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1 | 2c0262af | bellard | /*
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2 | 2c0262af | bellard | * i386 execution defines
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3 | 2c0262af | bellard | *
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4 | 2c0262af | bellard | * Copyright (c) 2003 Fabrice Bellard
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5 | 2c0262af | bellard | *
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6 | 2c0262af | bellard | * This library is free software; you can redistribute it and/or
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7 | 2c0262af | bellard | * modify it under the terms of the GNU Lesser General Public
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8 | 2c0262af | bellard | * License as published by the Free Software Foundation; either
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9 | 2c0262af | bellard | * version 2 of the License, or (at your option) any later version.
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10 | 2c0262af | bellard | *
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11 | 2c0262af | bellard | * This library is distributed in the hope that it will be useful,
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12 | 2c0262af | bellard | * but WITHOUT ANY WARRANTY; without even the implied warranty of
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13 | 2c0262af | bellard | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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14 | 2c0262af | bellard | * Lesser General Public License for more details.
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15 | 2c0262af | bellard | *
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16 | 2c0262af | bellard | * You should have received a copy of the GNU Lesser General Public
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17 | 2c0262af | bellard | * License along with this library; if not, write to the Free Software
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18 | 2c0262af | bellard | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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19 | 2c0262af | bellard | */
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20 | 7d3505c5 | bellard | #include "config.h" |
21 | 2c0262af | bellard | #include "dyngen-exec.h" |
22 | 2c0262af | bellard | |
23 | 14ce26e7 | bellard | /* XXX: factorize this mess */
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24 | 14ce26e7 | bellard | #if defined(__alpha__) || defined (__ia64__) || defined(__x86_64__)
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25 | 14ce26e7 | bellard | #define HOST_LONG_BITS 64 |
26 | 14ce26e7 | bellard | #else
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27 | 14ce26e7 | bellard | #define HOST_LONG_BITS 32 |
28 | 14ce26e7 | bellard | #endif
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29 | 14ce26e7 | bellard | |
30 | 14ce26e7 | bellard | #ifdef TARGET_X86_64
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31 | 14ce26e7 | bellard | #define TARGET_LONG_BITS 64 |
32 | 14ce26e7 | bellard | #else
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33 | 14ce26e7 | bellard | #define TARGET_LONG_BITS 32 |
34 | 14ce26e7 | bellard | #endif
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35 | 14ce26e7 | bellard | |
36 | 0d1a29f9 | bellard | /* at least 4 register variables are defined */
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37 | 2c0262af | bellard | register struct CPUX86State *env asm(AREG0); |
38 | 14ce26e7 | bellard | |
39 | 14ce26e7 | bellard | /* XXX: use 64 bit regs if HOST_LONG_BITS == 64 */
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40 | 14ce26e7 | bellard | #if TARGET_LONG_BITS == 32 |
41 | 14ce26e7 | bellard | |
42 | 2c0262af | bellard | register uint32_t T0 asm(AREG1); |
43 | 2c0262af | bellard | register uint32_t T1 asm(AREG2); |
44 | 2c0262af | bellard | register uint32_t T2 asm(AREG3); |
45 | 2c0262af | bellard | |
46 | 2c0262af | bellard | /* if more registers are available, we define some registers too */
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47 | 2c0262af | bellard | #ifdef AREG4
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48 | 2c0262af | bellard | register uint32_t EAX asm(AREG4); |
49 | 2c0262af | bellard | #define reg_EAX
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50 | 2c0262af | bellard | #endif
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51 | 2c0262af | bellard | |
52 | 2c0262af | bellard | #ifdef AREG5
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53 | 2c0262af | bellard | register uint32_t ESP asm(AREG5); |
54 | 2c0262af | bellard | #define reg_ESP
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55 | 2c0262af | bellard | #endif
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56 | 2c0262af | bellard | |
57 | 2c0262af | bellard | #ifdef AREG6
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58 | 2c0262af | bellard | register uint32_t EBP asm(AREG6); |
59 | 2c0262af | bellard | #define reg_EBP
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60 | 2c0262af | bellard | #endif
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61 | 2c0262af | bellard | |
62 | 2c0262af | bellard | #ifdef AREG7
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63 | 2c0262af | bellard | register uint32_t ECX asm(AREG7); |
64 | 2c0262af | bellard | #define reg_ECX
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65 | 2c0262af | bellard | #endif
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66 | 2c0262af | bellard | |
67 | 2c0262af | bellard | #ifdef AREG8
