int main( int argc, const char * argv[] ) /*********************************/ { int contok; int retcode; TRMemOpen(); contok = ScanParams( argc, argv ); if (CmdLineParms.PrintHelp) { PrintUsageMessage( argv[0] ); } if (contok) { retcode = DumpFile(); } else { retcode = 1; } FreeParams(); switch (retcode) { case 1: /* reading parameters */ break; case 2: /* reading input file */ puts( "Error reading input file" ); break; } TRMemClose(); return( retcode ); }
static void MemTrackFini( void ) { Closing = TRUE; if( TrackFile != STDERR_FILENO ) { if( lseek( TrackFile, 0, SEEK_END ) != 0 ) { PopErrBox( TrackErr ); } else if( TRMemPrtList() != 0 ) { PopErrBox( UnFreed ); } close( TrackFile ); } TRMemClose(); }
extern void WPFini( void ) /************************/ { #ifdef TRMEM ClearAllSamples(); #endif WPFiniHelp(); WndFini(); WPDipFini(); FiniMADInfo(); #ifdef TRMEM TRMemClose(); #endif }
void main( void ) { //***************** int ctr; char in_str[80]; asmreloc *reloc, *next; TRMemOpen(); AsmInit(); curLine = 0; AsmCodeBuffer = (unsigned char*)buffer; AsmCodeAddress = 0; printf( "AsmCodeAddress = %u.\n", (unsigned)AsmCodeAddress ); gets( in_str ); while( strcmp( in_str, "q" ) != 0 ) { curLine++; AsmLine( in_str ); printf( "AsmCodeAddress = %u.\n", (unsigned)AsmCodeAddress ); // AsmCodeAddress is now updated, and code is filled from // AsmCodeBuffer[0] to AsmCodeBuffer[AsmCodeAddress/ins_size-1] // inclusive. gets( in_str ); } printf( "Generated [before internal fixup]:\n" ); for( ctr = 0; ctr < AsmCodeAddress / sizeof( buffer[0] ); ctr++ ) { printf( " [%#010x]\n", buffer[ctr] ); } AsmFini(); printf( "Generated [after internal fixup]:\n" ); for( ctr = 0; ctr < AsmCodeAddress / sizeof( buffer[0] ); ctr++ ) { printf( " [%#010x]\n", buffer[ctr] ); } for( reloc = AsmRelocs; reloc; reloc = next ) { next = reloc->next; printf( "Reloc:\tname = %s\n" "\toffset = %#010x\n" "\ttype = %s\n", reloc->name, reloc->offset, typeName[reloc->type] ); AsmFree( reloc->name ); AsmFree( reloc ); } #ifdef TRMEM TRMemPrtList(); #endif TRMemClose(); }
void main( int argc, char *argv[] ) { HelpFp fp; HelpHdl hdl; char name[_MAX_PATH]; char *cur; HelpSrchInfo cursor; unsigned i; if( argc != 2 ) { printf( "USAGE:\n" ); printf( "exename <help file>\n" ); return; } fp = HelpOpen( argv[1], HELP_OPEN_RDONLY | HELP_OPEN_BINARY ); if( fp == -1 ) { printf( "Unable to open %s\n", argv[1] ); return; } TRMemOpen(); hdl = InitHelpSearch( fp ); for( ;; ) { gets( name ); if( !strcmp( name, "bob" ) ) break; cur = HelpFindFirst( hdl, name, &cursor ); for( i=0; i < 5; i++ ) { if( cur == NULL ) break; printf( " %s\n", cur ); HelpMemFree( cur ); cur = HelpFindNext( &cursor ); } if( cur != NULL ) { HelpMemFree( cur ); } } FiniHelpSearch( hdl ); HelpClose( fp ); TRMemClose(); }
int main( int argc, const char * argv[] ) /***************************************/ { int error; /* 1 if an error has occured, 0 otherwise */ bool contok; /* true if OK to continue after scanning arg */ TRMemOpen(); contok = ScanParams( argc, argv ); if( CmdLineParms.PrintHelp ) { PrintUsageMesage( argv[0] ); } if( contok ) { error = ConvertFiles(); } else { error = 1; } TRMemClose(); return( error ); }
