#ifdef _MSC_VER #define _SCL_SECURE_NO_WARNINGS #define ELFIO_NO_INTTYPES #endif #include #include using boost::test_tools::output_test_stream; #include using namespace ELFIO; bool write_obj_i386( bool is64bit ) { elfio writer; writer.create( is64bit ? ELFCLASS64 : ELFCLASS32, ELFDATA2LSB ); writer.set_type( ET_REL ); writer.set_os_abi( ELFOSABI_LINUX ); writer.set_machine( is64bit ? EM_X86_64 : EM_386 ); // Create code section* section* text_sec = writer.sections.add( ".text" ); text_sec->set_type( SHT_PROGBITS ); text_sec->set_flags( SHF_ALLOC | SHF_EXECINSTR ); text_sec->set_addr_align( 0x10 ); // Add data into it char text[] = { '\xB8', '\x04', '\x00', '\x00', '\x00', // mov eax, 4 '\xBB', '\x01', '\x00', '\x00', '\x00', // mov ebx, 1 '\xB9', '\x00', '\x00', '\x00', '\x00', // mov ecx, msg '\xBA', '\x0E', '\x00', '\x00', '\x00', // mov edx, 14 '\xCD', '\x80', // int 0x80 '\xB8', '\x01', '\x00', '\x00', '\x00', // mov eax, 1 '\xCD', '\x80' // int 0x80 }; text_sec->set_data( text, sizeof( text ) ); // Create data section* section* data_sec = writer.sections.add( ".data" ); data_sec->set_type( SHT_PROGBITS ); data_sec->set_flags( SHF_ALLOC | SHF_WRITE ); data_sec->set_addr_align( 4 ); char data[] = { '\x48', '\x65', '\x6C', '\x6C', '\x6F', // msg: db 'Hello, World!', 10 '\x2C', '\x20', '\x57', '\x6F', '\x72', '\x6C', '\x64', '\x21', '\x0A' }; data_sec->set_data( data, sizeof( data ) ); section* str_sec = writer.sections.add( ".strtab" ); str_sec->set_type( SHT_STRTAB ); str_sec->set_addr_align( 0x1 ); string_section_accessor str_writer( str_sec ); Elf_Word nStrIndex = str_writer.add_string( "msg" ); section* sym_sec = writer.sections.add( ".symtab" ); sym_sec->set_type( SHT_SYMTAB ); sym_sec->set_info( 2 ); sym_sec->set_link( str_sec->get_index() ); sym_sec->set_addr_align( 4 ); sym_sec->set_entry_size( writer.get_default_entry_size( SHT_SYMTAB ) ); symbol_section_accessor symbol_writer( writer, sym_sec ); Elf_Word nSymIndex = symbol_writer.add_symbol( nStrIndex, 0, 0, STB_LOCAL, STT_NOTYPE, 0, data_sec->get_index() ); // Another way to add symbol symbol_writer.add_symbol( str_writer, "_start", 0x00000000, 0, STB_WEAK, STT_FUNC, 0, text_sec->get_index() ); // Create relocation table section* section* rel_sec = writer.sections.add( ".rel.text" ); rel_sec->set_type( SHT_REL ); rel_sec->set_info( text_sec->get_index() ); rel_sec->set_link( sym_sec->get_index() ); rel_sec->set_addr_align( 4 ); rel_sec->set_entry_size( writer.get_default_entry_size( SHT_REL ) ); relocation_section_accessor rel_writer( writer, rel_sec ); rel_writer.add_entry( 11, nSymIndex, (unsigned char)R_386_RELATIVE ); // Another method to add the same relocation entry // pRelWriter->AddEntry( pStrWriter, "msg", // pSymWriter, 29, 0, // ELF32_ST_INFO( STB_GLOBAL, STT_OBJECT ), 0, // data_sec->GetIndex(), // 0, (unsigned char)R_386_RELATIVE ); // Create note section* section* note_sec = writer.sections.add( ".note" ); note_sec->set_type( SHT_NOTE ); note_sec->set_addr_align( 1 ); // Create notes writer note_section_accessor note_writer( writer, note_sec ); note_writer.add_note( 0x77, "Created by ELFIO", 0, 0 ); // Create ELF file writer.save( is64bit ? "../elf_examples/write_obj_i386_64.o" : "../elf_examples/write_obj_i386_32.o" ); return true; } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( write_obj_i386_32 ) { BOOST_CHECK_EQUAL( true, write_obj_i386( false ) ); output_test_stream output( "../elf_examples/write_obj_i386_32_match.o", true, false ); std::ifstream input( "../elf_examples/write_obj_i386_32.o", std::ios::binary ); output << input.rdbuf(); BOOST_CHECK( output.match_pattern() ); } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( write_obj_i386_64 ) { BOOST_CHECK_EQUAL( true, write_obj_i386( true ) ); output_test_stream output( "../elf_examples/write_obj_i386_64_match.o", true, false ); std::ifstream input( "../elf_examples/write_obj_i386_64.o", std::ios::binary ); output << input.rdbuf(); BOOST_CHECK( output.match_pattern() ); } bool write_exe_i386( bool is64bit, bool set_addr = false, Elf64_Addr addr = 0 ) { elfio writer; writer.create( is64bit ? ELFCLASS64 : ELFCLASS32, ELFDATA2LSB ); writer.set_os_abi( ELFOSABI_LINUX ); writer.set_type( ET_EXEC ); writer.set_machine( is64bit ? EM_X86_64 : EM_386 ); // Create code section* section* text_sec = writer.sections.add( ".text" ); text_sec->set_type( SHT_PROGBITS ); text_sec->set_flags( SHF_ALLOC | SHF_EXECINSTR ); text_sec->set_addr_align( 0x10 ); if ( set_addr ) { text_sec->set_address( addr ); } // Add data into it char text[] = { '\xB8', '\x04', '\x00', '\x00', '\x00', // mov eax, 4 '\xBB', '\x01', '\x00', '\x00', '\x00', // mov ebx, 1 '\xB9', '\x20', '\x80', '\x04', '\x08', // mov ecx, msg '\xBA', '\x0E', '\x00', '\x00', '\x00', // mov edx, 14 '\xCD', '\x80', // int 0x80 '\xB8', '\x01', '\x00', '\x00', '\x00', // mov eax, 1 '\xCD', '\x80' // int 0x80 }; text_sec->set_data( text, sizeof( text ) ); segment* text_seg = writer.segments.add(); text_seg->set_type( PT_LOAD ); text_seg->set_virtual_address( 0x08048000 ); text_seg->set_physical_address( 0x08048000 ); text_seg->set_flags( PF_X | PF_R ); text_seg->set_align( 0x1000 ); text_seg->add_section_index( text_sec->get_index(), text_sec->get_addr_align() ); // Create data section* section* data_sec = writer.sections.add( ".data" ); data_sec->set_type( SHT_PROGBITS ); data_sec->set_flags( SHF_ALLOC | SHF_WRITE ); data_sec->set_addr_align( 0x4 ); char data[] = { '\x48', '\x65', '\x6C', '\x6C', '\x6F', // msg: db 'Hello, World!', 10 '\x2C', '\x20', '\x57', '\x6F', '\x72', '\x6C', '\x64', '\x21', '\x0A' }; data_sec->set_data( data, sizeof( data ) ); segment* data_seg = writer.segments.add(); data_seg->set_type( PT_LOAD ); data_seg->set_virtual_address( 0x08048020 ); data_seg->set_physical_address( 0x08048020 ); data_seg->set_flags( PF_W | PF_R ); data_seg->set_align( 0x10 ); data_seg->add_section_index( data_sec->get_index(), data_sec->get_addr_align() ); section* note_sec = writer.sections.add( ".note" ); note_sec->set_type( SHT_NOTE ); note_sec->set_addr_align( 1 ); note_section_accessor note_writer( writer, note_sec ); note_writer.add_note( 0x01, "Created by ELFIO", 0, 0 ); char descr[6] = {0x31, 0x32, 0x33, 0x34, 0x35, 0x36}; note_writer.add_note( 0x01, "Never easier!", descr, sizeof( descr ) ); // Create ELF file writer.set_entry( 0x08048000 ); writer.save( is64bit ? "../elf_examples/write_exe_i386_64" : "../elf_examples/write_exe_i386_32" ); return true; } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( write_exe_i386_32 ) { BOOST_CHECK_EQUAL( true, write_exe_i386( false ) ); output_test_stream output( "../elf_examples/write_exe_i386_32_match", true, false ); std::ifstream input( "../elf_examples/write_exe_i386_32", std::ios::binary ); output << input.rdbuf(); BOOST_CHECK( output.match_pattern() ); } void