mirror of
https://github.com/retro100/dosbox-wii.git
synced 2024-11-17 23:59:15 +01:00
666 lines
21 KiB
C++
666 lines
21 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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class CodePageHandlerDynRec; // forward
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// basic cache block representation
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class CacheBlockDynRec {
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public:
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void Clear(void);
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// link this cache block to another block, index specifies the code
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// path (always zero for unconditional links, 0/1 for conditional ones
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void LinkTo(Bitu index,CacheBlockDynRec * toblock) {
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assert(toblock);
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link[index].to=toblock;
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link[index].next=toblock->link[index].from; // set target block
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toblock->link[index].from=this; // remember who links me
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}
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struct {
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Bit16u start,end; // where in the page is the original code
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CodePageHandlerDynRec * handler; // page containing this code
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} page;
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struct {
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Bit8u * start; // where in the cache are we
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Bitu size;
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CacheBlockDynRec * next;
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// writemap masking maskpointer/start/length
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// to allow holes in the writemap
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Bit8u * wmapmask;
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Bit16u maskstart;
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Bit16u masklen;
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} cache;
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struct {
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Bitu index;
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CacheBlockDynRec * next;
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} hash;
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struct {
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CacheBlockDynRec * to; // this block can transfer control to the to-block
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CacheBlockDynRec * next;
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CacheBlockDynRec * from; // the from-block can transfer control to this block
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} link[2]; // maximal two links (conditional jumps)
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CacheBlockDynRec * crossblock;
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};
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static struct {
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struct {
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CacheBlockDynRec * first; // the first cache block in the list
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CacheBlockDynRec * active; // the current cache block
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CacheBlockDynRec * free; // pointer to the free list
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CacheBlockDynRec * running; // the last block that was entered for execution
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} block;
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Bit8u * pos; // position in the cache block
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CodePageHandlerDynRec * free_pages; // pointer to the free list
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CodePageHandlerDynRec * used_pages; // pointer to the list of used pages
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CodePageHandlerDynRec * last_page; // the last used page
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} cache;
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// cache memory pointers, to be malloc'd later
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static Bit8u * cache_code_start_ptr=NULL;
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static Bit8u * cache_code=NULL;
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static Bit8u * cache_code_link_blocks=NULL;
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static CacheBlockDynRec * cache_blocks=NULL;
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static CacheBlockDynRec link_blocks[2]; // default linking (specially marked)
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// the CodePageHandlerDynRec class provides access to the contained
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// cache blocks and intercepts writes to the code for special treatment
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class CodePageHandlerDynRec : public PageHandler {
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public:
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CodePageHandlerDynRec() {
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invalidation_map=NULL;
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}
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void SetupAt(Bitu _phys_page,PageHandler * _old_pagehandler) {
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// initialize this codepage handler
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phys_page=_phys_page;
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// save the old pagehandler to provide direct read access to the memory,
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// and to be able to restore it later on
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old_pagehandler=_old_pagehandler;
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// adjust flags
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flags=old_pagehandler->flags|PFLAG_HASCODE;
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flags&=~PFLAG_WRITEABLE;
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active_blocks=0;
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active_count=16;
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// initialize the maps with zero (no cache blocks as well as code present)
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memset(&hash_map,0,sizeof(hash_map));
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memset(&write_map,0,sizeof(write_map));
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if (invalidation_map!=NULL) {
