def logRip(self, ripResult, epoch):
lines = []
### global
lines.append("Logfile created by: morituri %s" % configure.version)
# FIXME: when we localize this, see #49 to handle unicode properly.
import locale
old = locale.getlocale(locale.LC_TIME)
locale.setlocale(locale.LC_TIME, 'C')
date = time.strftime("%b %d %H:%M:%S", time.localtime(epoch))
locale.setlocale(locale.LC_TIME, old)
lines.append("Logfile created on: %s" % date)
lines.append("")
# album
lines.append("Album: %s - %s" % (ripResult.artist, ripResult.title))
lines.append("")
lines.append("CDDB disc id: %s" %
ripResult.table.getCDDBDiscId())
lines.append("MusicBrainz disc id: %s" %
ripResult.table.getMusicBrainzDiscId())
lines.append("MusicBrainz lookup URL: %s" %
ripResult.table.getMusicBrainzSubmitURL())
lines.append("")
# drive
lines.append("Drive: vendor %s, model %s" %
(ripResult.vendor, ripResult.model))
lines.append("")
lines.append("Read offset correction: %d" % ripResult.offset)
lines.append("")
# toc
lines.append("Table of Contents:")
lines.append("")
lines.append(" Track | Start | Length")
lines.append(" ------------------------------------------------")
table = ripResult.table
for t in table.tracks:
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
lines.append(" %2d | %6d - %s | %6d - %s" %
(t.number, start, common.framesToMSF(start), length,
common.framesToMSF(length)))
lines.append("")
lines.append("")
### per-track
for t in ripResult.tracks:
lines.extend(self.trackLog(t))
lines.append('')
return lines
def trackLog(self, trackResult):
"""Returns Tracks section lines: data picked from trackResult"""
lines = []
# Track number
lines.append(" %02d:" % trackResult.number)
# Filename (including path) of ripped track
lines.append(" Filename: %s" % trackResult.filename)
# Pre-gap length
pregap = trackResult.pregap
if pregap:
lines.append(" Pre-gap length: %s" % common.framesToMSF(pregap))
# Peak level
peak = trackResult.peak
lines.append(" Peak level: %.6f" % peak)
# Extraction speed
if trackResult.copyspeed:
lines.append(" Extraction speed: %.1f X" % (trackResult.copyspeed))
# Extraction quality
if trackResult.quality and trackResult.quality > 0.001:
lines.append(" Extraction quality: %.2f %%" % (trackResult.quality * 100.0,))
# Ripper Test CRC
if trackResult.testcrc is not None:
lines.append(" Test CRC: %08X" % trackResult.testcrc)
# Ripper Copy CRC
if trackResult.copycrc is not None:
lines.append(" Copy CRC: %08X" % trackResult.copycrc)
# AccurateRip track status
# Currently there's no support for AccurateRip V2
if trackResult.accurip:
lines.append(" AccurateRip V1:")
self._inARDatabase += 1
if trackResult.ARCRC == trackResult.ARDBCRC:
lines.append(" Result: Found, exact match")
self._accuratelyRipped += 1
else:
lines.append(" Result: Found, NO exact match")
lines.append(" Confidence: %d" % trackResult.ARDBConfidence)
lines.append(" Local CRC: %08X" % trackResult.ARCRC)
lines.append(" Remote CRC: %08X" % trackResult.ARDBCRC)
elif trackResult.number != 0:
lines.append(" AccurateRip V1:")
lines.append(" Result: Track not present in " "AccurateRip database")
# Check if Test & Copy CRCs are equal
if trackResult.testcrc == trackResult.copycrc:
lines.append(" Status: Copy OK")
else:
self._errors = True
lines.append(" Status: Error, CRC mismatch")
return lines
def trackLog(self, trackResult):
lines = []
lines.append('Track %2d' % trackResult.number)
lines.append('')
lines.append(' Filename %s' % trackResult.filename)
lines.append('')
if trackResult.pregap:
lines.append(' Pre-gap length %s' % common.framesToMSF(
trackResult.pregap))
lines.append('')
lines.append(' Peak level %.06f' % trackResult.peak)
if trackResult.testspeed:
lines.append(' Extraction Speed (Test) %.4f X' % (
trackResult.testspeed))
if trackResult.copyspeed:
lines.append(' Extraction Speed (Copy) %.4f X' % (
trackResult.copyspeed))
if trackResult.testcrc:
lines.append(' Test CRC %08X' % trackResult.testcrc)
if trackResult.copycrc:
lines.append(' Copy CRC %08X' % trackResult.copycrc)
if trackResult.ARCRC:
lines.append(' AccurateRip signature %08X' % trackResult.ARCRC)
if trackResult.accurip:
lines.append(' Accurately ripped (confidence %d)' % (
trackResult.ARDBConfidence))
else:
if trackResult.ARDBCRC:
lines.append(' Cannot be verified as accurate, '
'AccurateRip returned [%08X]' % (
trackResult.ARDBCRC))
else:
lines.append(' Track not present in AccurateRip database')
if trackResult.testcrc:
if trackResult.testcrc == trackResult.copycrc:
lines.append(' Copy OK')
else:
lines.append(" WARNING: CRCs don't match!")
