#pragma once #include #include #include "stdint_defs.h" #if defined(_MSC_VER) or defined(__MINGW32__) #define PE_BLISS_WINDOWS #endif namespace pe_bliss { //Enumeration of PE types enum pe_type { pe_type_32, pe_type_64 }; namespace pe_win { const uint32_t image_numberof_directory_entries = 16; const uint32_t image_nt_optional_hdr32_magic = 0x10b; const uint32_t image_nt_optional_hdr64_magic = 0x20b; const uint32_t image_resource_name_is_string = 0x80000000; const uint32_t image_resource_data_is_directory = 0x80000000; const uint32_t image_dllcharacteristics_dynamic_base = 0x0040; // DLL can move. const uint32_t image_dllcharacteristics_force_integrity = 0x0080; // Code Integrity Image const uint32_t image_dllcharacteristics_nx_compat = 0x0100; // Image is NX compatible const uint32_t image_dllcharacteristics_no_isolation = 0x0200; // Image understands isolation and doesn't want it const uint32_t image_dllcharacteristics_no_seh = 0x0400; // Image does not use SEH. No SE handler may reside in this image const uint32_t image_dllcharacteristics_no_bind = 0x0800; // Do not bind this image. const uint32_t image_dllcharacteristics_wdm_driver = 0x2000; // Driver uses WDM model const uint32_t image_dllcharacteristics_terminal_server_aware = 0x8000; const uint32_t image_sizeof_file_header = 20; const uint32_t image_file_relocs_stripped = 0x0001; // Relocation info stripped from file. const uint32_t image_file_executable_image = 0x0002; // File is executable (i.e. no unresolved externel references). const uint32_t image_file_line_nums_stripped = 0x0004; // Line nunbers stripped from file. const uint32_t image_file_local_syms_stripped = 0x0008; // Local symbols stripped from file. const uint32_t image_file_aggresive_ws_trim = 0x0010; // Agressively trim working set const uint32_t image_file_large_address_aware = 0x0020; // App can handle >2gb addresses const uint32_t image_file_bytes_reversed_lo = 0x0080; // Bytes of machine word are reversed. const uint32_t image_file_32bit_machine = 0x0100; // 32 bit word machine. const uint32_t image_file_debug_stripped = 0x0200; // Debugging info stripped from file in .DBG file const uint32_t image_file_removable_run_from_swap = 0x0400; // If Image is on removable media, copy and run from the swap file. const uint32_t image_file_net_run_from_swap = 0x0800; // If Image is on Net, copy and run from the swap file. const uint32_t image_file_system = 0x1000; // System File. const uint32_t image_file_dll = 0x2000; // File is a DLL. const uint32_t image_file_up_system_only = 0x4000; // File should only be run on a UP machine const uint32_t image_file_bytes_reversed_hi = 0x8000; // Bytes of machine word are reversed. const uint32_t image_scn_lnk_nreloc_ovfl = 0x01000000; // Section contains extended relocations. const uint32_t image_scn_mem_discardable = 0x02000000; // Section can be discarded. const uint32_t image_scn_mem_not_cached = 0x04000000; // Section is not cachable. const uint32_t image_scn_mem_not_paged = 0x08000000; // Section is not pageable. const uint32_t image_scn_mem_shared = 0x10000000; // Section is shareable. const uint32_t image_scn_mem_execute = 0x20000000; // Section is executable. const uint32_t image_scn_mem_read = 0x40000000; // Section is readable. const uint32_t image_scn_mem_write = 0x80000000; // Section is writeable. const uint32_t image_scn_cnt_code = 0x00000020; // Section contains code. const uint32_t image_scn_cnt_initialized_data = 0x00000040; // Section contains initialized data. const uint32_t image_scn_cnt_uninitialized_data = 0x00000080; // Section contains