pub/libvex_guest_amd64.h - platform/external/valgrind - Gitiles


 /*---------------------------------------------------------------*/
 /*--- begin                              libvex_guest_amd64.h ---*/
 /*---------------------------------------------------------------*/

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

    Copyright (C) 2004-2011 OpenWorks LLP
       info@open-works.net

    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., 51 Franklin Street, Fifth Floor, Boston, MA
    02110-1301, USA.

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

    Neither the names of the U.S. Department of Energy nor the
    University of California nor the names of its contributors may be
    used to endorse or promote products derived from this software
    without prior written permission.
 */

 #ifndef __LIBVEX_PUB_GUEST_AMD64_H
 #define __LIBVEX_PUB_GUEST_AMD64_H

 #include "libvex_basictypes.h"
 #include "libvex_emwarn.h"


 /*---------------------------------------------------------------*/
 /*--- Vex's representation of the AMD64 CPU state.            ---*/
 /*---------------------------------------------------------------*/

 /* See detailed comments at the top of libvex_guest_x86.h for
    further info.  This representation closely follows the
    x86 representation.
 */


 typedef
    struct {
       /* Event check fail addr, counter, and padding to make RAX 16
          aligned. */
       /*   0 */ ULong  host_EvC_FAILADDR;
       /*   8 */ UInt   host_EvC_COUNTER;
       /*  12 */ UInt   pad0;
       /*  16 */ ULong  guest_RAX;
       /*  24 */ ULong  guest_RCX;
       /*  32 */ ULong  guest_RDX;
       /*  40 */ ULong  guest_RBX;
       /*  48 */ ULong  guest_RSP;
       /*  56 */ ULong  guest_RBP;
       /*  64 */ ULong  guest_RSI;
       /*  72 */ ULong  guest_RDI;
       /*  80 */ ULong  guest_R8;
       /*  88 */ ULong  guest_R9;
       /*  96 */ ULong  guest_R10;
       /* 104 */ ULong  guest_R11;
       /* 112 */ ULong  guest_R12;
       /* 120 */ ULong  guest_R13;
       /* 128 */ ULong  guest_R14;
       /* 136 */ ULong  guest_R15;
       /* 4-word thunk used to calculate O S Z A C P flags. */
       /* 144 */ ULong  guest_CC_OP;
       /* 152 */ ULong  guest_CC_DEP1;
       /* 160 */ ULong  guest_CC_DEP2;
       /* 168 */ ULong  guest_CC_NDEP;
       /* The D flag is stored here, encoded as either -1 or +1 */
       /* 176 */ ULong  guest_DFLAG;
       /* 184 */ ULong  guest_RIP;
       /* Bit 18 (AC) of eflags stored here, as either 0 or 1. */
       /* ... */ ULong  guest_ACFLAG;
       /* Bit 21 (ID) of eflags stored here, as either 0 or 1. */
       /* 192 */ ULong guest_IDFLAG;
       /* Probably a lot more stuff too.
          D,ID flags
          16  128-bit SSE registers
          all the old x87 FPU gunk
          segment registers */

       /* HACK to make tls on amd64-linux work.  %fs only ever seems to
          hold zero, and so guest_FS_ZERO holds the 64-bit offset
          associated with a %fs value of zero. */
       /* 200 */ ULong guest_FS_ZERO;

       /* YMM registers.  Note that these must be allocated
          consecutively in order that the SSE4.2 PCMP{E,I}STR{I,M}
          helpers can treat them as an array.  YMM16 is a fake reg used
          as an intermediary in handling aforementioned insns. */
       /* 208 */ULong guest_SSEROUND;
       /* 216 */U256  guest_YMM0;
       U256  guest_YMM1;
       U256  guest_YMM2;
       U256  guest_YMM3;
       U256  guest_YMM4;
       U256  guest_YMM5;
       U256  guest_YMM6;
       U256  guest_YMM7;
       U256  guest_YMM8;
       U256  guest_YMM9;
       U256  guest_YMM10;
       U256  guest_YMM11;
       U256  guest_YMM12;
       U256  guest_YMM13;
       U256  guest_YMM14;
       U256  guest_YMM15;
       U256  guest_YMM16;