else:
lines.append(" WARNING: no CRC check done")
return lines
def trackLog(self, trackResult):
lines = []
lines.append(" %02d:" % trackResult.number)
lines.append(" Filename: %s" % trackResult.filename)
pregap = trackResult.pregap
if pregap:
lines.append(" Pre-gap length: %s" % common.framesToMSF(pregap))
peak = trackResult.peak
lines.append(" Peak level: %.6f %%" % peak)
if trackResult.copyspeed:
lines.append(" Extraction speed: %.1f X" % (
trackResult.copyspeed))
if trackResult.quality and trackResult.quality > 0.001:
lines.append(" Track quality: %.2f %%" %
(trackResult.quality * 100.0, ))
if trackResult.testcrc is not None:
lines.append(" Test CRC: %08X" % trackResult.testcrc)
if trackResult.copycrc is not None:
lines.append(" Copy CRC: %08X" % trackResult.copycrc)
if trackResult.accurip:
lines.append(" AccurateRip v1:")
self._inARDatabase += 1
if trackResult.ARCRC == trackResult.ARDBCRC:
lines.append(" Result: Found, exact match")
lines.append(" Confidence: %d" %
trackResult.ARDBConfidence)
lines.append(" Checksum: %08X" % trackResult.ARCRC)
self._accuratelyRipped += 1
else:
lines.append(" Result: Found, NO exact match "
"(confidence %d [%08X], AccurateRip "
"returned [%08x])" % (trackResult.ARDBConfidence,
trackResult.ARCRC,
trackResult.ARDBCRC))
elif trackResult.number != 0:
lines.append(" AccurateRip v1:")
lines.append(" Result: Track not present in "
"AccurateRip database")
if trackResult.testcrc == trackResult.copycrc:
lines.append(" Status: Copy OK")
else:
self._errors = True
lines.append(" Status: Error, CRC mismatch")
return lines
def trackLog(self, trackResult):
lines = []
lines.append('Track %2d' % trackResult.number)
lines.append('')
lines.append(' Filename %s' % trackResult.filename)
lines.append('')
if trackResult.pregap:
lines.append(' Pre-gap: %s' % common.framesToMSF(
trackResult.pregap))
lines.append('')
lines.append(' Peak level %.1f %%' % (trackResult.peak * 100.0))
if trackResult.copyspeed:
lines.append(' Extraction Speed (Copy) %.4f X' % (
trackResult.copyspeed))
if trackResult.testspeed:
lines.append(' Extraction Speed (Test) %.4f X' % (
trackResult.testspeed))
if trackResult.copycrc is not None:
lines.append(' Copy CRC %08X' % trackResult.copycrc)
if trackResult.testcrc is not None:
lines.append(' Test CRC %08X' % trackResult.testcrc)
if trackResult.testcrc == trackResult.copycrc:
lines.append(' Copy OK')
else:
lines.append(" WARNING: CRCs don't match!")
else:
lines.append(" WARNING: no CRC check done")
if trackResult.accurip:
lines.append(' Accurately ripped (confidence %d) [%08X]' % (
trackResult.ARDBConfidence, trackResult.ARCRC))
else:
if trackResult.ARDBCRC:
lines.append(' Cannot be verified as accurate '
'[%08X], AccurateRip returned [%08X]' % (
trackResult.ARCRC, trackResult.ARDBCRC))
else:
lines.append(' Track not present in AccurateRip database')
return lines
def trackLog(self, trackResult):
lines = []
lines.append("Track %2d" % trackResult.number)
lines.append("")
lines.append(" Filename %s" % trackResult.filename)
lines.append("")
if trackResult.pregap:
lines.append(" Pre-gap length %s" % common.framesToMSF(trackResult.pregap))
lines.append("")
lines.append(" Peak level %.06f" % trackResult.peak)
if trackResult.testspeed:
lines.append(" Extraction Speed (Test) %.4f X" % (trackResult.testspeed))
if trackResult.copyspeed:
lines.append(" Extraction Speed (Copy) %.4f X" % (trackResult.copyspeed))
if trackResult.testcrc:
lines.append(" Test CRC %08X" % trackResult.testcrc)
if trackResult.copycrc:
lines.append(" Copy CRC %08X" % trackResult.copycrc)
if trackResult.ARCRC:
lines.append(" AccurateRip signature %08X" % trackResult.ARCRC)
if trackResult.accurip:
lines.append(" Accurately ripped (confidence %d)" % (trackResult.ARDBConfidence))
else:
if trackResult.ARDBCRC:
lines.append(
" Cannot be verified as accurate, " "AccurateRip returned [%08X]" % (trackResult.ARDBCRC)
)
else:
lines.append(" Track not present in AccurateRip database")
if trackResult.testcrc:
if trackResult.testcrc == trackResult.copycrc:
lines.append(" Copy OK")
else:
lines.append(" WARNING: CRCs don't match!")
else:
lines.append(" WARNING: no CRC check done")
return lines
def trackLog(self, trackResult):
lines = []
lines.append(" %02d:" % trackResult.number)
lines.append(" Filename: %s" % trackResult.filename)
pregap = trackResult.pregap
if pregap:
lines.append(" Pre-gap length: %s" % common.framesToMSF(pregap))
peak = trackResult.peak
lines.append(" Peak level: %.6f %%" % peak)
if trackResult.copyspeed:
lines.append(" Extraction speed: %.1f X" %
(trackResult.copyspeed))
if trackResult.quality and trackResult.quality > 0.001:
lines.append(" Track quality: %.2f %%" %
(trackResult.quality * 100.0, ))
if trackResult.testcrc is not None:
lines.append(" Test CRC: %08X" % trackResult.testcrc)
if trackResult.copycrc is not None:
lines.append(" Copy CRC: %08X" % trackResult.copycrc)
if trackResult.accurip:
lines.append(" AccurateRip V1:")
self._inARDatabase += 1
if trackResult.ARCRC == trackResult.ARDBCRC:
lines.append(" Result: Found, exact match")
self._accuratelyRipped += 1
else:
lines.append(" Result: Found, NO exact match")
lines.append(" Confidence: %d" % trackResult.ARDBConfidence)
lines.append(" Local CRC: %08X" % trackResult.ARCRC)
lines.append(" Remote CRC: %08X" % trackResult.ARDBCRC)
elif trackResult.number != 0:
lines.append(" AccurateRip V1:")
lines.append(" Result: Track not present in "
"AccurateRip database")
if trackResult.testcrc == trackResult.copycrc:
lines.append(" Status: Copy OK")
else:
self._errors = True
lines.append(" Status: Error, CRC mismatch")
return lines
def cue(self, cuePath='', program='morituri'):
"""
@param cuePath: path to the cue file to be written. If empty,
will treat paths as if in current directory.
