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cmd/cgo: make JNI's jobject type map to uintptr in Go

The jobject type is declared as a pointer, but some JVMs
(Dalvik, ART) store non-pointer values in them. In Go, we must
use uintptr instead of a real pointer for these types.

This is similar to the CoreFoundation types on Darwin which
were "fixed" in CL 66332.

Update #22906
Update #21897

RELNOTE=yes

Change-Id: I0d4c664501d89a696c2fb037c995503caabf8911
Reviewed-on: https://go-review.googlesource.com/81876
Run-TryBot: Keith Randall <khr@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Ian Lance Taylor <iant@golang.org>
This commit is contained in:
Keith Randall 2017-12-04 21:29:38 -08:00
parent d1fa58719e
commit 36aa2b036d
6 changed files with 406 additions and 10 deletions

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@ -86,5 +86,6 @@ func Test21809(t *testing.T) { test21809(t) }
func Test6907(t *testing.T) { test6907(t) }
func Test6907Go(t *testing.T) { test6907Go(t) }
func Test21897(t *testing.T) { test21897(t) }
func Test22906(t *testing.T) { test22906(t) }
func BenchmarkCgoCall(b *testing.B) { benchCgoCall(b) }

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@ -0,0 +1,74 @@
// Copyright 2017 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.
// +build cgo
package cgotest
/*
// It's going to be hard to include a whole real JVM to test this.
// So we'll simulate a really easy JVM using just the parts we need.
// This is the relevant part of jni.h.
struct _jobject;
typedef struct _jobject *jobject;
typedef jobject jclass;
typedef jobject jthrowable;
typedef jobject jstring;
typedef jobject jarray;
typedef jarray jbooleanArray;
typedef jarray jbyteArray;
typedef jarray jcharArray;
typedef jarray jshortArray;
typedef jarray jintArray;
typedef jarray jlongArray;
typedef jarray jfloatArray;
typedef jarray jdoubleArray;
typedef jarray jobjectArray;
typedef jobject jweak;
// Note: jvalue is already a non-pointer type due to it being a C union.
*/
import "C"
import (
"testing"
)
func test22906(t *testing.T) {
var x1 C.jobject = 0 // Note: 0, not nil. That makes sure we use uintptr for these types.
_ = x1
var x2 C.jclass = 0
_ = x2
var x3 C.jthrowable = 0
_ = x3
var x4 C.jstring = 0
_ = x4
var x5 C.jarray = 0
_ = x5
var x6 C.jbooleanArray = 0
_ = x6
var x7 C.jbyteArray = 0
_ = x7
var x8 C.jcharArray = 0
_ = x8
var x9 C.jshortArray = 0
_ = x9
var x10 C.jintArray = 0
_ = x10
var x11 C.jlongArray = 0
_ = x11
var x12 C.jfloatArray = 0
_ = x12
var x13 C.jdoubleArray = 0
_ = x13
var x14 C.jobjectArray = 0
_ = x14
var x15 C.jweak = 0
_ = x15
}

