include/pub_tool_machine.h - fp2-dev/platform/external/valgrind - Gitiles


 /*--------------------------------------------------------------------*/
 /*--- Machine-related stuff.                    pub_tool_machine.h ---*/
 /*--------------------------------------------------------------------*/

 /*
    This file is part of Valgrind, a dynamic binary instrumentation
    framework.

    Copyright (C) 2000-2011 Julian Seward
       jseward@acm.org

    This program is free software; you can redistribute it and/or
    modify it under the terms of the GNU General Public License as
    published by the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful, but
    WITHOUT 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
    along with this program; if not, write to the Free Software
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
    02111-1307, USA.

    The GNU General Public License is contained in the file COPYING.
 */

 #ifndef __PUB_TOOL_MACHINE_H
 #define __PUB_TOOL_MACHINE_H

 #if defined(VGP_x86_linux)
 #  define VG_MIN_INSTR_SZB          1  // min length of native instruction
 #  define VG_MAX_INSTR_SZB         16  // max length of native instruction
 #  define VG_CLREQ_SZB             14  // length of a client request, may
                                        //   be larger than VG_MAX_INSTR_SZB
 #  define VG_STACK_REDZONE_SZB      0  // number of addressable bytes below %RSP

 #elif defined(VGP_amd64_linux)
 #  define VG_MIN_INSTR_SZB          1
 #  define VG_MAX_INSTR_SZB         16
 #  define VG_CLREQ_SZB             19
 #  define VG_STACK_REDZONE_SZB    128

 #elif defined(VGP_ppc32_linux)
 #  define VG_MIN_INSTR_SZB          4
 #  define VG_MAX_INSTR_SZB          4
 #  define VG_CLREQ_SZB             20
 #  define VG_STACK_REDZONE_SZB      0

 #elif defined(VGP_ppc64_linux)
 #  define VG_MIN_INSTR_SZB          4
 #  define VG_MAX_INSTR_SZB          4
 #  define VG_CLREQ_SZB             20
 #  define VG_STACK_REDZONE_SZB    288  // number of addressable bytes below R1
                                        // from 64-bit PowerPC ELF ABI
                                        // Supplement 1.7

 #elif defined(VGP_arm_linux)
 #  define VG_MIN_INSTR_SZB          2
 #  define VG_MAX_INSTR_SZB          4
 #  define VG_CLREQ_SZB             20
 #  define VG_STACK_REDZONE_SZB      0

 #elif defined(VGP_s390x_linux)
 #  define VG_MIN_INSTR_SZB          2
 #  define VG_MAX_INSTR_SZB          6
 #  define VG_CLREQ_SZB             10
 #  define VG_STACK_REDZONE_SZB      0  // s390 has no redzone

 #elif defined(VGP_x86_darwin)
 #  define VG_MIN_INSTR_SZB          1  // min length of native instruction
 #  define VG_MAX_INSTR_SZB         16  // max length of native instruction
 #  define VG_CLREQ_SZB             14  // length of a client request, may
                                        //   be larger than VG_MAX_INSTR_SZB
 #  define VG_STACK_REDZONE_SZB      0  // number of addressable bytes below %RSP

 #elif defined(VGP_amd64_darwin)
 #  define VG_MIN_INSTR_SZB          1
 #  define VG_MAX_INSTR_SZB         16
 #  define VG_CLREQ_SZB             19
 #  define VG_STACK_REDZONE_SZB    128

 #elif defined(VGP_mips32_linux)
 #  define VG_MIN_INSTR_SZB          4
 #  define VG_MAX_INSTR_SZB          4
 #  define VG_CLREQ_SZB             20
 #  define VG_STACK_REDZONE_SZB      0

 #else
 #  error Unknown platform
 #endif

 // Guest state accessors
 // Are mostly in the core_ header.
 //  Only these two are available to tools.
 Addr VG_(get_IP) ( ThreadId tid );
 Addr VG_(get_SP) ( ThreadId tid );


 // For get/set, 'area' is where the asked-for guest state will be copied
 // into/from.  If shadowNo == 0, the real (non-shadow) guest state is
 // accessed.  If shadowNo == 1, the first shadow area is accessed, and
 // if shadowNo == 2, the second shadow area is accessed.  This gives a
 // completely general way to read/modify a thread's guest register state
 // providing you know the offsets you need.
 void
 VG_(get_shadow_regs_area) ( ThreadId tid,
                             /*DST*/UChar* dst,
                             /*SRC*/Int shadowNo, PtrdiffT offset, SizeT size );
 void
 VG_(set_shadow_regs_area) ( ThreadId tid,
                             /*DST*/Int shadowNo, PtrdiffT offset, SizeT size,
                             /*SRC*/const UChar* src );

