third_party/gofrontend/libgo/runtime/go-recover.c - llvm-project/llgo - Git at Google

 /* 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"

 /* If the top of the defer stack can be recovered, then return it.
    Otherwise return NULL.  */

 static struct __go_defer_stack *
 current_defer ()
 {
   G *g;
   struct __go_defer_stack *d;

   g = runtime_g ();

   d = g->defer;
   if (d == NULL)
     return NULL;

   /* The panic which would be recovered 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 NULL;

   /* The deferred thunk will call _go_set_defer_retaddr.  If this has
      not happened, then we have not been called via defer, and we can
      not recover.  */
   if (d->__retaddr == NULL)
     return NULL;

   return d;
 }

 /* 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 (void *retaddr)
 {
   struct __go_defer_stack *d;
   const char* ret;
   const char* dret;
   Location locs[16];
   const byte *name;
   intgo len;
   int n;
   int i;
   _Bool found_ffi_callback;

   d = current_defer ();
   if (d == NULL)
     return 0;

   ret = (const char *) __builtin_extract_return_addr (retaddr);

   dret = (const char *) d->__retaddr;
   if (ret <= dret && ret + 16 >= dret)
     return 1;

   /* On some systems, in some cases, the return address does not work
      reliably.  See http://gcc.gnu.org/PR60406.  If we are permitted
      to call recover, the call stack will look like this:
        __go_panic, __go_undefer, etc.
        thunk to call deferred function (calls __go_set_defer_retaddr)
        function that calls __go_can_recover (passing return address)
        __go_can_recover
      Calling runtime_callers will skip the thunks.  So if our caller's
      caller starts with __go, then we are permitted to call
      recover.  */

   if (runtime_callers (1, &locs[0], 2, false) < 2)
     return 0;

   name = locs[1].function.str;
   len = locs[1].function.len;

   /* Although locs[1].function is a Go string, we know it is
      NUL-terminated.  */
   if (len > 4
       && __builtin_strchr ((const char *) name, '.') == NULL
       && __builtin_strncmp ((const char *) name, "__go_", 4) == 0)
     return 1;

   /* If we are called from __go_makefunc_can_recover, then we need to
      look one level higher.  */
   if (locs[0].function.len > 0
       && __builtin_strcmp ((const char *) locs[0].function.str,
 			   "__go_makefunc_can_recover") == 0)
     {
       if (runtime_callers (3, &locs[0], 1, false) < 1)
 	return 0;
       name = locs[0].function.str;
       len = locs[0].function.len;
       if (len > 4
 	  && __builtin_strchr ((const char *) name, '.') == NULL
 	  && __builtin_strncmp ((const char *) name, "__go_", 4) == 0)
 	return 1;
     }

   /* If the function calling recover was created by reflect.MakeFunc,
      then __go_makefunc_can_recover or __go_makefunc_ffi_can_recover
      will have set the __makefunc_can_recover field.  */
   if (!d->__makefunc_can_recover)
     return 0;

   /* We look up the stack, ignoring libffi functions and functions in
      the reflect package, until we find reflect.makeFuncStub or
      reflect.ffi_callback called by FFI functions.  Then we check the
      caller of that function.  */

   n = runtime_callers (2, &locs[0], sizeof locs / sizeof locs[0], false);
   found_ffi_callback = 0;
   for (i = 0; i < n; i++)
     {
       const byte *name;

       if (locs[i].function.len == 0)
 	{
 	  /* No function name means this caller isn't Go code.  Assume
 	     that this is libffi.  */
 	  continue;
 	}

       /* Ignore functions in libffi.  */
       name = locs[i].function.str;
       if (__builtin_strncmp ((const char *) name, "ffi_", 4) == 0)
 	continue;

       if (found_ffi_callback)
 	break;

       if (__builtin_strcmp ((const char *) name, "reflect.ffi_callback") == 0)
 	{
 	  found_ffi_callback = 1;
 	  continue;
 	}

       if (__builtin_strcmp ((const char *) name, "reflect.makeFuncStub") == 0)
 	{
 	  i++;
 	  break;
 	}

