BeOS/ar-1.1/commands.c - platform/external/python/cpython3 - Gitiles

 /*
 ** commands.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 <support/Errors.h>
 #include <support/byteorder.h>
 #ifndef NO_DEBUG
 #include <assert.h>
 #define ASSERT(cond) assert(cond)
 #else
 #define ASSERT(cond) ((void)0)
 #endif

 #include <stdio.h>
 #include <stdlib.h>
 #include <unistd.h>
 #include <limits.h>
 #include <string.h>
 #include <utime.h>
 #include <errno.h>
 #include <sys/stat.h>

 #include "mwlib.h"
 #include "commands.h"

 #ifndef FALSE
 #define FALSE (0)
 #endif
 #ifndef TRUE
 #define TRUE (!FALSE)
 #endif

 static const char *rcs_version_id = "$Id$";

 /* ----------------------------------------------------------------------
 ** Local functions
 **
 ** do_match() - find the index of the file, if it's in the archive; return
 **              TRUE if found, else FALSE
 **/
 static int do_match( MWLib *lib, const char *file, int *idx );

 static int do_match( MWLib *lib, const char *file, int *idx )
 {
 	int which = 0;
 	char *name_ptr;

 	ASSERT( lib != NULL );
 	ASSERT( file != NULL );
 	ASSERT( idx != NULL );

 	/* Skip over the path, if any, so we can compare just the file name.
 	*/
 	name_ptr = strrchr( file, '/' );
 	if( name_ptr == NULL ) {
 		name_ptr = (char *)file;
 	} else {
 		name_ptr++;
 	}

 	for( which = 0; which < lib->header.num_objects; which++ ) {
 		if( !strcmp( name_ptr, lib->names[which] ) ) {
 			*idx = which;
 			return TRUE;
 		}
 	}

 	return FALSE;
 }

 /* ----------------------------------------------------------------------
 ** Delete an archive member.
 **
 ** This isn't really optimal; you could make a more efficient version
 ** using a linked list instead of arrays for the data.  This was easier
 ** to write, and speed shouldn't be that big a deal here... you're not
 ** likely to be dealing with thousands of files.
 */
 static status_t delete_lib_entry( MWLib *lib, int idx, int verbose );

 status_t do_delete( const char *archive_name, char **files, int verbose )
 {
 	status_t retval = B_OK;
 	MWLib lib;
 	int idx = 0;
 	int which = 0;

 	ASSERT( archive_name != NULL );

 	if( files == NULL ) {
 		fprintf( stderr, "ar: %s, nothing to do\n", archive_name );
 		return B_ERROR;
 	}

 	retval = load_MW_lib( &lib, archive_name );
 	if( retval != B_OK ) {
 		switch( retval ) {
 		case B_FILE_NOT_FOUND:
 			fprintf( stderr, "ar: %s, file not found\n", archive_name );
 			return retval;
 			break;

 		default:
 			return retval;
 			break;
 		}
 	}

 	/* Delete the specified files.
 	*/
 	for( idx = 0; files[idx] != NULL; idx++ ) {
 		if( do_match( &lib, files[idx], &which ) ) {
 			retval = delete_lib_entry( &lib, which, verbose );
 		}
 		which = 0;
 	}

 	/* Write the new file.
 	*/
 	retval = write_MW_lib( &lib, archive_name );

 	return retval;
 }

 static status_t delete_lib_entry( MWLib *lib, int which, int verbose )
 {
 	uint32 new_num;
 	MWLibFile *new_files = NULL;
 	char **new_names = NULL;
 	char **new_data = NULL;
 	int ctr = 0;
 	int idx = 0;

 	ASSERT( lib != NULL );
 	ASSERT( which <= lib->header.num_objects );

 	new_num = lib->header.num_objects - 1;

 	new_files = (MWLibFile *)malloc( new_num * ( sizeof( MWLibFile ) ) );
 	new_names = (char **)malloc( new_num * ( sizeof( char * ) ) );
 	new_data = (char **)malloc( new_num * ( sizeof( char * ) ) );
 	if( new_files == NULL || new_names == NULL || new_data == NULL ) {
 		return B_NO_MEMORY;
 	}

 	/* Copy the contents of the old lib to the new lib, skipping the one
 	** we want to delete.
 	*/
 	for( ctr = 0; ctr < lib->header.num_objects; ctr++ ) {
 		if( ctr != which ) {
 			memcpy( &(new_files[idx]), &(lib->files[ctr]),
 					sizeof( MWLibFile ) );
 			new_names[idx] = lib->names[ctr];
 			new_data[idx] = lib->data[ctr];

 			idx++;
 		} else {
 			/* Free up the name and data.
 			*/
 			if( verbose ) {
 				printf( "d - %s\n", lib->names[ctr] );
 			}

 			free( lib->names[idx] );
 			lib->names[idx] = NULL;
 			free( lib->data[idx] );
 			lib->data[idx] = NULL;
 		}
 	}

 	/* Free up the old lib's data.
 	*/
 	free( lib->files );
 	free( lib->names );
 	free( lib->data );

 	lib->files = new_files;
 	lib->names = new_names;
 	lib->data = new_data;

 	lib->header.num_objects = new_num;

 	return B_OK;
 }

 /* ----------------------------------------------------------------------
 ** Print an archive member to stdout.
 */
 static status_t print_lib_entry( MWLib *lib, int idx, int verbose );

 status_t do_print( const char *archive_name, char **files, int verbose )
 {
 	status_t retval = B_OK;
 	MWLib lib;
 	int idx = 0;

