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mirror of https://github.com/golang/go synced 2024-11-26 20:21:25 -07:00
go/test/escape_reflect.go
Matthew Dempsky 18c6ec1e4a cmd/compile/internal/noder: stop preserving original const strings
One of the more tedious quirks of the original frontend (i.e.,
typecheck) to preserve was that it preserved the original
representation of constants into the backend. To fit into the unified
IR model, I ended up implementing a fairly heavyweight workaround:
simply record the original constant's string expression in the export
data, so that diagnostics could still report it back, and match the
old test expectations.

But now that there's just a single frontend to support, it's easy
enough to just update the test expectations and drop this support for
"raw" constant expressions.

Change-Id: I1d859c5109d679879d937a2b213e777fbddf4f2f
Reviewed-on: https://go-review.googlesource.com/c/go/+/526376
Reviewed-by: Keith Randall <khr@golang.org>
Reviewed-by: Keith Randall <khr@google.com>
LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com>
Auto-Submit: Matthew Dempsky <mdempsky@google.com>
Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
2023-09-08 18:50:24 +00:00

463 lines
13 KiB
Go

// errorcheck -0 -m -l
// Copyright 2022 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.
// Test escape analysis for reflect Value operations.
package escape
import (
"reflect"
"unsafe"
)
var sink interface{}
func typ(x int) any {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Type()
}
func kind(x int) reflect.Kind {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Kind()
}
func int1(x int) int {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return int(v.Int())
}
func ptr(x *int) *int { // ERROR "leaking param: x to result ~r0 level=0"
v := reflect.ValueOf(x)
return (*int)(v.UnsafePointer())
}
func bytes1(x []byte) byte { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Bytes()[0]
}
// Unfortunate: should only escape content. x (the interface storage) should not escape.
func bytes2(x []byte) []byte { // ERROR "leaking param: x$"
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Bytes()
}
func string1(x string) string { // ERROR "leaking param: x to result ~r0 level=0"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.String()
}
func string2(x int) string {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.String()
}
// Unfortunate: should only escape to result.
func interface1(x any) any { // ERROR "leaking param: x$"
v := reflect.ValueOf(x)
return v.Interface()
}
func interface2(x int) any {
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Interface()
}
// Unfortunate: should not escape.
func interface3(x int) int {
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Interface().(int)
}
// Unfortunate: should only escape to result.
func interface4(x *int) any { // ERROR "leaking param: x$"
v := reflect.ValueOf(x)
return v.Interface()
}
func addr(x *int) reflect.Value { // ERROR "leaking param: x to result ~r0 level=0"
v := reflect.ValueOf(x).Elem()
return v.Addr()
}
// functions returning pointer as uintptr have to escape.
func uintptr1(x *int) uintptr { // ERROR "leaking param: x$"
v := reflect.ValueOf(x)
return v.Pointer()
}
func unsafeaddr(x *int) uintptr { // ERROR "leaking param: x$"
v := reflect.ValueOf(x).Elem()
return v.UnsafeAddr()
}
func ifacedata(x any) [2]uintptr { // ERROR "moved to heap: x"
v := reflect.ValueOf(&x).Elem()
return v.InterfaceData()
}
func can(x int) bool {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.CanAddr() || v.CanInt() || v.CanSet() || v.CanInterface()
}
func is(x int) bool {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.IsValid() || v.IsNil() || v.IsZero()
}
func is2(x [2]int) bool {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.IsValid() || v.IsNil() || v.IsZero()
}
func is3(x struct{ a, b int }) bool {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.IsValid() || v.IsNil() || v.IsZero()
}
func overflow(x int) bool {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.OverflowInt(1 << 62)
}
func len1(x []int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Len()
}
func len2(x [3]int) int {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Len()
}
func len3(x string) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Len()
}
func len4(x map[int]int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x)
return v.Len()
}
func len5(x chan int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x)
return v.Len()
}
func cap1(x []int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Cap()
}
func cap2(x [3]int) int {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Cap()
}
func cap3(x chan int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x)
return v.Cap()
}
func setlen(x *[]int, n int) { // ERROR "x does not escape"
v := reflect.ValueOf(x).Elem()
v.SetLen(n)
}
func setcap(x *[]int, n int) { // ERROR "x does not escape"
v := reflect.ValueOf(x).Elem()
v.SetCap(n)
}
// Unfortunate: x doesn't need to escape to heap, just to result.
func slice1(x []byte) []byte { // ERROR "leaking param: x$"
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Slice(1, 2).Bytes()
}
// Unfortunate: x doesn't need to escape to heap, just to result.
