-bit systems.
addr := (*uintptr)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
AddUintptr(addr, 1)
}
}
func hammerCompareAndSwapInt64(uaddr *uint64, count int) {
addr := (*int64)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
for {
v := LoadInt64(addr)
if CompareAndSwapInt64(addr, v, v+1) {
break
}
}
}
}
func hammerCompareAndSwapUint64(addr *uint64, count int) {
for i := 0; i < count; i++ {
for {
v := LoadUint64(addr)
if CompareAndSwapUint64(addr, v, v+1) {
break
}
}
}
}
func hammerCompareAndSwapUintptr64(uaddr *uint64, count int) {
// only safe when uintptr is 64-bit.
// not called on 32-bit systems.
addr := (*uintptr)(unsafe.Pointer(uaddr))
for i := 0; i < count; i++ {
for {
v := LoadUintptr(addr)
if CompareAndSwapUintptr(addr, v, v+1) {
break
}
}
}
}
func TestHammer64(t *testing.T) {
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
const p = 4
n := 100000
if testing.Short() {
n = 1000
}
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(p))
for name, testf := range hammer64 {
c := make(chan int)
var val uint64
for i := 0; i < p; i++ {
go func() {
defer func() {
if err := recover(); err != nil {
t.Error(err.(string))
}
c <- 1
}()
testf(&val, n)
}()
}
for i := 0; i < p; i++ {
<-c
}
if !strings.HasPrefix(name, "Swap") && val != uint64(n)*p {
t.Fatalf("%s: val=%d want %d", name, val, n*p)
}
}
}
func hammerStoreLoadInt32(t *testing.T, paddr unsafe.Pointer) {
addr := (*int32)(paddr)
v := LoadInt32(addr)
vlo := v & ((1 << 16) - 1)
vhi := v >> 16
if vlo != vhi {
t.Fatalf("Int32: %#x != %#x", vlo, vhi)
}
new := v + 1 + 1<<16
if vlo == 1e4 {
new = 0
}
StoreInt32(addr, new)
}
func hammerStoreLoadUint32(t *testing.T, paddr unsafe.Pointer) {
addr := (*uint32)(paddr)
v := LoadUint32(addr)
vlo := v & ((1 << 16) - 1)
vhi := v >> 16
if vlo != vhi {
t.Fatalf("Uint32: %#x != %#x", vlo, vhi)
}
new := v + 1 + 1<<16
if vlo == 1e4 {
new = 0
}
StoreUint32(addr, new)
}
func hammerStoreLoadInt64(t *testing.T, paddr unsafe.Pointer) {
addr := (*int64)(paddr)
v := LoadInt64(addr)
vlo := v & ((1 << 32) - 1)
vhi := v >> 32
if vlo != vhi {
t.Fatalf("Int64: %#x != %#x", vlo, vhi)
}
new := v + 1 + 1<<32
StoreInt64(addr, new)
}
func hammerStoreLoadUint64(t *testing.T, paddr unsafe.Pointer) {
addr := (*uint64)(paddr)
v := LoadUint64(addr)
vlo := v & ((1 << 32) - 1)
vhi := v >> 32
if vlo != vhi {
t.Fatalf("Uint64: %#x != %#x", vlo, vhi)
}
new := v + 1 + 1<<32
StoreUint64(addr, new)
}
func hammerStoreLoadUintptr(t *testing.T, paddr unsafe.Pointer) {
addr := (*uintptr)(paddr)
v := LoadUintptr(addr)
new := v
if arch32 {
vlo := v & ((1 << 16) - 1)
vhi := v >> 16
if vlo != vhi {
t.Fatalf("Uintptr: %#x != %#x", vlo, vhi)
}
new = v + 1 + 1<<16
if vlo == 1e4 {
new = 0
}
} else {
vlo := v & ((1 << 32) - 1)
vhi := v >> 32
if vlo != vhi {
t.Fatalf("Uintptr: %#x != %#x", vlo, vhi)
}
inc := uint64(1 + 1<<32)
new = v + uintptr(inc)
}
StoreUintptr(addr, new)
}
func hammerStoreLoadPointer(t *testing.T, paddr unsafe.Pointer) {
addr := (*unsafe.Pointer)(paddr)
v := uintptr(LoadPointer(addr))
new := v
if arch32 {
vlo := v & ((1 << 16) - 1)
vhi := v >> 16
if vlo != vhi {
t.Fatalf("Pointer: %#x != %#x", vlo, vhi)
}
