mirror of
https://github.com/retro100/dosbox-wii.git
synced 2024-12-27 19:11:50 +01:00
368 lines
11 KiB
C++
368 lines
11 KiB
C++
/*
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* Copyright (C) 2002-2011 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_PAGING_H
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#define DOSBOX_PAGING_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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#ifndef DOSBOX_MEM_H
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#include "mem.h"
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#endif
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// disable this to reduce the size of the TLB
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// NOTE: does not work with the dynamic core (dynrec is fine)
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#ifndef HW_RVL
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#define USE_FULL_TLB
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#endif
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class PageDirectory;
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#define MEM_PAGE_SIZE (4096)
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#define XMS_START (0x110)
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#if defined(USE_FULL_TLB)
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#define TLB_SIZE (1024*1024)
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#else
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#define TLB_SIZE 65536 // This must a power of 2 and greater then LINK_START
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#define BANK_SHIFT 28
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#define BANK_MASK 0xffff // always the same as TLB_SIZE-1?
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#define TLB_BANKS ((1024*1024/TLB_SIZE)-1)
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#endif
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#define PFLAG_READABLE 0x1
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#define PFLAG_WRITEABLE 0x2
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#define PFLAG_HASROM 0x4
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#define PFLAG_HASCODE 0x8 //Page contains dynamic code
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#define PFLAG_NOCODE 0x10 //No dynamic code can be generated here
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#define PFLAG_INIT 0x20 //No dynamic code can be generated here
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#define LINK_START ((1024+64)/4) //Start right after the HMA
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//Allow 128 mb of memory to be linked
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#define PAGING_LINKS (128*1024/4)
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class PageHandler {
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public:
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virtual ~PageHandler(void) { }
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virtual Bitu readb(PhysPt addr);
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virtual Bitu readw(PhysPt addr);
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virtual Bitu readd(PhysPt addr);
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virtual void writeb(PhysPt addr,Bitu val);
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virtual void writew(PhysPt addr,Bitu val);
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virtual void writed(PhysPt addr,Bitu val);
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virtual HostPt GetHostReadPt(Bitu phys_page);
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virtual HostPt GetHostWritePt(Bitu phys_page);
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virtual bool readb_checked(PhysPt addr,Bit8u * val);
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virtual bool readw_checked(PhysPt addr,Bit16u * val);
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virtual bool readd_checked(PhysPt addr,Bit32u * val);
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virtual bool writeb_checked(PhysPt addr,Bitu val);
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virtual bool writew_checked(PhysPt addr,Bitu val);
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virtual bool writed_checked(PhysPt addr,Bitu val);
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Bitu flags;
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};
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/* Some other functions */
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void PAGING_Enable(bool enabled);
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bool PAGING_Enabled(void);
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Bitu PAGING_GetDirBase(void);
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void PAGING_SetDirBase(Bitu cr3);
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void PAGING_InitTLB(void);
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void PAGING_ClearTLB(void);
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void PAGING_LinkPage(Bitu lin_page,Bitu phys_page);
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void PAGING_LinkPage_ReadOnly(Bitu lin_page,Bitu phys_page);
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void PAGING_UnlinkPages(Bitu lin_page,Bitu pages);
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/* This maps the page directly, only use when paging is disabled */
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void PAGING_MapPage(Bitu lin_page,Bitu phys_page);
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bool PAGING_MakePhysPage(Bitu & page);
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bool PAGING_ForcePageInit(Bitu lin_addr);
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void MEM_SetLFB(Bitu page, Bitu pages, PageHandler *handler, PageHandler *mmiohandler);
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void MEM_SetPageHandler(Bitu phys_page, Bitu pages, PageHandler * handler);
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void MEM_ResetPageHandler(Bitu phys_page, Bitu pages);
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#ifdef _MSC_VER
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#pragma pack (1)
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#endif
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struct X86_PageEntryBlock{
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#ifdef WORDS_BIGENDIAN
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Bit32u base:20;
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Bit32u avl:3;
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Bit32u g:1;
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Bit32u pat:1;
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Bit32u d:1;
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Bit32u a:1;
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Bit32u pcd:1;
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Bit32u pwt:1;
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Bit32u us:1;
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Bit32u wr:1;
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Bit32u p:1;
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#else
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Bit32u p:1;
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Bit32u wr:1;
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Bit32u us:1;
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Bit32u pwt:1;
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Bit32u pcd:1;
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Bit32u a:1;
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Bit32u d:1;
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Bit32u pat:1;
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Bit32u g:1;
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Bit32u avl:3;
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Bit32u base:20;
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#endif
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} GCC_ATTRIBUTE(packed);
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#ifdef _MSC_VER
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#pragma pack ()
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#endif
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union X86PageEntry {