 	ASSERT( archive_name != NULL );

 	retval = load_MW_lib( &lib, archive_name );
 	if( retval != B_OK ) {
 		switch( retval ) {
 		case B_FILE_NOT_FOUND:
 			fprintf( stderr, "ar: %s, file not found\n", archive_name );
 			return retval;
 			break;

 		default:
 			return retval;
 			break;
 		}
 	}

 	if( files == NULL ) {
 		/* Then we print the entire archive.
 		*/
 		for( idx = 0; idx < lib.header.num_objects; idx++ ) {
 			retval = print_lib_entry( &lib, idx, verbose );
 		}
 	} else {
 		/* Then we print the specified files.
 		*/
 		int which = 0;

 		for( idx = 0; files[idx] != NULL; idx++ ) {
 			if( do_match( &lib, files[idx], &which ) ) {
 				retval = print_lib_entry( &lib, which, verbose );
 			}
 			which = 0;
 		}
 	}

 	return retval;
 }

 static status_t print_lib_entry( MWLib *lib, int idx, int verbose )
 {
 	int recs;

 	ASSERT( lib != NULL );

 	if( verbose ) {
 		printf( "\n<%s>\n\n", lib->names[idx] );
 	}

 	recs = fwrite( lib->data[idx], lib->files[idx].object_size, 1, stdout );
 	fflush( stdout );
 	if( recs != 1 ) {
 		fprintf( stderr, "error printing %s, %s\n", lib->names[idx],
 				 strerror( errno ) );
 		return B_OK;
 	}

 	return B_OK;
 }

 /* ----------------------------------------------------------------------
 ** Add/replace/update files in an archive.
 */
 static status_t add_lib_entry( MWLib *lib, const char *filename, int verbose );
 static status_t replace_lib_entry( MWLib *lib, const char *filename,
 								   int idx, int verbose );
 static status_t load_lib_file( const char *filename,
 							   char **data, MWLibFile *info );

 static status_t load_lib_file( const char *filename,
 							   char **data, MWLibFile *info )
 {
 	status_t retval = B_OK;
 	struct stat s;
 	FILE *fp;
 	uint32 recs;

 	ASSERT( filename != NULL );
 	ASSERT( info != NULL );

 	/* Initialize the info area.
 	*/
 	info->m_time = (time_t)0;	/* Only this... */
 	info->off_filename = 0;
 	info->off_fullpath = 0;
 	info->off_object = 0;
 	info->object_size = 0;		/* ... and this will actually be updated. */

 	/* stat() the file to get the info we need.
 	*/
 	retval = stat( filename, &s );
 	if( retval != 0 ) {
 		fprintf( stderr, "ar: can't stat %s, %s\n", filename,
 				 strerror( errno ) );
 		return B_FILE_NOT_FOUND;
 	}

 	/* Possible errors here; if you have an object that's larger
 	** than a size_t can hold (malloc() can only allocate a size_t size,
 	** not a full off_t)...
 	*/
 	if( s.st_size > (off_t)ULONG_MAX ) {
 		fprintf( stderr, "ar: %s is too large!\n", filename );
 		return B_NO_MEMORY;
 	}

 	/* Allocate enough memory to hold the file data.
 	*/
 	*data = (char *)malloc( (size_t)s.st_size );
 	if( *data == NULL ) {
 		fprintf( stderr, "ar: can't allocate memory for %s\n", filename );
 		return B_NO_MEMORY;
 	}

 	/* Read the file's data.
 	*/
 	fp = fopen( filename, "r" );
 	if( fp == NULL ) {
 		fprintf( stderr, "ar: can't open %s, %s\n", filename,
 				 strerror( errno ) );
 		retval = B_FILE_NOT_FOUND;
 		goto free_data_return;
 	}

 	recs = fread( *data, (size_t)s.st_size, 1, fp );
 	if( recs != 1 ) {
 		fprintf( stderr, "ar: can't read %s, %s\n", filename,
 				 strerror( errno ) );
 		retval = B_IO_ERROR;
 		goto close_fp_return;
 	}

 	fclose( fp );

 	/* Now that all the stuff that can fail has succeeded, fill in the info
 	** we need.
 	*/
 	info->m_time = s.st_mtime;
 	info->object_size = (uint32)s.st_size;

 	return B_OK;

 	/* How we should return if an error occurred.
 	*/
 close_fp_return:
 	fclose( fp );

 free_data_return:
 	free( *data );
 	*data = NULL;

 	return retval;
 }

 status_t do_replace( const char *archive_name, char **files, int verbose,
 					 int create, int update )
 {
 	status_t retval = B_OK;
 	MWLib lib;
 	int idx = 0;
 	int which = 0;

 	ASSERT( archive_name != NULL );

 	memset( &lib, 0, sizeof( MWLib ) );

 	if( files == NULL ) {
 		fprintf( stderr, "ar: %s, nothing to do\n", archive_name );
 		return B_ERROR;
 	}

 	retval = load_MW_lib( &lib, archive_name );
 	if( retval != B_OK ) {
 		switch( retval ) {
 		case B_FILE_NOT_FOUND:
 			lib.header.magicword = 'MWOB';
 			lib.header.magicproc = 'PPC ';
 			lib.header.magicflags = 0;
 			lib.header.version = 1;

 			if( lib.files != NULL ) {
 				free( lib.files );
 				lib.files = NULL;
 			}

 			if( lib.names != NULL ) {
 				free( lib.names );
 				lib.names = NULL;
 			}

 			if( lib.data != NULL ) {
 				lib.data = NULL;
 			}

 			if( !create ) {
 				fprintf( stderr, "ar: creating %s\n", archive_name );
 			}

 			if( update ) {
 				fprintf( stderr, "ar: nothing to do for %s\n", archive_name );
 				return retval;
 			}
 			break;

