1
0
mirror of https://github.com/golang/go synced 2024-11-18 12:14:42 -07:00
go/misc/cgo/errors/ptr.go
Ian Lance Taylor 7b48020cfe cmd/cgo: check pointers for deferred C calls at the right time
We used to check time at the point of the defer statement. This change
fixes cgo to check them when the deferred function is executed.

Fixes #15921.

Change-Id: I72a10e26373cad6ad092773e9ebec4add29b9561
Reviewed-on: https://go-review.googlesource.com/23650
Run-TryBot: Ian Lance Taylor <iant@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Austin Clements <austin@google.com>
2016-06-03 20:51:39 +00:00

556 lines
15 KiB
Go

// 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.
// Tests that cgo detects invalid pointer passing at runtime.
package main
import (
"bufio"
"bytes"
"fmt"
"io"
"io/ioutil"
"os"
"os/exec"
"path/filepath"
"runtime"
"strings"
"sync"
)
// ptrTest is the tests without the boilerplate.
type ptrTest struct {
name string // for reporting
c string // the cgo comment
imports []string // a list of imports
support string // supporting functions
body string // the body of the main function
extra []extra // extra files
fail bool // whether the test should fail
expensive bool // whether the test requires the expensive check
}
type extra struct {
name string
contents string
}
var ptrTests = []ptrTest{
{
// Passing a pointer to a struct that contains a Go pointer.
name: "ptr1",
c: `typedef struct s { int *p; } s; void f(s *ps) {}`,
body: `C.f(&C.s{new(C.int)})`,
fail: true,
},
{
// Passing a pointer to a struct that contains a Go pointer.
name: "ptr2",
c: `typedef struct s { int *p; } s; void f(s *ps) {}`,
body: `p := &C.s{new(C.int)}; C.f(p)`,
fail: true,
},
{
// Passing a pointer to an int field of a Go struct
// that (irrelevantly) contains a Go pointer.
name: "ok1",
c: `struct s { int i; int *p; }; void f(int *p) {}`,
body: `p := &C.struct_s{i: 0, p: new(C.int)}; C.f(&p.i)`,
fail: false,
},
{
// Passing a pointer to a pointer field of a Go struct.
name: "ptr-field",
c: `struct s { int i; int *p; }; void f(int **p) {}`,
body: `p := &C.struct_s{i: 0, p: new(C.int)}; C.f(&p.p)`,
fail: true,
},
{
// Passing a pointer to a pointer field of a Go
// struct, where the field does not contain a Go
// pointer, but another field (irrelevantly) does.
name: "ptr-field-ok",
c: `struct s { int *p1; int *p2; }; void f(int **p) {}`,
body: `p := &C.struct_s{p1: nil, p2: new(C.int)}; C.f(&p.p1)`,
fail: false,
},
{
// Passing the address of a slice with no Go pointers.
name: "slice-ok-1",
c: `void f(void **p) {}`,
imports: []string{"unsafe"},
body: `s := []unsafe.Pointer{nil}; C.f(&s[0])`,
fail: false,
},
{
// Passing the address of a slice with a Go pointer.
name: "slice-ptr-1",
c: `void f(void **p) {}`,
imports: []string{"unsafe"},
body: `i := 0; s := []unsafe.Pointer{unsafe.Pointer(&i)}; C.f(&s[0])`,
fail: true,
},
{
// Passing the address of a slice with a Go pointer,
// where we are passing the address of an element that
// is not a Go pointer.
name: "slice-ptr-2",
c: `void f(void **p) {}`,
imports: []string{"unsafe"},
body: `i := 0; s := []unsafe.Pointer{nil, unsafe.Pointer(&i)}; C.f(&s[0])`,
fail: true,
},
{
// Passing the address of a slice that is an element
// in a struct only looks at the slice.
name: "slice-ok-2",
c: `void f(void **p) {}`,
imports: []string{"unsafe"},
support: `type S struct { p *int; s []unsafe.Pointer }`,
body: `i := 0; p := &S{p:&i, s:[]unsafe.Pointer{nil}}; C.f(&p.s[0])`,
fail: false,
},
{
// Passing the address of a slice of an array that is
// an element in a struct, with a type conversion.
name: "slice-ok-3",
c: `void f(void* p) {}`,
imports: []string{"unsafe"},
support: `type S struct { p *int; a [4]byte }`,
body: `i := 0; p := &S{p:&i}; s := p.a[:]; C.f(unsafe.Pointer(&s[0]))`,
fail: false,
},
{
// Passing the address of a slice of an array that is
// an element in a struct, with a type conversion.
