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mirror of https://github.com/golang/go synced 2024-11-25 09:07:58 -07:00

cmd/gc: fix Offsetof computation.

The offset of an embedded field s.X must be relative to s
and not to the implicit s.Field of which X is a direct field.
Moreover, no indirections may happen on the path.

Fixes #4909.

R=nigeltao, ality, daniel.morsing, iant, gri, r
CC=golang-dev
https://golang.org/cl/8287043
This commit is contained in:
Rémy Oudompheng 2013-04-05 21:24:07 +02:00
parent 03048ae454
commit 2d3216f4a8
4 changed files with 286 additions and 6 deletions

View File

@ -16,7 +16,7 @@
Node*
unsafenmagic(Node *nn)
{
Node *r, *n;
Node *r, *n, *base, *r1;
Sym *s;
Type *t, *tr;
long v;
@ -49,11 +49,43 @@ unsafenmagic(Node *nn)
goto yes;
}
if(strcmp(s->name, "Offsetof") == 0) {
typecheck(&r, Erv);
if(r->op != ODOT && r->op != ODOTPTR)
// must be a selector.
if(r->op != OXDOT)
goto bad;
// Remember base of selector to find it back after dot insertion.
// Since r->left may be mutated by typechecking, check it explicitly
// first to track it correctly.
typecheck(&r->left, Erv);
base = r->left;
typecheck(&r, Erv);
v = r->xoffset;
switch(r->op) {
case ODOT:
case ODOTPTR:
break;
case OCALLPART:
yyerror("invalid expression %N: argument is a method value", nn);
v = 0;
goto ret;
default:
goto bad;
}
v = 0;
// add offsets for inserted dots.
for(r1=r; r1->left!=base; r1=r1->left) {
switch(r1->op) {
case ODOT:
v += r1->xoffset;
break;
case ODOTPTR:
yyerror("invalid expression %N: selector implies indirection of embedded %N", nn, r1->left);
goto ret;
default:
dump("unsafenmagic", r);
fatal("impossible %#O node after dot insertion", r1->op);
goto bad;
}
}
v += r1->xoffset;
goto yes;
}
if(strcmp(s->name, "Alignof") == 0) {

View File

@ -0,0 +1,35 @@
// errorcheck
// Copyright 2013 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.
// Issue 4909: compiler incorrectly accepts unsafe.Offsetof(t.x)
// where x is a field of an embedded pointer field.
package p
import (
"unsafe"
)
type T struct {
A int
*B
}
func (t T) Method() {}
type B struct {
X, Y int
}
var t T
var p *T
const N1 = unsafe.Offsetof(t.X) // ERROR "indirection"
const N2 = unsafe.Offsetof(p.X) // ERROR "indirection"
const N3 = unsafe.Offsetof(t.B.X) // valid
const N4 = unsafe.Offsetof(p.B.X) // valid
const N5 = unsafe.Offsetof(t.Method) // ERROR "method value"
const N6 = unsafe.Offsetof(p.Method) // ERROR "method value"

View File

@ -0,0 +1,80 @@
// errorcheckoutput
package main
import "fmt"
// We are going to define 256 types T(n),
// such that T(n) embeds T(2n) and *T(2n+1).
func main() {
fmt.Printf("// errorcheck\n\n")
fmt.Printf("package p\n\n")
fmt.Println(`import "unsafe"`)
// Dump types.
for n := 1; n < 256; n++ {
writeStruct(n)
}
// Dump leaves
for n := 256; n < 512; n++ {
fmt.Printf("type T%d int\n", n)
}
fmt.Printf("var t T1\n")
fmt.Printf("var p *T1\n")
// Simple selectors
for n := 2; n < 256; n++ {
writeDot(n)
}
// Double selectors
for n := 128; n < 256; n++ {
writeDot(n/16, n)
}
// Triple selectors
for n := 128; n < 256; n++ {
writeDot(n/64, n/8, n)
}
}
const structTpl = `
type T%d struct {
A%d int
T%d
*T%d
}
`
func writeStruct(n int) {
fmt.Printf(structTpl, n, n, 2*n, 2*n+1)
}
func writeDot(ns ...int) {
for _, root := range []string{"t", "p"} {
fmt.Printf("const _ = unsafe.Offsetof(%s", root)
for _, n := range ns {
fmt.Printf(".T%d", n)
}
// Does it involve an indirection?
nlast := ns[len(ns)-1]
nprev := 1
if len(ns) > 1 {
nprev = ns[len(ns)-2]
}
isIndirect := false
for n := nlast / 2; n > nprev; n /= 2 {
if n%2 == 1 {
isIndirect = true
break
}
}
fmt.Print(")")
if isIndirect {
fmt.Print(` // ERROR "indirection"`)
}
fmt.Print("\n")
}
}

