/* ** mwlib.c - POSIX 1003.2 "ar" command ** ** This isn't a pure POSIX 1003.2 ar; it only manipulates Metrowerks ** Library files, not general-purpose POSIX 1003.2 format archives. ** ** Dec. 14, 1997 Chris Herborth (chrish@kagi.com) ** ** This code is donated to the PUBLIC DOMAIN. You can use, abuse, modify, ** redistribute, steal, or otherwise manipulate this code. No restrictions ** at all. If you laugh at this code, you can't use it. ** ** This "ar" was implemented using IEEE Std 1003.2-1992 as the basis for ** the interface, and Metrowerk's published docs detailing their library ** format. Look inside for clues about how reality differs from MW's ** documentation on BeOS... */ #include #include #ifndef NO_DEBUG #include #define ASSERT(cond) assert(cond) #else #define ASSERT(cond) ((void)0) #endif #include #include #include #include #include #include #include #include /* is open() really here?!? sheesh... */ #include #include #include "mwlib.h" #include "copy_attrs.h" static const char *rcs_version_id = "$Id$"; /* ---------------------------------------------------------------------- ** Local prototypes */ static status_t load_MWLibFile( FILE *file, MWLibFile *libfile ); static size_t fwrite_big32( uint32 x, FILE *fp ); static size_t fwrite_big32_seek( uint32 x, long offset, FILE *fp ); static status_t add_object_sizes( MWObject *obj, uint32 *code, uint32 *data ); /* ---------------------------------------------------------------------- ** Load a Metrowerks library file into the given MWLib object. ** ** Returns: ** B_OK - all is well ** B_FILE_NOT_FOUND - can't open the given file ** B_IO_ERROR - can't read from the given file ** B_BAD_VALUE - invalid magic word in the file ** B_MISMATCHED_VALUES - invalid processor value (ie, not a PowerPC lib), ** or the magicflags member is not 0, or the file ** version number isn't 1. ** B_NO_MEMORY - unable to allocate memory while loading the lib */ status_t load_MW_lib( MWLib *lib, const char *filename ) { FILE *fp = NULL; size_t recs = 0; status_t retval = B_OK; uint32 tmp32 = 0; uint32 idx = 0; char obj_name[PATH_MAX]; ASSERT( lib != NULL ); ASSERT( filename != NULL ); fp = fopen( filename, "r" ); if( !fp ) { return B_FILE_NOT_FOUND; } /* Read and check the magic number. */ recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.magicword = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } else if( lib->header.magicword != MWLIB_MAGIC_WORD ) { retval = B_BAD_VALUE; goto close_return; } /* Read and check the processor. */ recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.magicproc = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } else if( lib->header.magicproc != MWLIB_MAGIC_PROC ) { retval = B_MISMATCHED_VALUES; goto close_return; } /* Read and check the flags. */ recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.magicflags = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } else if( lib->header.magicflags != 0 ) { retval = B_MISMATCHED_VALUES; goto close_return; } /* Read and check the file version. */ recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.version = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } else if( lib->header.version != 1 ) { retval = B_MISMATCHED_VALUES; goto close_return; } /* Read the code size, data size, and number of objects. */ recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.code_size = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.data_size = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } recs = fread( &tmp32, sizeof( uint32 ), 1, fp ); lib->header.num_objects = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } /* Load the MWLibFile objects from the lib. */ lib->files = (MWLibFile *)malloc( lib->header.num_objects * sizeof( MWLibFile ) ); if( lib->files == NULL ) { retval = B_NO_MEMORY; goto close_return; } for( idx = 0; idx < lib->header.num_objects; idx++ ) { retval = load_MWLibFile( fp, &(lib->files[idx]) ); if( retval != B_OK ) { goto close_return; } } /* Load the file names and object data. ** ** The file name actually appears twice in the library file; according ** to the docs, one is the file name, the other is the "full path name". ** In all of the libraries on my system, they're the same. */ lib->names = (char **)malloc( lib->header.num_objects * sizeof( char * ) ); lib->data = (char **)malloc( lib->header.num_objects * sizeof( char * ) ); if( lib->names == NULL || lib->data == NULL ) { retval = B_NO_MEMORY; goto close_return; } for( idx = 0; idx < lib->header.num_objects; idx ++ ) { /* Load the name and copy it into the right spot. */ retval = fseek( fp, lib->files[idx].off_filename, SEEK_SET ); if( retval ) { retval = B_IO_ERROR; goto close_return; } if( fgets( obj_name, PATH_MAX, fp ) == NULL ) { retval = B_IO_ERROR; goto close_return; } lib->names[idx] = strdup( obj_name ); if( lib->names[idx] == NULL ) { retval = B_NO_MEMORY; goto close_return; } /* Load the object data. */ lib->data[idx] = (char *)malloc( lib->files[idx].object_size ); if( lib->data[idx] == NULL ) { retval = B_NO_MEMORY; goto close_return; } retval = fseek( fp, lib->files[idx].off_object, SEEK_SET ); if( retval ) { retval = B_IO_ERROR; goto close_return; } recs = fread( lib->data[idx], lib->files[idx].object_size, 1, fp ); if( recs != 1 ) { retval = B_IO_ERROR; goto close_return; } } close_return: fclose( fp ); return retval; } /* ---------------------------------------------------------------------- ** Load the file header from a Metrowerks library file. ** ** Returns: ** B_OK - All is well ** B_IO_ERROR - Error reading the file */ static status_t load_MWLibFile( FILE *file, MWLibFile *libfile ) { size_t recs = 0; uint32 tmp32 = 0; ASSERT( file != NULL ); ASSERT( libfile != NULL ); /* Load the modification time. */ recs = fread( &tmp32, sizeof( uint32 ), 1, file ); libfile->m_time = (time_t)B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { return B_IO_ERROR; } /* Load the various offsets. */ recs = fread( &tmp32, sizeof( uint32 ), 1, file ); libfile->off_filename = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { return B_IO_ERROR; } recs = fread( &tmp32, sizeof( uint32 ), 1, file ); libfile->off_fullpath = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { return B_IO_ERROR; } recs = fread( &tmp32, sizeof( uint32 ), 1, file ); libfile->off_object = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { return B_IO_ERROR; } /* Load the object size. */ recs = fread( &tmp32, sizeof( uint32 ), 1, file ); libfile->object_size = B_BENDIAN_TO_HOST_INT32( tmp32 ); if( recs != 1 ) { return B_IO_ERROR; } return B_OK; } /* ---------------------------------------------------------------------- ** Write a Metrowerks library file. ** ** Returns: ** B_OK - all is well; doesn't necessarily mean the file was written ** properly, just that you didn't lose any data ** B_NO_MEMORY - unable to allocate offset buffers ** B_ERROR - problem with backup file (can't rename existing file) ** ** Note: ** If you use this in a long-lived program, it leaks memory; the MWLib ** contents are never free()'d. ** ** Two-pass technique: ** ** pass 1 - write file header (need CODE SIZE and DATA SIZE) ** write object headers (need offsets for FILENAME, FULL PATH, DATA) ** write filenames (store offsets for object headers) ** write padding (file size % 4 bytes) ** write file data (store offset for object header; add to code/data ** size for file header; pad data size % 4 bytes) ** ** pass 2 - fill in file header CODE SIZE and DATA SIZE ** fill in object headers FILENAME, FULL PATH, DATA ** ** You could avoid this by building up the file headers in memory, but this is ** easier (?) and I'm not that concerned with speed... ** */ typedef struct file_header_offsets { long codesize_offset; long datasize_offset; } file_header_offsets; typedef struct obj_header_offsets { long filename_offset; uint32 filename_offset_value; long fullpath_offset; uint32 fullpath_offset_value; long data_offset; uint32 data_offset_value; } obj_header_offsets; static size_t fwrite_big32( uint32 x, FILE *fp ) { uint32 tmp32 = B_HOST_TO_BENDIAN_INT32( x ); ASSERT( fp != NULL ); return fwrite( &tmp32, sizeof(tmp32), 1, fp ); } static size_t fwrite_big32_seek( uint32 x, long offset, FILE *fp ) { uint32 tmp32 = B_HOST_TO_BENDIAN_INT32( x ); ASSERT( fp != NULL ); if( fseek( fp, offset, SEEK_SET ) ) { return 0; } return fwrite( &tmp32, sizeof(tmp32), 1, fp ); } static status_t add_object_sizes( MWObject *obj, uint32 *code, uint32 *data ) { ASSERT( obj != NULL ); ASSERT( code != NULL ); ASSERT( data != NULL ); if( B_BENDIAN_TO_HOST_INT32( obj->magic_word ) != 'MWOB' || B_BENDIAN_TO_HOST_INT32( obj->arch ) != 'PPC ' ) { return B_ERROR; } *code += B_BENDIAN_TO_HOST_INT32( obj->code_size ); *data += B_BENDIAN_TO_HOST_INT32( obj->data_size ); return B_OK; } void setfiletype( const char *file, const char *type ) { int fd; attr_info fa; ssize_t wrote_bytes; fd = open( file, O_RDWR ); if( fd < 0 ) { fprintf( stderr, "ar: can't open %s to write file type, %s", file, strerror( errno ) ); return; } fa.type = B_MIME_STRING_TYPE; fa.size = (off_t)(strlen( type ) + 1); wrote_bytes = fs_write_attr( fd, "BEOS:TYPE", fa.type, 0, type, fa.size ); if( wrote_bytes != (ssize_t)fa.size ) { fprintf( stderr, "ar: couldn't write complete file type, %s", strerror( errno ) ); } close( fd ); } status_t write_MW_lib( MWLib *lib, const char *filename ) { char *padding = "\0\0\0\0"; long pad_amount; file_header_offsets head_offs; obj_header_offsets *obj_offs; uint32 codesize = 0; uint32 datasize = 0; uint32 num_objects = 0; FILE *fp; char *tmp_filename = NULL; uint32 idx = 0; size_t recs; status_t retval; mode_t mode_bits = 0666; ASSERT( lib != NULL ); ASSERT( filename != NULL ); #if 0 /* Apparently, I don't understand umask()... */ /* Find the default file creation mask. The semantics of umask() suck. */ mode_bits = umask( (mode_t)0 ); (void)umask( mode_bits ); #endif /* Easier access to the number of objects. */ num_objects = lib->header.num_objects; /* Allocate some storage for keeping track of the things we need to ** write out in the second pass. */ head_offs.codesize_offset = 0; head_offs.datasize_offset = 0; obj_offs = (obj_header_offsets *)malloc( sizeof(obj_header_offsets) * num_objects ); if( obj_offs == NULL ) { fprintf( stderr, "ar: can't allocate memory for writing file\n" ); return B_NO_MEMORY; } memset( obj_offs, 0, sizeof(obj_header_offsets) * num_objects ); /* If the file exists, move it somewhere so we can recover if there's ** an error. */ retval = access( filename, F_OK ); if( retval == 0 ) { struct stat s; /* Preserve the mode bits. */ retval = stat( filename, &s ); if( retval != 0 ) { fprintf( stderr, "ar: can't stat %s, %s\n", filename, strerror( errno ) ); } else { mode_bits = s.st_mode; } tmp_filename = (char *)malloc( strlen( filename ) + 2 ); if( tmp_filename == NULL ) { fprintf( stderr, "ar: can't allocate memory for temporary filename\n" ); } else { sprintf( tmp_filename, "%s~", filename ); retval = access( tmp_filename, F_OK ); if( retval == 0 ) { retval = unlink( tmp_filename ); if( retval != 0 ) { fprintf( stderr, "ar: can't unlink %s, %s\n", tmp_filename, strerror( errno ) ); free( tmp_filename ); tmp_filename = NULL; } } if( tmp_filename ) { retval = rename( filename, tmp_filename ); if( retval != 0 ) { fprintf( stderr, "ar: can't move %s to backup, %s\n", filename, strerror( errno ) ); return B_ERROR; } } } } /* Attempt to open the archive file. */ fp = fopen( filename, "w" ); if( fp == NULL ) { fprintf( stderr, "ar: can't open %s for write, %s\n", filename, strerror( errno ) ); goto error_return; } /* ---------------------------------------------------------------------- ** Write the file. Pass 1. */ recs = fwrite_big32( lib->header.magicword, fp ); recs += fwrite_big32( lib->header.magicproc, fp ); recs += fwrite_big32( lib->header.magicflags, fp ); recs += fwrite_big32( lib->header.version, fp ); if( recs != 4 ) { fprintf( stderr, "ar: error writing header for %s, %s\n", filename, strerror( errno ) ); goto error_return; } /* Keep track of the code/data size offsets. */ head_offs.codesize_offset = ftell( fp ); recs = fwrite_big32( codesize, fp ); head_offs.datasize_offset = ftell( fp ); recs += fwrite_big32( datasize, fp ); if( recs != 2 ) { fprintf( stderr, "ar: error writing header for %s, %s\n", filename, strerror( errno ) ); goto error_return; } recs = fwrite_big32( num_objects, fp ); if( recs != 1 ) { fprintf( stderr, "ar: error writing header for %s, %s\n", filename, strerror( errno ) ); goto error_return; } /* Write the object headers. */ for( idx = 0; idx < num_objects; idx++ ) { recs = fwrite_big32( lib->files[idx].m_time, fp ); /* Keep track of the offsets, and write 0 for now. */ obj_offs[idx].filename_offset = ftell( fp ); recs += fwrite_big32( 0, fp ); obj_offs[idx].fullpath_offset = ftell( fp ); recs += fwrite_big32( 0, fp ); obj_offs[idx].data_offset = ftell( fp ); recs += fwrite_big32( 0, fp ); recs += fwrite_big32( lib->files[idx].object_size, fp ); if( recs != 5 ) { fprintf( stderr, "ar: error writing object header for %s, %s\n", filename, strerror( errno ) ); goto error_return; } } /* Write the file names. */ for( idx = 0; idx < num_objects; idx++ ) { /* Need to make sure that all the file names we write into the ** library DO NOT HAVE PATHS IN THEM, the world might end or something. */ size_t name_len = 0; char *name_ptr = strrchr( lib->names[idx], '/' ); if( name_ptr == NULL ) { name_ptr = lib->names[idx]; } else { name_ptr++; } name_len = strlen( name_ptr ) + 1; obj_offs[idx].filename_offset_value = ftell( fp ); recs = fwrite( name_ptr, name_len, 1, fp ); obj_offs[idx].fullpath_offset_value = ftell( fp ); recs += fwrite( name_ptr, name_len, 1, fp ); if( recs != 2 ) { fprintf( stderr, "ar: error writing object name for %s, %s\n", filename, strerror( errno ) ); goto error_return; } } /* Pad the file if necessary. */ pad_amount = ftell( fp ) % 4; if( pad_amount > 0 ) { recs = fwrite( padding, pad_amount, 1, fp ); if( recs != 1 ) { fprintf( stderr, "ar: error padding file %s, %s\n", filename, strerror( errno ) ); goto error_return; } } /* Write the object file data. */ for( idx = 0; idx < num_objects; idx++ ) { obj_offs[idx].data_offset_value = ftell( fp ); recs = fwrite( lib->data[idx], lib->files[idx].object_size, 1, fp ); if( recs != 1 ) { fprintf( stderr, "ar: writing object data for %s, %s\n", filename, strerror( errno ) ); goto error_return; } /* Add up the code/data size. */ retval = add_object_sizes( (MWObject *)lib->data[idx], &codesize, &datasize ); if( retval != B_OK ) { fprintf( stderr, "ar - warning: %s is not an object file!\n", lib->names[idx] ); goto error_return; } pad_amount = ftell( fp ) % 4; if( pad_amount > 0 ) { recs = fwrite( padding, pad_amount, 1, fp ); if( recs != 1 ) { fprintf( stderr, "ar: error padding file %s, %s\n", filename, strerror( errno ) ); goto error_return; } } } /* ---------------------------------------------------------------------- ** Write the offsets into the file. Pass 2. */ /* Write the code/data sizes. */ recs = fwrite_big32_seek( codesize, head_offs.codesize_offset, fp ); recs += fwrite_big32_seek( datasize, head_offs.datasize_offset, fp ); if( recs != 2 ) { fprintf( stderr, "ar - error writing code and data sizes, %s\n", strerror( errno ) ); goto error_return; } /* Write the offsets for each file. */ for( idx = 0; idx < num_objects; idx++ ) { recs = fwrite_big32_seek( obj_offs[idx].filename_offset_value, obj_offs[idx].filename_offset, fp ); recs += fwrite_big32_seek( obj_offs[idx].fullpath_offset_value, obj_offs[idx].fullpath_offset, fp ); recs += fwrite_big32_seek( obj_offs[idx].data_offset_value, obj_offs[idx].data_offset, fp ); if( recs != 3 ) { fprintf( stderr, "ar - error writing object offsets, %s\n", strerror( errno ) ); goto error_return; } } /* If all is OK, close the file and get out of here after nuking the ** temp file (if any), preserving the original file mode, and preserving ** the file attributes. */ fclose( fp ); /* Preserve the original file mode bits. */ retval = chmod( filename, mode_bits ); if( retval != 0 ) { fprintf( stderr, "ar: unable to change file mode for %s, %s\n", filename, strerror( errno ) ); } /* Nuke the temp file (if any), after copying over any file attributes. */ if( tmp_filename != NULL ) { retval = copy_attrs( filename, tmp_filename ); retval = unlink( tmp_filename ); if( retval != 0 ) { fprintf( stderr, "ar - error unlinking %s, %s\n", tmp_filename, strerror( errno ) ); } free( tmp_filename ); } else { /* If there isn't a temp file, we should still give this new ** file a file type attribute. */ setfiletype( filename, "application/x-mw-library" ); } return B_OK; error_return: /* Restore the original file if we had any problems. */ fclose( fp ); if( tmp_filename != NULL ) { retval = unlink( filename ); retval = rename( tmp_filename, filename ); if( retval != 0 ) { fprintf( stderr, "ar: can't restore %s to %s, %s\n", tmp_filename, filename, strerror( errno ) ); } } return B_ERROR; }