       /* Ignore other functions in the reflect package.  */
       if (__builtin_strncmp ((const char *) name, "reflect.", 8) == 0)
 	continue;

       /* We should now be looking at the real caller.  */
       break;
     }

   if (i < n && locs[i].function.len > 0)
     {
       name = locs[i].function.str;
       if (__builtin_strncmp ((const char *) name, "__go_", 4) == 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 (void *retaddr)
 {
   struct __go_defer_stack *d;

   d = current_defer ();
   if (d == NULL)
     return;

   /* If we are already in a call stack of MakeFunc functions, there is
      nothing we can usefully check here.  */
   if (d->__makefunc_can_recover)
     return;

   if (__go_can_recover (retaddr))
     d->__makefunc_can_recover = 1;
 }

 /* This function is called when code is about to enter a function
    created by the libffi version of reflect.MakeFunc.  This function
    is passed the names of the callers of the libffi code that called
    the stub.  It uses to decide whether it is permitted to call
    recover, and sets d->__makefunc_can_recover so that __go_recover
    can make the same decision.  */

 void
 __go_makefunc_ffi_can_recover (struct Location *loc, int n)
 {
   struct __go_defer_stack *d;
   const byte *name;
   intgo len;

   d = current_defer ();
   if (d == NULL)
     return;

   /* If we are already in a call stack of MakeFunc functions, there is
      nothing we can usefully check here.  */
   if (d->__makefunc_can_recover)
     return;

   /* LOC points to the caller of our caller.  That will be a thunk.
      If its caller was a runtime function, then it was called directly
      by defer.  */

   if (n < 2)
     return;

   name = (loc + 1)->function.str;
   len = (loc + 1)->function.len;
   if (len > 4
       && __builtin_strchr ((const char *) name, '.') == NULL
       && __builtin_strncmp ((const char *) name, "__go_", 4) == 0)
     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;
 }
	/* 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"

	/* If the top of the defer stack can be recovered, then return it.
	Otherwise return NULL. */

	static struct __go_defer_stack *
	current_defer ()
	{
	G *g;
	struct __go_defer_stack *d;

	g = runtime_g ();

	d = g->defer;
	if (d == NULL)
	return NULL;

	/* The panic which would be recovered 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 NULL;

	/* The deferred thunk will call _go_set_defer_retaddr. If this has
	not happened, then we have not been called via defer, and we can
	not recover. */
	if (d->__retaddr == NULL)
	return NULL;

	return d;
	}

	/* 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 (void *retaddr)
	{
	struct __go_defer_stack *d;
	const char* ret;
	const char* dret;
	Location locs[16];
	const byte *name;
	intgo len;
	int n;
	int i;
	_Bool found_ffi_callback;

	d = current_defer ();
	if (d == NULL)
	return 0;

	ret = (const char *) __builtin_extract_return_addr (retaddr);

	dret = (const char *) d->__retaddr;
	if (ret <= dret && ret + 16 >= dret)
	return 1;

	/* On some systems, in some cases, the return address does not work
	reliably. See http://gcc.gnu.org/PR60406. If we are permitted
	to call recover, the call stack will look like this:
	__go_panic, __go_undefer, etc.
	thunk to call deferred function (calls __go_set_defer_retaddr)
	function that calls __go_can_recover (passing return address)
	__go_can_recover
	Calling runtime_callers will skip the thunks. So if our caller's
	caller starts with __go, then we are permitted to call
	recover. */

	if (runtime_callers (1, &locs[0], 2, false) < 2)
	return 0;

	name = locs[1].function.str;
	len = locs[1].function.len;

