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path: root/include/iprt/asm-amd64-x86.h
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/** @file
 * IPRT - AMD64 and x86 Specific Assembly Functions.
 */

/*
 * Copyright (C) 2006-2019 Oracle Corporation
 *
 * This file is part of VirtualBox Open Source Edition (OSE), as
 * available from http://www.virtualbox.org. This file is free software;
 * you can redistribute it and/or modify it under the terms of the GNU
 * General Public License (GPL) as published by the Free Software
 * Foundation, in version 2 as it comes in the "COPYING" file of the
 * VirtualBox OSE distribution. VirtualBox OSE is distributed in the
 * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
 *
 * The contents of this file may alternatively be used under the terms
 * of the Common Development and Distribution License Version 1.0
 * (CDDL) only, as it comes in the "COPYING.CDDL" file of the
 * VirtualBox OSE distribution, in which case the provisions of the
 * CDDL are applicable instead of those of the GPL.
 *
 * You may elect to license modified versions of this file under the
 * terms and conditions of either the GPL or the CDDL or both.
 */

#ifndef IPRT_INCLUDED_asm_amd64_x86_h
#define IPRT_INCLUDED_asm_amd64_x86_h
#ifndef RT_WITHOUT_PRAGMA_ONCE
# pragma once
#endif

#include <iprt/types.h>
#include <iprt/assert.h>
#if !defined(RT_ARCH_AMD64) && !defined(RT_ARCH_X86)
# error "Not on AMD64 or x86"
#endif

#if defined(_MSC_VER) && RT_INLINE_ASM_USES_INTRIN
# pragma warning(push)
# pragma warning(disable:4668) /* Several incorrect __cplusplus uses. */
# pragma warning(disable:4255) /* Incorrect __slwpcb prototype. */
# include <intrin.h>
# pragma warning(pop)
   /* Emit the intrinsics at all optimization levels. */
# pragma intrinsic(_ReadWriteBarrier)
# pragma intrinsic(__cpuid)
# pragma intrinsic(_enable)
# pragma intrinsic(_disable)
# pragma intrinsic(__rdtsc)
# pragma intrinsic(__readmsr)
# pragma intrinsic(__writemsr)
# pragma intrinsic(__outbyte)
# pragma intrinsic(__outbytestring)
# pragma intrinsic(__outword)
# pragma intrinsic(__outwordstring)
# pragma intrinsic(__outdword)
# pragma intrinsic(__outdwordstring)
# pragma intrinsic(__inbyte)
# pragma intrinsic(__inbytestring)
# pragma intrinsic(__inword)
# pragma intrinsic(__inwordstring)
# pragma intrinsic(__indword)
# pragma intrinsic(__indwordstring)
# pragma intrinsic(__invlpg)
# pragma intrinsic(__wbinvd)
# pragma intrinsic(__readcr0)
# pragma intrinsic(__readcr2)
# pragma intrinsic(__readcr3)
# pragma intrinsic(__readcr4)
# pragma intrinsic(__writecr0)
# pragma intrinsic(__writecr3)
# pragma intrinsic(__writecr4)
# pragma intrinsic(__readdr)
# pragma intrinsic(__writedr)
# ifdef RT_ARCH_AMD64
#  pragma intrinsic(__readcr8)
#  pragma intrinsic(__writecr8)
# endif
# if RT_INLINE_ASM_USES_INTRIN >= 14
#  pragma intrinsic(__halt)
# endif
# if RT_INLINE_ASM_USES_INTRIN >= 15
#  pragma intrinsic(__readeflags)
#  pragma intrinsic(__writeeflags)
#  pragma intrinsic(__rdtscp)
# endif
#endif


/*
 * Undefine all symbols we have Watcom C/C++ #pragma aux'es for.
 */
#if defined(__WATCOMC__) && ARCH_BITS == 16
# include "asm-amd64-x86-watcom-16.h"
#elif defined(__WATCOMC__) && ARCH_BITS == 32
# include "asm-amd64-x86-watcom-32.h"
#endif


/** @defgroup grp_rt_asm_amd64_x86  AMD64 and x86 Specific ASM Routines
 * @ingroup grp_rt_asm
 * @{
 */

/** @todo find a more proper place for these structures? */

#pragma pack(1)
/** IDTR */
typedef struct RTIDTR
{
    /** Size of the IDT. */
    uint16_t    cbIdt;
    /** Address of the IDT. */
#if ARCH_BITS != 64
    uint32_t    pIdt;
#else
    uint64_t    pIdt;
#endif
} RTIDTR, RT_FAR *PRTIDTR;
#pragma pack()

#pragma pack(1)
/** @internal */
typedef struct RTIDTRALIGNEDINT
{
    /** Alignment padding.   */
    uint16_t    au16Padding[ARCH_BITS == 64 ? 3 : 1];
    /** The IDTR structure.  */
    RTIDTR      Idtr;
} RTIDTRALIGNEDINT;
#pragma pack()

/** Wrapped RTIDTR for preventing misalignment exceptions. */
typedef union RTIDTRALIGNED
{
    /** Try make sure this structure has optimal alignment. */
    uint64_t            auAlignmentHack[ARCH_BITS == 64 ? 2 : 1];
    /** Aligned structure. */
    RTIDTRALIGNEDINT    s;
} RTIDTRALIGNED;
AssertCompileSize(RTIDTRALIGNED, ((ARCH_BITS == 64) + 1) * 8);
/** Pointer to a an RTIDTR alignment wrapper. */
typedef RTIDTRALIGNED RT_FAR *PRIDTRALIGNED;


#pragma pack(1)
/** GDTR */
typedef struct RTGDTR
{
    /** Size of the GDT. */
    uint16_t    cbGdt;
    /** Address of the GDT. */
#if ARCH_BITS != 64
    uint32_t    pGdt;
#else
    uint64_t    pGdt;
#endif
} RTGDTR, RT_FAR *PRTGDTR;
#pragma pack()

#pragma pack(1)
/** @internal */
typedef struct RTGDTRALIGNEDINT
{
    /** Alignment padding.   */
    uint16_t    au16Padding[ARCH_BITS == 64 ? 3 : 1];
    /** The GDTR structure.  */
    RTGDTR      Gdtr;
} RTGDTRALIGNEDINT;
#pragma pack()

/** Wrapped RTGDTR for preventing misalignment exceptions. */
typedef union RTGDTRALIGNED
{
    /** Try make sure this structure has optimal alignment. */
    uint64_t            auAlignmentHack[ARCH_BITS == 64 ? 2 : 1];
    /** Aligned structure. */
    RTGDTRALIGNEDINT    s;
} RTGDTRALIGNED;
AssertCompileSize(RTIDTRALIGNED, ((ARCH_BITS == 64) + 1) * 8);
/** Pointer to a an RTGDTR alignment wrapper. */
typedef RTGDTRALIGNED RT_FAR *PRGDTRALIGNED;


/**
 * Gets the content of the IDTR CPU register.
 * @param   pIdtr   Where to store the IDTR contents.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMGetIDTR(PRTIDTR pIdtr);
#else
DECLINLINE(void) ASMGetIDTR(PRTIDTR pIdtr)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("sidt %0" : "=m" (*pIdtr));
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [pIdtr]
        sidt    [rax]
#  else
        mov     eax, [pIdtr]
        sidt    [eax]
#  endif
    }
# endif
}
#endif


/**
 * Gets the content of the IDTR.LIMIT CPU register.
 * @returns IDTR limit.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(uint16_t) ASMGetIdtrLimit(void);
#else
DECLINLINE(uint16_t) ASMGetIdtrLimit(void)
{
    RTIDTRALIGNED TmpIdtr;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("sidt %0" : "=m" (TmpIdtr.s.Idtr));
# else
    __asm
    {
        sidt    [TmpIdtr.s.Idtr]
    }
# endif
    return TmpIdtr.s.Idtr.cbIdt;
}
#endif


/**
 * Sets the content of the IDTR CPU register.
 * @param   pIdtr   Where to load the IDTR contents from
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetIDTR(const RTIDTR RT_FAR *pIdtr);
#else
DECLINLINE(void) ASMSetIDTR(const RTIDTR RT_FAR *pIdtr)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("lidt %0" : : "m" (*pIdtr));
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [pIdtr]
        lidt    [rax]
#  else
        mov     eax, [pIdtr]
        lidt    [eax]
#  endif
    }
# endif
}
#endif


/**
 * Gets the content of the GDTR CPU register.
 * @param   pGdtr   Where to store the GDTR contents.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMGetGDTR(PRTGDTR pGdtr);
#else
DECLINLINE(void) ASMGetGDTR(PRTGDTR pGdtr)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("sgdt %0" : "=m" (*pGdtr));
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [pGdtr]
        sgdt    [rax]
#  else
        mov     eax, [pGdtr]
        sgdt    [eax]
#  endif
    }
# endif
}
#endif


/**
 * Sets the content of the GDTR CPU register.
 * @param   pGdtr   Where to load the GDTR contents from
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetGDTR(const RTGDTR RT_FAR *pGdtr);
#else
DECLINLINE(void) ASMSetGDTR(const RTGDTR RT_FAR *pGdtr)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("lgdt %0" : : "m" (*pGdtr));
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [pGdtr]
        lgdt    [rax]
#  else
        mov     eax, [pGdtr]
        lgdt    [eax]
#  endif
    }
# endif
}
#endif



/**
 * Get the cs register.
 * @returns cs.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetCS(void);
#else
DECLINLINE(RTSEL) ASMGetCS(void)
{
    RTSEL SelCS;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movw  %%cs, %0\n\t" : "=r" (SelCS));
# else
    __asm
    {
        mov     ax, cs
        mov     [SelCS], ax
    }
# endif
    return SelCS;
}
#endif


/**
 * Get the DS register.
 * @returns DS.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetDS(void);
#else
DECLINLINE(RTSEL) ASMGetDS(void)
{
    RTSEL SelDS;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movw  %%ds, %0\n\t" : "=r" (SelDS));
# else
    __asm
    {
        mov     ax, ds
        mov     [SelDS], ax
    }
# endif
    return SelDS;
}
#endif


/**
 * Get the ES register.
 * @returns ES.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetES(void);
#else
DECLINLINE(RTSEL) ASMGetES(void)
{
    RTSEL SelES;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movw  %%es, %0\n\t" : "=r" (SelES));
# else
    __asm
    {
        mov     ax, es
        mov     [SelES], ax
    }
# endif
    return SelES;
}
#endif


