dosbox-wii/include/cpu.h

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/*
* Copyright (C) 2002-2008 The DOSBox Team
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
/* $Id: cpu.h,v 1.56 2009/04/25 16:25:03 harekiet Exp $ */
#ifndef DOSBOX_CPU_H
#define DOSBOX_CPU_H
#ifndef DOSBOX_DOSBOX_H
#include "dosbox.h"
#endif
#ifndef DOSBOX_REGS_H
#include "regs.h"
#endif
#ifndef DOSBOX_MEM_H
#include "mem.h"
#endif
#define CPU_AUTODETERMINE_NONE 0x00
#define CPU_AUTODETERMINE_CORE 0x01
#define CPU_AUTODETERMINE_CYCLES 0x02
#define CPU_AUTODETERMINE_SHIFT 0x02
#define CPU_AUTODETERMINE_MASK 0x03
#define CPU_CYCLES_LOWER_LIMIT 100
#define CPU_ARCHTYPE_MIXED 0xff
#define CPU_ARCHTYPE_386SLOW 0x30
#define CPU_ARCHTYPE_386FAST 0x35
#define CPU_ARCHTYPE_486OLDSLOW 0x40
#define CPU_ARCHTYPE_486NEWSLOW 0x45
#define CPU_ARCHTYPE_PENTIUMSLOW 0x50
/* CPU Cycle Timing */
extern Bit32s CPU_Cycles;
extern Bit32s CPU_CycleLeft;
extern Bit32s CPU_CycleMax;
extern Bit32s CPU_OldCycleMax;
extern Bit32s CPU_CyclePercUsed;
extern Bit32s CPU_CycleLimit;
extern Bit64s CPU_IODelayRemoved;
extern bool CPU_CycleAutoAdjust;
extern bool CPU_SkipCycleAutoAdjust;
extern Bitu CPU_AutoDetermineMode;
extern Bitu CPU_ArchitectureType;
extern Bitu CPU_PrefetchQueueSize;
/* Some common Defines */
/* A CPU Handler */
typedef Bits (CPU_Decoder)(void);
extern CPU_Decoder * cpudecoder;
Bits CPU_Core_Normal_Run(void);
Bits CPU_Core_Normal_Trap_Run(void);
Bits CPU_Core_Simple_Run(void);
Bits CPU_Core_Full_Run(void);
Bits CPU_Core_Dyn_X86_Run(void);
Bits CPU_Core_Dyn_X86_Trap_Run(void);
Bits CPU_Core_Dynrec_Run(void);
Bits CPU_Core_Dynrec_Trap_Run(void);
Bits CPU_Core_Prefetch_Run(void);
Bits CPU_Core_Prefetch_Trap_Run(void);
void CPU_Enable_SkipAutoAdjust(void);
void CPU_Disable_SkipAutoAdjust(void);
void CPU_Reset_AutoAdjust(void);
//CPU Stuff
extern Bit16u parity_lookup[256];
bool CPU_LLDT(Bitu selector);
bool CPU_LTR(Bitu selector);
void CPU_LIDT(Bitu limit,Bitu base);
void CPU_LGDT(Bitu limit,Bitu base);
Bitu CPU_STR(void);
Bitu CPU_SLDT(void);
Bitu CPU_SIDT_base(void);
Bitu CPU_SIDT_limit(void);
Bitu CPU_SGDT_base(void);
Bitu CPU_SGDT_limit(void);
void CPU_ARPL(Bitu & dest_sel,Bitu src_sel);
void CPU_LAR(Bitu selector,Bitu & ar);
void CPU_LSL(Bitu selector,Bitu & limit);
void CPU_SET_CRX(Bitu cr,Bitu value);
bool CPU_WRITE_CRX(Bitu cr,Bitu value);
Bitu CPU_GET_CRX(Bitu cr);
bool CPU_READ_CRX(Bitu cr,Bit32u & retvalue);
bool CPU_WRITE_DRX(Bitu dr,Bitu value);
bool CPU_READ_DRX(Bitu dr,Bit32u & retvalue);
bool CPU_WRITE_TRX(Bitu dr,Bitu value);
bool CPU_READ_TRX(Bitu dr,Bit32u & retvalue);
Bitu CPU_SMSW(void);
bool CPU_LMSW(Bitu word);
void CPU_VERR(Bitu selector);
void CPU_VERW(Bitu selector);
void CPU_JMP(bool use32,Bitu selector,Bitu offset,Bitu oldeip);
void CPU_CALL(bool use32,Bitu selector,Bitu offset,Bitu oldeip);
