llvm-gcc-4.2/gcc/ada/tracebak.c - llvm-archive - Git at Google

 /****************************************************************************
  *                                                                          *
  *                         GNAT COMPILER COMPONENTS                         *
  *                                                                          *
  *                            T R A C E B A C K                             *
  *                                                                          *
  *                          C Implementation File                           *
  *                                                                          *
  *                     Copyright (C) 2000-2006, AdaCore                     *
  *                                                                          *
  * GNAT is free software;  you can  redistribute it  and/or modify it under *
  * terms of the  GNU General Public License as published  by the Free Soft- *
  * ware  Foundation;  either version 2,  or (at your option) any later ver- *
  * sion.  GNAT is distributed in the hope that it will be useful, but WITH- *
  * OUT ANY WARRANTY;  without even the  implied warranty of MERCHANTABILITY *
  * or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License *
  * for  more details.  You should have  received  a copy of the GNU General *
  * Public License  distributed with GNAT;  see file COPYING.  If not, write *
  * to  the  Free Software Foundation,  51  Franklin  Street,  Fifth  Floor, *
  * Boston, MA 02110-1301, USA.                                              *
  *                                                                          *
  * As a  special  exception,  if you  link  this file  with other  files to *
  * produce an executable,  this file does not by itself cause the resulting *
  * executable to be covered by the GNU General Public License. This except- *
  * ion does not  however invalidate  any other reasons  why the  executable *
  * file might be covered by the  GNU Public License.                        *
  *                                                                          *
  * GNAT was originally developed  by the GNAT team at  New York University. *
  * Extensive contributions were provided by Ada Core Technologies Inc.      *
  *                                                                          *
  ****************************************************************************/

 /* This file contains low level support for stack unwinding using GCC intrinsic
    functions.
    It has been tested on the following configurations:
    PowerPC/AiX
    PowerPC/VxWorks
    SPARC/Solaris
    i386/GNU/Linux
    i386/Solaris
    i386/NT
    i386/OS2
    i386/LynxOS
    Alpha/VxWorks
    Alpha/VMS
 */

 #ifdef __alpha_vxworks
 #include "vxWorks.h"
 #endif

 #ifdef IN_RTS
 #define POSIX
 #include "tconfig.h"
 #include "tsystem.h"
 #else
 #include "config.h"
 #include "system.h"
 #endif

 extern int __gnat_backtrace (void **, int, void *, void *, int);

 /* The point is to provide an implementation of the __gnat_backtrace function
    above, called by the default implementation of the System.Traceback package.

    We first have a series of target specific implementations, each included
    from a separate C file for readability purposes.

    Then come two flavors of a generic implementation: one relying on static
    assumptions about the frame layout, and the other one using the GCC EH
    infrastructure.  The former uses a whole set of macros and structures which
    may be tailored on a per target basis, and is activated as soon as
    USE_GENERIC_UNWINDER is defined.  The latter uses a small subset of the
    macro definitions and is activated when USE_GCC_UNWINDER is defined. It is
    only available post GCC 3.3.

    Finally, there is a default dummy implementation, necessary to make the
    linker happy on platforms where the feature is not supported, but where the
    function is still referenced by the default System.Traceback.  */

 #define Lock_Task system__soft_links__lock_task
 extern void (*Lock_Task) (void);

 #define Unlock_Task system__soft_links__unlock_task
 extern void (*Unlock_Task) (void);

 /*-------------------------------------*
  *-- Target specific implementations --*
  *-------------------------------------*/

 #if defined (__alpha_vxworks)

 #include "tb-alvxw.c"

 #elif defined (__ALPHA) && defined (__VMS__)

 #include "tb-alvms.c"

 #else
 /* No target specific implementation.  */

 /*----------------------------------------------------------------*
  *-- Target specific definitions for the generic implementation --*
  *----------------------------------------------------------------*/

 /* The stack layout is specified by the target ABI. The "generic" scheme is
    based on the following assumption:

      The stack layout from some frame pointer is such that the information
      required to compute the backtrace is available at static offsets.

    For a given frame, the information we are interested in is the saved return
    address (somewhere after the call instruction in the caller) and a pointer
    to the caller's frame. The former is the base of the call chain information
    we store in the tracebacks array. The latter allows us to loop over the
    successive frames in the chain.

