// run // Copyright 2010 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. // Test of basic recover functionality. package main import ( "os" "reflect" "runtime" ) func main() { // go.tools/ssa/interp still has: // - some lesser bugs in recover() // - incomplete support for reflection interp := os.Getenv("GOSSAINTERP") != "" test1() test1WithClosures() test2() test3() if !interp { test4() } test5() test6() test6WithClosures() test7() test8() test9() if !interp { test9reflect1() test9reflect2() } test10() if !interp { test10reflect1() test10reflect2() } test11() if !interp { test11reflect1() test11reflect2() } test111() test12() if !interp { test12reflect1() test12reflect2() } test13() if !interp { test13reflect1() test13reflect2() } test14() if !interp { test14reflect1() test14reflect2() test15() test16() } } func die() { runtime.Breakpoint() // can't depend on panic } func mustRecoverBody(v1, v2, v3, x interface{}) { v := v1 if v != nil { println("spurious recover", v) die() } v = v2 if v == nil { println("missing recover", x.(int)) die() // panic is useless here } if v != x { println("wrong value", v, x) die() } // the value should be gone now regardless v = v3 if v != nil { println("recover didn't recover") die() } } func doubleRecover() interface{} { return recover() } func mustRecover(x interface{}) { mustRecoverBody(doubleRecover(), recover(), recover(), x) } func mustNotRecover() { v := recover() if v != nil { println("spurious recover", v) die() } } func withoutRecover() { mustNotRecover() // because it's a sub-call } func withoutRecoverRecursive(n int) { if n == 0 { withoutRecoverRecursive(1) } else { v := recover() if v != nil { println("spurious recover (recursive)", v) die() } } } func test1() { defer mustNotRecover() // because mustRecover will squelch it defer mustRecover(1) // because of panic below defer withoutRecover() // should be no-op, leaving for mustRecover to find defer withoutRecoverRecursive(0) // ditto panic(1) } // Repeat test1 with closures instead of standard function. // Interesting because recover bases its decision // on the frame pointer of its caller, and a closure's // frame pointer is in the middle of its actual arguments // (after the hidden ones for the closed-over variables). func test1WithClosures() { defer func() { v := recover() if v != nil { println("spurious recover in closure") die() } }() defer func(x interface{}) { mustNotRecover() v := recover() if v == nil { println("missing recover", x.(int)) die() } if v != x { println("wrong value", v, x) die() } }(1) defer func() { mustNotRecover() }() panic(1) } func test2() { // Recover only sees the panic argument // if it is called from a deferred call. // It does not see the panic when called from a call within a deferred call (too late) // nor does it see the panic when it *is* the deferred call (too early). defer mustRecover(2) defer recover() // should be no-op panic(2) } func test3() { defer mustNotRecover() defer func() { recover() // should squelch }() panic(3) } func test4() { // Equivalent to test3 but using defer to make the call. defer mustNotRecover() defer func() { defer recover() // should squelch }() panic(4) } // Check that closures can set output arguments. // Run g(). If it panics, return x; else return deflt. func try(g func(), deflt interface{}) (x interface{}) { defer func() { if v := recover(); v != nil { x = v } }() defer g() return deflt } // Check that closures can set output arguments. // Run g(). If it panics, return x; else return deflt. func try1(g func(), deflt interface{}) (x interface{}) { defer func() { if v := recover(); v != nil { x = v } }() defer g() x = deflt return } func test5() { v := try(func() { panic(5) }, 55).(int) if v != 5 { println("wrong value", v, 5) die() } s := try(func() {}, "hi").(string) if s != "hi" { println("wrong value", s, "hi") die() } v = try1(func() { panic(5) }, 55).(int) if v != 5 { println("try1 wrong value", v, 5) die() } s = try1(func() {}, "hi").(string) if s != "hi" { println("try1 wrong value", s, "hi") die() } } // When a deferred big call starts, it must first // create yet another stack segment to hold the // giant frame for x. Make sure that doesn't // confuse recover. func big(mustRecover bool) { var x [100000]int x[0] = 1 x[99999] = 1 _ = x v := recover() if mustRecover { if v == nil { println("missing big recover") die() } } else { if v != nil { println("spurious big recover") die() } } } func test6() { defer big(false) defer big(true) panic(6) } func test6WithClosures() { defer func() { var x [100000]int x[0] = 1 x[99999] = 1 _ = x if recover() != nil { println("spurious big closure recover") die() } }() defer func() { var x [100000]int x[0] = 1 x[99999] = 1 _ = x if recover() == nil { println("missing big closure recover") die() } }() panic("6WithClosures") } func test7() { ok := false func() { // should panic, then call mustRecover 7, which stops the panic. // then should keep processing ordinary defers earlier than that one // before returning. // this test checks that the defer func on the next line actually runs. defer func() { ok = true }() defer mustRecover(7) panic(7) }() if !ok { println("did not run ok func") die() } } func varargs(s *int, a ...int) { *s = 0 for _, v := range a { *s += v } if recover() != nil { *s += 100 } } func test8a() (r int) { defer varargs(&r, 1, 2, 3) panic(0) } func test8b() (r int) { defer varargs(&r, 4, 5, 6) return } func test8() { if test8a() != 106 || test8b() != 15 { println("wrong value") die() } } type I interface { M() } // pointer receiver, so no wrapper in i.M() type T1 struct{} func (*T1) M() { mustRecoverBody(doubleRecover(), recover(), recover(), 9) } func test9() { var i I = &T1{} defer i.M() panic(9) } func test9reflect1() { f := reflect.ValueOf(&T1{}).Method(0).Interface().