 // Sets the shadow values for the syscall return value register(s).
 // This is platform specific.
 void VG_(set_syscall_return_shadows) ( ThreadId tid,
                                        /* shadow vals for the result */
                                        UWord s1res, UWord s2res,
                                        /* shadow vals for the error val */
                                        UWord s1err, UWord s2err );

 // Apply a function 'f' to all the general purpose registers in all the
 // current threads.
 // This is very Memcheck-specific -- it's used to find the roots when
 // doing leak checking.
 extern void VG_(apply_to_GP_regs)(void (*f)(ThreadId tid,
                                             HChar* regname, UWord val));

 // This iterator lets you inspect each live thread's stack bounds.
 // Returns False at the end.  'tid' is the iterator and you can only
 // safely change it by making calls to these functions.
 extern void VG_(thread_stack_reset_iter) ( /*OUT*/ThreadId* tid );
 extern Bool VG_(thread_stack_next)       ( /*MOD*/ThreadId* tid,
                                            /*OUT*/Addr* stack_min,
                                            /*OUT*/Addr* stack_max );

 // Returns .client_stack_highest_word for the given thread
 extern Addr VG_(thread_get_stack_max) ( ThreadId tid );

 // Returns how many bytes have been allocated for the stack of the given thread
 extern SizeT VG_(thread_get_stack_size) ( ThreadId tid );

 // Returns the bottommost address of the alternate signal stack.
 // See also the man page of sigaltstack().
 extern Addr VG_(thread_get_altstack_min) ( ThreadId tid );

 // Returns how many bytes have been allocated for the alternate signal stack.
 // See also the man page of sigaltstack().
 extern SizeT VG_(thread_get_altstack_size) ( ThreadId tid );

 // Given a pointer to a function as obtained by "& functionname" in C,
 // produce a pointer to the actual entry point for the function.  For
 // most platforms it's the identity function.  Unfortunately, on
 // ppc64-linux it isn't (sigh).
 extern void* VG_(fnptr_to_fnentry)( void* );

 /* Returns the size of the largest guest register that we will
    simulate in this run.  This depends on both the guest architecture
    and on the specific capabilities we are simulating for that guest
    (eg, AVX or non-AVX ?, for amd64). */
 extern Int VG_(machine_get_size_of_largest_guest_register) ( void );

 #endif   // __PUB_TOOL_MACHINE_H

 /*--------------------------------------------------------------------*/
 /*--- end                                                          ---*/
 /*--------------------------------------------------------------------*/

	/--------------------------------------------------------------------/
	/--- Machine-related stuff. pub_tool_machine.h ---/
	/--------------------------------------------------------------------/

	/*
	This file is part of Valgrind, a dynamic binary instrumentation
	framework.

	Copyright (C) 2000-2011 Julian Seward
	jseward@acm.org

	This program is free software; you can redistribute it and/or
	modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 2 of the
	License, or (at your option) any later version.

	This program is distributed in the hope that it will be useful, but
	WITHOUT 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
	along with this program; if not, write to the Free Software
	Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
	02111-1307, USA.

	The GNU General Public License is contained in the file COPYING.
	*/

	#ifndef __PUB_TOOL_MACHINE_H
	#define __PUB_TOOL_MACHINE_H

	#if defined(VGP_x86_linux)
	# define VG_MIN_INSTR_SZB 1 // min length of native instruction
	# define VG_MAX_INSTR_SZB 16 // max length of native instruction
	# define VG_CLREQ_SZB 14 // length of a client request, may
	// be larger than VG_MAX_INSTR_SZB
	# define VG_STACK_REDZONE_SZB 0 // number of addressable bytes below %RSP

	#elif defined(VGP_amd64_linux)
	# define VG_MIN_INSTR_SZB 1
	# define VG_MAX_INSTR_SZB 16
	# define VG_CLREQ_SZB 19
	# define VG_STACK_REDZONE_SZB 128

	#elif defined(VGP_ppc32_linux)
	# define VG_MIN_INSTR_SZB 4
	# define VG_MAX_INSTR_SZB 4
	# define VG_CLREQ_SZB 20
	# define VG_STACK_REDZONE_SZB 0

	#elif defined(VGP_ppc64_linux)
	# define VG_MIN_INSTR_SZB 4
	# define VG_MAX_INSTR_SZB 4
	# define VG_CLREQ_SZB 20
	# define VG_STACK_REDZONE_SZB 288 // number of addressable bytes below R1
	// from 64-bit PowerPC ELF ABI
	// Supplement 1.7

	#elif defined(VGP_arm_linux)
	# define VG_MIN_INSTR_SZB 2
	# define VG_MAX_INSTR_SZB 4
	# define VG_CLREQ_SZB 20
	# define VG_STACK_REDZONE_SZB 0

