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/*
Copyright 2016-2023 melonDS team
This file is part of melonDS.
melonDS 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 3 of the License, or (at your option)
any later version.
melonDS 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 melonDS. If not, see http://www.gnu.org/licenses/.
*/
#include <stdio.h>
#include <string.h>
#include "NDS.h"
#include "DSi.h"
#include "AREngine.h"
#include "Platform.h"
namespace melonDS
{
using Platform::Log;
using Platform::LogLevel;
AREngine::AREngine(melonDS::NDS& nds) : NDS(nds)
{
CodeFile = nullptr;
}
#define case16(x) \
case ((x)+0x00): case ((x)+0x01): case ((x)+0x02): case ((x)+0x03): \
case ((x)+0x04): case ((x)+0x05): case ((x)+0x06): case ((x)+0x07): \
case ((x)+0x08): case ((x)+0x09): case ((x)+0x0A): case ((x)+0x0B): \
case ((x)+0x0C): case ((x)+0x0D): case ((x)+0x0E): case ((x)+0x0F)
void AREngine::RunCheat(const ARCode& arcode)
{
const u32* code = &arcode.Code[0];
u32 offset = 0;
u32 datareg = 0;
u32 cond = 1;
u32 condstack = 0;
const u32* loopstart = code;
u32 loopcount = 0;
u32 loopcond = 1;
u32 loopcondstack = 0;
// TODO: does anything reset this??
u32 c5count = 0;
for (;;)
{
if (code >= &arcode.Code[arcode.Code.size()])
break;
u32 a = *code++;
u32 b = *code++;
u8 op = a >> 24;
if ((op < 0xD0 && op != 0xC5) || op > 0xD2)
{
if (!cond)
{
if ((op & 0xF0) == 0xE0)
{
for (u32 i = 0; i < b; i += 8)
code += 2;
}
continue;
}
}
switch (op)
{
case16(0x00): // 32-bit write
NDS.ARM7Write32((a & 0x0FFFFFFF) + offset, b);
break;
case16(0x10): // 16-bit write
NDS.ARM7Write16((a & 0x0FFFFFFF) + offset, b & 0xFFFF);
break;
case16(0x20): // 8-bit write
NDS.ARM7Write8((a & 0x0FFFFFFF) + offset, b & 0xFF);
break;
case16(0x30): // IF b > u32[a]
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u32 chk = NDS.ARM7Read32(addr);
cond = (b > chk) ? 1:0;
}
break;
case16(0x40): // IF b < u32[a]
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u32 chk = NDS.ARM7Read32(addr);
cond = (b < chk) ? 1:0;
}
break;
case16(0x50): // IF b == u32[a]
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u32 chk = NDS.ARM7Read32(addr);
cond = (b == chk) ? 1:0;
}
break;
case16(0x60): // IF b != u32[a]
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u32 chk = NDS.ARM7Read32(addr);
cond = (b != chk) ? 1:0;
}
break;
case16(0x70): // IF b.l > ((~b.h) & u16[a])
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u16 val = NDS.ARM7Read16(addr);
u16 chk = ~(b >> 16);
chk &= val;
cond = ((b & 0xFFFF) > chk) ? 1:0;
}
break;
case16(0x80): // IF b.l < ((~b.h) & u16[a])
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u16 val = NDS.ARM7Read16(addr);
u16 chk = ~(b >> 16);
chk &= val;
cond = ((b & 0xFFFF) < chk) ? 1:0;
}
break;
case16(0x90): // IF b.l == ((~b.h) & u16[a])
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u16 val = NDS.ARM7Read16(addr);
u16 chk = ~(b >> 16);
chk &= val;
cond = ((b & 0xFFFF) == chk) ? 1:0;
}
break;
case16(0xA0): // IF b.l != ((~b.h) & u16[a])
{
condstack <<= 1;
condstack |= cond;
u32 addr = a & 0x0FFFFFFF;
if (!addr) addr = offset;
u16 val = NDS.ARM7Read16(addr);
u16 chk = ~(b >> 16);
chk &= val;
cond = ((b & 0xFFFF) != chk) ? 1:0;
}
break;
case16(0xB0): // offset = u32[a + offset]
offset = NDS.ARM7Read32((a & 0x0FFFFFFF) + offset);
break;
case 0xC0: // FOR 0..b
loopstart = code; // points to the first opcode after the FOR
loopcount = b;
loopcond = cond; // checkme
loopcondstack = condstack; // (GBAtek is not very clear there)
break;
case 0xC4: // offset = pointer to C4000000 opcode
// theoretically used for safe storage, by accessing [offset+4]
// in practice could be used for a self-modifying AR code
// could be implemented with some hackery, but, does anything even
// use it??
