////////////////////////////////////////////////////////////////////////////// // // Microsoft Research // Copyright (c) Microsoft Corporation. All rights reserved. // // File: mkasm.cpp // // Contents: Converts binary files into .asm or .cs files. // #include #include #include #include #include ////////////////////////////////////////////////////////////////////////////// // enum { TARGET_BASE = 0x60000, TARGET_RANGE = 0x10000, }; BOOL fAsm = TRUE; BOOL fCpp = FALSE; BOOL fManaged = FALSE; BOOL fCompress = FALSE; BOOL fList = FALSE; BOOL fAllow64 = FALSE; CHAR szByteByteVTable[] = "?_vtable@ClassVector_ClassVector_uint8@@2UClass_System_VTable@@A"; // struct Class_System_VTable ClassVector_ClassVector_uint8::_vtable CHAR szByteByteSuffix[] = "@@2PAUClassVector_ClassVector_uint8@@A"; // ?c_Content@Class_Microsoft_Singularity_Shell_Slides@@2PAUClassVector_ClassVector_uint8@@A // struct ClassVector_ClassVector_uint8 * Class_Microsoft_Singularity_Shell_Slides::c_Content CHAR szByteVTable[] = "?_vtable@ClassVector_uint8@@2UClass_System_VTable@@A"; // struct Class_System_VTable ClassVector_uint8::_vtable CHAR szByteSuffix[] = "@@2PAUClassVector_uint8@@A"; // ?c_Content@Class_Microsoft_Singularity_Shell_Slides@@2PAUClassVector_ClassVector_uint8@@A // struct ClassVector_ClassVector_uint8 * Class_Microsoft_Singularity_Shell_Slides::c_Content ////////////////////////////////////////////////////////////////////////////// class CFileInfo { public: CFileInfo() { m_pszFile = NULL; m_pNext = NULL; m_cbInput = 0; m_cbOutput = 0; } BOOL SetFileName(PCSTR pszFile) { m_pszFile = pszFile; return TRUE; } BOOL SetFileAndSize() { HANDLE hFile = CreateFile(m_pszFile, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL); if (hFile == INVALID_HANDLE_VALUE) { return FALSE; } m_cbInput = GetFileSize(hFile, NULL); CloseHandle(hFile); if (m_cbInput == 0xffffffff) { m_cbInput = 0; return FALSE; } m_cbOutput = m_cbInput; return TRUE; } BOOL SetOutputSize(UINT32 cbOutput) { m_cbOutput = cbOutput; return TRUE; } CFileInfo * m_pNext; PCSTR m_pszFile; UINT32 m_cbInput; UINT32 m_cbOutput; }; //////////////////////////////////////////////////////////////////// CFileMap. // class CFileMap { public: CFileMap(); ~CFileMap(); public: BOOL Load(PCSTR pszFile); PBYTE Seek(UINT32 cbPos); UINT32 Size(); VOID Close(); protected: PBYTE m_pbData; UINT32 m_cbData; }; CFileMap::CFileMap() { m_pbData = NULL; m_cbData = 0; } CFileMap::~CFileMap() { Close(); } VOID CFileMap::Close() { if (m_pbData) { UnmapViewOfFile(m_pbData); m_pbData = NULL; } m_cbData = 0; } UINT32 CFileMap::Size() { return m_cbData; } PBYTE CFileMap::Seek(UINT32 cbPos) { if (m_pbData && cbPos <= m_cbData) { return m_pbData + cbPos; } return NULL; } BOOL CFileMap::Load(PCSTR pszFile) { Close(); HANDLE hFile = CreateFile(pszFile, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, 0, NULL); if (hFile == INVALID_HANDLE_VALUE) { return FALSE; } ULONG cbInFileData = GetFileSize(hFile, NULL); if (cbInFileData == 0xffffffff) { CloseHandle(hFile); return FALSE; } HANDLE hInFileMap = CreateFileMapping(hFile, NULL, PAGE_READONLY, 0, 0, NULL); CloseHandle(hFile); if (hInFileMap == NULL) { return FALSE; } m_pbData = (PBYTE)MapViewOfFile(hInFileMap, FILE_MAP_COPY, 0, 0, 0); CloseHandle(hInFileMap); if (m_pbData == NULL) { return FALSE; } m_cbData = cbInFileData; return TRUE; } //////////////////////////////////////////////////////////////////// CFileOut. // class CFileOut { public: CFileOut(); ~CFileOut(); public: BOOL Create(PCSTR pszFile); BOOL IsOpen(); BOOL Write(PBYTE pbData, UINT32 cbData); BOOL Print(PCSTR pszMsg, ...); BOOL VPrint(PCSTR pszMsg, va_list args); BOOL Delete(); VOID Close(); protected: HANDLE m_hFile; CHAR m_szFile[MAX_PATH]; CHAR m_szBuffer[4096]; INT m_cbBuffer; }; CFileOut::CFileOut() { m_hFile = INVALID_HANDLE_VALUE; m_szFile[0] = '\0'; m_cbBuffer = 0; } CFileOut::~CFileOut() { Close(); } VOID CFileOut::Close() { if (m_hFile != INVALID_HANDLE_VALUE) { if (m_cbBuffer) { Write((PBYTE)m_szBuffer, m_cbBuffer); m_cbBuffer = 0; } CloseHandle(m_hFile); m_hFile = INVALID_HANDLE_VALUE; } } BOOL CFileOut::IsOpen() { return (m_hFile != INVALID_HANDLE_VALUE); } BOOL CFileOut::Write(PBYTE pbData, UINT32 cbData) { if (m_hFile == INVALID_HANDLE_VALUE) { return FALSE; } DWORD dwWrote = 0; if (!WriteFile(m_hFile, pbData, cbData, &dwWrote, NULL) || dwWrote != cbData) { return FALSE; } return TRUE; } BOOL CFileOut::VPrint(PCSTR pszMsg, va_list args) { if (m_hFile == INVALID_HANDLE_VALUE) { return FALSE; } INT cbUsed = m_cbBuffer; INT cbData; cbData = _vsnprintf(m_szBuffer + cbUsed, sizeof(m_szBuffer)-cbUsed-1, pszMsg, args); m_cbBuffer += cbData; if (m_szBuffer[m_cbBuffer - 1] == '\n' || m_szBuffer[m_cbBuffer - 1] == '\r') { cbData = m_cbBuffer; m_cbBuffer = 0; return Write((PBYTE)m_szBuffer, cbData); } return TRUE; } BOOL CFileOut::Print(PCSTR pszMsg, ...) { BOOL f; va_list args; va_start(args, pszMsg); f = VPrint(pszMsg, args); va_end(args); return f; } BOOL CFileOut::Delete() { if (m_hFile != INVALID_HANDLE_VALUE) { Close(); return DeleteFile(m_szFile); } return FALSE; } BOOL CFileOut::Create(PCSTR pszFile) { Close(); m_szFile[0] = '\0'; m_hFile = CreateFile(pszFile, GENERIC_WRITE, 0, NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL | FILE_FLAG_SEQUENTIAL_SCAN, NULL); if (m_hFile == INVALID_HANDLE_VALUE) { return FALSE; } strcpy(m_szFile, pszFile); m_cbBuffer = 0; return TRUE; } // ////////////////////////////////////////////////////////////////////////////// class COutput { protected: UINT m_nOffset; CFileOut *m_pfOutput; public: COutput(CFileOut *pfOutput) { m_pfOutput = pfOutput; m_nOffset = 0; } BOOL VPrint(PCSTR pszMsg, va_list args) { return m_pfOutput->VPrint(pszMsg, args); } BOOL Print(PCSTR pszMsg, ...) { BOOL f; va_list args; va_start(args, pszMsg); f = m_pfOutput->VPrint(pszMsg, args); va_end(args); return f; } virtual void Dump(PBYTE pbData, UINT cbData) = 0; virtual void Finish() { if ((m_nOffset % 16) != 0) { m_pfOutput->Print("\n"); } m_nOffset = 0; } UINT Size() { return m_nOffset; } }; class CAsmOutput : public COutput { public: CAsmOutput(CFileOut *pfOutput) : COutput(pfOutput) { } void Dump(PBYTE pbData, UINT cbData) { PBYTE pbEnd = pbData + cbData; for (; pbData < pbEnd; pbData++, m_nOffset++) { switch (m_nOffset % 16) { case 0: Print(" uint8 %03xh", *pbData); break; default: Print(",%03xh", *pbData); break; case 