int main( int argc, char *argv[] ) /********************************/ { orl_handle o_hnd; orl_file_handle o_fhnd; orl_funcs funcs; int file; orl_file_flags file_flags; orl_machine_type machine_type; orl_file_type file_type; orl_file_format type; int c; int sep; char *secs[MAX_SECS]; int num_secs = 0; if( argc < 2 ) { printf( "Usage: objread [-ahrsSx] [-o<section>] <objfile>\n" ); printf( "Where <objfile> is a COFF, ELF or OMF object file\n" ); printf( "objread reads and dumps an object using ORL\n" ); printf( "Options: -a dumps all information (except hex dump)\n" ); printf( " -h dumps file header information\n" ); printf( " -r dumps relocation information\n" ); printf( " -s dumps symbol table\n" ); printf( " -S dumps section information\n" ); printf( " -x get hex dump of section content\n" ); printf( " -o only scan <section> for info\n" ); return( 1 ); } while( (c = getopt( argc, argv, "axhrsSo:" )) != EOF ) { switch( c ) { case 'a': dump.relocs++; dump.header++; dump.symbols++; dump.sections++; break; case 'x': dump.sec_contents++; break; case 'h': dump.header++; break; case 'r': dump.relocs++; break; case 's': dump.symbols++; break; case 'S': dump.sections++; break; case 'o': secs[num_secs++] = optarg; break; default: // error occured exit(1); }; }; if( optind != argc - 1 ) { fprintf( stderr, "must specify 1 filename\n" ); exit(1); } file = open( argv[optind], O_BINARY | O_RDONLY ); if( file == -1 ) { printf( "Error opening file.\n" ); return( 2 ); } TRMemOpen(); funcs.read = &objRead; funcs.seek = &objSeek; funcs.alloc = &TRMemAlloc; funcs.free = &TRMemFree; o_hnd = ORLInit( &funcs ); if( o_hnd == NULL ) { printf( "Got NULL orl_handle.\n" ); return( 2 ); } type = ORLFileIdentify( o_hnd, (void *)file ); if( type == ORL_UNRECOGNIZED_FORMAT ) { printf( "The object file is not in either ELF, COFF or OMF format." ); return( 1 ); } switch( type ) { case ORL_ELF: printf( "ELF" ); break; case ORL_COFF: printf( "COFF" ); break; case ORL_OMF: printf( "OMF" ); break; default: printf( "Unknown" ); break; } printf( " object file.\n" ); o_fhnd = ORLFileInit( o_hnd, (void *)file, type ); if( o_fhnd == NULL ) { printf( "Got NULL orl_file_handle.\n" ); return( 2 ); } if( dump.header ) { printf( "File %s:\n", argv[optind] ); machine_type = ORLFileGetMachineType( o_fhnd ); printf( "Machine Type: " ); if( machine_type >= ( sizeof( machType ) / sizeof( *machType ) ) ) { // We've probably added some new types? printf( "?(%d)", machine_type ); } else { printf( "%s", machType[ machine_type ] ); } file_type = ORLFileGetType( o_fhnd ); printf( " (" ); switch( file_type ) { case ORL_FILE_TYPE_NONE: printf( "file_type_none" ); break; case ORL_FILE_TYPE_OBJECT: printf( "object file" ); break; case ORL_FILE_TYPE_EXECUTABLE: printf( "executable" ); break; case ORL_FILE_TYPE_SHARED_OBJECT: printf( "shared object" ); break; case ORL_FILE_TYPE_DLL: printf( "DLL" ); break; default: printf( "unknown file type?" ); break; } printf( ")\n" ); file_flags = ORLFileGetFlags( o_fhnd ); //printf(" File flags=0x%x\n", file_flags ); sep = 0; if( file_flags & ORL_FILE_FLAG_LINE_NUMS_STRIPPED ) { printf( "line number info stripped" ); sep = 1; } if( file_flags & ORL_FILE_FLAG_RELOCS_STRIPPED ) { if( sep++ ) printf( ", " ); printf( "relocs stripped" ); } if( file_flags & ORL_FILE_FLAG_LOCAL_SYMS_STRIPPED ) { if( sep++ ) printf( ", " ); printf( "local symbols stripped" ); } if( file_flags & ORL_FILE_FLAG_DEBUG_STRIPPED ) { if( sep++ ) printf( ", " ); printf( "debug info stripped" ); } if( file_flags & ORL_FILE_FLAG_16BIT_MACHINE ) { if( sep++ ) printf( ", " ); printf( "for 16-bit machine" ); } if( file_flags & ORL_FILE_FLAG_32BIT_MACHINE ) { if( sep++ ) printf( ", " ); printf( "for 32-bit machine" ); } if( file_flags & ORL_FILE_FLAG_64BIT_MACHINE ) { if( sep++ ) printf( ", " ); printf( "for 64-bit machine" ); } if( file_flags & ORL_FILE_FLAG_LITTLE_ENDIAN ) { if( sep++ ) printf( ", " ); printf( "little-endian byte order" ); } if( file_flags & ORL_FILE_FLAG_BIG_ENDIAN ) { if( sep++ ) printf( ", " ); printf( "big-endian byte order" ); } if( file_flags & ORL_FILE_FLAG_SYSTEM ) { if( sep++ ) printf( ", " ); printf( "system file" ); } if( sep ) printf( "\n" ); } if( num_secs ) { for( c = 0; c < num_secs; c++ ) { sectionFound = 0; if( ORLFileScan( o_fhnd, secs[c], &PrintSecInfo ) != ORL_OKAY ) { printf( "Error occured in scanning section '%s'.