 		default:
 			return retval;
 			break;
 		}
 	}

 	for( idx = 0; files[idx] != NULL; idx++ ) {
 		if( do_match( &lib, files[idx], &which ) ) {
 			/* Then the file exists, and we need to replace it or update it.
 			*/
 			if( update ) {
 				/* Compare m_times
 				** then replace this entry
 				*/
 				struct stat s;

 				retval = stat( files[idx], &s );
 				if( retval != 0 ) {
 					fprintf( stderr, "ar: can't stat %s, %s\n", files[idx],
 							 strerror( errno ) );
 				}

 				if( s.st_mtime >= lib.files[which].m_time ) {
 					retval = replace_lib_entry( &lib, files[idx], which,
 												verbose );
 				} else {
 					fprintf( stderr, "ar: a newer %s is already in %s\n",
 							 files[idx], archive_name );
 				}
 			} else {
 				/* replace this entry
 				*/
 				retval = replace_lib_entry( &lib, files[idx], which, verbose );
 			}
 		} else {
 			/* add this entry
 			*/
 			retval = add_lib_entry( &lib, files[idx], verbose );
 		}
 	}

 	/* Write the new file.
 	*/
 	retval = write_MW_lib( &lib, archive_name );

 	return retval;
 }

 static status_t add_lib_entry( MWLib *lib, const char *filename, int verbose )
 {
 	status_t retval = B_OK;
 	uint32 new_num_objects;
 	uint32 idx;

 	ASSERT( lib != NULL );
 	ASSERT( filename != NULL );

 	/* Find out how many objects we'll have after we add this one.
 	*/
 	new_num_objects = lib->header.num_objects + 1;
 	idx = lib->header.num_objects;

 	/* Attempt to reallocate the MWLib's buffers.  If one of these fails,
 	** we could leak a little memory, but it shouldn't be a big deal in
 	** a short-lived app like this.
 	*/
 	lib->files = (MWLibFile *)realloc( lib->files,
 									   sizeof(MWLibFile) * new_num_objects );
 	lib->names = (char **)realloc( lib->names,
 								   sizeof(char *) * new_num_objects );
 	lib->data = (char **)realloc( lib->data,
 								  sizeof(char *) * new_num_objects );
 	if( lib->files == NULL || lib->names == NULL || lib->data == NULL ) {
 		fprintf( stderr, "ar: can't allocate memory to add %s\n", filename );
 		return B_NO_MEMORY;
 	}

 	/* Load the file's data and info into the MWLib structure.
 	*/
 	retval = load_lib_file( filename, &(lib->data[idx]), &(lib->files[idx]) );
 	if( retval != B_OK ) {
 		fprintf( stderr, "ar: error adding %s, %s\n", filename,
 				 strerror( errno ) );

 		return retval;
 	}

 	/* Save a copy of the filename.  This is where we leak
 	** sizeof(MWLibFile) + 2 * sizeof(char *) bytes because we don't
 	** shrink lib->files, lib->names, and lib->data.
 	*/
 	lib->names[idx] = strdup( filename );
 	if( lib->names == NULL ) {
 		fprintf( stderr, "ar: error allocating memory for filename\n" );

 		return B_NO_MEMORY;
 	}

 	/* Now that everything's OK, we can update the MWLib header.
 	*/
 	lib->header.num_objects++;

 	/* Give a little feedback.
 	*/
 	if( verbose ) {
 		printf( "a - %s\n", filename );
 	}

 	return B_OK;
 }

 static status_t replace_lib_entry( MWLib *lib, const char *filename,
 								   int idx, int verbose )
 {
 	char *buff;
 	MWLibFile info;
 	char *dup_name;

 	status_t retval = B_OK;

 	ASSERT( lib != NULL );
 	ASSERT( filename != NULL );
 	ASSERT( idx <= lib->header.num_objects );

 	/* Load the file's data and info into the MWLib structure.
 	**
 	** We'll do it safely so we don't end up writing a bogus library in
 	** the event of failure.
 	*/
 	retval = load_lib_file( filename, &buff, &info );
 	if( retval != B_OK ) {
 		fprintf( stderr, "ar: error adding %s, %s\n", filename,
 				 strerror( errno ) );

 		return retval;
 	}

 	/* Attempt to allocate memory for a duplicate of the file name.
 	*/
 	dup_name = strdup( filename );
 	if( dup_name == NULL ) {
 		fprintf( stderr, "ar: unable to allocate memory for filename\n",
 				 filename );

 		free( buff );

 		return B_NO_MEMORY;
 	}

 	/* All is well, so let's update the MWLib object appropriately.
 	*/
 	lib->files[idx].m_time = info.m_time;
 	lib->files[idx].off_filename = 0;
 	lib->files[idx].off_fullpath = 0;
 	lib->files[idx].off_object = 0;
 	lib->files[idx].object_size = info.object_size;

 	lib->data[idx] = buff;

 	free( lib->names[idx] );
 	lib->names[idx] = dup_name;

 	/* Give a little feedback.
 	*/
 	if( verbose ) {
 		printf( "r - %s\n", filename );
 	}

 	return B_OK;
 }

 /* ----------------------------------------------------------------------
 ** Print the table for an archive.
 */
 static status_t table_lib_entry( MWLib *lib, int idx, int verbose );

 status_t do_table( const char *archive_name, char **files, int verbose )
 {
 	status_t retval = B_OK;
 	MWLib lib;
 	int idx = 0;