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68 | 2c0262af | bellard | register uint32_t EDX asm(AREG8); |
69 | 2c0262af | bellard | #define reg_EDX
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70 | 2c0262af | bellard | #endif
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71 | 2c0262af | bellard | |
72 | 2c0262af | bellard | #ifdef AREG9
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73 | 2c0262af | bellard | register uint32_t EBX asm(AREG9); |
74 | 2c0262af | bellard | #define reg_EBX
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75 | 2c0262af | bellard | #endif
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76 | 2c0262af | bellard | |
77 | 2c0262af | bellard | #ifdef AREG10
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78 | 2c0262af | bellard | register uint32_t ESI asm(AREG10); |
79 | 2c0262af | bellard | #define reg_ESI
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80 | 2c0262af | bellard | #endif
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81 | 2c0262af | bellard | |
82 | 2c0262af | bellard | #ifdef AREG11
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83 | 2c0262af | bellard | register uint32_t EDI asm(AREG11); |
84 | 2c0262af | bellard | #define reg_EDI
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85 | 2c0262af | bellard | #endif
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86 | 2c0262af | bellard | |
87 | 14ce26e7 | bellard | #else
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88 | 14ce26e7 | bellard | |
89 | 14ce26e7 | bellard | /* no registers can be used */
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90 | 14ce26e7 | bellard | #define T0 (env->t0)
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91 | 14ce26e7 | bellard | #define T1 (env->t1)
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92 | 14ce26e7 | bellard | #define T2 (env->t2)
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93 | 14ce26e7 | bellard | |
94 | 14ce26e7 | bellard | #endif
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95 | 14ce26e7 | bellard | |
96 | 14ce26e7 | bellard | #define A0 T2
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97 | 14ce26e7 | bellard | |
98 | 2c0262af | bellard | extern FILE *logfile;
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99 | 2c0262af | bellard | extern int loglevel; |
100 | 2c0262af | bellard | |
101 | 2c0262af | bellard | #ifndef reg_EAX
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102 | 2c0262af | bellard | #define EAX (env->regs[R_EAX])
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103 | 2c0262af | bellard | #endif
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104 | 2c0262af | bellard | #ifndef reg_ECX
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105 | 2c0262af | bellard | #define ECX (env->regs[R_ECX])
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106 | 2c0262af | bellard | #endif
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107 | 2c0262af | bellard | #ifndef reg_EDX
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108 | 2c0262af | bellard | #define EDX (env->regs[R_EDX])
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109 | 2c0262af | bellard | #endif
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110 | 2c0262af | bellard | #ifndef reg_EBX
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111 | 2c0262af | bellard | #define EBX (env->regs[R_EBX])
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112 | 2c0262af | bellard | #endif
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113 | 2c0262af | bellard | #ifndef reg_ESP
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114 | 2c0262af | bellard | #define ESP (env->regs[R_ESP])
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115 | 2c0262af | bellard | #endif
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116 | 2c0262af | bellard | #ifndef reg_EBP
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117 | 2c0262af | bellard | #define EBP (env->regs[R_EBP])
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118 | 2c0262af | bellard | #endif
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119 | 2c0262af | bellard | #ifndef reg_ESI
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120 | 2c0262af | bellard | #define ESI (env->regs[R_ESI])
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121 | 2c0262af | bellard | #endif
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122 | 2c0262af | bellard | #ifndef reg_EDI
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123 | 2c0262af | bellard | #define EDI (env->regs[R_EDI])
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124 | 2c0262af | bellard | #endif
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125 | 2c0262af | bellard | #define EIP (env->eip)
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126 | 2c0262af | bellard | #define DF (env->df)
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127 | 2c0262af | bellard | |
128 | 2c0262af | bellard | #define CC_SRC (env->cc_src)
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129 | 2c0262af | bellard | #define CC_DST (env->cc_dst)
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130 | 2c0262af | bellard | #define CC_OP (env->cc_op)
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131 | 2c0262af | bellard | |
132 | 2c0262af | bellard | /* float macros */
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133 | 2c0262af | bellard | #define FT0 (env->ft0)
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134 | 664e0f19 | bellard | #define ST0 (env->fpregs[env->fpstt].d)
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135 | 664e0f19 | bellard | #define ST(n) (env->fpregs[(env->fpstt + (n)) & 7].d) |
136 | 2c0262af | bellard | #define ST1 ST(1) |