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@ -2057,7 +2057,7 @@ func (c *typeConv) Type(dtype dwarf.Type, pos token.Pos) *Type {
name := c.Ident("_Ctype_" + dt.Name)
goIdent[name.Name] = name
sub := c.Type(dt.Type, pos)
if badPointerTypedef(dt.Name) {
if badPointerTypedef(dt) {
// Treat this typedef as a uintptr.
s := *sub
s.Go = c.uintptr
@ -2223,7 +2223,7 @@ func (c *typeConv) FuncArg(dtype dwarf.Type, pos token.Pos) *Type {
}
// ...or the typedef is one in which we expect bad pointers.
// It will be a uintptr instead of *X.
if badPointerTypedef(dt.Name) {
if badPointerTypedef(dt) {
break
}
@ -2571,13 +2571,23 @@ func fieldPrefix(fld []*ast.Field) string {
// A typedef is bad if C code sometimes stores non-pointers in this type.
// TODO: Currently our best solution is to find these manually and list them as
// they come up. A better solution is desired.
func badPointerTypedef(t string) bool {
// The real bad types are CFNumberRef and CFTypeRef.
func badPointerTypedef(dt *dwarf.TypedefType) bool {
if badCFType(dt) {
return true
}
if badJNI(dt) {
return true
}
return false
}
func badCFType(dt *dwarf.TypedefType) bool {
// The real bad types are CFNumberRef and CFDateRef.
// Sometimes non-pointers are stored in these types.
// CFTypeRef is a supertype of those, so it can have bad pointers in it as well.
// We return true for the other CF*Ref types just so casting between them is easier.
// See comment below for details about the bad pointers.
return goos == "darwin" && strings.HasPrefix(t, "CF") && strings.HasSuffix(t, "Ref")
return goos == "darwin" && strings.HasPrefix(dt.Name, "CF") && strings.HasSuffix(dt.Name, "Ref")
}
// Comment from Darwin's CFInternal.h
@ -2614,3 +2624,61 @@ enum {
kCFTaggedObjectID_Undefined7 = (7 << 1) + 1,
};
*/
func badJNI(dt *dwarf.TypedefType) bool {
// In Dalvik and ART, the jobject type in the JNI interface of the JVM has the
// property that it is sometimes (always?) a small integer instead of a real pointer.
// Note: although only the android JVMs are bad in this respect, we declare the JNI types
// bad regardless of platform, so the same Go code compiles on both android and non-android.
if parent, ok := jniTypes[dt.Name]; ok {
// Try to make sure we're talking about a JNI type, not just some random user's
// type that happens to use the same name.
// C doesn't have the notion of a package, so it's hard to be certain.
// Walk up to jobject, checking each typedef on the way.
w := dt
for parent != "" {
t, ok := w.Type.(*dwarf.TypedefType)
if !ok || t.Name != parent {
return false
}
w = t
parent, ok = jniTypes[w.Name]
if !ok {
return false
}
}
// Check that the typedef is:
// struct _jobject;
// typedef struct _jobject *jobject;
if ptr, ok := w.Type.(*dwarf.PtrType); ok {
if str, ok := ptr.Type.(*dwarf.StructType); ok {
if str.StructName == "_jobject" && str.Kind == "struct" && len(str.Field) == 0 && str.Incomplete {
return true
}
}
}
}
return false
}
// jniTypes maps from JNI types that we want to be uintptrs, to the underlying type to which
// they are mapped. The base "jobject" maps to the empty string.
var jniTypes = map[string]string{
"jobject": "",
"jclass": "jobject",
"jthrowable": "jobject",
"jstring": "jobject",
"jarray": "jobject",
"jbooleanArray": "jarray",
"jbyteArray": "jarray",
"jcharArray": "jarray",
"jshortArray": "jarray",
"jintArray": "jarray",
"jlongArray": "jarray",
"jfloatArray": "jarray",
"jdoubleArray": "jarray",
"jobjectArray": "jarray",
"jweak": "jobject",
}

View File

@ -30,6 +30,13 @@ var cftypeFix = fix{
// and similar for other CF*Ref types.
// This fix finds nils initializing these types and replaces the nils with 0s.
func cftypefix(f *ast.File) bool {
return typefix(f, func(s string) bool {
return strings.HasPrefix(s, "C.CF") && strings.HasSuffix(s, "Ref")
})
}
// typefix replaces nil with 0 for all nils whose type, when passed to badType, returns true.
func typefix(f *ast.File, badType func(string) bool) bool {
if !imports(f, "C") {
return false
}
@ -39,7 +46,7 @@ func cftypefix(f *ast.File) bool {
// Compute their replacement.
badNils := map[interface{}]ast.Expr{}
walk(f, func(n interface{}) {
if i, ok := n.(*ast.Ident); ok && i.Name == "nil" && badPointerType(typeof[n]) {
if i, ok := n.(*ast.Ident); ok && i.Name == "nil" && badType(typeof[n]) {
badNils[n] = &ast.BasicLit{ValuePos: i.NamePos, Kind: token.INT, Value: "0"}
}
})
@ -87,7 +94,3 @@ func cftypefix(f *ast.File) bool {
return true
}
func badPointerType(s string) bool {
return strings.HasPrefix(s, "C.CF") && strings.HasSuffix(s, "Ref")
}

