cpu-all.h 27.1 KB
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/*
 * defines common to all virtual CPUs
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 *
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 *  Copyright (c) 2003 Fabrice Bellard
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2 of the License, or (at your option) any later version.
 *
 * This library 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
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 */
#ifndef CPU_ALL_H
#define CPU_ALL_H

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#if defined(__arm__) || defined(__sparc__) || defined(__mips__) || defined(__hppa__)
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#define WORDS_ALIGNED
#endif

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/* some important defines:
 *
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 * WORDS_ALIGNED : if defined, the host cpu can only make word aligned
 * memory accesses.
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 *
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 * WORDS_BIGENDIAN : if defined, the host cpu is big endian and
 * otherwise little endian.
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 *
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 * (TARGET_WORDS_ALIGNED : same for target cpu (not supported yet))
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 *
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 * TARGET_WORDS_BIGENDIAN : same for target cpu
 */

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#include "bswap.h"
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#include "softfloat.h"
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#if defined(WORDS_BIGENDIAN) != defined(TARGET_WORDS_BIGENDIAN)
#define BSWAP_NEEDED
#endif

#ifdef BSWAP_NEEDED

static inline uint16_t tswap16(uint16_t s)
{
    return bswap16(s);
}

static inline uint32_t tswap32(uint32_t s)
{
    return bswap32(s);
}

static inline uint64_t tswap64(uint64_t s)
{
    return bswap64(s);
}

static inline void tswap16s(uint16_t *s)
{
    *s = bswap16(*s);
}

static inline void tswap32s(uint32_t *s)
{
    *s = bswap32(*s);
}

static inline void tswap64s(uint64_t *s)
{
    *s = bswap64(*s);
}

#else

static inline uint16_t tswap16(uint16_t s)
{
    return s;
}

static inline uint32_t tswap32(uint32_t s)
{
    return s;
}

static inline uint64_t tswap64(uint64_t s)
{
    return s;
}

static inline void tswap16s(uint16_t *s)
{
}

static inline void tswap32s(uint32_t *s)
{
}

static inline void tswap64s(uint64_t *s)
{
}

#endif

#if TARGET_LONG_SIZE == 4
#define tswapl(s) tswap32(s)
#define tswapls(s) tswap32s((uint32_t *)(s))
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#define bswaptls(s) bswap32s(s)
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#else
#define tswapl(s) tswap64(s)
#define tswapls(s) tswap64s((uint64_t *)(s))
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#define bswaptls(s) bswap64s(s)
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#endif

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typedef union {
    float32 f;
    uint32_t l;
} CPU_FloatU;

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/* NOTE: arm FPA is horrible as double 32 bit words are stored in big
   endian ! */
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typedef union {
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    float64 d;
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#if defined(WORDS_BIGENDIAN) \
    || (defined(__arm__) && !defined(__VFP_FP__) && !defined(CONFIG_SOFTFLOAT))
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    struct {
        uint32_t upper;
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        uint32_t lower;
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    } l;
#else
    struct {
        uint32_t lower;
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        uint32_t upper;
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    } l;
#endif
    uint64_t ll;
} CPU_DoubleU;

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#ifdef TARGET_SPARC
typedef union {
    float128 q;
#if defined(WORDS_BIGENDIAN) \
    || (defined(__arm__) && !defined(__VFP_FP__) && !defined(CONFIG_SOFTFLOAT))
    struct {
        uint32_t upmost;
        uint32_t upper;
        uint32_t lower;
        uint32_t lowest;
    } l;
    struct {
        uint64_t upper;
        uint64_t lower;
    } ll;
#else
    struct {
        uint32_t lowest;
        uint32_t lower;
        uint32_t upper;
        uint32_t upmost;
    } l;
    struct {
        uint64_t lower;
        uint64_t upper;
    } ll;
#endif
} CPU_QuadU;
#endif

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/* CPU memory access without any memory or io remapping */

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/*
 * the generic syntax for the memory accesses is:
 *
 * load: ld{type}{sign}{size}{endian}_{access_type}(ptr)
 *
 * store: st{type}{size}{endian}_{access_type}(ptr, val)
 *
 * type is:
 * (empty): integer access
 *   f    : float access
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 *
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 * sign is:
 * (empty): for floats or 32 bit size
 *   u    : unsigned
 *   s    : signed
 *
 * size is:
 *   b: 8 bits
 *   w: 16 bits
 *   l: 32 bits
 *   q: 64 bits
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 *
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 * endian is:
 * (empty): target cpu endianness or 8 bit access
 *   r    : reversed target cpu endianness (not implemented yet)
 *   be   : big endian (not implemented yet)
 *   le   : little endian (not implemented yet)
 *
 * access_type is:
 *   raw    : host memory access
 *   user   : user mode access using soft MMU
 *   kernel : kernel mode access using soft MMU
 */
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static inline int ldub_p(void *ptr)
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{
    return *(uint8_t *)ptr;
}

