// Dependencies: // or any another source of assert() // or any another source of uint64_t, uint32_t, uint16_t, uint8_t, size_t #ifndef EPEP_ASSERT #include #define EPEP_ASSERT(x) assert(x) #endif #ifndef EPEP_READER #include #define EPEP_READER FILE * #define EPEP_READER_GET(preader) getc(*preader) #define EPEP_READER_SEEK(preader, offset) fseek(*preader, offset, SEEK_SET) #define EPEP_READER_TELL(preader) ftell(*preader) #define EPEP_READER_GET_BLOCK(preader, size, buf) fread(buf, 1, size, *preader); #endif // // Constants // typedef enum { EPEP_INVALID, EPEP_IMAGE, EPEP_OBJECT, } EpepKind; typedef enum { EPEP_ERR_SUCCESS, EPEP_ERR_DATA_DIRECTORY_INDEX_IS_INVALID, EPEP_ERR_SECTION_HEADER_INDEX_IS_INVALID, EPEP_ERR_SYMBOL_INDEX_IS_INVALID, EPEP_ERR_NOT_AN_OBJECT, EPEP_ERR_ADDRESS_IS_OUT_OF_SECTION_RAW_DATA, EPEP_ERR_OUTPUT_CAPACITY_IS_ZERO, EPEP_ERR_OUTPUT_IS_NULL, EPEP_ERR_ADDRESS_IS_OUT_OF_ANY_SECTION, EPEP_ERR_EXPORT_ADDRESS_TABLE_ENTRY_NAME_NOT_FOUND, EPEP_ERR_NO_BASE_RELOCATION_TABLE, EPEP_ERR_BASE_RELOCATION_IS_ALREADY_END, } EpepError; // // Generic // typedef struct { EPEP_READER reader; EpepKind kind; EpepError error_code; size_t signature_offset_offset; size_t signature_offset; size_t first_data_directory_offset; size_t first_section_header_offset; size_t export_table_offset; size_t import_table_offset; size_t base_relocation_table_offset; size_t base_relocation_table_end_offset; struct { uint16_t Machine; uint16_t NumberOfSections; uint32_t TimeDateStamp; uint32_t PointerToSymbolTable; uint32_t NumberOfSymbols; uint16_t SizeOfOptionalHeader; uint16_t Characteristics; } coffFileHeader; struct { // Standard fields uint16_t Magic; uint8_t MajorLinkerVersion; uint8_t MinorLinkerVersion; uint32_t SizeOfCode; uint32_t SizeOfInitializedData; uint32_t SizeOfUninitializedData; uint32_t AddressOfEntryPoint; uint32_t BaseOfCode; uint32_t BaseOfData; // PE32-only // Windows-specific fields uint64_t ImageBase; uint32_t SectionAlignment; uint32_t FileAlignment; uint16_t MajorOperatingSystemVersion; uint16_t MinorOperatingSystemVersion; uint16_t MajorImageVersion; uint16_t MinorImageVersion; uint16_t MajorSubsystemVersion; uint16_t MinorSubsystemVersion; uint32_t Win32VersionValue; uint32_t SizeOfImage; uint32_t SizeOfHeaders; uint32_t CheckSum; uint16_t Subsystem; uint16_t DllCharacteristics; uint64_t SizeOfStackReserve; uint64_t SizeOfStackCommit; uint64_t SizeOfHeapReserve; uint64_t SizeOfHeapCommit; uint32_t LoaderFlags; uint32_t NumberOfRvaAndSizes; } optionalHeader; struct { uint32_t ExportFlags; uint32_t TimeDateStamp; uint16_t MajorVersion; uint16_t MinorVersion; uint32_t NameRva; uint32_t OrdinalBase; uint32_t AddressTableEntries; uint32_t NumberOfNamePointers; uint32_t ExportAddressTableRva; uint32_t NamePointerRva; uint32_t OrdinalTableRva; } export_directory; } Epep; /// Constructor of the general information container int epep_init(Epep *epep, EPEP_READER reader); /// Gives file offset corresponding to RVA is any, returns 0 othervice int epep_get_file_offset_by_rva(Epep *epep, size_t *offset, size_t addr); // // Data Directories // typedef struct { uint32_t VirtualAddress; uint32_t Size; } EpepImageDataDirectory; /// Gives Data Directiry by its index int