	#elif defined(VGP_s390x_linux)
	# define VG_MIN_INSTR_SZB 2
	# define VG_MAX_INSTR_SZB 6
	# define VG_CLREQ_SZB 10
	# define VG_STACK_REDZONE_SZB 0 // s390 has no redzone

	#elif defined(VGP_x86_darwin)
	# define VG_MIN_INSTR_SZB 1 // min length of native instruction
	# define VG_MAX_INSTR_SZB 16 // max length of native instruction
	# define VG_CLREQ_SZB 14 // length of a client request, may
	// be larger than VG_MAX_INSTR_SZB
	# define VG_STACK_REDZONE_SZB 0 // number of addressable bytes below %RSP

	#elif defined(VGP_amd64_darwin)
	# define VG_MIN_INSTR_SZB 1
	# define VG_MAX_INSTR_SZB 16
	# define VG_CLREQ_SZB 19
	# define VG_STACK_REDZONE_SZB 128

	#elif defined(VGP_mips32_linux)
	# define VG_MIN_INSTR_SZB 4
	# define VG_MAX_INSTR_SZB 4
	# define VG_CLREQ_SZB 20
	# define VG_STACK_REDZONE_SZB 0

	#else
	# error Unknown platform
	#endif

	// Guest state accessors
	// Are mostly in the core_ header.
	// Only these two are available to tools.
	Addr VG_(get_IP) ( ThreadId tid );
	Addr VG_(get_SP) ( ThreadId tid );


	// For get/set, 'area' is where the asked-for guest state will be copied
	// into/from. If shadowNo == 0, the real (non-shadow) guest state is
	// accessed. If shadowNo == 1, the first shadow area is accessed, and
	// if shadowNo == 2, the second shadow area is accessed. This gives a
	// completely general way to read/modify a thread's guest register state
	// providing you know the offsets you need.
	void
	VG_(get_shadow_regs_area) ( ThreadId tid,
	/DST/UChar* dst,
	/SRC/Int shadowNo, PtrdiffT offset, SizeT size );
	void
	VG_(set_shadow_regs_area) ( ThreadId tid,
	/DST/Int shadowNo, PtrdiffT offset, SizeT size,
	/SRC/const UChar* src );

	// Sets the shadow values for the syscall return value register(s).
	// This is platform specific.
	void VG_(set_syscall_return_shadows) ( ThreadId tid,
	/* shadow vals for the result */
	UWord s1res, UWord s2res,
	/* shadow vals for the error val */
	UWord s1err, UWord s2err );

	// Apply a function 'f' to all the general purpose registers in all the
	// current threads.
	// This is very Memcheck-specific -- it's used to find the roots when
	// doing leak checking.
	extern void VG_(apply_to_GP_regs)(void (*f)(ThreadId tid,
	HChar* regname, UWord val));

	// This iterator lets you inspect each live thread's stack bounds.
	// Returns False at the end. 'tid' is the iterator and you can only
	// safely change it by making calls to these functions.
	extern void VG_(thread_stack_reset_iter) ( /OUT/ThreadId* tid );
	extern Bool VG_(thread_stack_next) ( /MOD/ThreadId* tid,
	/OUT/Addr* stack_min,
	/OUT/Addr* stack_max );

	// Returns .client_stack_highest_word for the given thread
	extern Addr VG_(thread_get_stack_max) ( ThreadId tid );

	// Returns how many bytes have been allocated for the stack of the given thread
	extern SizeT VG_(thread_get_stack_size) ( ThreadId tid );

	// Returns the bottommost address of the alternate signal stack.
	// See also the man page of sigaltstack().
	extern Addr VG_(thread_get_altstack_min) ( ThreadId tid );

	// Returns how many bytes have been allocated for the alternate signal stack.
	// See also the man page of sigaltstack().
	extern SizeT VG_(thread_get_altstack_size) ( ThreadId tid );

	// Given a pointer to a function as obtained by "& functionname" in C,
	// produce a pointer to the actual entry point for the function. For
	// most platforms it's the identity function. Unfortunately, on
	// ppc64-linux it isn't (sigh).
	extern void* VG_(fnptr_to_fnentry)( void* );

	/* Returns the size of the largest guest register that we will
	simulate in this run. This depends on both the guest architecture
	and on the specific capabilities we are simulating for that guest
	(eg, AVX or non-AVX ?, for amd64). */
	extern Int VG_(machine_get_size_of_largest_guest_register) ( void );

	#endif // __PUB_TOOL_MACHINE_H

	/--------------------------------------------------------------------/
	/--- end ---/
	/--------------------------------------------------------------------/