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[/] [zet86/] [trunk/] [src/] [bochs-diff-2.3.7/] [cpu/] [crregs.h] - Blame information for rev 52

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/////////////////////////////////////////////////////////////////////////
// $Id: crregs.h,v 1.10 2008/04/16 16:44:04 sshwarts Exp $
/////////////////////////////////////////////////////////////////////////
//
//   Copyright (c) 2007 Stanislav Shwartsman
//          Written by Stanislav Shwartsman [sshwarts at sourceforge net]
//
//  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 BX_CRREGS
#define BX_CRREGS
 
struct bx_cr0_t {
  Bit32u  val32; // 32bit value of register
 
  // Accessors for all cr0 bitfields.
#define IMPLEMENT_CRREG_ACCESSORS(name,bitnum)               \
  BX_CPP_INLINE bx_bool get_##name () {                      \
    return 1 & (val32 >> bitnum);                            \
  }                                                          \
  BX_CPP_INLINE void set_##name (Bit8u val) {                \
    val32 = (val32&~(1<<bitnum)) | (val ? (1<<bitnum) : 0);  \
  }
 
// CR0 notes:
//   Each x86 level has its own quirks regarding how it handles
//   reserved bits.  I used DOS DEBUG.EXE in real mode on the
//   following processors, tried to clear bits 1..30, then tried
//   to set bits 1..30, to see how these bits are handled.
//   I found the following:
//
//   Processor    try to clear bits 1..30    try to set bits 1..30
//   386          7FFFFFF0                   7FFFFFFE
//   486DX2       00000010                   6005003E
//   Pentium      00000010                   7FFFFFFE
//   Pentium-II   00000010                   6005003E
//
// My assumptions:
//   All processors: bit 4 is hardwired to 1 (not true on all clones)
//   386: bits 5..30 of CR0 are also hardwired to 1
//   Pentium: reserved bits retain value set using mov cr0, reg32
//   486DX2/Pentium-II: reserved bits are hardwired to 0
 
  //IMPLEMENT_CRREG_ACCESSORS(PE, 0);
  BX_CPP_INLINE bx_bool get_PE () {
    return 1 & (val32 >> 0);
  }
  BX_CPP_INLINE void set_PE (Bit8u val) {
    printf("set_PE()\n");
    val32 = (val32&~(1<<0)) | (val ? (1<<0) : 0);
  }
  IMPLEMENT_CRREG_ACCESSORS(MP, 1);
  IMPLEMENT_CRREG_ACCESSORS(EM, 2);
  IMPLEMENT_CRREG_ACCESSORS(TS, 3);
#if BX_CPU_LEVEL >= 4
  IMPLEMENT_CRREG_ACCESSORS(ET, 4);
  IMPLEMENT_CRREG_ACCESSORS(NE, 5);
  IMPLEMENT_CRREG_ACCESSORS(AM, 18);
  IMPLEMENT_CRREG_ACCESSORS(WP, 16);
  IMPLEMENT_CRREG_ACCESSORS(CD, 29);
  IMPLEMENT_CRREG_ACCESSORS(NW, 30);
#endif
  IMPLEMENT_CRREG_ACCESSORS(PG, 31);
 
  BX_CPP_INLINE Bit32u getRegister() { return val32; }
  BX_CPP_INLINE void setRegister(Bit32u val) { if (val & 1) printf("setCR0 (PE)\n"); val32 = val; }
};
 
#if BX_CPU_LEVEL >= 4
struct bx_cr4_t {
  Bit32u  val32; // 32bit value of register
 