epep_get_data_directory_by_index(Epep *epep, EpepImageDataDirectory *idd, size_t index); // // Sections // typedef struct { char Name[8]; uint32_t VirtualSize; uint32_t VirtualAddress; uint32_t SizeOfRawData; uint32_t PointerToRawData; uint32_t PointerToRelocations; uint32_t PointerToLinenumbers; uint16_t NumberOfRelocations; uint16_t NumberOfLinenumbers; uint32_t Characteristics; } EpepSectionHeader; /// Gives Section Header by its index int epep_get_section_header_by_index(Epep *epep, EpepSectionHeader *sh, size_t index); /// Gives section header by RVA int epep_get_section_header_by_rva(Epep *epep, EpepSectionHeader *sh, size_t addr); /// Gives section contents by Section Header int epep_get_section_contents(Epep *epep, EpepSectionHeader *sh, void *buf); // // COFF Symbols (object file symbols) // typedef union { struct { union { char ShortName[8]; struct { uint32_t Zeroes; uint32_t Offset; }; }; uint32_t Value; uint16_t SectionNumber; uint16_t Type; uint8_t StorageClass; uint8_t NumberOfAuxSymbols; } symbol; struct { uint32_t TagIndex; uint32_t TotalSize; uint32_t PointerToLinenumber; uint32_t PointerToNextFunction; uint16_t Unused; } auxFunctionDefinition; struct { uint8_t Unused0[4]; uint16_t Linenumber; uint8_t Unused1[6]; uint32_t PointerToNextFunction; uint8_t Unused2[2]; } auxBfOrEfSymbol; struct { uint32_t TagIndex; uint32_t Characteristics; uint8_t Unused[10]; } auxWeakExternal; struct { char FileName[18]; } auxFile; struct { uint32_t Length; uint16_t NumberOfRelocations; uint16_t NumberOfLinenumbers; uint32_t CheckSum; uint16_t Number; uint8_t Selection; uint8_t Unused[3]; } auxSectionDefinition; } EpepCoffSymbol; /// Gives COFF string table size int epep_get_string_table_size(Epep *epep, size_t *size); /// Gives COFF string table int epep_get_string_table(Epep *epep, char *string_table); /// Gives COFF Symbol by its index int epep_get_symbol_by_index(Epep *epep, EpepCoffSymbol *sym, size_t index); // // Imports // typedef struct { uint32_t ImportLookupTableRva; uint32_t TimeDateStamp; uint32_t ForwarderChain; uint32_t NameRva; uint32_t ImportAddressTableRva; } EpepImportDirectory; /// Returns non-zero if import table exists in the file int epep_has_import_table(Epep *epep); /// Places offset of import table into epep structure int epep_read_import_table_offset(Epep *epep); /// Gives Import Directory by index int epep_get_import_directory_by_index(Epep *epep, EpepImportDirectory *import_directory, size_t index); /// Gives name of Import Directory (library) int epep_get_import_directory_name_s(Epep *epep, EpepImportDirectory *import_directory, char *name, size_t name_max); /// Gives Import Lookup (imported symbol) by import directory and index int epep_get_import_directory_lookup_by_index(Epep *epep, EpepImportDirectory *import_directory, size_t *lookup, size_t index); /// Gives name of Import Directory Lookup (imported symbol) or nothing if imported by ordinal int epep_get_lookup_name_s(Epep *epep, size_t lookup, char *name, size_t name_max); // // Exports // typedef union { uint32_t ExportRva; uint32_t ForwarderRva; } EpepExportAddress; /// Returns non-zero if export table exists in the file int epep_has_export_table(Epep *epep); /// Palces offset of