uninitialized data. //Directory Entries const uint32_t image_directory_entry_export = 0; // Export Directory const uint32_t image_directory_entry_import = 1; // Import Directory const uint32_t image_directory_entry_resource = 2; // Resource Directory const uint32_t image_directory_entry_exception = 3; // Exception Directory const uint32_t image_directory_entry_security = 4; // Security Directory const uint32_t image_directory_entry_basereloc = 5; // Base Relocation Table const uint32_t image_directory_entry_debug = 6; // Debug Directory const uint32_t image_directory_entry_architecture = 7; // Architecture Specific Data const uint32_t image_directory_entry_globalptr = 8; // RVA of GP const uint32_t image_directory_entry_tls = 9; // TLS Directory const uint32_t image_directory_entry_load_config = 10; // Load Configuration Directory const uint32_t image_directory_entry_bound_import = 11; // Bound Import Directory in headers const uint32_t image_directory_entry_iat = 12; // Import Address Table const uint32_t image_directory_entry_delay_import = 13; // Delay Load Import Descriptors const uint32_t image_directory_entry_com_descriptor = 14; // COM Runtime descriptor //Subsystem Values const uint32_t image_subsystem_unknown = 0; // Unknown subsystem. const uint32_t image_subsystem_native = 1; // Image doesn't require a subsystem. const uint32_t image_subsystem_windows_gui = 2; // Image runs in the Windows GUI subsystem. const uint32_t image_subsystem_windows_cui = 3; // Image runs in the Windows character subsystem. const uint32_t image_subsystem_os2_cui = 5; // image runs in the OS/2 character subsystem. const uint32_t image_subsystem_posix_cui = 7; // image runs in the Posix character subsystem. const uint32_t image_subsystem_native_windows = 8; // image is a native Win9x driver. const uint32_t image_subsystem_windows_ce_gui = 9; // Image runs in the Windows CE subsystem. const uint32_t image_subsystem_efi_application = 10; // const uint32_t image_subsystem_efi_boot_service_driver = 11; // const uint32_t image_subsystem_efi_runtime_driver = 12; // const uint32_t image_subsystem_efi_rom = 13; const uint32_t image_subsystem_xbox = 14; const uint32_t image_subsystem_windows_boot_application = 16; //Imports const uint64_t image_ordinal_flag64 = 0x8000000000000000ull; const uint32_t image_ordinal_flag32 = 0x80000000; //Based relocation types const uint32_t image_rel_based_absolute = 0; const uint32_t image_rel_based_high = 1; const uint32_t image_rel_based_low = 2; const uint32_t image_rel_based_highlow = 3; const uint32_t image_rel_based_highadj = 4; const uint32_t image_rel_based_mips_jmpaddr = 5; const uint32_t image_rel_based_mips_jmpaddr16 = 9; const uint32_t image_rel_based_ia64_imm64 = 9; const uint32_t image_rel_based_dir64 = 10; //Exception directory //The function has an exception handler that should be called when looking for functions that need to examine exceptions const uint32_t unw_flag_ehandler = 0x01; //The function has a termination handler that should be called when unwinding an exception const uint32_t unw_flag_uhandler = 0x02; //This unwind info structure is not the primary one for the procedure. //Instead, the chained unwind info entry is the contents of a previous RUNTIME_FUNCTION entry. //If this flag is set, then the UNW_FLAG_EHANDLER and UNW_FLAG_UHANDLER flags must be cleared. //Also, the frame register and fixed-stack allocation fields must have the same values as in the primary unwind info const uint32_t unw_flag_chaininfo = 0x04; //Debug const uint32_t image_debug_misc_exename = 1; const uint32_t