137 | 2c0262af | bellard | |
138 | 2c0262af | bellard | #ifdef USE_FP_CONVERT
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139 | 2c0262af | bellard | #define FP_CONVERT (env->fp_convert)
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140 | 2c0262af | bellard | #endif
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141 | 2c0262af | bellard | |
142 | 2c0262af | bellard | #include "cpu.h" |
143 | 2c0262af | bellard | #include "exec-all.h" |
144 | 2c0262af | bellard | |
145 | 79f91c27 | bellard | /* XXX: add a generic FPU library */
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146 | 79f91c27 | bellard | |
147 | 79f91c27 | bellard | static inline double float32_to_float64(float a) |
148 | 79f91c27 | bellard | { |
149 | 79f91c27 | bellard | return a;
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150 | 79f91c27 | bellard | } |
151 | 79f91c27 | bellard | |
152 | 79f91c27 | bellard | static inline float float64_to_float32(double a) |
153 | 79f91c27 | bellard | { |
154 | 79f91c27 | bellard | return a;
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155 | 79f91c27 | bellard | } |
156 | 79f91c27 | bellard | |
157 | 79f91c27 | bellard | #if defined(__powerpc__)
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158 | 79f91c27 | bellard | /* better to call an helper on ppc */
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159 | 79f91c27 | bellard | float int32_to_float32(int32_t a);
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160 | 79f91c27 | bellard | double int32_to_float64(int32_t a);
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161 | 79f91c27 | bellard | #else
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162 | 79f91c27 | bellard | static inline float int32_to_float32(int32_t a) |
163 | 79f91c27 | bellard | { |
164 | 79f91c27 | bellard | return (float)a; |
165 | 79f91c27 | bellard | } |
166 | 79f91c27 | bellard | |
167 | 79f91c27 | bellard | static inline double int32_to_float64(int32_t a) |
168 | 79f91c27 | bellard | { |
169 | 79f91c27 | bellard | return (double)a; |
170 | 79f91c27 | bellard | } |
171 | 79f91c27 | bellard | #endif
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172 | 79f91c27 | bellard | |
173 | 79f91c27 | bellard | static inline float int64_to_float32(int64_t a) |
174 | 79f91c27 | bellard | { |
175 | 79f91c27 | bellard | return (float)a; |
176 | 79f91c27 | bellard | } |
177 | 79f91c27 | bellard | |
178 | 79f91c27 | bellard | static inline double int64_to_float64(int64_t a) |
179 | 79f91c27 | bellard | { |
180 | 79f91c27 | bellard | return (double)a; |
181 | 79f91c27 | bellard | } |
182 | 79f91c27 | bellard | |
183 | 2c0262af | bellard | typedef struct CCTable { |
184 | 2c0262af | bellard | int (*compute_all)(void); /* return all the flags */ |
185 | 2c0262af | bellard | int (*compute_c)(void); /* return the C flag */ |
186 | 2c0262af | bellard | } CCTable; |
187 | 2c0262af | bellard | |
188 | 2c0262af | bellard | extern CCTable cc_table[];
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189 | 2c0262af | bellard | |
190 | 8e682019 | bellard | void load_seg(int seg_reg, int selector); |
191 | 08cea4ee | bellard | void helper_ljmp_protected_T0_T1(int next_eip); |
192 | 2c0262af | bellard | void helper_lcall_real_T0_T1(int shift, int next_eip); |
193 | 2c0262af | bellard | void helper_lcall_protected_T0_T1(int shift, int next_eip); |
194 | 2c0262af | bellard | void helper_iret_real(int shift); |
195 | 08cea4ee | bellard | void helper_iret_protected(int shift, int next_eip); |
196 | 2c0262af | bellard | void helper_lret_protected(int shift, int addend); |
197 | 2c0262af | bellard | void helper_lldt_T0(void); |
198 | 2c0262af | bellard | void helper_ltr_T0(void); |
199 | 2c0262af | bellard | void helper_movl_crN_T0(int reg); |
200 | 2c0262af | bellard | void helper_movl_drN_T0(int reg); |
201 | 2c0262af | bellard | void helper_invlpg(unsigned int addr); |
202 | 1ac157da | bellard | void cpu_x86_update_cr0(CPUX86State *env, uint32_t new_cr0);
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203 | 14ce26e7 | bellard | void cpu_x86_update_cr3(CPUX86State *env, target_ulong new_cr3);
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204 | 1ac157da | bellard | void cpu_x86_update_cr4(CPUX86State *env, uint32_t new_cr4);
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205 | 2c0262af | bellard | void cpu_x86_flush_tlb(CPUX86State *env, uint32_t addr);
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206 | 14ce26e7 | bellard | int cpu_x86_handle_mmu_fault(CPUX86State *env, target_ulong addr,
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207 | 61382a50 | bellard | int is_write, int is_user, int is_softmmu); |
208 | 14ce26e7 | bellard | void tlb_fill(target_ulong addr, int is_write, int is_user, |
209 | 61382a50 | bellard | void *retaddr);
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210 | 2c0262af | bellard | void __hidden cpu_lock(void); |
211 | 2c0262af | bellard | void __hidden cpu_unlock(void); |
212 | 2c0262af | bellard | void do_interrupt(int intno, int is_int, int error_code, |
213 | 14ce26e7 | bellard | target_ulong next_eip, int is_hw);
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214 | 2c0262af | bellard | void do_interrupt_user(int intno, int is_int, int error_code, |
215 | 14ce26e7 | bellard | target_ulong next_eip); |
216 | 2c0262af | bellard | void raise_interrupt(int intno, int is_int, int error_code, |
217 | a8ede8ba | bellard | int next_eip_addend);
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218 | 2c0262af | bellard | void raise_exception_err(int exception_index, int error_code); |
219 | 2c0262af | bellard | void raise_exception(int exception_index); |
