def do(self, args): try: url = args[0] except IndexError: self.stdout.write('Please specify an accuraterip URL.\n') return 3 cache = accurip.AccuCache() responses = cache.retrieve(url) count = responses[0].trackCount self.stdout.write("Found %d responses for %d tracks\n\n" % (len(responses), count)) for (i, r) in enumerate(responses): if r.trackCount != count: self.stdout.write( "Warning: response %d has %d tracks instead of %d\n" % (i, r.trackCount, count)) # checksum and confidence by track for track in range(count): self.stdout.write("Track %d:\n" % (track + 1)) checksums = {} for (i, r) in enumerate(responses): if r.trackCount != count: continue assert len(r.checksums) == r.trackCount assert len(r.confidences) == r.trackCount entry = {} entry["confidence"] = r.confidences[track] entry["response"] = i + 1 checksum = r.checksums[track] if checksum in checksums: checksums[checksum].append(entry) else: checksums[checksum] = [ entry, ] # now sort track results in checksum by highest confidence sortedChecksums = [] for checksum, entries in checksums.items(): highest = max(d['confidence'] for d in entries) sortedChecksums.append((highest, checksum)) sortedChecksums.sort() sortedChecksums.reverse() for highest, checksum in sortedChecksums: self.stdout.write(" %d result(s) for checksum %s: %s\n" % (len(checksums[checksum]), checksum, str(checksums[checksum])))
def do(self, args): prog = program.Program(self.getRootCommand().config) runner = task.SyncRunner() cache = accurip.AccuCache() for arg in args: arg = arg.decode('utf-8') cueImage = image.Image(arg) cueImage.setup(runner) url = cueImage.table.getAccurateRipURL() responses = cache.retrieve(url) # FIXME: this feels like we're poking at internals. prog.cuePath = arg prog.result = result.RipResult() for track in cueImage.table.tracks: tr = result.TrackResult() tr.number = track.number prog.result.tracks.append(tr) prog.verifyImage(runner, responses) print "\n".join(prog.getAccurateRipResults()) + "\n"
class Rip(_CD): summary = "rip CD" # see morituri.common.program.Program.getPath for expansion description = """ Rips a CD. %s Paths to track files referenced in .cue and .m3u files will be made relative to the directory of the disc files. All files will be created relative to the given output directory. Log files will log the path to tracks relative to this directory. """ % rcommon.TEMPLATE_DESCRIPTION def addOptions(self): _CD.addOptions(self) loggers = result.getLoggers().keys() self.parser.add_option('-L', '--logger', action="store", dest="logger", default='morituri', help="logger to use " "(default '%default', choose from '" + "', '".join(loggers) + "')") # FIXME: get from config self.parser.add_option( '-o', '--offset', action="store", dest="offset", help="sample read offset (defaults to configured value, or 0)") self.parser.add_option( '-x', '--force-overread', action="store_true", dest="overread", help="Force overreading into the lead-out portion of the disc. " "Works only if the patched cdparanoia package is installed " "and the drive supports this feature. " "The default value is: %default", default=False) self.parser.add_option( '-O', '--output-directory', action="store", dest="output_directory", help="output directory; will be included in file paths in result " "files " "(defaults to absolute path to current directory; set to " "empty if you want paths to be relative instead; " "configured value: %default) ") self.parser.add_option( '-W', '--working-directory', action="store", dest="working_directory", help="working directory; morituri will change to this directory " "and files will be created relative to it when not absolute " "(configured value: %default) ") rcommon.addTemplate(self) default = 'flac' # here to avoid import gst eating our options from morituri.common import encode self.parser.add_option( '', '--profile', action="store", dest="profile", help="profile for encoding (default '%%default', choices '%s')" % ("', '".join(encode.PROFILES.keys())), default=default) self.parser.add_option( '-U', '--unknown', action="store_true", dest="unknown", help="whether to continue ripping if the CD is unknown (%default)", default=False) def handleOptions(self, options): options.track_template = options.track_template.decode('utf-8') options.disc_template = options.disc_template.decode('utf-8') if options.offset is None: info = drive.getDeviceInfo(self.parentCommand.options.device) if info: try: options.offset = self.getRootCommand( ).config.getReadOffset(*info) self.stdout.write("Using configured read offset %d\n" % options.offset) except KeyError: pass if options.offset is None: raise ValueError("Drive offset is unconfigured.