image_debug_type_unknown = 0; const uint32_t image_debug_type_coff = 1; const uint32_t image_debug_type_codeview = 2; const uint32_t image_debug_type_fpo = 3; const uint32_t image_debug_type_misc = 4; const uint32_t image_debug_type_exception = 5; const uint32_t image_debug_type_fixup = 6; const uint32_t image_debug_type_omap_to_src = 7; const uint32_t image_debug_type_omap_from_src = 8; const uint32_t image_debug_type_borland = 9; const uint32_t image_debug_type_reserved10 = 10; const uint32_t image_debug_type_clsid = 11; //Storage classes const uint32_t image_sym_class_end_of_function = static_cast(-1); const uint32_t image_sym_class_null = 0x0000; const uint32_t image_sym_class_automatic = 0x0001; const uint32_t image_sym_class_external = 0x0002; const uint32_t image_sym_class_static = 0x0003; const uint32_t image_sym_class_register = 0x0004; const uint32_t image_sym_class_external_def = 0x0005; const uint32_t image_sym_class_label = 0x0006; const uint32_t image_sym_class_undefined_label = 0x0007; const uint32_t image_sym_class_member_of_struct = 0x0008; const uint32_t image_sym_class_argument = 0x0009; const uint32_t image_sym_class_struct_tag = 0x000a; const uint32_t image_sym_class_member_of_union = 0x000b; const uint32_t image_sym_class_union_tag = 0x000c; const uint32_t image_sym_class_type_definition = 0x000d; const uint32_t image_sym_class_undefined_static = 0x000e; const uint32_t image_sym_class_enum_tag = 0x000f; const uint32_t image_sym_class_member_of_enum = 0x0010; const uint32_t image_sym_class_register_param = 0x0011; const uint32_t image_sym_class_bit_field = 0x0012; const uint32_t image_sym_class_far_external = 0x0044; const uint32_t image_sym_class_block = 0x0064; const uint32_t image_sym_class_function = 0x0065; const uint32_t image_sym_class_end_of_struct = 0x0066; const uint32_t image_sym_class_file = 0x0067; const uint32_t image_sym_class_section = 0x0068; const uint32_t image_sym_class_weak_external = 0x0069; const uint32_t image_sym_class_clr_token = 0x006b; //type packing constants const uint32_t n_btmask = 0x000f; const uint32_t n_tmask = 0x0030; const uint32_t n_tmask1 = 0x00c0; const uint32_t n_tmask2 = 0x00f0; const uint32_t n_btshft = 4; const uint32_t n_tshift = 2; //Type (derived) values. const uint32_t image_sym_dtype_null = 0; // no derived type. const uint32_t image_sym_dtype_pointer = 1; // pointer. const uint32_t image_sym_dtype_function = 2; // function. const uint32_t image_sym_dtype_array = 3; // array. // Is x a function? //TODO #ifndef ISFCN #define ISFCN(x) (((x) & n_tmask) == (image_sym_dtype_function << n_btshft)) #endif //Version info const uint32_t vs_ffi_fileflagsmask = 0x0000003FL; const uint32_t vs_ffi_signature = 0xFEEF04BDL; const uint32_t vs_ffi_strucversion = 0x00010000L; /* ----- VS_VERSION.dwFileFlags ----- */ const uint32_t vs_ff_debug = 0x00000001L; const uint32_t vs_ff_prerelease = 0x00000002L; const uint32_t vs_ff_patched = 0x00000004L; const uint32_t vs_ff_privatebuild = 0x00000008L; const uint32_t vs_ff_infoinferred = 0x00000010L; const uint32_t vs_ff_specialbuild = 0x00000020L; /* ----- VS_VERSION.dwFileOS ----- */ const uint32_t vos_unknown = 0x00000000L; const uint32_t vos_dos = 0x00010000L; const uint32_t vos_os216 = 0x00020000L; const uint32_t vos_os232 = 0x00030000L; const uint32_t vos_nt = 0x00040000L; const uint32_t vos_wince = 0x00050000L; const uint32_t vos__base = 0x00000000L; const uint32_t vos__windows16 = 0x00000001L; const uint32_t vos__pm16 = 0x00000002L; const uint32_t vos__pm32 = 0x00000003L; const uint32_t vos__windows32 = 0x00000004L; const