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static inline int ldsb_p(void *ptr)
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{
    return *(int8_t *)ptr;
}

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static inline void stb_p(void *ptr, int v)
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{
    *(uint8_t *)ptr = v;
}

/* NOTE: on arm, putting 2 in /proc/sys/debug/alignment so that the
   kernel handles unaligned load/stores may give better results, but
   it is a system wide setting : bad */
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#if defined(WORDS_BIGENDIAN) || defined(WORDS_ALIGNED)
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/* conservative code for little endian unaligned accesses */
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static inline int lduw_le_p(void *ptr)
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{
#ifdef __powerpc__
    int val;
    __asm__ __volatile__ ("lhbrx %0,0,%1" : "=r" (val) : "r" (ptr));
    return val;
#else
    uint8_t *p = ptr;
    return p[0] | (p[1] << 8);
#endif
}

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static inline int ldsw_le_p(void *ptr)
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{
#ifdef __powerpc__
    int val;
    __asm__ __volatile__ ("lhbrx %0,0,%1" : "=r" (val) : "r" (ptr));
    return (int16_t)val;
#else
    uint8_t *p = ptr;
    return (int16_t)(p[0] | (p[1] << 8));
#endif
}

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static inline int ldl_le_p(void *ptr)
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{
#ifdef __powerpc__
    int val;
    __asm__ __volatile__ ("lwbrx %0,0,%1" : "=r" (val) : "r" (ptr));
    return val;
#else
    uint8_t *p = ptr;
    return p[0] | (p[1] << 8) | (p[2] << 16) | (p[3] << 24);
#endif
}

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static inline uint64_t ldq_le_p(void *ptr)
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{
    uint8_t *p = ptr;
    uint32_t v1, v2;
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    v1 = ldl_le_p(p);
    v2 = ldl_le_p(p + 4);
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    return v1 | ((uint64_t)v2 << 32);
}

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static inline void stw_le_p(void *ptr, int v)
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{
#ifdef __powerpc__
    __asm__ __volatile__ ("sthbrx %1,0,%2" : "=m" (*(uint16_t *)ptr) : "r" (v), "r" (ptr));
#else
    uint8_t *p = ptr;
    p[0] = v;
    p[1] = v >> 8;
#endif
}

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static inline void stl_le_p(void *ptr, int v)
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{
#ifdef __powerpc__
    __asm__ __volatile__ ("stwbrx %1,0,%2" : "=m" (*(uint32_t *)ptr) : "r" (v), "r" (ptr));
#else
    uint8_t *p = ptr;
    p[0] = v;
    p[1] = v >> 8;
    p[2] = v >> 16;
    p[3] = v >> 24;
#endif
}

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static inline void stq_le_p(void *ptr, uint64_t v)
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{
    uint8_t *p = ptr;
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    stl_le_p(p, (uint32_t)v);
    stl_le_p(p + 4, v >> 32);
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}

/* float access */

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static inline float32 ldfl_le_p(void *ptr)
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{
    union {
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        float32 f;
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        uint32_t i;
    } u;
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    u.i = ldl_le_p(ptr);
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    return u.f;
}

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static inline void stfl_le_p(void *ptr, float32 v)
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{
    union {
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        float32 f;
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        uint32_t i;
    } u;
    u.f = v;
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    stl_le_p(ptr, u.i);
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}

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static inline float64 ldfq_le_p(void *ptr)
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{
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    CPU_DoubleU u;
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    u.l.lower = ldl_le_p(ptr);
    u.l.upper = ldl_le_p(ptr + 4);
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    return u.d;
}

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static inline void stfq_le_p(void *ptr, float64 v)
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{
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    CPU_DoubleU u;
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    u.d = v;
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    stl_le_p(ptr, u.l.lower);
    stl_le_p(ptr + 4, u.l.upper);
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}

