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Luma3DS-3GX/sysmodules/rosalina/source/3dsx.c

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/*
* This file is part of Luma3DS
2019-02-25 02:04:32 +01:00
* Copyright (C) 2016-2019 Aurora Wright, TuxSH
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*
* Additional Terms 7.b and 7.c of GPLv3 apply to this file:
* * Requiring preservation of specified reasonable legal notices or
* author attributions in that material or in the Appropriate Legal
* Notices displayed by works containing it.
* * Prohibiting misrepresentation of the origin of that material,
* or requiring that modified versions of such material be marked in
* reasonable ways as different from the original version.
*/
/* This file was entirely written by fincs */
#include <3ds.h>
#include "3dsx.h"
#include "memory.h"
#define Log_PrintP(...) ((void)0)
#define MAXRELOCS 512
static _3DSX_Reloc s_relocBuf[MAXRELOCS];
u32 ldrArgvBuf[ARGVBUF_SIZE/4];
#define SEC_ASSERT(x) do { if (!(x)) { Log_PrintP("Assertion failed: %s", #x); return false; } } while (0)
typedef struct
{
void* segPtrs[3]; // code, rodata & data
u32 segAddrs[3];
u32 segSizes[3];
} _3DSX_LoadInfo;
static inline u32 TranslateAddr(u32 off, _3DSX_LoadInfo* d, u32* offsets)
{
if (off < offsets[0])
return d->segAddrs[0] + off;
if (off < offsets[1])
return d->segAddrs[1] + off - offsets[0];
return d->segAddrs[2] + off - offsets[1];
}
u32 IFile_Read2(IFile *file, void* buffer, u32 size, u32 offset)
{
Result res;
u64 total = 0;
file->pos = offset;
res = IFile_Read(file, &total, buffer, size);
return R_SUCCEEDED(res) ? total : 0;
}
bool Ldr_Get3dsxSize(u32* pSize, IFile *file)
{
_3DSX_Header hdr;
if (IFile_Read2(file, &hdr, sizeof(hdr), 0) != sizeof(hdr))
{
Log_PrintP("Cannot read 3DSX header");
return false;
}
if (hdr.magic != _3DSX_MAGIC)
{
Log_PrintP("Not a valid 3DSX file");
return false;
}
u32 segSizes[3];
segSizes[0] = (hdr.codeSegSize+0xFFF) &~ 0xFFF;
segSizes[1] = (hdr.rodataSegSize+0xFFF) &~ 0xFFF;
segSizes[2] = (hdr.dataSegSize+0xFFF) &~ 0xFFF;
SEC_ASSERT(segSizes[0] >= hdr.codeSegSize);
SEC_ASSERT(segSizes[1] >= hdr.rodataSegSize);
SEC_ASSERT(segSizes[2] >= hdr.dataSegSize);
// TODO: Check int overflow
*pSize = segSizes[0] + segSizes[1] + segSizes[2] + 0x1000; // One extra page reserved for settings/etc
return true;
}
static inline u32 min(u32 a, u32 b)
{
return a < b ? a : b;
}
Handle Ldr_CodesetFrom3dsx(const char* name, u32* codePages, u32 baseAddr, IFile *file, u64 tid)
{
u32 i,j,k,m;
Result res;
_3DSX_Header hdr;
IFile_Read2(file, &hdr, sizeof(hdr), 0);
_3DSX_LoadInfo d;
d.segSizes[0] = (hdr.codeSegSize+0xFFF) &~ 0xFFF;
d.segSizes[1] = (hdr.rodataSegSize+0xFFF) &~ 0xFFF;
d.segSizes[2] = (hdr.dataSegSize+0xFFF) &~ 0xFFF;
d.segPtrs[0] = codePages;
d.segPtrs[1] = (char*)d.segPtrs[0] + d.segSizes[0];
d.segPtrs[2] = (char*)d.segPtrs[1] + d.segSizes[1];
d.segAddrs[0] = baseAddr;
d.segAddrs[1] = d.segAddrs[0] + d.segSizes[0];
d.segAddrs[2] = d.segAddrs[1] + d.segSizes[1];
u32 offsets[2] = { d.segSizes[0], d.segSizes[0] + d.segSizes[1] };
u32* segLimit = d.segPtrs[2] + d.segSizes[2];
u32 readOffset = hdr.headerSize;
u32 nRelocTables = hdr.relocHdrSize/4;
SEC_ASSERT((3*4*nRelocTables) <= 0x1000);
u32* extraPage = (u32*)((char*)d.segPtrs[2] + d.segSizes[2]);
u32 extraPageAddr = d.segAddrs[2] + d.segSizes[2];
// Read the relocation headers
for (i = 0; i < 3; i ++)
{
