dosbox-wii/src/dos/dos_misc.cpp

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2010-11-05 05:55:33 +01:00
/*
* Copyright (C) 2002-2010 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: dos_misc.cpp,v 1.24 2009-09-25 20:51:21 qbix79 Exp $ */
#include "dosbox.h"
#include "callback.h"
#include "mem.h"
#include "regs.h"
#include "dos_inc.h"
#include <list>
static Bitu call_int2f,call_int2a;
static std::list<MultiplexHandler*> Multiplex;
typedef std::list<MultiplexHandler*>::iterator Multiplex_it;
void DOS_AddMultiplexHandler(MultiplexHandler * handler) {
Multiplex.push_front(handler);
}
void DOS_DelMultiplexHandler(MultiplexHandler * handler) {
for(Multiplex_it it =Multiplex.begin();it != Multiplex.end();it++) {
if(*it == handler) {
Multiplex.erase(it);
return;
}
}
}
static Bitu INT2F_Handler(void) {
for(Multiplex_it it = Multiplex.begin();it != Multiplex.end();it++)
if( (*it)() ) return CBRET_NONE;
LOG(LOG_DOSMISC,LOG_ERROR)("DOS:Multiplex Unhandled call %4X",reg_ax);
return CBRET_NONE;
}
static Bitu INT2A_Handler(void) {
return CBRET_NONE;
}
static bool DOS_MultiplexFunctions(void) {
switch (reg_ax) {
case 0x1216: /* GET ADDRESS OF SYSTEM FILE TABLE ENTRY */
// reg_bx is a system file table entry, should coincide with
// the file handle so just use that
LOG(LOG_DOSMISC,LOG_ERROR)("Some BAD filetable call used bx=%X",reg_bx);
if(reg_bx <= DOS_FILES) CALLBACK_SCF(false);
else CALLBACK_SCF(true);
if (reg_bx<16) {
RealPt sftrealpt=mem_readd(Real2Phys(dos_infoblock.GetPointer())+4);
PhysPt sftptr=Real2Phys(sftrealpt);
Bitu sftofs=0x06+reg_bx*0x3b;
if (Files[reg_bx]) mem_writeb(sftptr+sftofs,Files[reg_bx]->refCtr);
else mem_writeb(sftptr+sftofs,0);
if (!Files[reg_bx]) return true;
Bit32u handle=RealHandle(reg_bx);
if (handle>=DOS_FILES) {
mem_writew(sftptr+sftofs+0x02,0x02); // file open mode
mem_writeb(sftptr+sftofs+0x04,0x00); // file attribute
mem_writew(sftptr+sftofs+0x05,Files[reg_bx]->GetInformation()); // device info word
mem_writed(sftptr+sftofs+0x07,0); // device driver header
mem_writew(sftptr+sftofs+0x0d,0); // packed time
mem_writew(sftptr+sftofs+0x0f,0); // packed date
mem_writew(sftptr+sftofs+0x11,0); // size
mem_writew(sftptr+sftofs+0x15,0); // current position
} else {
Bit8u drive=Files[reg_bx]->GetDrive();
mem_writew(sftptr+sftofs+0x02,(Bit16u)(Files[reg_bx]->flags&3)); // file open mode
mem_writeb(sftptr+sftofs+0x04,(Bit8u)(Files[reg_bx]->attr)); // file attribute
mem_writew(sftptr+sftofs+0x05,0x40|drive); // device info word
mem_writed(sftptr+sftofs+0x07,RealMake(dos.tables.dpb,drive)); // dpb of the drive
mem_writew(sftptr+sftofs+0x0d,Files[reg_bx]->time); // packed file time
mem_writew(sftptr+sftofs+0x0f,Files[reg_bx]->date); // packed file date
Bit32u curpos=0;
Files[reg_bx]->Seek(&curpos,DOS_SEEK_CUR);
Bit32u endpos=0;
Files[reg_bx]->Seek(&endpos,DOS_SEEK_END);
mem_writed(sftptr+sftofs+0x11,endpos); // size
mem_writed(sftptr+sftofs+0x15,curpos); // current position
Files[reg_bx]->Seek(&curpos,DOS_SEEK_SET);
}