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#else

static inline int lduw_le_p(void *ptr)
{
    return *(uint16_t *)ptr;
}

static inline int ldsw_le_p(void *ptr)
{
    return *(int16_t *)ptr;
}
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static inline int ldl_le_p(void *ptr)
{
    return *(uint32_t *)ptr;
}

static inline uint64_t ldq_le_p(void *ptr)
{
    return *(uint64_t *)ptr;
}

static inline void stw_le_p(void *ptr, int v)
{
    *(uint16_t *)ptr = v;
}

static inline void stl_le_p(void *ptr, int v)
{
    *(uint32_t *)ptr = v;
}

static inline void stq_le_p(void *ptr, uint64_t v)
{
    *(uint64_t *)ptr = v;
}

/* float access */

static inline float32 ldfl_le_p(void *ptr)
{
    return *(float32 *)ptr;
}

static inline float64 ldfq_le_p(void *ptr)
{
    return *(float64 *)ptr;
}

static inline void stfl_le_p(void *ptr, float32 v)
{
    *(float32 *)ptr = v;
}

static inline void stfq_le_p(void *ptr, float64 v)
{
    *(float64 *)ptr = v;
}
#endif

#if !defined(WORDS_BIGENDIAN) || defined(WORDS_ALIGNED)

static inline int lduw_be_p(void *ptr)
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{
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#if defined(__i386__)
    int val;
    asm volatile ("movzwl %1, %0\n"
                  "xchgb %b0, %h0\n"
                  : "=q" (val)
                  : "m" (*(uint16_t *)ptr));
    return val;
#else
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    uint8_t *b = (uint8_t *) ptr;
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    return ((b[0] << 8) | b[1]);
#endif
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}

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static inline int ldsw_be_p(void *ptr)
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{
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#if defined(__i386__)
    int val;
    asm volatile ("movzwl %1, %0\n"
                  "xchgb %b0, %h0\n"
                  : "=q" (val)
                  : "m" (*(uint16_t *)ptr));
    return (int16_t)val;
#else
    uint8_t *b = (uint8_t *) ptr;
    return (int16_t)((b[0] << 8) | b[1]);
#endif
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}

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static inline int ldl_be_p(void *ptr)
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{
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#if defined(__i386__) || defined(__x86_64__)
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    int val;
    asm volatile ("movl %1, %0\n"
                  "bswap %0\n"
                  : "=r" (val)
                  : "m" (*(uint32_t *)ptr));
    return val;
#else
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    uint8_t *b = (uint8_t *) ptr;
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    return (b[0] << 24) | (b[1] << 16) | (b[2] << 8) | b[3];
#endif
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}

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static inline uint64_t ldq_be_p(void *ptr)
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{
    uint32_t a,b;
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    a = ldl_be_p(ptr);
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    b = ldl_be_p((uint8_t *)ptr + 4);
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    return (((uint64_t)a<<32)|b);
}

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static inline void stw_be_p(void *ptr, int v)
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{
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#if defined(__i386__)
    asm volatile ("xchgb %b0, %h0\n"
                  "movw %w0, %1\n"
                  : "=q" (v)
                  : "m" (*(uint16_t *)ptr), "0" (v));
#else
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    uint8_t *d = (uint8_t *) ptr;
    d[0] = v >> 8;
    d[1] = v;
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#endif
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}

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static inline void stl_be_p(void *ptr, int v)
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{
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#if defined(__i386__) || defined(__x86_64__)
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    asm volatile ("bswap %0\n"
                  "movl %0, %1\n"
                  : "=r" (v)
                  : "m" (*(uint32_t *)ptr), "0" (v));
#else
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    uint8_t *d = (uint8_t *) ptr;
    d[0] = v >> 24;
    d[1] = v >> 16;
    d[2] = v >> 8;
    d[3] = v;
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#endif
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}

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static inline void stq_be_p(void *ptr, uint64_t v)
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{
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    stl_be_p(ptr, v >> 32);
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    stl_be_p((uint8_t *)ptr + 4, v);
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}

/* float access */

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static inline float32 ldfl_be_p(void *ptr)
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{
    union {
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        float32 f;
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        uint32_t i;
    } u;
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    u.i = ldl_be_p(ptr);
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    return u.f;
}

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static inline void stfl_be_p(void *ptr, float32 v)
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{
    union {
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        float32 f;
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        uint32_t i;
    } u;
    u.f = v;
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    stl_be_p(ptr, u.i);
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}

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static inline float64 ldfq_be_p(void *ptr)
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{
    CPU_DoubleU u;
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    u.l.upper = ldl_be_p(ptr);
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    u.l.lower = ldl_be_p((uint8_t *)ptr + 4);
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    return u.d;
}

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static inline void stfq_be_p(void *ptr, float64 v)
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{
    CPU_DoubleU u;
    u.d = v;
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    stl_be_p(ptr, u.l.upper);
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    stl_be_p((uint8_t *)ptr + 4, u.l.lower);
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}