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free(invalidation_map);
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invalidation_map=NULL;
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}
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}
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// clear out blocks that contain code which has been modified
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bool InvalidateRange(Bitu start,Bitu end) {
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Bits index=1+(end>>DYN_HASH_SHIFT);
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bool is_current_block=false; // if the current block is modified, it has to be exited as soon as possible
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Bit32u ip_point=SegPhys(cs)+reg_eip;
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ip_point=(PAGING_GetPhysicalPage(ip_point)-(phys_page<<12))+(ip_point&0xfff);
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while (index>=0) {
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Bitu map=0;
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// see if there is still some code in the range
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for (Bitu count=start;count<=end;count++) map+=write_map[count];
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if (!map) return is_current_block; // no more code, finished
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CacheBlockDynRec * block=hash_map[index];
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while (block) {
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CacheBlockDynRec * nextblock=block->hash.next;
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// test if this block is in the range
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if (start<=block->page.end && end>=block->page.start) {
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if (ip_point<=block->page.end && ip_point>=block->page.start) is_current_block=true;
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block->Clear(); // clear the block, decrements the write_map accordingly
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}
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block=nextblock;
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}
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index--;
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}
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return is_current_block;
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}
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// the following functions will clean all cache blocks that are invalid now due to the write
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void writeb(PhysPt addr,Bitu val){
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addr&=4095;
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if (host_readb(hostmem+addr)==(Bit8u)val) return;
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host_writeb(hostmem+addr,val);
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// see if there's code where we are writing to
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if (!host_readb(&write_map[addr])) {
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if (active_blocks) return; // still some blocks in this page
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active_count--;
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if (!active_count) Release(); // delay page releasing until active_count is zero
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return;
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} else if (!invalidation_map) {
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invalidation_map=(Bit8u*)malloc(4096);
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memset(invalidation_map,0,4096);
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}
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invalidation_map[addr]++;
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InvalidateRange(addr,addr);
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}
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void writew(PhysPt addr,Bitu val){
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addr&=4095;
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if (host_readw(hostmem+addr)==(Bit16u)val) return;
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host_writew(hostmem+addr,val);
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// see if there's code where we are writing to
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if (!host_readw(&write_map[addr])) {
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if (active_blocks) return; // still some blocks in this page
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active_count--;
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if (!active_count) Release(); // delay page releasing until active_count is zero
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return;
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} else if (!invalidation_map) {
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invalidation_map=(Bit8u*)malloc(4096);
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memset(invalidation_map,0,4096);
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}
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#if defined(WORDS_BIGENDIAN) || !defined(C_UNALIGNED_MEMORY)
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host_writew(&invalidation_map[addr],
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host_readw(&invalidation_map[addr])+0x101);
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#else
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(*(Bit16u*)&invalidation_map[addr])+=0x101;
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#endif
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InvalidateRange(addr,addr+1);
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}
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void writed(PhysPt addr,Bitu val){
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addr&=4095;
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if (host_readd(hostmem+addr)==(Bit32u)val) return;
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host_writed(hostmem+addr,val);
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// see if there's code where we are writing to
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if (!host_readd(&write_map[addr])) {
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if (active_blocks) return; // still some blocks in this page
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active_count--;
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if (!active_count) Release(); // delay page releasing until active_count is zero
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return;
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} else if (!invalidation_map) {
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invalidation_map=(Bit8u*)malloc(4096);
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memset(invalidation_map,0,4096);
