// Copyright 2015 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 ( "runtime" "runtime/internal/atomic" "runtime/internal/sys" "testing" "unsafe" ) func runParallel(N, iter int, f func()) { defer runtime.GOMAXPROCS(runtime.GOMAXPROCS(int(N))) done := make(chan bool) for i := 0; i < N; i++ { go func() { for j := 0; j < iter; j++ { f() } done <- true }() } for i := 0; i < N; i++ { <-done } } func TestXadduintptr(t *testing.T) { const N = 20 const iter = 100000 inc := uintptr(100) total := uintptr(0) runParallel(N, iter, func() { atomic.Xadduintptr(&total, inc) }) if want := uintptr(N * iter * inc); want != total { t.Fatalf("xadduintpr error, want %d, got %d", want, total) } total = 0 runParallel(N, iter, func() { atomic.Xadduintptr(&total, inc) atomic.Xadduintptr(&total, uintptr(-int64(inc))) }) if total != 0 { t.Fatalf("xadduintpr total error, want %d, got %d", 0, total) } } // Tests that xadduintptr correctly updates 64-bit values. The place where // we actually do so is mstats.go, functions mSysStat{Inc,Dec}. func TestXadduintptrOnUint64(t *testing.T) { if sys.BigEndian { // On big endian architectures, we never use xadduintptr to update // 64-bit values and hence we skip the test. (Note that functions // mSysStat{Inc,Dec} in mstats.go have explicit checks for // big-endianness.) t.Skip("skip xadduintptr on big endian architecture") } const inc = 100 val := uint64(0) atomic.Xadduintptr((*uintptr)(unsafe.Pointer(&val)), inc) if inc != val { t.Fatalf("xadduintptr should increase lower-order bits, want %d, got %d", inc, val) } } func shouldPanic(t *testing.T, name string, f func()) { defer func() { if recover() == nil { t.Errorf("%s did not panic", name) } }() f() } // Variant of sync/atomic's TestUnaligned64: 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 unsafe.Sizeof(int(0)) != 4 { 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) up64 := (*uint64)(unsafe.Pointer(&x[1])) // misaligned p64 := (*int64)(unsafe.Pointer(&x[1])) // misaligned shouldPanic(t, "Load64", func() { atomic.Load64(up64) }) shouldPanic(t, "Loadint64", func() { atomic.Loadint64(p64) }) shouldPanic(t, "Store64", func() { atomic.Store64(up64, 0) }) shouldPanic(t, "Xadd64", func() { atomic.Xadd64(up64, 1) }) shouldPanic(t, "Xchg64", func() { atomic.Xchg64(up64, 1) }) shouldPanic(t, "Cas64", func() { atomic.Cas64(up64, 1, 2) }) }