/**
 * Get the FS register.
 * @returns FS.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetFS(void);
#else
DECLINLINE(RTSEL) ASMGetFS(void)
{
    RTSEL SelFS;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movw  %%fs, %0\n\t" : "=r" (SelFS));
# else
    __asm
    {
        mov     ax, fs
        mov     [SelFS], ax
    }
# endif
    return SelFS;
}
# endif


/**
 * Get the GS register.
 * @returns GS.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetGS(void);
#else
DECLINLINE(RTSEL) ASMGetGS(void)
{
    RTSEL SelGS;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movw  %%gs, %0\n\t" : "=r" (SelGS));
# else
    __asm
    {
        mov     ax, gs
        mov     [SelGS], ax
    }
# endif
    return SelGS;
}
#endif


/**
 * Get the SS register.
 * @returns SS.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetSS(void);
#else
DECLINLINE(RTSEL) ASMGetSS(void)
{
    RTSEL SelSS;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movw  %%ss, %0\n\t" : "=r" (SelSS));
# else
    __asm
    {
        mov     ax, ss
        mov     [SelSS], ax
    }
# endif
    return SelSS;
}
#endif


/**
 * Get the TR register.
 * @returns TR.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetTR(void);
#else
DECLINLINE(RTSEL) ASMGetTR(void)
{
    RTSEL SelTR;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("str %w0\n\t" : "=r" (SelTR));
# else
    __asm
    {
        str     ax
        mov     [SelTR], ax
    }
# endif
    return SelTR;
}
#endif


/**
 * Get the LDTR register.
 * @returns LDTR.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(RTSEL) ASMGetLDTR(void);
#else
DECLINLINE(RTSEL) ASMGetLDTR(void)
{
    RTSEL SelLDTR;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("sldt %w0\n\t" : "=r" (SelLDTR));
# else
    __asm
    {
        sldt    ax
        mov     [SelLDTR], ax
    }
# endif
    return SelLDTR;
}
#endif


/**
 * Get the access rights for the segment selector.
 *
 * @returns The access rights on success or UINT32_MAX on failure.
 * @param   uSel        The selector value.
 *
 * @remarks Using UINT32_MAX for failure is chosen because valid access rights
 *          always have bits 0:7 as 0 (on both Intel & AMD).
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMGetSegAttr(uint32_t uSel);
#else
DECLINLINE(uint32_t) ASMGetSegAttr(uint32_t uSel)
{
    uint32_t uAttr;
    /* LAR only accesses 16-bit of the source operand, but eax for the
       destination operand is required for getting the full 32-bit access rights. */
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("lar %1, %%eax\n\t"
                         "jz done%=\n\t"
                         "movl $0xffffffff, %%eax\n\t"
                         "done%=:\n\t"
                         "movl %%eax, %0\n\t"
                         : "=r" (uAttr)
                         : "r" (uSel)
                         : "cc", "%eax");
# else
    __asm
    {
        lar     eax, [uSel]
        jz      done
        mov     eax, 0ffffffffh
        done:
        mov     [uAttr], eax
    }
# endif
    return uAttr;
}
#endif


/**
 * Get the [RE]FLAGS register.
 * @returns [RE]FLAGS.
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 15
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTREG) ASMGetFlags(void);
#else
DECLINLINE(RTCCUINTREG) ASMGetFlags(void)
{
    RTCCUINTREG uFlags;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("pushfq\n\t"
                         "popq  %0\n\t"
                         : "=r" (uFlags));
#  else
    __asm__ __volatile__("pushfl\n\t"
                         "popl  %0\n\t"
                         : "=r" (uFlags));
#  endif
# elif RT_INLINE_ASM_USES_INTRIN >= 15
    uFlags = __readeflags();
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        pushfq
        pop  [uFlags]
#  else
        pushfd
        pop  [uFlags]
#  endif
    }
# endif
    return uFlags;
}
#endif


/**
 * Set the [RE]FLAGS register.
 * @param   uFlags      The new [RE]FLAGS value.
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 15
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetFlags(RTCCUINTREG uFlags);
#else
DECLINLINE(void) ASMSetFlags(RTCCUINTREG uFlags)
{
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("pushq %0\n\t"
                         "popfq\n\t"
                         : : "g" (uFlags));
#  else
    __asm__ __volatile__("pushl %0\n\t"
                         "popfl\n\t"
                         : : "g" (uFlags));
#  endif
# elif RT_INLINE_ASM_USES_INTRIN >= 15
    __writeeflags(uFlags);
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        push    [uFlags]
        popfq
#  else
        push    [uFlags]
        popfd
#  endif
    }
# endif
}
#endif


/**
 * Modifies the [RE]FLAGS register.
 * @returns Original value.
 * @param   fAndEfl     Flags to keep (applied first).
 * @param   fOrEfl      Flags to be set.
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 15
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTREG) ASMChangeFlags(RTCCUINTREG fAndEfl, RTCCUINTREG fOrEfl);
#else
DECLINLINE(RTCCUINTREG) ASMChangeFlags(RTCCUINTREG fAndEfl, RTCCUINTREG fOrEfl)
{
    RTCCUINTREG fOldEfl;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("pushfq\n\t"
                         "movq  (%%rsp), %0\n\t"
                         "andq  %0, %1\n\t"
                         "orq   %3, %1\n\t"
                         "mov   %1, (%%rsp)\n\t"
                         "popfq\n\t"
                         : "=&r" (fOldEfl),
                           "=r" (fAndEfl)
                         : "1" (fAndEfl),
                           "rn" (fOrEfl) );
#  else
    __asm__ __volatile__("pushfl\n\t"
                         "movl  (%%esp), %0\n\t"
                         "andl  %1, (%%esp)\n\t"
                         "orl   %2, (%%esp)\n\t"
                         "popfl\n\t"
                         : "=&r" (fOldEfl)
                         : "rn" (fAndEfl),
                           "rn" (fOrEfl) );
#  endif
# elif RT_INLINE_ASM_USES_INTRIN >= 15
    fOldEfl = __readeflags();
    __writeeflags((fOldEfl & fAndEfl) | fOrEfl);
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rdx, [fAndEfl]
        mov     rcx, [fOrEfl]
        pushfq
        mov     rax, [rsp]
        and     rdx, rax
        or      rdx, rcx
        mov     [rsp], rdx
        popfq
        mov     [fOldEfl], rax
#  else
        mov     edx, [fAndEfl]
        mov     ecx, [fOrEfl]
        pushfd
        mov     eax, [esp]
        and     edx, eax
        or      edx, ecx
        mov     [esp], edx
        popfd
        mov     [fOldEfl], eax
#  endif
    }
# endif
    return fOldEfl;
}
#endif


/**
 * Modifies the [RE]FLAGS register by ORing in one or more flags.
 * @returns Original value.
 * @param   fOrEfl      The flags to be set (ORed in).
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 15
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTREG) ASMAddFlags(RTCCUINTREG fOrEfl);
#else
DECLINLINE(RTCCUINTREG) ASMAddFlags(RTCCUINTREG fOrEfl)
{
    RTCCUINTREG fOldEfl;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("pushfq\n\t"
                         "movq  (%%rsp), %0\n\t"
                         "orq   %1, (%%rsp)\n\t"
                         "popfq\n\t"
                         : "=&r" (fOldEfl)
                         : "rn" (fOrEfl) );
#  else
    __asm__ __volatile__("pushfl\n\t"
                         "movl  (%%esp), %0\n\t"
                         "orl   %1, (%%esp)\n\t"
                         "popfl\n\t"
                         : "=&r" (fOldEfl)
                         : "rn" (fOrEfl) );
#  endif
# elif RT_INLINE_ASM_USES_INTRIN >= 15
    fOldEfl = __readeflags();
    __writeeflags(fOldEfl | fOrEfl);
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rcx, [fOrEfl]
        pushfq
        mov     rdx, [rsp]
        or      [rsp], rcx
        popfq
        mov     [fOldEfl], rax
#  else
        mov     ecx, [fOrEfl]
        pushfd
        mov     edx, [esp]
        or      [esp], ecx
        popfd
        mov     [fOldEfl], eax
#  endif
    }
# endif
    return fOldEfl;
}
#endif


/**
 * Modifies the [RE]FLAGS register by AND'ing out one or more flags.
 * @returns Original value.
 * @param   fAndEfl      The flags to keep.
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 15
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTREG) ASMClearFlags(RTCCUINTREG fAndEfl);
#else
DECLINLINE(RTCCUINTREG) ASMClearFlags(RTCCUINTREG fAndEfl)
{
    RTCCUINTREG fOldEfl;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("pushfq\n\t"
                         "movq  (%%rsp), %0\n\t"
                         "andq  %1, (%%rsp)\n\t"
                         "popfq\n\t"
                         : "=&r" (fOldEfl)
                         : "rn" (fAndEfl) );
#  else
    __asm__ __volatile__("pushfl\n\t"
                         "movl  (%%esp), %0\n\t"
                         "andl  %1, (%%esp)\n\t"
                         "popfl\n\t"
                         : "=&r" (fOldEfl)
                         : "rn" (fAndEfl) );
#  endif
# elif RT_INLINE_ASM_USES_INTRIN >= 15
    fOldEfl = __readeflags();
    __writeeflags(fOldEfl & fAndEfl);
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rdx, [fAndEfl]
        pushfq
        mov     rdx, [rsp]
        and     [rsp], rdx
        popfq
        mov     [fOldEfl], rax
#  else
        mov     edx, [fAndEfl]
        pushfd
        mov     edx, [esp]
        and     [esp], edx
        popfd
        mov     [fOldEfl], eax
#  endif
    }
# endif
    return fOldEfl;
}
#endif


/**
 * Gets the content of the CPU timestamp counter register.
 *
 * @returns TSC.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint64_t) ASMReadTSC(void);
#else
DECLINLINE(uint64_t) ASMReadTSC(void)
{
    RTUINT64U u;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rdtsc\n\t" : "=a" (u.s.Lo), "=d" (u.s.Hi));
# else
#  if RT_INLINE_ASM_USES_INTRIN
    u.u = __rdtsc();
#  else
    __asm
    {
        rdtsc
        mov     [u.s.Lo], eax
        mov     [u.s.Hi], edx
    }
#  endif
# endif
    return u.u;
}
#endif