       /* FPU */
       /* Note.  Setting guest_FTOP to be ULong messes up the
          delicately-balanced PutI/GetI optimisation machinery.
          Therefore best to leave it as a UInt. */
       UInt  guest_FTOP;
       ULong guest_FPREG[8];
       UChar guest_FPTAG[8];
       ULong guest_FPROUND;
       ULong guest_FC3210;

       /* Emulation warnings */
       UInt  guest_EMWARN;

       /* Translation-invalidation area description.  Not used on amd64
          (there is no invalidate-icache insn), but needed so as to
          allow users of the library to uniformly assume that the guest
          state contains these two fields -- otherwise there is
          compilation breakage.  On amd64, these two fields are set to
          zero by LibVEX_GuestAMD64_initialise and then should be
          ignored forever thereafter. */
       ULong guest_TISTART;
       ULong guest_TILEN;

       /* Used to record the unredirected guest address at the start of
          a translation whose start has been redirected.  By reading
          this pseudo-register shortly afterwards, the translation can
          find out what the corresponding no-redirection address was.
          Note, this is only set for wrap-style redirects, not for
          replace-style ones. */
       ULong guest_NRADDR;

       /* Used for Darwin syscall dispatching. */
       ULong guest_SC_CLASS;

       /* HACK to make tls on darwin work.  %gs only ever seems to
          hold 0x60, and so guest_GS_0x60 holds the 64-bit offset
          associated with a %gs value of 0x60.  (A direct analogue
          of the %fs-zero hack for amd64-linux). */
       ULong guest_GS_0x60;

       /* Needed for Darwin (but mandated for all guest architectures):
          RIP at the last syscall insn (int 0x80/81/82, sysenter,
          syscall).  Used when backing up to restart a syscall that has
          been interrupted by a signal. */
       ULong guest_IP_AT_SYSCALL;

       /* Padding to make it have an 16-aligned size */
       ULong pad1;
    }
    VexGuestAMD64State;


 /*---------------------------------------------------------------*/
 /*--- Utility functions for amd64 guest stuff.                ---*/
 /*---------------------------------------------------------------*/

 /* ALL THE FOLLOWING ARE VISIBLE TO LIBRARY CLIENT */

 /* Initialise all guest amd64 state.  The FPU is put in default
    mode. */
 extern
 void LibVEX_GuestAMD64_initialise ( /*OUT*/VexGuestAMD64State* vex_state );


 /* Extract from the supplied VexGuestAMD64State structure the
    corresponding native %rflags value. */
 extern
 ULong LibVEX_GuestAMD64_get_rflags ( /*IN*/VexGuestAMD64State* vex_state );

 /* Set the carry flag in the given state to 'new_carry_flag', which
    should be zero or one. */
 extern
 void
 LibVEX_GuestAMD64_put_rflag_c ( ULong new_carry_flag,
                                 /*MOD*/VexGuestAMD64State* vex_state );


 #if 0
 /* Convert a saved x87 FPU image (as created by fsave) and write it
    into the supplied VexGuestX86State structure.  The non-FP parts of
    said structure are left unchanged.
 */
 extern
 void LibVEX_GuestX86_put_x87 ( /*IN*/UChar* x87_state,
                                /*OUT*/VexGuestX86State* vex_state );

 /* Extract from the supplied VexGuestX86State structure, an x87 FPU
    image. */
 extern
 void LibVEX_GuestX86_get_x87 ( /*IN*/VexGuestX86State* vex_state,
                                /*OUT*/UChar* x87_state );


 /* Given a 32-bit word containing native x86 %eflags values, set the
    eflag-related fields in the supplied VexGuestX86State accordingly.
    All other fields are left unchanged.  */

 extern
 void LibVEX_GuestX86_put_eflags ( UInt eflags_native,
                                   /*OUT*/VexGuestX86State* vex_state );

 #endif /* 0 */

 #endif /* ndef __LIBVEX_PUB_GUEST_AMD64_H */

 /*---------------------------------------------------------------*/
 /*---                                    libvex_guest_amd64.h ---*/
 /*---------------------------------------------------------------*/

	/---------------------------------------------------------------/
	/--- begin libvex_guest_amd64.h ---/
	/---------------------------------------------------------------/

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

	Copyright (C) 2004-2011 OpenWorks LLP
	info@open-works.net

	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., 51 Franklin Street, Fifth Floor, Boston, MA
	02110-1301, USA.