    To initiate the process, we retrieve an initial frame pointer using the
    appropriate GCC builtin (__builtin_frame_address).

    This scheme is unfortunately not applicable on every target because the
    stack layout is not necessarily regular (static) enough. On targets where
    this scheme applies, the implementation relies on the following items:

    o struct layout, describing the expected stack data layout relevant to the
      information we are interested in,

    o FRAME_OFFSET, the offset, from a given frame pointer, at which this
      layout will be found,

    o FRAME_LEVEL, controls how many frames up we get at to start with,
      from the initial frame pointer we compute by way of the GCC builtin,

      0 is most often the appropriate value. 1 may be necessary on targets
      where return addresses are saved by a function in it's caller's frame
      (e.g. PPC).

    o PC_ADJUST, to account for the difference between a call point (address
      of a call instruction), which is what we want in the output array, and
      the associated return address, which is what we retrieve from the stack.

    o STOP_FRAME, to decide wether we reached the top of the call chain, and
      thus if the process shall stop.

 	   :
 	   :                   stack
 	   |             +----------------+
 	   |   +-------->|       :        |
 	   |   |         | (FRAME_OFFSET) |
 	   |   |         |       :        |  (PC_ADJUST)
 	   |   |  layout:| return_address ----------------+
 	   |   |         |     ....       |               |
 	   +---------------  next_frame   |               |
 	       |         |     ....       |               |
 	       |         |                |               |
 	       |         +----------------+               |  +-----+
 	       |         |       :        |<- Base fp     |  |  :  |
 	       |         | (FRAME_OFFSET) | (FRAME_LEVEL) |  |  :  |
 	       |         |       :        |               +--->    | [1]
 	       |  layout:| return_address -------------------->    | [0]
 	       |         |       ...      |  (PC_ADJUST)     +-----+
 	       +----------   next_frame   |                 traceback[]
 		         |       ...      |
 		         |                |
 		         +----------------+

    o BASE_SKIP,

    Since we inherently deal with return addresses, there is an implicit shift
    by at least one for the initial point we are able to observe in the chain.

    On some targets (e.g. sparc-solaris), the first return address we can
    easily get without special code is even our caller's return address, so
    there is a initial shift of two.

    BASE_SKIP represents this initial shift, which is the minimal "skip_frames"
    value we support. We could add special code for the skip_frames < BASE_SKIP
    cases. This is not done currently because there is virtually no situation
    in which this would be useful.

    Finally, to account for some ABI specificities, a target may (but does
    not have to) define:

    o FORCE_CALL, to force a call to a dummy function at the very beginning
      of the computation. See the PPC AIX target for an example where this
      is useful.

    o FETCH_UP_FRAME, to force an invocation of __builtin_frame_address with a
      positive argument right after a possibly forced call even if FRAME_LEVEL
      is 0. See the SPARC Solaris case for an example where this is useful.

   */

 /*--------------------------- PPC AIX/Darwin ----------------------------*/

 #if ((defined (_POWER) && defined (_AIX)) || \
 (defined (__ppc__) && defined (__APPLE__)))

 #define USE_GENERIC_UNWINDER

 struct layout
 {
   struct layout *next;
   void *pad;
   void *return_address;
 };

 #define FRAME_OFFSET 0
 #define PC_ADJUST -4
 #define STOP_FRAME(CURRENT, TOP_STACK) ((void *) (CURRENT) < (TOP_STACK))

 /* The PPC ABI has an interesting specificity: the return address saved by a
    function is located in it's caller's frame, and the save operation only
    takes place if the function performs a call.

    To have __gnat_backtrace retrieve its own return address, we then
    define ... */

 #define FORCE_CALL 1
 #define FRAME_LEVEL 1

 #define BASE_SKIP 1

 /*---------------------------- PPC VxWorks------------------------------*/

 #elif defined (_ARCH_PPC) && defined (__vxworks)

 #define USE_GENERIC_UNWINDER

 struct layout
 {
   struct layout *next;
   void *return_address;
 };

 #define FORCE_CALL 1
 #define FRAME_LEVEL 1
 /* See the PPC AIX case for an explanation of these values.  */

 #define FRAME_OFFSET 0
 #define PC_ADJUST -4
 #define STOP_FRAME(CURRENT, TOP_STACK) ((CURRENT)->next == 0)