#if BX_SUPPORT_VME
  IMPLEMENT_CRREG_ACCESSORS(VME, 0);
  IMPLEMENT_CRREG_ACCESSORS(PVI, 1);
#endif
  IMPLEMENT_CRREG_ACCESSORS(TSD, 2);
  IMPLEMENT_CRREG_ACCESSORS(DE,  3);
  IMPLEMENT_CRREG_ACCESSORS(PSE, 4);
  IMPLEMENT_CRREG_ACCESSORS(PAE, 5);
  IMPLEMENT_CRREG_ACCESSORS(MCE, 6);
  IMPLEMENT_CRREG_ACCESSORS(PGE, 7);
  IMPLEMENT_CRREG_ACCESSORS(PCE, 8);
  IMPLEMENT_CRREG_ACCESSORS(OSFXSR, 9);
  IMPLEMENT_CRREG_ACCESSORS(OSXMMEXCPT, 10);
#if BX_SUPPORT_XSAVE
  IMPLEMENT_CRREG_ACCESSORS(OSXSAVE, 18);
#endif
 
  BX_CPP_INLINE Bit32u getRegister() { return val32; }
  BX_CPP_INLINE void setRegister(Bit32u val) { val32 = val; }
};
#endif  // #if BX_CPU_LEVEL >= 4
 
#if BX_SUPPORT_VME
  #define CR4_VME_ENABLED (BX_CPU_THIS_PTR cr4.get_VME())
#else
  #define CR4_VME_ENABLED (0)
#endif
 
#if BX_SUPPORT_X86_64
 
struct bx_efer_t {
  Bit32u val32; // 32bit value of register
 
  IMPLEMENT_CRREG_ACCESSORS(SCE,    0);
  IMPLEMENT_CRREG_ACCESSORS(LME,    8);
  IMPLEMENT_CRREG_ACCESSORS(LMA,   10);
  IMPLEMENT_CRREG_ACCESSORS(NXE,   11);
  IMPLEMENT_CRREG_ACCESSORS(FFXSR, 14);
 
  BX_CPP_INLINE Bit32u getRegister() { return val32; }
  BX_CPP_INLINE void setRegister(Bit32u val) { val32 = val; }
};
 
#define BX_EFER_LMA_MASK       (1<<10)
#define BX_EFER_SUPPORTED_BITS BX_CONST64(0x00004d01)
 
#endif
 
#if BX_SUPPORT_XSAVE
struct xcr0_t {
  Bit32u  val32; // 32bit value of register
 
#define BX_XCR0_SUPPORTED_BITS 0x3
 
#define BX_XCR0_FPU_BIT   0
#define BX_XCR0_FPU_MASK (1<<BX_XCR0_FPU_BIT)
#define BX_XCR0_SSE_BIT   1
#define BX_XCR0_SSE_MASK (1<<BX_XCR0_SSE_BIT)
 
  IMPLEMENT_CRREG_ACCESSORS(FPU, BX_XCR0_FPU_BIT);
#if BX_SUPPORT_SSE
  IMPLEMENT_CRREG_ACCESSORS(SSE, BX_XCR0_SSE_BIT);
#endif
 
  BX_CPP_INLINE Bit32u getRegister() { return val32; }
  BX_CPP_INLINE void setRegister(Bit32u val) { val32 = val; }
};
#endif
 