 	ASSERT( archive_name != NULL );

 	retval = load_MW_lib( &lib, archive_name );
 	if( retval != B_OK ) {
 		switch( retval ) {
 		case B_FILE_NOT_FOUND:
 			fprintf( stderr, "ar: %s, file not found\n", archive_name );
 			return retval;
 			break;

 		default:
 			return retval;
 			break;
 		}
 	}

 	if( files == NULL ) {
 		/* Then we print the table for the entire archive.
 		*/
 		for( idx = 0; idx < lib.header.num_objects; idx++ ) {
 			retval = table_lib_entry( &lib, idx, verbose );
 		}
 	} else {
 		/* Then we print the table for the specified files.
 		*/
 		int which = 0;

 		for( idx = 0; files[idx] != NULL; idx++ ) {
 			if( do_match( &lib, files[idx], &which ) ) {
 				retval = table_lib_entry( &lib, which, verbose );
 			}
 			which = 0;
 		}
 	}

 	return retval;
 }

 static status_t table_lib_entry( MWLib *lib, int idx, int verbose )
 {
 	struct tm *t;
 	char month_buff[4];

 	ASSERT( lib != NULL );

 	if( verbose ) {
 		t = localtime( &(lib->files[idx].m_time) );
 		if( t == NULL ) {
 			fprintf( stderr, "localtime() failed, %s\n",
 					 strerror( errno ) );
 			return B_OK;
 		}

 		if( strftime( month_buff, sizeof( month_buff ),
 					  "%b", t ) == 0 ) {
 			/* TODO: error message */
 			fprintf( stderr, "strftime() failed, %s\n",
 					 strerror( errno ) );
 			return B_OK;
 		}

 		/* I wish POSIX allowed for a nicer format; even using tabs
 		 * between some entries would be better.
 		 */
 		printf( "%s %u/%u %u %s %d %d:%d %d %s\n",
 				"-rw-r--r--", /* simulated mode */
 				getuid(), getgid(), /* simulated uid & gid */
 				lib->files[idx].object_size,
 				month_buff, /* abbreviated month */
 				t->tm_mon, /* day of month */
 				t->tm_hour, /* hour */
 				t->tm_min, /* minute */
 				t->tm_year, /* year */
 				lib->names[idx] );
 	} else {
 		printf( "%s\n", lib->names[idx] );
 	}

 	return B_OK;
 }

 /* ----------------------------------------------------------------------
 ** Extract one or more files from the archive.
 */
 static status_t extract_lib_entry( MWLib *lib, int idx, int verbose );

 status_t do_extract( const char *archive_name, char **files, int verbose )
 {
 	status_t retval = B_OK;
 	MWLib lib;
 	int idx = 0;

 	ASSERT( archive_name != NULL );

 	retval = load_MW_lib( &lib, archive_name );
 	if( retval != B_OK ) {
 		switch( retval ) {
 		case B_FILE_NOT_FOUND:
 			fprintf( stderr, "ar: %s, file not found\n", archive_name );
 			return retval;
 			break;

 		default:
 			return retval;
 			break;
 		}
 	}

 	if( files == NULL ) {
 		/* Then we extract all the files.
 		*/
 		for( idx = 0; idx < lib.header.num_objects; idx++ ) {
 			retval = extract_lib_entry( &lib, idx, verbose );
 		}
 	} else {
 		/* Then we extract the specified files.
 		*/
 		int which = 0;

 		for( idx = 0; files[idx] != NULL; idx++ ) {
 			if( do_match( &lib, files[idx], &which ) ) {
 				retval = extract_lib_entry( &lib, which, verbose );
 			}
 			which = 0;
 		}
 	}

 	return retval;
 }

 static status_t extract_lib_entry( MWLib *lib, int idx, int verbose )
 {
 	FILE *fp;
 	int recs;
 	status_t retval = B_OK;
 	struct stat s;
 	mode_t mode_bits = 0666;	/* TODO: use user's umask() instead */

 	ASSERT( lib != NULL );

 	/* Delete the file if it already exists.
 	*/
 	retval = access( lib->names[idx], F_OK );
 	if( retval == 0 ) {
 		retval = stat( lib->names[idx], &s );
 		if( retval != 0 ) {
 			fprintf( stderr, "ar: can't stat %s, %s\n", lib->names[idx],
 					 strerror( errno ) );
 		} else {
 			mode_bits = s.st_mode;
 		}
 		retval = unlink( lib->names[idx] );
 		if( retval != 0 ) {
 			fprintf( stderr, "ar: can't unlink %s, %s\n", lib->names[idx],
 					strerror( retval ) );
 			return B_OK;
 		}
 	}

 	/* Write the file.
 	*/
 	if( verbose ) {
 		printf( "x - %s\n", lib->names[idx] );
 	}

 	fp = fopen( lib->names[idx], "w" );
 	if( fp == NULL ) {
 		fprintf( stderr, "ar: can't open %s for write, %s\n", lib->names[idx],
 				 strerror( errno ) );
 		return B_OK;
 	}

 	recs = fwrite( lib->data[idx], lib->files[idx].object_size, 1, fp );
 	if( recs != 1 ) {
 		fprintf( stderr, "error writing %s, %s\n", lib->names[idx],
 				 strerror( errno ) );
 	}

 	retval = fclose( fp );