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#else

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static inline int lduw_be_p(void *ptr)
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{
    return *(uint16_t *)ptr;
}

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static inline int ldsw_be_p(void *ptr)
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{
    return *(int16_t *)ptr;
}

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static inline int ldl_be_p(void *ptr)
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{
    return *(uint32_t *)ptr;
}

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static inline uint64_t ldq_be_p(void *ptr)
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{
    return *(uint64_t *)ptr;
}

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static inline void stw_be_p(void *ptr, int v)
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{
    *(uint16_t *)ptr = v;
}

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static inline void stl_be_p(void *ptr, int v)
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{
    *(uint32_t *)ptr = v;
}

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static inline void stq_be_p(void *ptr, uint64_t v)
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{
    *(uint64_t *)ptr = v;
}

/* float access */

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static inline float32 ldfl_be_p(void *ptr)
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{
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    return *(float32 *)ptr;
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}

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static inline float64 ldfq_be_p(void *ptr)
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{
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    return *(float64 *)ptr;
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}

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static inline void stfl_be_p(void *ptr, float32 v)
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{
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    *(float32 *)ptr = v;
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}

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static inline void stfq_be_p(void *ptr, float64 v)
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{
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    *(float64 *)ptr = v;
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}
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#endif

/* target CPU memory access functions */
#if defined(TARGET_WORDS_BIGENDIAN)
#define lduw_p(p) lduw_be_p(p)
#define ldsw_p(p) ldsw_be_p(p)
#define ldl_p(p) ldl_be_p(p)
#define ldq_p(p) ldq_be_p(p)
#define ldfl_p(p) ldfl_be_p(p)
#define ldfq_p(p) ldfq_be_p(p)
#define stw_p(p, v) stw_be_p(p, v)
#define stl_p(p, v) stl_be_p(p, v)
#define stq_p(p, v) stq_be_p(p, v)
#define stfl_p(p, v) stfl_be_p(p, v)
#define stfq_p(p, v) stfq_be_p(p, v)
#else
#define lduw_p(p) lduw_le_p(p)
#define ldsw_p(p) ldsw_le_p(p)
#define ldl_p(p) ldl_le_p(p)
#define ldq_p(p) ldq_le_p(p)
#define ldfl_p(p) ldfl_le_p(p)
#define ldfq_p(p) ldfq_le_p(p)
#define stw_p(p, v) stw_le_p(p, v)
#define stl_p(p, v) stl_le_p(p, v)
#define stq_p(p, v) stq_le_p(p, v)
#define stfl_p(p, v) stfl_le_p(p, v)
#define stfq_p(p, v) stfq_le_p(p, v)
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#endif

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/* MMU memory access macros */

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#if defined(CONFIG_USER_ONLY)
/* On some host systems the guest address space is reserved on the host.
 * This allows the guest address space to be offset to a convenient location.
 */
//#define GUEST_BASE 0x20000000
#define GUEST_BASE 0

/* All direct uses of g2h and h2g need to go away for usermode softmmu.  */
#define g2h(x) ((void *)((unsigned long)(x) + GUEST_BASE))
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#define h2g(x) ((target_ulong)((unsigned long)(x) - GUEST_BASE))
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#define saddr(x) g2h(x)
#define laddr(x) g2h(x)

#else /* !CONFIG_USER_ONLY */
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/* NOTE: we use double casts if pointers and target_ulong have
   different sizes */
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#define saddr(x) (uint8_t *)(long)(x)
#define laddr(x) (uint8_t *)(long)(x)
#endif

#define ldub_raw(p) ldub_p(laddr((p)))
#define ldsb_raw(p) ldsb_p(laddr((p)))
#define lduw_raw(p) lduw_p(laddr((p)))
#define ldsw_raw(p) ldsw_p(laddr((p)))
#define ldl_raw(p) ldl_p(laddr((p)))
#define ldq_raw(p) ldq_p(laddr((p)))
#define ldfl_raw(p) ldfl_p(laddr((p)))
#define ldfq_raw(p) ldfq_p(laddr((p)))
#define stb_raw(p, v) stb_p(saddr((p)), v)
#define stw_raw(p, v) stw_p(saddr((p)), v)
#define stl_raw(p, v) stl_p(saddr((p)), v)
#define stq_raw(p, v) stq_p(saddr((p)), v)
#define stfl_raw(p, v) stfl_p(saddr((p)), v)
#define stfq_raw(p, v) stfq_p(saddr((p)), v)
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#if defined(CONFIG_USER_ONLY)
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/* if user mode, no other memory access functions */
#define ldub(p) ldub_raw(p)
#define ldsb(p) ldsb_raw(p)
#define lduw(p) lduw_raw(p)
#define ldsw(p) ldsw_raw(p)
#define ldl(p) ldl_raw(p)
#define ldq(p) ldq_raw(p)
#define ldfl(p) ldfl_raw(p)
#define ldfq(p) ldfq_raw(p)
#define stb(p, v) stb_raw(p, v)
#define stw(p, v) stw_raw(p, v)
#define stl(p, v) stl_raw(p, v)
#define stq(p, v) stq_raw(p, v)
#define stfl(p, v) stfl_raw(p, v)
#define stfq(p, v) stfq_raw(p, v)