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}
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#if defined(WORDS_BIGENDIAN) || !defined(C_UNALIGNED_MEMORY)
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host_writed(&invalidation_map[addr],
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host_readd(&invalidation_map[addr])+0x1010101);
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#else
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(*(Bit32u*)&invalidation_map[addr])+=0x1010101;
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#endif
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InvalidateRange(addr,addr+3);
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}
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bool writeb_checked(PhysPt addr,Bitu val) {
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addr&=4095;
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if (host_readb(hostmem+addr)==(Bit8u)val) return false;
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// see if there's code where we are writing to
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if (!host_readb(&write_map[addr])) {
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if (!active_blocks) {
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// no blocks left in this page, still delay the page releasing a bit
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active_count--;
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if (!active_count) Release();
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}
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} else {
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if (!invalidation_map) {
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invalidation_map=(Bit8u*)malloc(4096);
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memset(invalidation_map,0,4096);
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}
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invalidation_map[addr]++;
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if (InvalidateRange(addr,addr)) {
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cpu.exception.which=SMC_CURRENT_BLOCK;
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return true;
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}
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}
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host_writeb(hostmem+addr,val);
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return false;
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}
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bool writew_checked(PhysPt addr,Bitu val) {
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addr&=4095;
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if (host_readw(hostmem+addr)==(Bit16u)val) return false;
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// see if there's code where we are writing to
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if (!host_readw(&write_map[addr])) {
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if (!active_blocks) {
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// no blocks left in this page, still delay the page releasing a bit
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active_count--;
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if (!active_count) Release();
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}
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} else {
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if (!invalidation_map) {
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invalidation_map=(Bit8u*)malloc(4096);
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memset(invalidation_map,0,4096);
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}
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#if defined(WORDS_BIGENDIAN) || !defined(C_UNALIGNED_MEMORY)
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host_writew(&invalidation_map[addr],
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host_readw(&invalidation_map[addr])+0x101);
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#else
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(*(Bit16u*)&invalidation_map[addr])+=0x101;
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#endif
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if (InvalidateRange(addr,addr+1)) {
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cpu.exception.which=SMC_CURRENT_BLOCK;
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return true;
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}
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}
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host_writew(hostmem+addr,val);
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return false;
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}
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bool writed_checked(PhysPt addr,Bitu val) {
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addr&=4095;
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if (host_readd(hostmem+addr)==(Bit32u)val) return false;
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// see if there's code where we are writing to
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if (!host_readd(&write_map[addr])) {
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if (!active_blocks) {
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// no blocks left in this page, still delay the page releasing a bit
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active_count--;
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if (!active_count) Release();
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}
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} else {
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if (!invalidation_map) {
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invalidation_map=(Bit8u*)malloc(4096);
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memset(invalidation_map,0,4096);
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}
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#if defined(WORDS_BIGENDIAN) || !defined(C_UNALIGNED_MEMORY)
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host_writed(&invalidation_map[addr],
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host_readd(&invalidation_map[addr])+0x1010101);
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#else
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(*(Bit32u*)&invalidation_map[addr])+=0x1010101;
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#endif
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if (InvalidateRange(addr,addr+3)) {
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cpu.exception.which=SMC_CURRENT_BLOCK;
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return true;
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}
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}
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host_writed(hostmem+addr,val);