 	/* Set the newly extracted file's modification time to the time
 	** stored in the archive.
 	*/
 	retval = stat( lib->names[idx], &s );
 	if( retval != 0 ) {
 		fprintf( stderr, "ar: can't stat %s, %s\n", lib->names[idx],
 				strerror( errno ) );
 	} else {
 		struct utimbuf new_times;

 		new_times.actime = s.st_atime;
 		new_times.modtime = lib->files[idx].m_time;

 		retval = utime( lib->names[idx], &new_times );
 		if( retval != 0 ) {
 			fprintf( stderr, "ar: can't set modification time for %s, %s\n",
 					 lib->names[idx], strerror( retval ) );
 		}
 	}

 	/* Set the newly extracted file's mode.
 	*/
 	retval = chmod( lib->names[idx], mode_bits );
 	if( retval != 0 ) {
 		fprintf( stderr, "ar: unable to change file mode for %s, %s\n",
 				 lib->names[idx], strerror( errno ) );
 	}

 	/* Set the newly extracted file's type.
 	*/
 	setfiletype( lib->names[idx], "application/x-mw-library" );

 	return B_OK;
 }
	/*
	** commands.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 <support/Errors.h>
	#include <support/byteorder.h>
	#ifndef NO_DEBUG
	#include <assert.h>
	#define ASSERT(cond) assert(cond)
	#else
	#define ASSERT(cond) ((void)0)
	#endif

	#include <stdio.h>
	#include <stdlib.h>
	#include <unistd.h>
	#include <limits.h>
	#include <string.h>
	#include <utime.h>
	#include <errno.h>
	#include <sys/stat.h>

	#include "mwlib.h"
	#include "commands.h"

	#ifndef FALSE
	#define FALSE (0)
	#endif
	#ifndef TRUE
	#define TRUE (!FALSE)
	#endif

	static const char *rcs_version_id = "$Id$";

	/* ----------------------------------------------------------------------
	** Local functions
	**
	** do_match() - find the index of the file, if it's in the archive; return
	** TRUE if found, else FALSE
	**/
	static int do_match( MWLib lib, const char file, int *idx );

	static int do_match( MWLib lib, const char file, int *idx )
	{
	int which = 0;
	char *name_ptr;

	ASSERT( lib != NULL );
	ASSERT( file != NULL );
	ASSERT( idx != NULL );

	/* Skip over the path, if any, so we can compare just the file name.
	*/
	name_ptr = strrchr( file, '/' );
	if( name_ptr == NULL ) {
	name_ptr = (char *)file;
	} else {
	name_ptr++;
	}

	for( which = 0; which < lib->header.num_objects; which++ ) {
	if( !strcmp( name_ptr, lib->names[which] ) ) {
	*idx = which;
	return TRUE;
	}
	}

	return FALSE;
	}

	/* ----------------------------------------------------------------------
	** Delete an archive member.
	**
	** This isn't really optimal; you could make a more efficient version
	** using a linked list instead of arrays for the data. This was easier
	** to write, and speed shouldn't be that big a deal here... you're not
	** likely to be dealing with thousands of files.
	*/
	static status_t delete_lib_entry( MWLib *lib, int idx, int verbose );

	status_t do_delete( const char archive_name, char *files, int verbose )
	{
	status_t retval = B_OK;
	MWLib lib;
	int idx = 0;
	int which = 0;

	ASSERT( archive_name != NULL );

	if( files == NULL ) {
	fprintf( stderr, "ar: %s, nothing to do\n", archive_name );
	return B_ERROR;
	}

	retval = load_MW_lib( &lib, archive_name );
	if( retval != B_OK ) {
	switch( retval ) {
	case B_FILE_NOT_FOUND:
	fprintf( stderr, "ar: %s, file not found\n", archive_name );
	return retval;
	break;

	default:
	return retval;
	break;
	}
	}

	/* Delete the specified files.
	*/
	for( idx = 0; files[idx] != NULL; idx++ ) {
	if( do_match( &lib, files[idx], &which ) ) {
	retval = delete_lib_entry( &lib, which, verbose );
	}
	which = 0;
	}

	/* Write the new file.
	*/
	retval = write_MW_lib( &lib, archive_name );

	return retval;
	}

	static status_t delete_lib_entry( MWLib *lib, int which, int verbose )
	{
	uint32 new_num;
	MWLibFile *new_files = NULL;
	char **new_names = NULL;
	char **new_data = NULL;
	int ctr = 0;
	int idx = 0;

	ASSERT( lib != NULL );
	ASSERT( which <= lib->header.num_objects );

	new_num = lib->header.num_objects - 1;

	new_files = (MWLibFile )malloc( new_num ( sizeof( MWLibFile ) ) );
	new_names = (char *)malloc( new_num ( sizeof( char * ) ) );
	new_data = (char *)malloc( new_num ( sizeof( char * ) ) );
	if( new_files == NULL \|\| new_names == NULL \|\| new_data == NULL ) {
	return B_NO_MEMORY;
	}

	/* Copy the contents of the old lib to the new lib, skipping the one
	** we want to delete.
	*/
	for( ctr = 0; ctr < lib->header.num_objects; ctr++ ) {
	if( ctr != which ) {
	memcpy( &(new_files[idx]), &(lib->files[ctr]),
	sizeof( MWLibFile ) );
	new_names[idx] = lib->names[ctr];
	new_data[idx] = lib->data[ctr];

	idx++;
	} else {
	/* Free up the name and data.
	*/
	if( verbose ) {
	printf( "d - %s\n", lib->names[ctr] );
	}

	free( lib->names[idx] );
	lib->names[idx] = NULL;
	free( lib->data[idx] );
	lib->data[idx] = NULL;
	}
	}