 #define BASE_SKIP 1

 /*-------------------------- SPARC Solaris -----------------------------*/

 #elif defined (sun) && defined (sparc)

 #define USE_GENERIC_UNWINDER

 /* These definitions are inspired from the Appendix D (Software
    Considerations) of the SPARC V8 architecture manual.  */

 struct layout
 {
   struct layout *next;
   void *return_address;
 };

 #ifdef __arch64__
 #define STACK_BIAS 2047 /* V9 ABI */
 #else
 #define STACK_BIAS 0    /* V8 ABI */
 #endif

 #define FRAME_LEVEL 0
 #define FRAME_OFFSET (14 * sizeof (void*) + STACK_BIAS)
 #define PC_ADJUST 0
 #define STOP_FRAME(CURRENT, TOP_STACK) \
   ((CURRENT)->return_address == 0|| (CURRENT)->next == 0 \
    || (void *) (CURRENT) < (TOP_STACK))

 /* The sparc register windows need to be flushed before we may access them
    from the stack. This is achieved by way of builtin_frame_address only
    when the "count" argument is positive, so force at least one such call.  */
 #define FETCH_UP_FRAME_ADDRESS

 #define BASE_SKIP 2
 /* From the frame pointer of frame N, we are accessing the flushed register
    window of frame N-1 (positive offset from fp), in which we retrieve the
    saved return address. We then end up with our caller's return address.  */

 /*------------------------------- x86 ----------------------------------*/

 #elif defined (i386)

 #ifdef __WIN32
 #include <windows.h>
 #define IS_BAD_PTR(ptr) (IsBadCodePtr((void *)ptr))
 #else
 #define IS_BAD_PTR(ptr) 0
 #endif

 #define USE_GENERIC_UNWINDER

 struct layout
 {
   struct layout *next;
   void *return_address;
 };

 #define LOWEST_ADDR 0
 #define FRAME_LEVEL 1
 /* builtin_frame_address (1) is expected to work on this target, and (0) might
    return the soft stack pointer, which does not designate a location where a
    backchain and a return address might be found.  */

 #define FRAME_OFFSET 0
 #define PC_ADJUST -2
 #define STOP_FRAME(CURRENT, TOP_STACK) \
   (IS_BAD_PTR((long)(CURRENT)->return_address) \
    || (unsigned int)(CURRENT)->return_address < LOWEST_ADDR \
    || (CURRENT)->return_address == 0|| (CURRENT)->next == 0  \
    || (void *) (CURRENT) < (TOP_STACK))

 #define BASE_SKIP (1+FRAME_LEVEL)

 /* On i386 architecture we check that at the call point we really have a call
    insn. Possible call instructions are:

    call  addr16        E8 xx xx xx xx
    call  reg           FF Dx
    call  off(reg)      FF xx xx
    lcall addr seg      9A xx xx xx xx xx xx

    This check will not catch all cases but it will increase the backtrace
    reliability on this architecture.
 */

 #define VALID_STACK_FRAME(ptr) \
    (!IS_BAD_PTR(ptr) \
     && (((*((ptr) - 3) & 0xff) == 0xe8) \
         || ((*((ptr) - 5) & 0xff) == 0x9a) \
         || ((*((ptr) - 1) & 0xff) == 0xff) \
         || (((*(ptr) & 0xd0ff) == 0xd0ff))))

 /*----------------------------- x86_64 ---------------------------------*/

 #elif defined (__x86_64__)

 #define USE_GCC_UNWINDER
 /* The generic unwinder is not used for this target because it is based
    on frame layout assumptions that are not reliable on this target (the
    rbp register is very likely used for something else than storing the
    frame pointer in optimized code). Hence, we use the GCC unwinder
    based on DWARF 2 call frame information, although it has the drawback
    of not being able to unwind through frames compiled without DWARF 2
    information.
 */

 #define PC_ADJUST -2
 /* The minimum size of call instructions on this architecture is 2 bytes */

 /*----------------------------- ia64 ---------------------------------*/

 #elif defined (__ia64__) && (defined (linux) || defined (__hpux__))