/**
 * Gets the content of the CPU timestamp counter register and the
 * assoicated AUX value.
 *
 * @returns TSC.
 * @param   puAux   Where to store the AUX value.
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 15
RT_ASM_DECL_PRAGMA_WATCOM(uint64_t) ASMReadTscWithAux(uint32_t RT_FAR *puAux);
#else
DECLINLINE(uint64_t) ASMReadTscWithAux(uint32_t RT_FAR *puAux)
{
    RTUINT64U u;
# if RT_INLINE_ASM_GNU_STYLE
    /* rdtscp is not supported by ancient linux build VM of course :-( */
    /*__asm__ __volatile__("rdtscp\n\t" : "=a" (u.s.Lo), "=d" (u.s.Hi), "=c" (*puAux)); */
    __asm__ __volatile__(".byte 0x0f,0x01,0xf9\n\t" : "=a" (u.s.Lo), "=d" (u.s.Hi), "=c" (*puAux));
# else
#  if RT_INLINE_ASM_USES_INTRIN >= 15
    u.u = __rdtscp(puAux);
#  else
    __asm
    {
        rdtscp
        mov     [u.s.Lo], eax
        mov     [u.s.Hi], edx
        mov     eax, [puAux]
        mov     [eax], ecx
    }
#  endif
# endif
    return u.u;
}
#endif


/**
 * Performs the cpuid instruction returning all registers.
 *
 * @param   uOperator   CPUID operation (eax).
 * @param   pvEAX       Where to store eax.
 * @param   pvEBX       Where to store ebx.
 * @param   pvECX       Where to store ecx.
 * @param   pvEDX       Where to store edx.
 * @remark  We're using void pointers to ease the use of special bitfield structures and such.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
DECLASM(void) ASMCpuId(uint32_t uOperator, void RT_FAR *pvEAX, void RT_FAR *pvEBX, void RT_FAR *pvECX, void RT_FAR *pvEDX);
#else
DECLINLINE(void) ASMCpuId(uint32_t uOperator, void RT_FAR *pvEAX, void RT_FAR *pvEBX, void RT_FAR *pvECX, void RT_FAR *pvEDX)
{
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    RTCCUINTREG uRAX, uRBX, uRCX, uRDX;
    __asm__ __volatile__ ("cpuid\n\t"
                          : "=a" (uRAX),
                            "=b" (uRBX),
                            "=c" (uRCX),
                            "=d" (uRDX)
             : "0" (uOperator), "2" (0));
    *(uint32_t RT_FAR *)pvEAX = (uint32_t)uRAX;
    *(uint32_t RT_FAR *)pvEBX = (uint32_t)uRBX;
    *(uint32_t RT_FAR *)pvECX = (uint32_t)uRCX;
    *(uint32_t RT_FAR *)pvEDX = (uint32_t)uRDX;
#  else
    __asm__ __volatile__ ("xchgl %%ebx, %1\n\t"
                          "cpuid\n\t"
                          "xchgl %%ebx, %1\n\t"
                         : "=a" (*(uint32_t *)pvEAX),
                           "=r" (*(uint32_t *)pvEBX),
                           "=c" (*(uint32_t *)pvECX),
                           "=d" (*(uint32_t *)pvEDX)
                         : "0" (uOperator), "2" (0));
#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuid(aInfo, uOperator);
    *(uint32_t RT_FAR *)pvEAX = aInfo[0];
    *(uint32_t RT_FAR *)pvEBX = aInfo[1];
    *(uint32_t RT_FAR *)pvECX = aInfo[2];
    *(uint32_t RT_FAR *)pvEDX = aInfo[3];

# else
    uint32_t    uEAX;
    uint32_t    uEBX;
    uint32_t    uECX;
    uint32_t    uEDX;
    __asm
    {
        push    ebx
        mov     eax, [uOperator]
        cpuid
        mov     [uEAX], eax
        mov     [uEBX], ebx
        mov     [uECX], ecx
        mov     [uEDX], edx
        pop     ebx
    }
    *(uint32_t RT_FAR *)pvEAX = uEAX;
    *(uint32_t RT_FAR *)pvEBX = uEBX;
    *(uint32_t RT_FAR *)pvECX = uECX;
    *(uint32_t RT_FAR *)pvEDX = uEDX;
# endif
}
#endif


/**
 * Performs the CPUID instruction with EAX and ECX input returning ALL output
 * registers.
 *
 * @param   uOperator   CPUID operation (eax).
 * @param   uIdxECX     ecx index
 * @param   pvEAX       Where to store eax.
 * @param   pvEBX       Where to store ebx.
 * @param   pvECX       Where to store ecx.
 * @param   pvEDX       Where to store edx.
 * @remark  We're using void pointers to ease the use of special bitfield structures and such.
 */
#if RT_INLINE_ASM_EXTERNAL || RT_INLINE_ASM_USES_INTRIN
DECLASM(void) ASMCpuId_Idx_ECX(uint32_t uOperator, uint32_t uIdxECX, void RT_FAR *pvEAX, void RT_FAR *pvEBX, void RT_FAR *pvECX, void RT_FAR *pvEDX);
#else
DECLINLINE(void) ASMCpuId_Idx_ECX(uint32_t uOperator, uint32_t uIdxECX, void RT_FAR *pvEAX, void RT_FAR *pvEBX, void RT_FAR *pvECX, void RT_FAR *pvEDX)
{
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    RTCCUINTREG uRAX, uRBX, uRCX, uRDX;
    __asm__ ("cpuid\n\t"
             : "=a" (uRAX),
               "=b" (uRBX),
               "=c" (uRCX),
               "=d" (uRDX)
             : "0" (uOperator),
               "2" (uIdxECX));
    *(uint32_t RT_FAR *)pvEAX = (uint32_t)uRAX;
    *(uint32_t RT_FAR *)pvEBX = (uint32_t)uRBX;
    *(uint32_t RT_FAR *)pvECX = (uint32_t)uRCX;
    *(uint32_t RT_FAR *)pvEDX = (uint32_t)uRDX;
#  else
    __asm__ ("xchgl %%ebx, %1\n\t"
             "cpuid\n\t"
             "xchgl %%ebx, %1\n\t"
             : "=a" (*(uint32_t *)pvEAX),
               "=r" (*(uint32_t *)pvEBX),
               "=c" (*(uint32_t *)pvECX),
               "=d" (*(uint32_t *)pvEDX)
             : "0" (uOperator),
               "2" (uIdxECX));
#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuidex(aInfo, uOperator, uIdxECX);
    *(uint32_t RT_FAR *)pvEAX = aInfo[0];
    *(uint32_t RT_FAR *)pvEBX = aInfo[1];
    *(uint32_t RT_FAR *)pvECX = aInfo[2];
    *(uint32_t RT_FAR *)pvEDX = aInfo[3];

# else
    uint32_t    uEAX;
    uint32_t    uEBX;
    uint32_t    uECX;
    uint32_t    uEDX;
    __asm
    {
        push    ebx
        mov     eax, [uOperator]
        mov     ecx, [uIdxECX]
        cpuid
        mov     [uEAX], eax
        mov     [uEBX], ebx
        mov     [uECX], ecx
        mov     [uEDX], edx
        pop     ebx
    }
    *(uint32_t RT_FAR *)pvEAX = uEAX;
    *(uint32_t RT_FAR *)pvEBX = uEBX;
    *(uint32_t RT_FAR *)pvECX = uECX;
    *(uint32_t RT_FAR *)pvEDX = uEDX;
# endif
}
#endif


/**
 * CPUID variant that initializes all 4 registers before the CPUID instruction.
 *
 * @returns The EAX result value.
 * @param   uOperator   CPUID operation (eax).
 * @param   uInitEBX    The value to assign EBX prior to the CPUID instruction.
 * @param   uInitECX    The value to assign ECX prior to the CPUID instruction.
 * @param   uInitEDX    The value to assign EDX prior to the CPUID instruction.
 * @param   pvEAX       Where to store eax. Optional.
 * @param   pvEBX       Where to store ebx. Optional.
 * @param   pvECX       Where to store ecx. Optional.
 * @param   pvEDX       Where to store edx. Optional.
 */
DECLASM(uint32_t) ASMCpuIdExSlow(uint32_t uOperator, uint32_t uInitEBX, uint32_t uInitECX, uint32_t uInitEDX,
                                 void RT_FAR *pvEAX, void RT_FAR *pvEBX, void RT_FAR *pvECX, void RT_FAR *pvEDX);


/**
 * Performs the cpuid instruction returning ecx and edx.
 *
 * @param   uOperator   CPUID operation (eax).
 * @param   pvECX       Where to store ecx.
 * @param   pvEDX       Where to store edx.
 * @remark  We're using void pointers to ease the use of special bitfield structures and such.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMCpuId_ECX_EDX(uint32_t uOperator, void RT_FAR *pvECX, void RT_FAR *pvEDX);
#else
DECLINLINE(void) ASMCpuId_ECX_EDX(uint32_t uOperator, void RT_FAR *pvECX, void RT_FAR *pvEDX)
{
    uint32_t uEBX;
    ASMCpuId(uOperator, &uOperator, &uEBX, pvECX, pvEDX);
}
#endif


/**
 * Performs the cpuid instruction returning eax.
 *
 * @param   uOperator   CPUID operation (eax).
 * @returns EAX after cpuid operation.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMCpuId_EAX(uint32_t uOperator);
#else
DECLINLINE(uint32_t) ASMCpuId_EAX(uint32_t uOperator)
{
    RTCCUINTREG xAX;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ ("cpuid"
             : "=a" (xAX)
             : "0" (uOperator)
             : "rbx", "rcx", "rdx");
#  elif (defined(PIC) || defined(__PIC__)) && defined(__i386__)
    __asm__ ("push  %%ebx\n\t"
             "cpuid\n\t"
             "pop   %%ebx\n\t"
             : "=a" (xAX)
             : "0" (uOperator)
             : "ecx", "edx");
#  else
    __asm__ ("cpuid"
             : "=a" (xAX)
             : "0" (uOperator)
             : "edx", "ecx", "ebx");
#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuid(aInfo, uOperator);
    xAX = aInfo[0];

# else
    __asm
    {
        push    ebx
        mov     eax, [uOperator]
        cpuid
        mov     [xAX], eax
        pop     ebx
    }
# endif
    return (uint32_t)xAX;
}
#endif


/**
 * Performs the cpuid instruction returning ebx.
 *
 * @param   uOperator   CPUID operation (eax).
 * @returns EBX after cpuid operation.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMCpuId_EBX(uint32_t uOperator);
#else
DECLINLINE(uint32_t) ASMCpuId_EBX(uint32_t uOperator)
{
    RTCCUINTREG xBX;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    RTCCUINTREG uSpill;
    __asm__ ("cpuid"
             : "=a" (uSpill),
               "=b" (xBX)
             : "0" (uOperator)
             : "rdx", "rcx");
#  elif (defined(PIC) || defined(__PIC__)) && defined(__i386__)
    __asm__ ("push  %%ebx\n\t"
             "cpuid\n\t"
             "mov   %%ebx, %%edx\n\t"
             "pop   %%ebx\n\t"
             : "=a" (uOperator),
               "=d" (xBX)
             : "0" (uOperator)
             : "ecx");
#  else
    __asm__ ("cpuid"
             : "=a" (uOperator),
               "=b" (xBX)
             : "0" (uOperator)
             : "edx", "ecx");
#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuid(aInfo, uOperator);
    xBX = aInfo[1];