\n" "Please install pycdio and run 'rip offset " "find' to detect your drive's offset or set it " "manually in the configuration file. It can " "also be specified at runtime using the " "'--offset=value' argument") if self.options.output_directory is None: self.options.output_directory = os.getcwd() else: self.options.output_directory = os.path.expanduser( self.options.output_directory) if self.options.working_directory is not None: self.options.working_directory = os.path.expanduser( self.options.working_directory) if self.options.logger: try: klazz = result.getLoggers()[self.options.logger] except KeyError: self.stderr.write("No logger named %s found!\n" % (self.options.logger)) raise command.CommandError("No logger named %s" % self.options.logger) self.logger = klazz() def doCommand(self): # here to avoid import gst eating our options from morituri.common import encode profile = encode.PROFILES[self.options.profile]() self.program.result.profileName = profile.name self.program.result.profilePipeline = profile.pipeline elementFactory = profile.pipeline.split(' ')[0] self.program.result.gstreamerVersion = gstreamer.gstreamerVersion() self.program.result.gstPythonVersion = gstreamer.gstPythonVersion() self.program.result.encoderVersion = gstreamer.elementFactoryVersion( elementFactory) self.program.setWorkingDirectory(self.options.working_directory) self.program.outdir = self.options.output_directory.decode('utf-8') self.program.result.offset = int(self.options.offset) self.program.result.overread = self.options.overread self.program.result.logger = self.options.logger ### write disc files disambiguate = False while True: discName = self.program.getPath(self.program.outdir, self.options.disc_template, self.mbdiscid, 0, profile=profile, disambiguate=disambiguate) dirname = os.path.dirname(discName) if os.path.exists(dirname): self.stdout.write("Output directory %s already exists\n" % dirname.encode('utf-8')) logs = glob.glob(os.path.join(dirname, '*.log')) if logs: self.stdout.write( "Output directory %s is a finished rip\n" % dirname.encode('utf-8')) if not disambiguate: disambiguate = True continue return else: break else: self.stdout.write("Creating output directory %s\n" % dirname.encode('utf-8')) os.makedirs(dirname) break # FIXME: say when we're continuing a rip # FIXME: disambiguate if the pre-existing rip is different # FIXME: turn this into a method def ripIfNotRipped(number): self.debug('ripIfNotRipped for track %d' % number) # we can have a previous result trackResult = self.program.result.getTrackResult(number) if not trackResult: trackResult = result.TrackResult() self.program.result.tracks.append(trackResult) else: self.debug('ripIfNotRipped have trackresult, path %r' % trackResult.filename) path = self.program.getPath(self.program.outdir, self.options.track_template, self.mbdiscid, number, profile=profile, disambiguate=disambiguate) \ + '.' + profile.extension self.debug('ripIfNotRipped: path %r' % path) trackResult.number = number assert type(path) is unicode, "%r is not unicode" % path trackResult.filename = path if number > 0: trackResult.pregap = self.itable.tracks[number - 1].getPregap() # FIXME: optionally allow overriding reripping if os.path.exists(path): if path != trackResult.filename: # the path is different (different name/template ?) # but we can copy it self.debug('previous result %r, expected %r' % (trackResult.filename, path)) self.stdout.write('Verifying track %d of %d: %s\n' % (number, len(self.itable.tracks), os.path.basename(path).encode('utf-8'))) if not self.program.verifyTrack(self.runner, trackResult): self.stdout.write('Verification failed, reripping...