checkObjestsAreEqual( std::string file_name1, std::string file_name2 ) { elfio file1; elfio file2; BOOST_REQUIRE_EQUAL( file1.load( file_name1 ), true ); BOOST_CHECK_EQUAL( file1.save( file_name2 ), true ); BOOST_REQUIRE_EQUAL( file1.load( file_name1 ), true ); BOOST_REQUIRE_EQUAL( file2.load( file_name2 ), true ); for (int i = 0; i < file1.sections.size(); ++i ) { BOOST_CHECK_EQUAL( file1.sections[i]->get_address(), file2.sections[i]->get_address() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_addr_align(), file2.sections[i]->get_addr_align() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_entry_size(), file2.sections[i]->get_entry_size() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_flags(), file2.sections[i]->get_flags() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_index(), file2.sections[i]->get_index() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_info(), file2.sections[i]->get_info() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_link(), file2.sections[i]->get_link() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_name(), file2.sections[i]->get_name() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_name_string_offset(), file2.sections[i]->get_name_string_offset() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_size(), file2.sections[i]->get_size() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_type(), file2.sections[i]->get_type() ); if ( file1.sections[i]->get_type() == SHT_NULL || file1.sections[i]->get_type() == SHT_NOBITS ) { continue; } BOOST_REQUIRE_NE( file1.sections[i]->get_data(), (const char*)0 ); BOOST_REQUIRE_NE( file2.sections[i]->get_data(), (const char*)0 ); std::string pdata1( file1.sections[i]->get_data(), file1.sections[i]->get_data() + file1.sections[i]->get_size() ); std::string pdata2( file2.sections[i]->get_data(), file2.sections[i]->get_data() + file2.sections[i]->get_size() ); BOOST_CHECK_EQUAL( file1.sections[i]->get_size(), file2.sections[i]->get_size() ); if ( ( file2.sections[i]->get_type() != SHT_NULL ) && ( file2.sections[i]->get_type() != SHT_NOBITS ) ) { BOOST_CHECK_EQUAL_COLLECTIONS( pdata1.begin(), pdata1.end(), pdata2.begin(), pdata2.end() ); } } } void checkExeAreEqual( std::string file_name1, std::string file_name2 ) { checkObjestsAreEqual( file_name1, file_name2 ); elfio file1; elfio file2; BOOST_REQUIRE_EQUAL( file1.load( file_name1 ), true ); BOOST_REQUIRE_EQUAL( file2.load( file_name2 ), true ); for (int i = 0; i < file1.segments.size(); ++i ) { BOOST_CHECK_EQUAL( file1.segments[i]->get_align(), file2.segments[i]->get_align() ); BOOST_CHECK_EQUAL( file1.segments[i]->get_file_size(), file2.segments[i]->get_file_size() ); BOOST_CHECK_EQUAL( file1.segments[i]->get_memory_size(), file2.segments[i]->get_memory_size() ); BOOST_CHECK_EQUAL( file1.segments[i]->get_type(), file2.segments[i]->get_type() ); // skip data comparisons of the program header and of empty segments if( file1.segments[i]->get_type() == PT_PHDR || !file1.segments[i]->get_file_size() ) continue; BOOST_REQUIRE_NE( file1.segments[i]->get_data(), (const char*)0 ); BOOST_REQUIRE_NE( file2.segments[i]->get_data(), (const char*)0 ); std::string pdata1( file1.segments[i]->get_data(), file1.segments[i]->get_data() + file1.segments[i]->get_file_size() ); std::string pdata2( file2.segments[i]->get_data(), file2.segments[i]->get_data() + file2.segments[i]->get_file_size() ); // truncate