	/* Although locs[1].function is a Go string, we know it is
	NUL-terminated. */
	if (len > 4
	&& __builtin_strchr ((const char *) name, '.') == NULL
	&& __builtin_strncmp ((const char *) name, "__go_", 4) == 0)
	return 1;

	/* If we are called from __go_makefunc_can_recover, then we need to
	look one level higher. */
	if (locs[0].function.len > 0
	&& __builtin_strcmp ((const char *) locs[0].function.str,
	"__go_makefunc_can_recover") == 0)
	{
	if (runtime_callers (3, &locs[0], 1, false) < 1)
	return 0;
	name = locs[0].function.str;
	len = locs[0].function.len;
	if (len > 4
	&& __builtin_strchr ((const char *) name, '.') == NULL
	&& __builtin_strncmp ((const char *) name, "__go_", 4) == 0)
	return 1;
	}

	/* If the function calling recover was created by reflect.MakeFunc,
	then __go_makefunc_can_recover or __go_makefunc_ffi_can_recover
	will have set the __makefunc_can_recover field. */
	if (!d->__makefunc_can_recover)
	return 0;

	/* We look up the stack, ignoring libffi functions and functions in
	the reflect package, until we find reflect.makeFuncStub or
	reflect.ffi_callback called by FFI functions. Then we check the
	caller of that function. */

	n = runtime_callers (2, &locs[0], sizeof locs / sizeof locs[0], false);
	found_ffi_callback = 0;
	for (i = 0; i < n; i++)
	{
	const byte *name;

	if (locs[i].function.len == 0)
	{
	/* No function name means this caller isn't Go code. Assume
	that this is libffi. */
	continue;
	}

	/* Ignore functions in libffi. */
	name = locs[i].function.str;
	if (__builtin_strncmp ((const char *) name, "ffi_", 4) == 0)
	continue;

	if (found_ffi_callback)
	break;

	if (__builtin_strcmp ((const char *) name, "reflect.ffi_callback") == 0)
	{
	found_ffi_callback = 1;
	continue;
	}

	if (__builtin_strcmp ((const char *) name, "reflect.makeFuncStub") == 0)
	{
	i++;
	break;
	}

	/* Ignore other functions in the reflect package. */
	if (__builtin_strncmp ((const char *) name, "reflect.", 8) == 0)
	continue;

	/* We should now be looking at the real caller. */
	break;
	}

	if (i < n && locs[i].function.len > 0)
	{
	name = locs[i].function.str;
	if (__builtin_strncmp ((const char *) name, "__go_", 4) == 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 (void *retaddr)
	{
	struct __go_defer_stack *d;

	d = current_defer ();
	if (d == NULL)
	return;

	/* If we are already in a call stack of MakeFunc functions, there is
	nothing we can usefully check here. */
	if (d->__makefunc_can_recover)
	return;

	if (__go_can_recover (retaddr))
	d->__makefunc_can_recover = 1;
	}

	/* This function is called when code is about to enter a function
	created by the libffi version of reflect.MakeFunc. This function
	is passed the names of the callers of the libffi code that called
	the stub. It uses to decide whether it is permitted to call
	recover, and sets d->__makefunc_can_recover so that __go_recover
	can make the same decision. */

	void
	__go_makefunc_ffi_can_recover (struct Location *loc, int n)
	{
	struct __go_defer_stack *d;
	const byte *name;
	intgo len;

	d = current_defer ();
	if (d == NULL)
	return;

	/* If we are already in a call stack of MakeFunc functions, there is
	nothing we can usefully check here. */
	if (d->__makefunc_can_recover)
	return;

	/* LOC points to the caller of our caller. That will be a thunk.
	If its caller was a runtime function, then it was called directly
	by defer. */

	if (n < 2)
	return;

	name = (loc + 1)->function.str;
	len = (loc + 1)->function.len;
	if (len > 4
	&& __builtin_strchr ((const char *) name, '.') == NULL
	&& __builtin_strncmp ((const char *) name, "__go_", 4) == 0)
	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;
	}