Dump our internal representation to a .cue file content.
@rtype: C{unicode}
"""
self.debug('generating .cue for cuePath %r', cuePath)
lines = []
def writeFile(path):
targetPath = common.getRelativePath(path, cuePath)
line = 'FILE "%s" WAVE' % targetPath
lines.append(line)
self.debug('writeFile: %r' % line)
# header
main = ['PERFORMER', 'TITLE']
for key in CDTEXT_FIELDS:
if key not in main and key in self.cdtext:
lines.append(" %s %s" % (key, self.cdtext[key]))
assert self.hasTOC(), "Table does not represent a full CD TOC"
lines.append('REM DISCID %s' % self.getCDDBDiscId().upper())
lines.append('REM COMMENT "%s %s"' % (program, configure.version))
if self.catalog:
lines.append("CATALOG %s" % self.catalog)
for key in main:
if key in self.cdtext:
lines.append('%s "%s"' % (key, self.cdtext[key]))
# FIXME:
# - the first FILE statement goes before the first TRACK, even if
# there is a non-file-using PREGAP
# - the following FILE statements come after the last INDEX that
# use that FILE; so before a next TRACK, PREGAP silence, ...
# add the first FILE line; EAC always puts the first FILE
# statement before TRACK 01 and any possible PRE-GAP
firstTrack = self.tracks[0]
index = firstTrack.getFirstIndex()
indexOne = firstTrack.getIndex(1)
counter = index.counter
track = firstTrack
while not index.path:
t, i = self.getNextTrackIndex(track.number, index.number)
track = self.tracks[t - 1]
index = track.getIndex(i)
counter = index.counter
if index.path:
self.debug('counter %d, writeFile' % counter)
writeFile(index.path)
for i, track in enumerate(self.tracks):
self.debug('track i %r, track %r' % (i, track))
# FIXME: skip data tracks for now
if not track.audio:
continue
indexes = track.indexes.keys()
indexes.sort()
wroteTrack = False
for number in indexes:
index = track.indexes[number]
self.debug('index %r, %r' % (number, index))
# any time the source counter changes to a higher value,
# write a FILE statement
# it has to be higher, because we can run into the HTOA
# at counter 0 here
if index.counter > counter:
if index.path:
self.debug('counter %d, writeFile' % counter)
writeFile(index.path)
self.debug('setting counter to index.counter %r' %
index.counter)
counter = index.counter
# any time we hit the first index, write a TRACK statement
if not wroteTrack:
wroteTrack = True
line = " TRACK %02d %s" % (i + 1, 'AUDIO')
lines.append(line)
self.debug('%r' % line)
for key in CDTEXT_FIELDS:
if key in track.cdtext:
lines.append(' %s "%s"' % (
key, track.cdtext[key]))
if track.isrc is not None:
lines.append(" ISRC %s" % track.isrc)
# handle TRACK 01 INDEX 00 specially
if 0 in indexes:
index00 = track.indexes[0]
if i == 0:
# if we have a silent pre-gap, output it
if not index00.path:
length = indexOne.absolute - index00.absolute
lines.append(" PREGAP %s" %
common.framesToMSF(length))
continue
# handle any other INDEX 00 after its TRACK
lines.append(" INDEX %02d %s" % (0,
common.framesToMSF(index00.relative)))
if number > 0:
# index 00 is output after TRACK up above
lines.append(" INDEX %02d %s" % (number,
common.framesToMSF(index.relative)))
lines.append("")
return "\n".join(lines)
def logRip(self, ripResult, epoch):
"""Returns logfile lines list"""
lines = []
# Ripper version
# Only implemented in whipper (ripResult.logger)
lines.append("Log created by: whipper %s (%s logger)" % (
morituri.__version__, ripResult.logger))
# Rip date
date = time.strftime("%Y-%m-%dT%H:%M:%SZ", time.gmtime(epoch)).strip()
lines.append("Log creation date: %s" % date)
lines.append("")
# Rip technical settings
lines.append("Ripping phase information:")
lines.append(" Drive: %s%s (revision %s)" % (
ripResult.vendor, ripResult.model, ripResult.release))
if ripResult.cdparanoiaDefeatsCache is None:
defeat = "Unknown"
elif ripResult.cdparanoiaDefeatsCache:
defeat = "Yes"
else:
defeat = "No"
lines.append(" Defeat audio cache: %s" % defeat)
lines.append(" Read offset correction: %+d" % ripResult.offset)
# Currently unsupported by the official cdparanoia package
over = "No"
# Only implemented in whipper (ripResult.overread)
if ripResult.overread:
over = "Yes"
lines.append(" Overread into lead-out: %s" % over)
# Next one fully works only using the patched cdparanoia package
# lines.append("Fill up missing offset samples with silence: Yes")
lines.append(" Gap detection: cdrdao %s" % ripResult.cdrdaoVersion)
lines.append("")
# Rip encoding settings
lines.append("Encoding phase information:")
lines.append(" Used output format: %s" % ripResult.profileName)
lines.append(" GStreamer:")
lines.append(" Pipeline: %s" % ripResult.profilePipeline)
lines.append(" Version: %s" % ripResult.gstreamerVersion)
lines.append(" Python version: %s" % ripResult.gstPythonVersion)
lines.append(" Encoder plugin version: %s" %
ripResult.encoderVersion)
lines.append("")
# CD metadata
lines.append("CD metadata:")
lines.append(" Album: %s - %s" % (ripResult.artist, ripResult.title))
lines.append(" CDDB Disc ID: %s" % ripResult. table.getCDDBDiscId())
lines.append(" MusicBrainz Disc ID: %s" %
ripResult. table.getMusicBrainzDiscId())
lines.append(" MusicBrainz lookup url: %s" %
ripResult. table.getMusicBrainzSubmitURL())
lines.append("")
# TOC section
lines.append("TOC:")
table = ripResult.table
# Test for HTOA presence
htoa = None
try:
htoa = table.tracks[0].getIndex(0)
except KeyError:
pass
# If True, include HTOA line into log's TOC
if htoa and htoa.path:
htoastart = htoa.absolute
htoaend = table.getTrackEnd(0)
htoalength = table.tracks[0].getIndex(1).absolute - htoastart
lines.append(" 00:")
lines.append(" Start: %s" % common.framesToMSF(htoastart))
lines.append(" Length: %s" % common.framesToMSF(htoalength))
lines.append(" Start sector: %d" % htoastart)
lines.append(" End sector: %d" % htoaend)
lines.append("")
# For every track include information in the TOC
for t in table.tracks:
# FIXME: what happens to a track start over 60 minutes ?
# Answer: tested empirically, everything seems OK
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
end = table.getTrackEnd(t.number)
lines.append(" %02d:" % t.number)
lines.append(" Start: %s" % common.framesToMSF(start))
lines.append(" Length: %s" % common.framesToMSF(length))
lines.append(" Start sector: %d" % start)
lines.append(" End sector: %d" % end)
lines.append("")
# Tracks section
lines.append("Tracks:")
duration = 0.0
for t in ripResult.tracks:
if not t.filename:
continue
lines.extend(self.trackLog(t))
lines.append("")
duration += t.testduration + t.copyduration
# Status report
lines.append("Conclusive status report:")
arHeading = " AccurateRip summary:"
if self._inARDatabase == 0:
lines.append("%s None of the tracks are present in the "
"AccurateRip database" % arHeading)
else:
nonHTOA = len(ripResult.tracks)
if ripResult.tracks[0].number == 0:
nonHTOA -= 1
if self._accuratelyRipped == 0:
lines.append("%s No tracks could be verified as accurate "
"(you may have a different pressing from the "
"one(s) in the database)" % arHeading)
elif self._accuratelyRipped < nonHTOA:
accurateTracks = nonHTOA - self._accuratelyRipped
lines.append("%s Some tracks could not be verified as "
"accurate (%d/%d got no match)" % (
arHeading, accurateTracks, nonHTOA))
else:
lines.append("%s All tracks accurately ripped" % arHeading)
hsHeading = " Health status:"
if self._errors:
lines.append("%s There were errors" % hsHeading)
else:
lines.append("%s No errors occurred" % hsHeading)
lines.append(" EOF: End of status report")
lines.append("")
# Log hash
hasher = hashlib.sha256()
hasher.update("\n".join(lines).encode("utf-8"))
lines.append("SHA-256 hash: %s" % hasher.hexdigest().upper())
lines.append("")
return lines
def logRip(self, ripResult, epoch):
lines = []
### global
lines.append("Logfile created by: morituri %s" % configure.version)
# FIXME: when we localize this, see #49 to handle unicode properly.
import locale
old = locale.getlocale(locale.LC_TIME)
locale.setlocale(locale.LC_TIME, 'C')
date = time.strftime("%b %d %H:%M:%S", time.localtime(epoch))
locale.setlocale(locale.LC_TIME, old)
lines.append("Logfile created on: %s" % date)
lines.append("")
# album
lines.append("Album: %s - %s" % (ripResult.artist, ripResult.title))
lines.append("")
lines.append("CDDB disc id: %s" % ripResult. table.getCDDBDiscId())
lines.append("MusicBrainz disc id: %s" % ripResult. table.getMusicBrainzDiscId())
lines.append("MusicBrainz lookup URL: %s" % ripResult. table.getMusicBrainzSubmitURL())
lines.append("")
# drive
lines.append(
"Drive: vendor %s, model %s" % (
ripResult.vendor, ripResult.model))
lines.append("")
lines.append("Read offset correction: %d" %
ripResult.offset)
lines.append("")
# toc
lines.append("Table of Contents:")
lines.append("")
lines.append(
" Track | Start | Length")
lines.append(
" ------------------------------------------------")
table = ripResult.table
for t in table.tracks:
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
lines.append(
" %2d | %6d - %s | %6d - %s" % (
t.number,
start, common.framesToMSF(start),
length, common.framesToMSF(length)))
lines.append("")
lines.append("")
### per-track
for t in ripResult.tracks:
lines.extend(self.trackLog(t))
lines.append('')
return lines
def cue(self, cuePath='', program='morituri'):
"""
@param cuePath: path to the cue file to be written. If empty,
will treat paths as if in current directory.
Dump our internal representation to a .cue file content.