func slice2(x string) string { // ERROR "leaking param: x$"
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Slice(1, 2).String()
}
func slice3(x [10]byte) []byte {
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Slice(1, 2).Bytes()
}
func elem1(x *int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x)
return int(v.Elem().Int())
}
func elem2(x *string) string { // ERROR "leaking param: x to result ~r0 level=1"
v := reflect.ValueOf(x)
return string(v.Elem().String())
}
type S struct {
A int
B *int
C string
}
func (S) M() {}
func field1(x S) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return int(v.Field(0).Int())
}
func field2(x S) string { // ERROR "leaking param: x to result ~r0 level=0"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Field(2).String()
}
func numfield(x S) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.NumField()
}
func index1(x []int) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return int(v.Index(0).Int())
}
// Unfortunate: should only leak content (level=1)
func index2(x []string) string { // ERROR "leaking param: x to result ~r0 level=0"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Index(0).String()
}
func index3(x [3]int) int {
v := reflect.ValueOf(x) // ERROR "x does not escape"
return int(v.Index(0).Int())
}
func index4(x [3]string) string { // ERROR "leaking param: x to result ~r0 level=0"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.Index(0).String()
}
func index5(x string) byte { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return byte(v.Index(0).Uint())
}
// Unfortunate: x (the interface storage) doesn't need to escape as the function takes a scalar arg.
func call1(f func(int), x int) { // ERROR "leaking param: f$"
fv := reflect.ValueOf(f)
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
fv.Call([]reflect.Value{v}) // ERROR "\[\]reflect\.Value{\.\.\.} does not escape"
}
func call2(f func(*int), x *int) { // ERROR "leaking param: f$" "leaking param: x$"
fv := reflect.ValueOf(f)
v := reflect.ValueOf(x)
fv.Call([]reflect.Value{v}) // ERROR "\[\]reflect.Value{\.\.\.} does not escape"
}
func method(x S) reflect.Value { // ERROR "leaking param: x$"
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Method(0)
}
func nummethod(x S) int { // ERROR "x does not escape"
v := reflect.ValueOf(x) // ERROR "x does not escape"
return v.NumMethod()
}
// Unfortunate: k doesn't need to escape.
func mapindex(m map[string]string, k string) string { // ERROR "m does not escape" "leaking param: k$"
mv := reflect.ValueOf(m)
kv := reflect.ValueOf(k) // ERROR "k escapes to heap"
return mv.MapIndex(kv).String()
}
func mapkeys(m map[string]string) []reflect.Value { // ERROR "m does not escape"
mv := reflect.ValueOf(m)
return mv.MapKeys()
}
func mapiter1(m map[string]string) *reflect.MapIter { // ERROR "leaking param: m$"
mv := reflect.ValueOf(m)
return mv.MapRange()
}
func mapiter2(m map[string]string) string { // ERROR "leaking param: m$"
mv := reflect.ValueOf(m)
it := mv.MapRange()
if it.Next() {
return it.Key().String()
}
return ""
}
func mapiter3(m map[string]string, it *reflect.MapIter) { // ERROR "leaking param: m$" "it does not escape"
mv := reflect.ValueOf(m)
it.Reset(mv)
}
func recv1(ch chan string) string { // ERROR "ch does not escape"
v := reflect.ValueOf(ch)
r, _ := v.Recv()
return r.String()
}
func recv2(ch chan string) string { // ERROR "ch does not escape"
v := reflect.ValueOf(ch)
r, _ := v.TryRecv()
return r.String()
}
// Unfortunate: x (the interface storage) doesn't need to escape.
func send1(ch chan string, x string) { // ERROR "ch does not escape" "leaking param: x$"
vc := reflect.ValueOf(ch)
vx := reflect.ValueOf(x) // ERROR "x escapes to heap"
vc.Send(vx)
}
// Unfortunate: x (the interface storage) doesn't need to escape.
func send2(ch chan string, x string) bool { // ERROR "ch does not escape" "leaking param: x$"
vc := reflect.ValueOf(ch)
vx := reflect.ValueOf(x) // ERROR "x escapes to heap"
return vc.TrySend(vx)
}
func close1(ch chan string) { // ERROR "ch does not escape"
v := reflect.ValueOf(ch)
v.Close()
}
func select1(ch chan string) string { // ERROR "leaking param: ch$"
v := reflect.ValueOf(ch)
cas := reflect.SelectCase{Dir: reflect.SelectRecv, Chan: v}
_, r, _ := reflect.Select([]reflect.SelectCase{cas}) // ERROR "\[\]reflect.SelectCase{...} does not escape"
return r.String()
}
// Unfortunate: x (the interface storage) doesn't need to escape.
