start work on DLDI, with some (very haxy) patching so it can do interesting things

This commit is contained in:
StapleButter 2018-04-27 00:17:05 +02:00
parent aa3fc8be68
commit 39bd94f551

View File

@ -814,6 +814,148 @@ void Reset()
} }
void ApplyDLDIPatch()
{
// TODO: embed patches? let the user choose? default to some builtin driver?
u32 offset = *(u32*)&CartROM[0x20];
u32 size = *(u32*)&CartROM[0x2C];
u8* binary = &CartROM[offset];
u32 dldioffset = 0;
for (u32 i = 0; i < size; i++)
{
if (*(u32*)&binary[i ] == 0xBF8DA5ED &&
*(u32*)&binary[i+4] == 0x69684320 &&
*(u32*)&binary[i+8] == 0x006D6873)
{
dldioffset = i;
break;
}
}
if (!dldioffset)
{
return;
}
printf("DLDI shit found at %08X (%08X)\n", dldioffset, offset+dldioffset);
FILE* f = fopen("dldi.bin", "rb");
if (!f)
{
printf("no DLDI patch available. oh well\n");
return;
}
u32 dldisize;
fseek(f, 0, SEEK_END);
dldisize = ftell(f);
fseek(f, 0, SEEK_SET);
u8* patch = new u8[dldisize];
fread(patch, dldisize, 1, f);
fclose(f);
if (*(u32*)&patch[0] != 0xBF8DA5ED ||
*(u32*)&patch[4] != 0x69684320 ||
*(u32*)&patch[8] != 0x006D6873)
{
printf("bad DLDI patch\n");
delete[] patch;
return;
}
if (patch[0x0D] > binary[dldioffset+0x0F])
{
printf("DLDI driver ain't gonna fit, sorry\n");
delete[] patch;
return;
}
printf("existing driver is: %s\n", &binary[dldioffset+0x10]);
printf("new driver is: %s\n", &patch[0x10]);
u32 memaddr = *(u32*)&binary[dldioffset+0x40];
if (memaddr == 0)
memaddr = *(u32*)&binary[dldioffset+0x68] - 0x80;
u32 patchbase = *(u32*)&patch[0x40];
u32 delta = memaddr - patchbase;
u32 patchsize = 1 << patch[0x0D];
u32 patchend = patchbase + patchsize;
memcpy(&binary[dldioffset], patch, dldisize);
*(u32*)&binary[dldioffset+0x40] += delta;
*(u32*)&binary[dldioffset+0x44] += delta;
*(u32*)&binary[dldioffset+0x48] += delta;
*(u32*)&binary[dldioffset+0x4C] += delta;
*(u32*)&binary[dldioffset+0x50] += delta;
*(u32*)&binary[dldioffset+0x54] += delta;
*(u32*)&binary[dldioffset+0x58] += delta;
*(u32*)&binary[dldioffset+0x5C] += delta;
*(u32*)&binary[dldioffset+0x68] += delta;
*(u32*)&binary[dldioffset+0x6C] += delta;
*(u32*)&binary[dldioffset+0x70] += delta;
*(u32*)&binary[dldioffset+0x74] += delta;
*(u32*)&binary[dldioffset+0x78] += delta;
*(u32*)&binary[dldioffset+0x7C] += delta;
u8 fixmask = patch[0x0E];
if (fixmask & 0x01)
{
u32 fixstart = *(u32*)&patch[0x40] - patchbase;
u32 fixend = *(u32*)&patch[0x44] - patchbase;
for (u32 addr = fixstart; addr < fixend; addr+=4)
{
u32 val = *(u32*)&binary[dldioffset+addr];
if (val >= patchbase && val < patchend)
*(u32*)&binary[dldioffset+addr] += delta;
}
}
if (fixmask & 0x02)
{
u32 fixstart = *(u32*)&patch[0x48] - patchbase;
u32 fixend = *(u32*)&patch[0x4C] - patchbase;
for (u32 addr = fixstart; addr < fixend; addr+=4)
{
u32 val = *(u32*)&binary[dldioffset+addr];
if (val >= patchbase && val < patchend)
*(u32*)&binary[dldioffset+addr] += delta;
}
}
if (fixmask & 0x04)
{
u32 fixstart = *(u32*)&patch[0x50] - patchbase;
u32 fixend = *(u32*)&patch[0x54] - patchbase;
for (u32 addr = fixstart; addr < fixend; addr+=4)
{
u32 val = *(u32*)&binary[dldioffset+addr];
if (val >= patchbase && val < patchend)
*(u32*)&binary[dldioffset+addr] += delta;
}
}
if (fixmask & 0x08)
{
u32 fixstart = *(u32*)&patch[0x58] - patchbase;
u32 fixend = *(u32*)&patch[0x5C] - patchbase;
memset(&binary[dldioffset+fixstart], 0, fixend-fixstart);
}
delete[] patch;
printf("applied DLDI patch\n");
}
bool LoadROM(const char* path, bool direct) bool LoadROM(const char* path, bool direct)
{ {
// TODO: streaming mode? for really big ROMs or systems with limited RAM // TODO: streaming mode? for really big ROMs or systems with limited RAM
@ -851,8 +993,15 @@ bool LoadROM(const char* path, bool direct)
// it just has to stay the same throughout gameplay // it just has to stay the same throughout gameplay
CartID = 0x00001FC2; CartID = 0x00001FC2;
if (*(u32*)&CartROM[0x20] < 0x4000)
{
ApplyDLDIPatch();
}
if (direct) if (direct)
{ {
// TODO: in the case of an already-encrypted secure area, direct boot
// needs it decrypted
NDS::SetupDirectBoot(); NDS::SetupDirectBoot();
CmdEncMode = 2; CmdEncMode = 2;
} }
@ -950,7 +1099,7 @@ void ROMPrepareData(u32 param)
} }
void WriteROMCnt(u32 val) void WriteROMCnt(u32 val)
{ {printf("ROMCNT %08X %08X %04X\n", val, ROMCnt, SPICnt);
ROMCnt = (val & 0xFF7F7FFF) | (ROMCnt & 0x00800000); ROMCnt = (val & 0xFF7F7FFF) | (ROMCnt & 0x00800000);
if (!(SPICnt & (1<<15))) return; if (!(SPICnt & (1<<15))) return;
@ -1004,11 +1153,11 @@ void WriteROMCnt(u32 val)
*(u32*)&cmd[4] = *(u32*)&ROMCommand[4]; *(u32*)&cmd[4] = *(u32*)&ROMCommand[4];
} }
/*printf("ROM COMMAND %04X %08X %02X%02X%02X%02X%02X%02X%02X%02X SIZE %04X\n", printf("ROM COMMAND %04X %08X %02X%02X%02X%02X%02X%02X%02X%02X SIZE %04X\n",
SPICnt, ROMCnt, SPICnt, ROMCnt,
cmd[0], cmd[1], cmd[2], cmd[3], cmd[0], cmd[1], cmd[2], cmd[3],
cmd[4], cmd[5], cmd[6], cmd[7], cmd[4], cmd[5], cmd[6], cmd[7],
datasize);*/ datasize);
switch (cmd[0]) switch (cmd[0])
{ {