@rtype: C{unicode}
"""
self.debug('generating .cue for cuePath %r', cuePath)
lines = []
def writeFile(path):
targetPath = common.getRelativePath(path, cuePath)
line = 'FILE "%s" WAVE' % targetPath
lines.append(line)
self.debug('writeFile: %r' % line)
# header
main = ['PERFORMER', 'TITLE']
for key in CDTEXT_FIELDS:
if key not in main and key in self.cdtext:
lines.append(" %s %s" % (key, self.cdtext[key]))
assert self.hasTOC(), "Table does not represent a full CD TOC"
lines.append('REM DISCID %s' % self.getCDDBDiscId().upper())
lines.append('REM COMMENT "%s %s"' % (program, configure.version))
if self.catalog:
lines.append("CATALOG %s" % self.catalog)
for key in main:
if key in self.cdtext:
lines.append('%s "%s"' % (key, self.cdtext[key]))
# FIXME:
# - the first FILE statement goes before the first TRACK, even if
# there is a non-file-using PREGAP
# - the following FILE statements come after the last INDEX that
# use that FILE; so before a next TRACK, PREGAP silence, ...
# add the first FILE line; EAC always puts the first FILE
# statement before TRACK 01 and any possible PRE-GAP
firstTrack = self.tracks[0]
index = firstTrack.getFirstIndex()
indexOne = firstTrack.getIndex(1)
counter = index.counter
track = firstTrack
while not index.path:
t, i = self.getNextTrackIndex(track.number, index.number)
track = self.tracks[t - 1]
index = track.getIndex(i)
counter = index.counter
if index.path:
self.debug('counter %d, writeFile' % counter)
writeFile(index.path)
for i, track in enumerate(self.tracks):
self.debug('track i %r, track %r' % (i, track))
# FIXME: skip data tracks for now
if not track.audio:
continue
indexes = track.indexes.keys()
indexes.sort()
wroteTrack = False
for number in indexes:
index = track.indexes[number]
self.debug('index %r, %r' % (number, index))
# any time the source counter changes to a higher value,
# write a FILE statement
# it has to be higher, because we can run into the HTOA
# at counter 0 here
if index.counter > counter:
if index.path:
self.debug('counter %d, writeFile' % counter)
writeFile(index.path)
self.debug('setting counter to index.counter %r' %
index.counter)
counter = index.counter
# any time we hit the first index, write a TRACK statement
if not wroteTrack:
wroteTrack = True
line = " TRACK %02d %s" % (i + 1, 'AUDIO')
lines.append(line)
self.debug('%r' % line)
for key in CDTEXT_FIELDS:
if key in track.cdtext:
lines.append(' %s "%s"' %
(key, track.cdtext[key]))
if track.isrc is not None:
lines.append(" ISRC %s" % track.isrc)
if track.pre_emphasis is not None:
lines.append(" FLAGS PRE")
# handle TRACK 01 INDEX 00 specially
if 0 in indexes:
index00 = track.indexes[0]
if i == 0:
# if we have a silent pre-gap, output it
if not index00.path:
length = indexOne.absolute - index00.absolute
lines.append(" PREGAP %s" %
common.framesToMSF(length))
continue
# handle any other INDEX 00 after its TRACK
lines.append(" INDEX %02d %s" %
(0, common.framesToMSF(index00.relative)))
if number > 0:
# index 00 is output after TRACK up above
lines.append(" INDEX %02d %s" %
(number, common.framesToMSF(index.relative)))
lines.append("")
return "\n".join(lines)
def logRip(self, ripResult, epoch):
lines = []
### global
lines.append("morituri version %s" % configure.version)
lines.append("")
# FIXME: when we localize this, see #49 to handle unicode properly.
import locale
old = locale.getlocale(locale.LC_TIME)
locale.setlocale(locale.LC_TIME, 'C')
date = time.strftime("%b %d %H:%M:%S", time.localtime(epoch))
locale.setlocale(locale.LC_TIME, old)
lines.append("morituri logfile from %s" % date)
lines.append("")
# album
lines.append("%s / %s" % (ripResult.artist, ripResult.title))
lines.append("")
# drive
lines.append(
"Used Drive : %s %s %s" % (
ripResult.vendor, ripResult.model, ripResult.release))
lines.append("")
# Default for cdparanoia
lines.append("Use cdparanoia mode : Yes (%s)" % (
ripResult.cdparanoia_version))
# Default for cdparanoia by virtue of ripping whole tracks at a time
lines.append("Defeat audio cache : Yes")
# Default for cdparanoia by virtue of having no C2 rip mode
lines.append("Make use of C2 pointers : No")
lines.append("")
lines.append("Read offset correction : %d" % (
ripResult.offset))
# Currently unsupported by cdparanoia
lines.append("Overread into Lead-In and Lead-Out : No")
# Default for cdparanoia
lines.append("Fill up missing offset samples with silence : Yes")
# Default for cdparanoia
lines.append("Delete leading and trailing silent blocks : No")
# Default
lines.append("Null samples used in CRC calculations : Yes")
lines.append("Gap Detection : "
"cdrdao version %s" % ripResult.cdrdao_version)
# Default for cdparanoia
lines.append("Gap handling : "
"Appended to previous track")
lines.append("")
# toc
lines.append("TOC of the extracted CD")
lines.append("")
lines.append(
" Track | Start | Length | Start sector | End sector")
lines.append(
" ---------------------------------------------------------")
table = ripResult.table
for t in table.tracks:
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
lines.append(
" %2d | %s | %s | %9d | %8d" % (
t.number,
common.framesToMSF(start),
common.framesToMSF(length),
start,
start + length - 1))
lines.append("")
lines.append("")
### per-track
for t in ripResult.tracks:
lines.extend(self.trackLog(t))
lines.append('')
return lines
def cue(self, cuePath='', program='Morituri'):
"""
@param cuePath: path to the cue file to be written. If empty,
will treat paths as if in current directory.
Dump our internal representation to a .cue file content.
