# -*- Mode: Python; test-case-name: morituri.test.test_program_cdparanoia -*-
# vi:si:et:sw=4:sts=4:ts=4
# Morituri - for those about to RIP
# Copyright (C) 2009 Thomas Vander Stichele
# This file is part of morituri.
#
# morituri is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# morituri is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with morituri. If not, see .
import os
import errno
import time
import re
import stat
import shutil
import subprocess
import tempfile
from morituri.common import log, common
from morituri.common import task as ctask
from morituri.extern import asyncsub
from morituri.extern.task import task
class FileSizeError(Exception):
message = None
"""
The given path does not have the expected size.
"""
def __init__(self, path, message):
self.args = (path, message)
self.path = path
self.message = message
class ReturnCodeError(Exception):
"""
The program had a non-zero return code.
"""
def __init__(self, returncode):
self.args = (returncode, )
self.returncode = returncode
class ChecksumException(Exception):
pass
_PROGRESS_RE = re.compile(r"""
^\#\#: (?P.+)\s # function code
\[(?P.*)\]\s@\s # function name
(?P\d+) # offset
""", re.VERBOSE)
_ERROR_RE = re.compile("^scsi_read error:")
# from reading cdparanoia source code, it looks like offset is reported in
# number of single-channel samples, ie. 2 bytes per unit, and absolute
class ProgressParser(object):
read = 0 # last [read] frame
wrote = 0 # last [wrote] frame
errors = 0 # count of number of scsi errors
_nframes = None # number of frames read on each [read]
_firstFrames = None # number of frames read on first [read]
reads = 0 # total number of reads
def __init__(self, start, stop):
"""
@param start: first frame to rip
@type start: int
@param stop: last frame to rip (inclusive)
@type stop: int
"""
self.start = start
self.stop = stop
# FIXME: privatize
self.read = start
self._reads = {} # read count for each sector
def parse(self, line):
"""
Parse a line.
"""
m = _PROGRESS_RE.search(line)
if m:
# code = int(m.group('code'))
function = m.group('function')
wordOffset = int(m.group('offset'))
if function == 'read':
self._parse_read(wordOffset)
elif function == 'wrote':
self._parse_wrote(wordOffset)
m = _ERROR_RE.search(line)
if m:
self.errors += 1
def _parse_read(self, wordOffset):
if wordOffset % common.WORDS_PER_FRAME != 0:
print 'THOMAS: not a multiple of %d: %d' % (
common.WORDS_PER_FRAME, wordOffset)
return
frameOffset = wordOffset / common.WORDS_PER_FRAME
# set nframes if not yet set
if self._nframes is None and self.read != 0:
self._nframes = frameOffset - self.read
# set firstFrames if not yet set
if self._firstFrames is None:
self._firstFrames = frameOffset - self.start
markStart = None
markEnd = None
# verify it either read nframes more or went back for verify
if frameOffset > self.read:
delta = frameOffset - self.read
if self._nframes and delta != self._nframes:
# print 'THOMAS: Read %d frames more, not %d' % (
# delta, self._nframes)
# my drive either reads 7 or 13 frames
pass
# update our read sectors hash
markStart = self.read
markEnd = frameOffset
else:
# went back to verify
# we could use firstFrames as an estimate on how many frames this
# read, but this lowers our track quality needlessly where
# EAC still reports 100% track quality
markStart = frameOffset # - self._firstFrames
markEnd = frameOffset
# FIXME: doing this is way too slow even for a testcase, so disable
if False:
for frame in range(markStart, markEnd):
if not frame in self._reads.keys():
self._reads[frame] = 0
self._reads[frame] += 1
# cdparanoia reads quite a bit beyond the current track before it
# goes back to verify; don't count those
if markEnd > self.stop:
markEnd = self.stop
if markStart > self.stop:
markStart = self.stop
self.reads += markEnd - markStart
# update our read pointer
self.read = frameOffset
def _parse_wrote(self, wordOffset):
# cdparanoia outputs most [wrote] calls with one word less than a frame
frameOffset = (wordOffset + 1) / common.WORDS_PER_FRAME
self.wrote = frameOffset
def getTrackQuality(self):
"""
Each frame gets read twice.