uint32_t vos_dos_windows16 = 0x00010001L; const uint32_t vos_dos_windows32 = 0x00010004L; const uint32_t vos_os216_pm16 = 0x00020002L; const uint32_t vos_os232_pm32 = 0x00030003L; const uint32_t vos_nt_windows32 = 0x00040004L; /* ----- VS_VERSION.dwFileType ----- */ const uint32_t vft_unknown = 0x00000000L; const uint32_t vft_app = 0x00000001L; const uint32_t vft_dll = 0x00000002L; const uint32_t vft_drv = 0x00000003L; const uint32_t vft_font = 0x00000004L; const uint32_t vft_vxd = 0x00000005L; const uint32_t vft_static_lib = 0x00000007L; const uint32_t message_resource_unicode = 0x0001; #pragma pack(push, 1) //Windows GUID structure struct guid { uint32_t Data1; uint16_t Data2; uint16_t Data3; uint8_t Data4[8]; }; //DOS .EXE header struct image_dos_header { uint16_t e_magic; // Magic number uint16_t e_cblp; // Bytes on last page of file uint16_t e_cp; // Pages in file uint16_t e_crlc; // Relocations uint16_t e_cparhdr; // Size of header in paragraphs uint16_t e_minalloc; // Minimum extra paragraphs needed uint16_t e_maxalloc; // Maximum extra paragraphs needed uint16_t e_ss; // Initial (relative) SS value uint16_t e_sp; // Initial SP value uint16_t e_csum; // Checksum uint16_t e_ip; // Initial IP value uint16_t e_cs; // Initial (relative) CS value uint16_t e_lfarlc; // File address of relocation table uint16_t e_ovno; // Overlay number uint16_t e_res[4]; // Reserved words uint16_t e_oemid; // OEM identifier (for e_oeminfo) uint16_t e_oeminfo; // OEM information; e_oemid specific uint16_t e_res2[10]; // Reserved words int32_t e_lfanew; // File address of new exe header }; //Directory format struct image_data_directory { uint32_t VirtualAddress; uint32_t Size; }; //Optional header format struct image_optional_header32 { //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; //NT additional fields uint32_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; uint32_t SizeOfStackReserve; uint32_t SizeOfStackCommit; uint32_t SizeOfHeapReserve; uint32_t SizeOfHeapCommit; uint32_t LoaderFlags; uint32_t NumberOfRvaAndSizes; image_data_directory DataDirectory[image_numberof_directory_entries]; }; struct image_optional_header64 { uint16_t Magic; uint8_t MajorLinkerVersion; uint8_t MinorLinkerVersion; uint32_t SizeOfCode; uint32_t SizeOfInitializedData; uint32_t SizeOfUninitializedData; uint32_t AddressOfEntryPoint; uint32_t BaseOfCode; 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; image_data_directory DataDirectory[image_numberof_directory_entries]; }; struct image_file_header { uint16_t Machine; uint16_t NumberOfSections; uint32_t TimeDateStamp; uint32_t PointerToSymbolTable; uint32_t NumberOfSymbols; uint16_t SizeOfOptionalHeader; uint16_t Characteristics; }; struct image_nt_headers64 { uint32_t Signature; image_file_header FileHeader; image_optional_header64 OptionalHeader; }; struct image_nt_headers32 { uint32_t Signature; image_file_header FileHeader; image_optional_header32 OptionalHeader; }; //Section header format struct image_section_header { uint8_t Name[8]; union { uint32_t PhysicalAddress; uint32_t VirtualSize; } Misc; uint32_t VirtualAddress; uint32_t SizeOfRawData; uint32_t PointerToRawData; uint32_t PointerToRelocations; uint32_t PointerToLinenumbers; uint16_t NumberOfRelocations; uint16_t NumberOfLinenumbers; uint32_t Characteristics; }; /// RESOURCES /// struct image_resource_directory { uint32_t Characteristics; uint32_t TimeDateStamp; uint16_t MajorVersion; uint16_t MinorVersion; uint16_t NumberOfNamedEntries; uint16_t NumberOfIdEntries; // IMAGE_RESOURCE_DIRECTORY_ENTRY DirectoryEntries[]; }; struct