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return false;
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}
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// add a cache block to this page and note it in the hash map
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void AddCacheBlock(CacheBlockDynRec * block) {
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Bitu index=1+(block->page.start>>DYN_HASH_SHIFT);
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block->hash.next=hash_map[index]; // link to old block at index from the new block
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block->hash.index=index;
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hash_map[index]=block; // put new block at hash position
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block->page.handler=this;
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active_blocks++;
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}
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// there's a block whose code started in a different page
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void AddCrossBlock(CacheBlockDynRec * block) {
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block->hash.next=hash_map[0];
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block->hash.index=0;
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hash_map[0]=block;
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block->page.handler=this;
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active_blocks++;
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}
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// remove a cache block
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void DelCacheBlock(CacheBlockDynRec * block) {
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active_blocks--;
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active_count=16;
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CacheBlockDynRec * * bwhere=&hash_map[block->hash.index];
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while (*bwhere!=block) {
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bwhere=&((*bwhere)->hash.next);
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//Will crash if a block isn't found, which should never happen.
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}
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*bwhere=block->hash.next;
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// remove the cleared block from the write map
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if (GCC_UNLIKELY(block->cache.wmapmask!=NULL)) {
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// first part is not influenced by the mask
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for (Bitu i=block->page.start;i<block->cache.maskstart;i++) {
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if (write_map[i]) write_map[i]--;
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}
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Bitu maskct=0;
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// last part sticks to the writemap mask
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for (Bitu i=block->cache.maskstart;i<=block->page.end;i++,maskct++) {
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if (write_map[i]) {
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// only adjust writemap if it isn't masked
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if ((maskct>=block->cache.masklen) || (!block->cache.wmapmask[maskct])) write_map[i]--;
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}
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}
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free(block->cache.wmapmask);
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block->cache.wmapmask=NULL;
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} else {
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for (Bitu i=block->page.start;i<=block->page.end;i++) {
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if (write_map[i]) write_map[i]--;
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}
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}
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}
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void Release(void) {
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MEM_SetPageHandler(phys_page,1,old_pagehandler); // revert to old handler
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PAGING_ClearTLB();
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// remove page from the lists
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if (prev) prev->next=next;
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else cache.used_pages=next;
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if (next) next->prev=prev;
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else cache.last_page=prev;
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next=cache.free_pages;
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cache.free_pages=this;
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prev=0;
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}
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void ClearRelease(void) {
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// clear out all cache blocks in this page
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for (Bitu index=0;index<(1+DYN_PAGE_HASH);index++) {
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CacheBlockDynRec * block=hash_map[index];
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while (block) {
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CacheBlockDynRec * nextblock=block->hash.next;
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block->page.handler=0; // no need, full clear
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block->Clear();
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block=nextblock;
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}
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}
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Release(); // now can release this page
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}
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CacheBlockDynRec * FindCacheBlock(Bitu start) {
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CacheBlockDynRec * block=hash_map[1+(start>>DYN_HASH_SHIFT)];
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// see if there's a cache block present at the start address
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while (block) {
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if (block->page.start==start) return block; // found
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block=block->hash.next;
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}
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return 0; // none found
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}
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HostPt GetHostReadPt(Bitu phys_page) {