@rtype: C{unicode}
"""
lines = []
def writeFile(path):
targetPath = common.getRelativePath(path, cuePath)
lines.append('FILE "%s" WAVE' % targetPath)
# header
main = ['PERFORMER', 'TITLE']
for key in CDTEXT_FIELDS:
if key not in main and key in self.cdtext:
lines.append(" %s %s" % (key, self.cdtext[key]))
assert self.hasTOC(), "Table does not represent a full CD TOC"
lines.append('REM DISCID %s' % self.getCDDBDiscId().upper())
lines.append('REM COMMENT "%s"' % program)
if self.catalog:
lines.append("CATALOG %s" % self.catalog)
for key in main:
if key in self.cdtext:
lines.append('%s "%s"' % (key, self.cdtext[key]))
# add the first FILE line
path = self.tracks[0].getFirstIndex().path
counter = self.tracks[0].getFirstIndex().counter
writeFile(path)
for i, track in enumerate(self.tracks):
# FIXME: skip data tracks for now
if not track.audio:
continue
# if there is no index 0, but there is a new file, advance
# FILE line here
if not 0 in track.indexes:
index = track.indexes[1]
if index.counter != counter:
writeFile(index.path)
counter = index.counter
lines.append(" TRACK %02d %s" % (i + 1, 'AUDIO'))
for key in CDTEXT_FIELDS:
if key in track.cdtext:
lines.append(' %s "%s"' % (key, track.cdtext[key]))
if track.isrc is not None:
lines.append(" ISRC %s" % track.isrc)
indexes = track.indexes.keys()
indexes.sort()
for number in indexes:
index = track.indexes[number]
if index.counter != counter:
writeFile(index.path)
counter = index.counter
lines.append(" INDEX %02d %s" % (number,
common.framesToMSF(index.relative)))
lines.append("")
return "\n".join(lines)
def logRip(self, ripResult, epoch):
lines = []
lines.append("Ripper: morituri %s" % configure.version)
date = time.strftime("%Y-%m-%dT%H:%M:%SZ", time.gmtime(epoch)).strip()
lines.append("Ripped at: %s" % date)
lines.append("Drive: %s%s (revision %s)" %
(ripResult.vendor, ripResult.model, ripResult.release))
lines.append("")
defeat = "Unknown"
if ripResult.cdparanoiaDefeatsCache is True:
defeat = "Yes"
elif ripResult.cdparanoiaDefeatsCache is False:
defeat = "No"
lines.append("Defeat audio cache: %s" % defeat)
lines.append("Read offset correction: %+d" % ripResult.offset)
# Currently unsupported by the official cdparanoia package
over = "Unknown"
if ripResult.overread is True:
over = "Yes"
elif ripResult.overread is False:
over = "No"
lines.append("Overread into lead-out: %s" % over)
# Next one fully works only using the patched cdparanoia package
# lines.append("Fill up missing offset samples with silence: Yes")
lines.append("Gap detection: cdrdao %s" % ripResult.cdrdaoVersion)
lines.append("")
lines.append("Used output format: %s" % ripResult.profileName)
lines.append("GStreamer:")
lines.append(" Pipeline: %s" % ripResult.profilePipeline)
lines.append(" Version: %s" % ripResult.gstreamerVersion)
lines.append(" Python version: %s" % ripResult.gstPythonVersion)
lines.append(" Encoder plugin version: %s" % ripResult.encoderVersion)
lines.append("")
lines.append("TOC:")
table = ripResult.table
htoa = None
try:
htoa = table.tracks[0].getIndex(0)
except KeyError:
pass
if htoa and htoa.path:
htoastart = htoa.absolute
htoaend = table.getTrackEnd(0)
htoalength = table.tracks[0].getIndex(1).absolute - htoastart
lines.append(" 00:")
lines.append(" Start: %s" % common.framesToMSF(htoastart))
lines.append(" Length: %s" % common.framesToMSF(htoalength))
lines.append(" Start sector: %d" % htoastart)
lines.append(" End sector: %d" % htoaend)
for t in table.tracks:
# FIXME: what happens to a track start over 60 minutes ?
# Answer: tested empirically, everything seems OK
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
end = table.getTrackEnd(t.number)
lines.append(" %02d:" % t.number)
lines.append(" Start: %s" % common.framesToMSF(start))
lines.append(" Length: %s" % common.framesToMSF(length))
lines.append(" Start sector: %d" % start)
lines.append(" End sector: %d" % end)
lines.append("")
lines.append("Tracks:")
duration = 0.0
for t in ripResult.tracks:
if not t.filename:
continue
lines.extend(self.trackLog(t))
lines.append("")
duration += t.testduration + t.copyduration
lines.append("Information:")
lines.append(" AccurateRip summary:")
if self._inARDatabase == 0:
lines.append(" Result: None of the tracks are present in "
"the AccurateRip database")
else:
nonHTOA = len(ripResult.tracks)
if ripResult.tracks[0].number == 0:
nonHTOA -= 1
if self._accuratelyRipped == 0:
lines.append(" Result: No tracks could be verified as "
"accurate (you may have a different pressing "
"from the one(s) in the database")
elif self._accuratelyRipped < nonHTOA:
lines.append(" %d track(s) accurately ripped" %
self._accuratelyRipped)
lines.append(" %d track(s) could not be verified as "
"accurate" % (nonHTOA - self._accuratelyRipped))
lines.append("")
lines.append(" Result: Some tracks could not be verified "
"as accurate (%d/%d got no match)" % (
(nonHTOA - self._accuratelyRipped), nonHTOA))
else:
lines.append(" Result: All tracks accurately ripped")
lines.append("")
lines.append(" Health status:")
if self._errors:
lines.append(" Result: There were errors")
else:
lines.append(" Result: No errors occurred")
lines.append("")
lines.append(" EOF: End of status report")
lines.append("")
hasher = hashlib.sha256()
hasher.update("\n".join(lines).encode("utf-8"))
lines.append("SHA-256 hash: %s" % hasher.hexdigest().upper())
lines.append("")
return lines
def logRip(self, ripResult, epoch):
"""Returns logfile lines list"""
lines = []
# Ripper version
# Only implemented in whipper (ripResult.logger)
lines.append("Log created by: whipper %s (%s logger)" %
(configure.version, ripResult.logger))
# Rip date
date = time.strftime("%Y-%m-%dT%H:%M:%SZ", time.gmtime(epoch)).strip()
lines.append("Log creation date: %s" % date)
lines.append("")
# Rip technical settings
lines.append("Ripping phase information:")
lines.append(" Drive: %s%s (revision %s)" %