vs_fixedfileinfo { uint32_t dwSignature; /* e.g. 0xfeef04bd */ uint32_t dwStrucVersion; /* e.g. 0x00000042 = "0.42" */ uint32_t dwFileVersionMS; /* e.g. 0x00030075 = "3.75" */ uint32_t dwFileVersionLS; /* e.g. 0x00000031 = "0.31" */ uint32_t dwProductVersionMS; /* e.g. 0x00030010 = "3.10" */ uint32_t dwProductVersionLS; /* e.g. 0x00000031 = "0.31" */ uint32_t dwFileFlagsMask; /* = 0x3F for version "0.42" */ uint32_t dwFileFlags; /* e.g. VFF_DEBUG | VFF_PRERELEASE */ uint32_t dwFileOS; /* e.g. VOS_DOS_WINDOWS16 */ uint32_t dwFileType; /* e.g. VFT_DRIVER */ uint32_t dwFileSubtype; /* e.g. VFT2_DRV_KEYBOARD */ uint32_t dwFileDateMS; /* e.g. 0 */ uint32_t dwFileDateLS; /* e.g. 0 */ }; struct bitmapinfoheader { uint32_t biSize; int32_t biWidth; int32_t biHeight; uint16_t biPlanes; uint16_t biBitCount; uint32_t biCompression; uint32_t biSizeImage; int32_t biXPelsPerMeter; int32_t biYPelsPerMeter; uint32_t biClrUsed; uint32_t biClrImportant; }; struct message_resource_entry { uint16_t Length; uint16_t Flags; uint8_t Text[1]; }; struct message_resource_block { uint32_t LowId; uint32_t HighId; uint32_t OffsetToEntries; }; struct message_resource_data { uint32_t NumberOfBlocks; message_resource_block Blocks[1]; }; struct image_resource_directory_entry { union { struct { uint32_t NameOffset:31; uint32_t NameIsString:1; }; uint32_t Name; uint16_t Id; }; union { uint32_t OffsetToData; struct { uint32_t OffsetToDirectory:31; uint32_t DataIsDirectory:1; }; }; }; struct image_resource_data_entry { uint32_t OffsetToData; uint32_t Size; uint32_t CodePage; uint32_t Reserved; }; #pragma pack(push, 2) struct bitmapfileheader { uint16_t bfType; uint32_t bfSize; uint16_t bfReserved1; uint16_t bfReserved2; uint32_t bfOffBits; }; #pragma pack(pop) //Structure representing ICON file header struct ico_header { uint16_t Reserved; uint16_t Type; //1 uint16_t Count; //Count of icons included in icon group }; //Structure that is stored in icon group directory in PE resources struct icon_group { uint8_t Width; uint8_t Height; uint8_t ColorCount; uint8_t Reserved; uint16_t Planes; uint16_t BitCount; uint32_t SizeInBytes; uint16_t Number; //Represents resource ID in PE icon list }; //Structure representing ICON directory entry inside ICON file struct icondirentry { uint8_t Width; uint8_t Height; uint8_t ColorCount; uint8_t Reserved; uint16_t Planes; uint16_t BitCount; uint32_t SizeInBytes; uint32_t ImageOffset; //Offset from start of header to the image }; //Structure representing CURSOR file header struct cursor_header { uint16_t Reserved; uint16_t Type; //2 uint16_t Count; //Count of cursors included in cursor group }; struct cursor_group { uint16_t Width; uint16_t Height; //Divide by 2 to get the actual height. uint16_t Planes; uint16_t BitCount; uint32_t SizeInBytes; uint16_t Number; //Represents resource ID in PE icon list }; //Structure representing CURSOR directory entry inside CURSOR file struct cursordirentry { uint8_t Width; //Set to CURSOR_GROUP::Height/2. uint8_t Height; uint8_t ColorCount; uint8_t Reserved; uint16_t HotspotX; uint16_t HotspotY; uint32_t SizeInBytes; uint32_t ImageOffset; //Offset from start of header to the image }; //Structure representing BLOCK in version info resource struct version_info_block //(always aligned on 32-bit (DWORD) boundary) { uint16_t Length; //Length of this block (doesn't include padding) uint16_t ValueLength; //Value length (if any) uint16_t Type; //Value type (0 = binary, 1 = text) uint16_t Key[1]; //Value name (block key) (always NULL terminated) ////////// //WORD padding1[]; //Padding, if