15: Print(",%03xh\n", *pbData); break; } } } }; class CSharpOutput : public COutput { public: CSharpOutput(CFileOut *pfOutput) : COutput(pfOutput) { } void Dump(PBYTE pbData, UINT cbData) { PBYTE pbEnd = pbData + cbData; for (; pbData < pbEnd; pbData++, m_nOffset++) { switch (m_nOffset % 16) { case 0: Print(" 0x%02x,", *pbData); break; default: Print("0x%02x,", *pbData); break; case 15: Print("0x%02x,\n", *pbData); break; } } } }; ////////////////////////////////////////////////////////////////////////////// // UINT DumpBmp(COutput *output, PBYTE pbData, UINT cbData) { #pragma pack(2) struct BITMAPFILEHEADER { UINT16 bfType; UINT32 bfSize; UINT16 bfReserved1; UINT16 bfReserved2; UINT32 bfOffBits; }; struct BITMAPINFOHEADER { UINT32 biSize; UINT32 biWidth; UINT32 biHeight; UINT16 biPlanes; UINT16 biBitCount; UINT32 biCompression; UINT32 biSizeImage; UINT32 biXPelsPerMeter; UINT32 biYPelsPerMeter; UINT32 biClrUsed; UINT32 biClrImportant; }; #pragma pack() BITMAPFILEHEADER *pbmf = (BITMAPFILEHEADER *)pbData; BITMAPINFOHEADER *pbmi = (BITMAPINFOHEADER *)(pbmf + 1); if (pbmf->bfType != 'MB') { fprintf(stderr, "Can't convert non-BMP files to BMP compression.\n"); return 0; } UINT cbDumped = 0; INT16 nValue; UINT cbScanLine = (((pbmi->biWidth * pbmi->biBitCount) + 31) & ~31) / 8; PBYTE pbLine = pbData + pbmf->bfOffBits; //PBYTE pbOut = pbData + pbmf->bfOffBits; pbmi->biCompression |= 0xff000000; if (output != NULL) { output->Dump(pbData, pbmf->bfOffBits); } cbDumped += pbmf->bfOffBits; for (UINT i = 0; i < pbmi->biHeight; i++) { PBYTE pbIn = pbLine; PBYTE pbRaw = pbIn; PBYTE pbEnd = pbLine + cbScanLine; while (pbIn < pbEnd) { if (pbIn + 6 < pbEnd && pbIn[3] == pbIn[0] && pbIn[4] == pbIn[1] && pbIn[5] == pbIn[2]) { PBYTE pbBase = pbIn; pbIn += 3; while (pbIn + 3 <= pbEnd && pbIn[0] == pbBase[0] && pbIn[1] == pbBase[1] && pbIn[2] == pbBase[2]) { pbIn += 3; } if (pbBase > pbRaw) { nValue = (INT16)(pbBase - pbRaw); if (output != NULL) { output->Dump((PBYTE)&nValue, sizeof(nValue)); output->Dump(pbRaw, pbBase - pbRaw); } cbDumped += sizeof(nValue); cbDumped += pbBase - pbRaw; } nValue = (INT16)(-((pbIn - pbBase) / 3)); if (output != NULL) { output->Dump((PBYTE)&nValue, sizeof(nValue)); output->Dump(pbBase, 3); } cbDumped += sizeof(nValue); cbDumped += 3; pbRaw = pbIn; } else { pbIn++; } } if (pbEnd > pbRaw) { nValue = (INT16)(pbEnd - pbRaw); if (output != NULL) { output->Dump((PBYTE)&nValue, sizeof(nValue)); output->Dump(pbRaw, pbEnd - pbRaw); } cbDumped += sizeof(nValue); cbDumped += pbEnd - pbRaw; } pbLine += cbScanLine; } if (output != NULL) { printf(" From %8d to %8d bytes\n", cbData, cbDumped); if (output->Size() != cbDumped) { fprintf(stderr, "Failure in compression: %d reported, %d written\n", cbDumped, output->Size()); } output->Finish(); } return cbDumped; } char *find_contents64(CFileMap *pfFile, PIMAGE_NT_HEADERS64 ppe, UINT32 *pcbEntry, UINT32 *pcbBase, UINT32 *pcbSize, PBYTE *ppbData) { PIMAGE_SECTION_HEADER psec; fprintf(stderr,"Processing a 64-bit image.\n"); psec = IMAGE_FIRST_SECTION(ppe); if (ppe->FileHeader.NumberOfSections != 1) { fprintf(stderr, "Warning: More than one section (.pdata)\n"); } if (ppe->OptionalHeader.SizeOfInitializedData != 0) { fprintf(stderr, "Image has initialized data outside of text section.