#!/usr/bin/env python """ UC1541 Virtual filesystem Author: Roman 'gryf' Dobosz Date: 2019-09-20 Version: 3.3 Licence: BSD source: https://bitbucket.org/gryf/uc1541 mirror: https://github.com/gryf/uc1541 """ import sys import re import os import gzip from subprocess import Popen, PIPE if os.getenv('UC1541_DEBUG'): import logging LOG = logging.getLogger('UC1541') LOG.setLevel(logging.DEBUG) FILE_HANDLER = logging.FileHandler("/tmp/uc1541.log") FILE_FORMATTER = logging.Formatter("%(asctime)s %(levelname)-8s " "%(lineno)s %(funcName)s - %(message)s") FILE_HANDLER.setFormatter(FILE_FORMATTER) FILE_HANDLER.setLevel(logging.DEBUG) LOG.addHandler(FILE_HANDLER) else: class LOG(object): """ Dummy logger object. Does nothing. """ @classmethod def debug(*args, **kwargs): pass @classmethod def info(*args, **kwargs): pass @classmethod def warning(*args, **kwargs): pass @classmethod def error(*args, **kwargs): pass @classmethod def critical(*args, **kwargs): pass SECLEN = 256 def _ord(string_or_int): """ Return an int value for the (possible) string passed in argument. This function is for compatibility between python2 and python3, where single element in byte string array is a string or an int respectively. """ try: return ord(string_or_int) except TypeError: return string_or_int def _get_raw(dimage): """ Try to get contents of the D64 image either it's gzip compressed or not. """ raw = None with gzip.open(dimage, 'rb') as fobj: # Although the common approach with gzipped files is to check the # magic number, in this case there is no guarantee that first track # does not contain exactly the same byte sequence as the magic number. # So the only way left is to actually try to uncompress the file. try: raw = fobj.read() except (IOError, OSError): pass if not raw: with open(dimage, 'rb') as fobj: raw = fobj.read() return raw def _get_implementation(disk): """ Check the file under fname and return right class for creating an object corresponding for the file """ len_map = {822400: D81, # 80 tracks 819200: D81, # 80 tracks, 3200 error bytes 349696: D71, # 70 tracks 351062: D71, # 70 tracks, 1366 error bytes 174848: D64, # usual d64 disc image, 35 tracks, no errors 175531: D64, # 35 track, 683 error bytes 196608: D64, # 40 track, no errors 197376: D64} # 40 track, 768 error bytes if disk[:32].startswith(b'C64'): return # T64 return len_map.get(len(disk))(disk) class Disk(object): """ Represent common disk interface """ CHAR_MAP = {32: ' ', 33: '!', 34: '"', 35: '#', 37: '%', 38: '&', 39: "'", 40: '(', 41: ')', 42: '*', 43: '+', 44: ',', 45: '-', 46: '.', 47: '/', 48: '0', 49: '1', 50: '2', 51: '3', 52: '4', 53: '5', 54: '6', 55: '7', 56: '8', 57: '9', 59: ';', 60: '<', 61: '=', 62: '>', 63: '?', 64: '@', 65: 'a', 66: 'b', 67: 'c', 68: 'd', 69: 'e', 70: 'f', 71: 'g', 72: 'h', 73: 'i', 74: 'j', 75: 'k', 76: 'l', 77: 'm', 78: 'n', 79: 'o', 80: 'p', 81: 'q', 82: 'r', 83: 's', 84: 't', 85: 'u', 86: 'v', 87: 'w', 88: 'x', 89: 'y', 90: 'z', 91: '[', 93: ']', 97: 'A', 98: 'B', 99: 'C', 100: 'D', 101: 'E', 102: 'F', 103: 'G', 104: 'H', 105: 'I', 106: 'J', 107: 'K', 108: 'L', 109: 'M', 110: 'N', 111: 'O', 112: 'P', 113: 'Q', 114: 'R', 115: 'S', 116: 'T', 117: 'U', 118: 'V', 119: 'W', 120: 'X', 121: 'Y', 122: 'Z', 193: 'A', 194: 'B', 195: 'C', 196: 'D', 197: 'E', 198: 'F', 199: 'G', 200: 'H', 201: 'I', 202: 'J', 203: 'K', 204: 'L', 205: 'M', 206: 'N', 207: 'O', 208: 'P', 209: 'Q', 210: 'R', 211: 'S', 212: 'T', 213: 'U', 214: 'V', 215: 'W', 216: 'X', 217: 'Y', 218: 'Z'} FILE_TYPES = {0b000: 'del', 0b001: 'seq', 0b010: 'prg', 0b011: 'usr', 0b100: 'rel'} DIR_TRACK = 18 DIR_SECTOR = 1 def __init__(self, raw): """ Init """ self.raw = raw self.current_sector_data = None self.next_sector = 0 self.next_track = None self._dir_contents = [] self._already_done = [] def _map_filename(self, string): """ Transcode filename to ASCII compatible. Replace not supported characters with jokers. """ filename = list() for chr_ in string: if _ord(chr_) == 160: # shift+space character; $a0 break character = D64.CHAR_MAP.get(_ord(chr_), '?') filename.append(character) # special cases if filename[0] == "-": filename[0] = "?" LOG.debug("string: ``%s'' mapped to: ``%s''", string, "".join(filename)) return "".join(filename) def _go_to_next_sector(self): """ Fetch (if exist) next sector from a directory chain Return False if the chain ends, True otherwise """ # Well, self.next_sector _should_ have value $FF, but apparently there # are the cases where it is not, therefore checking for that will not # be performed and value of $00 on the next track will end the # directory if self.next_track == 0: LOG.debug("End of directory") return False if self.next_track is None: LOG.debug("Going to the track: %s, %s", self.DIR_TRACK, self.DIR_SECTOR) offset = self._get_offset(self.DIR_TRACK, self.DIR_SECTOR) else: offset = self._get_offset(self.next_track, self.next_sector) LOG.debug("Going to the track: %s,%s", self.next_track, self.next_sector) self.current_sector_data = self.raw[offset:offset + SECLEN] # Guard for reading data out of bound - that happened for discs which # store only raw data, even on directory track if not self.current_sector_data: return False self.next_track = _ord(self.current_sector_data[0]) self.next_sector = _ord(self.current_sector_data[1]) if (self.next_track, self.next_sector) in self._already_done: # Just a failsafe. Endless loop is not what is expected. LOG.debug("Loop in track/sector pointer at %d,%d", self.next_track, self.next_sector) self._already_done = [] return False self._already_done.append((self.next_track, self.next_sector)) LOG.debug("Next track: %s,%s", self.next_track, self.next_sector) return True def _get_ftype(self, num): """ Get filetype as a string """ return D64.FILE_TYPES.get(int("%d%d%d" % (num & 4 and 1, num & 2 and 1, num & 1), 2), '???') def _get_offset(self, track, sector): """ Return offset (in bytes) for specified track and sector. """ return 0 def _harvest_entries(self): """ Traverse through sectors and store entries in _dir_contents """ sector = self.current_sector_data for dummy in range(8): entry = sector[:32] ftype = _ord(entry[2]) if ftype == 0: # deleted sector = sector[32:] continue type_verbose = self._get_ftype(ftype) protect = _ord(entry[2]) & 64 and "<" or " " fname = entry[5:21] if ftype == 'rel': size = _ord(entry[23]) else: size = _ord(entry[30]) + _ord(entry[31]) * 226 self._dir_contents.append({'fname': self._map_filename(fname), 'ftype': type_verbose, 'size': size, 'protect': protect}) sector = sector[32:] def list_dir(self): """ Return directory list as list of dict with keys: fname, ftype, protect and size """ while self._go_to_next_sector(): self._harvest_entries() return self._dir_contents class D64(Disk): """ Implement d64 directory reader """ def _get_offset(self, track, sector): """ Return offset (in bytes) for specified track and sector. Track Sectors/track # Tracks ----- ------------- --------- 1-17 21 17 18-24 19 7 25-30 18 6 31-40 17 10 """ offset = 0 truncate_track = 0 if track > 17: offset = 17 * 21 * SECLEN truncate_track = 17 if track > 24: offset += 7 * 19 * SECLEN truncate_track = 24 if track > 30: offset += 6 * 18 * SECLEN truncate_track = 30 track = track - truncate_track offset += track * sector * SECLEN return offset class D71(Disk): """ Implement d71 directory reader """ def _get_offset(self, track, sector): """ Return offset (in bytes) for specified track and sector. Track Sec/trk # Tracks -------------- ------- --------- 1-17 (side 0) 21 17 18-24 (side 0) 19 7 25-30 (side 0) 18 6 31-35 (side 0) 17 5 36-52 (side 1) 21 17 53-59 (side 1) 19 7 60-65 (side 1) 18 6 66-70 (side 1) 17 5 """ offset = 0 truncate_track = 0 if track > 17: offset = 17 * 21 * SECLEN truncate_track = 17 if track > 24: offset += 7 * 19 * SECLEN truncate_track = 24 if track > 30: offset += 6 * 18 * SECLEN truncate_track = 30 if track > 35: offset += 5 * 17 * SECLEN truncate_track = 35 if track > 52: offset = 17 * 21 * SECLEN truncate_track = 17 if track > 59: offset += 7 * 19 * SECLEN truncate_track = 24 if track > 65: offset += 6 * 18 * SECLEN truncate_track = 30 track = track - truncate_track offset += track * sector * SECLEN return offset class D81(Disk): """ Implement d81 directory reader """ DIR_TRACK = 40 DIR_SECTOR = 3 FILE_TYPES = {0b000: 'del', 0b001: 'seq', 0b010: 'prg', 0b011: 'usr', 0b100: 'rel', 0b101: 'cbm'} def _get_offset(self, track, sector): """ Return offset (in bytes) for specified track and sector. In d81 is easy, since we have 80 tracks with 40 sectors for 256 bytes each. """ # we wan to go to the beginning (first sector) of the track, not it's # max, so that we need to extract its amount. return (track * 40 - 40) * SECLEN + sector * SECLEN class Uc1541(object): """ Class for interact with c1541 program and MC """ PRG = re.compile(r'(\d+)\s+"([^"]*)".