export table into epep structrue int epep_read_export_table_offset(Epep *epep); /// Palces export table into epep structrue //! Needs to be called before next export functions int epep_read_export_directory(Epep *epep); /// Gives name of the DLL //! epep_read_export_directory needs to be called before int epep_get_dll_name_s(Epep *epep, char *name, size_t name_max); /// Gives entry from Export Name Pointer Table by its index //! epep_read_export_directory needs to be called before int epep_get_export_name_pointer_by_index(Epep *epep, size_t *name_rva, size_t index); /// Gives export name by its index in Export Address Table (receives name buffer length) //! epep_read_export_directory needs to be called before int epep_get_export_name_s_by_index(Epep *epep, char *name, size_t name_max, size_t index); /// Gives export address by its index in Export Address Table //! epep_read_export_directory needs to be called before int epep_get_export_address_by_index(Epep *epep, EpepExportAddress *export_address, size_t index); /// Gives forwarder string of Export Address //! epep_read_export_directory needs to be called before int epep_get_export_address_forwarder_s(Epep *epep, EpepExportAddress *export_address, char *forwarder, size_t forwarder_max); /// Returns non-zero if the export address specifies forwarder string //! epep_read_export_directory needs to be called before int epep_export_address_is_forwarder(Epep *epep, EpepExportAddress *export_address); // // DLL Base Relocations // typedef struct { size_t offset; uint32_t PageRva; uint32_t BlockSize; uint16_t BaseRelocation[0]; } EpepBaseRelocationBlock; typedef union { struct { uint16_t Offset: 12, Type: 4; }; uint16_t u16; } EpepBaseRelocation; /// Returns non-zero if the file contains Base Relocations int epep_has_base_relocation_table(Epep *epep); /// Places offset to Base Relocation Table into epep structure int epep_read_base_relocation_table_offset(Epep *epep); /// Gives first Base Relocation Block int epep_get_first_base_relocation_block(Epep *epep, EpepBaseRelocationBlock *brb); /// Gives next Base Relocation Block (replaces contents of the given block) int epep_get_next_base_relocation_block(Epep *epep, EpepBaseRelocationBlock *it); /// Gives Base Relocation by its index in Base Relocation Block int epep_get_base_relocation_block_base_relocation_by_index(Epep *epep, EpepBaseRelocationBlock *brb, EpepBaseRelocation *br, size_t index); // // COFF Relocations // typedef struct { uint32_t VirtualAddress; uint32_t SymbolTableIndex; uint16_t Type; } EpepCoffRelocation; int epep_get_section_relocation_by_index(Epep *epep, EpepSectionHeader *sh, EpepCoffRelocation *rel, size_t index); // // COFF Line Numbers // typedef struct { union { uint32_t SymbolTableIndex; uint32_t VirtualAddress; } Type; uint16_t Linenumber; } EpepCoffLinenumber; int epep_get_section_line_number_by_index(Epep *epep, EpepSectionHeader *sh, EpepCoffLinenumber *ln, size_t index); #ifdef EPEP_INST // // Private functions // static int epep_seek(Epep *epep, size_t offset) { EPEP_READER_SEEK(&epep->reader, offset); return 1; } static int epep_read_block(Epep *epep, size_t size, void *block) { EPEP_READER_GET_BLOCK(&epep->reader, size, block); return 