# else
    __asm
    {
        push    ebx
        mov     eax, [uOperator]
        cpuid
        mov     [xBX], ebx
        pop     ebx
    }
# endif
    return (uint32_t)xBX;
}
#endif


/**
 * Performs the cpuid instruction returning ecx.
 *
 * @param   uOperator   CPUID operation (eax).
 * @returns ECX after cpuid operation.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMCpuId_ECX(uint32_t uOperator);
#else
DECLINLINE(uint32_t) ASMCpuId_ECX(uint32_t uOperator)
{
    RTCCUINTREG xCX;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    RTCCUINTREG uSpill;
    __asm__ ("cpuid"
             : "=a" (uSpill),
               "=c" (xCX)
             : "0" (uOperator)
             : "rbx", "rdx");
#  elif (defined(PIC) || defined(__PIC__)) && defined(__i386__)
    __asm__ ("push  %%ebx\n\t"
             "cpuid\n\t"
             "pop   %%ebx\n\t"
             : "=a" (uOperator),
               "=c" (xCX)
             : "0" (uOperator)
             : "edx");
#  else
    __asm__ ("cpuid"
             : "=a" (uOperator),
               "=c" (xCX)
             : "0" (uOperator)
             : "ebx", "edx");

#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuid(aInfo, uOperator);
    xCX = aInfo[2];

# else
    __asm
    {
        push    ebx
        mov     eax, [uOperator]
        cpuid
        mov     [xCX], ecx
        pop     ebx
    }
# endif
    return (uint32_t)xCX;
}
#endif


/**
 * Performs the cpuid instruction returning edx.
 *
 * @param   uOperator   CPUID operation (eax).
 * @returns EDX after cpuid operation.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMCpuId_EDX(uint32_t uOperator);
#else
DECLINLINE(uint32_t) ASMCpuId_EDX(uint32_t uOperator)
{
    RTCCUINTREG xDX;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    RTCCUINTREG uSpill;
    __asm__ ("cpuid"
             : "=a" (uSpill),
               "=d" (xDX)
             : "0" (uOperator)
             : "rbx", "rcx");
#  elif (defined(PIC) || defined(__PIC__)) && defined(__i386__)
    __asm__ ("push  %%ebx\n\t"
             "cpuid\n\t"
             "pop   %%ebx\n\t"
             : "=a" (uOperator),
               "=d" (xDX)
             : "0" (uOperator)
             : "ecx");
#  else
    __asm__ ("cpuid"
             : "=a" (uOperator),
               "=d" (xDX)
             : "0" (uOperator)
             : "ebx", "ecx");
#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuid(aInfo, uOperator);
    xDX = aInfo[3];

# else
    __asm
    {
        push    ebx
        mov     eax, [uOperator]
        cpuid
        mov     [xDX], edx
        pop     ebx
    }
# endif
    return (uint32_t)xDX;
}
#endif


/**
 * Checks if the current CPU supports CPUID.
 *
 * @returns true if CPUID is supported.
 */
#ifdef __WATCOMC__
DECLASM(bool) ASMHasCpuId(void);
#else
DECLINLINE(bool) ASMHasCpuId(void)
{
# ifdef RT_ARCH_AMD64
    return true; /* ASSUME that all amd64 compatible CPUs have cpuid. */
# else /* !RT_ARCH_AMD64 */
    bool        fRet = false;
#  if RT_INLINE_ASM_GNU_STYLE
    uint32_t    u1;
    uint32_t    u2;
    __asm__ ("pushf\n\t"
             "pop   %1\n\t"
             "mov   %1, %2\n\t"
             "xorl  $0x200000, %1\n\t"
             "push  %1\n\t"
             "popf\n\t"
             "pushf\n\t"
             "pop   %1\n\t"
             "cmpl  %1, %2\n\t"
             "setne %0\n\t"
             "push  %2\n\t"
             "popf\n\t"
             : "=m" (fRet), "=r" (u1), "=r" (u2));
#  else
    __asm
    {
        pushfd
        pop     eax
        mov     ebx, eax
        xor     eax, 0200000h
        push    eax
        popfd
        pushfd
        pop     eax
        cmp     eax, ebx
        setne   fRet
        push    ebx
        popfd
    }
#  endif
    return fRet;
# endif /* !RT_ARCH_AMD64 */
}
#endif


/**
 * Gets the APIC ID of the current CPU.
 *
 * @returns the APIC ID.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint8_t) ASMGetApicId(void);
#else
DECLINLINE(uint8_t) ASMGetApicId(void)
{
    RTCCUINTREG xBX;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    RTCCUINTREG uSpill;
    __asm__ __volatile__ ("cpuid"
                          : "=a" (uSpill),
                            "=b" (xBX)
                          : "0" (1)
                          : "rcx", "rdx");
#  elif (defined(PIC) || defined(__PIC__)) && defined(__i386__)
    RTCCUINTREG uSpill;
    __asm__ __volatile__ ("mov   %%ebx,%1\n\t"
                          "cpuid\n\t"
                          "xchgl %%ebx,%1\n\t"
                          : "=a" (uSpill),
                            "=rm" (xBX)
                          : "0" (1)
                          : "ecx", "edx");
#  else
    RTCCUINTREG uSpill;
    __asm__ __volatile__ ("cpuid"
                          : "=a" (uSpill),
                            "=b" (xBX)
                          : "0" (1)
                          : "ecx", "edx");
#  endif

# elif RT_INLINE_ASM_USES_INTRIN
    int aInfo[4];
    __cpuid(aInfo, 1);
    xBX = aInfo[1];

# else
    __asm
    {
        push    ebx
        mov     eax, 1
        cpuid
        mov     [xBX], ebx
        pop     ebx
    }
# endif
    return (uint8_t)(xBX >> 24);
}
#endif


/**
 * Tests if it a genuine Intel CPU based on the ASMCpuId(0) output.
 *
 * @returns true/false.
 * @param   uEBX    EBX return from ASMCpuId(0)
 * @param   uECX    ECX return from ASMCpuId(0)
 * @param   uEDX    EDX return from ASMCpuId(0)
 */
DECLINLINE(bool) ASMIsIntelCpuEx(uint32_t uEBX, uint32_t uECX, uint32_t uEDX)
{
    return uEBX == UINT32_C(0x756e6547)
        && uECX == UINT32_C(0x6c65746e)
        && uEDX == UINT32_C(0x49656e69);
}


/**
 * Tests if this is a genuine Intel CPU.
 *
 * @returns true/false.
 * @remarks ASSUMES that cpuid is supported by the CPU.
 */
DECLINLINE(bool) ASMIsIntelCpu(void)
{
    uint32_t uEAX, uEBX, uECX, uEDX;
    ASMCpuId(0, &uEAX, &uEBX, &uECX, &uEDX);
    return ASMIsIntelCpuEx(uEBX, uECX, uEDX);
}


/**
 * Tests if it an authentic AMD CPU based on the ASMCpuId(0) output.
 *
 * @returns true/false.
 * @param   uEBX    EBX return from ASMCpuId(0)
 * @param   uECX    ECX return from ASMCpuId(0)
 * @param   uEDX    EDX return from ASMCpuId(0)
 */
DECLINLINE(bool) ASMIsAmdCpuEx(uint32_t uEBX, uint32_t uECX, uint32_t uEDX)
{
    return uEBX == UINT32_C(0x68747541)
        && uECX == UINT32_C(0x444d4163)
        && uEDX == UINT32_C(0x69746e65);
}


/**
 * Tests if this is an authentic AMD CPU.
 *
 * @returns true/false.
 * @remarks ASSUMES that cpuid is supported by the CPU.
 */
DECLINLINE(bool) ASMIsAmdCpu(void)
{
    uint32_t uEAX, uEBX, uECX, uEDX;
    ASMCpuId(0, &uEAX, &uEBX, &uECX, &uEDX);
    return ASMIsAmdCpuEx(uEBX, uECX, uEDX);
}


/**
 * Tests if it a centaur hauling VIA CPU based on the ASMCpuId(0) output.
 *
 * @returns true/false.
 * @param   uEBX    EBX return from ASMCpuId(0).
 * @param   uECX    ECX return from ASMCpuId(0).
 * @param   uEDX    EDX return from ASMCpuId(0).
 */
DECLINLINE(bool) ASMIsViaCentaurCpuEx(uint32_t uEBX, uint32_t uECX, uint32_t uEDX)
{
    return uEBX == UINT32_C(0x746e6543)
        && uECX == UINT32_C(0x736c7561)
        && uEDX == UINT32_C(0x48727561);
}


/**
 * Tests if this is a centaur hauling VIA CPU.
 *
 * @returns true/false.
 * @remarks ASSUMES that cpuid is supported by the CPU.
 */
DECLINLINE(bool) ASMIsViaCentaurCpu(void)
{
    uint32_t uEAX, uEBX, uECX, uEDX;
    ASMCpuId(0, &uEAX, &uEBX, &uECX, &uEDX);
    return ASMIsViaCentaurCpuEx(uEBX, uECX, uEDX);
}


/**
 * Tests if it a Shanghai CPU based on the ASMCpuId(0) output.
 *
 * @returns true/false.
 * @param   uEBX    EBX return from ASMCpuId(0).
 * @param   uECX    ECX return from ASMCpuId(0).
 * @param   uEDX    EDX return from ASMCpuId(0).
 */
DECLINLINE(bool) ASMIsShanghaiCpuEx(uint32_t uEBX, uint32_t uECX, uint32_t uEDX)
{
    return uEBX == UINT32_C(0x68532020)
        && uECX == UINT32_C(0x20206961)
        && uEDX == UINT32_C(0x68676e61);
}


/**
 * Tests if this is a Shanghai CPU.
 *
 * @returns true/false.
 * @remarks ASSUMES that cpuid is supported by the CPU.
 */
DECLINLINE(bool) ASMIsShanghaiCpu(void)
{
    uint32_t uEAX, uEBX, uECX, uEDX;
    ASMCpuId(0, &uEAX, &uEBX, &uECX, &uEDX);
    return ASMIsShanghaiCpuEx(uEBX, uECX, uEDX);
}