220 | 2c0262af | bellard | void __hidden cpu_loop_exit(void); |
221 | 2c0262af | bellard | |
222 | 2c0262af | bellard | void OPPROTO op_movl_eflags_T0(void); |
223 | 2c0262af | bellard | void OPPROTO op_movl_T0_eflags(void); |
224 | 14ce26e7 | bellard | void helper_divl_EAX_T0(void); |
225 | 14ce26e7 | bellard | void helper_idivl_EAX_T0(void); |
226 | 14ce26e7 | bellard | void helper_mulq_EAX_T0(void); |
227 | 14ce26e7 | bellard | void helper_imulq_EAX_T0(void); |
228 | 14ce26e7 | bellard | void helper_imulq_T0_T1(void); |
229 | 14ce26e7 | bellard | void helper_divq_EAX_T0(void); |
230 | 14ce26e7 | bellard | void helper_idivq_EAX_T0(void); |
231 | 2c0262af | bellard | void helper_cmpxchg8b(void); |
232 | 2c0262af | bellard | void helper_cpuid(void); |
233 | 61a8c4ec | bellard | void helper_enter_level(int level, int data32); |
234 | 023fe10d | bellard | void helper_sysenter(void); |
235 | 023fe10d | bellard | void helper_sysexit(void); |
236 | 06c2f506 | bellard | void helper_syscall(int next_eip_addend); |
237 | 14ce26e7 | bellard | void helper_sysret(int dflag); |
238 | 2c0262af | bellard | void helper_rdtsc(void); |
239 | 2c0262af | bellard | void helper_rdmsr(void); |
240 | 2c0262af | bellard | void helper_wrmsr(void); |
241 | 2c0262af | bellard | void helper_lsl(void); |
242 | 2c0262af | bellard | void helper_lar(void); |
243 | 3ab493de | bellard | void helper_verr(void); |
244 | 3ab493de | bellard | void helper_verw(void); |
245 | 2c0262af | bellard | |
246 | 3e25f951 | bellard | void check_iob_T0(void); |
247 | 3e25f951 | bellard | void check_iow_T0(void); |
248 | 3e25f951 | bellard | void check_iol_T0(void); |
249 | 3e25f951 | bellard | void check_iob_DX(void); |
250 | 3e25f951 | bellard | void check_iow_DX(void); |
251 | 3e25f951 | bellard | void check_iol_DX(void); |
252 | 3e25f951 | bellard | |
253 | 9951bf39 | bellard | /* XXX: move that to a generic header */
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254 | 9951bf39 | bellard | #if !defined(CONFIG_USER_ONLY)
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255 | 9951bf39 | bellard | |
256 | 9951bf39 | bellard | #define ldul_user ldl_user
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257 | 9951bf39 | bellard | #define ldul_kernel ldl_kernel
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258 | 9951bf39 | bellard | |
259 | 9951bf39 | bellard | #define ACCESS_TYPE 0 |
260 | 9951bf39 | bellard | #define MEMSUFFIX _kernel
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261 | 9951bf39 | bellard | #define DATA_SIZE 1 |
262 | 9951bf39 | bellard | #include "softmmu_header.h" |
263 | 9951bf39 | bellard | |
264 | 9951bf39 | bellard | #define DATA_SIZE 2 |
265 | 9951bf39 | bellard | #include "softmmu_header.h" |
266 | 9951bf39 | bellard | |
267 | 9951bf39 | bellard | #define DATA_SIZE 4 |
268 | 9951bf39 | bellard | #include "softmmu_header.h" |
269 | 9951bf39 | bellard | |
270 | 9951bf39 | bellard | #define DATA_SIZE 8 |
271 | 9951bf39 | bellard | #include "softmmu_header.h" |
272 | 9951bf39 | bellard | #undef ACCESS_TYPE
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273 | 9951bf39 | bellard | #undef MEMSUFFIX
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274 | 9951bf39 | bellard | |
275 | 9951bf39 | bellard | #define ACCESS_TYPE 1 |
276 | 9951bf39 | bellard | #define MEMSUFFIX _user
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277 | 9951bf39 | bellard | #define DATA_SIZE 1 |
278 | 9951bf39 | bellard | #include "softmmu_header.h" |
279 | 9951bf39 | bellard | |
280 | 9951bf39 | bellard | #define DATA_SIZE 2 |
281 | 9951bf39 | bellard | #include "softmmu_header.h" |
282 | 9951bf39 | bellard | |
283 | 9951bf39 | bellard | #define DATA_SIZE 4 |
284 | 9951bf39 | bellard | #include "softmmu_header.h" |
285 | 9951bf39 | bellard | |
286 | 9951bf39 | bellard | #define DATA_SIZE 8 |
287 | 9951bf39 | bellard | #include "softmmu_header.h" |
288 | 9951bf39 | bellard | #undef ACCESS_TYPE
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289 | 9951bf39 | bellard | #undef MEMSUFFIX
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290 | 9951bf39 | bellard | |
291 | 9951bf39 | bellard | /* these access are slower, they must be as rare as possible */
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292 | 9951bf39 | bellard | #define ACCESS_TYPE 2 |
293 | 9951bf39 | bellard | #define MEMSUFFIX _data
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294 | 9951bf39 | bellard | #define DATA_SIZE 1 |
295 | 9951bf39 | bellard | #include "softmmu_header.h" |
296 | 9951bf39 | bellard | |
297 | 9951bf39 | bellard | #define DATA_SIZE 2 |
298 | 9951bf39 | bellard | #include "softmmu_header.h" |
299 | 9951bf39 | bellard | |
300 | 9951bf39 | bellard | #define DATA_SIZE 4 |
301 | 9951bf39 | bellard | #include "softmmu_header.h" |
302 | 9951bf39 | bellard | |
303 | 9951bf39 | bellard | #define DATA_SIZE 8 |
304 | 9951bf39 | bellard | #include "softmmu_header.h" |
305 | 9951bf39 | bellard | #undef ACCESS_TYPE
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306 | 9951bf39 | bellard | #undef MEMSUFFIX
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307 | 9951bf39 | bellard | |
308 | 9951bf39 | bellard | #define ldub(p) ldub_data(p)
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309 | 9951bf39 | bellard | #define ldsb(p) ldsb_data(p)
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310 | 9951bf39 | bellard | #define lduw(p) lduw_data(p)
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311 | 9951bf39 | bellard | #define ldsw(p) ldsw_data(p)
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312 | 9951bf39 | bellard | #define ldl(p) ldl_data(p)
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313 | 9951bf39 | bellard | #define ldq(p) ldq_data(p)