1; } static int is_pe32(Epep *epep) { return epep->optionalHeader.Magic == 0x10b; } static int is_pe32p(Epep *epep) { return epep->optionalHeader.Magic == 0x20b; } static uint8_t epep_read_u8(Epep *epep) { return EPEP_READER_GET(&epep->reader); } static uint16_t epep_read_u16(Epep *epep) { unsigned l = epep_read_u8(epep); unsigned h = epep_read_u8(epep); return l | (h << 8); } static uint32_t epep_read_u32(Epep *epep) { unsigned b0 = epep_read_u8(epep); unsigned b1 = epep_read_u8(epep); unsigned b2 = epep_read_u8(epep); unsigned b3 = epep_read_u8(epep); return b0 | (b1 << 8) | (b2 << 16) | (b3 << 24); } static uint64_t epep_read_u64(Epep *epep) { uint64_t res = 0; for (unsigned i = 0; i < 64; i += 8) { res |= epep_read_u8(epep) << i; } return res; } static uint64_t epep_read_ptr(Epep *epep) { return is_pe32(epep) ? epep_read_u32(epep) : epep_read_u64(epep); } // // Generic // int epep_init(Epep *epep, EPEP_READER reader) { *epep = (Epep){ 0 }; epep->kind = EPEP_IMAGE; epep->reader = reader; epep->error_code = EPEP_ERR_SUCCESS; epep->signature_offset_offset = 0x3c; epep_seek(epep, epep->signature_offset_offset); epep->signature_offset = 0; epep->signature_offset |= epep_read_u8(epep); epep->signature_offset |= epep_read_u8(epep) << 8; epep->signature_offset |= epep_read_u8(epep) << 16; epep->signature_offset |= epep_read_u8(epep) << 24; epep_seek(epep, epep->signature_offset); char signature_buf[4]; signature_buf[0] = epep_read_u8(epep); signature_buf[1] = epep_read_u8(epep); signature_buf[2] = epep_read_u8(epep); signature_buf[3] = epep_read_u8(epep); if (signature_buf[0] != 'P' || signature_buf[1] != 'E' || signature_buf[2] != '\0' || signature_buf[3] != '\0') { epep->kind = EPEP_OBJECT; epep_seek(epep, 0); } epep->coffFileHeader.Machine = epep_read_u16(epep); epep->coffFileHeader.NumberOfSections = epep_read_u16(epep); epep->coffFileHeader.TimeDateStamp = epep_read_u32(epep); epep->coffFileHeader.PointerToSymbolTable = epep_read_u32(epep); epep->coffFileHeader.NumberOfSymbols = epep_read_u32(epep); epep->coffFileHeader.SizeOfOptionalHeader = epep_read_u16(epep); epep->coffFileHeader.Characteristics = epep_read_u16(epep); if (epep->coffFileHeader.SizeOfOptionalHeader != 0) { // Standard fields epep->optionalHeader.Magic = epep_read_u16(epep); epep->optionalHeader.MajorLinkerVersion = epep_read_u8(epep); epep->optionalHeader.MinorLinkerVersion = epep_read_u8(epep); epep->optionalHeader.SizeOfCode = epep_read_u32(epep); epep->optionalHeader.SizeOfInitializedData = epep_read_u32(epep); epep->optionalHeader.SizeOfUninitializedData = epep_read_u32(epep); epep->optionalHeader.AddressOfEntryPoint = epep_read_u32(epep); epep->optionalHeader.BaseOfCode = epep_read_u32(epep); if (is_pe32(epep)) { epep->optionalHeader.BaseOfData = epep_read_u32(epep); } // Windows-specific fields epep->optionalHeader.ImageBase = epep_read_ptr(epep); epep->optionalHeader.SectionAlignment = epep_read_u32(epep); epep->optionalHeader.FileAlignment = epep_read_u32(epep); epep->optionalHeader.MajorOperatingSystemVersion = epep_read_u16(epep); epep->optionalHeader.MinorOperatingSystemVersion = epep_read_u16(epep); epep->optionalHeader.MajorImageVersion = epep_read_u16(epep); epep->optionalHeader.MinorImageVersion = epep_read_u16(epep); epep->optionalHeader.MajorSubsystemVersion = epep_read_u16(epep); epep->optionalHeader.Win32VersionValue = epep_read_u32(epep); epep->optionalHeader.MinorSubsystemVersion = epep_read_u16(epep); epep->optionalHeader.SizeOfImage = epep_read_u32(epep); epep->optionalHeader.SizeOfHeaders = epep_read_u32(epep); epep->optionalHeader.CheckSum = epep_read_u32(epep); epep->optionalHeader.Subsystem = epep_read_u16(epep); epep->optionalHeader.DllCharacteristics = epep_read_u16(epep); epep->optionalHeader.SizeOfStackReserve = epep_read_ptr(epep); epep->optionalHeader.SizeOfStackCommit = epep_read_ptr(epep); epep->optionalHeader.SizeOfHeapReserve = epep_read_ptr(epep); epep->optionalHeader.SizeOfHeapCommit = epep_read_ptr(epep); epep->optionalHeader.LoaderFlags = epep_read_u32(epep); epep->optionalHeader.NumberOfRvaAndSizes = epep_read_u32(epep); epep->first_data_directory_offset = EPEP_READER_TELL(&epep->reader); } epep->first_section_header_offset = EPEP_READER_TELL(&epep->reader); if (epep->coffFileHeader.SizeOfOptionalHeader != 0) { epep->first_section_header_offset += epep->optionalHeader.NumberOfRvaAndSizes * sizeof(EpepImageDataDirectory); } return 1; } int epep_get_file_offset_by_rva(Epep *epep, size_t *offset, size_t addr) { EpepSectionHeader sh = { 0 }; if (!epep_get_section_header_by_rva(epep, &sh, addr)) { return 0; } size_t diff = addr - sh.VirtualAddress; if (diff >= sh.SizeOfRawData) { epep->error_code = EPEP_ERR_ADDRESS_IS_OUT_OF_SECTION_RAW_DATA; return 0; } *offset = sh.PointerToRawData + diff; return 1; } // // Data Directories // int epep_get_data_directory_by_index(Epep *epep, EpepImageDataDirectory *idd, size_t index) { if (index >= epep->optionalHeader.NumberOfRvaAndSizes) { epep->error_code = EPEP_ERR_DATA_DIRECTORY_INDEX_IS_INVALID; return 0; } epep_seek(epep, epep->first_data_directory_offset + sizeof(EpepImageDataDirectory) * index); idd->VirtualAddress = epep_read_u32(epep); idd->Size = epep_read_u32(epep); return 1; } // // Sections // int epep_get_section_header_by_index(Epep *epep, EpepSectionHeader *sh, size_t index) { if (index >= epep->coffFileHeader.NumberOfSections) { epep->error_code = EPEP_ERR_SECTION_HEADER_INDEX_IS_INVALID; return 0; } epep_seek(epep, epep->first_section_header_offset + sizeof(EpepSectionHeader) * index); for (int i = 0; i < 8; i++) { sh->Name[i] = epep_read_u8(epep); } sh->VirtualSize = epep_read_u32(epep); sh->VirtualAddress = epep_read_u32(epep); sh->SizeOfRawData = epep_read_u32(epep); sh->PointerToRawData = epep_read_u32(epep); sh->PointerToRelocations = epep_read_u32(epep); sh->PointerToLinenumbers = epep_read_u32(epep); sh->NumberOfRelocations = epep_read_u16(epep); sh->NumberOfLinenumbers = epep_read_u16(epep); sh->Characteristics = epep_read_u32(epep); return 1; } int epep_get_section_header_by_rva(Epep *epep, EpepSectionHeader *sh, size_t addr) { EpepSectionHeader sh0 = { 0 }; for (size_t i = 0; i < epep->coffFileHeader.NumberOfSections; i++) { epep_get_section_header_by_index(epep, &sh0, i); if (addr >= sh0.VirtualAddress && addr < (sh0.VirtualAddress + sh0.VirtualSize)) { *sh = sh0; return 1; } } epep->error_code = EPEP_ERR_ADDRESS_IS_OUT_OF_ANY_SECTION; return 0; } int