/*----------------------------------------------------------------- Copyright (C) 2005 Michael "Chishm" Chisholm 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. If you use this code, please give due credit and email me about your project at chishm@hotmail.com ------------------------------------------------------------------*/ #ifndef NO_DLDI #include #include #include "dldi_patcher.h" #define FIX_ALL 0x01 #define FIX_GLUE 0x02 #define FIX_GOT 0x04 #define FIX_BSS 0x08 enum DldiOffsets { DO_magicString = 0x00, // "\xED\xA5\x8D\xBF Chishm" DO_magicToken = 0x00, // 0xBF8DA5ED DO_magicShortString = 0x04, // " Chishm" DO_version = 0x0C, DO_driverSize = 0x0D, DO_fixSections = 0x0E, DO_allocatedSpace = 0x0F, DO_friendlyName = 0x10, DO_text_start = 0x40, // Data start DO_data_end = 0x44, // Data end DO_glue_start = 0x48, // Interworking glue start -- Needs address fixing DO_glue_end = 0x4C, // Interworking glue end DO_got_start = 0x50, // GOT start -- Needs address fixing DO_got_end = 0x54, // GOT end DO_bss_start = 0x58, // bss start -- Needs setting to zero DO_bss_end = 0x5C, // bss end // IO_INTERFACE data DO_ioType = 0x60, DO_features = 0x64, DO_startup = 0x68, DO_isInserted = 0x6C, DO_readSectors = 0x70, DO_writeSectors = 0x74, DO_clearStatus = 0x78, DO_shutdown = 0x7C, DO_code = 0x80 }; static addr_t readAddr (data_t *mem, addr_t offset) { return ((addr_t*)mem)[offset/sizeof(addr_t)]; } static void writeAddr (data_t *mem, addr_t offset, addr_t value) { ((addr_t*)mem)[offset/sizeof(addr_t)] = value; } static addr_t quickFind (const data_t* data, const data_t* search, size_t dataLen, size_t searchLen) { const int* dataChunk = (const int*) data; int searchChunk = ((const int*)search)[0]; addr_t i; addr_t dataChunkEnd = (addr_t)(dataLen / sizeof(int)); for ( i = 0; i < dataChunkEnd; i++) { if (dataChunk[i] == searchChunk) { if ((i*sizeof(int) + searchLen) > dataLen) { return -1; } if (memcmp (&data[i*sizeof(int)], search, searchLen) == 0) { return i*sizeof(int); } } } return -1; } static const data_t dldiMagicString[] = "\xED\xA5\x8D\xBF Chishm"; // Normal DLDI file static const data_t dldiMagicLoaderString[] = "\xEE\xA5\x8D\xBF Chishm"; // Different to a normal DLDI file #define DEVICE_TYPE_DLDI 0x49444C44 extern const u32 _io_dldi; bool dldiPatchBinary (data_t *binData, u32 binSize) { addr_t memOffset; // Offset of DLDI after the file is loaded into memory addr_t patchOffset; // Position of patch destination in the file addr_t relocationOffset; // Value added to all offsets within the patch to fix it properly addr_t ddmemOffset; // Original offset used in the DLDI file addr_t ddmemStart; // Start of range that offsets can be in the DLDI file addr_t ddmemEnd; // End of range that offsets can be in the DLDI file addr_t ddmemSize; // Size of range that offsets can be in the DLDI file addr_t addrIter; data_t *pDH; data_t *pAH; size_t dldiFileSize = 0; // Find the DLDI reserved space in the file patchOffset = quickFind (binData, dldiMagicString, binSize, sizeof(dldiMagicLoaderString)); if (patchOffset < 0) { // does not have a DLDI section return false; } pDH = (data_t*)(((u32*)(&_io_dldi)) - 24); pAH = &(binData[patchOffset]); if (*((u32*)(pDH + DO_ioType)) == DEVICE_TYPE_DLDI) { // No DLDI patch return false; } if (pDH[DO_driverSize] > pAH[DO_allocatedSpace]) { // Not