\n"); } if (ppe->OptionalHeader.SizeOfUninitializedData != 0) { return "Image has uninitialized data outside of text section."; } if (psec->PointerToRawData == 0) { return "Image has no text content."; } if (pfFile->Seek(psec->PointerToRawData) == NULL) { return "Image text section is invalid."; } *pcbEntry =(UINT32) ppe->OptionalHeader.ImageBase + ppe->OptionalHeader.AddressOfEntryPoint; *pcbBase = (UINT32) ppe->OptionalHeader.ImageBase; *pcbSize = ppe->OptionalHeader.SizeOfImage; *ppbData = pfFile->Seek(0); return NULL; } char *find_contents32(CFileMap *pfFile, PIMAGE_NT_HEADERS ppe, UINT32 *pcbEntry, UINT32 *pcbBase, UINT32 *pcbSize, PBYTE *ppbData) { PIMAGE_SECTION_HEADER psec; psec = IMAGE_FIRST_SECTION(ppe); if (ppe->FileHeader.NumberOfSections != 1) { return "Image has more than one sections."; } if (ppe->OptionalHeader.SizeOfInitializedData != 0) { return "Image has initialized data outside of text section."; } if (ppe->OptionalHeader.SizeOfUninitializedData != 0) { return "Image has uninitialized data outside of text section."; } if (psec->PointerToRawData == 0) { return "Image has no text content."; } if (pfFile->Seek(psec->PointerToRawData) == NULL) { return "Image text section is invalid."; } *pcbEntry = ppe->OptionalHeader.ImageBase + ppe->OptionalHeader.AddressOfEntryPoint; *pcbBase = ppe->OptionalHeader.ImageBase; *pcbSize = ppe->OptionalHeader.SizeOfImage; *ppbData = pfFile->Seek(0); return NULL; } char *find_contents(CFileMap *pfFile, UINT32 *pcbEntry, UINT32 *pcbBase, UINT32 *pcbSize, PBYTE *ppbData) { PIMAGE_DOS_HEADER pdos; PIMAGE_NT_HEADERS ppe; //PIMAGE_NT_HEADERS64 ppe64; *pcbEntry = 0; *pcbBase = 0; *pcbSize = 0; *ppbData = NULL; // Read in the PE image header // pdos = (PIMAGE_DOS_HEADER)pfFile->Seek(0); if (pdos == NULL || pdos->e_magic != IMAGE_DOS_SIGNATURE) { return "Image doesn't have MZ signature."; } ppe = (PIMAGE_NT_HEADERS)pfFile->Seek(pdos->e_lfanew); if (ppe == NULL || ppe->Signature != IMAGE_NT_SIGNATURE) { return "Image doesn't have PE signature."; } if (ppe->FileHeader.Machine == IMAGE_FILE_MACHINE_AMD64) { if (fAllow64) { return find_contents64(pfFile, (PIMAGE_NT_HEADERS64) ppe, pcbEntry, pcbBase, pcbSize, ppbData); } else { return "Image is 64-bit. Use /64 option"; } } else return find_contents32(pfFile, ppe, pcbEntry, pcbBase, pcbSize, ppbData); } BOOL dump_pe(COutput *pOutput, CFileMap *pInput, PCSTR pszRoot) { UINT32 cbEntry = 0; UINT32 cbBase = 0; UINT32 cbSize = 0; PBYTE pbData = NULL; char *error = find_contents(pInput, &cbEntry, &cbBase, &cbSize, &pbData); if (error != NULL) { fprintf(stderr, "Failed: %s\n", error); return FALSE; } if (cbEntry < cbBase || cbEntry >= cbBase + cbSize) { fprintf(stderr, "Failed: Image entry point is not in text section."); return FALSE; } if (cbBase < TARGET_BASE || cbBase > TARGET_BASE + TARGET_RANGE) { fprintf(stderr, "Failed: Image is not based at 0x%x.