new = v + 1 + 1<<16
if vlo == 1e4 {
new = 0
}
} else {
vlo := v & ((1 << 32) - 1)
vhi := v >> 32
if vlo != vhi {
t.Fatalf("Pointer: %#x != %#x", vlo, vhi)
}
inc := uint64(1 + 1<<32)
new = v + uintptr(inc)
}
StorePointer(addr, unsafe.Pointer(new))
}
func TestHammerStoreLoad(t *testing.T) {
var tests []func(*testing.T, unsafe.Pointer)
tests = append(tests, hammerStoreLoadInt32, hammerStoreLoadUint32,
hammerStoreLoadUintptr, hammerStoreLoadPointer)
if test64err == nil {
tests = append(tests, hammerStoreLoadInt64, hammerStoreLoadUint64)
}
n := int(1e6)
if testing.Short() {
n = int(1e4)
}
const procs = 8
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(procs))
for _, tt := range tests {
c := make(chan int)
var val uint64
for p := 0; p < procs; p++ {
go func() {
for i := 0; i < n; i++ {
tt(t, unsafe.Pointer(&val))
}
c <- 1
}()
}
for p := 0; p < procs; p++ {
<-c
}
}
}
func TestStoreLoadSeqCst32(t *testing.T) {
if runtime.NumCPU() == 1 {
t.Skipf("Skipping test on %v processor machine", runtime.NumCPU())
}
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(4))
N := int32(1e3)
if testing.Short() {
N = int32(1e2)
}
c := make(chan bool, 2)
X := [2]int32{}
ack := [2][3]int32{{-1, -1, -1}, {-1, -1, -1}}
for p := 0; p < 2; p++ {
go func(me int) {
he := 1 - me
for i := int32(1); i < N; i++ {
StoreInt32(&X[me], i)
my := LoadInt32(&X[he])
StoreInt32(&ack[me][i%3], my)
for w := 1; LoadInt32(&ack[he][i%3]) == -1; w++ {
if w%1000 == 0 {
runtime.Gosched()
}
}
his := LoadInt32(&ack[he][i%3])
if (my != i && my != i-1) || (his != i && his != i-1) {
t.Errorf("invalid values: %d/%d (%d)", my, his, i)
break
}
if my != i && his != i {
t.Errorf("store/load are not sequentially consistent: %d/%d (%d)", my, his, i)
break
}
StoreInt32(&ack[me][(i-1)%3], -1)
}
c <- true
}(p)
}
<-c
<-c
}
func TestStoreLoadSeqCst64(t *testing.T) {
if runtime.NumCPU() == 1 {
t.Skipf("Skipping test on %v processor machine", runtime.NumCPU())
}
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(4))
N := int64(1e3)
if testing.Short() {
N = int64(1e2)
}
c := make(chan bool, 2)
X := [2]int64{}
ack := [2][3]int64{{-1, -1, -1}, {-1, -1, -1}}
for p := 0; p < 2; p++ {
go func(me int) {
he := 1 - me
for i := int64(1); i < N; i++ {
StoreInt64(&X[me], i)
my := LoadInt64(&X[he])
StoreInt64(&ack[me][i%3], my)
for w := 1; LoadInt64(&ack[he][i%3]) == -1; w++ {
if w%1000 == 0 {
runtime.Gosched()
}
}
his := LoadInt64(&ack[he][i%3])
if (my != i && my != i-1) || (his != i && his != i-1) {
t.Errorf("invalid values: %d/%d (%d)", my, his, i)
break
}
if my != i && his != i {
t.Errorf("store/load are not sequentially consistent: %d/%d (%d)", my, his, i)
break
}
StoreInt64(&ack[me][(i-1)%3], -1)
}
c <- true
}(p)
}
<-c
<-c
}
func TestStoreLoadRelAcq32(t *testing.T) {
if runtime.NumCPU() == 1 {
t.Skipf("Skipping test on %v processor machine", runtime.NumCPU())
}
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(4))
N := int32(1e3)
if testing.Short() {
N = int32(1e2)
}
c := make(chan bool, 2)
type Data struct {
signal int32
pad1 [128]int8
data1 int32
pad2 [128]int8
data2 float32
}
var X Data
for p := int32(0); p < 2; p++ {
go func(p int32) {
for i := int32(1); i < N; i++ {