void CPU_RET(bool use32,Bitu bytes,Bitu oldeip);
void CPU_IRET(bool use32,Bitu oldeip);
void CPU_HLT(Bitu oldeip);
bool CPU_POPF(Bitu use32);
bool CPU_PUSHF(Bitu use32);
bool CPU_CLI(void);
bool CPU_STI(void);
bool CPU_IO_Exception(Bitu port,Bitu size);
void CPU_RunException(void);
void CPU_ENTER(bool use32,Bitu bytes,Bitu level);
#define CPU_INT_SOFTWARE 0x1
#define CPU_INT_EXCEPTION 0x2
#define CPU_INT_HAS_ERROR 0x4
#define CPU_INT_NOIOPLCHECK 0x8
void CPU_Interrupt(Bitu num,Bitu type,Bitu oldeip);
static INLINE void CPU_HW_Interrupt(Bitu num) {
CPU_Interrupt(num,0,reg_eip);
}
static INLINE void CPU_SW_Interrupt(Bitu num,Bitu oldeip) {
CPU_Interrupt(num,CPU_INT_SOFTWARE,oldeip);
}
static INLINE void CPU_SW_Interrupt_NoIOPLCheck(Bitu num,Bitu oldeip) {
CPU_Interrupt(num,CPU_INT_SOFTWARE|CPU_INT_NOIOPLCHECK,oldeip);
}
bool CPU_PrepareException(Bitu which,Bitu error);
void CPU_Exception(Bitu which,Bitu error=0);
bool CPU_SetSegGeneral(SegNames seg,Bitu value);
bool CPU_PopSeg(SegNames seg,bool use32);
bool CPU_CPUID(void);
Bitu CPU_Pop16(void);
Bitu CPU_Pop32(void);
void CPU_Push16(Bitu value);
void CPU_Push32(Bitu value);
void CPU_SetFlags(Bitu word,Bitu mask);
#define EXCEPTION_UD 6
#define EXCEPTION_TS 10
#define EXCEPTION_NP 11
#define EXCEPTION_SS 12
#define EXCEPTION_GP 13
#define EXCEPTION_PF 14
#define CR0_PROTECTION 0x00000001
#define CR0_MONITORPROCESSOR 0x00000002
#define CR0_FPUEMULATION 0x00000004
#define CR0_TASKSWITCH 0x00000008
#define CR0_FPUPRESENT 0x00000010
#define CR0_PAGING 0x80000000
// *********************************************************************
// Descriptor
// *********************************************************************
#define DESC_INVALID 0x00
#define DESC_286_TSS_A 0x01
#define DESC_LDT 0x02
#define DESC_286_TSS_B 0x03
#define DESC_286_CALL_GATE 0x04
#define DESC_TASK_GATE 0x05
#define DESC_286_INT_GATE 0x06
#define DESC_286_TRAP_GATE 0x07
#define DESC_386_TSS_A 0x09
#define DESC_386_TSS_B 0x0b
#define DESC_386_CALL_GATE 0x0c
#define DESC_386_INT_GATE 0x0e
#define DESC_386_TRAP_GATE 0x0f
/* EU/ED Expand UP/DOWN RO/RW Read Only/Read Write NA/A Accessed */
#define DESC_DATA_EU_RO_NA 0x10
#define DESC_DATA_EU_RO_A 0x11
#define DESC_DATA_EU_RW_NA 0x12
#define DESC_DATA_EU_RW_A 0x13
#define DESC_DATA_ED_RO_NA 0x14
#define DESC_DATA_ED_RO_A 0x15
#define DESC_DATA_ED_RW_NA 0x16
#define DESC_DATA_ED_RW_A 0x17
/* N/R Readable NC/C Confirming A/NA Accessed */
#define DESC_CODE_N_NC_A 0x18
#define DESC_CODE_N_NC_NA 0x19
#define DESC_CODE_R_NC_A 0x1a
#define DESC_CODE_R_NC_NA 0x1b
#define DESC_CODE_N_C_A 0x1c
#define DESC_CODE_N_C_NA 0x1d
#define DESC_CODE_R_C_A 0x1e
#define DESC_CODE_R_C_NA 0x1f
#ifdef _MSC_VER
#pragma pack (1)
#endif
struct S_Descriptor {
#ifdef WORDS_BIGENDIAN
Bit32u base_0_15 :16;
Bit32u limit_0_15 :16;