	/* Free up the old lib's data.
	*/
	free( lib->files );
	free( lib->names );
	free( lib->data );

	lib->files = new_files;
	lib->names = new_names;
	lib->data = new_data;

	lib->header.num_objects = new_num;

	return B_OK;
	}

	/* ----------------------------------------------------------------------
	** Print an archive member to stdout.
	*/
	static status_t print_lib_entry( MWLib *lib, int idx, int verbose );

	status_t do_print( const char archive_name, char *files, int verbose )
	{
	status_t retval = B_OK;
	MWLib lib;
	int idx = 0;

	ASSERT( archive_name != NULL );

	retval = load_MW_lib( &lib, archive_name );
	if( retval != B_OK ) {
	switch( retval ) {
	case B_FILE_NOT_FOUND:
	fprintf( stderr, "ar: %s, file not found\n", archive_name );
	return retval;
	break;

	default:
	return retval;
	break;
	}
	}

	if( files == NULL ) {
	/* Then we print the entire archive.
	*/
	for( idx = 0; idx < lib.header.num_objects; idx++ ) {
	retval = print_lib_entry( &lib, idx, verbose );
	}
	} else {
	/* Then we print the specified files.
	*/
	int which = 0;

	for( idx = 0; files[idx] != NULL; idx++ ) {
	if( do_match( &lib, files[idx], &which ) ) {
	retval = print_lib_entry( &lib, which, verbose );
	}
	which = 0;
	}
	}

	return retval;
	}

	static status_t print_lib_entry( MWLib *lib, int idx, int verbose )
	{
	int recs;

	ASSERT( lib != NULL );

	if( verbose ) {
	printf( "\n<%s>\n\n", lib->names[idx] );
	}

	recs = fwrite( lib->data[idx], lib->files[idx].object_size, 1, stdout );
	fflush( stdout );
	if( recs != 1 ) {
	fprintf( stderr, "error printing %s, %s\n", lib->names[idx],
	strerror( errno ) );
	return B_OK;
	}

	return B_OK;
	}

	/* ----------------------------------------------------------------------
	** Add/replace/update files in an archive.
	*/
	static status_t add_lib_entry( MWLib lib, const char filename, int verbose );
	static status_t replace_lib_entry( MWLib lib, const char filename,
	int idx, int verbose );
	static status_t load_lib_file( const char *filename,
	char *data, MWLibFile info );

	static status_t load_lib_file( const char *filename,
	char *data, MWLibFile info )
	{
	status_t retval = B_OK;
	struct stat s;
	FILE *fp;
	uint32 recs;

	ASSERT( filename != NULL );
	ASSERT( info != NULL );

	/* Initialize the info area.
	*/
	info->m_time = (time_t)0; /* Only this... */
	info->off_filename = 0;
	info->off_fullpath = 0;
	info->off_object = 0;
	info->object_size = 0; /* ... and this will actually be updated. */

	/* stat() the file to get the info we need.
	*/
	retval = stat( filename, &s );
	if( retval != 0 ) {
	fprintf( stderr, "ar: can't stat %s, %s\n", filename,
	strerror( errno ) );
	return B_FILE_NOT_FOUND;
	}

	/* Possible errors here; if you have an object that's larger
	** than a size_t can hold (malloc() can only allocate a size_t size,
	** not a full off_t)...
	*/
	if( s.st_size > (off_t)ULONG_MAX ) {
	fprintf( stderr, "ar: %s is too large!\n", filename );
	return B_NO_MEMORY;
	}

	/* Allocate enough memory to hold the file data.
	*/
	data = (char )malloc( (size_t)s.st_size );
	if( *data == NULL ) {
	fprintf( stderr, "ar: can't allocate memory for %s\n", filename );
	return B_NO_MEMORY;
	}

	/* Read the file's data.
	*/
	fp = fopen( filename, "r" );
	if( fp == NULL ) {
	fprintf( stderr, "ar: can't open %s, %s\n", filename,
	strerror( errno ) );
	retval = B_FILE_NOT_FOUND;
	goto free_data_return;
	}

	recs = fread( *data, (size_t)s.st_size, 1, fp );
	if( recs != 1 ) {
	fprintf( stderr, "ar: can't read %s, %s\n", filename,
	strerror( errno ) );
	retval = B_IO_ERROR;
	goto close_fp_return;
	}

	fclose( fp );

	/* Now that all the stuff that can fail has succeeded, fill in the info
	** we need.
	*/
	info->m_time = s.st_mtime;
	info->object_size = (uint32)s.st_size;

	return B_OK;

	/* How we should return if an error occurred.
	*/
	close_fp_return:
	fclose( fp );

	free_data_return:
	free( *data );
	*data = NULL;

	return retval;
	}

	status_t do_replace( const char archive_name, char *files, int verbose,
	int create, int update )
	{
	status_t retval = B_OK;
	MWLib lib;
	int idx = 0;
	int which = 0;

	ASSERT( archive_name != NULL );

	memset( &lib, 0, sizeof( MWLib ) );

	if( files == NULL ) {
	fprintf( stderr, "ar: %s, nothing to do\n", archive_name );
	return B_ERROR;
	}

	retval = load_MW_lib( &lib, archive_name );
	if( retval != B_OK ) {
	switch( retval ) {
	case B_FILE_NOT_FOUND:
	lib.header.magicword = 'MWOB';
	lib.header.magicproc = 'PPC ';
	lib.header.magicflags = 0;
	lib.header.version = 1;

	if( lib.files != NULL ) {
	free( lib.files );
	lib.files = NULL;
	}

	if( lib.names != NULL ) {
	free( lib.names );
	lib.names = NULL;
	}

	if( lib.data != NULL ) {
	lib.data = NULL;
	}

	if( !create ) {
	fprintf( stderr, "ar: creating %s\n", archive_name );
	}

	if( update ) {
	fprintf( stderr, "ar: nothing to do for %s\n", archive_name );
	return retval;
	}
	break;