func select2(ch chan string, x string) { // ERROR "leaking param: ch$" "leaking param: x$"
vc := reflect.ValueOf(ch)
vx := reflect.ValueOf(x) // ERROR "x escapes to heap"
cas := reflect.SelectCase{Dir: reflect.SelectSend, Chan: vc, Send: vx}
reflect.Select([]reflect.SelectCase{cas}) // ERROR "\[\]reflect.SelectCase{...} does not escape"
}
var (
intTyp = reflect.TypeOf(int(0)) // ERROR "0 does not escape"
uintTyp = reflect.TypeOf(uint(0)) // ERROR "uint\(0\) does not escape"
stringTyp = reflect.TypeOf(string("")) // ERROR ".. does not escape"
bytesTyp = reflect.TypeOf([]byte{}) // ERROR "\[\]byte{} does not escape"
)
// Unfortunate: should not escape.
func convert1(x int) uint {
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return uint(v.Convert(uintTyp).Uint())
}
// Unfortunate: should only escape content to result.
func convert2(x []byte) string { // ERROR "leaking param: x$"
v := reflect.ValueOf(x) // ERROR "x escapes to heap"
return v.Convert(stringTyp).String()
}
// Unfortunate: v doesn't need to leak, x (the interface storage) doesn't need to escape.
func set1(v reflect.Value, x int) { // ERROR "leaking param: v$"
vx := reflect.ValueOf(x) // ERROR "x escapes to heap"
v.Set(vx)
}
// Unfortunate: a can be stack allocated, x (the interface storage) doesn't need to escape.
func set2(x int) int64 {
var a int // ERROR "moved to heap: a"
v := reflect.ValueOf(&a).Elem()
vx := reflect.ValueOf(x) // ERROR "x escapes to heap"
v.Set(vx)
return v.Int()
}
func set3(v reflect.Value, x int) { // ERROR "v does not escape"
v.SetInt(int64(x))
}
func set4(x int) int {
var a int
v := reflect.ValueOf(&a).Elem() // a should not escape, no error printed
v.SetInt(int64(x))
return int(v.Int())
}
func set5(v reflect.Value, x string) { // ERROR "v does not escape" "leaking param: x$"
v.SetString(x)
}
func set6(v reflect.Value, x []byte) { // ERROR "v does not escape" "leaking param: x$"
v.SetBytes(x)
}
func set7(v reflect.Value, x unsafe.Pointer) { // ERROR "v does not escape" "leaking param: x$"
v.SetPointer(x)
}
func setmapindex(m map[string]string, k, e string) { // ERROR "m does not escape" "leaking param: k$" "leaking param: e$"
mv := reflect.ValueOf(m)
kv := reflect.ValueOf(k) // ERROR "k escapes to heap"
ev := reflect.ValueOf(e) // ERROR "e escapes to heap"
mv.SetMapIndex(kv, ev)
}
// Unfortunate: k doesn't need to escape.
func mapdelete(m map[string]string, k string) { // ERROR "m does not escape" "leaking param: k$"
mv := reflect.ValueOf(m)
kv := reflect.ValueOf(k) // ERROR "k escapes to heap"
mv.SetMapIndex(kv, reflect.Value{})
}
// Unfortunate: v doesn't need to leak.
func setiterkey1(v reflect.Value, it *reflect.MapIter) { // ERROR "leaking param: v$" "it does not escape"
v.SetIterKey(it)
}
// Unfortunate: v doesn't need to leak.
func setiterkey2(v reflect.Value, m map[string]string) { // ERROR "leaking param: v$" "leaking param: m$"
it := reflect.ValueOf(m).MapRange()
v.SetIterKey(it)
}
// Unfortunate: v doesn't need to leak.
func setitervalue1(v reflect.Value, it *reflect.MapIter) { // ERROR "leaking param: v$" "it does not escape"
v.SetIterValue(it)
}
// Unfortunate: v doesn't need to leak.
func setitervalue2(v reflect.Value, m map[string]string) { // ERROR "leaking param: v$" "leaking param: m$"
it := reflect.ValueOf(m).MapRange()
v.SetIterValue(it)
}
// Unfortunate: s doesn't need escape, only leak to result.
// And x (interface storage) doesn't need to escape.
func append1(s []int, x int) []int { // ERROR "leaking param: s$"
sv := reflect.ValueOf(s) // ERROR "s escapes to heap"
xv := reflect.ValueOf(x) // ERROR "x escapes to heap"
rv := reflect.Append(sv, xv) // ERROR "... argument does not escape"
return rv.Interface().([]int)
}
// Unfortunate: s doesn't need escape, only leak to result.
func append2(s, x []int) []int { // ERROR "leaking param: s$" "x does not escape"
sv := reflect.ValueOf(s) // ERROR "s escapes to heap"
xv := reflect.ValueOf(x) // ERROR "x does not escape"
rv := reflect.AppendSlice(sv, xv)
return rv.Interface().([]int)
}