\n", TARGET_BASE); return FALSE; } printf("Total text section: %d bytes\n", cbSize); // Write .asm data. // pOutput->Print("%s_ent EQU 0%08xh\n", pszRoot, cbEntry); pOutput->Print("%s_dst EQU 0%08xh\n", pszRoot, cbBase); pOutput->Print("%s_siz EQU 0%08xh\n", pszRoot, cbSize); pOutput->Print("%s_dat ", pszRoot); pOutput->Dump(pbData, cbSize); pOutput->Finish(); pOutput->Print("\n"); return TRUE; } BOOL blob_to_asm(COutput *pOutput, CFileMap *pInput) { // Copy the rest of the image. // pOutput->Dump(pInput->Seek(0), pInput->Size()); pOutput->Finish(); return TRUE; } int CompareName(PCSTR psz1, PCSTR psz2) { for (;;) { CHAR c1 = *psz1; CHAR c2 = *psz2; if (c1 >= 'A' && c1 <= 'Z') { c1 = c1 - 'A' + 'a'; } if (c2 >= 'A' && c2 <= 'Z') { c2 = c2 - 'A' + 'a'; } if ((c1 >= '0' && c1 <= '9') && (c2 >= '0' && c2 <= '9')) { for (c1 = 0; *psz1 >= '0' && *psz1 <= '9'; psz1++) { c1 = c1 * 10 + (*psz1 - '0'); } psz1--; for (c2 = 0; *psz2 >= '0' && *psz2 <= '9'; psz2++) { c2 = c2 * 10 + (*psz2 - '0'); } psz2--; } if (c1 != c2) { return c1 - c2; } if (c1 == 0 && c2 == 0) { return 0; } psz1++; psz2++; } } PCHAR AppendToName(PCHAR pszDst, PCSTR pszSrc) { while (*pszSrc) { if (*pszSrc == '.') { *pszDst++ = '_'; pszSrc++; } else { *pszDst++ = *pszSrc++; } } return pszDst; } void AsmName(PCHAR pszAsmName, PCSTR pszNamespace, PCSTR pszClass, PCSTR pszField) { pszAsmName = AppendToName(pszAsmName, "?c_"); pszAsmName = AppendToName(pszAsmName, pszField); pszAsmName = AppendToName(pszAsmName, "@Class_"); pszAsmName = AppendToName(pszAsmName, pszNamespace); pszAsmName = AppendToName(pszAsmName, "_"); pszAsmName = AppendToName(pszAsmName, pszClass); *pszAsmName = '\0'; } void CppClassName(PCHAR pszCppClassName, PCSTR pszNamespace, PCSTR pszClass) { pszCppClassName = AppendToName(pszCppClassName, "Class_"); pszCppClassName = AppendToName(pszCppClassName, pszNamespace); pszCppClassName = AppendToName(pszCppClassName, "_"); pszCppClassName = AppendToName(pszCppClassName, pszClass); *pszCppClassName = '\0'; } int __cdecl main(int argc, char **argv) { BOOL fNeedHelp = FALSE; BOOL fFlattenPE = TRUE; PCSTR pszRoot = "asm"; CFileOut cfOutput; CFileInfo rFiles[512]; CFileInfo *pFiles = NULL; UINT cFiles = 0; CHAR szField[256] = ""; CHAR szClass[512] = ""; CHAR szNamespace[512] = ""; CHAR szAsmName[1024]; CHAR szCppClassName[1024]; for (int arg = 1; arg < argc; arg++) { if (argv[arg][0] == '-' || argv[arg][0] == '/') { char *argn = argv[arg]+1; // Argument name char *argp = argn; // Argument parameter while (*argp && *argp != ':') argp++; if (*argp == ':') *argp++ = '\0'; switch (argn[0]) { case 'a': // ASM Format case 'A': fAsm = TRUE; break; case 'b': // Binary Blob case 'B': fFlattenPE = FALSE; fManaged = TRUE; break; case 'c': // C# Class case 'C': strcpy(szClass, argp); fManaged = TRUE; break; case 'f': // C# Field case 'F': strcpy(szField, argp); fManaged = TRUE; break; case 'l': // List of files case 'L': fManaged = TRUE; fList = TRUE; break; case 'm': // C# Format case 'M': fAsm = FALSE; break; case 'n': // C# Namespace case 'N': strcpy(szNamespace, argp); fManaged = TRUE; break; case 'o': // Output file. case 'O': if (!cfOutput.Create(argp)) { fprintf(stderr, "Could not open output file: %s\n", argp); } break; case 'p': // Cpp Format case 'P': fCpp = TRUE; fAsm = FALSE; break; case 'r': // Set Label Root case 'R': pszRoot = argp; break; case 