	default:
	return retval;
	break;
	}
	}

	for( idx = 0; files[idx] != NULL; idx++ ) {
	if( do_match( &lib, files[idx], &which ) ) {
	/* Then the file exists, and we need to replace it or update it.
	*/
	if( update ) {
	/* Compare m_times
	** then replace this entry
	*/
	struct stat s;

	retval = stat( files[idx], &s );
	if( retval != 0 ) {
	fprintf( stderr, "ar: can't stat %s, %s\n", files[idx],
	strerror( errno ) );
	}

	if( s.st_mtime >= lib.files[which].m_time ) {
	retval = replace_lib_entry( &lib, files[idx], which,
	verbose );
	} else {
	fprintf( stderr, "ar: a newer %s is already in %s\n",
	files[idx], archive_name );
	}
	} else {
	/* replace this entry
	*/
	retval = replace_lib_entry( &lib, files[idx], which, verbose );
	}
	} else {
	/* add this entry
	*/
	retval = add_lib_entry( &lib, files[idx], verbose );
	}
	}

	/* Write the new file.
	*/
	retval = write_MW_lib( &lib, archive_name );

	return retval;
	}

	static status_t add_lib_entry( MWLib lib, const char filename, int verbose )
	{
	status_t retval = B_OK;
	uint32 new_num_objects;
	uint32 idx;

	ASSERT( lib != NULL );
	ASSERT( filename != NULL );

	/* Find out how many objects we'll have after we add this one.
	*/
	new_num_objects = lib->header.num_objects + 1;
	idx = lib->header.num_objects;

	/* Attempt to reallocate the MWLib's buffers. If one of these fails,
	** we could leak a little memory, but it shouldn't be a big deal in
	** a short-lived app like this.
	*/
	lib->files = (MWLibFile *)realloc( lib->files,
	sizeof(MWLibFile) * new_num_objects );
	lib->names = (char **)realloc( lib->names,
	sizeof(char ) new_num_objects );
	lib->data = (char **)realloc( lib->data,
	sizeof(char ) new_num_objects );
	if( lib->files == NULL \|\| lib->names == NULL \|\| lib->data == NULL ) {
	fprintf( stderr, "ar: can't allocate memory to add %s\n", filename );
	return B_NO_MEMORY;
	}

	/* Load the file's data and info into the MWLib structure.
	*/
	retval = load_lib_file( filename, &(lib->data[idx]), &(lib->files[idx]) );
	if( retval != B_OK ) {
	fprintf( stderr, "ar: error adding %s, %s\n", filename,
	strerror( errno ) );

	return retval;
	}

	/* Save a copy of the filename. This is where we leak
	** sizeof(MWLibFile) + 2 * sizeof(char *) bytes because we don't
	** shrink lib->files, lib->names, and lib->data.
	*/
	lib->names[idx] = strdup( filename );
	if( lib->names == NULL ) {
	fprintf( stderr, "ar: error allocating memory for filename\n" );

	return B_NO_MEMORY;
	}

	/* Now that everything's OK, we can update the MWLib header.
	*/
	lib->header.num_objects++;

	/* Give a little feedback.
	*/
	if( verbose ) {
	printf( "a - %s\n", filename );
	}

	return B_OK;
	}

	static status_t replace_lib_entry( MWLib lib, const char filename,
	int idx, int verbose )
	{
	char *buff;
	MWLibFile info;
	char *dup_name;

	status_t retval = B_OK;

	ASSERT( lib != NULL );
	ASSERT( filename != NULL );
	ASSERT( idx <= lib->header.num_objects );

	/* Load the file's data and info into the MWLib structure.
	**
	** We'll do it safely so we don't end up writing a bogus library in
	** the event of failure.
	*/
	retval = load_lib_file( filename, &buff, &info );
	if( retval != B_OK ) {
	fprintf( stderr, "ar: error adding %s, %s\n", filename,
	strerror( errno ) );

	return retval;
	}

	/* Attempt to allocate memory for a duplicate of the file name.
	*/
	dup_name = strdup( filename );
	if( dup_name == NULL ) {
	fprintf( stderr, "ar: unable to allocate memory for filename\n",
	filename );

	free( buff );

	return B_NO_MEMORY;
	}

	/* All is well, so let's update the MWLib object appropriately.
	*/
	lib->files[idx].m_time = info.m_time;
	lib->files[idx].off_filename = 0;
	lib->files[idx].off_fullpath = 0;
	lib->files[idx].off_object = 0;
	lib->files[idx].object_size = info.object_size;

	lib->data[idx] = buff;

	free( lib->names[idx] );
	lib->names[idx] = dup_name;

	/* Give a little feedback.
	*/
	if( verbose ) {
	printf( "r - %s\n", filename );
	}

	return B_OK;
	}

	/* ----------------------------------------------------------------------
	** Print the table for an archive.
	*/
	static status_t table_lib_entry( MWLib *lib, int idx, int verbose );

	status_t do_table( const char archive_name, char *files, int verbose )
	{
	status_t retval = B_OK;
	MWLib lib;
	int idx = 0;