Bit32u base_24_31 :8;
Bit32u g :1;
Bit32u big :1;
Bit32u r :1;
Bit32u avl :1;
Bit32u limit_16_19 :4;
Bit32u p :1;
Bit32u dpl :2;
Bit32u type :5;
Bit32u base_16_23 :8;
#else
Bit32u limit_0_15 :16;
Bit32u base_0_15 :16;
Bit32u base_16_23 :8;
Bit32u type :5;
Bit32u dpl :2;
Bit32u p :1;
Bit32u limit_16_19 :4;
Bit32u avl :1;
Bit32u r :1;
Bit32u big :1;
Bit32u g :1;
Bit32u base_24_31 :8;
#endif
}GCC_ATTRIBUTE(packed);
struct G_Descriptor {
#ifdef WORDS_BIGENDIAN
Bit32u selector: 16;
Bit32u offset_0_15 :16;
Bit32u offset_16_31 :16;
Bit32u p :1;
Bit32u dpl :2;
Bit32u type :5;
Bit32u reserved :3;
Bit32u paramcount :5;
#else
Bit32u offset_0_15 :16;
Bit32u selector :16;
Bit32u paramcount :5;
Bit32u reserved :3;
Bit32u type :5;
Bit32u dpl :2;
Bit32u p :1;
Bit32u offset_16_31 :16;
#endif
} GCC_ATTRIBUTE(packed);
struct TSS_16 {
Bit16u back; /* Back link to other task */
Bit16u sp0; /* The CK stack pointer */
Bit16u ss0; /* The CK stack selector */
Bit16u sp1; /* The parent KL stack pointer */
Bit16u ss1; /* The parent KL stack selector */
Bit16u sp2; /* Unused */
Bit16u ss2; /* Unused */
Bit16u ip; /* The instruction pointer */
Bit16u flags; /* The flags */
Bit16u ax, cx, dx, bx; /* The general purpose registers */
Bit16u sp, bp, si, di; /* The special purpose registers */
Bit16u es; /* The extra selector */
Bit16u cs; /* The code selector */
Bit16u ss; /* The application stack selector */
Bit16u ds; /* The data selector */
Bit16u ldt; /* The local descriptor table */
} GCC_ATTRIBUTE(packed);
struct TSS_32 {
Bit32u back; /* Back link to other task */
Bit32u esp0; /* The CK stack pointer */
Bit32u ss0; /* The CK stack selector */
Bit32u esp1; /* The parent KL stack pointer */
Bit32u ss1; /* The parent KL stack selector */
Bit32u esp2; /* Unused */
Bit32u ss2; /* Unused */
Bit32u cr3; /* The page directory pointer */
Bit32u eip; /* The instruction pointer */
Bit32u eflags; /* The flags */
Bit32u eax, ecx, edx, ebx; /* The general purpose registers */
Bit32u esp, ebp, esi, edi; /* The special purpose registers */
Bit32u es; /* The extra selector */
Bit32u cs; /* The code selector */
Bit32u ss; /* The application stack selector */
Bit32u ds; /* The data selector */
Bit32u fs; /* And another extra selector */
Bit32u gs; /* ... and another one */
Bit32u ldt; /* The local descriptor table */
} GCC_ATTRIBUTE(packed);
#ifdef _MSC_VER
#pragma pack()
#endif
class Descriptor
{
public:
Descriptor() { saved.fill[0]=saved.fill[1]=0; }
void Load(PhysPt address);
void Save(PhysPt address);
PhysPt GetBase (void) {
return (saved.seg.base_24_31<<24) | (saved.seg.base_16_23<<16) | saved.seg.base_0_15;
}
Bitu GetLimit (void) {
Bitu limit = (saved.seg.limit_16_19<<16) | saved.seg.limit_0_15;
if (saved.seg.g) return (limit<<12) | 0xFFF;
return limit;
}
Bitu GetOffset(void) {
return (saved.gate.offset_16_31 << 16) | saved.gate.offset_0_15;