/**
 * Checks whether ASMCpuId_EAX(0x00000000) indicates a valid range.
 *
 *
 * @returns true/false.
 * @param   uEAX    The EAX value of CPUID leaf 0x00000000.
 *
 * @note    This only succeeds if there are at least two leaves in the range.
 * @remarks The upper range limit is just some half reasonable value we've
 *          picked out of thin air.
 */
DECLINLINE(bool) ASMIsValidStdRange(uint32_t uEAX)
{
    return uEAX >= UINT32_C(0x00000001) && uEAX <= UINT32_C(0x000fffff);
}


/**
 * Checks whether ASMCpuId_EAX(0x80000000) indicates a valid range.
 *
 * This only succeeds if there are at least two leaves in the range.
 *
 * @returns true/false.
 * @param   uEAX    The EAX value of CPUID leaf 0x80000000.
 *
 * @note    This only succeeds if there are at least two leaves in the range.
 * @remarks The upper range limit is just some half reasonable value we've
 *          picked out of thin air.
 */
DECLINLINE(bool) ASMIsValidExtRange(uint32_t uEAX)
{
    return uEAX >= UINT32_C(0x80000001) && uEAX <= UINT32_C(0x800fffff);
}


/**
 * Checks whether ASMCpuId_EAX(0x40000000) indicates a valid range.
 *
 * This only succeeds if there are at least two leaves in the range.
 *
 * @returns true/false.
 * @param   uEAX    The EAX value of CPUID leaf 0x40000000.
 *
 * @note    Unlike ASMIsValidStdRange() and ASMIsValidExtRange(), a single leaf
 *          is okay here.  So, you always need to check the range.
 * @remarks The upper range limit is take from the intel docs.
 */
DECLINLINE(bool) ASMIsValidHypervisorRange(uint32_t uEAX)
{
    return uEAX >= UINT32_C(0x40000000) && uEAX <= UINT32_C(0x4fffffff);
}


/**
 * Extracts the CPU family from ASMCpuId(1) or ASMCpuId(0x80000001)
 *
 * @returns Family.
 * @param   uEAX    EAX return from ASMCpuId(1) or ASMCpuId(0x80000001).
 */
DECLINLINE(uint32_t) ASMGetCpuFamily(uint32_t uEAX)
{
    return ((uEAX >> 8) & 0xf) == 0xf
         ? ((uEAX >> 20) & 0x7f) + 0xf
         : ((uEAX >> 8) & 0xf);
}


/**
 * Extracts the CPU model from ASMCpuId(1) or ASMCpuId(0x80000001), Intel variant.
 *
 * @returns Model.
 * @param   uEAX    EAX from ASMCpuId(1) or ASMCpuId(0x80000001).
 */
DECLINLINE(uint32_t) ASMGetCpuModelIntel(uint32_t uEAX)
{
    return ((uEAX >> 8) & 0xf) == 0xf || (((uEAX >> 8) & 0xf) == 0x6) /* family! */
         ? ((uEAX >> 4) & 0xf) | ((uEAX >> 12) & 0xf0)
         : ((uEAX >> 4) & 0xf);
}


/**
 * Extracts the CPU model from ASMCpuId(1) or ASMCpuId(0x80000001), AMD variant.
 *
 * @returns Model.
 * @param   uEAX    EAX from ASMCpuId(1) or ASMCpuId(0x80000001).
 */
DECLINLINE(uint32_t) ASMGetCpuModelAMD(uint32_t uEAX)
{
    return ((uEAX >> 8) & 0xf) == 0xf
         ? ((uEAX >> 4) & 0xf) | ((uEAX >> 12) & 0xf0)
         : ((uEAX >> 4) & 0xf);
}


/**
 * Extracts the CPU model from ASMCpuId(1) or ASMCpuId(0x80000001)
 *
 * @returns Model.
 * @param   uEAX    EAX from ASMCpuId(1) or ASMCpuId(0x80000001).
 * @param   fIntel  Whether it's an intel CPU. Use ASMIsIntelCpuEx() or ASMIsIntelCpu().
 */
DECLINLINE(uint32_t) ASMGetCpuModel(uint32_t uEAX, bool fIntel)
{
    return ((uEAX >> 8) & 0xf) == 0xf || (((uEAX >> 8) & 0xf) == 0x6 && fIntel) /* family! */
         ? ((uEAX >> 4) & 0xf) | ((uEAX >> 12) & 0xf0)
         : ((uEAX >> 4) & 0xf);
}


/**
 * Extracts the CPU stepping from ASMCpuId(1) or ASMCpuId(0x80000001)
 *
 * @returns Model.
 * @param   uEAX    EAX from ASMCpuId(1) or ASMCpuId(0x80000001).
 */
DECLINLINE(uint32_t) ASMGetCpuStepping(uint32_t uEAX)
{
    return uEAX & 0xf;
}


/**
 * Get cr0.
 * @returns cr0.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetCR0(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetCR0(void)
{
    RTCCUINTXREG uCR0;
# if RT_INLINE_ASM_USES_INTRIN
    uCR0 = __readcr0();

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq  %%cr0, %0\t\n" : "=r" (uCR0));
#  else
    __asm__ __volatile__("movl  %%cr0, %0\t\n" : "=r" (uCR0));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, cr0
        mov     [uCR0], rax
#  else
        mov     eax, cr0
        mov     [uCR0], eax
#  endif
    }
# endif
    return uCR0;
}
#endif


/**
 * Sets the CR0 register.
 * @param   uCR0 The new CR0 value.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetCR0(RTCCUINTXREG uCR0);
#else
DECLINLINE(void) ASMSetCR0(RTCCUINTXREG uCR0)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writecr0(uCR0);

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq %0, %%cr0\n\t" :: "r" (uCR0));
#  else
    __asm__ __volatile__("movl %0, %%cr0\n\t" :: "r" (uCR0));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uCR0]
        mov     cr0, rax
#  else
        mov     eax, [uCR0]
        mov     cr0, eax
#  endif
    }
# endif
}
#endif


/**
 * Get cr2.
 * @returns cr2.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetCR2(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetCR2(void)
{
    RTCCUINTXREG uCR2;
# if RT_INLINE_ASM_USES_INTRIN
    uCR2 = __readcr2();

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq  %%cr2, %0\t\n" : "=r" (uCR2));
#  else
    __asm__ __volatile__("movl  %%cr2, %0\t\n" : "=r" (uCR2));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, cr2
        mov     [uCR2], rax
#  else
        mov     eax, cr2
        mov     [uCR2], eax
#  endif
    }
# endif
    return uCR2;
}
#endif


/**
 * Sets the CR2 register.
 * @param   uCR2 The new CR0 value.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetCR2(RTCCUINTXREG uCR2);
#else
DECLINLINE(void) ASMSetCR2(RTCCUINTXREG uCR2)
{
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq %0, %%cr2\n\t" :: "r" (uCR2));
#  else
    __asm__ __volatile__("movl %0, %%cr2\n\t" :: "r" (uCR2));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uCR2]
        mov     cr2, rax
#  else
        mov     eax, [uCR2]
        mov     cr2, eax
#  endif
    }
# endif
}
#endif


/**
 * Get cr3.
 * @returns cr3.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetCR3(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetCR3(void)
{
    RTCCUINTXREG uCR3;
# if RT_INLINE_ASM_USES_INTRIN
    uCR3 = __readcr3();

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq  %%cr3, %0\t\n" : "=r" (uCR3));
#  else
    __asm__ __volatile__("movl  %%cr3, %0\t\n" : "=r" (uCR3));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, cr3
        mov     [uCR3], rax
#  else
        mov     eax, cr3
        mov     [uCR3], eax
#  endif
    }
# endif
    return uCR3;
}
#endif


/**
 * Sets the CR3 register.
 *
 * @param   uCR3    New CR3 value.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetCR3(RTCCUINTXREG uCR3);
#else
DECLINLINE(void) ASMSetCR3(RTCCUINTXREG uCR3)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writecr3(uCR3);

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq %0, %%cr3\n\t" : : "r" (uCR3));
#  else
    __asm__ __volatile__("movl %0, %%cr3\n\t" : : "r" (uCR3));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uCR3]
        mov     cr3, rax
#  else
        mov     eax, [uCR3]
        mov     cr3, eax
#  endif
    }
# endif
}
#endif


/**
 * Reloads the CR3 register.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMReloadCR3(void);
#else
DECLINLINE(void) ASMReloadCR3(void)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writecr3(__readcr3());

# elif RT_INLINE_ASM_GNU_STYLE
    RTCCUINTXREG u;
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq %%cr3, %0\n\t"
                         "movq %0, %%cr3\n\t"
                         : "=r" (u));
#  else
    __asm__ __volatile__("movl %%cr3, %0\n\t"
                         "movl %0, %%cr3\n\t"
                         : "=r" (u));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, cr3
        mov     cr3, rax
#  else
        mov     eax, cr3
        mov     cr3, eax
#  endif
    }
# endif
}
#endif


/**
 * Get cr4.
 * @returns cr4.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetCR4(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetCR4(void)
{
    RTCCUINTXREG uCR4;
# if RT_INLINE_ASM_USES_INTRIN
    uCR4 = __readcr4();

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq  %%cr4, %0\t\n" : "=r" (uCR4));
#  else
    __asm__ __volatile__("movl  %%cr4, %0\t\n" : "=r" (uCR4));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, cr4
        mov     [uCR4], rax
#  else
        push    eax /* just in case */
        /*mov     eax, cr4*/
        _emit   0x0f
        _emit   0x20
        _emit   0xe0
        mov     [uCR4], eax
        pop     eax
#  endif
    }
# endif
    return uCR4;
}
#endif


/**
 * Sets the CR4 register.
 *
 * @param   uCR4    New CR4 value.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetCR4(RTCCUINTXREG uCR4);
#else
DECLINLINE(void) ASMSetCR4(RTCCUINTXREG uCR4)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writecr4(uCR4);

# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq %0, %%cr4\n\t" : : "r" (uCR4));
#  else
    __asm__ __volatile__("movl %0, %%cr4\n\t" : : "r" (uCR4));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uCR4]
        mov     cr4, rax
#  else
        mov     eax, [uCR4]
        _emit   0x0F
        _emit   0x22
        _emit   0xE0        /* mov     cr4, eax */
#  endif
    }
# endif
}
#endif