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314 | 9951bf39 | bellard | |
315 | 9951bf39 | bellard | #define stb(p, v) stb_data(p, v)
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316 | 9951bf39 | bellard | #define stw(p, v) stw_data(p, v)
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317 | 9951bf39 | bellard | #define stl(p, v) stl_data(p, v)
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318 | 9951bf39 | bellard | #define stq(p, v) stq_data(p, v)
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319 | 9951bf39 | bellard | |
320 | 14ce26e7 | bellard | static inline double ldfq(target_ulong ptr) |
321 | 9951bf39 | bellard | { |
322 | 9951bf39 | bellard | union {
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323 | 9951bf39 | bellard | double d;
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324 | 9951bf39 | bellard | uint64_t i; |
325 | 9951bf39 | bellard | } u; |
326 | 9951bf39 | bellard | u.i = ldq(ptr); |
327 | 9951bf39 | bellard | return u.d;
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328 | 9951bf39 | bellard | } |
329 | 9951bf39 | bellard | |
330 | 14ce26e7 | bellard | static inline void stfq(target_ulong ptr, double v) |
331 | 9951bf39 | bellard | { |
332 | 9951bf39 | bellard | union {
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333 | 9951bf39 | bellard | double d;
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334 | 9951bf39 | bellard | uint64_t i; |
335 | 9951bf39 | bellard | } u; |
336 | 9951bf39 | bellard | u.d = v; |
337 | 9951bf39 | bellard | stq(ptr, u.i); |
338 | 9951bf39 | bellard | } |
339 | 9951bf39 | bellard | |
340 | 14ce26e7 | bellard | static inline float ldfl(target_ulong ptr) |
341 | 9951bf39 | bellard | { |
342 | 9951bf39 | bellard | union {
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343 | 9951bf39 | bellard | float f;
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344 | 9951bf39 | bellard | uint32_t i; |
345 | 9951bf39 | bellard | } u; |
346 | 9951bf39 | bellard | u.i = ldl(ptr); |
347 | 9951bf39 | bellard | return u.f;
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348 | 9951bf39 | bellard | } |
349 | 9951bf39 | bellard | |
350 | 14ce26e7 | bellard | static inline void stfl(target_ulong ptr, float v) |
351 | 9951bf39 | bellard | { |
352 | 9951bf39 | bellard | union {
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353 | 9951bf39 | bellard | float f;
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354 | 9951bf39 | bellard | uint32_t i; |
355 | 9951bf39 | bellard | } u; |
356 | 9951bf39 | bellard | u.f = v; |
357 | 9951bf39 | bellard | stl(ptr, u.i); |
358 | 9951bf39 | bellard | } |
359 | 9951bf39 | bellard | |
360 | 9951bf39 | bellard | #endif /* !defined(CONFIG_USER_ONLY) */ |
361 | 9951bf39 | bellard | |
362 | 2c0262af | bellard | #ifdef USE_X86LDOUBLE
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363 | 2c0262af | bellard | /* use long double functions */
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364 | 2c0262af | bellard | #define lrint lrintl
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365 | 2c0262af | bellard | #define llrint llrintl
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366 | 2c0262af | bellard | #define fabs fabsl
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367 | 2c0262af | bellard | #define sin sinl
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368 | 2c0262af | bellard | #define cos cosl
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369 | 2c0262af | bellard | #define sqrt sqrtl
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370 | 2c0262af | bellard | #define pow powl
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371 | 2c0262af | bellard | #define log logl
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372 | 2c0262af | bellard | #define tan tanl
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373 | 2c0262af | bellard | #define atan2 atan2l
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374 | 2c0262af | bellard | #define floor floorl
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375 | 2c0262af | bellard | #define ceil ceill
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376 | 2c0262af | bellard | #define rint rintl
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377 | 2c0262af | bellard | #endif
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378 | 2c0262af | bellard | |
379 | 7d3505c5 | bellard | #if !defined(_BSD)
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380 | 2c0262af | bellard | extern int lrint(CPU86_LDouble x); |
381 | 2c0262af | bellard | extern int64_t llrint(CPU86_LDouble x);
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382 | 7d3505c5 | bellard | #else
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383 | 7d3505c5 | bellard | #define lrint(d) ((int)rint(d)) |
384 | 7d3505c5 | bellard | #define llrint(d) ((int)rint(d)) |
385 | 7d3505c5 | bellard | #endif
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386 | 2c0262af | bellard | extern CPU86_LDouble fabs(CPU86_LDouble x);
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387 | 2c0262af | bellard | extern CPU86_LDouble sin(CPU86_LDouble x);
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388 | 2c0262af | bellard | extern CPU86_LDouble cos(CPU86_LDouble x);
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389 | 2c0262af | bellard | extern CPU86_LDouble sqrt(CPU86_LDouble x);
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390 | 2c0262af | bellard | extern CPU86_LDouble pow(CPU86_LDouble, CPU86_LDouble);
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391 | 2c0262af | bellard | extern CPU86_LDouble log(CPU86_LDouble x);
