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Direktori : /proc/self/root/usr/share/apport/symptoms/ |
Current File : //proc/self/root/usr/share/apport/symptoms/_audio_data.py |
# Written by David Henningsson <david.henningsson@canonical.com> # Copyright Canonical Ltd 2011. # Licensed under GPLv3. import re import os import subprocess from apport.hookutils import * class SoundCard: def init_alsa(self, index, name, longname): self.alsa_index = index self.alsa_shortname = name self.alsa_longname = longname self.jacks = parse_jacks(index) def init_pa(self, pactl_card): self.pa_card = pactl_card self.pa_properties = pactl_card['Properties'] self.pa_longname = self.pa_properties['device.description'] if not 'jacks' in self.__dict__: self.jacks = [] def pretty_name(self): try: return '%s - %s' % (self.pa_longname, self.pa_properties['alsa.card_name']) except: if not 'pa_longname' in self.__dict__: return self.alsa_longname return self.pa_longname def has_sink_or_source(self, ssname): # TODO: Check that this works for bluetooth as well, # and/or implement something more sophisticated try: a, b, ssname = ssname.partition(".") return self.pa_card['Name'].find(ssname) != -1 except: return False def get_controlnames(self, isOutput): if isOutput: return set(["PCM", "Hardware Master", "Master", "Master Front", "Front"]) else: return set(["Capture"]) def get_codecinfo(self): try: s = "" for codecpath in glob.glob('/proc/asound/card%s/codec*' % self.alsa_index): if os.path.isfile(codecpath): s = s + read_file(codecpath) return s except: return "" class Jack: def isOutput(self): if self.jack_type.find("Out") != -1: return True if self.jack_type == "Speaker": return True return False def needed_channelcount(self): if self.jack_type == "Line Out": try: colormap = {'Orange': 3, 'Black': 5, 'Grey': 7} return colormap[self.color] except: pass return 1 def get_controlnames(self): if self.isOutput(): # Do not localize c = set(["PCM", "Hardware Master", "Master", "Master Front", "Front"]) if self.jack_type == "Speaker": c |= set(["Speaker", "Desktop Speaker"]) nc = self.needed_channelcount() if nc >= 3: c |= set(["Center", "LFE", "Surround"]) if nc >= 7: c.add("Side") else: c = set(["Capture", self.jack_type]) if self.jack_type.find("Mic"): c.add(self.jack_type+" Boost") return c def pretty_name(self): # Hmm, this is not going to be easy to localize. jack_type = self.jack_type if jack_type == 'HP Out': jack_type = 'Headphone Out' color = self.color if (color != 'Unknown'): jack_type = '%s %s' % (color, jack_type) if self.jack_conns == 'Fixed': return '%s, Internal' % jack_type if self.connectivity == 'Sep': return '%s, %s, Docking station' % (jack_type, self.location) return '%s, %s' % (jack_type, self.location) def parse_jacks(alsa_card_index): ''' Returns list of jacks on a specific card. ''' result = [] dirname = '/proc/asound/card%d' % int(alsa_card_index) for fname in os.listdir(dirname): if not fname.startswith('codec#'): continue codecname = '' for line in open(os.path.join(dirname,fname)): m = re.search('Codec: (.*)', line) if m: codecname = m.groups(1)[0] m = re.search('Pin Default 0x(.*?): \[(.*?)\] (.*?) at (.*?) (.*)', line) if m: item = Jack() item.codecname = codecname item.hex_value = m.groups(1)[0] item.jack_conns = m.groups(1)[1] item.jack_type = m.groups(1)[2] item.connectivity = m.groups(1)[3] item.location = m.groups(1)[4] if not item.jack_conns == 'N/A': result.append(item) continue m = re.search('Conn = (.*?), Color = (.*)', line) if m: item.connection = m.groups(1)[0] item.color = m.groups(1)[1] return result def parse_alsa_cards(): ''' Returns list of SoundCard as seen by alsa ''' # Parse /proc/asound/cards alsacards = [] try: for card in open('/proc/asound/cards'): m = re.search(' (\d+) \[(\w+)\s*\]: (.