name: "slice-ok-4",
c: `typedef void* PV; void f(PV p) {}`,
imports: []string{"unsafe"},
support: `type S struct { p *int; a [4]byte }`,
body: `i := 0; p := &S{p:&i}; C.f(C.PV(unsafe.Pointer(&p.a[0])))`,
fail: false,
},
{
// Passing the address of a static variable with no
// pointers doesn't matter.
name: "varok",
c: `void f(char** parg) {}`,
support: `var hello = [...]C.char{'h', 'e', 'l', 'l', 'o'}`,
body: `parg := [1]*C.char{&hello[0]}; C.f(&parg[0])`,
fail: false,
},
{
// Passing the address of a static variable with
// pointers does matter.
name: "var",
c: `void f(char*** parg) {}`,
support: `var hello = [...]*C.char{new(C.char)}`,
body: `parg := [1]**C.char{&hello[0]}; C.f(&parg[0])`,
fail: true,
},
{
// Storing a Go pointer into C memory should fail.
name: "barrier",
c: `#include <stdlib.h>
char **f1() { return malloc(sizeof(char*)); }
void f2(char **p) {}`,
body: `p := C.f1(); *p = new(C.char); C.f2(p)`,
fail: true,
expensive: true,
},
{
// Storing a Go pointer into C memory by assigning a
// large value should fail.
name: "barrier-struct",
c: `#include <stdlib.h>
struct s { char *a[10]; };
struct s *f1() { return malloc(sizeof(struct s)); }
void f2(struct s *p) {}`,
body: `p := C.f1(); p.a = [10]*C.char{new(C.char)}; C.f2(p)`,
fail: true,
expensive: true,
},
{
// Storing a Go pointer into C memory using a slice
// copy should fail.
name: "barrier-slice",
c: `#include <stdlib.h>
struct s { char *a[10]; };
struct s *f1() { return malloc(sizeof(struct s)); }
void f2(struct s *p) {}`,
body: `p := C.f1(); copy(p.a[:], []*C.char{new(C.char)}); C.f2(p)`,
fail: true,
expensive: true,
},
{
// A very large value uses a GC program, which is a
// different code path.
name: "barrier-gcprog-array",
c: `#include <stdlib.h>
struct s { char *a[32769]; };
struct s *f1() { return malloc(sizeof(struct s)); }
void f2(struct s *p) {}`,
body: `p := C.f1(); p.a = [32769]*C.char{new(C.char)}; C.f2(p)`,
fail: true,
expensive: true,
},
{
// Similar case, with a source on the heap.
name: "barrier-gcprog-array-heap",
c: `#include <stdlib.h>
struct s { char *a[32769]; };
struct s *f1() { return malloc(sizeof(struct s)); }
void f2(struct s *p) {}
void f3(void *p) {}`,
imports: []string{"unsafe"},
body: `p := C.f1(); n := &[32769]*C.char{new(C.char)}; p.a = *n; C.f2(p); n[0] = nil; C.f3(unsafe.Pointer(n))`,
fail: true,
expensive: true,
},
{
// A GC program with a struct.
name: "barrier-gcprog-struct",
c: `#include <stdlib.h>
struct s { char *a[32769]; };
struct s2 { struct s f; };
struct s2 *f1() { return malloc(sizeof(struct s2)); }
void f2(struct s2 *p) {}`,
body: `p := C.f1(); p.f = C.struct_s{[32769]*C.char{new(C.char)}}; C.f2(p)`,
fail: true,
expensive: true,
},
{
// Similar case, with a source on the heap.
name: "barrier-gcprog-struct-heap",
c: `#include <stdlib.h>
struct s { char *a[32769]; };
struct s2 { struct s f; };
struct s2 *f1() { return malloc(sizeof(struct s2)); }
void f2(struct s2 *p) {}
void f3(void *p) {}`,
imports: []string{"unsafe"},
body: `p := C.f1(); n := &C.struct_s{[32769]*C.char{new(C.char)}}; p.f = *n; C.f2(p); n.a[0] = nil; C.f3(unsafe.Pointer(n))`,
fail: true,
expensive: true,
},
{
// Exported functions may not return Go pointers.
name: "export1",
c: `extern unsigned char *GoFn();`,
support: `//export GoFn
func GoFn() *byte { return new(byte) }`,
body: `C.GoFn()`,
fail: true,
},
{
// Returning a C pointer is fine.
name: "exportok",
c: `#include <stdlib.h>
extern unsigned char *GoFn();`,
support: `//export GoFn
func GoFn() *byte { return (*byte)(C.malloc(1)) }`,
body: `C.GoFn()`,
},
{
// Passing a Go string is fine.