View File

@ -4,8 +4,6 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// Test unsafe.Sizeof, unsafe.Alignof, and unsafe.Offsetof all return uintptr.
package main
import "unsafe"
@ -18,8 +16,143 @@ var t T
func isUintptr(uintptr) {}
type T2 struct {
A int32
U2
}
type U2 struct {
B int32
C int32
}
var t2 T2
var p2 *T2
func main() {
// Test unsafe.Sizeof, unsafe.Alignof, and unsafe.Offsetof all return uintptr.
isUintptr(unsafe.Sizeof(t))
isUintptr(unsafe.Alignof(t))
isUintptr(unsafe.Offsetof(t.X))
// Test correctness of Offsetof with respect to embedded fields (issue 4909).
if unsafe.Offsetof(t2.C) != 8 {
println(unsafe.Offsetof(t2.C), "!= 8")
panic("unsafe.Offsetof(t2.C) != 8")
}
if unsafe.Offsetof(p2.C) != 8 {
println(unsafe.Offsetof(p2.C), "!= 8")
panic("unsafe.Offsetof(p2.C) != 8")
}
if unsafe.Offsetof(t2.U2.C) != 4 {
println(unsafe.Offsetof(t2.U2.C), "!= 4")
panic("unsafe.Offsetof(t2.U2.C) != 4")
}
if unsafe.Offsetof(p2.U2.C) != 4 {
println(unsafe.Offsetof(p2.U2.C), "!= 4")
panic("unsafe.Offsetof(p2.U2.C) != 4")
}
testDeep()
testNotEmbedded()
}
type (
S1 struct {
A int32
S2
}
S2 struct {
B int32
S3
}
S3 struct {
C int32
S4
}
S4 struct {
D int32
S5
}
S5 struct {
E int32
S6
}
S6 struct {
F int32
S7
}
S7 struct {
G int32
S8
}
S8 struct {
H int32
*S1
}
)
func testDeep() {
var s1 S1
switch {
case unsafe.Offsetof(s1.A) != 0:
panic("unsafe.Offsetof(s1.A) != 0")
case unsafe.Offsetof(s1.B) != 4:
panic("unsafe.Offsetof(s1.B) != 4")
case unsafe.Offsetof(s1.C) != 8:
panic("unsafe.Offsetof(s1.C) != 8")
case unsafe.Offsetof(s1.D) != 12:
panic("unsafe.Offsetof(s1.D) != 12")
case unsafe.Offsetof(s1.E) != 16:
panic("unsafe.Offsetof(s1.E) != 16")
case unsafe.Offsetof(s1.F) != 20:
panic("unsafe.Offsetof(s1.F) != 20")
case unsafe.Offsetof(s1.G) != 24:
panic("unsafe.Offsetof(s1.G) != 24")
case unsafe.Offsetof(s1.H) != 28:
panic("unsafe.Offsetof(s1.H) != 28")
case unsafe.Offsetof(s1.S1) != 32:
panic("unsafe.Offsetof(s1.S1) != 32")
case unsafe.Offsetof(s1.S1.S2.S3.S4.S5.S6.S7.S8.S1.S2) != 4:
panic("unsafe.Offsetof(s1.S1.S2.S3.S4.S5.S6.S7.S8.S1.S2) != 4")
}
}
func testNotEmbedded() {
type T2 struct {
B int32
C int32
}
type T1 struct {
A int32
T2
}
type T struct {
Dummy int32
F T1
P *T1
}
var t T
var p *T
switch {
case unsafe.Offsetof(t.F.B) != 4:
panic("unsafe.Offsetof(t.F.B) != 4")
case unsafe.Offsetof(t.F.C) != 8:
panic("unsafe.Offsetof(t.F.C) != 8")
case unsafe.Offsetof(t.P.B) != 4:
panic("unsafe.Offsetof(t.P.B) != 4")
case unsafe.Offsetof(t.P.C) != 8:
panic("unsafe.Offsetof(t.P.C) != 8")
case unsafe.Offsetof(p.F.B) != 4:
panic("unsafe.Offsetof(p.F.B) != 4")
case unsafe.Offsetof(p.F.C) != 8:
panic("unsafe.Offsetof(p.F.C) != 8")
case unsafe.Offsetof(p.P.B) != 4:
panic("unsafe.Offsetof(p.P.B) != 4")
case unsafe.Offsetof(p.P.C) != 8:
panic("unsafe.Offsetof(p.P.C) != 8")
}
}