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go / go / 9e98e7e6686a500f87352e3721038d194b1db33c / . / src / runtime / gcinfo_test.go
blob: 011f0054032060247dc31b47538fd9b12ca65a74 [file] [log] [blame]
// Copyright 2014 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 (
"bytes"
"runtime"
"testing"
)
const (
typeScalar = 0
typePointer = 1
)
// TestGCInfo tests that various objects in heap, data and bss receive correct GC pointer type info.
func TestGCInfo(t *testing.T) {
verifyGCInfo(t, "bss Ptr", &bssPtr, infoPtr)
verifyGCInfo(t, "bss ScalarPtr", &bssScalarPtr, infoScalarPtr)
verifyGCInfo(t, "bss PtrScalar", &bssPtrScalar, infoPtrScalar)
verifyGCInfo(t, "bss BigStruct", &bssBigStruct, infoBigStruct())
verifyGCInfo(t, "bss string", &bssString, infoString)
verifyGCInfo(t, "bss slice", &bssSlice, infoSlice)
verifyGCInfo(t, "bss eface", &bssEface, infoEface)
verifyGCInfo(t, "bss iface", &bssIface, infoIface)
verifyGCInfo(t, "data Ptr", &dataPtr, infoPtr)
verifyGCInfo(t, "data ScalarPtr", &dataScalarPtr, infoScalarPtr)
verifyGCInfo(t, "data PtrScalar", &dataPtrScalar, infoPtrScalar)
verifyGCInfo(t, "data BigStruct", &dataBigStruct, infoBigStruct())
verifyGCInfo(t, "data string", &dataString, infoString)
verifyGCInfo(t, "data slice", &dataSlice, infoSlice)
verifyGCInfo(t, "data eface", &dataEface, infoEface)
verifyGCInfo(t, "data iface", &dataIface, infoIface)
verifyGCInfo(t, "stack Ptr", new(Ptr), infoPtr)
verifyGCInfo(t, "stack ScalarPtr", new(ScalarPtr), infoScalarPtr)
verifyGCInfo(t, "stack PtrScalar", new(PtrScalar), infoPtrScalar)
verifyGCInfo(t, "stack BigStruct", new(BigStruct), infoBigStruct())
verifyGCInfo(t, "stack string", new(string), infoString)
verifyGCInfo(t, "stack slice", new([]string), infoSlice)
verifyGCInfo(t, "stack eface", new(interface{}), infoEface)
verifyGCInfo(t, "stack iface", new(Iface), infoIface)
for i := 0; i < 10; i++ {
verifyGCInfo(t, "heap Ptr", escape(new(Ptr)), trimDead(padDead(infoPtr)))
verifyGCInfo(t, "heap PtrSlice", escape(&make([]*byte, 10)[0]), trimDead(infoPtr10))
verifyGCInfo(t, "heap ScalarPtr", escape(new(ScalarPtr)), trimDead(infoScalarPtr))
verifyGCInfo(t, "heap ScalarPtrSlice", escape(&make([]ScalarPtr, 4)[0]), trimDead(infoScalarPtr4))
verifyGCInfo(t, "heap PtrScalar", escape(new(PtrScalar)), trimDead(infoPtrScalar))
verifyGCInfo(t, "heap BigStruct", escape(new(BigStruct)), trimDead(infoBigStruct()))
verifyGCInfo(t, "heap string", escape(new(string)), trimDead(infoString))
verifyGCInfo(t, "heap eface", escape(new(interface{})), trimDead(infoEface))
verifyGCInfo(t, "heap iface", escape(new(Iface)), trimDead(infoIface))
}
}
func verifyGCInfo(t *testing.T, name string, p interface{}, mask0 []byte) {
mask := runtime.GCMask(p)
if !bytes.Equal(mask, mask0) {
t.Errorf("bad GC program for %v:\nwant %+v\ngot %+v", name, mask0, mask)
return
}
}
func padDead(mask []byte) []byte {
// Because the dead bit isn't encoded in the second word,
// and because on 32-bit systems a one-word allocation
// uses a two-word block, the pointer info for a one-word
// object needs to be expanded to include an extra scalar
// on 32-bit systems to match the heap bitmap.
if runtime.PtrSize == 4 && len(mask) == 1 {
return []byte{mask[0], 0}
}
return mask
}
func trimDead(mask []byte) []byte {
for len(mask) > 2 && mask[len(mask)-1] == typeScalar {
mask = mask[:len(mask)-1]
}
if len(mask) == 2 && mask[0] == typeScalar && mask[1] == typeScalar {
mask = mask[:0]
}
return mask
}
var gcinfoSink interface{}
func escape(p interface{}) interface{} {
gcinfoSink = p
return p
}
var infoPtr = []byte{typePointer}
type Ptr struct {
*byte
}
var infoPtr10 = []byte{typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer}
type ScalarPtr struct {
q int
w *int
e int
r *int
t int
y *int
}
var infoScalarPtr = []byte{typeScalar, typePointer, typeScalar, typePointer, typeScalar, typePointer}
var infoScalarPtr4 = append(append(append(append([]byte(nil), infoScalarPtr...), infoScalarPtr...), infoScalarPtr...), infoScalarPtr...)
type PtrScalar struct {
q *int
w int
e *int
r int
t *int
y int
}
var infoPtrScalar = []byte{typePointer, typeScalar, typePointer, typeScalar, typePointer, typeScalar}
type BigStruct struct {
q *int
w byte
e [17]byte
r []byte
t int
y uint16
u uint64
i string
}
func infoBigStruct() []byte {
switch runtime.GOARCH {
case "386", "arm":
return []byte{
typePointer, // q *int
typeScalar, typeScalar, typeScalar, typeScalar, typeScalar, // w byte; e [17]byte
typePointer, typeScalar, typeScalar, // r []byte
typeScalar, typeScalar, typeScalar, typeScalar, // t int; y uint16; u uint64
typePointer, typeScalar, // i string
}
case "arm64", "amd64", "mips64", "mips64le", "ppc64", "ppc64le", "s390x":
return []byte{
typePointer, // q *int
typeScalar, typeScalar, typeScalar, // w byte; e [17]byte
typePointer, typeScalar, typeScalar, // r []byte
typeScalar, typeScalar, typeScalar, // t int; y uint16; u uint64
typePointer, typeScalar, // i string
}
case "amd64p32":
return []byte{
typePointer, // q *int
typeScalar, typeScalar, typeScalar, typeScalar, typeScalar, // w byte; e [17]byte
typePointer, typeScalar, typeScalar, // r []byte
typeScalar, typeScalar, typeScalar, typeScalar, typeScalar, // t int; y uint16; u uint64
typePointer, typeScalar, // i string
}
default:
panic("unknown arch")
}
}
type Iface interface {
f()
}
type IfaceImpl int
func (IfaceImpl) f() {
}
var (
// BSS
bssPtr Ptr
bssScalarPtr ScalarPtr
bssPtrScalar PtrScalar
bssBigStruct BigStruct
bssString string
bssSlice []string
bssEface interface{}
bssIface Iface
// DATA
dataPtr = Ptr{new(byte)}
dataScalarPtr = ScalarPtr{q: 1}
dataPtrScalar = PtrScalar{w: 1}
dataBigStruct = BigStruct{w: 1}
dataString = "foo"
dataSlice = []string{"foo"}
dataEface interface{} = 42
dataIface Iface = IfaceImpl(42)
infoString = []byte{typePointer, typeScalar}
infoSlice = []byte{typePointer, typeScalar, typeScalar}
infoEface = []byte{typePointer, typePointer}
infoIface = []byte{typePointer, typePointer}
)