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hostmem=old_pagehandler->GetHostReadPt(phys_page);
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return hostmem;
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}
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HostPt GetHostWritePt(Bitu phys_page) {
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return GetHostReadPt( phys_page );
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}
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public:
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// the write map, there are write_map[i] cache blocks that cover the byte at address i
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Bit8u write_map[4096];
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Bit8u * invalidation_map;
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CodePageHandlerDynRec * next, * prev; // page linking
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private:
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PageHandler * old_pagehandler;
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// hash map to quickly find the cache blocks in this page
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CacheBlockDynRec * hash_map[1+DYN_PAGE_HASH];
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Bitu active_blocks; // the number of cache blocks in this page
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Bitu active_count; // delaying parameter to not immediately release a page
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HostPt hostmem;
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Bitu phys_page;
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};
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static INLINE void cache_addunusedblock(CacheBlockDynRec * block) {
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// block has become unused, add it to the freelist
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block->cache.next=cache.block.free;
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cache.block.free=block;
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}
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static CacheBlockDynRec * cache_getblock(void) {
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// get a free cache block and advance the free pointer
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CacheBlockDynRec * ret=cache.block.free;
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if (!ret) E_Exit("Ran out of CacheBlocks" );
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cache.block.free=ret->cache.next;
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ret->cache.next=0;
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return ret;
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}
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void CacheBlockDynRec::Clear(void) {
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Bitu ind;
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// check if this is not a cross page block
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if (hash.index) for (ind=0;ind<2;ind++) {
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CacheBlockDynRec * fromlink=link[ind].from;
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link[ind].from=0;
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while (fromlink) {
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CacheBlockDynRec * nextlink=fromlink->link[ind].next;
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// clear the next-link and let the block point to the standard linkcode
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fromlink->link[ind].next=0;
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fromlink->link[ind].to=&link_blocks[ind];
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fromlink=nextlink;
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}
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if (link[ind].to!=&link_blocks[ind]) {
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// not linked to the standard linkcode, find the block that links to this block
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CacheBlockDynRec * * wherelink=&link[ind].to->link[ind].from;
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while (*wherelink != this && *wherelink) {
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wherelink = &(*wherelink)->link[ind].next;
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}
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// now remove the link
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if(*wherelink)
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*wherelink = (*wherelink)->link[ind].next;
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else {
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LOG(LOG_CPU,LOG_ERROR)("Cache anomaly. please investigate");
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}
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}
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} else
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cache_addunusedblock(this);
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if (crossblock) {
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// clear out the crossblock (in the page before) as well
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crossblock->crossblock=0;
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crossblock->Clear();
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crossblock=0;
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}
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if (page.handler) {
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// clear out the code page handler
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page.handler->DelCacheBlock(this);
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page.handler=0;
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}
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if (cache.wmapmask){
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free(cache.wmapmask);
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cache.wmapmask=NULL;
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}
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}
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static CacheBlockDynRec * cache_openblock(void) {
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CacheBlockDynRec * block=cache.block.active;
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// check for enough space in this block
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Bitu size=block->cache.size;
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CacheBlockDynRec * nextblock=block->cache.next;
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if (block->page.handler)
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block->Clear();
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// block size must be at least CACHE_MAXSIZE
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while (size<CACHE_MAXSIZE) {