65
src/cmd/fix/jnitype.go Normal file
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@ -0,0 +1,65 @@
// Copyright 2017 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 main
import (
"go/ast"
)
func init() {
register(jniFix)
}
var jniFix = fix{
name: "jni",
date: "2017-12-04",
f: jnifix,
desc: `Fixes initializers of JNI's jobject and subtypes`,
disabled: false,
}
// Old state:
// type jobject *_jobject
// New state:
// type jobject uintptr
// and similar for subtypes of jobject.
// This fix finds nils initializing these types and replaces the nils with 0s.
func jnifix(f *ast.File) bool {
return typefix(f, func(s string) bool {
switch s {
case "C.jobject":
return true
case "C.jclass":
return true
case "C.jthrowable":
return true
case "C.jstring":
return true
case "C.jarray":
return true
case "C.jbooleanArray":
return true
case "C.jbyteArray":
return true
case "C.jcharArray":
return true
case "C.jshortArray":
return true
case "C.jintArray":
return true
case "C.jlongArray":
return true
case "C.jfloatArray":
return true
case "C.jdoubleArray":
return true
case "C.jobjectArray":
return true
case "C.jweak":
return true
}
return false
})
}

185
src/cmd/fix/jnitype_test.go Normal file
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@ -0,0 +1,185 @@
// Copyright 2017 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 main
func init() {
addTestCases(jniTests, jnifix)
}
var jniTests = []testCase{
{
Name: "jni.localVariable",
In: `package main
import "C"
func f() {
var x C.jobject = nil
x = nil
x, x = nil, nil
}
`,
Out: `package main
import "C"
func f() {
var x C.jobject = 0
x = 0
x, x = 0, 0
}
`,
},
{
Name: "jni.globalVariable",
In: `package main
import "C"
var x C.jobject = nil
func f() {
x = nil
}
`,
Out: `package main
import "C"
var x C.jobject = 0
func f() {
x = 0
}
`,
},
{
Name: "jni.EqualArgument",
In: `package main
import "C"
var x C.jobject
var y = x == nil
var z = x != nil
`,
Out: `package main
import "C"
var x C.jobject
var y = x == 0
var z = x != 0
`,
},
{
Name: "jni.StructField",
In: `package main
import "C"
type T struct {
x C.jobject
}
var t = T{x: nil}
`,
Out: `package main
import "C"
type T struct {
x C.jobject
}
var t = T{x: 0}
`,
},
{
Name: "jni.FunctionArgument",
In: `package main
import "C"
func f(x C.jobject) {
}
func g() {
f(nil)
}
`,
Out: `package main
import "C"
func f(x C.jobject) {
}
func g() {
f(0)
}
`,
},
{
Name: "jni.ArrayElement",
In: `package main
import "C"
var x = [3]C.jobject{nil, nil, nil}
`,
Out: `package main
import "C"
var x = [3]C.jobject{0, 0, 0}
`,
},
{
Name: "jni.SliceElement",
In: `package main
import "C"
var x = []C.jobject{nil, nil, nil}
`,
Out: `package main
import "C"
var x = []C.jobject{0, 0, 0}
`,
},
{
Name: "jni.MapKey",
In: `package main
import "C"
var x = map[C.jobject]int{nil: 0}
`,
Out: `package main
import "C"
var x = map[C.jobject]int{0: 0}
`,
},
{
Name: "jni.MapValue",
In: `package main
import "C"
var x = map[int]C.jobject{0: nil}
`,
Out: `package main
import "C"
var x = map[int]C.jobject{0: 0}
`,
},
}