More than two reads for a frame reduce track quality.
"""
frames = self.stop - self.start + 1
reads = self.reads
# don't go over a 100%; we know cdparanoia reads each frame at least
# twice
return min(frames * 2.0 / reads, 1.0)
# FIXME: handle errors
class ReadTrackTask(log.Loggable, task.Task):
"""
I am a task that reads a track using cdparanoia.
@ivar reads: how many reads were done to rip the track
"""
description = "Reading track"
quality = None # set at end of reading
speed = None
duration = None # in seconds
_MAXERROR = 100 # number of errors detected by parser
def __init__(self, path, table, start, stop, offset=0, device=None,
action="Reading", what="track"):
"""
Read the given track.
@param path: where to store the ripped track
@type path: unicode
@param table: table of contents of CD
@type table: L{table.Table}
@param start: first frame to rip
@type start: int
@param stop: last frame to rip (inclusive); >= start
@type stop: int
@param offset: read offset, in samples
@type offset: int
@param device: the device to rip from
@type device: str
@param action: a string representing the action; e.g. Read/Verify
@type action: str
@param what: a string representing what's being read; e.g. Track
@type what: str
"""
assert type(path) is unicode, "%r is not unicode" % path
self.path = path
self._table = table
self._start = start
self._stop = stop
self._offset = offset
self._parser = ProgressParser(start, stop)
self._device = device
self._start_time = None
self._buffer = "" # accumulate characters
self._errors = []
self.description = "%s %s" % (action, what)
def start(self, runner):
task.Task.start(self, runner)
# find on which track the range starts and stops
startTrack = 0
startOffset = 0
stopTrack = 0
stopOffset = self._stop
for i, t in enumerate(self._table.tracks):
if self._table.getTrackStart(i + 1) <= self._start:
startTrack = i + 1
startOffset = self._start - self._table.getTrackStart(i + 1)
if self._table.getTrackEnd(i + 1) <= self._stop:
stopTrack = i + 1
stopOffset = self._stop - self._table.getTrackStart(i + 1)
self.debug('Ripping from %d to %d (inclusive)',
self._start, self._stop)
self.debug('Starting at track %d, offset %d',
startTrack, startOffset)
self.debug('Stopping at track %d, offset %d',
stopTrack, stopOffset)
bufsize = 1024
argv = ["cdparanoia", "--stderr-progress",
"--sample-offset=%d" % self._offset, ]
if self._device:
argv.extend(["--force-cdrom-device", self._device, ])
argv.extend(["%d[%s]-%d[%s]" % (
startTrack, common.framesToHMSF(startOffset),
stopTrack, common.framesToHMSF(stopOffset)),
self.path])
self.debug('Running %s' % (" ".join(argv), ))
try:
self._popen = asyncsub.Popen(argv,
bufsize=bufsize,
stdin=subprocess.PIPE, stdout=subprocess.PIPE,
stderr=subprocess.PIPE, close_fds=True)
except OSError, e:
import errno
if e.errno == errno.ENOENT:
raise common.MissingDependencyException('cdparanoia')
raise
self._start_time = time.time()
self.schedule(1.0, self._read, runner)
def _read(self, runner):
ret = self._popen.recv_err()
if not ret:
if self._popen.poll() is not None:
self._done()
return
self.schedule(0.01, self._read, runner)
return
self._buffer += ret
# parse buffer into lines if possible, and parse them
if "\n" in self._buffer:
lines = self._buffer.split('\n')
if lines[-1] != "\n":
# last line didn't end yet
self._buffer = lines[-1]
del lines[-1]
else:
self._buffer = ""
for line in lines:
self._parser.parse(line)
# fail if too many errors
if self._parser.errors > self._MAXERROR:
self.debug('%d errors, terminating', self._parser.errors)
self._popen.terminate()
num = self._parser.wrote - self._start + 1
den = self._stop - self._start + 1
assert den != 0, "stop %d should be >= start %d" % (
self._stop, self._start)
progress = float(num) / float(den)
if progress < 1.0:
self.setProgress(progress)
# 0 does not give us output before we complete, 1.0 gives us output
# too late
self.schedule(0.01, self._read, runner)
def _poll(self, runner):
if self._popen.poll() is None:
self.schedule(1.0, self._poll, runner)