any (ALIGNMENT) //xxxxx Value[]; //Value data, if any (*ALIGNED*) //WORD padding2[]; //Padding, if any (ALIGNMENT) //xxxxx Child[]; //Child block(s), if any (*ALIGNED*) ////////// }; /// IMPORTS /// #pragma pack(push, 8) struct image_thunk_data64 { union { uint64_t ForwarderString; // PBYTE uint64_t Function; // PDWORD uint64_t Ordinal; uint64_t AddressOfData; // PIMAGE_IMPORT_BY_NAME } u1; }; #pragma pack(pop) struct image_thunk_data32 { union { uint32_t ForwarderString; // PBYTE uint32_t Function; // PDWORD uint32_t Ordinal; uint32_t AddressOfData; // PIMAGE_IMPORT_BY_NAME } u1; }; struct image_import_descriptor { union { uint32_t Characteristics; // 0 for terminating null import descriptor uint32_t OriginalFirstThunk; // RVA to original unbound IAT (PIMAGE_THUNK_DATA) }; uint32_t TimeDateStamp; // 0 if not bound, // -1 if bound, and real date\time stamp // in IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT (new BIND) // O.W. date/time stamp of DLL bound to (Old BIND) uint32_t ForwarderChain; // -1 if no forwarders uint32_t Name; uint32_t FirstThunk; // RVA to IAT (if bound this IAT has actual addresses) }; /// TLS /// struct image_tls_directory64 { uint64_t StartAddressOfRawData; uint64_t EndAddressOfRawData; uint64_t AddressOfIndex; // PDWORD uint64_t AddressOfCallBacks; // PIMAGE_TLS_CALLBACK *; uint32_t SizeOfZeroFill; uint32_t Characteristics; }; struct image_tls_directory32 { uint32_t StartAddressOfRawData; uint32_t EndAddressOfRawData; uint32_t AddressOfIndex; // PDWORD uint32_t AddressOfCallBacks; // PIMAGE_TLS_CALLBACK * uint32_t SizeOfZeroFill; uint32_t Characteristics; }; /// Export Format /// struct image_export_directory { uint32_t Characteristics; uint32_t TimeDateStamp; uint16_t MajorVersion; uint16_t MinorVersion; uint32_t Name; uint32_t Base; uint32_t NumberOfFunctions; uint32_t NumberOfNames; uint32_t AddressOfFunctions; // RVA from base of image uint32_t AddressOfNames; // RVA from base of image uint32_t AddressOfNameOrdinals; // RVA from base of image }; /// Based relocation format /// struct image_base_relocation { uint32_t VirtualAddress; uint32_t SizeOfBlock; // uint16_t TypeOffset[1]; }; /// New format import descriptors pointed to by DataDirectory[ IMAGE_DIRECTORY_ENTRY_BOUND_IMPORT ] /// struct image_bound_import_descriptor { uint32_t TimeDateStamp; uint16_t OffsetModuleName; uint16_t NumberOfModuleForwarderRefs; // Array of zero or more IMAGE_BOUND_FORWARDER_REF follows }; struct image_bound_forwarder_ref { uint32_t TimeDateStamp; uint16_t OffsetModuleName; uint16_t Reserved; }; /// Exception directory /// struct image_runtime_function_entry { uint32_t BeginAddress; uint32_t EndAddress; uint32_t UnwindInfoAddress; }; enum unwind_op_codes { uwop_push_nonvol = 0, /* info == register number */ uwop_alloc_large, /* no info, alloc size in next 2 slots */ uwop_alloc_small, /* info == size of allocation / 8 - 1 */ uwop_set_fpreg, /* no info, FP = RSP + UNWIND_INFO.FPRegOffset*16 */ uwop_save_nonvol, /* info == register number, offset in next slot */ uwop_save_nonvol_far, /* info == register number, offset in next 2 slots */ uwop_save_xmm128, /* info == XMM reg number, offset in next slot */ uwop_save_xmm128_far, /* info == XMM reg number, offset in next 2 slots */ uwop_push_machframe /* info == 0: no error-code, 1: error-code */ }; union unwind_code { struct s { uint8_t CodeOffset; uint8_t UnwindOp : 4; uint8_t OpInfo : 4; }; uint16_t FrameOffset; }; struct unwind_info { uint8_t Version : 3; uint8_t Flags : 5; uint8_t SizeOfProlog; uint8_t CountOfCodes; uint8_t FrameRegister : 4; uint8_t