if (IFile_Read2(file, &extraPage[i*nRelocTables], hdr.relocHdrSize, readOffset) != hdr.relocHdrSize)
{
Log_PrintP("Cannot read relheader %d", i);
return 0;
}
readOffset += hdr.relocHdrSize;
}
// Read the code segment
if (IFile_Read2(file, d.segPtrs[0], hdr.codeSegSize, readOffset) != hdr.codeSegSize)
{
Log_PrintP("Cannot read code segment");
return 0;
}
readOffset += hdr.codeSegSize;
// Read the rodata segment
if (IFile_Read2(file, d.segPtrs[1], hdr.rodataSegSize, readOffset) != hdr.rodataSegSize)
{
Log_PrintP("Cannot read rodata segment");
return 0;
}
readOffset += hdr.rodataSegSize;
// Read the data segment
u32 dataLoadSegSize = hdr.dataSegSize - hdr.bssSize;
if (IFile_Read2(file, d.segPtrs[2], dataLoadSegSize, readOffset) != dataLoadSegSize)
{
Log_PrintP("Cannot read data segment");
return 0;
}
readOffset += dataLoadSegSize;
// Relocate the segments
for (i = 0; i < 3; i ++)
{
for (j = 0; j < nRelocTables; j ++)
{
int nRelocs = extraPage[i*nRelocTables + j];
if (j >= (sizeof(_3DSX_RelocHdr)/4))
{
// Not using this header
readOffset += nRelocs;
continue;
}
u32* pos = (u32*)d.segPtrs[i];
u32* endPos = pos + (d.segSizes[i]/4);
SEC_ASSERT(endPos <= segLimit);
while (nRelocs)
{
u32 toDo = nRelocs > MAXRELOCS ? MAXRELOCS : nRelocs;
nRelocs -= toDo;
u32 readSize = toDo*sizeof(_3DSX_Reloc);
if (IFile_Read2(file, s_relocBuf, readSize, readOffset) != readSize)
{
Log_PrintP("Cannot read reloc table (%d,%d)", i, j);
return 0;
}
readOffset += readSize;
for (k = 0; k < toDo && pos < endPos; k ++)
{
pos += s_relocBuf[k].skip;
u32 nPatches = s_relocBuf[k].patch;
for (m = 0; m < nPatches && pos < endPos; m ++)
{
u32 inAddr = baseAddr + 4*(pos - codePages);
u32 origData = *pos;
u32 subType = origData >> (32-4);
u32 addr = TranslateAddr(origData &~ 0xF0000000, &d, offsets);
//Log_PrintP("%08lX<-%08lX", inAddr, addr);
switch (j)
{
case 0:
{
if (subType != 0)
{
Log_PrintP("Unsupported absolute reloc subtype (%lu)", subType);
return 0;
}
*pos = addr;
break;
}
case 1:
{
u32 data = addr - inAddr;
switch (subType)
{
case 0: *pos = data; break; // 32-bit signed offset
case 1: *pos = data &~ BIT(31); break; // 31-bit signed offset
default:
Log_PrintP("Unsupported relative reloc subtype (%lu)", subType);
return 0;
}
break;
}
}
pos++;
}
}
}
}
}
// Detect and fill _prm structure
PrmStruct* pst = (PrmStruct*) &codePages[1];
if (pst->magic == _PRM_MAGIC)
{
memset(extraPage, 0, 0x1000);
memcpy(extraPage, ldrArgvBuf, sizeof(ldrArgvBuf));
pst->pSrvOverride = extraPageAddr + 0xFFC;
pst->pArgList = extraPageAddr;
pst->runFlags |= RUNFLAG_APTCHAINLOAD;
s64 dummy;
bool isN3DS = svcGetSystemInfo(&dummy, 0x10001, 0) == 0;
if (isN3DS)
{
pst->heapSize = 48*1024*1024;
pst->linearHeapSize = 64*1024*1024;
} else
{
pst->heapSize = 24*1024*1024;
pst->linearHeapSize = 32*1024*1024;
}
}
// Create the codeset
CodeSetInfo csinfo;
memset(&csinfo, 0, sizeof(csinfo));
memcpy(csinfo.name, name, 8);
csinfo.program_id = tid;
csinfo.text_addr = d.segAddrs[0];
csinfo.text_size = d.segSizes[0] >> 12;
csinfo.ro_addr = d.segAddrs[1];
csinfo.ro_size = d.segSizes[1] >> 12;
csinfo.rw_addr = d.segAddrs[2];
csinfo.rw_size = (d.segSizes[2] >> 12) + 1; // One extra page reserved for settings/etc
csinfo.text_size_total = csinfo.text_size;
csinfo.ro_size_total = csinfo.ro_size;
csinfo.rw_size_total = csinfo.rw_size;
Handle hCodeset = 0;
res = svcCreateCodeSet(&hCodeset, &csinfo, d.segPtrs[0], d.segPtrs[1], d.segPtrs[2]);
if (res)
{
Log_PrintP("svcCreateCodeSet: %08lX", res);
return 0;
}
return hCodeset;
}