#undef IMPLEMENT_CRREG_ACCESSORS
 
#endif

Line No.	Rev	Author	Line
1	39	zeus	`/////////////////////////////////////////////////////////////////////////`
2	52	zeus	`// $Id: crregs.h,v 1.10 2008/04/16 16:44:04 sshwarts Exp $`
3	39	zeus	`/////////////////////////////////////////////////////////////////////////`
4			`//`
5			`// Copyright (c) 2007 Stanislav Shwartsman`
6			`// Written by Stanislav Shwartsman [sshwarts at sourceforge net]`
7			`//`
8			`// This library is free software; you can redistribute it and/or`
9			`// modify it under the terms of the GNU Lesser General Public`
10			`// License as published by the Free Software Foundation; either`
11			`// version 2 of the License, or (at your option) any later version.`
12			`//`
13			`// This library is distributed in the hope that it will be useful,`
14			`// but WITHOUT ANY WARRANTY; without even the implied warranty of`
15			`// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU`
16			`// Lesser General Public License for more details.`
17			`//`
18			`// You should have received a copy of the GNU Lesser General Public`
19			`// License along with this library; if not, write to the Free Software`
20			`// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA`
21			`//`
22			`/////////////////////////////////////////////////////////////////////////`
23
24			`#ifndef BX_CRREGS`
25			`#define BX_CRREGS`
26
27			`struct bx_cr0_t {`
28			`Bit32u val32; // 32bit value of register`
29
30			`// Accessors for all cr0 bitfields.`
31			`#define IMPLEMENT_CRREG_ACCESSORS(name,bitnum) \`
32			`BX_CPP_INLINE bx_bool get_##name () { \`
33			`return 1 & (val32 >> bitnum); \`
34			`} \`
35			`BX_CPP_INLINE void set_##name (Bit8u val) { \`
36			`val32 = (val32&~(1<<bitnum)) \| (val ? (1<<bitnum) : 0); \`
37			`}`
38
39			`// CR0 notes:`
40			`// Each x86 level has its own quirks regarding how it handles`
41			`// reserved bits. I used DOS DEBUG.EXE in real mode on the`
42			`// following processors, tried to clear bits 1..30, then tried`
43			`// to set bits 1..30, to see how these bits are handled.`
44			`// I found the following:`
45			`//`
46			`// Processor try to clear bits 1..30 try to set bits 1..30`
47			`// 386 7FFFFFF0 7FFFFFFE`
48			`// 486DX2 00000010 6005003E`
49			`// Pentium 00000010 7FFFFFFE`
50			`// Pentium-II 00000010 6005003E`
51			`//`
52			`// My assumptions:`
53			`// All processors: bit 4 is hardwired to 1 (not true on all clones)`
54			`// 386: bits 5..30 of CR0 are also hardwired to 1`
55			`// Pentium: reserved bits retain value set using mov cr0, reg32`
56			`// 486DX2/Pentium-II: reserved bits are hardwired to 0`
57
58			`//IMPLEMENT_CRREG_ACCESSORS(PE, 0);`
59			`BX_CPP_INLINE bx_bool get_PE () {`
60			`return 1 & (val32 >> 0);`
61			`}`
62			`BX_CPP_INLINE void set_PE (Bit8u val) {`
63			`printf("set_PE()\n");`
64			`val32 = (val32&~(1<<0)) \| (val ? (1<<0) : 0);`
65			`}`
66			`IMPLEMENT_CRREG_ACCESSORS(MP, 1);`
67			`IMPLEMENT_CRREG_ACCESSORS(EM, 2);`
68			`IMPLEMENT_CRREG_ACCESSORS(TS, 3);`