FrameOffset : 4; unwind_code UnwindCode[1]; /* unwind_code MoreUnwindCode[((CountOfCodes + 1) & ~1) - 1]; * union { * OPTIONAL ULONG ExceptionHandler; * OPTIONAL ULONG FunctionEntry; * }; * OPTIONAL ULONG ExceptionData[]; */ }; /// Debug /// struct image_debug_misc { uint32_t DataType; // type of misc data, see defines uint32_t Length; // total length of record, rounded to four // byte multiple. uint8_t Unicode; // TRUE if data is unicode string uint8_t Reserved[3]; uint8_t Data[1]; // Actual data }; struct image_coff_symbols_header { uint32_t NumberOfSymbols; uint32_t LvaToFirstSymbol; uint32_t NumberOfLinenumbers; uint32_t LvaToFirstLinenumber; uint32_t RvaToFirstByteOfCode; uint32_t RvaToLastByteOfCode; uint32_t RvaToFirstByteOfData; uint32_t RvaToLastByteOfData; }; struct image_debug_directory { uint32_t Characteristics; uint32_t TimeDateStamp; uint16_t MajorVersion; uint16_t MinorVersion; uint32_t Type; uint32_t SizeOfData; uint32_t AddressOfRawData; uint32_t PointerToRawData; }; #pragma pack(push, 2) struct image_symbol { union { uint8_t ShortName[8]; struct { uint32_t Short; // if 0, use LongName uint32_t Long; // offset into string table } Name; uint32_t LongName[2]; // PBYTE [2] } N; uint32_t Value; int16_t SectionNumber; uint16_t Type; uint8_t StorageClass; uint8_t NumberOfAuxSymbols; }; #pragma pack(pop) //CodeView Debug OMF signature. The signature at the end of the file is //a negative offset from the end of the file to another signature. At //the negative offset (base address) is another signature whose filepos //field points to the first OMFDirHeader in a chain of directories. //The NB05 signature is used by the link utility to indicated a completely //unpacked file. The NB06 signature is used by ilink to indicate that the //executable has had CodeView information from an incremental link appended //to the executable. The NB08 signature is used by cvpack to indicate that //the CodeView Debug OMF has been packed. CodeView will only process //executables with the NB08 signature. struct OMFSignature { char Signature[4]; // "NBxx" uint32_t filepos; // offset in file }; struct CV_INFO_PDB20 { OMFSignature CvHeader; uint32_t Signature; uint32_t Age; uint8_t PdbFileName[1]; }; struct CV_INFO_PDB70 { uint32_t CvSignature; guid Signature; uint32_t Age; uint8_t PdbFileName[1]; }; // directory information structure // This structure contains the information describing the directory. // It is pointed to by the signature at the base address or the directory // link field of a preceeding directory. The directory entries immediately // follow this structure. struct OMFDirHeader { uint16_t cbDirHeader; // length of this structure uint16_t cbDirEntry; // number of bytes in each directory entry uint32_t cDir; // number of directorie entries int32_t lfoNextDir; // offset from base of next directory uint32_t flags; // status flags }; // directory structure // The data in this structure is used to reference the data for each // subsection of the CodeView Debug OMF information. Tables that are // not associated with a specific module will have a module index of // oxffff. These tables are the global types table, the global symbol // table, the global public table and the library table. struct OMFDirEntry { uint16_t SubSection; // subsection type (sst...) uint16_t iMod; // module index int32_t lfo; // large file offset of subsection uint32_t cb; // number of bytes in subsection }; /// CLR 2.0 header structure /// struct image_cor20_header { //Header versioning uint32_t cb; uint16_t MajorRuntimeVersion; uint16_t