\n", secs[c] ); } if( !sectionFound ) { printf( "Section '%s' not found in object.\n", secs[c] ); } } } else { if( ORLFileScan( o_fhnd, NULL, &PrintSecInfo ) != ORL_OKAY ) { printf( "Error occured in scanning file.\n" ); return( 2 ); } } if( ORLFileScan( o_fhnd, ".symtab", &PrintSymTable ) != ORL_OKAY ) { printf( "Error occured in scanning file for symbol table\n" ); return( 2 ); } if( ORLFileFini( o_fhnd ) != ORL_OKAY ) { printf( "Error calling ORLFileFini.\n" ); return( 2 ); } if( close( file ) == -1 ) { printf( "Error closing file.\n" ); return( 2 ); } if( ORLFini( o_hnd ) != ORL_OKAY ) { printf( "Error calling ORLFini.\n" ); } freeBuffList(); #ifdef TRMEM TRMemPrtList(); #endif TRMemClose(); return( 0 ); }
int main( int argc, char *argv[] ) /********************************/ { orl_handle o_hnd; orl_file_handle o_fhnd; orl_file_format type; orl_file_flags o_flags; FILE *fp; int c; char *secs[MAX_SECS]; int num_secs = 0; ORLSetFuncs( orl_cli_funcs, objRead, objSeek, TRMemAlloc, TRMemFree ); if( argc < 2 ) { printf( "Usage: dwdump <file>\n" ); printf( "Where <file> is a COFF, ELF or OMF object file\n" ); printf( "dwdump reads and dumps DWARF debugging information\n" ); return( EXIT_SUCCESS ); } dump.sections++; fp = fopen( argv[1], "rb" ); if( fp == NULL ) { printf( "Error opening file.\n" ); return( EXIT_FAILURE ); } TRMemOpen(); o_hnd = ORLInit( &orl_cli_funcs ); if( o_hnd == NULL ) { printf( "Got NULL orl_handle.\n" ); return( EXIT_FAILURE ); } type = ORLFileIdentify( o_hnd, fp ); if( type == ORL_UNRECOGNIZED_FORMAT ) { printf( "The object file is not in either ELF, COFF or OMF format." ); return( EXIT_FAILURE ); } switch( type ) { case ORL_OMF: printf( "OMF" ); break; case ORL_ELF: printf( "ELF" ); break; case ORL_COFF: printf( "COFF" ); break; default: printf( "Unknown" ); break; } printf( " object file.\n" ); o_fhnd = ORLFileInit( o_hnd, fp, type ); if( o_fhnd == NULL ) { printf( "Got NULL orl_file_handle.\n" ); return( EXIT_FAILURE ); } o_flags = ORLFileGetFlags( o_fhnd ); #ifdef __BIG_ENDIAN__ if( o_flags & ORL_FILE_FLAG_LITTLE_ENDIAN ) { byte_swap = true; } #else if( o_flags & ORL_FILE_FLAG_BIG_ENDIAN ) { byte_swap = true; } #endif if( num_secs ) { for( c = 0; c < num_secs; c++ ) { sectionFound = 0; if( ORLFileScan( o_fhnd, secs[c], &DoSection ) != ORL_OKAY ) { printf( "Error occured in scanning section '%s'.\n", secs[c] ); } if( !sectionFound ) { printf( "Section '%s' not found in object.\n", secs[c] ); } } } else { if( ORLFileScan( o_fhnd, NULL, &DoSection ) != ORL_OKAY ) { printf( "Error occured in scanning file.\n" ); return( EXIT_FAILURE ); } } setSects( o_fhnd ); if( ORLFileFini( o_fhnd ) != ORL_OKAY ) { printf( "Error calling ORLFileFini.\n" ); return( EXIT_FAILURE ); } if( fclose( fp ) ) { printf( "Error closing file.\n" ); return( EXIT_FAILURE ); } if( ORLFini( o_hnd ) != ORL_OKAY ) { printf( "Error calling ORLFini.\n" ); } DumpSections(); freeBuffList(); #ifdef TRMEM TRMemPrtList(); #endif TRMemClose(); return( EXIT_SUCCESS ); }