// fill in filename in fcb style
// (space-padded name (8 chars)+space-padded extension (3 chars))
const char* filename=(const char*)Files[reg_bx]->GetName();
if (strrchr(filename,'\\')) filename=strrchr(filename,'\\')+1;
if (strrchr(filename,'/')) filename=strrchr(filename,'/')+1;
if (!filename) return true;
const char* dotpos=strrchr(filename,'.');
if (dotpos) {
dotpos++;
size_t nlen=strlen(filename);
size_t extlen=strlen(dotpos);
Bits nmelen=(Bits)nlen-(Bits)extlen;
if (nmelen<1) return true;
nlen-=(extlen+1);
if (nlen>8) nlen=8;
size_t i;
for (i=0; i<nlen; i++)
mem_writeb((PhysPt)(sftptr+sftofs+0x20+i),filename[i]);
for (i=nlen; i<8; i++)
mem_writeb((PhysPt)(sftptr+sftofs+0x20+i),' ');
if (extlen>3) extlen=3;
for (i=0; i<extlen; i++)
mem_writeb((PhysPt)(sftptr+sftofs+0x28+i),dotpos[i]);
for (i=extlen; i<3; i++)
mem_writeb((PhysPt)(sftptr+sftofs+0x28+i),' ');
} else {
size_t i;
size_t nlen=strlen(filename);
if (nlen>8) nlen=8;
for (i=0; i<nlen; i++)
mem_writeb((PhysPt)(sftptr+sftofs+0x20+i),filename[i]);
for (i=nlen; i<11; i++)
mem_writeb((PhysPt)(sftptr+sftofs+0x20+i),' ');
}
SegSet16(es,RealSeg(sftrealpt));
reg_di=RealOff(sftrealpt+sftofs);
reg_ax=0xc000;
}
return true;
case 0x1607:
if (reg_bx == 0x15) {
switch (reg_cx) {
case 0x0000: // query instance
reg_cx = 0x0001;
reg_dx = 0x50; // dos driver segment
SegSet16(es,0x50); // patch table seg
reg_bx = 0x60; // patch table ofs
return true;
case 0x0001: // set patches
reg_ax = 0xb97c;
reg_bx = (reg_dx & 0x16);
reg_dx = 0xa2ab;
return true;
case 0x0003: // get size of data struc
if (reg_dx==0x0001) {
// CDS size requested
reg_ax = 0xb97c;
reg_dx = 0xa2ab;
reg_cx = 0x000e; // size
}
return true;
case 0x0004: // instanced data
reg_dx = 0; // none
return true;
case 0x0005: // get device driver size
reg_ax = 0;
reg_dx = 0;
return true;
default:
return false;
}
}
else if (reg_bx == 0x18) return true; // idle callout
else return false;
case 0x1680: /* RELEASE CURRENT VIRTUAL MACHINE TIME-SLICE */
//TODO Maybe do some idling but could screw up other systems :)
return true; //So no warning in the debugger anymore
case 0x1689: /* Kernel IDLE CALL */
case 0x168f: /* Close awareness crap */
/* Removing warning */
return true;
case 0x4a01: /* Query free hma space */
case 0x4a02: /* ALLOCATE HMA SPACE */
LOG(LOG_DOSMISC,LOG_WARN)("INT 2f:4a HMA. DOSBox reports none available.");
reg_bx=0; //number of bytes available in HMA or amount successfully allocated
//ESDI=ffff:ffff Location of HMA/Allocated memory
SegSet16(es,0xffff);
reg_di=0xffff;
return true;
}
return false;
}
void DOS_SetupMisc(void) {
/* Setup the dos multiplex interrupt */
call_int2f=CALLBACK_Allocate();
CALLBACK_Setup(call_int2f,&INT2F_Handler,CB_IRET,"DOS Int 2f");
RealSetVec(0x2f,CALLBACK_RealPointer(call_int2f));
DOS_AddMultiplexHandler(DOS_MultiplexFunctions);
/* Setup the dos network interrupt */
call_int2a=CALLBACK_Allocate();
CALLBACK_Setup(call_int2a,&INT2A_Handler,CB_IRET,"DOS Int 2a");
RealSetVec(0x2A,CALLBACK_RealPointer(call_int2a));
}