 #define USE_GCC_UNWINDER
 /* Use _Unwind_Backtrace driven exceptions on ia64 HP-UX and ia64
    GNU/Linux, where _Unwind_Backtrace is provided by the system unwind
    library. On HP-UX 11.23 this requires patch PHSS_33352, which adds
    _Unwind_Backtrace to the system unwind library. */

 #define PC_ADJUST -16
 /* Every call on ia64 is part of a 128 bit bundle, so an adjustment of
    minus 16 bytes from the point of return finds the address of the
    previous bundle. */

 #endif

 /*---------------------------------------------------------------------*
  *--      The post GCC 3.3 infrastructure based implementation       --*
  *---------------------------------------------------------------------*/

 #if defined (USE_GCC_UNWINDER) && (__GNUC__ * 10 + __GNUC_MINOR__ > 33)

 /* Conditioning the inclusion on the GCC version is useful to avoid bootstrap
    path problems, since the included file refers to post 3.3 functions in
    libgcc, and the stage1 compiler is unlikely to be linked against a post 3.3
    library.  It actually disables the support for backtraces in this compiler
    for targets defining USE_GCC_UNWINDER, which is OK since we don't use the
    traceback capability in the compiler anyway.

    The condition is expressed the way above because we cannot reliably rely on
    any other macro from the base compiler when compiling stage1.  */

 #include "tb-gcc.c"

 /*------------------------------------------------------------------*
  *-- The generic implementation based on frame layout assumptions --*
  *------------------------------------------------------------------*/

 #elif defined (USE_GENERIC_UNWINDER)

 #ifndef CURRENT_STACK_FRAME
 # define CURRENT_STACK_FRAME  ({ char __csf; &__csf; })
 #endif

 #ifndef VALID_STACK_FRAME
 #define VALID_STACK_FRAME(ptr) 1
 #endif

 #ifndef MAX
 #define MAX(x,y) ((x) > (y) ? (x) : (y))
 #endif

 #ifndef FORCE_CALL
 #define FORCE_CALL 0
 #endif

 /* Make sure the function is not inlined.  */
 static void forced_callee (void) __attribute__ ((noinline));

 static void forced_callee (void)
 {
   /* Make sure the function is not pure.  */
   volatile int i __attribute__ ((unused)) = 0;
 }

 int
 __gnat_backtrace (void **array,
                   int size,
                   void *exclude_min,
                   void *exclude_max,
                   int skip_frames)
 {
   struct layout *current;
   void *top_frame;
   void *top_stack;
   int cnt = 0;

   if (FORCE_CALL)
     forced_callee ();

   /* Force a call to builtin_frame_address with a positive argument
      if required. This is necessary e.g. on sparc to have the register
      windows flushed before we attempt to access them on the stack.  */
 #if defined (FETCH_UP_FRAME_ADDRESS) && (FRAME_LEVEL == 0)
   __builtin_frame_address (1);
 #endif

   top_frame = __builtin_frame_address (FRAME_LEVEL);
   top_stack = CURRENT_STACK_FRAME;
   current = (struct layout *) ((size_t) top_frame + FRAME_OFFSET);

   /* Skip the number of calls we have been requested to skip, accounting for
      the BASE_SKIP parameter.

      FRAME_LEVEL is meaningless for the count adjustment. It impacts where we
      start retrieving data from, but how many frames "up" we start at is in
      BASE_SKIP by definition.  */

   skip_frames = MAX (0, skip_frames - BASE_SKIP);

   while (cnt < skip_frames)
     {
       current = (struct layout *) ((size_t) current->next + FRAME_OFFSET);
       cnt++;
     }

   cnt = 0;
   while (cnt < size)
     {
       if (STOP_FRAME (current, top_stack) ||
 	  !VALID_STACK_FRAME((char *)(current->return_address + PC_ADJUST)))
         break;

       if (current->return_address < exclude_min
 	  || current->return_address > exclude_max)
         array[cnt++] = current->return_address + PC_ADJUST;

       current = (struct layout *) ((size_t) current->next + FRAME_OFFSET);
     }

   return cnt;
 }

 #else

 /* No target specific implementation and neither USE_GCC_UNWINDER not
    USE_GCC_UNWINDER defined.  */