epep_get_section_contents(Epep *epep, EpepSectionHeader *sh, void *buf) { size_t size_of_raw_data = sh->SizeOfRawData; epep_seek(epep, sh->PointerToRawData); epep_read_block(epep, size_of_raw_data, buf); return 1; } // // COFF Symbols // int epep_get_string_table_size(Epep *epep, size_t *size) { epep_seek(epep, epep->coffFileHeader.PointerToSymbolTable + 18 * epep->coffFileHeader.NumberOfSymbols); *size = epep_read_u32(epep); return 1; } int epep_get_string_table(Epep *epep, char *string_table) { size_t size = 0; if (!epep_get_string_table_size(epep, &size)) { return 0; } // A COFF strings table starts with its size *string_table++ = (size & 0x000000ff) >> 0; *string_table++ = (size & 0x0000ff00) >> 8; *string_table++ = (size & 0x00ff0000) >> 16; *string_table++ = (size & 0xff000000) >> 24; epep_read_block(epep, size - 4, string_table); return 1; } int epep_get_symbol_by_index(Epep *epep, EpepCoffSymbol *sym, size_t index) { if (epep->kind != EPEP_OBJECT) { epep->error_code = EPEP_ERR_NOT_AN_OBJECT; return 0; } if (index >= epep->coffFileHeader.NumberOfSymbols) { epep->error_code = EPEP_ERR_SYMBOL_INDEX_IS_INVALID; return 0; } epep_seek(epep, epep->coffFileHeader.PointerToSymbolTable + 18 * index); for (size_t i = 0; i < 18; i++) { sym->auxFile.FileName[i] = epep_read_u8(epep); } return 1; } // // Imports // int epep_has_import_table(Epep *epep) { if (epep->kind != EPEP_IMAGE) { return 0; } EpepImageDataDirectory idd = { 0 }; if (!epep_get_data_directory_by_index(epep, &idd, 1)) { return 0; } return idd.VirtualAddress; } int epep_read_import_table_offset(Epep *epep) { EpepImageDataDirectory import_table_dd = { 0 }; if (!epep_get_data_directory_by_index(epep, &import_table_dd, 1)) { return 0; } if (!epep_get_file_offset_by_rva(epep, &epep->import_table_offset, import_table_dd.VirtualAddress)) { return 0; } return 1; } int epep_get_import_directory_by_index(Epep *epep, EpepImportDirectory *import_directory, size_t index) { if (epep->import_table_offset == 0) { if (!epep_read_import_table_offset(epep)) { return 0; } } epep_seek(epep, epep->import_table_offset + index * sizeof(*import_directory)); epep_read_block(epep, sizeof(*import_directory), import_directory); return 1; } int epep_get_import_directory_name_s(Epep *epep, EpepImportDirectory *import_directory, char *name, size_t name_max) { size_t name_rva = import_directory->NameRva; size_t name_offset = 0; if (!epep_get_file_offset_by_rva(epep, &name_offset, name_rva)) { return 0; } epep_seek(epep, name_offset); epep_read_block(epep, name_max, name); return 1; } int epep_get_import_directory_lookup_by_index(Epep *epep, EpepImportDirectory *import_directory, size_t *lookup, size_t index) { size_t first_lookup_offset = 0; if (!epep_get_file_offset_by_rva(epep, &first_lookup_offset, import_directory->ImportLookupTableRva)) { return 0; } size_t size_of_lookup = is_pe32(epep) ? 4 : 8; size_t lookup_offset = first_lookup_offset + size_of_lookup * index; epep_seek(epep, lookup_offset); epep_read_block(epep, size_of_lookup, lookup); return 1; } int epep_get_lookup_name_s(Epep *epep, size_t lookup, char *name, size_t name_max) { if (name_max == 0) { epep->error_code = EPEP_ERR_OUTPUT_CAPACITY_IS_ZERO; return 0; } if (name == NULL) { epep->error_code = EPEP_ERR_OUTPUT_IS_NULL; return 0; } uint64_t mask = is_pe32(epep) ? 