/**
 * Get cr8.
 * @returns cr8.
 * @remark  The lock prefix hack for access from non-64-bit modes is NOT used and 0 is returned.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
DECLASM(RTCCUINTXREG) ASMGetCR8(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetCR8(void)
{
# ifdef RT_ARCH_AMD64
    RTCCUINTXREG uCR8;
#  if RT_INLINE_ASM_USES_INTRIN
    uCR8 = __readcr8();

#  elif RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("movq  %%cr8, %0\t\n" : "=r" (uCR8));
#  else
    __asm
    {
        mov     rax, cr8
        mov     [uCR8], rax
    }
#  endif
    return uCR8;
# else /* !RT_ARCH_AMD64 */
    return 0;
# endif /* !RT_ARCH_AMD64 */
}
#endif


/**
 * Get XCR0 (eXtended feature Control Register 0).
 * @returns xcr0.
 */
DECLASM(uint64_t) ASMGetXcr0(void);

/**
 * Sets the XCR0 register.
 * @param   uXcr0   The new XCR0 value.
 */
DECLASM(void) ASMSetXcr0(uint64_t uXcr0);

struct X86XSAVEAREA;
/**
 * Save extended CPU state.
 * @param   pXStateArea     Where to save the state.
 * @param   fComponents     Which state components to save.
 */
DECLASM(void) ASMXSave(struct X86XSAVEAREA RT_FAR *pXStateArea, uint64_t fComponents);

/**
 * Loads extended CPU state.
 * @param   pXStateArea     Where to load the state from.
 * @param   fComponents     Which state components to load.
 */
DECLASM(void) ASMXRstor(struct X86XSAVEAREA const RT_FAR *pXStateArea, uint64_t fComponents);


struct X86FXSTATE;
/**
 * Save FPU and SSE CPU state.
 * @param   pXStateArea     Where to save the state.
 */
DECLASM(void) ASMFxSave(struct X86FXSTATE RT_FAR *pXStateArea);

/**
 * Load FPU and SSE CPU state.
 * @param   pXStateArea     Where to load the state from.
 */
DECLASM(void) ASMFxRstor(struct X86FXSTATE const RT_FAR *pXStateArea);


/**
 * Enables interrupts (EFLAGS.IF).
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMIntEnable(void);
#else
DECLINLINE(void) ASMIntEnable(void)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm("sti\n");
# elif RT_INLINE_ASM_USES_INTRIN
    _enable();
# else
    __asm sti
# endif
}
#endif


/**
 * Disables interrupts (!EFLAGS.IF).
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMIntDisable(void);
#else
DECLINLINE(void) ASMIntDisable(void)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm("cli\n");
# elif RT_INLINE_ASM_USES_INTRIN
    _disable();
# else
    __asm cli
# endif
}
#endif


/**
 * Disables interrupts and returns previous xFLAGS.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTREG) ASMIntDisableFlags(void);
#else
DECLINLINE(RTCCUINTREG) ASMIntDisableFlags(void)
{
    RTCCUINTREG xFlags;
# if RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("pushfq\n\t"
                         "cli\n\t"
                         "popq  %0\n\t"
                         : "=r" (xFlags));
#  else
    __asm__ __volatile__("pushfl\n\t"
                         "cli\n\t"
                         "popl  %0\n\t"
                         : "=r" (xFlags));
#  endif
# elif RT_INLINE_ASM_USES_INTRIN && !defined(RT_ARCH_X86)
    xFlags = ASMGetFlags();
    _disable();
# else
    __asm {
        pushfd
        cli
        pop  [xFlags]
    }
# endif
    return xFlags;
}
#endif


/**
 * Are interrupts enabled?
 *
 * @returns true / false.
 */
DECLINLINE(bool) ASMIntAreEnabled(void)
{
    RTCCUINTREG uFlags = ASMGetFlags();
    return uFlags & 0x200 /* X86_EFL_IF */ ? true : false;
}


/**
 * Halts the CPU until interrupted.
 */
#if RT_INLINE_ASM_EXTERNAL && RT_INLINE_ASM_USES_INTRIN < 14
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMHalt(void);
#else
DECLINLINE(void) ASMHalt(void)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("hlt\n\t");
# elif RT_INLINE_ASM_USES_INTRIN
    __halt();
# else
    __asm {
        hlt
    }
# endif
}
#endif


/**
 * Reads a machine specific register.
 *
 * @returns Register content.
 * @param   uRegister   Register to read.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint64_t) ASMRdMsr(uint32_t uRegister);
#else
DECLINLINE(uint64_t) ASMRdMsr(uint32_t uRegister)
{
    RTUINT64U u;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rdmsr\n\t"
                         : "=a" (u.s.Lo),
                           "=d" (u.s.Hi)
                         : "c" (uRegister));

# elif RT_INLINE_ASM_USES_INTRIN
    u.u = __readmsr(uRegister);

# else
    __asm
    {
        mov     ecx, [uRegister]
        rdmsr
        mov     [u.s.Lo], eax
        mov     [u.s.Hi], edx
    }
# endif

    return u.u;
}
#endif


/**
 * Writes a machine specific register.
 *
 * @returns Register content.
 * @param   uRegister   Register to write to.
 * @param   u64Val      Value to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMWrMsr(uint32_t uRegister, uint64_t u64Val);
#else
DECLINLINE(void) ASMWrMsr(uint32_t uRegister, uint64_t u64Val)
{
    RTUINT64U u;

    u.u = u64Val;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("wrmsr\n\t"
                         ::"a" (u.s.Lo),
                           "d" (u.s.Hi),
                           "c" (uRegister));

# elif RT_INLINE_ASM_USES_INTRIN
    __writemsr(uRegister, u.u);

# else
    __asm
    {
        mov     ecx, [uRegister]
        mov     edx, [u.s.Hi]
        mov     eax, [u.s.Lo]
        wrmsr
    }
# endif
}
#endif


/**
 * Reads a machine specific register, extended version (for AMD).
 *
 * @returns Register content.
 * @param   uRegister   Register to read.
 * @param   uXDI        RDI/EDI value.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(uint64_t) ASMRdMsrEx(uint32_t uRegister, RTCCUINTXREG uXDI);
#else
DECLINLINE(uint64_t) ASMRdMsrEx(uint32_t uRegister, RTCCUINTXREG uXDI)
{
    RTUINT64U u;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rdmsr\n\t"
                         : "=a" (u.s.Lo),
                           "=d" (u.s.Hi)
                         : "c" (uRegister),
                           "D" (uXDI));

# else
    __asm
    {
        mov     ecx, [uRegister]
        xchg    edi, [uXDI]
        rdmsr
        mov     [u.s.Lo], eax
        mov     [u.s.Hi], edx
        xchg    edi, [uXDI]
    }
# endif

    return u.u;
}
#endif


/**
 * Writes a machine specific register, extended version (for AMD).
 *
 * @returns Register content.
 * @param   uRegister   Register to write to.
 * @param   uXDI        RDI/EDI value.
 * @param   u64Val      Value to write.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMWrMsrEx(uint32_t uRegister, RTCCUINTXREG uXDI, uint64_t u64Val);
#else
DECLINLINE(void) ASMWrMsrEx(uint32_t uRegister, RTCCUINTXREG uXDI, uint64_t u64Val)
{
    RTUINT64U u;

    u.u = u64Val;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("wrmsr\n\t"
                         ::"a" (u.s.Lo),
                           "d" (u.s.Hi),
                           "c" (uRegister),
                           "D" (uXDI));

# else
    __asm
    {
        mov     ecx, [uRegister]
        xchg    edi, [uXDI]
        mov     edx, [u.s.Hi]
        mov     eax, [u.s.Lo]
        wrmsr
        xchg    edi, [uXDI]
    }
# endif
}
#endif



/**
 * Reads low part of a machine specific register.
 *
 * @returns Register content.
 * @param   uRegister   Register to read.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMRdMsr_Low(uint32_t uRegister);
#else
DECLINLINE(uint32_t) ASMRdMsr_Low(uint32_t uRegister)
{
    uint32_t u32;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rdmsr\n\t"
                         : "=a" (u32)
                         : "c" (uRegister)
                         : "edx");

# elif RT_INLINE_ASM_USES_INTRIN
    u32 = (uint32_t)__readmsr(uRegister);

#else
    __asm
    {
        mov     ecx, [uRegister]
        rdmsr
        mov     [u32], eax
    }
# endif

    return u32;
}
#endif


/**
 * Reads high part of a machine specific register.
 *
 * @returns Register content.
 * @param   uRegister   Register to read.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMRdMsr_High(uint32_t uRegister);
#else
DECLINLINE(uint32_t) ASMRdMsr_High(uint32_t uRegister)
{
    uint32_t    u32;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rdmsr\n\t"
                         : "=d" (u32)
                         : "c" (uRegister)
                         : "eax");

# elif RT_INLINE_ASM_USES_INTRIN
    u32 = (uint32_t)(__readmsr(uRegister) >> 32);

# else
    __asm
    {
        mov     ecx, [uRegister]
        rdmsr
        mov     [u32], edx
    }
# endif

    return u32;
}
#endif


/**
 * Gets dr0.
 *
 * @returns dr0.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetDR0(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetDR0(void)
{
    RTCCUINTXREG uDR0;
# if RT_INLINE_ASM_USES_INTRIN
    uDR0 = __readdr(0);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr0, %0\n\t" : "=r" (uDR0));
#  else
    __asm__ __volatile__("movl   %%dr0, %0\n\t" : "=r" (uDR0));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr0
        mov     [uDR0], rax
#  else
        mov     eax, dr0
        mov     [uDR0], eax
#  endif
    }
# endif
    return uDR0;
}
#endif


/**
 * Gets dr1.
 *
 * @returns dr1.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetDR1(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetDR1(void)
{
    RTCCUINTXREG uDR1;
# if RT_INLINE_ASM_USES_INTRIN
    uDR1 = __readdr(1);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr1, %0\n\t" : "=r" (uDR1));
#  else
    __asm__ __volatile__("movl   %%dr1, %0\n\t" : "=r" (uDR1));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr1
        mov     [uDR1], rax
#  else
        mov     eax, dr1
        mov     [uDR1], eax
#  endif
    }
# endif
    return uDR1;
}
#endif


/**
 * Gets dr2.
 *
 * @returns dr2.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetDR2(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetDR2(void)
{
    RTCCUINTXREG uDR2;
# if RT_INLINE_ASM_USES_INTRIN
    uDR2 = __readdr(2);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr2, %0\n\t" : "=r" (uDR2));
#  else
    __asm__ __volatile__("movl   %%dr2, %0\n\t" : "=r" (uDR2));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr2
        mov     [uDR2], rax
#  else
        mov     eax, dr2
        mov     [uDR2], eax
#  endif
    }
# endif
    return uDR2;
}
#endif