#define ldub_code(p) ldub_raw(p)
#define ldsb_code(p) ldsb_raw(p)
#define lduw_code(p) lduw_raw(p)
#define ldsw_code(p) ldsw_raw(p)
#define ldl_code(p) ldl_raw(p)
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#define ldq_code(p) ldq_raw(p)
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#define ldub_kernel(p) ldub_raw(p)
#define ldsb_kernel(p) ldsb_raw(p)
#define lduw_kernel(p) lduw_raw(p)
#define ldsw_kernel(p) ldsw_raw(p)
#define ldl_kernel(p) ldl_raw(p)
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#define ldq_kernel(p) ldq_raw(p)
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#define ldfl_kernel(p) ldfl_raw(p)
#define ldfq_kernel(p) ldfq_raw(p)
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#define stb_kernel(p, v) stb_raw(p, v)
#define stw_kernel(p, v) stw_raw(p, v)
#define stl_kernel(p, v) stl_raw(p, v)
#define stq_kernel(p, v) stq_raw(p, v)
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#define stfl_kernel(p, v) stfl_raw(p, v)
#define stfq_kernel(p, vt) stfq_raw(p, v)
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#endif /* defined(CONFIG_USER_ONLY) */

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/* page related stuff */

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#define TARGET_PAGE_SIZE (1 << TARGET_PAGE_BITS)
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#define TARGET_PAGE_MASK ~(TARGET_PAGE_SIZE - 1)
#define TARGET_PAGE_ALIGN(addr) (((addr) + TARGET_PAGE_SIZE - 1) & TARGET_PAGE_MASK)

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/* ??? These should be the larger of unsigned long and target_ulong.  */
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extern unsigned long qemu_real_host_page_size;
extern unsigned long qemu_host_page_bits;
extern unsigned long qemu_host_page_size;
extern unsigned long qemu_host_page_mask;
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#define HOST_PAGE_ALIGN(addr) (((addr) + qemu_host_page_size - 1) & qemu_host_page_mask)
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/* same as PROT_xxx */
#define PAGE_READ      0x0001
#define PAGE_WRITE     0x0002
#define PAGE_EXEC      0x0004
#define PAGE_BITS      (PAGE_READ | PAGE_WRITE | PAGE_EXEC)
#define PAGE_VALID     0x0008
/* original state of the write flag (used when tracking self-modifying
   code */
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#define PAGE_WRITE_ORG 0x0010
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#define PAGE_RESERVED  0x0020
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void page_dump(FILE *f);
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int page_get_flags(target_ulong address);
void page_set_flags(target_ulong start, target_ulong end, int flags);
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int page_check_range(target_ulong start, target_ulong len, int flags);
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void cpu_exec_init_all(unsigned long tb_size);
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CPUState *cpu_copy(CPUState *env);