0x80000000 : 0x8000000000000000; if (lookup & mask) { name[0] = '\0'; return 1; } size_t name_rva = lookup; size_t name_offset = 0; if (!epep_get_file_offset_by_rva(epep, &name_offset, name_rva)) { return 0; } // skip 2 bytes (Name Table :: Hint) name_offset += 2; epep_seek(epep, name_offset); epep_read_block(epep, name_max, name); return 1; } // // Exports // int epep_has_export_table(Epep *epep) { if (epep->kind != EPEP_IMAGE) { return 0; } EpepImageDataDirectory idd = { 0 }; if (!epep_get_data_directory_by_index(epep, &idd, 0)) { return 0; } return idd.VirtualAddress; } int epep_read_export_table_offset(Epep *epep) { EpepImageDataDirectory export_table_dd = { 0 }; if (!epep_get_data_directory_by_index(epep, &export_table_dd, 0)) { return 0; } if (!epep_get_file_offset_by_rva(epep, &epep->export_table_offset, export_table_dd.VirtualAddress)) { return 0; } return 1; } int epep_read_export_directory(Epep *epep) { if (epep->export_table_offset == 0) { if (!epep_read_export_table_offset(epep)) { return 0; } } epep_seek(epep, epep->export_table_offset); epep_read_block(epep, sizeof(epep->export_directory), &epep->export_directory); return 1; } int epep_get_dll_name_s(Epep *epep, char *name, size_t name_max) { size_t offset = 0; if (!epep_get_file_offset_by_rva(epep, &offset, epep->export_directory.NameRva)) { return 0; } epep_seek(epep, offset); epep_read_block(epep, name_max, name); return 1; } int epep_get_export_name_pointer_by_index(Epep *epep, size_t *name_rva, size_t index) { size_t name_pointer_table_rva = epep->export_directory.NamePointerRva; size_t name_pointer_table_offset = 0; if (!epep_get_file_offset_by_rva(epep, &name_pointer_table_offset, name_pointer_table_rva)) { return 0; } epep_seek(epep, name_pointer_table_offset + sizeof(uint32_t) * index); *name_rva = epep_read_u32(epep); return 1; } int epep_get_export_name_s_by_index(Epep *epep, char *name, size_t name_max, size_t index) { size_t ordinal_table_offset = 0; if (!epep_get_file_offset_by_rva(epep, &ordinal_table_offset, epep->export_directory.OrdinalTableRva)) { return 0; } epep_seek(epep, ordinal_table_offset); for (size_t i = 0; i < epep->export_directory.NumberOfNamePointers; i++) { uint16_t ordinal = epep_read_u16(epep); if (ordinal == index) { // SPEC_VIOL: Why should not epep->export_directory.OrdinalBase be substracted? size_t name_rva = 0; if (!epep_get_export_name_pointer_by_index(epep, &name_rva, i)) { return 0; } size_t name_offset = 0; if (!epep_get_file_offset_by_rva(epep, &name_offset, name_rva)) { return 0; } epep_seek(epep, name_offset); epep_read_block(epep, name_max, name); return 1; } } epep->error_code = EPEP_ERR_EXPORT_ADDRESS_TABLE_ENTRY_NAME_NOT_FOUND; return 0; } int epep_get_export_address_by_index(Epep *epep, EpepExportAddress *export_address, size_t index) { size_t export_address_table_offset = 0; if (!epep_get_file_offset_by_rva(epep, &export_address_table_offset, epep->export_directory.ExportAddressTableRva)) { return 0; } EPEP_ASSERT(sizeof(EpepExportAddress) == sizeof(uint32_t)); epep_seek(epep, export_address_table_offset + sizeof(EpepExportAddress) * index); epep_read_block(epep, sizeof(*export_address), export_address); return 