\n') os.unlink(path) if not os.path.exists(path): self.debug('path %r does not exist, ripping...' % path) tries = 0 # we reset durations for test and copy here trackResult.testduration = 0.0 trackResult.copyduration = 0.0 extra = "" while tries < MAX_TRIES: tries += 1 if tries > 1: extra = " (try %d)" % tries self.stdout.write('Ripping track %d of %d%s: %s\n' % (number, len(self.itable.tracks), extra, os.path.basename(path).encode('utf-8'))) try: self.debug('ripIfNotRipped: track %d, try %d', number, tries) self.program.ripTrack( self.runner, trackResult, offset=int(self.options.offset), device=self.parentCommand.options.device, profile=profile, taglist=self.program.getTagList(number), overread=self.options.overread, what='track %d of %d%s' % (number, len(self.itable.tracks), extra)) break except Exception, e: self.debug('Got exception %r on try %d', e, tries) if tries == MAX_TRIES: self.error('Giving up on track %d after %d times' % (number, tries)) raise RuntimeError( "track can't be ripped. " "Rip attempts number is equal to 'MAX_TRIES'") if trackResult.testcrc == trackResult.copycrc: self.stdout.write('Checksums match for track %d\n' % number) else: self.stdout.write( 'ERROR: checksums did not match for track %d\n' % number) raise self.stdout.write('Peak level: {:.2%} \n'.format( trackResult.peak)) self.stdout.write('Rip quality: {:.2%}\n'.format( trackResult.quality)) # overlay this rip onto the Table if number == 0: # HTOA goes on index 0 of track 1 # ignore silence in PREGAP if trackResult.peak <= SILENT: self.debug( 'HTOA peak %r is below SILENT threshold, disregarding', trackResult.peak) self.itable.setFile(1, 0, None, self.ittoc.getTrackStart(1), number) self.debug('Unlinking %r', trackResult.filename) os.unlink(trackResult.filename) trackResult.filename = None self.stdout.write( 'HTOA discarded, contains digital silence\n') else: self.itable.setFile(1, 0, trackResult.filename, self.ittoc.getTrackStart(1), number) else: self.itable.setFile(number, 1, trackResult.filename, self.ittoc.getTrackLength(number), number) self.program.saveRipResult() # check for hidden track one audio htoapath = None htoa = self.program.getHTOA() if htoa: start, stop = htoa self.stdout.write( 'Found Hidden Track One Audio from frame %d to %d\n' % (start, stop)) # rip it ripIfNotRipped(0) htoapath = self.program.result.tracks[0].filename for i, track in enumerate(self.itable.tracks): # FIXME: rip data tracks differently if not track.audio: self.stdout.write( 'WARNING: skipping data track %d, not implemented\n' % (i + 1, )) # FIXME: make it work for now track.indexes[1].relative = 0 continue ripIfNotRipped(i + 1) ### write disc files discName = self.program.getPath(self.program.outdir, self.options.disc_template, self.mbdiscid, 0, profile=profile, disambiguate=disambiguate) dirname = os.path.dirname(discName) if not os.path.exists(dirname): os.makedirs(dirname) self.debug('writing cue file for %r', discName) self.program.writeCue(discName) # write .m3u file self.debug('writing m3u file for %r', discName) m3uPath = u'%s.m3u' % discName handle = open(m3uPath, 'w') handle.write(u'#EXTM3U\n') def writeFile(handle, path, length): targetPath = common.getRelativePath(path, m3uPath) u = u'#EXTINF:%d,%s\n' % (length, targetPath) handle.write(u.encode('utf-8')) u = '%s\n' % targetPath handle.write(u.encode('utf-8')) if htoapath: writeFile(handle, htoapath, self.itable.getTrackStart(1) / common.FRAMES_PER_SECOND) for i, track in enumerate(self.itable.tracks): if not track.audio: continue path = self.program.getPath( self.program.outdir, self.options.track_template, self.mbdiscid, i + 1, profile=profile, disambiguate=disambiguate) + '.' + profile.extension writeFile( handle, path, self.itable.getTrackLength(i + 1) / common.FRAMES_PER_SECOND) handle.close() # verify using accuraterip url = self.ittoc.getAccurateRipURL() self.stdout.write("AccurateRip URL %s\n" % url) accucache = accurip.AccuCache() try: responses = accucache.retrieve(url) except urllib2.URLError, e: if isinstance(e.args[0], socket.gaierror): if e.args[0].errno == -2: self.stdout.write("Warning: network error: %r\n" % (e.args[0], )) responses = None else: raise else: raise
class Rip(logcommand.LogCommand): summary = "rip CD" description = """ Rips a CD. Tracks are named according to the track template, filling in the variables and expanding the file extension. Variables are: - %t: track number - %a: track artist - %n: track title - %s: track sort name Disc files (.cue, .log, .m3u) are named according to the disc template, filling in the variables and expanding the file extension. Variables are: - %A: album artist - %S: album sort name - %d: disc title """ def addOptions(self): # FIXME: get from config default = 0 self.parser.add_option('-o', '--offset', action="store", dest="offset", help="sample read offset (defaults to %d)" % default, default=default) self.parser.add_option( '-O', '--output-directory', action="store", dest="output_directory", help="output directory (defaults to current directory)") # FIXME: have a cache of these pickles somewhere