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Bit32u load;
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X86_PageEntryBlock block;
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};
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#if !defined(USE_FULL_TLB)
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typedef struct {
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HostPt read;
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HostPt write;
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PageHandler * readhandler;
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PageHandler * writehandler;
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Bit32u phys_page;
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} tlb_entry;
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#endif
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struct PagingBlock {
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Bitu cr3;
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Bitu cr2;
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struct {
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Bitu page;
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PhysPt addr;
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} base;
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#if defined(USE_FULL_TLB)
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struct {
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HostPt read[TLB_SIZE];
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HostPt write[TLB_SIZE];
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PageHandler * readhandler[TLB_SIZE];
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PageHandler * writehandler[TLB_SIZE];
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Bit32u phys_page[TLB_SIZE];
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} tlb;
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#else
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tlb_entry tlbh[TLB_SIZE];
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tlb_entry *tlbh_banks[TLB_BANKS];
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#endif
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struct {
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Bitu used;
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Bit32u entries[PAGING_LINKS];
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} links;
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Bit32u firstmb[LINK_START];
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bool enabled;
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};
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extern PagingBlock paging;
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/* Some support functions */
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PageHandler * MEM_GetPageHandler(Bitu phys_page);
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/* Unaligned address handlers */
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Bit16u mem_unalignedreadw(PhysPt address);
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Bit32u mem_unalignedreadd(PhysPt address);
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void mem_unalignedwritew(PhysPt address,Bit16u val);
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void mem_unalignedwrited(PhysPt address,Bit32u val);
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bool mem_unalignedreadw_checked(PhysPt address,Bit16u * val);
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bool mem_unalignedreadd_checked(PhysPt address,Bit32u * val);
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bool mem_unalignedwritew_checked(PhysPt address,Bit16u val);
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bool mem_unalignedwrited_checked(PhysPt address,Bit32u val);
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#if defined(USE_FULL_TLB)
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static INLINE HostPt get_tlb_read(PhysPt address) {
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return paging.tlb.read[address>>12];
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}
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static INLINE HostPt get_tlb_write(PhysPt address) {
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return paging.tlb.write[address>>12];
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}
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static INLINE PageHandler* get_tlb_readhandler(PhysPt address) {
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return paging.tlb.readhandler[address>>12];
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}
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static INLINE PageHandler* get_tlb_writehandler(PhysPt address) {
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return paging.tlb.writehandler[address>>12];
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}
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/* Use these helper functions to access linear addresses in readX/writeX functions */
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static INLINE PhysPt PAGING_GetPhysicalPage(PhysPt linePage) {
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return (paging.tlb.phys_page[linePage>>12]<<12);
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}
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static INLINE PhysPt PAGING_GetPhysicalAddress(PhysPt linAddr) {
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return (paging.tlb.phys_page[linAddr>>12]<<12)|(linAddr&0xfff);
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}
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#else
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void PAGING_InitTLBBank(tlb_entry **bank);
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static INLINE tlb_entry *get_tlb_entry(PhysPt address) {
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Bitu index=(address>>12);
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if (TLB_BANKS && (index > TLB_SIZE)) {
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Bitu bank=(address>>BANK_SHIFT) - 1;
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if (!paging.tlbh_banks[bank])
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PAGING_InitTLBBank(&paging.tlbh_banks[bank]);
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return &paging.tlbh_banks[bank][index & BANK_MASK];
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}
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return &paging.tlbh[index];
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}
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static INLINE HostPt get_tlb_read(PhysPt address) {
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return get_tlb_entry(address)->read;
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}
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static INLINE HostPt get_tlb_write(PhysPt address) {
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return get_tlb_entry(address)->write;
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}
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static INLINE PageHandler* get_tlb_readhandler(PhysPt address) {
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return get_tlb_entry(address)->readhandler;
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}
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static INLINE PageHandler* get_tlb_writehandler(PhysPt address) {
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return get_tlb_entry(address)->writehandler;
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}
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/* Use these helper functions to access linear addresses in readX/writeX functions */
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static INLINE PhysPt PAGING_GetPhysicalPage(PhysPt linePage) {
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tlb_entry *entry = get_tlb_entry(linePage);
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return (entry->phys_page<<12);
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}
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static INLINE PhysPt PAGING_GetPhysicalAddress(PhysPt linAddr) {
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tlb_entry *entry = get_tlb_entry(linAddr);