 /*------------------------------*
  *-- The dummy implementation --*
  *------------------------------*/

 int
 __gnat_backtrace (array, size, exclude_min, exclude_max, skip_frames)
      void **array ATTRIBUTE_UNUSED;
      int size ATTRIBUTE_UNUSED;
      void *exclude_min ATTRIBUTE_UNUSED;
      void *exclude_max ATTRIBUTE_UNUSED;
      int skip_frames ATTRIBUTE_UNUSED;
 {
   return 0;
 }

 #endif

 #endif
	/****************************************************************************
	* *
	* GNAT COMPILER COMPONENTS *
	* *
	* T R A C E B A C K *
	* *
	* C Implementation File *
	* *
	* Copyright (C) 2000-2006, AdaCore *
	* *
	* GNAT is free software; you can redistribute it and/or modify it under *
	* terms of the GNU General Public License as published by the Free Soft- *
	* ware Foundation; either version 2, or (at your option) any later ver- *
	* sion. GNAT is distributed in the hope that it will be useful, but WITH- *
	* OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY *
	* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License *
	* for more details. You should have received a copy of the GNU General *
	* Public License distributed with GNAT; see file COPYING. If not, write *
	* to the Free Software Foundation, 51 Franklin Street, Fifth Floor, *
	* Boston, MA 02110-1301, USA. *
	* *
	* As a special exception, if you link this file with other files to *
	* produce an executable, this file does not by itself cause the resulting *
	* executable to be covered by the GNU General Public License. This except- *
	* ion does not however invalidate any other reasons why the executable *
	* file might be covered by the GNU Public License. *
	* *
	* GNAT was originally developed by the GNAT team at New York University. *
	* Extensive contributions were provided by Ada Core Technologies Inc. *
	* *
	****************************************************************************/

	/* This file contains low level support for stack unwinding using GCC intrinsic
	functions.
	It has been tested on the following configurations:
	PowerPC/AiX
	PowerPC/VxWorks
	SPARC/Solaris
	i386/GNU/Linux
	i386/Solaris
	i386/NT
	i386/OS2
	i386/LynxOS
	Alpha/VxWorks
	Alpha/VMS
	*/

	#ifdef __alpha_vxworks
	#include "vxWorks.h"
	#endif

	#ifdef IN_RTS
	#define POSIX
	#include "tconfig.h"
	#include "tsystem.h"
	#else
	#include "config.h"
	#include "system.h"
	#endif

	extern int __gnat_backtrace (void *, int, void , void *, int);

	/* The point is to provide an implementation of the __gnat_backtrace function
	above, called by the default implementation of the System.Traceback package.

	We first have a series of target specific implementations, each included
	from a separate C file for readability purposes.

	Then come two flavors of a generic implementation: one relying on static
	assumptions about the frame layout, and the other one using the GCC EH
	infrastructure. The former uses a whole set of macros and structures which
	may be tailored on a per target basis, and is activated as soon as
	USE_GENERIC_UNWINDER is defined. The latter uses a small subset of the
	macro definitions and is activated when USE_GCC_UNWINDER is defined. It is
	only available post GCC 3.3.

	Finally, there is a default dummy implementation, necessary to make the
	linker happy on platforms where the feature is not supported, but where the
	function is still referenced by the default System.Traceback. */

	#define Lock_Task system__soft_links__lock_task
	extern void (*Lock_Task) (void);

	#define Unlock_Task system__soft_links__unlock_task
	extern void (*Unlock_Task) (void);

	/-------------------------------------
	-- Target specific implementations --
	-------------------------------------/

	#if defined (__alpha_vxworks)

	#include "tb-alvxw.c"

	#elif defined (__ALPHA) && defined (__VMS__)

	#include "tb-alvms.c"

	#else
	/* No target specific implementation. */

	/----------------------------------------------------------------
	-- Target specific definitions for the generic implementation --
	----------------------------------------------------------------/

	/* The stack layout is specified by the target ABI. The "generic" scheme is
	based on the following assumption:

	The stack layout from some frame pointer is such that the information
	required to compute the backtrace is available at static offsets.

	For a given frame, the information we are interested in is the saved return
	address (somewhere after the call instruction in the caller) and a pointer
	to the caller's frame. The former is the base of the call chain information
	we store in the tracebacks array. The latter allows us to loop over the
	successive frames in the chain.

	To initiate the process, we retrieve an initial frame pointer using the
	appropriate GCC builtin (__builtin_frame_address).