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392 | 2c0262af | bellard | extern CPU86_LDouble tan(CPU86_LDouble x);
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393 | 2c0262af | bellard | extern CPU86_LDouble atan2(CPU86_LDouble, CPU86_LDouble);
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394 | 2c0262af | bellard | extern CPU86_LDouble floor(CPU86_LDouble x);
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395 | 2c0262af | bellard | extern CPU86_LDouble ceil(CPU86_LDouble x);
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396 | 2c0262af | bellard | extern CPU86_LDouble rint(CPU86_LDouble x);
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397 | 2c0262af | bellard | |
398 | 2c0262af | bellard | #define RC_MASK 0xc00 |
399 | 2c0262af | bellard | #define RC_NEAR 0x000 |
400 | 2c0262af | bellard | #define RC_DOWN 0x400 |
401 | 2c0262af | bellard | #define RC_UP 0x800 |
402 | 2c0262af | bellard | #define RC_CHOP 0xc00 |
403 | 2c0262af | bellard | |
404 | 2c0262af | bellard | #define MAXTAN 9223372036854775808.0 |
405 | 2c0262af | bellard | |
406 | 2c0262af | bellard | #ifdef __arm__
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407 | 2c0262af | bellard | /* we have no way to do correct rounding - a FPU emulator is needed */
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408 | 2c0262af | bellard | #define FE_DOWNWARD FE_TONEAREST
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409 | 2c0262af | bellard | #define FE_UPWARD FE_TONEAREST
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410 | 2c0262af | bellard | #define FE_TOWARDZERO FE_TONEAREST
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411 | 2c0262af | bellard | #endif
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412 | 2c0262af | bellard | |
413 | 2c0262af | bellard | #ifdef USE_X86LDOUBLE
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414 | 2c0262af | bellard | |
415 | 2c0262af | bellard | /* only for x86 */
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416 | 2c0262af | bellard | typedef union { |
417 | 2c0262af | bellard | long double d; |
418 | 2c0262af | bellard | struct {
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419 | 2c0262af | bellard | unsigned long long lower; |
420 | 2c0262af | bellard | unsigned short upper; |
421 | 2c0262af | bellard | } l; |
422 | 2c0262af | bellard | } CPU86_LDoubleU; |
423 | 2c0262af | bellard | |
424 | 2c0262af | bellard | /* the following deal with x86 long double-precision numbers */
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425 | 2c0262af | bellard | #define MAXEXPD 0x7fff |
426 | 2c0262af | bellard | #define EXPBIAS 16383 |
427 | 2c0262af | bellard | #define EXPD(fp) (fp.l.upper & 0x7fff) |
428 | 2c0262af | bellard | #define SIGND(fp) ((fp.l.upper) & 0x8000) |
429 | 2c0262af | bellard | #define MANTD(fp) (fp.l.lower)
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430 | 2c0262af | bellard | #define BIASEXPONENT(fp) fp.l.upper = (fp.l.upper & ~(0x7fff)) | EXPBIAS |
431 | 2c0262af | bellard | |
432 | 2c0262af | bellard | #else
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433 | 2c0262af | bellard | |
434 | 2c0262af | bellard | /* NOTE: arm is horrible as double 32 bit words are stored in big endian ! */
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435 | 2c0262af | bellard | typedef union { |
436 | 2c0262af | bellard | double d;
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437 | 2c0262af | bellard | #if !defined(WORDS_BIGENDIAN) && !defined(__arm__)
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438 | 2c0262af | bellard | struct {
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439 | 2c0262af | bellard | uint32_t lower; |
440 | 2c0262af | bellard | int32_t upper; |
441 | 2c0262af | bellard | } l; |
442 | 2c0262af | bellard | #else
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443 | 2c0262af | bellard | struct {
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444 | 2c0262af | bellard | int32_t upper; |
445 | 2c0262af | bellard | uint32_t lower; |
446 | 2c0262af | bellard | } l; |
447 | 2c0262af | bellard | #endif
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448 | 2c0262af | bellard | #ifndef __arm__
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449 | 2c0262af | bellard | int64_t ll; |
450 | 2c0262af | bellard | #endif
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451 | 2c0262af | bellard | } CPU86_LDoubleU; |
452 | 2c0262af | bellard | |
453 | 2c0262af | bellard | /* the following deal with IEEE double-precision numbers */
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454 | 2c0262af | bellard | #define MAXEXPD 0x7ff |
455 | 2c0262af | bellard | #define EXPBIAS 1023 |
456 | 2c0262af | bellard | #define EXPD(fp) (((fp.l.upper) >> 20) & 0x7FF) |
457 | 2c0262af | bellard | #define SIGND(fp) ((fp.l.upper) & 0x80000000) |
458 | 2c0262af | bellard | #ifdef __arm__
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459 | 2c0262af | bellard | #define MANTD(fp) (fp.l.lower | ((uint64_t)(fp.l.upper & ((1 << 20) - 1)) << 32)) |
460 | 2c0262af | bellard | #else
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461 | 2c0262af | bellard | #define MANTD(fp) (fp.ll & ((1LL << 52) - 1)) |
462 | 2c0262af | bellard | #endif
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463 | 2c0262af | bellard | #define BIASEXPONENT(fp) fp.l.upper = (fp.l.upper & ~(0x7ff << 20)) | (EXPBIAS << 20) |
464 | 2c0262af | bellard | #endif
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465 | 2c0262af | bellard | |
466 | 2c0262af | bellard | static inline void fpush(void) |
467 | 2c0262af | bellard | { |
468 | 2c0262af | bellard | env->fpstt = (env->fpstt - 1) & 7; |
469 | 2c0262af | bellard | env->fptags[env->fpstt] = 0; /* validate stack entry */ |