	ASSERT( archive_name != NULL );

	retval = load_MW_lib( &lib, archive_name );
	if( retval != B_OK ) {
	switch( retval ) {
	case B_FILE_NOT_FOUND:
	fprintf( stderr, "ar: %s, file not found\n", archive_name );
	return retval;
	break;

	default:
	return retval;
	break;
	}
	}

	if( files == NULL ) {
	/* Then we print the table for the entire archive.
	*/
	for( idx = 0; idx < lib.header.num_objects; idx++ ) {
	retval = table_lib_entry( &lib, idx, verbose );
	}
	} else {
	/* Then we print the table for the specified files.
	*/
	int which = 0;

	for( idx = 0; files[idx] != NULL; idx++ ) {
	if( do_match( &lib, files[idx], &which ) ) {
	retval = table_lib_entry( &lib, which, verbose );
	}
	which = 0;
	}
	}

	return retval;
	}

	static status_t table_lib_entry( MWLib *lib, int idx, int verbose )
	{
	struct tm *t;
	char month_buff[4];

	ASSERT( lib != NULL );

	if( verbose ) {
	t = localtime( &(lib->files[idx].m_time) );
	if( t == NULL ) {
	fprintf( stderr, "localtime() failed, %s\n",
	strerror( errno ) );
	return B_OK;
	}

	if( strftime( month_buff, sizeof( month_buff ),
	"%b", t ) == 0 ) {
	/* TODO: error message */
	fprintf( stderr, "strftime() failed, %s\n",
	strerror( errno ) );
	return B_OK;
	}

	/* I wish POSIX allowed for a nicer format; even using tabs
	* between some entries would be better.
	*/
	printf( "%s %u/%u %u %s %d %d:%d %d %s\n",
	"-rw-r--r--", /* simulated mode */
	getuid(), getgid(), /* simulated uid & gid */
	lib->files[idx].object_size,
	month_buff, /* abbreviated month */
	t->tm_mon, /* day of month */
	t->tm_hour, /* hour */
	t->tm_min, /* minute */
	t->tm_year, /* year */
	lib->names[idx] );
	} else {
	printf( "%s\n", lib->names[idx] );
	}

	return B_OK;
	}

	/* ----------------------------------------------------------------------
	** Extract one or more files from the archive.
	*/
	static status_t extract_lib_entry( MWLib *lib, int idx, int verbose );

	status_t do_extract( const char archive_name, char *files, int verbose )
	{
	status_t retval = B_OK;
	MWLib lib;
	int idx = 0;

	ASSERT( archive_name != NULL );

	retval = load_MW_lib( &lib, archive_name );
	if( retval != B_OK ) {
	switch( retval ) {
	case B_FILE_NOT_FOUND:
	fprintf( stderr, "ar: %s, file not found\n", archive_name );
	return retval;
	break;

	default:
	return retval;
	break;
	}
	}

	if( files == NULL ) {
	/* Then we extract all the files.
	*/
	for( idx = 0; idx < lib.header.num_objects; idx++ ) {
	retval = extract_lib_entry( &lib, idx, verbose );
	}
	} else {
	/* Then we extract the specified files.
	*/
	int which = 0;

	for( idx = 0; files[idx] != NULL; idx++ ) {
	if( do_match( &lib, files[idx], &which ) ) {
	retval = extract_lib_entry( &lib, which, verbose );
	}
	which = 0;
	}
	}

	return retval;
	}

	static status_t extract_lib_entry( MWLib *lib, int idx, int verbose )
	{
	FILE *fp;
	int recs;
	status_t retval = B_OK;
	struct stat s;
	mode_t mode_bits = 0666; /* TODO: use user's umask() instead */

	ASSERT( lib != NULL );

	/* Delete the file if it already exists.
	*/
	retval = access( lib->names[idx], F_OK );
	if( retval == 0 ) {
	retval = stat( lib->names[idx], &s );
	if( retval != 0 ) {
	fprintf( stderr, "ar: can't stat %s, %s\n", lib->names[idx],
	strerror( errno ) );
	} else {
	mode_bits = s.st_mode;
	}
	retval = unlink( lib->names[idx] );
	if( retval != 0 ) {
	fprintf( stderr, "ar: can't unlink %s, %s\n", lib->names[idx],
	strerror( retval ) );
	return B_OK;
	}
	}

	/* Write the file.
	*/
	if( verbose ) {
	printf( "x - %s\n", lib->names[idx] );
	}

	fp = fopen( lib->names[idx], "w" );
	if( fp == NULL ) {
	fprintf( stderr, "ar: can't open %s for write, %s\n", lib->names[idx],
	strerror( errno ) );
	return B_OK;
	}

	recs = fwrite( lib->data[idx], lib->files[idx].object_size, 1, fp );
	if( recs != 1 ) {
	fprintf( stderr, "error writing %s, %s\n", lib->names[idx],
	strerror( errno ) );
	}

	retval = fclose( fp );

	/* Set the newly extracted file's modification time to the time
	** stored in the archive.
	*/
	retval = stat( lib->names[idx], &s );
	if( retval != 0 ) {
	fprintf( stderr, "ar: can't stat %s, %s\n", lib->names[idx],
	strerror( errno ) );
	} else {
	struct utimbuf new_times;

	new_times.actime = s.st_atime;
	new_times.modtime = lib->files[idx].m_time;

	retval = utime( lib->names[idx], &new_times );
	if( retval != 0 ) {
	fprintf( stderr, "ar: can't set modification time for %s, %s\n",
	lib->names[idx], strerror( retval ) );
	}
	}

	/* Set the newly extracted file's mode.
	*/
	retval = chmod( lib->names[idx], mode_bits );
	if( retval != 0 ) {
	fprintf( stderr, "ar: unable to change file mode for %s, %s\n",
	lib->names[idx], strerror( errno ) );
	}

	/* Set the newly extracted file's type.
	*/
	setfiletype( lib->names[idx], "application/x-mw-library" );

	return B_OK;
	}