return
self._done()
def _done(self):
end_time = time.time()
self.setProgress(1.0)
# check if the length matches
size = os.stat(self.path)[stat.ST_SIZE]
# wav header is 44 bytes
offsetLength = self._stop - self._start + 1
expected = offsetLength * common.BYTES_PER_FRAME + 44
if size != expected:
# FIXME: handle errors better
self.warning('file size %d did not match expected size %d',
size, expected)
if (size - expected) % common.BYTES_PER_FRAME == 0:
self.warning('%d frames difference' % (
(size - expected) / common.BYTES_PER_FRAME))
else:
self.warning('non-integral amount of frames difference')
self.setAndRaiseException(FileSizeError(self.path,
"File size %d did not match expected size %d" % (
size, expected)))
if not self.exception and self._popen.returncode != 0:
if self._errors:
print "\n".join(self._errors)
else:
self.warning('exit code %r', self._popen.returncode)
self.exception = ReturnCodeError(self._popen.returncode)
self.quality = self._parser.getTrackQuality()
self.duration = end_time - self._start_time
self.speed = (offsetLength / 75.0) / self.duration
self.stop()
return
class ReadVerifyTrackTask(log.Loggable, task.MultiSeparateTask):
"""
I am a task that reads and verifies a track using cdparanoia.
I also encode the track.
The path where the file is stored can be changed if necessary, for
example if the file name is too long.
@ivar path: the path where the file is to be stored.
@ivar checksum: the checksum of the track; set if they match.
@ivar testchecksum: the test checksum of the track.
@ivar copychecksum: the copy checksum of the track.
@ivar testspeed: the test speed of the track, as a multiple of
track duration.
@ivar copyspeed: the copy speed of the track, as a multiple of
track duration.
@ivar testduration: the test duration of the track, in seconds.
@ivar copyduration: the copy duration of the track, in seconds.
@ivar peak: the peak level of the track
"""
checksum = None
testchecksum = None
copychecksum = None
peak = None
quality = None
testspeed = None
copyspeed = None
testduration = None
copyduration = None
_tmpwavpath = None
_tmppath = None
def __init__(self, path, table, start, stop, offset=0, device=None,
profile=None, taglist=None, what="track"):
"""
@param path: where to store the ripped track
@type path: str
@param table: table of contents of CD
@type table: L{table.Table}
@param start: first frame to rip
@type start: int
@param stop: last frame to rip (inclusive)
@type stop: int
@param offset: read offset, in samples
@type offset: int
@param device: the device to rip from
@type device: str
@param profile: the encoding profile
@type profile: L{encode.Profile}
@param taglist: a list of tags
@param taglist: L{gst.TagList}
"""
task.MultiSeparateTask.__init__(self)
self.debug('Creating read and verify task on %r', path)
self.path = path
if taglist:
self.debug('read and verify with taglist %r', taglist)
# FIXME: choose a dir on the same disk/dir as the final path
fd, tmppath = tempfile.mkstemp(suffix='.morituri.wav')
tmppath = unicode(tmppath)
os.close(fd)
self._tmpwavpath = tmppath
# here to avoid import gst eating our options
from morituri.common import checksum
self.tasks = []
self.tasks.append(
ReadTrackTask(tmppath, table, start, stop,
offset=offset, device=device, what=what))
self.tasks.append(checksum.CRC32Task(tmppath))
t = ReadTrackTask(tmppath, table, start, stop,
offset=offset, device=device, action="Verifying", what=what)
self.tasks.append(t)
self.tasks.append(checksum.CRC32Task(tmppath))
fd, tmpoutpath = tempfile.mkstemp(suffix='.morituri.%s' %
profile.extension)
tmpoutpath = unicode(tmpoutpath)
os.close(fd)
self._tmppath = tmpoutpath
# here to avoid import gst eating our options
from morituri.common import encode
self.tasks.append(encode.EncodeTask(tmppath, tmpoutpath, profile,
taglist=taglist, what=what))
# make sure our encoding is accurate
self.tasks.append(checksum.CRC32Task(tmpoutpath))
self.checksum = None
umask = os.umask(0)
os.umask(umask)
self.file_mode = 0666 - umask
def stop(self):