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void cpu_dump_state(CPUState *env, FILE *f,
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                    int (*cpu_fprintf)(FILE *f, const char *fmt, ...),
                    int flags);
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void cpu_dump_statistics (CPUState *env, FILE *f,
                          int (*cpu_fprintf)(FILE *f, const char *fmt, ...),
                          int flags);
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void cpu_abort(CPUState *env, const char *fmt, ...)
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    __attribute__ ((__format__ (__printf__, 2, 3)))
    __attribute__ ((__noreturn__));
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extern CPUState *first_cpu;
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extern CPUState *cpu_single_env;
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extern int64_t qemu_icount;
extern int use_icount;
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#define CPU_INTERRUPT_EXIT   0x01 /* wants exit from main loop */
#define CPU_INTERRUPT_HARD   0x02 /* hardware interrupt pending */
#define CPU_INTERRUPT_EXITTB 0x04 /* exit the current TB (use for x86 a20 case) */
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#define CPU_INTERRUPT_TIMER  0x08 /* internal timer exception pending */
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#define CPU_INTERRUPT_FIQ    0x10 /* Fast interrupt pending.  */
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#define CPU_INTERRUPT_HALT   0x20 /* CPU halt wanted */
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#define CPU_INTERRUPT_SMI    0x40 /* (x86 only) SMI interrupt pending */
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#define CPU_INTERRUPT_DEBUG  0x80 /* Debug event occured.  */
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#define CPU_INTERRUPT_VIRQ   0x100 /* virtual interrupt pending.  */
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#define CPU_INTERRUPT_NMI    0x200 /* NMI pending. */
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void cpu_interrupt(CPUState *s, int mask);
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void cpu_reset_interrupt(CPUState *env, int mask);
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/* Breakpoint/watchpoint flags */
#define BP_MEM_READ           0x01
#define BP_MEM_WRITE          0x02
#define BP_MEM_ACCESS         (BP_MEM_READ | BP_MEM_WRITE)
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#define BP_STOP_BEFORE_ACCESS 0x04
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#define BP_GDB                0x10

int cpu_breakpoint_insert(CPUState *env, target_ulong pc, int flags,
                          CPUBreakpoint **breakpoint);
int cpu_breakpoint_remove(CPUState *env, target_ulong pc, int flags);
void cpu_breakpoint_remove_by_ref(CPUState *env, CPUBreakpoint *breakpoint);
void cpu_breakpoint_remove_all(CPUState *env, int mask);
int cpu_watchpoint_insert(CPUState *env, target_ulong addr, target_ulong len,
                          int flags, CPUWatchpoint **watchpoint);
int cpu_watchpoint_remove(CPUState *env, target_ulong addr,
                          target_ulong len, int flags);
void cpu_watchpoint_remove_by_ref(CPUState *env, CPUWatchpoint *watchpoint);
void cpu_watchpoint_remove_all(CPUState *env, int mask);
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#define SSTEP_ENABLE  0x1  /* Enable simulated HW single stepping */
#define SSTEP_NOIRQ   0x2  /* Do not use IRQ while single stepping */
#define SSTEP_NOTIMER 0x4  /* Do not Timers while single stepping */

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void cpu_single_step(CPUState *env, int enabled);
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void cpu_reset(CPUState *s);
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/* Return the physical page corresponding to a virtual one. Use it
   only for debugging because no protection checks are done. Return -1
   if no page found. */
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target_phys_addr_t cpu_get_phys_page_debug(CPUState *env, target_ulong addr);
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#define CPU_LOG_TB_OUT_ASM (1 << 0)
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#define CPU_LOG_TB_IN_ASM  (1 << 1)
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#define CPU_LOG_TB_OP      (1 << 2)
#define CPU_LOG_TB_OP_OPT  (1 << 3)
#define CPU_LOG_INT        (1 << 4)
#define CPU_LOG_EXEC       (1 << 5)
#define CPU_LOG_PCALL      (1 << 6)
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#define CPU_LOG_IOPORT     (1 << 7)
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#define CPU_LOG_TB_CPU     (1 << 8)
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/* define log items */
typedef struct CPULogItem {
    int mask;
    const char *name;
    const char *help;
} CPULogItem;

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extern const CPULogItem cpu_log_items[];
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void cpu_set_log(int log_flags);
void cpu_set_log_filename(const char *filename);
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int cpu_str_to_log_mask(const char *str);
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/* IO ports API */

/* NOTE: as these functions may be even used when there is an isa
   brige on non x86 targets, we always defined them */
#ifndef NO_CPU_IO_DEFS
void cpu_outb(CPUState *env, int addr, int val);
void cpu_outw(CPUState *env, int addr, int val);
void cpu_outl(CPUState *env, int addr, int val);
int cpu_inb(CPUState *env, int addr);
int cpu_inw(CPUState *env, int addr);
int cpu_inl(CPUState *env, int addr);
#endif

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/* address in the RAM (different from a physical address) */
#ifdef USE_KQEMU
typedef uint32_t ram_addr_t;
#else
typedef unsigned long ram_addr_t;
#endif

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/* memory API */

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extern ram_addr_t phys_ram_size;
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extern int phys_ram_fd;
extern uint8_t *phys_ram_base;
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extern uint8_t *phys_ram_dirty;
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extern ram_addr_t ram_size;
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/* physical memory access */
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/* MMIO pages are identified by a combination of an IO device index and
   3 flags.  The ROMD code stores the page ram offset in iotlb entry, 
   so only a limited number of ids are avaiable.  */