+?\s(del|prg|rel|seq|usr)([\s<])') def __init__(self, archname): self.arch = archname self.out = '' self.err = '' self._verbose = os.getenv("UC1541_VERBOSE", False) self._hide_del = os.getenv("UC1541_HIDE_DEL", False) self.dirlist = _get_implementation(_get_raw(archname)).list_dir() self.file_map = {} self.directory = [] def list(self): """ Output list contents of D64 image. Convert filenames to be Unix filesystem friendly Add suffix to show user what kind of file do he dealing with. """ LOG.info("List contents of %s", self.arch) directory = self._get_dir() # If there is an error reading directory, show the reason to the user if self.out.startswith("Error"): sys.stderr.write(self.out.split("\n")[0] + "\n") return 2 for entry in directory: sys.stdout.write("%(perms)s 1 %(uid)-8d %(gid)-8d %(size)8d " "Jan 01 1980 %(display_name)s\n" % entry) return 0 def rm(self, dst): """ Remove file from D64 image """ LOG.info("Removing file %s", dst) dst = self._get_masked_fname(dst) if not self._call_command('delete', dst=dst): return self._show_error() return 0 def copyin(self, dst, src): """ Copy file to the D64 image. Destination filename has to be corrected. """ LOG.info("Copy into D64 %s as %s", src, dst) dst = self._correct_fname(dst) if not self._call_command('write', src=src, dst=dst): return self._show_error() return 0 def copyout(self, src, dst): """ Copy file form the D64 image. Source filename has to be corrected, since it's representation differ from the real one inside D64 image. """ LOG.info("Copy form D64 %s as %s", src, dst) if not src.endswith(".prg"): return "cannot read" src = self._get_masked_fname(src) if not self._call_command('read', src=src, dst=dst): return self._show_error() return 0 def mkdir(self, dirname): """Not supported""" self.err = "D64 format doesn't support directories" return self._show_error() def run(self, fname): """Not supported""" self.err = "Not supported, unless you are using MC on real C64 ;)" return self._show_error() def _correct_fname(self, fname): """ Return filename with mapped characters, without .prg extension. Characters like $, *, + in filenames are perfectly legal, but c1541 program seem to have issues with it while writing, so it will also be replaced. """ char_map = {'|': "/", "\\": "/", "~": " ", "$": "?", "*": "?"} if fname.lower().endswith(".prg"): fname = fname[:-4] new_fname = [] for char in fname: trans = char_map.get(char) new_fname.append(trans if trans else char) return "".join(new_fname) def _get_masked_fname(self, fname): """ Return masked filename with '?' jokers instead of non ASCII characters, useful for copying or deleting files with c1541. In case of several files with same name exists in directory, only first one will be operative (first as appeared in directory). Warning! If there are two different names but the only difference is in non-ASCII characters (some PET ASCII or control characters) there is a risk that one can remove both files. """ directory = self._get_dir() for entry in directory: if entry['display_name'] == fname: return entry['pattern_name'] def _get_dir(self): """ Retrieve directory via c1541 program """ directory = [] uid = os.getuid() gid = os.getgid() if not self._call_command('list'): return self._show_error() idx = 0 for line in self.out.split("\n"): if Uc1541.PRG.match(line): blocks, fname, ext, rw = Uc1541.PRG.match(line).groups() if ext == 'del' and self._hide_del: continue display_name = ".".join([fname, ext]) pattern_name = self.dirlist[idx]['fname'] if '/' in display_name: display_name = display_name.replace('/', '|') # workaround for space and dash at the beginning of the # filename char_map = {' ': '~', '-': '_'} display_name = "".join([char_map.get(display_name[0], display_name[0]), display_name[1:]]) if ext == 'del': perms = "----------" else: perms = "-r%s-r--r--" % (rw.strip() and "-" or "w") directory.append({'pattern_name': pattern_name, 'display_name': display_name, 'uid': uid, 'gid': gid, 'size': int(blocks) * SECLEN, 'perms': perms}) idx += 1 return directory def _show_error(self): """ Pass out error output from c1541 execution """ if self._verbose: return self.err else: return 1 def _call_command(self, cmd, src=None, dst=None): """ Return status of the provided command, which can be one of: write read delete dir/list """ command = ['c1541', '-attach', self.arch, '-%s' % cmd] if src: command.append(src) if dst: command.append(dst) LOG.debug('executing command: %s', ' '.join(command)) # For some reason using write and delete commands and reading output # confuses Python3 beneath MC and as a consequence MC report an # error...therefore for those commands let's not use # universal_newlines... universal_newlines = True if cmd in ['delete', 'write']: universal_newlines = False self.out, self.err = Popen(command, universal_newlines=universal_newlines, stdout=PIPE, stderr=PIPE).communicate() if self.err: LOG.debug('an err: %s', self.err) return not self.err CALL_MAP = {'list': lambda a: Uc1541(a.arch).list(), 'copyin': lambda a: Uc1541(a.arch).copyin(a.src, a.dst), 'copyout': lambda a: Uc1541(a.arch).copyout(a.src, a.dst), 'mkdir': lambda a: Uc1541(a.arch).mkdir(a.dst), 'rm': lambda a: Uc1541(a.arch).rm(a.dst), 'run': lambda a: Uc1541(a.arch).run(a.dst)} def parse_args(): """Use ArgumentParser to check for script arguments and execute.""" parser = ArgumentParser() subparsers = parser.add_subparsers(help='supported commands', dest='subcommand') subparsers.required = True parser_list = subparsers.add_parser('list', help="List contents of D64 " "image") parser_copyin = subparsers.add_parser('copyin', help="Copy file into D64 " "image") parser_copyout = subparsers.add_parser('copyout', help="Copy file out of " "D64 image") parser_rm = subparsers.add_parser('rm', help="Delete file from D64 image") parser_mkdir = subparsers.add_parser('mkdir', help="Create directory in " "archive") parser_run = subparsers.add_parser('run', help="Execute archived file") parser_list.add_argument('arch', help="D64 Image filename") parser_list.set_defaults(func=CALL_MAP['list']) parser_copyin.add_argument('arch', help="D64 Image filename") parser_copyin.add_argument('src', help="Source filename") parser_copyin.add_argument('dst', help="Destination filename (to be " "written into D64 image)") parser_copyin.set_defaults(func=CALL_MAP['copyin']) parser_copyout.add_argument('arch', help="D64 Image filename") parser_copyout.add_argument('src', help="Source filename (to be read from" " D64 image") parser_copyout.add_argument('dst', help="Destination filename") parser_copyout.set_defaults(func=CALL_MAP['copyout']) parser_rm.add_argument('arch', help="D64 Image filename") parser_rm.add_argument('dst', help="File inside D64 image to be deleted") parser_rm.set_defaults(func=CALL_MAP['rm']) parser_mkdir.add_argument('arch', help="archive filename") parser_mkdir.add_argument('dst', help="Directory name inside archive to " "be created") parser_mkdir.set_defaults(func=CALL_MAP['mkdir']) parser_run.add_argument('arch', help="archive filename") parser_run.add_argument('dst', help="File to be executed") parser_run.set_defaults(func=CALL_MAP['run']) args = parser.parse_args() return args.func(args) def no_parse(): """Failsafe argument "parsing". Note, that it blindly takes positional arguments without checking them. In case of wrong arguments it will silently exit""" try: if sys.argv[1] not in ('list', 'copyin', 'copyout', 'rm', 'mkdir', "run"): sys.exit(2) except IndexError: sys.exit(2) class Arg(object): """Mimic argparse object""" dst = None src = None arch = None arg = Arg() try: arg.arch = sys.argv[2] if sys.argv[1] in ('copyin', 'copyout'): arg.src = sys.argv[3] arg.dst = sys.argv[4] elif sys.argv[1] in ('rm', 'run', 'mkdir'): arg.dst = sys.argv[3] except IndexError: sys.exit(2) return CALL_MAP[sys.argv[1]](arg) if __name__ == "__main__": LOG.debug("Script params: %s", str(sys.argv)) try: from argparse import ArgumentParser PARSE_FUNC = parse_args except ImportError: PARSE_FUNC = no_parse sys.exit(PARSE_FUNC())