Log(LogLevel::Error, "AR: !! THE FUCKING C4000000 OPCODE. TELL ARISOTURA.\n");
return;
case 0xC5: // count++ / IF (count & b.l) == b.h
{
// with weird condition checking, apparently
// oh well
c5count++;
if (!cond) break;
condstack <<= 1;
condstack |= cond;
u16 mask = b & 0xFFFF;
u16 chk = b >> 16;
cond = ((c5count & mask) == chk) ? 1:0;
}
break;
case 0xC6: // u32[b] = offset
NDS.ARM7Write32(b, offset);
break;
case 0xD0: // ENDIF
cond = condstack & 0x1;
condstack >>= 1;
break;
case 0xD1: // NEXT
if (loopcount > 0)
{
loopcount--;
code = loopstart;
}
else
{
cond = loopcond;
condstack = loopcondstack;
}
break;
case 0xD2: // NEXT+FLUSH
if (loopcount > 0)
{
loopcount--;
code = loopstart;
}
else
{
offset = 0;
datareg = 0;
condstack = 0;
cond = 1;
}
break;
case 0xD3: // offset = b
offset = b;
break;
case 0xD4: // datareg += b
datareg += b;
break;
case 0xD5: // datareg = b
datareg = b;
break;
case 0xD6: // u32[b+offset] = datareg / offset += 4
NDS.ARM7Write32(b + offset, datareg);
offset += 4;
break;
case 0xD7: // u16[b+offset] = datareg / offset += 2
NDS.ARM7Write16(b + offset, datareg & 0xFFFF);
offset += 2;
break;
case 0xD8: // u8[b+offset] = datareg / offset += 1
NDS.ARM7Write8(b + offset, datareg & 0xFF);
offset += 1;
break;
case 0xD9: // datareg = u32[b+offset]
datareg = NDS.ARM7Read32(b + offset);
break;
case 0xDA: // datareg = u16[b+offset]
datareg = NDS.ARM7Read16(b + offset);
break;
case 0xDB: // datareg = u8[b+offset]
datareg = NDS.ARM7Read8(b + offset);
break;
case 0xDC: // offset += b
offset += b;
break;
case16(0xE0): // copy b param bytes to address a+offset
{
// TODO: check for bad alignment of dstaddr
u32 dstaddr = (a & 0x0FFFFFFF) + offset;
u32 bytesleft = b;
while (bytesleft >= 8)
{
NDS.ARM7Write32(dstaddr, *code++); dstaddr += 4;
NDS.ARM7Write32(dstaddr, *code++); dstaddr += 4;
bytesleft -= 8;
}
if (bytesleft > 0)
{
u8* leftover = (u8*)code;
code += 2;
if (bytesleft >= 4)
{
NDS.ARM7Write32(dstaddr, *(u32*)leftover); dstaddr += 4;
leftover += 4;
bytesleft -= 4;
}
while (bytesleft > 0)
{
NDS.ARM7Write8(dstaddr, *leftover++); dstaddr++;
bytesleft--;
}
}
}
break;
case16(0xF0): // copy b bytes from address offset to address a
{
// TODO: check for bad alignment of srcaddr/dstaddr
u32 srcaddr = offset;
u32 dstaddr = (a & 0x0FFFFFFF);
u32 bytesleft = b;
while (bytesleft >= 4)
{
NDS.ARM7Write32(dstaddr, NDS.ARM7Read32(srcaddr));
srcaddr += 4;
dstaddr += 4;
bytesleft -= 4;
}
while (bytesleft > 0)
{
NDS.ARM7Write8(dstaddr, NDS.ARM7Read8(srcaddr));
srcaddr++;
dstaddr++;
bytesleft--;
}
}
break;
default:
Log(LogLevel::Warn, "!! bad AR opcode %08X %08X\n", a, b);
return;
}
}
}
void AREngine::RunCheats()
{
if (!CodeFile) return;
for (ARCodeCatList::iterator i = CodeFile->Categories.begin(); i != CodeFile->Categories.end(); i++)
{
ARCodeCat& cat = *i;
for (ARCodeList::iterator j = cat.Codes.begin(); j != cat.Codes.end(); j++)
{
ARCode& code = *j;
if (code.Enabled)
RunCheat(code);
}
}
}
}
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