def main(bus=None, device_address=None): context = usb1.LibUSBContext() for md in libnetmd.iterdevices(context, bus=bus, device_address=device_address): md_iface = libnetmd.NetMDInterface(md) md_iface.eraseDisc()
def main(bus=None, device_address=None, track_range=None): context = usb1.LibUSBContext() for md in libnetmd.iterdevices(context, bus=bus, device_address=device_address): md_iface = libnetmd.NetMDInterface(md) MDDump(md_iface, track_range)
def download(filename,title,wireformat=libnetmd.WIREFORMAT_PCM,bus=None,device_address=None): print "Download request received for file %s and title %s" % (filename,title) context = usb1.LibUSBContext() for md in libnetmd.iterdevices(context, bus=bus, device_address=device_address): md_iface = libnetmd.NetMDInterface(md) mdtrack = MDTrack(filename,title,wireformat) DownloadHack(md_iface,mdtrack)
def main(bus=None, device_address=None, ext='ogg', track_range=None, title=None): context = usb1.LibUSBContext() for md in libnetmd.iterdevices(context, bus=bus, device_address=device_address): md_iface = libnetmd.NetMDInterface(md) try: MDDump(md_iface, ext, track_range, title) finally: md_iface.stop()
def main(bus=None, device_address=None, ext='wav', track_range=None, title=None): context = usb1.LibUSBContext() try: for md in libnetmd.iterdevices(context, bus=bus, device_address=device_address): md_iface = libnetmd.NetMDInterface(md) try: MDDump(md_iface, ext, track_range, title) finally: md_iface.stop() except IOError: print 'no MD-- connect a NetMD Device' return finally: return
def listMD(md, show_uuids): md_iface = libnetmd.NetMDInterface(md) codec_name_dict = { libnetmd.ENCODING_SP: 'sp', libnetmd.ENCODING_LP2: 'lp2', libnetmd.ENCODING_LP4: 'lp4', } channel_count_dict = { libnetmd.CHANNELS_MONO: 'mono', libnetmd.CHANNELS_STEREO: 'stereo', } flag_dict = { libnetmd.TRACK_FLAG_PROTECTED: 'protected', 0: 'unprotected', } def reprDiscFlags(flags): result = [] if flags & libnetmd.DISC_FLAG_WRITABLE: result.append('writable media') if flags & libnetmd.DISC_FLAG_WRITE_PROTECTED: result.append('write-protected') return result def timeToFrames(time_tuple): assert len(time_tuple) == 4 return (((time_tuple[0] * 60) + time_tuple[1]) * 60 + time_tuple[2]) \ * 512 + time_tuple[3] flags = reprDiscFlags(md_iface.getDiscFlags()) print 'Disk (%s) %s %s' % (', '.join(flags), md_iface.getDiscTitle( ), md_iface.getDiscTitle(True).decode('shift_jis_2004')) disc_used, disc_total, disc_left = md_iface.getDiscCapacity() disc_total = timeToFrames(disc_total) disc_left = timeToFrames(disc_left) print 'Time used: %02i:%02i:%02i+%03i (%.02f%%)' % ( disc_used[0], disc_used[1], disc_used[2], disc_used[3], (disc_total - disc_left) / float(disc_total) * 100) track_count = md_iface.getTrackCount() print '%i tracks' % (track_count, ) for group, (group_name, track_list) in enumerate(md_iface.getTrackGroupList()): if group_name is None: prefix = '' else: prefix = ' ' print 'Group %r' % (group_name or group + 1, ) for track, real_track in enumerate(track_list): hour, minute, second, sample = md_iface.getTrackLength(real_track) codec, channel_count = md_iface.getTrackEncoding(real_track) flags = md_iface.getTrackFlags(real_track) print '%s%03i: %02i:%02i:%02i+%03i %s %s %s %s %s' % ( prefix, track, hour, minute, second, sample, codec_name_dict[codec], channel_count_dict[channel_count], flag_dict[flags], md_iface.getTrackTitle(real_track), md_iface.getTrackTitle(real_track, True).decode('shift_jis_2004')) if show_uuids: uuid = md_iface.getTrackUUID(real_track) print '%s UUID:' % prefix, ''.join( ["%02x" % ord(i) for i in uuid])
def MDctl(md): md_iface = libnetmd.NetMDInterface(md) import pdb pdb.set_trace()