go/test/nilptr.go
Russ Cox 67d48daae9 test: merge nilptr/* into one test
The 512 MB array causes load delays on some systems.
Now that we have recover, we can do all the tests in
one binary, so that the delay is incurred just once.

R=golang-dev, r
CC=golang-dev
https://golang.org/cl/5142044
2011-09-26 13:59:01 -04:00

125 lines
2.2 KiB
Go

// $G $D/$F.go && $L $F.$A && ./$A.out
package main
import "unsafe"
// Having a big address space means that indexing
// at a 256 MB offset from a nil pointer might not
// cause a memory access fault. This test checks
// that Go is doing the correct explicit checks to catch
// these nil pointer accesses, not just relying on the hardware.
var dummy [512 << 20]byte // give us a big address space
func main() {
// the test only tests what we intend to test
// if dummy starts in the first 256 MB of memory.
// otherwise there might not be anything mapped
// at the address that might be accidentally
// dereferenced below.
if uintptr(unsafe.Pointer(&dummy)) > 256<<20 {
panic("dummy too far out")
}
shouldPanic(p1)
shouldPanic(p2)
shouldPanic(p3)
shouldPanic(p4)
shouldPanic(p5)
shouldPanic(p6)
shouldPanic(p7)
shouldPanic(p8)
shouldPanic(p9)
shouldPanic(p10)
}
func shouldPanic(f func()) {
defer func() {
if recover() == nil {
panic("memory reference did not panic")
}
}()
f()
}
func p1() {
// Array index.
var p *[1 << 30]byte = nil
println(p[256<<20]) // very likely to be inside dummy, but should panic
}
var xb byte
func p2() {
var p *[1 << 30]byte = nil
xb = 123
// Array index.
println(p[uintptr(unsafe.Pointer(&xb))]) // should panic
}
func p3() {
// Array to slice.
var p *[1 << 30]byte = nil
var x []byte = p[0:] // should panic
_ = x
}
var q *[1 << 30]byte
func p4() {
// Array to slice.
var x []byte
var y = &x
*y = q[0:] // should crash (uses arraytoslice runtime routine)
}
func fb([]byte) {
panic("unreachable")
}
func p5() {
// Array to slice.
var p *[1 << 30]byte = nil
fb(p[0:]) // should crash
}
func p6() {
// Array to slice.
var p *[1 << 30]byte = nil
var _ []byte = p[10 : len(p)-10] // should crash
}
type T struct {
x [256 << 20]byte
i int
}
func f() *T {
return nil
}
var y *T
var x = &y
func p7() {
// Struct field access with large offset.
println(f().i) // should crash
}
func p8() {
// Struct field access with large offset.
println((*x).i) // should crash
}
func p9() {
// Struct field access with large offset.
var t *T
println(&t.i) // should crash
}
func p10() {
// Struct field access with large offset.
var t *T
println(t.i) // should crash
}