name: "pass-string",
c: `#include <stddef.h>
typedef struct { const char *p; ptrdiff_t n; } gostring;
gostring f(gostring s) { return s; }`,
imports: []string{"unsafe"},
body: `s := "a"; r := C.f(*(*C.gostring)(unsafe.Pointer(&s))); if *(*string)(unsafe.Pointer(&r)) != s { panic(r) }`,
},
{
// Passing a slice of Go strings fails.
name: "pass-string-slice",
c: `void f(void *p) {}`,
imports: []string{"strings", "unsafe"},
support: `type S struct { a [1]string }`,
body: `s := S{a:[1]string{strings.Repeat("a", 2)}}; C.f(unsafe.Pointer(&s.a[0]))`,
fail: true,
},
{
// Exported functions may not return strings.
name: "ret-string",
c: `extern void f();`,
imports: []string{"strings"},
support: `//export GoStr
func GoStr() string { return strings.Repeat("a", 2) }`,
body: `C.f()`,
extra: []extra{
{
"call.c",
`#include <stddef.h>
typedef struct { const char *p; ptrdiff_t n; } gostring;
extern gostring GoStr();
void f() { GoStr(); }`,
},
},
fail: true,
},
{
// Don't check non-pointer data.
// Uses unsafe code to get a pointer we shouldn't check.
// Although we use unsafe, the uintptr represents an integer
// that happens to have the same representation as a pointer;
// that is, we are testing something that is not unsafe.
name: "ptrdata1",
c: `#include <stdlib.h>
void f(void* p) {}`,
imports: []string{"unsafe"},
support: `type S struct { p *int; a [8*8]byte; u uintptr }`,
body: `i := 0; p := &S{u:uintptr(unsafe.Pointer(&i))}; q := (*S)(C.malloc(C.size_t(unsafe.Sizeof(*p)))); *q = *p; C.f(unsafe.Pointer(q))`,
fail: false,
},
{
// Like ptrdata1, but with a type that uses a GC program.
name: "ptrdata2",
c: `#include <stdlib.h>
void f(void* p) {}`,
imports: []string{"unsafe"},
support: `type S struct { p *int; a [32769*8]byte; q *int; u uintptr }`,
body: `i := 0; p := S{u:uintptr(unsafe.Pointer(&i))}; q := (*S)(C.malloc(C.size_t(unsafe.Sizeof(p)))); *q = p; C.f(unsafe.Pointer(q))`,
fail: false,
},
{
// Check deferred pointers when they are used, not
// when the defer statement is run.
name: "defer",
c: `typedef struct s { int *p; } s; void f(s *ps) {}`,
body: `p := &C.s{}; defer C.f(p); p.p = new(C.int)`,
fail: true,
},
}
func main() {
os.Exit(doTests())
}
func doTests() int {
gopath, err := ioutil.TempDir("", "cgoerrors")
if err != nil {
fmt.Fprintln(os.Stderr, err)
return 2
}
defer os.RemoveAll(gopath)
if err := os.MkdirAll(filepath.Join(gopath, "src"), 0777); err != nil {
fmt.Fprintln(os.Stderr, err)
return 2
}
workers := runtime.NumCPU() + 1
var wg sync.WaitGroup
c := make(chan int)
errs := make(chan int)
for i := 0; i < workers; i++ {
wg.Add(1)
go func() {
worker(gopath, c, errs)
wg.Done()
}()
}
for i := range ptrTests {
c <- i
}
close(c)
go func() {
wg.Wait()
close(errs)
}()
tot := 0
for e := range errs {
tot += e
}
return tot
}
func worker(gopath string, c, errs chan int) {
e := 0
for i := range c {
if !doOne(gopath, i) {
e++
}
}
if e > 0 {
errs <- e
}
}
func doOne(gopath string, i int) bool {
t := &ptrTests[i]
dir := filepath.Join(gopath, "src", fmt.Sprintf("dir%d", i))
if err := os.Mkdir(dir, 0777); err != nil {
fmt.Fprintln(os.Stderr, err)
return false
}
name := filepath.Join(dir, fmt.Sprintf("t%d.go", i))
f, err := os.Create(name)
if err != nil {
fmt.Fprintln(os.Stderr, err)
return false
}
b := bufio.NewWriter(f)
fmt.Fprintln(b, `package main`)
fmt.Fprintln(b)
fmt.Fprintln(b, `/*`)
fmt.Fprintln(b, t.c)
fmt.Fprintln(b, `*/`)
fmt.Fprintln(b, `import "C"`)