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return (entry->phys_page<<12)|(linAddr&0xfff);
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}
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#endif
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/* Special inlined memory reading/writing */
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static INLINE Bit8u mem_readb_inline(PhysPt address) {
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HostPt tlb_addr=get_tlb_read(address);
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if (tlb_addr) return host_readb(tlb_addr+address);
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else return (Bit8u)(get_tlb_readhandler(address))->readb(address);
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}
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static INLINE Bit16u mem_readw_inline(PhysPt address) {
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if ((address & 0xfff)<0xfff) {
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HostPt tlb_addr=get_tlb_read(address);
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if (tlb_addr) return host_readw(tlb_addr+address);
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else return (Bit16u)(get_tlb_readhandler(address))->readw(address);
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} else return mem_unalignedreadw(address);
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}
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static INLINE Bit32u mem_readd_inline(PhysPt address) {
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if ((address & 0xfff)<0xffd) {
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HostPt tlb_addr=get_tlb_read(address);
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if (tlb_addr) return host_readd(tlb_addr+address);
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else return (get_tlb_readhandler(address))->readd(address);
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} else return mem_unalignedreadd(address);
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}
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static INLINE void mem_writeb_inline(PhysPt address,Bit8u val) {
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HostPt tlb_addr=get_tlb_write(address);
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if (tlb_addr) host_writeb(tlb_addr+address,val);
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else (get_tlb_writehandler(address))->writeb(address,val);
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}
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static INLINE void mem_writew_inline(PhysPt address,Bit16u val) {
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if ((address & 0xfff)<0xfff) {
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HostPt tlb_addr=get_tlb_write(address);
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if (tlb_addr) host_writew(tlb_addr+address,val);
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else (get_tlb_writehandler(address))->writew(address,val);
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} else mem_unalignedwritew(address,val);
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}
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static INLINE void mem_writed_inline(PhysPt address,Bit32u val) {
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if ((address & 0xfff)<0xffd) {
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HostPt tlb_addr=get_tlb_write(address);
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if (tlb_addr) host_writed(tlb_addr+address,val);
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else (get_tlb_writehandler(address))->writed(address,val);
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} else mem_unalignedwrited(address,val);
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}
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static INLINE bool mem_readb_checked(PhysPt address, Bit8u * val) {
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HostPt tlb_addr=get_tlb_read(address);
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if (tlb_addr) {
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*val=host_readb(tlb_addr+address);
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return false;
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} else return (get_tlb_readhandler(address))->readb_checked(address, val);
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}
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static INLINE bool mem_readw_checked(PhysPt address, Bit16u * val) {
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if ((address & 0xfff)<0xfff) {
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HostPt tlb_addr=get_tlb_read(address);
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if (tlb_addr) {
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*val=host_readw(tlb_addr+address);
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return false;
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} else return (get_tlb_readhandler(address))->readw_checked(address, val);
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} else return mem_unalignedreadw_checked(address, val);
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}
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static INLINE bool mem_readd_checked(PhysPt address, Bit32u * val) {
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if ((address & 0xfff)<0xffd) {
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HostPt tlb_addr=get_tlb_read(address);
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if (tlb_addr) {
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*val=host_readd(tlb_addr+address);
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return false;
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} else return (get_tlb_readhandler(address))->readd_checked(address, val);
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} else return mem_unalignedreadd_checked(address, val);
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}
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static INLINE bool mem_writeb_checked(PhysPt address,Bit8u val) {
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HostPt tlb_addr=get_tlb_write(address);
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if (tlb_addr) {
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host_writeb(tlb_addr+address,val);
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return false;
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} else return (get_tlb_writehandler(address))->writeb_checked(address,val);
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}
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static INLINE bool mem_writew_checked(PhysPt address,Bit16u val) {
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if ((address & 0xfff)<0xfff) {
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HostPt tlb_addr=get_tlb_write(address);
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if (tlb_addr) {
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host_writew(tlb_addr+address,val);
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return false;
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} else return (get_tlb_writehandler(address))->writew_checked(address,val);
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} else return mem_unalignedwritew_checked(address,val);
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}
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static INLINE bool mem_writed_checked(PhysPt address,Bit32u val) {
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if ((address & 0xfff)<0xffd) {
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HostPt tlb_addr=get_tlb_write(address);
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if (tlb_addr) {
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host_writed(tlb_addr+address,val);
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return false;
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} else return (get_tlb_writehandler(address))->writed_checked(address,val);
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} else return mem_unalignedwrited_checked(address,val);
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}
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#endif
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