#define IO_MEM_SHIFT       3
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#define IO_MEM_NB_ENTRIES  (1 << (TARGET_PAGE_BITS  - IO_MEM_SHIFT))
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#define IO_MEM_RAM         (0 << IO_MEM_SHIFT) /* hardcoded offset */
#define IO_MEM_ROM         (1 << IO_MEM_SHIFT) /* hardcoded offset */
#define IO_MEM_UNASSIGNED  (2 << IO_MEM_SHIFT)
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#define IO_MEM_NOTDIRTY    (3 << IO_MEM_SHIFT)

/* Acts like a ROM when read and like a device when written.  */
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#define IO_MEM_ROMD        (1)
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#define IO_MEM_SUBPAGE     (2)
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#define IO_MEM_SUBWIDTH    (4)
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/* Flags stored in the low bits of the TLB virtual address.  These are
   defined so that fast path ram access is all zeros.  */
/* Zero if TLB entry is valid.  */
#define TLB_INVALID_MASK   (1 << 3)
/* Set if TLB entry references a clean RAM page.  The iotlb entry will
   contain the page physical address.  */
#define TLB_NOTDIRTY    (1 << 4)
/* Set if TLB entry is an IO callback.  */
#define TLB_MMIO        (1 << 5)

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typedef void CPUWriteMemoryFunc(void *opaque, target_phys_addr_t addr, uint32_t value);
typedef uint32_t CPUReadMemoryFunc(void *opaque, target_phys_addr_t addr);
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void cpu_register_physical_memory(target_phys_addr_t start_addr,
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                                  ram_addr_t size,
                                  ram_addr_t phys_offset);
ram_addr_t cpu_get_physical_page_desc(target_phys_addr_t addr);
ram_addr_t qemu_ram_alloc(ram_addr_t);
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void qemu_ram_free(ram_addr_t addr);
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int cpu_register_io_memory(int io_index,
                           CPUReadMemoryFunc **mem_read,
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                           CPUWriteMemoryFunc **mem_write,
                           void *opaque);
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CPUWriteMemoryFunc **cpu_get_io_memory_write(int io_index);
CPUReadMemoryFunc **cpu_get_io_memory_read(int io_index);
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void cpu_physical_memory_rw(target_phys_addr_t addr, uint8_t *buf,
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                            int len, int is_write);
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static inline void cpu_physical_memory_read(target_phys_addr_t addr,
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                                            uint8_t *buf, int len)
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{
    cpu_physical_memory_rw(addr, buf, len, 0);
}
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static inline void cpu_physical_memory_write(target_phys_addr_t addr,
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                                             const uint8_t *buf, int len)
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{
    cpu_physical_memory_rw(addr, (uint8_t *)buf, len, 1);
}
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uint32_t ldub_phys(target_phys_addr_t addr);
uint32_t lduw_phys(target_phys_addr_t addr);
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uint32_t ldl_phys(target_phys_addr_t addr);
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uint64_t ldq_phys(target_phys_addr_t addr);
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void stl_phys_notdirty(target_phys_addr_t addr, uint32_t val);
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void stq_phys_notdirty(target_phys_addr_t addr, uint64_t val);
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void stb_phys(target_phys_addr_t addr, uint32_t val);
void stw_phys(target_phys_addr_t addr, uint32_t val);
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void stl_phys(target_phys_addr_t addr, uint32_t val);
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void stq_phys(target_phys_addr_t addr, uint64_t val);
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void cpu_physical_memory_write_rom(target_phys_addr_t addr,
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                                   const uint8_t *buf, int len);
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int cpu_memory_rw_debug(CPUState *env, target_ulong addr,
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                        uint8_t *buf, int len, int is_write);
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#define VGA_DIRTY_FLAG       0x01
#define CODE_DIRTY_FLAG      0x02
#define KQEMU_DIRTY_FLAG     0x04
#define MIGRATION_DIRTY_FLAG 0x08
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/* read dirty bit (return 0 or 1) */
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static inline int cpu_physical_memory_is_dirty(ram_addr_t addr)
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{
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    return phys_ram_dirty[addr >> TARGET_PAGE_BITS] == 0xff;
}

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static inline int cpu_physical_memory_get_dirty(ram_addr_t addr,
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                                                int dirty_flags)
{
    return phys_ram_dirty[addr >> TARGET_PAGE_BITS] & dirty_flags;
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}