	This scheme is unfortunately not applicable on every target because the
	stack layout is not necessarily regular (static) enough. On targets where
	this scheme applies, the implementation relies on the following items:

	o struct layout, describing the expected stack data layout relevant to the
	information we are interested in,

	o FRAME_OFFSET, the offset, from a given frame pointer, at which this
	layout will be found,

	o FRAME_LEVEL, controls how many frames up we get at to start with,
	from the initial frame pointer we compute by way of the GCC builtin,

	0 is most often the appropriate value. 1 may be necessary on targets
	where return addresses are saved by a function in it's caller's frame
	(e.g. PPC).

	o PC_ADJUST, to account for the difference between a call point (address
	of a call instruction), which is what we want in the output array, and
	the associated return address, which is what we retrieve from the stack.

	o STOP_FRAME, to decide wether we reached the top of the call chain, and
	thus if the process shall stop.

	:
	: stack
	\| +----------------+
	\| +-------->\| : \|
	\| \| \| (FRAME_OFFSET) \|
	\| \| \| : \| (PC_ADJUST)
	\| \| layout:\| return_address ----------------+
	\| \| \| .... \| \|
	+--------------- next_frame \| \|
	\| \| .... \| \|
	\| \| \| \|
	\| +----------------+ \| +-----+
	\| \| : \|<- Base fp \| \| : \|
	\| \| (FRAME_OFFSET) \| (FRAME_LEVEL) \| \| : \|
	\| \| : \| +---> \| [1]
	\| layout:\| return_address --------------------> \| [0]
	\| \| ... \| (PC_ADJUST) +-----+
	+---------- next_frame \| traceback[]
	\| ... \|
	\| \|
	+----------------+

	o BASE_SKIP,

	Since we inherently deal with return addresses, there is an implicit shift
	by at least one for the initial point we are able to observe in the chain.

	On some targets (e.g. sparc-solaris), the first return address we can
	easily get without special code is even our caller's return address, so
	there is a initial shift of two.

	BASE_SKIP represents this initial shift, which is the minimal "skip_frames"
	value we support. We could add special code for the skip_frames < BASE_SKIP
	cases. This is not done currently because there is virtually no situation
	in which this would be useful.

	Finally, to account for some ABI specificities, a target may (but does
	not have to) define:

	o FORCE_CALL, to force a call to a dummy function at the very beginning
	of the computation. See the PPC AIX target for an example where this
	is useful.

	o FETCH_UP_FRAME, to force an invocation of __builtin_frame_address with a
	positive argument right after a possibly forced call even if FRAME_LEVEL
	is 0. See the SPARC Solaris case for an example where this is useful.

	*/

	/--------------------------- PPC AIX/Darwin ----------------------------/

	#if ((defined (_POWER) && defined (_AIX)) \|\| \
	(defined (__ppc__) && defined (__APPLE__)))

	#define USE_GENERIC_UNWINDER

	struct layout
	{
	struct layout *next;
	void *pad;
	void *return_address;
	};

	#define FRAME_OFFSET 0
	#define PC_ADJUST -4
	#define STOP_FRAME(CURRENT, TOP_STACK) ((void *) (CURRENT) < (TOP_STACK))

	/* The PPC ABI has an interesting specificity: the return address saved by a
	function is located in it's caller's frame, and the save operation only
	takes place if the function performs a call.

	To have __gnat_backtrace retrieve its own return address, we then
	define ... */

	#define FORCE_CALL 1
	#define FRAME_LEVEL 1

	#define BASE_SKIP 1

	/---------------------------- PPC VxWorks------------------------------/

	#elif defined (_ARCH_PPC) && defined (__vxworks)

	#define USE_GENERIC_UNWINDER

	struct layout
	{
	struct layout *next;
	void *return_address;
	};

	#define FORCE_CALL 1
	#define FRAME_LEVEL 1
	/* See the PPC AIX case for an explanation of these values. */

	#define FRAME_OFFSET 0
	#define PC_ADJUST -4
	#define STOP_FRAME(CURRENT, TOP_STACK) ((CURRENT)->next == 0)

	#define BASE_SKIP 1

	/-------------------------- SPARC Solaris -----------------------------/

	#elif defined (sun) && defined (sparc)