1; } int epep_get_export_address_forwarder_s(Epep *epep, EpepExportAddress *export_address, char *forwarder, size_t forwarder_max) { size_t forwarder_offset = 0; if (!epep_get_file_offset_by_rva(epep, &forwarder_offset, export_address->ForwarderRva)) { return 0; } epep_seek(epep, forwarder_offset); epep_read_block(epep, forwarder_max, forwarder); return 1; } int epep_export_address_is_forwarder(Epep *epep, EpepExportAddress *export_address) { EpepImageDataDirectory edd = { 0 }; if (!epep_get_data_directory_by_index(epep, &edd, 0)) { return 0; } if (export_address->ForwarderRva >= edd.VirtualAddress && export_address->ForwarderRva < edd.VirtualAddress + edd.Size) { return 1; } return 0; } // // DLL Base Relocaions // int epep_has_base_relocation_table(Epep *epep) { EpepImageDataDirectory brtdd = { 0 }; if (!epep_get_data_directory_by_index(epep, &brtdd, 5)) { return 0; } if (brtdd.VirtualAddress == 0) { return 0; } return 1; } int epep_read_base_relocation_table_offset(Epep *epep) { EpepImageDataDirectory brtdd = { 0 }; if (!epep_get_data_directory_by_index(epep, &brtdd, 5)) { return 0; } if (!epep_get_file_offset_by_rva(epep, &epep->base_relocation_table_offset, brtdd.VirtualAddress)) { return 0; } epep->base_relocation_table_end_offset = epep->base_relocation_table_offset + brtdd.Size; return 1; } int epep_get_first_base_relocation_block(Epep *epep, EpepBaseRelocationBlock *brb) { if (epep->base_relocation_table_offset == 0) { if (!epep_read_base_relocation_table_offset(epep)) { return 0; } } if (epep->base_relocation_table_offset == 0) { epep->error_code = EPEP_ERR_NO_BASE_RELOCATION_TABLE; return 0; } if (!epep_seek(epep, epep->base_relocation_table_offset)) { return 0; } brb->offset = epep->base_relocation_table_offset; brb->PageRva = epep_read_u32(epep); brb->BlockSize = epep_read_u32(epep); return 1; } int epep_get_next_base_relocation_block(Epep *epep, EpepBaseRelocationBlock *it) { if (it->offset == 0) { epep->error_code = EPEP_ERR_BASE_RELOCATION_IS_ALREADY_END; return 0; } it->offset = it->offset + it->BlockSize; if (it->offset >= epep->base_relocation_table_end_offset) { *it = (EpepBaseRelocationBlock){ 0 }; return 1; } if (!epep_seek(epep, it->offset)) { return 0; } it->PageRva = epep_read_u32(epep); it->BlockSize = epep_read_u32(epep); return 1; } int epep_get_base_relocation_block_base_relocation_by_index(Epep *epep, EpepBaseRelocationBlock *brb, EpepBaseRelocation *br, size_t index) { if (!epep_seek(epep, brb->offset + 8 + sizeof(EpepBaseRelocation) * index)) { return 0; } br->u16 = epep_read_u16(epep); return 1; } // // COFF Relocations // int epep_get_section_relocation_by_index(Epep *epep, EpepSectionHeader *sh, EpepCoffRelocation *rel, size_t index) { size_t relocationsOffset = sh->PointerToRelocations; epep_seek(epep, relocationsOffset + 10 * index); epep_read_block(epep, 10, rel); return 1; } // // COFF Line Numbers // int epep_get_section_line_number_by_index(Epep *epep, EpepSectionHeader *sh, EpepCoffLinenumber *ln, size_t index) { size_t LinenumbersOffset = sh->PointerToLinenumbers; epep_seek(epep, LinenumbersOffset + 6 * index); epep_read_block(epep, 6, ln); return 1; } #endif // EPEP_INST