MinorRuntimeVersion; // Symbol table and startup information image_data_directory MetaData; uint32_t Flags; // If COMIMAGE_FLAGS_NATIVE_ENTRYPOINT is not set, EntryPointToken represents a managed entrypoint. // If COMIMAGE_FLAGS_NATIVE_ENTRYPOINT is set, EntryPointRVA represents an RVA to a native entrypoint. union { uint32_t EntryPointToken; uint32_t EntryPointRVA; }; // Binding information image_data_directory Resources; image_data_directory StrongNameSignature; // Regular fixup and binding information image_data_directory CodeManagerTable; image_data_directory VTableFixups; image_data_directory ExportAddressTableJumps; // Precompiled image info (internal use only - set to zero) image_data_directory ManagedNativeHeader; }; enum replaces_cor_hdr_numeric_defines { // COM+ Header entry point flags. comimage_flags_ilonly =0x00000001, comimage_flags_32bitrequired =0x00000002, comimage_flags_il_library =0x00000004, comimage_flags_strongnamesigned =0x00000008, comimage_flags_native_entrypoint =0x00000010, comimage_flags_trackdebugdata =0x00010000, // Version flags for image. cor_version_major_v2 =2, cor_version_major =cor_version_major_v2, cor_version_minor =0, cor_deleted_name_length =8, cor_vtablegap_name_length =8, // Maximum size of a NativeType descriptor. native_type_max_cb =1, cor_ilmethod_sect_small_max_datasize=0xff, // #defines for the MIH FLAGS image_cor_mih_methodrva =0x01, image_cor_mih_ehrva =0x02, image_cor_mih_basicblock =0x08, // V-table constants cor_vtable_32bit =0x01, // V-table slots are 32-bits in size. cor_vtable_64bit =0x02, // V-table slots are 64-bits in size. cor_vtable_from_unmanaged =0x04, // If set, transition from unmanaged. cor_vtable_from_unmanaged_retain_appdomain =0x08, // If set, transition from unmanaged with keeping the current appdomain. cor_vtable_call_most_derived =0x10, // Call most derived method described by // EATJ constants image_cor_eatj_thunk_size =32, // Size of a jump thunk reserved range. // Max name lengths //@todo: Change to unlimited name lengths. max_class_name =1024, max_package_name =1024 }; /// Load Configuration Directory Entry /// struct image_load_config_directory32 { uint32_t Size; uint32_t TimeDateStamp; uint16_t MajorVersion; uint16_t MinorVersion; uint32_t GlobalFlagsClear; uint32_t GlobalFlagsSet; uint32_t CriticalSectionDefaultTimeout; uint32_t DeCommitFreeBlockThreshold; uint32_t DeCommitTotalFreeThreshold; uint32_t LockPrefixTable; // VA uint32_t MaximumAllocationSize; uint32_t VirtualMemoryThreshold; uint32_t ProcessHeapFlags; uint32_t ProcessAffinityMask; uint16_t CSDVersion; uint16_t Reserved1; uint32_t EditList; // VA uint32_t SecurityCookie; // VA uint32_t SEHandlerTable; // VA uint32_t SEHandlerCount; }; struct image_load_config_directory64 { uint32_t Size; uint32_t TimeDateStamp; uint16_t MajorVersion; uint16_t MinorVersion; uint32_t GlobalFlagsClear; uint32_t GlobalFlagsSet; uint32_t CriticalSectionDefaultTimeout; uint64_t DeCommitFreeBlockThreshold; uint64_t DeCommitTotalFreeThreshold; uint64_t LockPrefixTable; // VA uint64_t MaximumAllocationSize; uint64_t VirtualMemoryThreshold; uint64_t ProcessAffinityMask; uint32_t ProcessHeapFlags; uint16_t CSDVersion; uint16_t Reserved1; uint64_t EditList; // VA uint64_t SecurityCookie; // VA uint64_t SEHandlerTable; // VA uint64_t SEHandlerCount; }; #pragma pack(pop) } //namespace pe_win #ifdef PE_BLISS_WINDOWS typedef wchar_t unicode16_t; typedef std::basic_string u16string; #else //Instead of wchar_t for windows typedef unsigned short unicode16_t; typedef std::basic_string u16string; #endif } //namespace pe_bliss