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// Copyright 2019 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 runtime_test
import (
"fmt"
"reflect"
"runtime"
"testing"
)
// Make sure open-coded defer exit code is not lost, even when there is an
// unconditional panic (hence no return from the function)
func TestUnconditionalPanic(t *testing.T) {
defer func() {
if recover() != "testUnconditional" {
t.Fatal("expected unconditional panic")
}
}()
panic("testUnconditional")
}
var glob int = 3
// Test an open-coded defer and non-open-coded defer - make sure both defers run
// and call recover()
func TestOpenAndNonOpenDefers(t *testing.T) {
for {
// Non-open defer because in a loop
defer func(n int) {
if recover() != "testNonOpenDefer" {
t.Fatal("expected testNonOpen panic")
}
}(3)
if glob > 2 {
break
}
}
testOpen(t, 47)
panic("testNonOpenDefer")
}
//go:noinline
func testOpen(t *testing.T, arg int) {
defer func(n int) {
if recover() != "testOpenDefer" {
t.Fatal("expected testOpen panic")
}
}(4)
if arg > 2 {
panic("testOpenDefer")
}
}
// Test a non-open-coded defer and an open-coded defer - make sure both defers run
// and call recover()
func TestNonOpenAndOpenDefers(t *testing.T) {
testOpen(t, 47)
for {
// Non-open defer because in a loop
defer func(n int) {
if recover() != "testNonOpenDefer" {
t.Fatal("expected testNonOpen panic")
}
}(3)
if glob > 2 {
break
}
}
panic("testNonOpenDefer")
}
var list []int
// Make sure that conditional open-coded defers are activated correctly and run in
// the correct order.
func TestConditionalDefers(t *testing.T) {
list = make([]int, 0, 10)
defer func() {
if recover() != "testConditional" {
t.Fatal("expected panic")
}
want := []int{4, 2, 1}
if !reflect.DeepEqual(want, list) {
t.Fatal(fmt.Sprintf("wanted %v, got %v", want, list))
}
}()
testConditionalDefers(8)
}
func testConditionalDefers(n int) {
doappend := func(i int) {
list = append(list, i)
}
defer doappend(1)
if n > 5 {
defer doappend(2)
if n > 8 {
defer doappend(3)
} else {
defer doappend(4)
}
}
panic("testConditional")
}
// Test that there is no compile-time or run-time error if an open-coded defer
// call is removed by constant propagation and dead-code elimination.
func TestDisappearingDefer(t *testing.T) {
switch runtime.GOOS {
case "invalidOS":
defer func() {
t.Fatal("Defer shouldn't run")
}()
}
}
// This tests an extra recursive panic behavior that is only specified in the
// code. Suppose a first panic P1 happens and starts processing defer calls. If a
// second panic P2 happens while processing defer call D in frame F, then defer
// call processing is restarted (with some potentially new defer calls created by
// D or its callees). If the defer processing reaches the started defer call D
// again in the defer stack, then the original panic P1 is aborted and cannot
// continue panic processing or be recovered. If the panic P2 does a recover at
// some point, it will naturally remove the original panic P1 from the stack
// (since the original panic had to be in frame F or a descendant of F).
func TestAbortedPanic(t *testing.T) {
defer func() {
r := recover()
if r != nil {
t.Fatal(fmt.Sprintf("wanted nil recover, got %v", r))
}
}()
defer func() {
r := recover()
if r != "panic2" {
t.Fatal(fmt.Sprintf("wanted %v, got %v", "panic2", r))
}
}()
defer func() {
panic("panic2")
}()
panic("panic1")
}
// This tests that recover() does not succeed unless it is called directly from a
// defer function that is directly called by the panic. Here, we first call it
// from a defer function that is created by the defer function called directly by
// the panic. In
func TestRecoverMatching(t *testing.T) {
defer func() {
r := recover()
if r != "panic1" {
t.Fatal(fmt.Sprintf("wanted %v, got %v", "panic1", r))
}
}()
defer func() {
defer func() {
// Shouldn't succeed, even though it is called directly
// from a defer function, since this defer function was
// not directly called by the panic.
r := recover()
if r != nil {
t.Fatal(fmt.Sprintf("wanted nil recover, got %v", r))
}
}()
}()
panic("panic1")
}
type nonSSAable [128]byte
type bigStruct struct {
x, y, z, w, p, q int64
}
type containsBigStruct struct {
element bigStruct
}
func mknonSSAable() nonSSAable {
globint1++
return nonSSAable{0, 0, 0, 0, 5}
}
var globint1, globint2, globint3 int
//go:noinline
func sideeffect(n int64) int64 {
globint2++
return n
}
func sideeffect2(in containsBigStruct) containsBigStruct {
globint3++
return in
}
// Test that nonSSAable arguments to defer are handled correctly and only evaluated once.