(func()) defer f() panic(9) } func test9reflect2() { f := reflect.TypeOf(&T1{}).Method(0).Func.Interface().(func(*T1)) defer f(&T1{}) panic(9) } // word-sized value receiver, so no wrapper in i.M() type T2 uintptr func (T2) M() { mustRecoverBody(doubleRecover(), recover(), recover(), 10) } func test10() { var i I = T2(0) defer i.M() panic(10) } func test10reflect1() { f := reflect.ValueOf(T2(0)).Method(0).Interface().(func()) defer f() panic(10) } func test10reflect2() { f := reflect.TypeOf(T2(0)).Method(0).Func.Interface().(func(T2)) defer f(T2(0)) panic(10) } // tiny receiver, so basic wrapper in i.M() type T3 struct{} func (T3) M() { mustRecoverBody(doubleRecover(), recover(), recover(), 11) } func test11() { var i I = T3{} defer i.M() panic(11) } func test11reflect1() { f := reflect.ValueOf(T3{}).Method(0).Interface().(func()) defer f() panic(11) } func test11reflect2() { f := reflect.TypeOf(T3{}).Method(0).Func.Interface().(func(T3)) defer f(T3{}) panic(11) } // tiny receiver, so basic wrapper in i.M() type T3deeper struct{} func (T3deeper) M() { badstate() // difference from T3 mustRecoverBody(doubleRecover(), recover(), recover(), 111) } func test111() { var i I = T3deeper{} defer i.M() panic(111) } type Tiny struct{} func (Tiny) M() { panic(112) } // i.M is a wrapper, and i.M panics. // // This is a torture test for an old implementation of recover that // tried to deal with wrapper functions by doing some argument // positioning math on both entry and exit. Doing anything on exit // is a problem because sometimes functions exit via panic instead // of an ordinary return, so panic would have to know to do the // same math when unwinding the stack. It gets complicated fast. // This particular test never worked with the old scheme, because // panic never did the right unwinding math. // // The new scheme adjusts Panic.argp on entry to a wrapper. // It has no exit work, so if a wrapper is interrupted by a panic, // there's no cleanup that panic itself must do. // This test just works now. func badstate() { defer func() { recover() }() var i I = Tiny{} i.M() } // large receiver, so basic wrapper in i.M() type T4 [2]string func (T4) M() { mustRecoverBody(doubleRecover(), recover(), recover(), 12) } func test12() { var i I = T4{} defer i.M() panic(12) } func test12reflect1() { f := reflect.ValueOf(T4{}).Method(0).Interface().(func()) defer f() panic(12) } func test12reflect2() { f := reflect.TypeOf(T4{}).Method(0).Func.Interface().(func(T4)) defer f(T4{}) panic(12) } // enormous receiver, so wrapper splits stack to call M type T5 [8192]byte func (T5) M() { mustRecoverBody(doubleRecover(), recover(), recover(), 13) } func test13() { var i I = T5{} defer i.M() panic(13) } func test13reflect1() { f := reflect.ValueOf(T5{}).Method(0).Interface().(func()) defer f() panic(13) } func test13reflect2() { f := reflect.TypeOf(T5{}).Method(0).Func.Interface().(func(T5)) defer f(T5{}) panic(13) } // enormous receiver + enormous method frame, so wrapper splits stack to call M, // and then M splits stack to allocate its frame. // recover must look back two frames to find the panic. type T6 [8192]byte var global byte func (T6) M() { var x [8192]byte x[0] = 1 x[1] = 2 for i := range x { global += x[i] } mustRecoverBody(doubleRecover(), recover(), recover(), 14) } func test14() { var i I = T6{} defer i.M() panic(14) } func test14reflect1() { f := reflect.ValueOf(T6{}).Method(0).Interface().(func()) defer f() panic(14) } func test14reflect2() { f := reflect.TypeOf(T6{}).Method(0).Func.Interface().(func(T6)) defer f(T6{}) panic(14) } // function created by reflect.MakeFunc func reflectFunc(args []reflect.Value) (results []reflect.Value) { mustRecoverBody(doubleRecover(), recover(), recover(), 15) return nil } func test15() { f := reflect.MakeFunc(reflect.TypeOf((func())(nil)), reflectFunc).Interface().(func()) defer f() panic(15) } func reflectFunc2(args []reflect.Value) (results []reflect.Value) { // This will call reflectFunc3 args[0].Interface().(func())() return nil } func reflectFunc3(args []reflect.Value) (results []reflect.Value) { if v := recover(); v != nil { println("spurious recover", v) die() } return nil } func test16() { defer mustRecover(16) f2 := reflect.MakeFunc(reflect.TypeOf((func(func()))(nil)), reflectFunc2).Interface().(func(func())) f3 := reflect.MakeFunc(reflect.TypeOf((func())(nil)), reflectFunc3).Interface().(func()) defer f2(f3) panic(16) }