470 | 2c0262af | bellard | } |
471 | 2c0262af | bellard | |
472 | 2c0262af | bellard | static inline void fpop(void) |
473 | 2c0262af | bellard | { |
474 | 2c0262af | bellard | env->fptags[env->fpstt] = 1; /* invvalidate stack entry */ |
475 | 2c0262af | bellard | env->fpstt = (env->fpstt + 1) & 7; |
476 | 2c0262af | bellard | } |
477 | 2c0262af | bellard | |
478 | 2c0262af | bellard | #ifndef USE_X86LDOUBLE
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479 | 14ce26e7 | bellard | static inline CPU86_LDouble helper_fldt(target_ulong ptr) |
480 | 2c0262af | bellard | { |
481 | 2c0262af | bellard | CPU86_LDoubleU temp; |
482 | 2c0262af | bellard | int upper, e;
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483 | 2c0262af | bellard | uint64_t ll; |
484 | 2c0262af | bellard | |
485 | 2c0262af | bellard | /* mantissa */
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486 | 2c0262af | bellard | upper = lduw(ptr + 8);
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487 | 2c0262af | bellard | /* XXX: handle overflow ? */
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488 | 2c0262af | bellard | e = (upper & 0x7fff) - 16383 + EXPBIAS; /* exponent */ |
489 | 2c0262af | bellard | e |= (upper >> 4) & 0x800; /* sign */ |
490 | 2c0262af | bellard | ll = (ldq(ptr) >> 11) & ((1LL << 52) - 1); |
491 | 2c0262af | bellard | #ifdef __arm__
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492 | 2c0262af | bellard | temp.l.upper = (e << 20) | (ll >> 32); |
493 | 2c0262af | bellard | temp.l.lower = ll; |
494 | 2c0262af | bellard | #else
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495 | 2c0262af | bellard | temp.ll = ll | ((uint64_t)e << 52);
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496 | 2c0262af | bellard | #endif
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497 | 2c0262af | bellard | return temp.d;
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498 | 2c0262af | bellard | } |
499 | 2c0262af | bellard | |
500 | 664e0f19 | bellard | static inline void helper_fstt(CPU86_LDouble f, target_ulong ptr) |
501 | 2c0262af | bellard | { |
502 | 2c0262af | bellard | CPU86_LDoubleU temp; |
503 | 2c0262af | bellard | int e;
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504 | 2c0262af | bellard | |
505 | 2c0262af | bellard | temp.d = f; |
506 | 2c0262af | bellard | /* mantissa */
|
507 | 2c0262af | bellard | stq(ptr, (MANTD(temp) << 11) | (1LL << 63)); |
508 | 2c0262af | bellard | /* exponent + sign */
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509 | 2c0262af | bellard | e = EXPD(temp) - EXPBIAS + 16383;
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510 | 2c0262af | bellard | e |= SIGND(temp) >> 16;
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511 | 2c0262af | bellard | stw(ptr + 8, e);
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512 | 2c0262af | bellard | } |
513 | 9951bf39 | bellard | #else
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514 | 9951bf39 | bellard | |
515 | 9951bf39 | bellard | /* XXX: same endianness assumed */
|
516 | 9951bf39 | bellard | |
517 | 9951bf39 | bellard | #ifdef CONFIG_USER_ONLY
|
518 | 9951bf39 | bellard | |
519 | 14ce26e7 | bellard | static inline CPU86_LDouble helper_fldt(target_ulong ptr) |
520 | 9951bf39 | bellard | { |
521 | 9951bf39 | bellard | return *(CPU86_LDouble *)ptr;
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522 | 9951bf39 | bellard | } |
523 | 9951bf39 | bellard | |
524 | 14ce26e7 | bellard | static inline void helper_fstt(CPU86_LDouble f, target_ulong ptr) |
525 | 9951bf39 | bellard | { |
526 | 9951bf39 | bellard | *(CPU86_LDouble *)ptr = f; |
527 | 9951bf39 | bellard | } |
528 | 9951bf39 | bellard | |
529 | 9951bf39 | bellard | #else
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530 | 9951bf39 | bellard | |
531 | 9951bf39 | bellard | /* we use memory access macros */
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532 | 9951bf39 | bellard | |
533 | 14ce26e7 | bellard | static inline CPU86_LDouble helper_fldt(target_ulong ptr) |
534 | 9951bf39 | bellard | { |
535 | 9951bf39 | bellard | CPU86_LDoubleU temp; |
536 | 9951bf39 | bellard | |
537 | 9951bf39 | bellard | temp.l.lower = ldq(ptr); |
538 | 9951bf39 | bellard | temp.l.upper = lduw(ptr + 8);
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539 | 9951bf39 | bellard | return temp.d;
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540 | 9951bf39 | bellard | } |
541 | 9951bf39 | bellard | |
542 | 14ce26e7 | bellard | static inline void helper_fstt(CPU86_LDouble f, target_ulong ptr) |
543 | 9951bf39 | bellard | { |
544 | 9951bf39 | bellard | CPU86_LDoubleU temp; |
545 | 9951bf39 | bellard | |
546 | 9951bf39 | bellard | temp.d = f; |
547 | 9951bf39 | bellard | stq(ptr, temp.l.lower); |
548 | 9951bf39 | bellard | stw(ptr + 8, temp.l.upper);
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549 | 9951bf39 | bellard | } |
550 | 9951bf39 | bellard | |
551 | 9951bf39 | bellard | #endif /* !CONFIG_USER_ONLY */ |
552 | 9951bf39 | bellard | |
553 | 9951bf39 | bellard | #endif /* USE_X86LDOUBLE */ |
554 | 2c0262af | bellard | |
555 | 2ee73ac3 | bellard | #define FPUS_IE (1 << 0) |
556 | 2ee73ac3 | bellard | #define FPUS_DE (1 << 1) |
557 | 2ee73ac3 | bellard | #define FPUS_ZE (1 << 2) |
558 | 2ee73ac3 | bellard | #define FPUS_OE (1 << 3) |
559 | 2ee73ac3 | bellard | #define FPUS_UE (1 << 4) |
560 | 2ee73ac3 | bellard | #define FPUS_PE (1 << 5) |
561 | 2ee73ac3 | bellard | #define FPUS_SF (1 << 6) |
562 | 2ee73ac3 | bellard | #define FPUS_SE (1 << 7) |
563 | 2ee73ac3 | bellard | #define FPUS_B (1 << 15) |
564 | 2ee73ac3 | bellard | |
565 | 2ee73ac3 | bellard | #define FPUC_EM 0x3f |
566 | 2ee73ac3 | bellard | |