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if (!nextblock)
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goto skipresize;
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// merge blocks
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size+=nextblock->cache.size;
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CacheBlockDynRec * tempblock=nextblock->cache.next;
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if (nextblock->page.handler)
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nextblock->Clear();
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// block is free now
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cache_addunusedblock(nextblock);
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nextblock=tempblock;
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}
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|
skipresize:
|
|
// adjust parameters and open this block
|
|
block->cache.size=size;
|
|
block->cache.next=nextblock;
|
|
cache.pos=block->cache.start;
|
|
return block;
|
|
}
|
|
|
|
static void cache_closeblock(void) {
|
|
CacheBlockDynRec * block=cache.block.active;
|
|
// links point to the default linking code
|
|
block->link[0].to=&link_blocks[0];
|
|
block->link[1].to=&link_blocks[1];
|
|
block->link[0].from=0;
|
|
block->link[1].from=0;
|
|
block->link[0].next=0;
|
|
block->link[1].next=0;
|
|
// close the block with correct alignment
|
|
Bitu written=(Bitu)(cache.pos-block->cache.start);
|
|
if (written>block->cache.size) {
|
|
if (!block->cache.next) {
|
|
if (written>block->cache.size+CACHE_MAXSIZE) E_Exit("CacheBlock overrun 1 %d",written-block->cache.size);
|
|
} else E_Exit("CacheBlock overrun 2 written %d size %d",written,block->cache.size);
|
|
} else {
|
|
Bitu new_size;
|
|
Bitu left=block->cache.size-written;
|
|
// smaller than cache align then don't bother to resize
|
|
if (left>CACHE_ALIGN) {
|
|
new_size=((written-1)|(CACHE_ALIGN-1))+1;
|
|
CacheBlockDynRec * newblock=cache_getblock();
|
|
// align block now to CACHE_ALIGN
|
|
newblock->cache.start=block->cache.start+new_size;
|
|
newblock->cache.size=block->cache.size-new_size;
|
|
newblock->cache.next=block->cache.next;
|
|
block->cache.next=newblock;
|
|
block->cache.size=new_size;
|
|
}
|
|
}
|
|
// advance the active block pointer
|
|
if (!block->cache.next || (block->cache.next->cache.start>(cache_code_start_ptr + CACHE_TOTAL - CACHE_MAXSIZE))) {
|
|
// LOG_MSG("Cache full restarting");
|
|
cache.block.active=cache.block.first;
|
|
} else {
|
|
cache.block.active=block->cache.next;
|
|
}
|
|
}
|
|
|
|
|
|
// place an 8bit value into the cache
|
|
static INLINE void cache_addb(Bit8u val) {
|
|
*cache.pos++=val;
|
|
}
|
|
|
|
// place a 16bit value into the cache
|
|
static INLINE void cache_addw(Bit16u val) {
|
|
*(Bit16u*)cache.pos=val;
|
|
cache.pos+=2;
|
|
}
|
|
|
|
// place a 32bit value into the cache
|
|
static INLINE void cache_addd(Bit32u val) {
|
|
*(Bit32u*)cache.pos=val;
|
|
cache.pos+=4;
|
|
}
|
|
|
|
// place a 64bit value into the cache
|
|
static INLINE void cache_addq(Bit64u val) {
|
|
*(Bit64u*)cache.pos=val;
|
|
cache.pos+=8;
|
|
}
|
|
|
|
|
|
static void dyn_return(BlockReturn retcode,bool ret_exception);
|
|
static void dyn_run_code(void);
|
|
|
|
|
|
/* Define temporary pagesize so the MPROTECT case and the regular case share as much code as possible */
|
|
#if (C_HAVE_MPROTECT)
|
|
#define PAGESIZE_TEMP PAGESIZE
|
|
#else
|
|
#define PAGESIZE_TEMP 4096
|
|
#endif
|
|
|
|
static bool cache_initialized = false;
|
|
|
|
static void cache_init(bool enable) {
|
|
Bits i;
|
|
if (enable) {
|
|
// see if cache is already initialized
|
|
if (cache_initialized) return;
|
|
cache_initialized = true;
|
|
if (cache_blocks == NULL) {
|
|
// allocate the cache blocks memory
|
|
cache_blocks=(CacheBlockDynRec*)malloc(CACHE_BLOCKS*sizeof(CacheBlockDynRec));
|
|
if(!cache_blocks) E_Exit("Allocating cache_blocks has failed");
|
|
memset(cache_blocks,0,sizeof(CacheBlockDynRec)*CACHE_BLOCKS);
|
|
cache.block.free=&cache_blocks[0];
|
|
// initialize the cache blocks
|
|
for (i=0;i<CACHE_BLOCKS-1;i++) {
|
|
cache_blocks[i].link[0].to=(CacheBlockDynRec *)1;
|
|
cache_blocks[i].link[1].to=(CacheBlockDynRec *)1;
|
|
cache_blocks[i].cache.next=&cache_blocks[i+1];
|
|
}
|
|
}
|
|
if (cache_code_start_ptr==NULL) {
|
|
// allocate the code cache memory
|
|
#if defined (WIN32)
|
|
cache_code_start_ptr=(Bit8u*)VirtualAlloc(0,CACHE_TOTAL+CACHE_MAXSIZE+PAGESIZE_TEMP-1+PAGESIZE_TEMP,
|
|
MEM_COMMIT,PAGE_EXECUTE_READWRITE);
|
|
if (!cache_code_start_ptr)
|
|
cache_code_start_ptr=(Bit8u*)malloc(CACHE_TOTAL+CACHE_MAXSIZE+PAGESIZE_TEMP-1+PAGESIZE_TEMP);
|
|
#else
|
|
cache_code_start_ptr=(Bit8u*)malloc(CACHE_TOTAL+CACHE_MAXSIZE+PAGESIZE_TEMP-1+PAGESIZE_TEMP);
|
|
#endif
|
|
if(!cache_code_start_ptr) E_Exit("Allocating dynamic cache failed");
|
|
|
|
// align the cache at a page boundary
|
|
cache_code=(Bit8u*)(((long)cache_code_start_ptr + PAGESIZE_TEMP-1) & ~(PAGESIZE_TEMP-1)); //MEM LEAK. store old pointer if you want to free it.
|
|
|
|
cache_code_link_blocks=cache_code;
|
|
cache_code=cache_code+PAGESIZE_TEMP;
|
|
|
|
#if (C_HAVE_MPROTECT)
|
|
if(mprotect(cache_code_link_blocks,CACHE_TOTAL+CACHE_MAXSIZE+PAGESIZE_TEMP,PROT_WRITE|PROT_READ|PROT_EXEC))
|
|
LOG_MSG("Setting excute permission on the code cache has failed");
|
|
#endif
|
|
CacheBlockDynRec * block=cache_getblock();
|
|
cache.block.first=block;
|
|
cache.block.active=block;
|
|
block->cache.start=&cache_code[0];
|
|
block->cache.size=CACHE_TOTAL;
|
|
block->cache.next=0; // last block in the list
|
|
}
|
|
// setup the default blocks for block linkage returns
|
|
cache.pos=&cache_code_link_blocks[0];
|
|
link_blocks[0].cache.start=cache.pos;
|
|
// link code that returns with a special return code
|
|
dyn_return(BR_Link1,false);
|
|
cache.pos=&cache_code_link_blocks[32];
|
|
link_blocks[1].cache.start=cache.pos;
|
|
// link code that returns with a special return code
|
|
dyn_return(BR_Link2,false);
|
|
|
|
cache.pos=&cache_code_link_blocks[64];
|
|
core_dynrec.runcode=(BlockReturn (*)(Bit8u*))cache.pos;
|
|
// link_blocks[1].cache.start=cache.pos;
|
|
dyn_run_code();
|
|
|
|
cache.free_pages=0;
|
|
cache.last_page=0;
|
|
cache.used_pages=0;
|
|
// setup the code pages
|
|
for (i=0;i<CACHE_PAGES;i++) {
|
|
CodePageHandlerDynRec * newpage=new CodePageHandlerDynRec();
|
|
newpage->next=cache.free_pages;
|
|
cache.free_pages=newpage;
|
|
}
|
|
}
|
|
}
|
|
|
|
static void cache_close(void) {
|
|
/* for (;;) {
|
|
if (cache.used_pages) {
|
|
CodePageHandler * cpage=cache.used_pages;
|
|
CodePageHandler * npage=cache.used_pages->next;
|
|
cpage->ClearRelease();
|
|
delete cpage;
|
|
cache.used_pages=npage;
|
|
} else break;
|
|
}
|
|
if (cache_blocks != NULL) {
|
|
free(cache_blocks);
|
|
cache_blocks = NULL;
|
|
}
|
|
if (cache_code_start_ptr != NULL) {
|
|
### care: under windows VirtualFree() has to be used if
|
|
### VirtualAlloc was used for memory allocation
|
|
free(cache_code_start_ptr);
|
|
cache_code_start_ptr = NULL;
|
|
}
|
|
cache_code = NULL;
|
|
cache_code_link_blocks = NULL;
|
|
cache_initialized = false; */
|
|
}
|