}
Bitu GetSelector(void) {
return saved.gate.selector;
}
Bitu Type(void) {
return saved.seg.type;
}
Bitu Conforming(void) {
return saved.seg.type & 8;
}
Bitu DPL(void) {
return saved.seg.dpl;
}
Bitu Big(void) {
return saved.seg.big;
}
public:
union {
S_Descriptor seg;
G_Descriptor gate;
Bit32u fill[2];
} saved;
};
class DescriptorTable {
public:
PhysPt GetBase (void) { return table_base; }
Bitu GetLimit (void) { return table_limit; }
void SetBase (PhysPt _base) { table_base = _base; }
void SetLimit (Bitu _limit) { table_limit= _limit; }
bool GetDescriptor (Bitu selector, Descriptor& desc) {
selector&=~7;
if (selector>=table_limit) return false;
desc.Load(table_base+(selector));
return true;
}
protected:
PhysPt table_base;
Bitu table_limit;
};
class GDTDescriptorTable : public DescriptorTable {
public:
bool GetDescriptor(Bitu selector, Descriptor& desc) {
Bitu address=selector & ~7;
if (selector & 4) {
if (address>=ldt_limit) return false;
desc.Load(ldt_base+address);
return true;
} else {
if (address>=table_limit) return false;
desc.Load(table_base+address);
return true;
}
}
bool SetDescriptor(Bitu selector, Descriptor& desc) {
Bitu address=selector & ~7;
if (selector & 4) {
if (address>=ldt_limit) return false;
desc.Save(ldt_base+address);
return true;
} else {
if (address>=table_limit) return false;
desc.Save(table_base+address);
return true;
}
}
Bitu SLDT(void) {
return ldt_value;
}
bool LLDT(Bitu value) {
if ((value&0xfffc)==0) {
ldt_value=0;
ldt_base=0;
ldt_limit=0;
return true;
}
Descriptor desc;
if (!GetDescriptor(value,desc)) return !CPU_PrepareException(EXCEPTION_GP,value);
if (desc.Type()!=DESC_LDT) return !CPU_PrepareException(EXCEPTION_GP,value);
if (!desc.saved.seg.p) return !CPU_PrepareException(EXCEPTION_NP,value);
ldt_base=desc.GetBase();
ldt_limit=desc.GetLimit();
ldt_value=value;
return true;
}
private:
PhysPt ldt_base;
Bitu ldt_limit;
Bitu ldt_value;
};
class TSS_Descriptor : public Descriptor {
public:
Bitu IsBusy(void) {
return saved.seg.type & 2;
}
Bitu Is386(void) {
return saved.seg.type & 8;
}
void SetBusy(bool busy) {
if (busy) saved.seg.type|=2;
else saved.seg.type&=~2;
}
};
struct CPUBlock {
Bitu cpl; /* Current Privilege */
Bitu mpl;
Bitu cr0;
bool pmode; /* Is Protected mode enabled */
GDTDescriptorTable gdt;
DescriptorTable idt;
struct {
Bitu mask,notmask;
bool big;
} stack;
struct {
bool big;
} code;
struct {
Bitu cs,eip;
CPU_Decoder * old_decoder;
} hlt;
struct {
Bitu which,error;
} exception;
Bits direction;
bool trap_skip;
Bit32u drx[8];
Bit32u trx[8];
};
extern CPUBlock cpu;
static INLINE void CPU_SetFlagsd(Bitu word) {
Bitu mask=cpu.cpl ? FMASK_NORMAL : FMASK_ALL;
CPU_SetFlags(word,mask);
}
static INLINE void CPU_SetFlagsw(Bitu word) {
Bitu mask=(cpu.cpl ? FMASK_NORMAL : FMASK_ALL) & 0xffff;
CPU_SetFlags(word,mask);
}
#endif