/**
 * Gets dr3.
 *
 * @returns dr3.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetDR3(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetDR3(void)
{
    RTCCUINTXREG uDR3;
# if RT_INLINE_ASM_USES_INTRIN
    uDR3 = __readdr(3);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr3, %0\n\t" : "=r" (uDR3));
#  else
    __asm__ __volatile__("movl   %%dr3, %0\n\t" : "=r" (uDR3));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr3
        mov     [uDR3], rax
#  else
        mov     eax, dr3
        mov     [uDR3], eax
#  endif
    }
# endif
    return uDR3;
}
#endif


/**
 * Gets dr6.
 *
 * @returns dr6.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetDR6(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetDR6(void)
{
    RTCCUINTXREG uDR6;
# if RT_INLINE_ASM_USES_INTRIN
    uDR6 = __readdr(6);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr6, %0\n\t" : "=r" (uDR6));
#  else
    __asm__ __volatile__("movl   %%dr6, %0\n\t" : "=r" (uDR6));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr6
        mov     [uDR6], rax
#  else
        mov     eax, dr6
        mov     [uDR6], eax
#  endif
    }
# endif
    return uDR6;
}
#endif


/**
 * Reads and clears DR6.
 *
 * @returns DR6.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetAndClearDR6(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetAndClearDR6(void)
{
    RTCCUINTXREG uDR6;
# if RT_INLINE_ASM_USES_INTRIN
    uDR6 = __readdr(6);
    __writedr(6, 0xffff0ff0U);          /* 31-16 and 4-11 are 1's, 12 and 63-31 are zero. */
# elif RT_INLINE_ASM_GNU_STYLE
    RTCCUINTXREG uNewValue = 0xffff0ff0U;/* 31-16 and 4-11 are 1's, 12 and 63-31 are zero. */
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr6, %0\n\t"
                         "movq   %1, %%dr6\n\t"
                         : "=r" (uDR6)
                         : "r" (uNewValue));
#  else
    __asm__ __volatile__("movl   %%dr6, %0\n\t"
                         "movl   %1, %%dr6\n\t"
                         : "=r" (uDR6)
                         : "r" (uNewValue));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr6
        mov     [uDR6], rax
        mov     rcx, rax
        mov     ecx, 0ffff0ff0h;        /* 31-16 and 4-11 are 1's, 12 and 63-31 are zero. */
        mov     dr6, rcx
#  else
        mov     eax, dr6
        mov     [uDR6], eax
        mov     ecx, 0ffff0ff0h;        /* 31-16 and 4-11 are 1's, 12 is zero. */
        mov     dr6, ecx
#  endif
    }
# endif
    return uDR6;
}
#endif


/**
 * Gets dr7.
 *
 * @returns dr7.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(RTCCUINTXREG) ASMGetDR7(void);
#else
DECLINLINE(RTCCUINTXREG) ASMGetDR7(void)
{
    RTCCUINTXREG uDR7;
# if RT_INLINE_ASM_USES_INTRIN
    uDR7 = __readdr(7);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %%dr7, %0\n\t" : "=r" (uDR7));
#  else
    __asm__ __volatile__("movl   %%dr7, %0\n\t" : "=r" (uDR7));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, dr7
        mov     [uDR7], rax
#  else
        mov     eax, dr7
        mov     [uDR7], eax
#  endif
    }
# endif
    return uDR7;
}
#endif


/**
 * Sets dr0.
 *
 * @param   uDRVal   Debug register value to write
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetDR0(RTCCUINTXREG uDRVal);
#else
DECLINLINE(void) ASMSetDR0(RTCCUINTXREG uDRVal)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writedr(0, uDRVal);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %0, %%dr0\n\t" : : "r" (uDRVal));
#  else
    __asm__ __volatile__("movl   %0, %%dr0\n\t" : : "r" (uDRVal));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uDRVal]
        mov     dr0, rax
#  else
        mov     eax, [uDRVal]
        mov     dr0, eax
#  endif
    }
# endif
}
#endif


/**
 * Sets dr1.
 *
 * @param   uDRVal   Debug register value to write
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetDR1(RTCCUINTXREG uDRVal);
#else
DECLINLINE(void) ASMSetDR1(RTCCUINTXREG uDRVal)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writedr(1, uDRVal);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %0, %%dr1\n\t" : : "r" (uDRVal));
#  else
    __asm__ __volatile__("movl   %0, %%dr1\n\t" : : "r" (uDRVal));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uDRVal]
        mov     dr1, rax
#  else
        mov     eax, [uDRVal]
        mov     dr1, eax
#  endif
    }
# endif
}
#endif


/**
 * Sets dr2.
 *
 * @param   uDRVal   Debug register value to write
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetDR2(RTCCUINTXREG uDRVal);
#else
DECLINLINE(void) ASMSetDR2(RTCCUINTXREG uDRVal)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writedr(2, uDRVal);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %0, %%dr2\n\t" : : "r" (uDRVal));
#  else
    __asm__ __volatile__("movl   %0, %%dr2\n\t" : : "r" (uDRVal));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uDRVal]
        mov     dr2, rax
#  else
        mov     eax, [uDRVal]
        mov     dr2, eax
#  endif
    }
# endif
}
#endif


/**
 * Sets dr3.
 *
 * @param   uDRVal   Debug register value to write
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetDR3(RTCCUINTXREG uDRVal);
#else
DECLINLINE(void) ASMSetDR3(RTCCUINTXREG uDRVal)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writedr(3, uDRVal);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %0, %%dr3\n\t" : : "r" (uDRVal));
#  else
    __asm__ __volatile__("movl   %0, %%dr3\n\t" : : "r" (uDRVal));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uDRVal]
        mov     dr3, rax
#  else
        mov     eax, [uDRVal]
        mov     dr3, eax
#  endif
    }
# endif
}
#endif


/**
 * Sets dr6.
 *
 * @param   uDRVal   Debug register value to write
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetDR6(RTCCUINTXREG uDRVal);
#else
DECLINLINE(void) ASMSetDR6(RTCCUINTXREG uDRVal)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writedr(6, uDRVal);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %0, %%dr6\n\t" : : "r" (uDRVal));
#  else
    __asm__ __volatile__("movl   %0, %%dr6\n\t" : : "r" (uDRVal));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uDRVal]
        mov     dr6, rax
#  else
        mov     eax, [uDRVal]
        mov     dr6, eax
#  endif
    }
# endif
}
#endif


/**
 * Sets dr7.
 *
 * @param   uDRVal   Debug register value to write
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMSetDR7(RTCCUINTXREG uDRVal);
#else
DECLINLINE(void) ASMSetDR7(RTCCUINTXREG uDRVal)
{
# if RT_INLINE_ASM_USES_INTRIN
    __writedr(7, uDRVal);
# elif RT_INLINE_ASM_GNU_STYLE
#  ifdef RT_ARCH_AMD64
    __asm__ __volatile__("movq   %0, %%dr7\n\t" : : "r" (uDRVal));
#  else
    __asm__ __volatile__("movl   %0, %%dr7\n\t" : : "r" (uDRVal));
#  endif
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uDRVal]
        mov     dr7, rax
#  else
        mov     eax, [uDRVal]
        mov     dr7, eax
#  endif
    }
# endif
}
#endif


/**
 * Writes a 8-bit unsigned integer to an I/O port, ordered.
 *
 * @param   Port    I/O port to write to.
 * @param   u8      8-bit integer to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMOutU8(RTIOPORT Port, uint8_t u8);
#else
DECLINLINE(void) ASMOutU8(RTIOPORT Port, uint8_t u8)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("outb %b1, %w0\n\t"
                         :: "Nd" (Port),
                            "a" (u8));

# elif RT_INLINE_ASM_USES_INTRIN
    __outbyte(Port, u8);

# else
    __asm
    {
        mov     dx, [Port]
        mov     al, [u8]
        out     dx, al
    }
# endif
}
#endif


/**
 * Reads a 8-bit unsigned integer from an I/O port, ordered.
 *
 * @returns 8-bit integer.
 * @param   Port    I/O port to read from.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint8_t) ASMInU8(RTIOPORT Port);
#else
DECLINLINE(uint8_t) ASMInU8(RTIOPORT Port)
{
    uint8_t u8;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("inb %w1, %b0\n\t"
                         : "=a" (u8)
                         : "Nd" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    u8 = __inbyte(Port);

# else
    __asm
    {
        mov     dx, [Port]
        in      al, dx
        mov     [u8], al
    }
# endif
    return u8;
}
#endif


/**
 * Writes a 16-bit unsigned integer to an I/O port, ordered.
 *
 * @param   Port    I/O port to write to.
 * @param   u16     16-bit integer to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMOutU16(RTIOPORT Port, uint16_t u16);
#else
DECLINLINE(void) ASMOutU16(RTIOPORT Port, uint16_t u16)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("outw %w1, %w0\n\t"
                         :: "Nd" (Port),
                            "a" (u16));

# elif RT_INLINE_ASM_USES_INTRIN
    __outword(Port, u16);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ax, [u16]
        out     dx, ax
    }
# endif
}
#endif


/**
 * Reads a 16-bit unsigned integer from an I/O port, ordered.
 *
 * @returns 16-bit integer.
 * @param   Port    I/O port to read from.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint16_t) ASMInU16(RTIOPORT Port);
#else
DECLINLINE(uint16_t) ASMInU16(RTIOPORT Port)
{
    uint16_t u16;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("inw %w1, %w0\n\t"
                         : "=a" (u16)
                         : "Nd" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    u16 = __inword(Port);

# else
    __asm
    {
        mov     dx, [Port]
        in      ax, dx
        mov     [u16], ax
    }
# endif
    return u16;
}
#endif


/**
 * Writes a 32-bit unsigned integer to an I/O port, ordered.
 *
 * @param   Port    I/O port to write to.
 * @param   u32     32-bit integer to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMOutU32(RTIOPORT Port, uint32_t u32);
#else
DECLINLINE(void) ASMOutU32(RTIOPORT Port, uint32_t u32)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("outl %1, %w0\n\t"
                         :: "Nd" (Port),
                            "a" (u32));

# elif RT_INLINE_ASM_USES_INTRIN
    __outdword(Port, u32);

# else
    __asm
    {
        mov     dx, [Port]
        mov     eax, [u32]
        out     dx, eax
    }
# endif
}
#endif