enough space for patch return false; } dldiFileSize = 1 << pDH[DO_driverSize]; memOffset = readAddr (pAH, DO_text_start); if (memOffset == 0) { memOffset = readAddr (pAH, DO_startup) - DO_code; } ddmemOffset = readAddr (pDH, DO_text_start); relocationOffset = memOffset - ddmemOffset; ddmemStart = readAddr (pDH, DO_text_start); ddmemSize = (1 << pDH[DO_driverSize]); ddmemEnd = ddmemStart + ddmemSize; // Remember how much space is actually reserved pDH[DO_allocatedSpace] = pAH[DO_allocatedSpace]; // Copy the DLDI patch into the application memcpy (pAH, pDH, dldiFileSize); // Fix the section pointers in the header writeAddr (pAH, DO_text_start, readAddr (pAH, DO_text_start) + relocationOffset); writeAddr (pAH, DO_data_end, readAddr (pAH, DO_data_end) + relocationOffset); writeAddr (pAH, DO_glue_start, readAddr (pAH, DO_glue_start) + relocationOffset); writeAddr (pAH, DO_glue_end, readAddr (pAH, DO_glue_end) + relocationOffset); writeAddr (pAH, DO_got_start, readAddr (pAH, DO_got_start) + relocationOffset); writeAddr (pAH, DO_got_end, readAddr (pAH, DO_got_end) + relocationOffset); writeAddr (pAH, DO_bss_start, readAddr (pAH, DO_bss_start) + relocationOffset); writeAddr (pAH, DO_bss_end, readAddr (pAH, DO_bss_end) + relocationOffset); // Fix the function pointers in the header writeAddr (pAH, DO_startup, readAddr (pAH, DO_startup) + relocationOffset); writeAddr (pAH, DO_isInserted, readAddr (pAH, DO_isInserted) + relocationOffset); writeAddr (pAH, DO_readSectors, readAddr (pAH, DO_readSectors) + relocationOffset); writeAddr (pAH, DO_writeSectors, readAddr (pAH, DO_writeSectors) + relocationOffset); writeAddr (pAH, DO_clearStatus, readAddr (pAH, DO_clearStatus) + relocationOffset); writeAddr (pAH, DO_shutdown, readAddr (pAH, DO_shutdown) + relocationOffset); // Put the correct DLDI magic string back into the DLDI header memcpy (pAH, dldiMagicString, sizeof (dldiMagicString)); if (pDH[DO_fixSections] & FIX_ALL) { // Search through and fix pointers within the data section of the file for (addrIter = (readAddr(pDH, DO_text_start) - ddmemStart); addrIter < (readAddr(pDH, DO_data_end) - ddmemStart); addrIter++) { if ((ddmemStart <= readAddr(pAH, addrIter)) && (readAddr(pAH, addrIter) < ddmemEnd)) { writeAddr (pAH, addrIter, readAddr(pAH, addrIter) + relocationOffset); } } } if (pDH[DO_fixSections] & FIX_GLUE) { // Search through and fix pointers within the glue section of the file for (addrIter = (readAddr(pDH, DO_glue_start) - ddmemStart); addrIter < (readAddr(pDH, DO_glue_end) - ddmemStart); addrIter++) { if ((ddmemStart <= readAddr(pAH, addrIter)) && (readAddr(pAH, addrIter) < ddmemEnd)) { writeAddr (pAH, addrIter, readAddr(pAH, addrIter) + relocationOffset); } } } if (pDH[DO_fixSections] & FIX_GOT) { // Search through and fix pointers within the Global Offset Table section of the file for (addrIter = (readAddr(pDH, DO_got_start) - ddmemStart); addrIter < (readAddr(pDH, DO_got_end) - ddmemStart); addrIter++) { if ((ddmemStart <= readAddr(pAH, addrIter)) && (readAddr(pAH, addrIter) < ddmemEnd)) { writeAddr (pAH, addrIter, readAddr(pAH, addrIter) + relocationOffset); } } } if (pDH[DO_fixSections] & FIX_BSS) { // Initialise the BSS to 0 memset (&pAH[readAddr(pDH, DO_bss_start) - ddmemStart] , 0, readAddr(pDH, DO_bss_end) - readAddr(pDH, DO_bss_start)); } return true; } #endif