(ripResult.vendor, ripResult.model, ripResult.release))
if ripResult.cdparanoiaDefeatsCache is None:
defeat = "Unknown"
elif ripResult.cdparanoiaDefeatsCache:
defeat = "Yes"
else:
defeat = "No"
lines.append(" Defeat audio cache: %s" % defeat)
lines.append(" Read offset correction: %+d" % ripResult.offset)
# Currently unsupported by the official cdparanoia package
over = "No"
# Only implemented in whipper (ripResult.overread)
if ripResult.overread:
over = "Yes"
lines.append(" Overread into lead-out: %s" % over)
# Next one fully works only using the patched cdparanoia package
# lines.append("Fill up missing offset samples with silence: Yes")
lines.append(" Gap detection: cdrdao %s" % ripResult.cdrdaoVersion)
lines.append("")
# Rip encoding settings
lines.append("Encoding phase information:")
lines.append(" Used output format: %s" % ripResult.profileName)
lines.append(" GStreamer:")
lines.append(" Pipeline: %s" % ripResult.profilePipeline)
lines.append(" Version: %s" % ripResult.gstreamerVersion)
lines.append(" Python version: %s" % ripResult.gstPythonVersion)
lines.append(" Encoder plugin version: %s" %
ripResult.encoderVersion)
lines.append("")
# CD metadata
lines.append("CD metadata:")
lines.append(" Album: %s - %s" % (ripResult.artist, ripResult.title))
lines.append(" CDDB Disc ID: %s" % ripResult.table.getCDDBDiscId())
lines.append(" MusicBrainz Disc ID: %s" %
ripResult.table.getMusicBrainzDiscId())
lines.append(" MusicBrainz lookup url: %s" %
ripResult.table.getMusicBrainzSubmitURL())
lines.append("")
# TOC section
lines.append("TOC:")
table = ripResult.table
# Test for HTOA presence
htoa = None
try:
htoa = table.tracks[0].getIndex(0)
except KeyError:
pass
# If True, include HTOA line into log's TOC
if htoa and htoa.path:
htoastart = htoa.absolute
htoaend = table.getTrackEnd(0)
htoalength = table.tracks[0].getIndex(1).absolute - htoastart
lines.append(" 00:")
lines.append(" Start: %s" % common.framesToMSF(htoastart))
lines.append(" Length: %s" % common.framesToMSF(htoalength))
lines.append(" Start sector: %d" % htoastart)
lines.append(" End sector: %d" % htoaend)
lines.append("")
# For every track include information in the TOC
for t in table.tracks:
# FIXME: what happens to a track start over 60 minutes ?
# Answer: tested empirically, everything seems OK
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
end = table.getTrackEnd(t.number)
lines.append(" %02d:" % t.number)
lines.append(" Start: %s" % common.framesToMSF(start))
lines.append(" Length: %s" % common.framesToMSF(length))
lines.append(" Start sector: %d" % start)
lines.append(" End sector: %d" % end)
lines.append("")
# Tracks section
lines.append("Tracks:")
duration = 0.0
for t in ripResult.tracks:
if not t.filename:
continue
lines.extend(self.trackLog(t))
lines.append("")
duration += t.testduration + t.copyduration
# Status report
lines.append("Conclusive status report:")
arHeading = " AccurateRip summary:"
if self._inARDatabase == 0:
lines.append("%s None of the tracks are present in the "
"AccurateRip database" % arHeading)
else:
nonHTOA = len(ripResult.tracks)
if ripResult.tracks[0].number == 0:
nonHTOA -= 1
if self._accuratelyRipped == 0:
lines.append("%s No tracks could be verified as accurate "
"(you may have a different pressing from the "
"one(s) in the database)" % arHeading)
elif self._accuratelyRipped < nonHTOA:
accurateTracks = nonHTOA - self._accuratelyRipped
lines.append("%s Some tracks could not be verified as "
"accurate (%d/%d got no match)" %
(arHeading, accurateTracks, nonHTOA))
else:
lines.append("%s All tracks accurately ripped" % arHeading)
hsHeading = " Health status:"
if self._errors:
lines.append("%s There were errors" % hsHeading)
else:
lines.append("%s No errors occurred" % hsHeading)
lines.append(" EOF: End of status report")
lines.append("")
# Log hash
hasher = hashlib.sha256()
hasher.update("\n".join(lines).encode("utf-8"))
lines.append("SHA-256 hash: %s" % hasher.hexdigest().upper())
lines.append("")
return lines
def trackLog(self, trackResult):
"""Returns Tracks section lines: data picked from trackResult"""
lines = []
# Track number
lines.append(" %02d:" % trackResult.number)
# Filename (including path) of ripped track
lines.append(" Filename: %s" % trackResult.filename)
# Pre-gap length
pregap = trackResult.pregap
if pregap:
lines.append(" Pre-gap length: %s" % common.framesToMSF(pregap))
# Peak level
peak = trackResult.peak
lines.append(" Peak level: %.6f" % peak)
# Extraction speed
if trackResult.copyspeed:
lines.append(" Extraction speed: %.1f X" %
(trackResult.copyspeed))
# Extraction quality
if trackResult.quality and trackResult.quality > 0.001:
lines.append(" Extraction quality: %.2f %%" %
(trackResult.quality * 100.0, ))
# Ripper Test CRC
if trackResult.testcrc is not None:
lines.append(" Test CRC: %08X" % trackResult.testcrc)
# Ripper Copy CRC
if trackResult.copycrc is not None:
lines.append(" Copy CRC: %08X" % trackResult.copycrc)
# AccurateRip track status
# Currently there's no support for AccurateRip V2
if trackResult.accurip:
lines.append(" AccurateRip V1:")
self._inARDatabase += 1
if trackResult.ARCRC == trackResult.ARDBCRC:
lines.append(" Result: Found, exact match")
self._accuratelyRipped += 1
else:
lines.append(" Result: Found, NO exact match")
lines.append(" Confidence: %d" % trackResult.ARDBConfidence)
lines.append(" Local CRC: %08X" % trackResult.ARCRC)
lines.append(" Remote CRC: %08X" % trackResult.ARDBCRC)
elif trackResult.number != 0:
lines.append(" AccurateRip V1:")
lines.append(" Result: Track not present in "
"AccurateRip database")
# Check if Test & Copy CRCs are equal
if trackResult.testcrc == trackResult.copycrc:
lines.append(" Status: Copy OK")
else:
self._errors = True
lines.append(" Status: Error, CRC mismatch")
return lines
def cue(self, program='Morituri'):
"""
Dump our internal representation to a .cue file content.