/**
 * Reads a 32-bit unsigned integer from an I/O port, ordered.
 *
 * @returns 32-bit integer.
 * @param   Port    I/O port to read from.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(uint32_t) ASMInU32(RTIOPORT Port);
#else
DECLINLINE(uint32_t) ASMInU32(RTIOPORT Port)
{
    uint32_t u32;
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("inl %w1, %0\n\t"
                         : "=a" (u32)
                         : "Nd" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    u32 = __indword(Port);

# else
    __asm
    {
        mov     dx, [Port]
        in      eax, dx
        mov     [u32], eax
    }
# endif
    return u32;
}
#endif


/**
 * Writes a string of 8-bit unsigned integer items to an I/O port, ordered.
 *
 * @param   Port    I/O port to write to.
 * @param   pau8    Pointer to the string buffer.
 * @param   c       The number of items to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMOutStrU8(RTIOPORT Port, uint8_t const RT_FAR *pau8, size_t c);
#else
DECLINLINE(void) ASMOutStrU8(RTIOPORT Port, uint8_t const RT_FAR *pau8, size_t c)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rep; outsb\n\t"
                         : "+S" (pau8),
                           "+c" (c)
                         : "d" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    __outbytestring(Port, (unsigned char RT_FAR *)pau8, (unsigned long)c);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ecx, [c]
        mov     eax, [pau8]
        xchg    esi, eax
        rep outsb
        xchg    esi, eax
    }
# endif
}
#endif


/**
 * Reads a string of 8-bit unsigned integer items from an I/O port, ordered.
 *
 * @param   Port    I/O port to read from.
 * @param   pau8    Pointer to the string buffer (output).
 * @param   c       The number of items to read.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMInStrU8(RTIOPORT Port, uint8_t RT_FAR *pau8, size_t c);
#else
DECLINLINE(void) ASMInStrU8(RTIOPORT Port, uint8_t RT_FAR *pau8, size_t c)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rep; insb\n\t"
                         : "+D" (pau8),
                           "+c" (c)
                         : "d" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    __inbytestring(Port, pau8, (unsigned long)c);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ecx, [c]
        mov     eax, [pau8]
        xchg    edi, eax
        rep insb
        xchg    edi, eax
    }
# endif
}
#endif


/**
 * Writes a string of 16-bit unsigned integer items to an I/O port, ordered.
 *
 * @param   Port    I/O port to write to.
 * @param   pau16   Pointer to the string buffer.
 * @param   c       The number of items to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMOutStrU16(RTIOPORT Port, uint16_t const RT_FAR *pau16, size_t c);
#else
DECLINLINE(void) ASMOutStrU16(RTIOPORT Port, uint16_t const RT_FAR *pau16, size_t c)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rep; outsw\n\t"
                         : "+S" (pau16),
                           "+c" (c)
                         : "d" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    __outwordstring(Port, (unsigned short RT_FAR *)pau16, (unsigned long)c);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ecx, [c]
        mov     eax, [pau16]
        xchg    esi, eax
        rep outsw
        xchg    esi, eax
    }
# endif
}
#endif


/**
 * Reads a string of 16-bit unsigned integer items from an I/O port, ordered.
 *
 * @param   Port    I/O port to read from.
 * @param   pau16   Pointer to the string buffer (output).
 * @param   c       The number of items to read.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMInStrU16(RTIOPORT Port, uint16_t RT_FAR *pau16, size_t c);
#else
DECLINLINE(void) ASMInStrU16(RTIOPORT Port, uint16_t RT_FAR *pau16, size_t c)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rep; insw\n\t"
                         : "+D" (pau16),
                           "+c" (c)
                         : "d" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    __inwordstring(Port, pau16, (unsigned long)c);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ecx, [c]
        mov     eax, [pau16]
        xchg    edi, eax
        rep insw
        xchg    edi, eax
    }
# endif
}
#endif


/**
 * Writes a string of 32-bit unsigned integer items to an I/O port, ordered.
 *
 * @param   Port    I/O port to write to.
 * @param   pau32   Pointer to the string buffer.
 * @param   c       The number of items to write.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMOutStrU32(RTIOPORT Port, uint32_t const RT_FAR *pau32, size_t c);
#else
DECLINLINE(void) ASMOutStrU32(RTIOPORT Port, uint32_t const RT_FAR *pau32, size_t c)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rep; outsl\n\t"
                         : "+S" (pau32),
                           "+c" (c)
                         : "d" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    __outdwordstring(Port, (unsigned long RT_FAR *)pau32, (unsigned long)c);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ecx, [c]
        mov     eax, [pau32]
        xchg    esi, eax
        rep outsd
        xchg    esi, eax
    }
# endif
}
#endif


/**
 * Reads a string of 32-bit unsigned integer items from an I/O port, ordered.
 *
 * @param   Port    I/O port to read from.
 * @param   pau32   Pointer to the string buffer (output).
 * @param   c       The number of items to read.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMInStrU32(RTIOPORT Port, uint32_t RT_FAR *pau32, size_t c);
#else
DECLINLINE(void) ASMInStrU32(RTIOPORT Port, uint32_t RT_FAR *pau32, size_t c)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("rep; insl\n\t"
                         : "+D" (pau32),
                           "+c" (c)
                         : "d" (Port));

# elif RT_INLINE_ASM_USES_INTRIN
    __indwordstring(Port, (unsigned long RT_FAR *)pau32, (unsigned long)c);

# else
    __asm
    {
        mov     dx, [Port]
        mov     ecx, [c]
        mov     eax, [pau32]
        xchg    edi, eax
        rep insd
        xchg    edi, eax
    }
# endif
}
#endif


/**
 * Invalidate page.
 *
 * @param   uPtr    Address of the page to invalidate.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMInvalidatePage(RTCCUINTXREG uPtr);
#else
DECLINLINE(void) ASMInvalidatePage(RTCCUINTXREG uPtr)
{
# if RT_INLINE_ASM_USES_INTRIN
    __invlpg((void RT_FAR *)uPtr);

# elif RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("invlpg %0\n\t"
                         : : "m" (*(uint8_t RT_FAR *)(uintptr_t)uPtr));
# else
    __asm
    {
#  ifdef RT_ARCH_AMD64
        mov     rax, [uPtr]
        invlpg  [rax]
#  else
        mov     eax, [uPtr]
        invlpg  [eax]
#  endif
    }
# endif
}
#endif


/**
 * Write back the internal caches and invalidate them.
 */
#if RT_INLINE_ASM_EXTERNAL && !RT_INLINE_ASM_USES_INTRIN
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMWriteBackAndInvalidateCaches(void);
#else
DECLINLINE(void) ASMWriteBackAndInvalidateCaches(void)
{
# if RT_INLINE_ASM_USES_INTRIN
    __wbinvd();

# elif RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("wbinvd");
# else
    __asm
    {
        wbinvd
    }
# endif
}
#endif


/**
 * Invalidate internal and (perhaps) external caches without first
 * flushing dirty cache lines. Use with extreme care.
 */
#if RT_INLINE_ASM_EXTERNAL
RT_ASM_DECL_PRAGMA_WATCOM(void) ASMInvalidateInternalCaches(void);
#else
DECLINLINE(void) ASMInvalidateInternalCaches(void)
{
# if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__("invd");
# else
    __asm
    {
        invd
    }
# endif
}
#endif


/**
 * Memory load/store fence, waits for any pending writes and reads to complete.
 * Requires the X86_CPUID_FEATURE_EDX_SSE2 CPUID bit set.
 */
DECLINLINE(void) ASMMemoryFenceSSE2(void)
{
#if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__ (".byte 0x0f,0xae,0xf0\n\t");
#elif RT_INLINE_ASM_USES_INTRIN
    _mm_mfence();
#else
    __asm
    {
        _emit   0x0f
        _emit   0xae
        _emit   0xf0
    }
#endif
}


/**
 * Memory store fence, waits for any writes to complete.
 * Requires the X86_CPUID_FEATURE_EDX_SSE CPUID bit set.
 */
DECLINLINE(void) ASMWriteFenceSSE(void)
{
#if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__ (".byte 0x0f,0xae,0xf8\n\t");
#elif RT_INLINE_ASM_USES_INTRIN
    _mm_sfence();
#else
    __asm
    {
        _emit   0x0f
        _emit   0xae
        _emit   0xf8
    }
#endif
}


/**
 * Memory load fence, waits for any pending reads to complete.
 * Requires the X86_CPUID_FEATURE_EDX_SSE2 CPUID bit set.
 */
DECLINLINE(void) ASMReadFenceSSE2(void)
{
#if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__ (".byte 0x0f,0xae,0xe8\n\t");
#elif RT_INLINE_ASM_USES_INTRIN
    _mm_lfence();
#else
    __asm
    {
        _emit   0x0f
        _emit   0xae
        _emit   0xe8
    }
#endif
}

#if !defined(_MSC_VER) || !defined(RT_ARCH_AMD64)

/*
 * Clear the AC bit in the EFLAGS register.
 * Requires the X86_CPUID_STEXT_FEATURE_EBX_SMAP CPUID bit set.
 * Requires to be executed in R0.
 */
DECLINLINE(void) ASMClearAC(void)
{
#if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__ (".byte 0x0f,0x01,0xca\n\t");
#else
    __asm
    {
        _emit   0x0f
        _emit   0x01
        _emit   0xca
    }
#endif
}


/*
 * Set the AC bit in the EFLAGS register.
 * Requires the X86_CPUID_STEXT_FEATURE_EBX_SMAP CPUID bit set.
 * Requires to be executed in R0.
 */
DECLINLINE(void) ASMSetAC(void)
{
#if RT_INLINE_ASM_GNU_STYLE
    __asm__ __volatile__ (".byte 0x0f,0x01,0xcb\n\t");
#else
    __asm
    {
        _emit   0x0f
        _emit   0x01
        _emit   0xcb
    }
#endif
}

#endif /* !_MSC_VER || !RT_ARCH_AMD64 */


/*
 * Include #pragma aux definitions for Watcom C/C++.
 */
#if defined(__WATCOMC__) && ARCH_BITS == 16
# define IPRT_ASM_AMD64_X86_WATCOM_16_INSTANTIATE
# undef IPRT_INCLUDED_asm_amd64_x86_watcom_16_h
# include "asm-amd64-x86-watcom-16.h"
#elif defined(__WATCOMC__) && ARCH_BITS == 32
# define IPRT_ASM_AMD64_X86_WATCOM_32_INSTANTIATE
# undef IPRT_INCLUDED_asm_amd64_x86_watcom_32_h
# include "asm-amd64-x86-watcom-32.h"
#endif


/** @} */
#endif /* !IPRT_INCLUDED_asm_amd64_x86_h */