+)', card) if not m is None: s = SoundCard() s.init_alsa(*tuple(m.groups(1))) alsacards.append(s) except: pass return alsacards def parse_pactl_list(pactlvalues): ''' Returns a structured version of pactl list ''' # Not perfect, but good enough for its purpose result = dict() for line in pactlvalues.splitlines(): m = re.match('^(\w+) #(\d+)', line) if m: category = m.groups(1)[0] index = int(m.groups(1)[1]) if not category in result: result[category] = dict() curitem = dict() result[category][index] = curitem continue m = re.match('^\t(\w+.*?): (.*)', line) if m: curname = m.groups(1)[0] curvalue = m.groups(1)[1] curitem[curname] = curvalue continue m = re.match('^\t(\w+.*?):', line) if m: curname = m.groups(1)[0] curitem[curname] = dict() continue m = re.match('^\t\t(\w+.*?) = "(.*)"', line) if m: curpropname = m.groups(1)[0] curpropvalue = m.groups(1)[1] curitem[curname][curpropname] = curpropvalue return result def add_pa_cards(cards, pactlvalues): if not 'Card' in pactlvalues: return cards for pa_card in pactlvalues['Card'].values(): s = None try: index = pa_card['Properties']['alsa.card'] for c in cards: if index == c.alsa_index: s = c except: pass if not s: s = SoundCard() cards.append(s) s.init_pa(pa_card) return cards def get_pa_default_profile(isOutput): ''' Returns sinkname,sinkprofile,channelcount ''' pactlstat = command_output(['pactl', 'info']) ss = "Default %s: (.*)" % ("Sink" if isOutput else "Source") for line in pactlstat.splitlines(): m = re.match(ss, line) if m: sink = m.groups(1)[0] sinkname, dummy, sinkprofile = sink.rpartition(".") if dummy == '': sinkname = sinkprofile sinkprofile = "analog-stereo" # easy processing later continue # TODO: handle missing sinkname/sinkprofile match? # calculate channel count a = sinkprofile.split('-') cc = 2 if 'mono' in a: cc = 1 elif 'surround' in a: try: # e g surround-51 => 51 => 5+1 => 6 cc = int(a[len(a)-1]) cc = cc/10 + cc % 10 except: cc = 2 return sinkname, sinkprofile, cc def get_hw_title(card, isOutput, jack, text): a = [] if jack is not None: # Get motherboard/system name try: f = open("/sys/class/dmi/id/product_name") a.append(''.join(f.readlines()).strip()) except: pass a.append(jack.codecname) a.append(jack.pretty_name()) else: try: a.append(card.alsa_longname) except: a.append(card.pretty_name()) a.append("playback" if isOutput else "recording") return "[%s] %s" % (', '.join(a), text) def get_users_in_group(groupname): match = "%s:(.*?):(.*?):(.*)" % groupname for line in open("/etc/group"): m = re.match(match, line) if not m: continue s = m.groups(1)[2] return s.split(',') # group does not exist return [] def pa_start_logging(): command_output(['pacmd','set-log-level','4']) command_output(['pacmd','set-log-time','1']) def pa_finish_logging(report): command_output(['pacmd','set-log-level','1']) command_output(['pacmd','set-log-time','0']) s = recent_syslog(re.compile("pulseaudio")) report['Symptom_PulseAudioLog'] = s return s def run_subprocess(report, reportkey, args): ''' Helper function to run a subprocess. Returns stdout and writes stderr, if any, to the report. ''' # avoid localized strings env = os.environ env['LC_MESSAGES'] = 'C' sub_mon = subprocess.Popen(args, stdout=subprocess.PIPE, stderr=subprocess.PIPE, env=env, universal_newlines=True) sub_out, sub_err = sub_mon.communicate() if sub_err is not None and (len(str(sub_err).strip()) > 0): report[reportkey+'Stderr'] = ' '.join(sub_err) return sub_out def parse_cards(): cards = parse_alsa_cards() pactlvalues = run_subprocess(dict(), 'PactlList', ['pactl', 'list']) pactl_parsed = parse_pactl_list(pactlvalues) cards = add_pa_cards(cards, pactl_parsed) return cards '''test Main''' if __name__ == '__main__': cards = parse_cards() for c in cards: print(c.pretty_name()) for j in c.jacks: print(j.pretty_name())