gcc/libgo/runtime/go-recover.c
Ian Lance Taylor dffa732835 reflect, runtime: Use libffi closures to implement reflect.MakeFunc.
Keep using the existing 386 and amd64 code on those archs,
since it is more efficient.

From-SVN: r212853
2014-07-19 21:36:26 +00:00

155 lines
4.4 KiB
C

/* go-recover.c -- support for the go recover function.
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. */
#include "runtime.h"
#include "interface.h"
#include "go-panic.h"
#include "go-defer.h"
/* This is called by a thunk to see if the real function should be
permitted to recover a panic value. Recovering a value is
permitted if the thunk was called directly by defer. RETADDR is
the return address of the function which is calling
__go_can_recover--this is, the thunk. */
_Bool
__go_can_recover (const void *retaddr)
{
G *g;
struct __go_defer_stack *d;
const char* ret;
const char* dret;
Location loc;
const byte *name;
g = runtime_g ();
d = g->defer;
if (d == NULL)
return 0;
/* The panic which this function would recover is the one on the top
of the panic stack. We do not want to recover it if that panic
was on the top of the panic stack when this function was
deferred. */
if (d->__panic == g->panic)
return 0;
/* D->__RETADDR is the address of a label immediately following the
call to the thunk. We can recover a panic if that is the same as
the return address of the thunk. We permit a bit of slack in
case there is any code between the function return and the label,
such as an instruction to adjust the stack pointer. */
ret = (const char *) retaddr;
#ifdef __sparc__
/* On SPARC the address we get, from __builtin_return_address, is
the address of the call instruction. Adjust forward, also
skipping the delayed instruction following the call. */
ret += 8;
#endif
dret = (const char *) d->__retaddr;
if (ret <= dret && ret + 16 >= dret)
return 1;
/* If the function calling recover was created by reflect.MakeFunc,
then RETADDR will be somewhere in libffi. Our caller is
permitted to recover if it was called from libffi. */
if (!d->__makefunc_can_recover)
return 0;
if (runtime_callers (2, &loc, 1, false) < 1)
return 0;
/* If we have no function name, then we weren't called by Go code.
Guess that we were called by libffi. */
if (loc.function.len == 0)
return 1;
if (loc.function.len < 4)
return 0;
name = loc.function.str;
if (*name == '_')
{
if (loc.function.len < 5)
return 0;
++name;
}
if (name[0] == 'f' && name[1] == 'f' && name[2] == 'i' && name[3] == '_')
return 1;
/* We may also be called by reflect.makeFuncImpl.call or
reflect.ffiCall, for a function created by reflect.MakeFunc. */
if (__builtin_strstr ((const char *) name, "makeFuncImpl") != NULL
|| __builtin_strcmp ((const char *) name, "reflect.ffiCall") == 0)
return 1;
return 0;
}
/* This function is called when code is about to enter a function
created by reflect.MakeFunc. It is called by the function stub
used by MakeFunc. If the stub is permitted to call recover, then a
real MakeFunc function is permitted to call recover. */
void
__go_makefunc_can_recover (const void *retaddr)
{
struct __go_defer_stack *d;
d = runtime_g ()->defer;
if (d != NULL
&& !d->__makefunc_can_recover
&& __go_can_recover (retaddr))
d->__makefunc_can_recover = 1;
}
/* This function is called when code is about to exit a function
created by reflect.MakeFunc. It is called by the function stub
used by MakeFunc. It clears the __makefunc_can_recover field.
It's OK to always clear this field, because __go_can_recover will
only be called by a stub created for a function that calls recover.
That stub will not call a function created by reflect.MakeFunc, so
by the time we get here any caller higher up on the call stack no
longer needs the information. */
void
__go_makefunc_returning (void)
{
struct __go_defer_stack *d;
d = runtime_g ()->defer;
if (d != NULL)
d->__makefunc_can_recover = 0;
}
/* This is only called when it is valid for the caller to recover the
value on top of the panic stack, if there is one. */
struct __go_empty_interface
__go_recover ()
{
G *g;
struct __go_panic_stack *p;
g = runtime_g ();
if (g->panic == NULL || g->panic->__was_recovered)
{
struct __go_empty_interface ret;
ret.__type_descriptor = NULL;
ret.__object = NULL;
return ret;
}
p = g->panic;
p->__was_recovered = 1;
return p->__arg;
}