the data if the header and the segment table is // part of the segment Elf64_Off afterPHDR = file1.get_segments_offset() + file1.get_segment_entry_size() * file1.segments.size(); if( file1.segments[i]->get_offset() < afterPHDR ) { pdata1 = pdata1.substr( (unsigned int)afterPHDR ); pdata2 = pdata2.substr( (unsigned int)afterPHDR ); } BOOST_CHECK_EQUAL_COLLECTIONS( pdata1.begin(), pdata1.end(), pdata2.begin(), pdata2.end() ); } } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( elf_object_copy_32 ) { checkObjestsAreEqual( "../elf_examples/hello_32.o", "../elf_examples/hello_32_copy.o" ); checkObjestsAreEqual( "../elf_examples/hello_64.o", "../elf_examples/hello_64_copy.o" ); checkObjestsAreEqual( "../elf_examples/test_ppc.o", "../elf_examples/test_ppc_copy.o" ); checkObjestsAreEqual( "../elf_examples/write_obj_i386_32.o", "../elf_examples/write_obj_i386_32_copy.o" ); checkObjestsAreEqual( "../elf_examples/write_obj_i386_64.o", "../elf_examples/write_obj_i386_64_copy.o" ); } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( section_header_address_update ) { elfio reader; write_exe_i386( false, true, 0x08048100 ); reader.load( "../elf_examples/write_exe_i386_32" ); section* sec = reader.sections[".text"]; BOOST_REQUIRE_NE( sec, (section*)0 ); BOOST_CHECK_EQUAL( sec->get_address(), 0x08048100 ); write_exe_i386( false, false, 0 ); reader.load( "../elf_examples/write_exe_i386_32" ); sec = reader.sections[".text"]; BOOST_REQUIRE_NE( sec, (section*)0 ); BOOST_CHECK_EQUAL( sec->get_address(), 0x08048000 ); } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( elfio_copy ) { elfio e; write_exe_i386( false, true, 0x08048100 ); e.load( "../elf_examples/write_exe_i386_32" ); Elf_Half num = e.sections.size(); //section* new_sec = e.sections.add( "new" ); e.save( "../elf_examples/write_exe_i386_32" ); BOOST_CHECK_EQUAL( num + 1, e.sections.size() ); } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( elf_exe_copy_64 ) { checkExeAreEqual( "../elf_examples/64bitLOAD.elf", "../elf_examples/64bitLOAD_copy.elf" ); checkExeAreEqual( "../elf_examples/asm64", "../elf_examples/asm64_copy" ); checkExeAreEqual( "../elf_examples/hello_64", "../elf_examples/hello_64_copy" ); // The last segment (GNU_RELRO) is bigger than necessary. // I don't see why but it contains a few bits of the .got.plt section. // -> load, store, compare cycle fails // checkExeAreEqual( "../elf_examples/main", // "../elf_examples/main_copy" ); // checkExeAreEqual( "../elf_examples/ls", // "../elf_examples/ls_copy" ); } //////////////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE( elf_exe_copy_32 ) { checkExeAreEqual( "../elf_examples/asm", "../elf_examples/asm_copy" ); checkExeAreEqual( "../elf_examples/arm_v7m_test_debug.elf", "../elf_examples/arm_v7m_test_debug_copy.elf" ); checkExeAreEqual( "../elf_examples/arm_v7m_test_release.elf", "../elf_examples/arm_v7m_test_release_copy.elf" ); checkExeAreEqual( "../elf_examples/hello_32", "../elf_examples/hello_32_copy" ); checkExeAreEqual( "../elf_examples/hello_arm", "../elf_examples/hello_arm_copy" ); checkExeAreEqual( "../elf_examples/hello_arm_stripped", "../elf_examples/hello_arm_stripped_copy" ); checkExeAreEqual( "../elf_examples/read_write_arm_elf32_input", "../elf_examples/read_write_arm_elf32_input_copy" ); checkExeAreEqual( "../elf_examples/test_ppc", "../elf_examples/test_ppc_copy" ); }