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

	Neither the names of the U.S. Department of Energy nor the
	University of California nor the names of its contributors may be
	used to endorse or promote products derived from this software
	without prior written permission.
	*/

	#ifndef __LIBVEX_PUB_GUEST_AMD64_H
	#define __LIBVEX_PUB_GUEST_AMD64_H

	#include "libvex_basictypes.h"
	#include "libvex_emwarn.h"


	/---------------------------------------------------------------/
	/--- Vex's representation of the AMD64 CPU state. ---/
	/---------------------------------------------------------------/

	/* See detailed comments at the top of libvex_guest_x86.h for
	further info. This representation closely follows the
	x86 representation.
	*/


	typedef
	struct {
	/* Event check fail addr, counter, and padding to make RAX 16
	aligned. */
	/* 0 */ ULong host_EvC_FAILADDR;
	/* 8 */ UInt host_EvC_COUNTER;
	/* 12 */ UInt pad0;
	/* 16 */ ULong guest_RAX;
	/* 24 */ ULong guest_RCX;
	/* 32 */ ULong guest_RDX;
	/* 40 */ ULong guest_RBX;
	/* 48 */ ULong guest_RSP;
	/* 56 */ ULong guest_RBP;
	/* 64 */ ULong guest_RSI;
	/* 72 */ ULong guest_RDI;
	/* 80 */ ULong guest_R8;
	/* 88 */ ULong guest_R9;
	/* 96 */ ULong guest_R10;
	/* 104 */ ULong guest_R11;
	/* 112 */ ULong guest_R12;
	/* 120 */ ULong guest_R13;
	/* 128 */ ULong guest_R14;
	/* 136 */ ULong guest_R15;
	/* 4-word thunk used to calculate O S Z A C P flags. */
	/* 144 */ ULong guest_CC_OP;
	/* 152 */ ULong guest_CC_DEP1;
	/* 160 */ ULong guest_CC_DEP2;
	/* 168 */ ULong guest_CC_NDEP;
	/* The D flag is stored here, encoded as either -1 or +1 */
	/* 176 */ ULong guest_DFLAG;
	/* 184 */ ULong guest_RIP;
	/* Bit 18 (AC) of eflags stored here, as either 0 or 1. */
	/* ... */ ULong guest_ACFLAG;
	/* Bit 21 (ID) of eflags stored here, as either 0 or 1. */
	/* 192 */ ULong guest_IDFLAG;
	/* Probably a lot more stuff too.
	D,ID flags
	16 128-bit SSE registers
	all the old x87 FPU gunk
	segment registers */

	/* HACK to make tls on amd64-linux work. %fs only ever seems to
	hold zero, and so guest_FS_ZERO holds the 64-bit offset
	associated with a %fs value of zero. */
	/* 200 */ ULong guest_FS_ZERO;

	/* YMM registers. Note that these must be allocated
	consecutively in order that the SSE4.2 PCMP{E,I}STR{I,M}
	helpers can treat them as an array. YMM16 is a fake reg used
	as an intermediary in handling aforementioned insns. */
	/* 208 */ULong guest_SSEROUND;
	/* 216 */U256 guest_YMM0;
	U256 guest_YMM1;
	U256 guest_YMM2;
	U256 guest_YMM3;
	U256 guest_YMM4;
	U256 guest_YMM5;
	U256 guest_YMM6;
	U256 guest_YMM7;
	U256 guest_YMM8;
	U256 guest_YMM9;
	U256 guest_YMM10;
	U256 guest_YMM11;
	U256 guest_YMM12;
	U256 guest_YMM13;
	U256 guest_YMM14;
	U256 guest_YMM15;
	U256 guest_YMM16;