# FIXME: maybe this kind of try-wrapping to make sure
# we chain up should be handled by a parent class function ?
try:
if not self.exception:
self.quality = max(self.tasks[0].quality,
self.tasks[2].quality)
self.peak = self.tasks[4].peak
self.debug('peak: %r', self.peak)
self.testspeed = self.tasks[0].speed
self.copyspeed = self.tasks[2].speed
self.testduration = self.tasks[0].duration
self.copyduration = self.tasks[2].duration
self.testchecksum = c1 = self.tasks[1].checksum
self.copychecksum = c2 = self.tasks[3].checksum
if c1 == c2:
self.info('Checksums match, %08x' % c1)
self.checksum = self.testchecksum
else:
# FIXME: detect this before encoding
self.info('Checksums do not match, %08x %08x' % (
c1, c2))
self.exception = ChecksumException(
'read and verify failed: test checksum')
if self.tasks[5].checksum != self.checksum:
self.exception = ChecksumException(
'Encoding failed, checksum does not match')
# delete the unencoded file
os.unlink(self._tmpwavpath)
os.chmod(self._tmppath, self.file_mode)
if not self.exception:
try:
self.debug('Moving to final path %r', self.path)
shutil.move(self._tmppath, self.path)
except IOError, e:
if e.errno == errno.ENAMETOOLONG:
self.path = common.shrinkPath(self.path)
shutil.move(self._tmppath, self.path)
except Exception, e:
self.debug('Exception while moving to final path %r: '
'%r',
self.path, log.getExceptionMessage(e))
self.exception = e
else:
os.unlink(self._tmppath)
else:
self.debug('stop: exception %r', self.exception)
except Exception, e:
print 'WARNING: unhandled exception %r' % (e, )
task.MultiSeparateTask.stop(self)
_VERSION_RE = re.compile(
"^cdparanoia (?P.+) release (?P.+) \(.*\)")
def getCdParanoiaVersion():
version = "(Unknown)"
try:
p = asyncsub.Popen(["cdparanoia", "-V"],
stdin=subprocess.PIPE, stdout=subprocess.PIPE,
stderr=subprocess.PIPE, close_fds=True)
version = asyncsub.recv_some(p, e=0, stderr=1)
vre = _VERSION_RE.search(version)
if vre and len(vre.groups()) == 2:
version = "%s %s" % (
vre.groupdict().get('version'),
vre.groupdict().get('release'))
except OSError, e:
import errno
if e.errno == errno.ENOENT:
raise common.MissingDependencyException('cdparanoia')
raise
return version
_OK_RE = re.compile(r'Drive tests OK with Paranoia.')
class AnalyzeTask(ctask.PopenTask):
logCategory = 'AnalyzeTask'
description = 'Analyzing drive caching behaviour'
defeatsCache = None
cwd = None
_output = []
def __init__(self, device=None):
# cdparanoia -A *always* writes cdparanoia.log
self.cwd = tempfile.mkdtemp(suffix='.morituri.cache')
self.command = ['cdparanoia', '-A']
if device:
self.command += ['-d', device]
def commandMissing(self):
raise common.MissingDependencyException('cdparanoia')
def readbyteserr(self, bytes):
self._output.append(bytes)
def done(self):
if self.cwd:
shutil.rmtree(self.cwd)
output = "".join(self._output)
m = _OK_RE.search(output)
if m:
self.defeatsCache = True
else:
self.defeatsCache = False
def failed(self):
# cdparanoia exits with return code 1 if it can't determine
# whether it can defeat the audio cache
self.defeatsCache = False
if self.cwd:
shutil.rmtree(self.cwd)