func TestNonSSAableArgs(t *testing.T) {
globint1 = 0
globint2 = 0
globint3 = 0
var save1 byte
var save2 int64
var save3 int64
var save4 int64
defer func() {
if globint1 != 1 {
t.Fatal(fmt.Sprintf("globint1: wanted: 1, got %v", globint1))
}
if save1 != 5 {
t.Fatal(fmt.Sprintf("save1: wanted: 5, got %v", save1))
}
if globint2 != 1 {
t.Fatal(fmt.Sprintf("globint2: wanted: 1, got %v", globint2))
}
if save2 != 2 {
t.Fatal(fmt.Sprintf("save2: wanted: 2, got %v", save2))
}
if save3 != 4 {
t.Fatal(fmt.Sprintf("save3: wanted: 4, got %v", save3))
}
if globint3 != 1 {
t.Fatal(fmt.Sprintf("globint3: wanted: 1, got %v", globint3))
}
if save4 != 4 {
t.Fatal(fmt.Sprintf("save1: wanted: 4, got %v", save4))
}
}()
// Test function returning a non-SSAable arg
defer func(n nonSSAable) {
save1 = n[4]
}(mknonSSAable())
// Test composite literal that is not SSAable
defer func(b bigStruct) {
save2 = b.y
}(bigStruct{1, 2, 3, 4, 5, sideeffect(6)})
// Test struct field reference that is non-SSAable
foo := containsBigStruct{}
foo.element.z = 4
defer func(element bigStruct) {
save3 = element.z
}(foo.element)
defer func(element bigStruct) {
save4 = element.z
}(sideeffect2(foo).element)
}
//go:noinline
func doPanic() {
panic("Test panic")
}
func TestDeferForFuncWithNoExit(t *testing.T) {
cond := 1
defer func() {
if cond != 2 {
t.Fatal(fmt.Sprintf("cond: wanted 2, got %v", cond))
}
if recover() != "Test panic" {
t.Fatal("Didn't find expected panic")
}
}()
x := 0
// Force a stack copy, to make sure that the &cond pointer passed to defer
// function is properly updated.
growStackIter(&x, 1000)
cond = 2
doPanic()
// This function has no exit/return, since it ends with an infinite loop
for {
}
}
// Test case approximating issue #37664, where a recursive function (interpreter)
// may do repeated recovers/re-panics until it reaches the frame where the panic
// can actually be handled. The recurseFnPanicRec() function is testing that there
// are no stale defer structs on the defer chain after the interpreter() sequence,
// by writing a bunch of 0xffffffffs into several recursive stack frames, and then
// doing a single panic-recover which would invoke any such stale defer structs.
func TestDeferWithRepeatedRepanics(t *testing.T) {
interpreter(0, 6, 2)
recurseFnPanicRec(0, 10)
interpreter(0, 5, 1)
recurseFnPanicRec(0, 10)
interpreter(0, 6, 3)
recurseFnPanicRec(0, 10)
}
func interpreter(level int, maxlevel int, rec int) {
defer func() {
e := recover()
if e == nil {
return
}
if level != e.(int) {
//fmt.Fprintln(os.Stderr, "re-panicing, level", level)
panic(e)
}
//fmt.Fprintln(os.Stderr, "Recovered, level", level)
}()
if level+1 < maxlevel {
interpreter(level+1, maxlevel, rec)
} else {
//fmt.Fprintln(os.Stderr, "Initiating panic")
panic(rec)
}
}
func recurseFnPanicRec(level int, maxlevel int) {
defer func() {
recover()
}()
recurseFn(level, maxlevel)
}
var saveInt uint32
func recurseFn(level int, maxlevel int) {
a := [40]uint32{0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff, 0xffffffff}
if level+1 < maxlevel {
// Make sure a array is referenced, so it is not optimized away
saveInt = a[4]
recurseFn(level+1, maxlevel)
} else {
panic("recurseFn panic")
}
}
// Try to reproduce issue #37688, where a pointer to an open-coded defer struct is
// mistakenly held, and that struct keeps a pointer to a stack-allocated defer
// struct, and that stack-allocated struct gets overwritten or the stack gets
// moved, so a memory error happens on GC.
func TestIssue37688(t *testing.T) {
for j := 0; j < 10; j++ {
g2()
g3()
}
}
type foo struct {
}
//go:noinline
func (f *foo) method1() {
}
//go:noinline
func (f *foo) method2() {
}
func g2() {
var a foo
ap := &a
// The loop forces this defer to be heap-allocated and the remaining two
// to be stack-allocated.
for i := 0; i < 1; i++ {
defer ap.method1()
}
defer ap.method2()
defer ap.method1()
ff1(ap, 1, 2, 3, 4, 5, 6, 7, 8, 9)
// Try to get the stack to be be moved by growing it too large, so
// existing stack-allocated defer becomes invalid.
rec1(2000)
}
func g3() {
// Mix up the stack layout by adding in an extra function frame
g2()
}
var globstruct struct {
a, b, c, d, e, f, g, h, i int
}
func ff1(ap *foo, a, b, c, d, e, f, g, h, i int) {
defer ap.method1()
// Make a defer that has a very large set of args, hence big size for the
// defer record for the open-coded frame (which means it won't use the
// defer pool)
defer func(ap *foo, a, b, c, d, e, f, g, h, i int) {
if v := recover(); v != nil {
}
globstruct.a = a
globstruct.b = b
globstruct.c = c
globstruct.d = d
globstruct.e = e
globstruct.f = f
globstruct.g = g
globstruct.h = h
}(ap, a, b, c, d, e, f, g, h, i)
panic("ff1 panic")
}
func rec1(max int) {
if max > 0 {
rec1(max - 1)
}
}
func TestIssue43921(t *testing.T) {
defer func() {
expect(t, 1, recover())
}()
func() {
// Prevent open-coded defers
for {
defer func() {}()
break
}
defer func() {
defer func() {
expect(t, 4, recover())
}()
panic(4)
}()
panic(1)
}()
}
func expect(t *testing.T, n int, err interface{}) {
if n != err {
t.Fatalf("have %v, want %v", err, n)
}
}
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