'x': // Compress BMP case 'X': // fCompress = TRUE; fManaged = TRUE; break; case '6': // 64-bit PE fAllow64 = TRUE; break; case 'h': // Help case 'H': case '?': fNeedHelp = TRUE; break; default: printf("Unknown argument: %s\n", argv[arg]); fNeedHelp = TRUE; break; } } else { // Save the input files away in sorted linked list. CFileInfo *pNew = &rFiles[cFiles++]; CFileInfo **ppHead = &pFiles; pNew->SetFileName(argv[arg]); while (*ppHead != NULL && CompareName(pNew->m_pszFile, (*ppHead)->m_pszFile) > 0) { ppHead = &(*ppHead)->m_pNext; } pNew->m_pNext = *ppHead; *ppHead = pNew; } } if (argc == 1) { fNeedHelp = TRUE; } if (!fNeedHelp && !cfOutput.IsOpen()) { fprintf(stderr, "No output file specified.\n"); fNeedHelp = TRUE; } if (!fNeedHelp && pFiles == NULL) { fprintf(stderr, "No output file specified.\n"); fNeedHelp = TRUE; } if (!fNeedHelp && fManaged && (szField[0] == '\0' || szClass[0] == '\0')) { fprintf(stderr, "No field or class name specified for target.\n"); fNeedHelp = TRUE; } if (fNeedHelp) { printf( "Usage:\n" " mkasm /o:output [options] inputs\n" "Options:\n" " /o:output -- Specify output file.\n" " /r:root -- Set root label [defaults to `asm'].\n" " /b -- Treat file as binary blob (not PE file).\n" " /a -- Output ASM format (default for PE).\n" " /m -- Output C# format (default for blob).\n" " /c:class -- Set C# class.\n" " /n:namespace -- Set C# namespace.\n" " /f:field -- Set C# field.\n" " /x -- Use bizarre compression for BMP files.\n" " /l -- Output contents in an array (list).\n" " /64 -- manipulate 64-bit PE files." " /h or /? -- Display this help screen.\n" "Summary:\n" " Copies the contents of the input files into the output file\n" " in .asm format. Specific conversions exists for PE and BMP files.\n" ); return 2; } ////////////////////////////////////////////////////////////////////////// // // At this point, we have input file(s), output file, and set of desired // conversions. Time to process the output. // BOOL fAbort = false; COutput *pOutput = NULL; CAsmOutput asmOutput(&cfOutput); CSharpOutput sharpOutput(&cfOutput); AsmName(szAsmName, szNamespace, szClass, szField); CppClassName(szCppClassName, szNamespace, szClass); if (fAsm) { pOutput = &asmOutput; } else { pOutput = &sharpOutput; } ULONG cbFiles = 0; UINT cFile = 0; for (CFileInfo *pFile = pFiles; pFile != NULL; pFile = pFile->m_pNext) { if (!pFile->SetFileAndSize()) { fprintf(stderr, "Unable to open %s, error = %d\n", pFile->m_pszFile, GetLastError()); goto abort; } if (fCompress) { CFileMap cfInput; printf("."); if (!cfInput.Load(pFile->m_pszFile)) { fprintf(stderr, "Could not open input file: %s\n", pFile->m_pszFile); goto abort; } pFile->SetOutputSize(DumpBmp(NULL, cfInput.Seek(0), cfInput.Size())); cfInput.Close(); } cFile++; cbFiles += pFile->m_cbOutput; } //public: static struct ClassVector_ClassVector_uint8 * // Class_Microsoft_Singularity_Shell_Slides::c_Content; //" (?c_Content@Class_Microsoft_Singularity_Shell_Slides@@2PAUClassVector_ClassVector_uint8@@A if (!fFlattenPE) { if (fAsm) { cfOutput.Print("externdef %s:NEAR\n", szByteVTable); if (fList) { cfOutput.Print("externdef %s:NEAR\n", szByteByteVTable); } else { cfOutput.Print("align 4\n"); cfOutput.Print(" BARTOK_OBJECT_HEADER {} \n"); cfOutput.Print("%s%s_0 UINT32 %s\n", szAsmName, szByteSuffix, szByteVTable); cfOutput.Print(" UINT32 %d\n", cbFiles); } } else if (fCpp) { if (fList) { cFile = 0; for (CFileInfo *pFile = pFiles; pFile != NULL; pFile = pFile->m_pNext) { cfOutput.Print("struct Vector_%s_%s_0_%d {\n", szCppClassName, szField, cFile); cfOutput.Print(" uintptr headerwords[HDRWORDCOUNT];\n"); cfOutput.Print(" union {\n"); cfOutput.Print(" struct {\n"); cfOutput.Print(" Class_System_VTable * vtable;\n"); cfOutput.Print(" uint32 length;\n"); cfOutput.Print(" uint8 data[%d];\n", pFile->m_cbOutput); cfOutput.Print(" };\n"); cfOutput.Print(" ClassVector_uint8 object;\n"); cfOutput.Print(" };\n"); cfOutput.Print("};\n"); cFile++; } cfOutput.Print("struct Vector_%s_%s_0 {\n", szCppClassName, szField); cfOutput.Print(" uintptr headerwords[HDRWORDCOUNT];\n"); cfOutput.Print(" union {\n"); cfOutput.Print(" struct {\n"); cfOutput.Print(" Class_System_VTable * vtable;\n"); cfOutput.Print(" uint32 length;\n"); cfOutput.Print(" ClassVector_uint8 * data[%d];\n", cFiles); cfOutput.Print(" };\n"); cfOutput.Print(" ClassVector_ClassVector_uint8 object;\n"); cfOutput.Print(" };\n"); cfOutput.Print("};\n"); cfOutput.Print("struct %s {\n", szCppClassName); cfOutput.Print(" private:\n"); for (UINT i = 0; i < cFiles; i++) { cfOutput.Print(" static Vector_%s_%s_0_%d c_%s_0_%d;\n", szCppClassName, szField, i, szField, i); } cfOutput.Print(" static Vector_%s_%s_0 c_%s_0;\n", szCppClassName, szField, szField); cfOutput.Print(" public:\n"); cfOutput.Print(" static ClassVector_ClassVector_uint8 * c_%s;\n", szField); cfOutput.Print("};\n"); cfOutput.Print("\n"); cfOutput.Print("ClassVector_ClassVector_uint8 * %s::c_%s = &%s::c_%s_0.object;\n", szCppClassName, szField, szCppClassName, szField); cfOutput.Print("\n"); cfOutput.Print("Vector_%s_%s_0 %s::c_%s_0 = {\n", szCppClassName, szField, szCppClassName, szField); cfOutput.Print(" {},\n"); cfOutput.Print(" (Class_System_VTable *)&ClassVector_ClassVector_uint8::_vtable,\n"); cfOutput.Print(" %d,\n", cFiles); cfOutput.Print(" {\n"); for (UINT i = 0; i < cFiles; i++) { cfOutput.Print(" &%s::c_%s_0_%d.object,\n", szCppClassName, szField, i); } cfOutput.Print(" },\n"); cfOutput.Print("};\n"); cfOutput.Print("\n"); } else { cfOutput.Print("struct Vector_%s_%s_0 {\n", szCppClassName, szField); cfOutput.Print(" uintptr headerwords[HDRWORDCOUNT];\n"); cfOutput.Print(" union { \n"); cfOutput.Print(" struct {\n"); cfOutput.Print(" Class_System_VTable * vtable;\n"); cfOutput.Print(" uint32 length;\n"); cfOutput.Print(" uint8 data[%d];\n", cbFiles); cfOutput.Print(" };\n"); cfOutput.Print(" ClassVector_uint8 object;\n"); cfOutput.Print(" };\n"); cfOutput.Print("};\n"); cfOutput.Print("struct %s {\n", szCppClassName); cfOutput.Print(" private:\n"); cfOutput.Print(" static Vector_%s_%s_0 c_%s_0;\n", szCppClassName, szField, szField); cfOutput.Print(" public:\n"); cfOutput.Print(" static ClassVector_uint8 * c_%s;\n", szField); cfOutput.Print("};\n"); cfOutput.Print("\n"); cfOutput.Print("ClassVector_uint8 * %s::c_%s = &%s::c_%s_0.object;\n", szCppClassName, szField, szCppClassName, szField); cfOutput.Print("\n"); cfOutput.Print("Vector_%s_%s_0 %s::c_%s_0 = {\n", szCppClassName, szField, szCppClassName, szField); cfOutput.Print(" {},\n"); cfOutput.Print(" (Class_System_VTable *)&ClassVector_uint8::_vtable,\n"); cfOutput.Print(" %d,\n", cbFiles); cfOutput.Print(" {\n"); } } else { if (szNamespace) { cfOutput.Print("namespace %s {\n", szNamespace); } cfOutput.Print(" public class %s {\n", szClass); if (fList) { cfOutput.Print(" public static readonly byte[][] %s = {\n", szField); } else { cfOutput.Print(" public static readonly byte[] %s = {\n", szField); } } } cFile = 0; for (CFileInfo *pFile = pFiles; pFile != NULL; pFile = pFile->m_pNext) { CFileMap cfInput; printf("."); if (!cfInput.Load(pFile->m_pszFile)) { fprintf(stderr, "Could not open input file: %s\n", pFile->m_pszFile); goto abort; } if (fFlattenPE) { // Flatten PE file if (!dump_pe(pOutput, &cfInput, pszRoot)) { goto abort; } } else { if (fAsm) { if (fList) { cfOutput.Print("\n"); cfOutput.Print("align 4\n"); cfOutput.Print(" BARTOK_OBJECT_HEADER {} \n"); cfOutput.Print("%s%s_0_%d UINT32 %s\n", szAsmName, szByteSuffix, cFile, szByteVTable); cfOutput.Print(" UINT32 %d\n", cfInput.Size()); } } else if (fCpp) { if (fList) { cfOutput.Print("Vector_%s_%s_0_%d %s::c_%s_0_%d = {\n", szCppClassName, szField, cFile, szCppClassName, szField, cFile); cfOutput.Print(" {},\n"); cfOutput.Print(" (Class_System_VTable *)&ClassVector_uint8::_vtable,\n"); cfOutput.Print(" %d,\n", cfInput.Size()); cfOutput.Print(" {\n"); } } else { if (fList) { cfOutput.Print(" new byte[] {\n"); } } if (fCompress) { if (!DumpBmp(pOutput, cfInput.Seek(0), cfInput.Size())) { goto abort; } } else { pOutput->Dump(cfInput.Seek(0), cfInput.Size()); pOutput->Finish(); } if (fAsm) { } else if (fCpp) { if (fList) { cfOutput.Print(" },\n"); cfOutput.Print("};\n"); cfOutput.Print("\n"); } } else { if (fList) { cfOutput.Print(" },\n"); } } } cfInput.Close(); cFile++; } if (!fFlattenPE) { if (fAsm) { if (fList) { // create list array at end. cfOutput.Print("\n"); cfOutput.Print("align 4\n"); cfOutput.Print(" BARTOK_OBJECT_HEADER {} \n"); cfOutput.Print("public %s%s\n", szAsmName, szByteByteSuffix); cfOutput.Print("%s%s_0 UINT32 %s\n", szAsmName, szByteByteSuffix, szByteByteVTable); cfOutput.Print(" UINT32 %d\n", cFiles); for (UINT i = 0; i < cFiles; i++) { cfOutput.Print(" UINT32 %s%s_0_%d\n", szAsmName, szByteSuffix, i); } cfOutput.Print("\n"); cfOutput.Print("align 4\n"); cfOutput.Print("public %s%s\n", szAsmName, szByteByteSuffix); cfOutput.Print("%s%s UINT32 %s%s_0\n", szAsmName, szByteByteSuffix, szAsmName, szByteByteSuffix); } else { cfOutput.Print("\n"); cfOutput.Print("align 4\n"); cfOutput.Print("public %s%s\n", szAsmName, szByteSuffix); cfOutput.Print("%s%s UINT32 %s%s_0\n", szAsmName, szByteSuffix, szAsmName, szByteSuffix); } } else if (fCpp) { if (!fList) { cfOutput.Print(" },\n"); cfOutput.Print("};\n"); cfOutput.Print("\n"); } } else { cfOutput.Print(" };\n"); cfOutput.Print(" }\n"); cfOutput.Print("}\n"); } } if (fAbort) { abort: cfOutput.Delete(); return 1; } cfOutput.Close(); return 0; } // ///////////////////////////////////////////////////////////////// End of File.