"""
lines = []
def writeFile(path):
lines.append('FILE "%s" WAVE' % os.path.basename(path))
# header
main = ['PERFORMER', 'TITLE']
for key in CDTEXT_FIELDS:
if key not in main and key in self.cdtext:
lines.append(" %s %s" % (key, self.cdtext[key]))
assert self.hasTOC(), "Table does not represent a full CD TOC"
lines.append('REM DISCID %s' % self.getCDDBDiscId().upper())
lines.append('REM COMMENT "%s"' % program)
if self.catalog:
lines.append("CATALOG %s" % self.catalog)
for key in main:
if key in self.cdtext:
lines.append('%s "%s"' % (key, self.cdtext[key]))
# add the first FILE line
path = self.tracks[0].getFirstIndex().path
counter = self.tracks[0].getFirstIndex().counter
writeFile(path)
for i, track in enumerate(self.tracks):
# FIXME: skip data tracks for now
if not track.audio:
continue
# if there is no index 0, but there is a new file, advance
# FILE line here
if not 0 in track.indexes:
index = track.indexes[1]
if index.counter != counter:
writeFile(index.path)
counter = index.counter
lines.append(" TRACK %02d %s" % (i + 1, 'AUDIO'))
for key in CDTEXT_FIELDS:
if key in track.cdtext:
lines.append(' %s "%s"' % (key, track.cdtext[key]))
if track.isrc is not None:
lines.append(" ISRC %s" % track.isrc)
indexes = track.indexes.keys()
indexes.sort()
for number in indexes:
index = track.indexes[number]
if index.counter != counter:
writeFile(index.path)
counter = index.counter
lines.append(" INDEX %02d %s" %
(number, common.framesToMSF(index.relative)))
lines.append("")
return "\n".join(lines)
def logRip(self, ripResult, epoch):
lines = []
### global
lines.append("morituri version %s" % configure.version)
lines.append("")
# FIXME: when we localize this, see #49 to handle unicode properly.
import locale
old = locale.getlocale(locale.LC_TIME)
locale.setlocale(locale.LC_TIME, "C")
date = time.strftime("%b %d %H:%M:%S", time.localtime(epoch))
locale.setlocale(locale.LC_TIME, old)
lines.append("morituri logfile from %s" % date)
lines.append("")
# album
lines.append("%s / %s" % (ripResult.artist, ripResult.title))
lines.append("")
# drive
lines.append("Used Drive : %s %s %s" % (ripResult.vendor, ripResult.model, ripResult.release))
lines.append("")
# Default for cdparanoia
lines.append("Use cdparanoia mode : Yes (%s)" % (ripResult.cdparanoia_version))
# Default for cdparanoia by virtue of ripping whole tracks at a time
lines.append("Defeat audio cache : Yes")
# Default for cdparanoia by virtue of having no C2 rip mode
lines.append("Make use of C2 pointers : No")
lines.append("")
lines.append("Read offset correction : %d" % (ripResult.offset))
# Currently unsupported by cdparanoia
lines.append("Overread into Lead-In and Lead-Out : No")
# Default for cdparanoia
lines.append("Fill up missing offset samples with silence : Yes")
# Default for cdparanoia
lines.append("Delete leading and trailing silent blocks : No")
# Default
lines.append("Null samples used in CRC calculations : Yes")
lines.append("Gap Detection : " "cdrdao version %s" % ripResult.cdrdao_version)
# Default for cdparanoia
lines.append("Gap handling : " "Appended to previous track")
lines.append("")
# toc
lines.append("TOC of the extracted CD")
lines.append("")
lines.append(" Track | Start | Length | Start sector | End sector")
lines.append(" ---------------------------------------------------------")
table = ripResult.table
for t in table.tracks:
start = t.getIndex(1).absolute
length = table.getTrackLength(t.number)
lines.append(
" %2d | %s | %s | %9d | %8d"
% (t.number, common.framesToMSF(start), common.framesToMSF(length), start, start + length - 1)
)
lines.append("")
lines.append("")
### per-track
for t in ripResult.tracks:
lines.extend(self.trackLog(t))
lines.append("")
return lines