self.parser.add_option( '-T', '--toc-pickle', action="store", dest="toc_pickle", help="pickle to use for reading and writing the TOC", default=default) # FIXME: get from config self.parser.add_option( '', '--track-template', action="store", dest="track_template", help="template for track file naming (default %default)", default=DEFAULT_TRACK_TEMPLATE) self.parser.add_option( '', '--disc-template', action="store", dest="disc_template", help="template for disc file naming (default %default)", default=DEFAULT_DISC_TEMPLATE) self.parser.add_option( '-R', '--release-id', action="store", dest="release", help="MusicBrainz release id to match to (if there are multiple)") default = 'flac' # here to avoid import gst eating our options from morituri.common import encode self.parser.add_option( '', '--profile', action="store", dest="profile", help="profile for encoding (default '%s', choices '%s')" % (default, "', '".join(encode.PROFILES.keys())), default=default) self.parser.add_option( '-U', '--unknown', action="store_true", dest="unknown", help="whether to continue ripping if the CD is unknown (%default)", default=False) def handleOptions(self, options): options.track_template = options.track_template.decode('utf-8') options.disc_template = options.disc_template.decode('utf-8') slashCountT = len(options.track_template.split(os.path.sep)) slashCountD = len(options.disc_template.split(os.path.sep)) if slashCountT != slashCountD: raise command.CommandError( "The number of path separators in the templates " \ "should be the same.") def do(self, args): prog = program.Program(record=self.getRootCommand().record) runner = task.SyncRunner() def function(r, t): r.run(t) # if the device is mounted (data session), unmount it device = self.parentCommand.options.device self.stdout.write('Checking device %s\n' % device) prog.loadDevice(device) prog.unmountDevice(device) version = None # first, read the normal TOC, which is fast ptoc = common.Persister(self.options.toc_pickle or None) if not ptoc.object: t = cdrdao.ReadTOCTask(device=device) function(runner, t) version = t.tasks[1].parser.version from pkg_resources import parse_version as V # we've built a cdrdao 1.2.3rc2 modified package with the patch if V(version) < V('1.2.3rc2p1'): self.stdout.write(''' Warning: cdrdao older than 1.2.3 has a pre-gap length bug. See http://sourceforge.net/tracker/?func=detail&aid=604751&group_id=2171&atid=102171 ''') ptoc.persist(t.table) ittoc = ptoc.object assert ittoc.hasTOC() # already show us some info based on this prog.getRipResult(ittoc.getCDDBDiscId()) self.stdout.write("CDDB disc id: %s\n" % ittoc.getCDDBDiscId()) mbdiscid = ittoc.getMusicBrainzDiscId() self.stdout.write("MusicBrainz disc id %s\n" % mbdiscid) self.stdout.write("MusicBrainz lookup URL %s\n" % ittoc.getMusicBrainzSubmitURL()) prog.metadata = prog.getMusicBrainz(ittoc, mbdiscid, self.options.release) if not prog.metadata: # fall back to FreeDB for lookup cddbid = ittoc.getCDDBValues() cddbmd = prog.getCDDB(cddbid) if cddbmd: self.stdout.write('FreeDB identifies disc as %s\n' % cddbmd) if not self.options.unknown: prog.ejectDevice(device) return -1 # now, read the complete index table, which is slower itable = prog.getTable(runner, ittoc.getCDDBDiscId(), device) assert itable.getCDDBDiscId() == ittoc.getCDDBDiscId(), \ "full table's id %s differs from toc id %s" % ( itable.getCDDBDiscId(), ittoc.getCDDBDiscId()) assert itable.getMusicBrainzDiscId() == ittoc.getMusicBrainzDiscId(), \ "full table's mb id %s differs from toc id mb %s" % ( itable.getMusicBrainzDiscId(), ittoc.getMusicBrainzDiscId()) assert itable.getAccurateRipURL() == ittoc.getAccurateRipURL(), \ "full table's AR URL %s differs from toc AR URL %s" % ( itable.getAccurateRipURL(), ittoc.getAccurateRipURL()) prog.outdir = (self.options.output_directory or os.getcwd()) prog.outdir = prog.outdir.decode('utf-8') # here to avoid import gst eating our options from morituri.common import encode profile = encode.PROFILES[self.options.profile]() # result prog.result.cdrdao_version = version prog.result.cdparanoia_version = cdparanoia.ParanoiaVersion() prog.result.offset = int(self.options.offset) prog.result.artist = prog.metadata and prog.metadata.artist \ or 'Unknown Artist' prog.result.title = prog.metadata and prog.metadata.title \ or 'Unknown Title' # cdio is optional for now try: import cdio _, prog.result.vendor, prog.result.model, prog.result.release = \ cdio.Device(device).get_hwinfo() except ImportError: self.stdout.write( 'WARNING: pycdio not installed, cannot identify drive\n') prog.result.vendor = 'Unknown' prog.result.model = 'Unknown' prog.result.release = 'Unknown' # FIXME: turn this into a method def ripIfNotRipped(number): # we can have a previous result trackResult = prog.result.getTrackResult(number) if not trackResult: trackResult = result.TrackResult() prog.result.tracks.append(trackResult) path = prog.getPath(prog.outdir, self.options.track_template, mbdiscid, number) + '.' + profile.extension trackResult.number = number assert type(path) is unicode, "%r is not unicode" % path trackResult.filename = path if number > 0: trackResult.pregap = itable.tracks[number - 1].getPregap() # FIXME: optionally allow overriding reripping if os.path.exists(path): self.stdout.write('Verifying track %d of %d: %s\n' % (number, len(itable.tracks), os.path.basename(path).encode('utf-8'))) if not prog.verifyTrack(runner, trackResult): self.stdout.write('Verification failed, reripping...\n') os.unlink(path) if not os.path.exists(path): tries = 0 self.stdout.write('Ripping track %d of %d: %s\n' % (number, len(itable.tracks), os.path.basename(path).encode('utf-8'))) while tries < MAX_TRIES: tries += 1 try: self.debug('ripIfNotRipped: track %d, try %d', number, tries) prog.ripTrack(runner, trackResult, offset=int(self.options.offset), device=self.parentCommand.options.device, profile=profile, taglist=prog.getTagList(number), what='track %d of %d' % (number, len(itable.tracks))) break except Exception, e: self.debug('Got exception %r on try %d', e, tries) if tries == MAX_TRIES: self.error('Giving up on track %d after %d times' % (number, tries)) if trackResult.testcrc == trackResult.copycrc: self.stdout.write('Checksums match for track %d\n' % number) else: self.stdout.write( 'ERROR: checksums did not match for track %d\n' % number) raise self.stdout.write('Peak level: %.2f %%\n' % (math.sqrt(trackResult.peak) * 100.0, )) self.stdout.write('Rip quality: %.2f %%\n' % (trackResult.quality * 100.0, )) # overlay this rip onto the Table if number == 0: # HTOA goes on index 0 of track 1 itable.setFile(1, 0, trackResult.filename, ittoc.getTrackStart(1), number) else: itable.setFile(number, 1, trackResult.filename, ittoc.getTrackLength(number), number) prog.saveRipResult() # check for hidden track one audio htoapath = None htoa = prog.getHTOA() if htoa: start, stop = htoa self.stdout.write( 'Found Hidden Track One Audio from frame %d to %d\n' % (start, stop)) # rip it ripIfNotRipped(0) htoapath = prog.result.tracks[0].filename for i, track in enumerate(itable.tracks): # FIXME: rip data tracks differently if not track.audio: self.stdout.write( 'WARNING: skipping data track %d, not implemented\n' % (i + 1, )) # FIXME: make it work for now track.indexes[1].relative = 0 continue ripIfNotRipped(i + 1) ### write disc files discName = prog.getPath(prog.outdir, self.options.disc_template, mbdiscid, 0) dirname = os.path.dirname(discName) if not os.path.exists(dirname): os.makedirs(dirname) self.debug('writing cue file for %r', discName) prog.writeCue(discName) # write .m3u file self.debug('writing m3u file for %r', discName) m3uPath = u'%s.m3u' % discName handle = open(m3uPath, 'w') handle.write(u'#EXTM3U\n') def writeFile(handle, path, length): u = u'#EXTINF:%d,%s\n' % (length, os.path.basename(path)) handle.write(u.encode('utf-8')) u = '%s\n' % os.path.basename(path) handle.write(u.encode('utf-8')) if htoapath: writeFile(handle, htoapath, itable.getTrackStart(1) / common.FRAMES_PER_SECOND) for i, track in enumerate(itable.tracks): if not track.audio: continue path = prog.getPath(prog.outdir, self.options.track_template, mbdiscid, i + 1) + '.' + profile.extension writeFile(handle, path, itable.getTrackLength(i + 1) / common.FRAMES_PER_SECOND) handle.close() # verify using accuraterip url = ittoc.getAccurateRipURL() self.stdout.write("AccurateRip URL %s\n" % url) cache = accurip.AccuCache() responses = cache.retrieve(url) if not responses: self.stdout.write('Album not found in AccurateRip database\n') if responses: self.stdout.write('%d AccurateRip reponses found\n' % len(responses)) if responses[0].cddbDiscId != itable.getCDDBDiscId(): self.stdout.write( "AccurateRip response discid different: %s\n" % responses[0].cddbDiscId) prog.verifyImage(runner, responses) self.stdout.write("\n".join(prog.getAccurateRipResults()) + "\n") # write log file logger = result.getLogger() prog.writeLog(discName, logger) prog.ejectDevice(device)