	#define USE_GENERIC_UNWINDER

	/* These definitions are inspired from the Appendix D (Software
	Considerations) of the SPARC V8 architecture manual. */

	struct layout
	{
	struct layout *next;
	void *return_address;
	};

	#ifdef __arch64__
	#define STACK_BIAS 2047 /* V9 ABI */
	#else
	#define STACK_BIAS 0 /* V8 ABI */
	#endif

	#define FRAME_LEVEL 0
	#define FRAME_OFFSET (14 * sizeof (void*) + STACK_BIAS)
	#define PC_ADJUST 0
	#define STOP_FRAME(CURRENT, TOP_STACK) \
	((CURRENT)->return_address == 0\|\| (CURRENT)->next == 0 \
	\|\| (void *) (CURRENT) < (TOP_STACK))

	/* The sparc register windows need to be flushed before we may access them
	from the stack. This is achieved by way of builtin_frame_address only
	when the "count" argument is positive, so force at least one such call. */
	#define FETCH_UP_FRAME_ADDRESS

	#define BASE_SKIP 2
	/* From the frame pointer of frame N, we are accessing the flushed register
	window of frame N-1 (positive offset from fp), in which we retrieve the
	saved return address. We then end up with our caller's return address. */

	/------------------------------- x86 ----------------------------------/

	#elif defined (i386)

	#ifdef __WIN32
	#include <windows.h>
	#define IS_BAD_PTR(ptr) (IsBadCodePtr((void *)ptr))
	#else
	#define IS_BAD_PTR(ptr) 0
	#endif

	#define USE_GENERIC_UNWINDER

	struct layout
	{
	struct layout *next;
	void *return_address;
	};

	#define LOWEST_ADDR 0
	#define FRAME_LEVEL 1
	/* builtin_frame_address (1) is expected to work on this target, and (0) might
	return the soft stack pointer, which does not designate a location where a
	backchain and a return address might be found. */

	#define FRAME_OFFSET 0
	#define PC_ADJUST -2
	#define STOP_FRAME(CURRENT, TOP_STACK) \
	(IS_BAD_PTR((long)(CURRENT)->return_address) \
	\|\| (unsigned int)(CURRENT)->return_address < LOWEST_ADDR \
	\|\| (CURRENT)->return_address == 0\|\| (CURRENT)->next == 0 \
	\|\| (void *) (CURRENT) < (TOP_STACK))

	#define BASE_SKIP (1+FRAME_LEVEL)

	/* On i386 architecture we check that at the call point we really have a call
	insn. Possible call instructions are:

	call addr16 E8 xx xx xx xx
	call reg FF Dx
	call off(reg) FF xx xx
	lcall addr seg 9A xx xx xx xx xx xx

	This check will not catch all cases but it will increase the backtrace
	reliability on this architecture.
	*/

	#define VALID_STACK_FRAME(ptr) \
	(!IS_BAD_PTR(ptr) \
	&& (((*((ptr) - 3) & 0xff) == 0xe8) \
	\|\| ((*((ptr) - 5) & 0xff) == 0x9a) \
	\|\| ((*((ptr) - 1) & 0xff) == 0xff) \
	\|\| (((*(ptr) & 0xd0ff) == 0xd0ff))))

	/----------------------------- x86_64 ---------------------------------/

	#elif defined (__x86_64__)

	#define USE_GCC_UNWINDER
	/* The generic unwinder is not used for this target because it is based
	on frame layout assumptions that are not reliable on this target (the
	rbp register is very likely used for something else than storing the
	frame pointer in optimized code). Hence, we use the GCC unwinder
	based on DWARF 2 call frame information, although it has the drawback
	of not being able to unwind through frames compiled without DWARF 2
	information.
	*/

	#define PC_ADJUST -2
	/* The minimum size of call instructions on this architecture is 2 bytes */

	/----------------------------- ia64 ---------------------------------/

	#elif defined (__ia64__) && (defined (linux) \|\| defined (__hpux__))

	#define USE_GCC_UNWINDER
	/* Use _Unwind_Backtrace driven exceptions on ia64 HP-UX and ia64
	GNU/Linux, where _Unwind_Backtrace is provided by the system unwind
	library. On HP-UX 11.23 this requires patch PHSS_33352, which adds
	_Unwind_Backtrace to the system unwind library. */