567 | 83fb7adf | bellard | extern const CPU86_LDouble f15rk[7]; |
568 | 2c0262af | bellard | |
569 | 2c0262af | bellard | void helper_fldt_ST0_A0(void); |
570 | 2c0262af | bellard | void helper_fstt_ST0_A0(void); |
571 | 2ee73ac3 | bellard | void fpu_raise_exception(void); |
572 | 2ee73ac3 | bellard | CPU86_LDouble helper_fdiv(CPU86_LDouble a, CPU86_LDouble b); |
573 | 2c0262af | bellard | void helper_fbld_ST0_A0(void); |
574 | 2c0262af | bellard | void helper_fbst_ST0_A0(void); |
575 | 2c0262af | bellard | void helper_f2xm1(void); |
576 | 2c0262af | bellard | void helper_fyl2x(void); |
577 | 2c0262af | bellard | void helper_fptan(void); |
578 | 2c0262af | bellard | void helper_fpatan(void); |
579 | 2c0262af | bellard | void helper_fxtract(void); |
580 | 2c0262af | bellard | void helper_fprem1(void); |
581 | 2c0262af | bellard | void helper_fprem(void); |
582 | 2c0262af | bellard | void helper_fyl2xp1(void); |
583 | 2c0262af | bellard | void helper_fsqrt(void); |
584 | 2c0262af | bellard | void helper_fsincos(void); |
585 | 2c0262af | bellard | void helper_frndint(void); |
586 | 2c0262af | bellard | void helper_fscale(void); |
587 | 2c0262af | bellard | void helper_fsin(void); |
588 | 2c0262af | bellard | void helper_fcos(void); |
589 | 2c0262af | bellard | void helper_fxam_ST0(void); |
590 | 14ce26e7 | bellard | void helper_fstenv(target_ulong ptr, int data32); |
591 | 14ce26e7 | bellard | void helper_fldenv(target_ulong ptr, int data32); |
592 | 14ce26e7 | bellard | void helper_fsave(target_ulong ptr, int data32); |
593 | 14ce26e7 | bellard | void helper_frstor(target_ulong ptr, int data32); |
594 | 14ce26e7 | bellard | void helper_fxsave(target_ulong ptr, int data64); |
595 | 14ce26e7 | bellard | void helper_fxrstor(target_ulong ptr, int data64); |
596 | 03857e31 | bellard | void restore_native_fp_state(CPUState *env);
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597 | 03857e31 | bellard | void save_native_fp_state(CPUState *env);
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598 | 664e0f19 | bellard | float approx_rsqrt(float a); |
599 | 664e0f19 | bellard | float approx_rcp(float a); |
600 | 79f91c27 | bellard | double helper_sqrt(double a); |
601 | 664e0f19 | bellard | int fpu_isnan(double a); |
602 | 2c0262af | bellard | |
603 | 83fb7adf | bellard | extern const uint8_t parity_table[256]; |
604 | 83fb7adf | bellard | extern const uint8_t rclw_table[32]; |
605 | 83fb7adf | bellard | extern const uint8_t rclb_table[32]; |
606 | 2c0262af | bellard | |
607 | 2c0262af | bellard | static inline uint32_t compute_eflags(void) |
608 | 2c0262af | bellard | { |
609 | 2c0262af | bellard | return env->eflags | cc_table[CC_OP].compute_all() | (DF & DF_MASK);
|
610 | 2c0262af | bellard | } |
611 | 2c0262af | bellard | |
612 | 2c0262af | bellard | /* NOTE: CC_OP must be modified manually to CC_OP_EFLAGS */
|
613 | 2c0262af | bellard | static inline void load_eflags(int eflags, int update_mask) |
614 | 2c0262af | bellard | { |
615 | 2c0262af | bellard | CC_SRC = eflags & (CC_O | CC_S | CC_Z | CC_A | CC_P | CC_C); |
616 | 2c0262af | bellard | DF = 1 - (2 * ((eflags >> 10) & 1)); |
617 | 2c0262af | bellard | env->eflags = (env->eflags & ~update_mask) | |
618 | 2c0262af | bellard | (eflags & update_mask); |
619 | 2c0262af | bellard | } |
620 | 2c0262af | bellard | |
621 | 0d1a29f9 | bellard | static inline void env_to_regs(void) |
622 | 0d1a29f9 | bellard | { |
623 | 0d1a29f9 | bellard | #ifdef reg_EAX
|
624 | 0d1a29f9 | bellard | EAX = env->regs[R_EAX]; |
625 | 0d1a29f9 | bellard | #endif
|
626 | 0d1a29f9 | bellard | #ifdef reg_ECX
|
627 | 0d1a29f9 | bellard | ECX = env->regs[R_ECX]; |
628 | 0d1a29f9 | bellard | #endif
|
629 | 0d1a29f9 | bellard | #ifdef reg_EDX
|
630 | 0d1a29f9 | bellard | EDX = env->regs[R_EDX]; |
631 | 0d1a29f9 | bellard | #endif
|
632 | 0d1a29f9 | bellard | #ifdef reg_EBX
|
633 | 0d1a29f9 | bellard | EBX = env->regs[R_EBX]; |
634 | 0d1a29f9 | bellard | #endif
|
635 | 0d1a29f9 | bellard | #ifdef reg_ESP
|
636 | 0d1a29f9 | bellard | ESP = env->regs[R_ESP]; |
637 | 0d1a29f9 | bellard | #endif
|
638 | 0d1a29f9 | bellard | #ifdef reg_EBP
|
639 | 0d1a29f9 | bellard | EBP = env->regs[R_EBP]; |
640 | 0d1a29f9 | bellard | #endif
|
641 | 0d1a29f9 | bellard | #ifdef reg_ESI
|
642 | 0d1a29f9 | bellard | ESI = env->regs[R_ESI]; |
643 | 0d1a29f9 | bellard | #endif
|
644 | 0d1a29f9 | bellard | #ifdef reg_EDI
|
645 | 0d1a29f9 | bellard | EDI = env->regs[R_EDI]; |
646 | 0d1a29f9 | bellard | #endif
|
647 | 0d1a29f9 | bellard | } |
648 | 0d1a29f9 | bellard | |
649 | 0d1a29f9 | bellard | static inline void regs_to_env(void) |
650 | 0d1a29f9 | bellard | { |
651 | 0d1a29f9 | bellard | #ifdef reg_EAX
|
652 | 0d1a29f9 | bellard | env->regs[R_EAX] = EAX; |
653 | 0d1a29f9 | bellard | #endif
|
654 | 0d1a29f9 | bellard | #ifdef reg_ECX
|
655 | 0d1a29f9 | bellard | env->regs[R_ECX] = ECX; |
656 | 0d1a29f9 | bellard | #endif
|
657 | 0d1a29f9 | bellard | #ifdef reg_EDX
|
658 | 0d1a29f9 | bellard | env->regs[R_EDX] = EDX; |
659 | 0d1a29f9 | bellard | #endif
|
660 | 0d1a29f9 | bellard | #ifdef reg_EBX
|
661 | 0d1a29f9 | bellard | env->regs[R_EBX] = EBX; |
662 | 0d1a29f9 | bellard | #endif
|
663 | 0d1a29f9 | bellard | #ifdef reg_ESP
|
664 | 0d1a29f9 | bellard | env->regs[R_ESP] = ESP; |
665 | 0d1a29f9 | bellard | #endif
|
666 | 0d1a29f9 | bellard | #ifdef reg_EBP
|
667 | 0d1a29f9 | bellard | env->regs[R_EBP] = EBP; |
668 | 0d1a29f9 | bellard | #endif
|
669 | 0d1a29f9 | bellard | #ifdef reg_ESI
|
670 | 0d1a29f9 | bellard | env->regs[R_ESI] = ESI; |
671 | 0d1a29f9 | bellard | #endif
|
672 | 0d1a29f9 | bellard | #ifdef reg_EDI
|
673 | 0d1a29f9 | bellard | env->regs[R_EDI] = EDI; |
674 | 0d1a29f9 | bellard | #endif
|
675 | 0d1a29f9 | bellard | } |