if (i+p)%2 == 0 {
X.data1 = i
X.data2 = float32(i)
StoreInt32(&X.signal, i)
} else {
for w := 1; LoadInt32(&X.signal) != i; w++ {
if w%1000 == 0 {
runtime.Gosched()
}
}
d1 := X.data1
d2 := X.data2
if d1 != i || d2 != float32(i) {
t.Errorf("incorrect data: %d/%g (%d)", d1, d2, i)
break
}
}
}
c <- true
}(p)
}
<-c
<-c
}
func TestStoreLoadRelAcq64(t *testing.T) {
if runtime.NumCPU() == 1 {
t.Skipf("Skipping test on %v processor machine", runtime.NumCPU())
}
if test64err != nil {
t.Skipf("Skipping 64-bit tests: %v", test64err)
}
defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(4))
N := int64(1e3)
if testing.Short() {
N = int64(1e2)
}
c := make(chan bool, 2)
type Data struct {
signal int64
pad1 [128]int8
data1 int64
pad2 [128]int8
data2 float64
}
var X Data
for p := int64(0); p < 2; p++ {
go func(p int64) {
for i := int64(1); i < N; i++ {
if (i+p)%2 == 0 {
X.data1 = i
X.data2 = float64(i)
StoreInt64(&X.signal, i)
} else {
for w := 1; LoadInt64(&X.signal) != i; w++ {
if w%1000 == 0 {
runtime.Gosched()
}
}
d1 := X.data1
d2 := X.data2
if d1 != i || d2 != float64(i) {
t.Errorf("incorrect data: %d/%g (%d)", d1, d2, i)
break
}
}
}
c <- true
}(p)
}
<-c
<-c
}
func shouldPanic(t *testing.T, name string, f func()) {
defer func() {
if recover() == nil {
t.Errorf("%s did not panic", name)
}
}()
f()
}
func TestUnaligned64(t *testing.T) {
// Unaligned 64-bit atomics on 32-bit systems are
// a continual source of pain. Test that on 32-bit systems they crash
// instead of failing silently.
switch runtime.GOARCH {
default:
if !arch32 {
t.Skip("test only runs on 32-bit systems")
}
case "amd64p32":
// amd64p32 can handle unaligned atomics.
t.Skipf("test not needed on %v", runtime.GOARCH)
}
x := make([]uint32, 4)
p := (*uint64)(unsafe.Pointer(&x[1])) // misaligned
shouldPanic(t, "LoadUint64", func() { LoadUint64(p) })
shouldPanic(t, "StoreUint64", func() { StoreUint64(p, 1) })
shouldPanic(t, "CompareAndSwapUint64", func() { CompareAndSwapUint64(p, 1, 2) })
shouldPanic(t, "AddUint64", func() { AddUint64(p, 3) })
}
func TestNilDeref(t *testing.T) {
funcs := [...]func(){
func() { CompareAndSwapInt32(nil, 0, 0) },
func() { CompareAndSwapInt64(nil, 0, 0) },
func() { CompareAndSwapUint32(nil, 0, 0) },
func() { CompareAndSwapUint64(nil, 0, 0) },
func() { CompareAndSwapUintptr(nil, 0, 0) },
func() { CompareAndSwapPointer(nil, nil, nil) },
func() { SwapInt32(nil, 0) },
func() { SwapUint32(nil, 0) },
func() { SwapInt64(nil, 0) },
func() { SwapUint64(nil, 0) },
func() { SwapUintptr(nil, 0) },
func() { SwapPointer(nil, nil) },
func() { AddInt32(nil, 0) },
func() { AddUint32(nil, 0) },
func() { AddInt64(nil, 0) },
func() { AddUint64(nil, 0) },
func() { AddUintptr(nil, 0) },
func() { LoadInt32(nil) },
func() { LoadInt64(nil) },
func() { LoadUint32(nil) },
func() { LoadUint64(nil) },
func() { LoadUintptr(nil) },
func() { LoadPointer(nil) },
func() { StoreInt32(nil, 0) },
func() { StoreInt64(nil, 0) },
func() { StoreUint32(nil, 0) },
func() { StoreUint64(nil, 0) },
func() { StoreUintptr(nil, 0) },
func() { StorePointer(nil, nil) },
}
for _, f := range funcs {
func() {
defer func() {
runtime.GC()
recover()
}()
f()
}()
}
}