69			`#if BX_CPU_LEVEL >= 4`
70			`IMPLEMENT_CRREG_ACCESSORS(ET, 4);`
71			`IMPLEMENT_CRREG_ACCESSORS(NE, 5);`
72			`IMPLEMENT_CRREG_ACCESSORS(AM, 18);`
73			`IMPLEMENT_CRREG_ACCESSORS(WP, 16);`
74			`IMPLEMENT_CRREG_ACCESSORS(CD, 29);`
75			`IMPLEMENT_CRREG_ACCESSORS(NW, 30);`
76			`#endif`
77			`IMPLEMENT_CRREG_ACCESSORS(PG, 31);`
78
79			`BX_CPP_INLINE Bit32u getRegister() { return val32; }`
80			`BX_CPP_INLINE void setRegister(Bit32u val) { if (val & 1) printf("setCR0 (PE)\n"); val32 = val; }`
81			`};`
82
83			`#if BX_CPU_LEVEL >= 4`
84			`struct bx_cr4_t {`
85			`Bit32u val32; // 32bit value of register`
86
87			`#if BX_SUPPORT_VME`
88			`IMPLEMENT_CRREG_ACCESSORS(VME, 0);`
89			`IMPLEMENT_CRREG_ACCESSORS(PVI, 1);`
90			`#endif`
91			`IMPLEMENT_CRREG_ACCESSORS(TSD, 2);`
92			`IMPLEMENT_CRREG_ACCESSORS(DE, 3);`
93			`IMPLEMENT_CRREG_ACCESSORS(PSE, 4);`
94			`IMPLEMENT_CRREG_ACCESSORS(PAE, 5);`
95			`IMPLEMENT_CRREG_ACCESSORS(MCE, 6);`
96			`IMPLEMENT_CRREG_ACCESSORS(PGE, 7);`
97			`IMPLEMENT_CRREG_ACCESSORS(PCE, 8);`
98			`IMPLEMENT_CRREG_ACCESSORS(OSFXSR, 9);`
99			`IMPLEMENT_CRREG_ACCESSORS(OSXMMEXCPT, 10);`
100			`#if BX_SUPPORT_XSAVE`
101			`IMPLEMENT_CRREG_ACCESSORS(OSXSAVE, 18);`
102			`#endif`
103
104			`BX_CPP_INLINE Bit32u getRegister() { return val32; }`
105			`BX_CPP_INLINE void setRegister(Bit32u val) { val32 = val; }`
106			`};`
107			`#endif // #if BX_CPU_LEVEL >= 4`
108
109			`#if BX_SUPPORT_VME`
110			`#define CR4_VME_ENABLED (BX_CPU_THIS_PTR cr4.get_VME())`
111			`#else`
112			`#define CR4_VME_ENABLED (0)`
113			`#endif`
114
115			`#if BX_SUPPORT_X86_64`
116
117			`struct bx_efer_t {`
118			`Bit32u val32; // 32bit value of register`
119
120			`IMPLEMENT_CRREG_ACCESSORS(SCE, 0);`
121			`IMPLEMENT_CRREG_ACCESSORS(LME, 8);`
122			`IMPLEMENT_CRREG_ACCESSORS(LMA, 10);`
123			`IMPLEMENT_CRREG_ACCESSORS(NXE, 11);`
124			`IMPLEMENT_CRREG_ACCESSORS(FFXSR, 14);`
125
126			`BX_CPP_INLINE Bit32u getRegister() { return val32; }`
127			`BX_CPP_INLINE void setRegister(Bit32u val) { val32 = val; }`
128			`};`
129
130			`#define BX_EFER_LMA_MASK (1<<10)`
131			`#define BX_EFER_SUPPORTED_BITS BX_CONST64(0x00004d01)`
132
133			`#endif`
134
135			`#if BX_SUPPORT_XSAVE`
136			`struct xcr0_t {`
137			`Bit32u val32; // 32bit value of register`
138
139			`#define BX_XCR0_SUPPORTED_BITS 0x3`
140
141			`#define BX_XCR0_FPU_BIT 0`
142			`#define BX_XCR0_FPU_MASK (1<<BX_XCR0_FPU_BIT)`
143			`#define BX_XCR0_SSE_BIT 1`
144			`#define BX_XCR0_SSE_MASK (1<<BX_XCR0_SSE_BIT)`
145
146			`IMPLEMENT_CRREG_ACCESSORS(FPU, BX_XCR0_FPU_BIT);`
147			`#if BX_SUPPORT_SSE`
148			`IMPLEMENT_CRREG_ACCESSORS(SSE, BX_XCR0_SSE_BIT);`
149			`#endif`
150
151			`BX_CPP_INLINE Bit32u getRegister() { return val32; }`
152			`BX_CPP_INLINE void setRegister(Bit32u val) { val32 = val; }`
153			`};`
154			`#endif`
155
156			`#undef IMPLEMENT_CRREG_ACCESSORS`
157
158			`#endif`

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[/] [zet86/] [trunk/] [src/] [bochs-diff-2.3.7/] [cpu/] [crregs.h] - Blame information for rev 52