	/* FPU */
	/* Note. Setting guest_FTOP to be ULong messes up the
	delicately-balanced PutI/GetI optimisation machinery.
	Therefore best to leave it as a UInt. */
	UInt guest_FTOP;
	ULong guest_FPREG[8];
	UChar guest_FPTAG[8];
	ULong guest_FPROUND;
	ULong guest_FC3210;

	/* Emulation warnings */
	UInt guest_EMWARN;

	/* Translation-invalidation area description. Not used on amd64
	(there is no invalidate-icache insn), but needed so as to
	allow users of the library to uniformly assume that the guest
	state contains these two fields -- otherwise there is
	compilation breakage. On amd64, these two fields are set to
	zero by LibVEX_GuestAMD64_initialise and then should be
	ignored forever thereafter. */
	ULong guest_TISTART;
	ULong guest_TILEN;

	/* Used to record the unredirected guest address at the start of
	a translation whose start has been redirected. By reading
	this pseudo-register shortly afterwards, the translation can
	find out what the corresponding no-redirection address was.
	Note, this is only set for wrap-style redirects, not for
	replace-style ones. */
	ULong guest_NRADDR;

	/* Used for Darwin syscall dispatching. */
	ULong guest_SC_CLASS;

	/* HACK to make tls on darwin work. %gs only ever seems to
	hold 0x60, and so guest_GS_0x60 holds the 64-bit offset
	associated with a %gs value of 0x60. (A direct analogue
	of the %fs-zero hack for amd64-linux). */
	ULong guest_GS_0x60;

	/* Needed for Darwin (but mandated for all guest architectures):
	RIP at the last syscall insn (int 0x80/81/82, sysenter,
	syscall). Used when backing up to restart a syscall that has
	been interrupted by a signal. */
	ULong guest_IP_AT_SYSCALL;

	/* Padding to make it have an 16-aligned size */
	ULong pad1;
	}
	VexGuestAMD64State;



	/---------------------------------------------------------------/
	/--- Utility functions for amd64 guest stuff. ---/
	/---------------------------------------------------------------/

	/* ALL THE FOLLOWING ARE VISIBLE TO LIBRARY CLIENT */

	/* Initialise all guest amd64 state. The FPU is put in default
	mode. */
	extern
	void LibVEX_GuestAMD64_initialise ( /OUT/VexGuestAMD64State* vex_state );


	/* Extract from the supplied VexGuestAMD64State structure the
	corresponding native %rflags value. */
	extern
	ULong LibVEX_GuestAMD64_get_rflags ( /IN/VexGuestAMD64State* vex_state );

	/* Set the carry flag in the given state to 'new_carry_flag', which
	should be zero or one. */
	extern
	void
	LibVEX_GuestAMD64_put_rflag_c ( ULong new_carry_flag,
	/MOD/VexGuestAMD64State* vex_state );


	#if 0
	/* Convert a saved x87 FPU image (as created by fsave) and write it
	into the supplied VexGuestX86State structure. The non-FP parts of
	said structure are left unchanged.
	*/
	extern
	void LibVEX_GuestX86_put_x87 ( /IN/UChar* x87_state,
	/OUT/VexGuestX86State* vex_state );

	/* Extract from the supplied VexGuestX86State structure, an x87 FPU
	image. */
	extern
	void LibVEX_GuestX86_get_x87 ( /IN/VexGuestX86State* vex_state,
	/OUT/UChar* x87_state );


	/* Given a 32-bit word containing native x86 %eflags values, set the
	eflag-related fields in the supplied VexGuestX86State accordingly.
	All other fields are left unchanged. */

	extern
	void LibVEX_GuestX86_put_eflags ( UInt eflags_native,
	/OUT/VexGuestX86State* vex_state );

	#endif /* 0 */

	#endif /* ndef __LIBVEX_PUB_GUEST_AMD64_H */

	/---------------------------------------------------------------/
	/--- libvex_guest_amd64.h ---/
	/---------------------------------------------------------------/