fmt.Fprintln(b)
for _, imp := range t.imports {
fmt.Fprintln(b, `import "`+imp+`"`)
}
if len(t.imports) > 0 {
fmt.Fprintln(b)
}
if len(t.support) > 0 {
fmt.Fprintln(b, t.support)
fmt.Fprintln(b)
}
fmt.Fprintln(b, `func main() {`)
fmt.Fprintln(b, t.body)
fmt.Fprintln(b, `}`)
if err := b.Flush(); err != nil {
fmt.Fprintf(os.Stderr, "flushing %s: %v\n", name, err)
return false
}
if err := f.Close(); err != nil {
fmt.Fprintf(os.Stderr, "closing %s: %v\n", name, err)
return false
}
for _, e := range t.extra {
if err := ioutil.WriteFile(filepath.Join(dir, e.name), []byte(e.contents), 0644); err != nil {
fmt.Fprintf(os.Stderr, "writing %s: %v\n", e.name, err)
return false
}
}
ok := true
cmd := exec.Command("go", "build")
cmd.Dir = dir
cmd.Env = addEnv("GOPATH", gopath)
buf, err := cmd.CombinedOutput()
if err != nil {
fmt.Fprintf(os.Stderr, "test %s failed to build: %v\n%s", t.name, err, buf)
return false
}
exe := filepath.Join(dir, filepath.Base(dir))
cmd = exec.Command(exe)
cmd.Dir = dir
if t.expensive {
cmd.Env = cgocheckEnv("1")
buf, err := cmd.CombinedOutput()
if err != nil {
var errbuf bytes.Buffer
if t.fail {
fmt.Fprintf(&errbuf, "test %s marked expensive but failed when not expensive: %v\n", t.name, err)
} else {
fmt.Fprintf(&errbuf, "test %s failed unexpectedly with GODEBUG=cgocheck=1: %v\n", t.name, err)
}
reportTestOutput(&errbuf, t.name, buf)
os.Stderr.Write(errbuf.Bytes())
ok = false
}
cmd = exec.Command(exe)
cmd.Dir = dir
}
if t.expensive {
cmd.Env = cgocheckEnv("2")
}
buf, err = cmd.CombinedOutput()
if t.fail {
if err == nil {
var errbuf bytes.Buffer
fmt.Fprintf(&errbuf, "test %s did not fail as expected\n", t.name)
reportTestOutput(&errbuf, t.name, buf)
os.Stderr.Write(errbuf.Bytes())
ok = false
} else if !bytes.Contains(buf, []byte("Go pointer")) {
var errbuf bytes.Buffer
fmt.Fprintf(&errbuf, "test %s output does not contain expected error (failed with %v)\n", t.name, err)
reportTestOutput(&errbuf, t.name, buf)
os.Stderr.Write(errbuf.Bytes())
ok = false
}
} else {
if err != nil {
var errbuf bytes.Buffer
fmt.Fprintf(&errbuf, "test %s failed unexpectedly: %v\n", t.name, err)
reportTestOutput(&errbuf, t.name, buf)
os.Stderr.Write(errbuf.Bytes())
ok = false
}
if !t.expensive && ok {
// Make sure it passes with the expensive checks.
cmd := exec.Command(exe)
cmd.Dir = dir
cmd.Env = cgocheckEnv("2")
buf, err := cmd.CombinedOutput()
if err != nil {
var errbuf bytes.Buffer
fmt.Fprintf(&errbuf, "test %s failed unexpectedly with expensive checks: %v\n", t.name, err)
reportTestOutput(&errbuf, t.name, buf)
os.Stderr.Write(errbuf.Bytes())
ok = false
}
}
}
if t.fail && ok {
cmd = exec.Command(exe)
cmd.Dir = dir
cmd.Env = cgocheckEnv("0")
buf, err := cmd.CombinedOutput()
if err != nil {
var errbuf bytes.Buffer
fmt.Fprintf(&errbuf, "test %s failed unexpectedly with GODEBUG=cgocheck=0: %v\n", t.name, err)
reportTestOutput(&errbuf, t.name, buf)
os.Stderr.Write(errbuf.Bytes())
ok = false
}
}
return ok
}
func reportTestOutput(w io.Writer, name string, buf []byte) {
fmt.Fprintf(w, "=== test %s output ===\n", name)
fmt.Fprintf(w, "%s", buf)
fmt.Fprintf(w, "=== end of test %s output ===\n", name)
}
func cgocheckEnv(val string) []string {
return addEnv("GODEBUG", "cgocheck="+val)
}
func addEnv(key, val string) []string {
env := []string{key + "=" + val}
look := key + "="
for _, e := range os.Environ() {
if !strings.HasPrefix(e, look) {
env = append(env, e)
}
}
return env
}