	#define PC_ADJUST -16
	/* Every call on ia64 is part of a 128 bit bundle, so an adjustment of
	minus 16 bytes from the point of return finds the address of the
	previous bundle. */

	#endif

	/---------------------------------------------------------------------
	-- The post GCC 3.3 infrastructure based implementation --
	---------------------------------------------------------------------/

	#if defined (USE_GCC_UNWINDER) && (__GNUC__ * 10 + __GNUC_MINOR__ > 33)

	/* Conditioning the inclusion on the GCC version is useful to avoid bootstrap
	path problems, since the included file refers to post 3.3 functions in
	libgcc, and the stage1 compiler is unlikely to be linked against a post 3.3
	library. It actually disables the support for backtraces in this compiler
	for targets defining USE_GCC_UNWINDER, which is OK since we don't use the
	traceback capability in the compiler anyway.

	The condition is expressed the way above because we cannot reliably rely on
	any other macro from the base compiler when compiling stage1. */

	#include "tb-gcc.c"

	/------------------------------------------------------------------
	-- The generic implementation based on frame layout assumptions --
	------------------------------------------------------------------/

	#elif defined (USE_GENERIC_UNWINDER)

	#ifndef CURRENT_STACK_FRAME
	# define CURRENT_STACK_FRAME ({ char __csf; &__csf; })
	#endif

	#ifndef VALID_STACK_FRAME
	#define VALID_STACK_FRAME(ptr) 1
	#endif

	#ifndef MAX
	#define MAX(x,y) ((x) > (y) ? (x) : (y))
	#endif

	#ifndef FORCE_CALL
	#define FORCE_CALL 0
	#endif

	/* Make sure the function is not inlined. */
	static void forced_callee (void) __attribute__ ((noinline));

	static void forced_callee (void)
	{
	/* Make sure the function is not pure. */
	volatile int i __attribute__ ((unused)) = 0;
	}

	int
	__gnat_backtrace (void **array,
	int size,
	void *exclude_min,
	void *exclude_max,
	int skip_frames)
	{
	struct layout *current;
	void *top_frame;
	void *top_stack;
	int cnt = 0;

	if (FORCE_CALL)
	forced_callee ();

	/* Force a call to builtin_frame_address with a positive argument
	if required. This is necessary e.g. on sparc to have the register
	windows flushed before we attempt to access them on the stack. */
	#if defined (FETCH_UP_FRAME_ADDRESS) && (FRAME_LEVEL == 0)
	__builtin_frame_address (1);
	#endif

	top_frame = __builtin_frame_address (FRAME_LEVEL);
	top_stack = CURRENT_STACK_FRAME;
	current = (struct layout *) ((size_t) top_frame + FRAME_OFFSET);

	/* Skip the number of calls we have been requested to skip, accounting for
	the BASE_SKIP parameter.

	FRAME_LEVEL is meaningless for the count adjustment. It impacts where we
	start retrieving data from, but how many frames "up" we start at is in
	BASE_SKIP by definition. */

	skip_frames = MAX (0, skip_frames - BASE_SKIP);

	while (cnt < skip_frames)
	{
	current = (struct layout *) ((size_t) current->next + FRAME_OFFSET);
	cnt++;
	}

	cnt = 0;
	while (cnt < size)
	{
	if (STOP_FRAME (current, top_stack) \|\|
	!VALID_STACK_FRAME((char *)(current->return_address + PC_ADJUST)))
	break;

	if (current->return_address < exclude_min
	\|\| current->return_address > exclude_max)
	array[cnt++] = current->return_address + PC_ADJUST;

	current = (struct layout *) ((size_t) current->next + FRAME_OFFSET);
	}

	return cnt;
	}

	#else

	/* No target specific implementation and neither USE_GCC_UNWINDER not
	USE_GCC_UNWINDER defined. */

	/------------------------------
	-- The dummy implementation --
	------------------------------/

	int
	__gnat_backtrace (array, size, exclude_min, exclude_max, skip_frames)
	void **array ATTRIBUTE_UNUSED;
	int size ATTRIBUTE_UNUSED;
	void *exclude_min ATTRIBUTE_UNUSED;
	void *exclude_max ATTRIBUTE_UNUSED;
	int skip_frames ATTRIBUTE_UNUSED;
	{
	return 0;
	}

	#endif

	#endif