mirror of
https://github.com/retro100/dosbox-wii.git
synced 2024-11-16 15:19:15 +01:00
220 lines
5.8 KiB
C
220 lines
5.8 KiB
C
/*
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* Copyright (C) 2002-2009 The DOSBox Team
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*/
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#ifndef DOSBOX_MEM_H
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#define DOSBOX_MEM_H
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#ifndef DOSBOX_DOSBOX_H
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#include "dosbox.h"
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#endif
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typedef Bit32u PhysPt;
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typedef Bit8u * HostPt;
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typedef Bit32u RealPt;
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typedef Bit32s MemHandle;
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#define MEM_PAGESIZE 4096
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extern HostPt MemBase;
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HostPt GetMemBase(void);
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bool MEM_A20_Enabled(void);
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void MEM_A20_Enable(bool enable);
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/* Memory management / EMS mapping */
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HostPt MEM_GetBlockPage(void);
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Bitu MEM_FreeTotal(void); //Free 4 kb pages
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Bitu MEM_FreeLargest(void); //Largest free 4 kb pages block
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Bitu MEM_TotalPages(void); //Total amount of 4 kb pages
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Bitu MEM_AllocatedPages(MemHandle handle); // amount of allocated pages of handle
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MemHandle MEM_AllocatePages(Bitu pages,bool sequence);
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MemHandle MEM_GetNextFreePage(void);
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PhysPt MEM_AllocatePage(void);
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void MEM_ReleasePages(MemHandle handle);
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bool MEM_ReAllocatePages(MemHandle & handle,Bitu pages,bool sequence);
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MemHandle MEM_NextHandle(MemHandle handle);
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MemHandle MEM_NextHandleAt(MemHandle handle,Bitu where);
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/*
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The folowing six functions are used everywhere in the end so these should be changed for
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Working on big or little endian machines
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*/
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#if defined(WORDS_BIGENDIAN) || !defined(C_UNALIGNED_MEMORY)
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static INLINE Bit8u host_readb(HostPt off) {
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return off[0];
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}
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static INLINE Bit16u host_readw(HostPt off) {
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return off[0] | (off[1] << 8);
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}
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static INLINE Bit32u host_readd(HostPt off) {
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return off[0] | (off[1] << 8) | (off[2] << 16) | (off[3] << 24);
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}
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static INLINE void host_writeb(HostPt off,Bit8u val) {
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off[0]=val;
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}
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static INLINE void host_writew(HostPt off,Bit16u val) {
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off[0]=(Bit8u)(val);
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off[1]=(Bit8u)(val >> 8);
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}
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static INLINE void host_writed(HostPt off,Bit32u val) {
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off[0]=(Bit8u)(val);
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off[1]=(Bit8u)(val >> 8);
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off[2]=(Bit8u)(val >> 16);
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off[3]=(Bit8u)(val >> 24);
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}
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#else
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static INLINE Bit8u host_readb(HostPt off) {
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return *(Bit8u *)off;
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}
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static INLINE Bit16u host_readw(HostPt off) {
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return *(Bit16u *)off;
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}
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static INLINE Bit32u host_readd(HostPt off) {
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return *(Bit32u *)off;
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}
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static INLINE void host_writeb(HostPt off,Bit8u val) {
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*(Bit8u *)(off)=val;
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}
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static INLINE void host_writew(HostPt off,Bit16u val) {
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*(Bit16u *)(off)=val;
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}
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static INLINE void host_writed(HostPt off,Bit32u val) {
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*(Bit32u *)(off)=val;
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}
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#endif
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static INLINE void var_write(Bit8u * var, Bit8u val) {
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host_writeb((HostPt)var, val);
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}
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static INLINE void var_write(Bit16u * var, Bit16u val) {
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host_writew((HostPt)var, val);
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}
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static INLINE void var_write(Bit32u * var, Bit32u val) {
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host_writed((HostPt)var, val);
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}
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/* The Folowing six functions are slower but they recognize the paged memory system */
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Bit8u mem_readb(PhysPt pt);
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Bit16u mem_readw(PhysPt pt);
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Bit32u mem_readd(PhysPt pt);
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void mem_writeb(PhysPt pt,Bit8u val);
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void mem_writew(PhysPt pt,Bit16u val);
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void mem_writed(PhysPt pt,Bit32u val);
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static INLINE void phys_writeb(PhysPt addr,Bit8u val) {
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host_writeb(MemBase+addr,val);
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}
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static INLINE void phys_writew(PhysPt addr,Bit16u val){
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host_writew(MemBase+addr,val);
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}
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static INLINE void phys_writed(PhysPt addr,Bit32u val){
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host_writed(MemBase+addr,val);
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}
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static INLINE Bit8u phys_readb(PhysPt addr) {
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return host_readb(MemBase+addr);
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}
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static INLINE Bit16u phys_readw(PhysPt addr){
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return host_readw(MemBase+addr);
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}
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static INLINE Bit32u phys_readd(PhysPt addr){
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return host_readd(MemBase+addr);
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}
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/* These don't check for alignment, better be sure it's correct */
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void MEM_BlockWrite(PhysPt pt,void const * const data,Bitu size);
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void MEM_BlockRead(PhysPt pt,void * data,Bitu size);
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void MEM_BlockCopy(PhysPt dest,PhysPt src,Bitu size);
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void MEM_StrCopy(PhysPt pt,char * data,Bitu size);
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void mem_memcpy(PhysPt dest,PhysPt src,Bitu size);
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Bitu mem_strlen(PhysPt pt);
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void mem_strcpy(PhysPt dest,PhysPt src);
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/* The folowing functions are all shortcuts to the above functions using physical addressing */
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static INLINE Bit8u real_readb(Bit16u seg,Bit16u off) {
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return mem_readb((seg<<4)+off);
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}
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static INLINE Bit16u real_readw(Bit16u seg,Bit16u off) {
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return mem_readw((seg<<4)+off);
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}
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static INLINE Bit32u real_readd(Bit16u seg,Bit16u off) {
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return mem_readd((seg<<4)+off);
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}
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static INLINE void real_writeb(Bit16u seg,Bit16u off,Bit8u val) {
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mem_writeb(((seg<<4)+off),val);
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}
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static INLINE void real_writew(Bit16u seg,Bit16u off,Bit16u val) {
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mem_writew(((seg<<4)+off),val);
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}
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static INLINE void real_writed(Bit16u seg,Bit16u off,Bit32u val) {
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mem_writed(((seg<<4)+off),val);
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}
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static INLINE Bit16u RealSeg(RealPt pt) {
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return (Bit16u)(pt>>16);
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}
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static INLINE Bit16u RealOff(RealPt pt) {
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return (Bit16u)(pt&0xffff);
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}
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static INLINE PhysPt Real2Phys(RealPt pt) {
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return (RealSeg(pt)<<4) +RealOff(pt);
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}
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static INLINE PhysPt PhysMake(Bit16u seg,Bit16u off) {
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return (seg<<4)+off;
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}
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static INLINE RealPt RealMake(Bit16u seg,Bit16u off) {
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return (seg<<16)+off;
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}
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static INLINE void RealSetVec(Bit8u vec,RealPt pt) {
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mem_writed(vec<<2,pt);
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}
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static INLINE void RealSetVec(Bit8u vec,RealPt pt,RealPt &old) {
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old = mem_readd(vec<<2);
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mem_writed(vec<<2,pt);
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}
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static INLINE RealPt RealGetVec(Bit8u vec) {
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return mem_readd(vec<<2);
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}
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#endif
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