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static inline void cpu_physical_memory_set_dirty(ram_addr_t addr)
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{
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    phys_ram_dirty[addr >> TARGET_PAGE_BITS] = 0xff;
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}

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void cpu_physical_memory_reset_dirty(ram_addr_t start, ram_addr_t end,
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                                     int dirty_flags);
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void cpu_tlb_update_dirty(CPUState *env);
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int cpu_physical_memory_set_dirty_tracking(int enable);

int cpu_physical_memory_get_dirty_tracking(void);

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void dump_exec_info(FILE *f,
                    int (*cpu_fprintf)(FILE *f, const char *fmt, ...));

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/*******************************************/
/* host CPU ticks (if available) */

#if defined(__powerpc__)

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static inline uint32_t get_tbl(void)
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{
    uint32_t tbl;
    asm volatile("mftb %0" : "=r" (tbl));
    return tbl;
}

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static inline uint32_t get_tbu(void)
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{
	uint32_t tbl;
	asm volatile("mftbu %0" : "=r" (tbl));
	return tbl;
}

static inline int64_t cpu_get_real_ticks(void)
{
    uint32_t l, h, h1;
    /* NOTE: we test if wrapping has occurred */
    do {
        h = get_tbu();
        l = get_tbl();
        h1 = get_tbu();
    } while (h != h1);
    return ((int64_t)h << 32) | l;
}

#elif defined(__i386__)

static inline int64_t cpu_get_real_ticks(void)
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{
    int64_t val;
    asm volatile ("rdtsc" : "=A" (val));
    return val;
}

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#elif defined(__x86_64__)

static inline int64_t cpu_get_real_ticks(void)
{
    uint32_t low,high;
    int64_t val;
    asm volatile("rdtsc" : "=a" (low), "=d" (high));
    val = high;
    val <<= 32;
    val |= low;
    return val;
}

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#elif defined(__hppa__)

static inline int64_t cpu_get_real_ticks(void)
{
    int val;
    asm volatile ("mfctl %%cr16, %0" : "=r"(val));
    return val;
}

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#elif defined(__ia64)

static inline int64_t cpu_get_real_ticks(void)
{
	int64_t val;
	asm volatile ("mov %0 = ar.itc" : "=r"(val) :: "memory");
	return val;
}

#elif defined(__s390__)

static inline int64_t cpu_get_real_ticks(void)
{
    int64_t val;
    asm volatile("stck 0(%1)" : "=m" (val) : "a" (&val) : "cc");
    return val;
}

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#elif defined(__sparc_v8plus__) || defined(__sparc_v8plusa__) || defined(__sparc_v9__)
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static inline int64_t cpu_get_real_ticks (void)
{
#if     defined(_LP64)
        uint64_t        rval;
        asm volatile("rd %%tick,%0" : "=r"(rval));
        return rval;
#else
        union {
                uint64_t i64;
                struct {
                        uint32_t high;
                        uint32_t low;
                }       i32;
        } rval;
        asm volatile("rd %%tick,%1; srlx %1,32,%0"
                : "=r"(rval.i32.high), "=r"(rval.i32.low));
        return rval.i64;
#endif
}
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#elif defined(__mips__)

static inline int64_t cpu_get_real_ticks(void)
{
#if __mips_isa_rev >= 2
    uint32_t count;
    static uint32_t cyc_per_count = 0;

    if (!cyc_per_count)
        __asm__ __volatile__("rdhwr %0, $3" : "=r" (cyc_per_count));

    __asm__ __volatile__("rdhwr %1, $2" : "=r" (count));
    return (int64_t)(count * cyc_per_count);
#else
    /* FIXME */
    static int64_t ticks = 0;
    return ticks++;
#endif
}

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#else
/* The host CPU doesn't have an easily accessible cycle counter.
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   Just return a monotonically increasing value.  This will be
   totally wrong, but hopefully better than nothing.  */
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static inline int64_t cpu_get_real_ticks (void)
{
    static int64_t ticks = 0;
    return ticks++;
}
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#endif

/* profiling */
#ifdef CONFIG_PROFILER
static inline int64_t profile_getclock(void)
{
    return cpu_get_real_ticks();
}

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extern int64_t kqemu_time, kqemu_time_start;
extern int64_t qemu_time, qemu_time_start;
extern int64_t tlb_flush_time;
extern int64_t kqemu_exec_count;
extern int64_t dev_time;
extern int64_t kqemu_ret_int_count;
extern int64_t kqemu_ret_excp_count;
extern int64_t kqemu_ret_intr_count;
#endif

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#endif /* CPU_ALL_H */