/usr/share/system-config-printer/monitor.py is in system-config-printer-common 1.4.3+20140219-0ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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## Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012 Red Hat, Inc.
## Author: Tim Waugh <twaugh@redhat.com>
## This program 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 2 of the License, or
## (at your option) any later version.
## This program 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 this program; if not, write to the Free Software
## Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
import config
import cups
cups.require("1.9.50")
import dbus
import dbus.glib
from gi.repository import GObject
from gi.repository import GLib
import time
from debug import *
import pprint
import gettext
gettext.install(domain=config.PACKAGE, localedir=config.localedir, unicode=True)
import ppdcache
import statereason
from statereason import StateReason
CONNECTING_TIMEOUT = 60 # seconds
MIN_REFRESH_INTERVAL = 1 # seconds
def state_reason_is_harmless (reason):
if (reason.startswith ("moving-to-paused") or
reason.startswith ("paused") or
reason.startswith ("shutdown") or
reason.startswith ("stopping") or
reason.startswith ("stopped-partly")):
return True
return False
def collect_printer_state_reasons (connection, ppdcache):
result = {}
try:
printers = connection.getPrinters ()
except cups.IPPError:
return result
for name, printer in printers.iteritems ():
reasons = printer["printer-state-reasons"]
for reason in reasons:
if reason == "none":
break
if state_reason_is_harmless (reason):
continue
if not result.has_key (name):
result[name] = []
result[name].append (StateReason (name, reason, ppdcache))
return result
class Monitor(GObject.GObject):
__gsignals__ = {
'refresh': (GObject.SIGNAL_RUN_LAST, None, ()),
'monitor-exited' : (GObject.SIGNAL_RUN_LAST, None, ()),
'state-reason-added': (GObject.SIGNAL_RUN_LAST, None,
(GObject.TYPE_PYOBJECT,)),
'state-reason-removed': (GObject.SIGNAL_RUN_LAST, None,
(GObject.TYPE_PYOBJECT,)),
'still-connecting': (GObject.SIGNAL_RUN_LAST, None,
(GObject.TYPE_PYOBJECT,)),
'now-connected': (GObject.SIGNAL_RUN_LAST, None,
(str,)),
'job-added': (GObject.SIGNAL_RUN_LAST, None,
(int, str,
GObject.TYPE_PYOBJECT,
GObject.TYPE_PYOBJECT,)),
'job-event': (GObject.SIGNAL_RUN_LAST, None,
(int, str,
GObject.TYPE_PYOBJECT,
GObject.TYPE_PYOBJECT,)),
'job-removed': (GObject.SIGNAL_RUN_LAST, None,
(int, str,
GObject.TYPE_PYOBJECT,)),
'printer-added': (GObject.SIGNAL_RUN_LAST, None,
(str,)),
'printer-event': (GObject.SIGNAL_RUN_LAST, None,
(str, str,
GObject.TYPE_PYOBJECT,)),
'printer-removed': (GObject.SIGNAL_RUN_LAST, None,
(str,)),
'cups-connection-error': (GObject.SIGNAL_RUN_LAST, None, ()),
'cups-connection-recovered': (GObject.SIGNAL_RUN_LAST, None, ()),
'cups-ipp-error': (GObject.SIGNAL_RUN_LAST, None,
(int, str,))
}
# Monitor jobs and printers.
DBUS_PATH="/com/redhat/PrinterSpooler"
DBUS_IFACE="com.redhat.PrinterSpooler"
def __init__(self, bus=None, my_jobs=True,
specific_dests=None, monitor_jobs=True, host=None,
port=None, encryption=None):
GObject.GObject.__init__ (self)
self.my_jobs = my_jobs
self.specific_dests = specific_dests
self.monitor_jobs = monitor_jobs
self.jobs = {}
self.printer_state_reasons = {}
self.printers = set()
self.process_pending_events = True
self.fetch_jobs_timer = None
self.cups_connection_in_error = False
if host:
cups.setServer (host)
if port:
cups.setPort (port)
if encryption:
cups.setEncryption (encryption)
self.user = cups.getUser ()
self.host = cups.getServer ()
self.port = cups.getPort ()
self.encryption = cups.getEncryption ()
self.ppdcache = ppdcache.PPDCache (host=self.host,
port=self.port,
encryption=self.encryption)
self.which_jobs = "not-completed"
self.reasons_seen = {}
self.connecting_timers = {}
self.still_connecting = set()
self.connecting_to_device = {}
self.received_any_dbus_signals = False
self.update_timer = None
if bus == None:
try:
bus = dbus.SystemBus ()
except dbus.exceptions.DBusException:
# System bus not running.
pass
self.bus = bus
if bus != None:
bus.add_signal_receiver (self.handle_dbus_signal,
path=self.DBUS_PATH,
dbus_interface=self.DBUS_IFACE)
self.sub_id = -1
def get_printers (self):
return self.printers.copy ()
def get_jobs (self):
return self.jobs.copy ()
def get_ppdcache (self):
return self.ppdcache
def cleanup (self):
if self.sub_id != -1:
user = cups.getUser ()
try:
cups.setUser (self.user)
c = cups.Connection (host=self.host,
port=self.port,
encryption=self.encryption)
c.cancelSubscription (self.sub_id)
debugprint ("Canceled subscription %d" % self.sub_id)
except:
pass
cups.setUser (user)
if self.bus != None:
self.bus.remove_signal_receiver (self.handle_dbus_signal,
path=self.DBUS_PATH,
dbus_interface=self.DBUS_IFACE)
timers = self.connecting_timers.values ()
for timer in [self.update_timer, self.fetch_jobs_timer]:
if timer:
timers.append (timer)
for timer in timers:
GLib.source_remove (timer)
self.emit ('monitor-exited')
def set_process_pending (self, whether):
self.process_pending_events = whether
def check_still_connecting(self, printer):
"""Timer callback to check on connecting-to-device reasons."""
if not self.process_pending_events:
# Defer the timer by setting a new one.
timer = GLib.timeout_add (200, self.check_still_connecting,
printer)
self.connecting_timers[printer] = timer
return False
if self.connecting_timers.has_key (printer):
del self.connecting_timers[printer]
debugprint ("Still-connecting timer fired for `%s'" % printer)
(printer_jobs, my_printers) = self.sort_jobs_by_printer ()
self.update_connecting_devices (printer_jobs)
# Don't run this callback again.
return False
def update_connecting_devices(self, printer_jobs={}):
"""Updates connecting_to_device dict and still_connecting set."""
time_now = time.time ()
connecting_to_device = {}
trouble = False
for printer, reasons in self.printer_state_reasons.iteritems ():
connected = True
for reason in reasons:
if reason.get_reason () == "connecting-to-device":
have_processing_job = False
for job, data in \
printer_jobs.get (printer, {}).iteritems ():
state = data.get ('job-state',
cups.IPP_JOB_CANCELED)
if state == cups.IPP_JOB_PROCESSING:
have_processing_job = True
break
if not have_processing_job:
debugprint ("Ignoring stale connecting-to-device x")
continue
# Build a new connecting_to_device dict. If our existing
# dict already has an entry for this printer, use that.
printer = reason.get_printer ()
t = self.connecting_to_device.get (printer, time_now)
connecting_to_device[printer] = t
debugprint ("Connecting time: %d" % (time_now - t))
if time_now - t >= CONNECTING_TIMEOUT:
if have_processing_job:
if printer not in self.still_connecting:
self.still_connecting.add (printer)
self.emit ('still-connecting', reason)
if self.connecting_timers.has_key (printer):
GLib.source_remove (self.connecting_timers
[printer])
del self.connecting_timers[printer]
debugprint ("Stopped connecting timer "
"for `%s'" % printer)
connected = False
break
if connected and self.connecting_timers.has_key (printer):
GLib.source_remove (self.connecting_timers[printer])
del self.connecting_timers[printer]
debugprint ("Stopped connecting timer for `%s'" % printer)
# Clear any previously-notified errors that are now fine.
remove = set()
for printer in self.still_connecting:
if not connecting_to_device.has_key (printer):
remove.add (printer)
self.emit ('now-connected', printer)
if self.connecting_timers.has_key (printer):
GLib.source_remove (self.connecting_timers[printer])
del self.connecting_timers[printer]
debugprint ("Stopped connecting timer for `%s'" % printer)
self.still_connecting = self.still_connecting.difference (remove)
self.connecting_to_device = connecting_to_device
def check_state_reasons(self, my_printers=set(), printer_jobs={}):
# Look for any new reasons since we last checked.
old_reasons_seen_keys = self.reasons_seen.keys ()
reasons_now = set()
for printer, reasons in self.printer_state_reasons.iteritems ():
for reason in reasons:
tuple = reason.get_tuple ()
printer = reason.get_printer ()
reasons_now.add (tuple)
if not self.reasons_seen.has_key (tuple):
# New reason.
GLib.idle_add (lambda x:
self.emit ('state-reason-added', x),
reason)
self.reasons_seen[tuple] = reason
if (reason.get_reason () == "connecting-to-device" and
not self.connecting_to_device.has_key (printer)):
# First time we've seen this.
have_processing_job = False
for job, data in \
printer_jobs.get (printer, {}).iteritems ():
state = data.get ('job-state',
cups.IPP_JOB_CANCELED)
if state == cups.IPP_JOB_PROCESSING:
have_processing_job = True
break
if have_processing_job:
t = GLib.timeout_add_seconds (
(1 + CONNECTING_TIMEOUT),
self.check_still_connecting,
printer)
self.connecting_timers[printer] = t
debugprint ("Start connecting timer for `%s'" %
printer)
else:
# Don't notify about this, as it must be stale.
debugprint ("Ignoring stale connecting-to-device")
if get_debugging ():
debugprint (pprint.pformat (printer_jobs))
self.update_connecting_devices (printer_jobs)
items = self.reasons_seen.keys ()
for tuple in items:
if not tuple in reasons_now:
# Reason no longer present.
reason = self.reasons_seen[tuple]
del self.reasons_seen[tuple]
GLib.idle_add (lambda x: self.emit ('state-reason-removed', x),
reason)
def get_notifications(self):
if not self.process_pending_events:
# Defer the timer callback.
if self.update_timer:
GLib.source_remove (self.update_timer)
self.update_timer = GLib.timeout_add (200,
self.get_notifications)
debugprint ("Deferred get_notifications by 200ms")
return False
debugprint ("get_notifications")
user = cups.getUser ()
try:
cups.setUser (self.user)
c = cups.Connection (host=self.host,
port=self.port,
encryption=self.encryption)
try:
try:
notifications = c.getNotifications ([self.sub_id],
[self.sub_seq + 1])
except AttributeError:
notifications = c.getNotifications ([self.sub_id])
except cups.IPPError as e:
(e, m) = e.args
cups.setUser (user)
if e == cups.IPP_NOT_FOUND:
# Subscription lease has expired.
self.sub_id = -1
debugprint ("Subscription not found, will refresh")
self.refresh ()
return False
self.emit ('cups-ipp-error', e, m)
if e == cups.IPP_FORBIDDEN:
return False
debugprint ("getNotifications failed with %d (%s)" % (e, m))
return True
except RuntimeError:
cups.setUser (user)
debugprint ("cups-connection-error, will retry")
self.cups_connection_in_error = True
self.emit ('cups-connection-error')
return True
if self.cups_connection_in_error:
self.cups_connection_in_error = False
debugprint ("cups-connection-recovered")
self.emit ('cups-connection-recovered')
cups.setUser (user)
jobs = self.jobs.copy ()
for event in notifications['events']:
seq = event['notify-sequence-number']
self.sub_seq = seq
nse = event['notify-subscribed-event']
debugprint ("%d %s %s" % (seq, nse, event['notify-text']))
if get_debugging ():
debugprint (pprint.pformat (event))
if nse.startswith ('printer-'):
# Printer events
name = event['printer-name']
if nse == 'printer-added' and name not in self.printers:
self.printers.add (name)
self.emit ('printer-added', name)
elif nse == 'printer-deleted' and name in self.printers:
self.printers.remove (name)
items = self.reasons_seen.keys ()
for tuple in items:
if tuple[1] == name:
reason = self.reasons_seen[tuple]
del self.reasons_seen[tuple]
self.emit ('state-reason-removed', reason)
if self.printer_state_reasons.has_key (name):
del self.printer_state_reasons[name]
self.emit ('printer-removed', name)
elif name in self.printers:
printer_state_reasons = event['printer-state-reasons']
reasons = []
for reason in printer_state_reasons:
if reason == "none":
break
if state_reason_is_harmless (reason):
continue
reasons.append (StateReason (name, reason,
self.ppdcache))
self.printer_state_reasons[name] = reasons
self.emit ('printer-event', name, nse, event)
continue
# Job events
if not nse.startswith ("job-"):
# Some versions of CUPS give empty
# notify-subscribed-event attributes (STR #3608).
debugprint ("Unhandled nse %s" % repr (nse))
continue
jobid = event['notify-job-id']
if (nse == 'job-created' or
(nse == 'job-state-changed' and
not jobs.has_key (jobid) and
event['job-state'] == cups.IPP_JOB_PROCESSING)):
if (self.specific_dests != None and
event['printer-name'] not in self.specific_dests):
continue
try:
attrs = c.getJobAttributes (jobid)
if (self.my_jobs and
attrs['job-originating-user-name'] != cups.getUser ()):
continue
jobs[jobid] = attrs
except KeyError:
jobs[jobid] = {'job-k-octets': 0}
except cups.IPPError as e:
(e, m) = e.args
self.emit ('cups-ipp-error', e, m)
jobs[jobid] = {'job-k-octets': 0}
self.emit ('job-added', jobid, nse, event, jobs[jobid].copy ())
elif (nse == 'job-completed' or
(nse == 'job-state-changed' and
event['job-state'] == cups.IPP_JOB_COMPLETED)):
if not (self.which_jobs in ['completed', 'all']):
try:
del jobs[jobid]
self.emit ('job-removed', jobid, nse, event)
except KeyError:
pass
continue
try:
job = jobs[jobid]
except KeyError:
continue
for attribute in ['job-state',
'job-name']:
job[attribute] = event[attribute]
if event.has_key ('notify-printer-uri'):
job['job-printer-uri'] = event['notify-printer-uri']
self.emit ('job-event', jobid, nse, event, job.copy ())
self.set_process_pending (False)
self.update_jobs (jobs)
self.jobs = jobs
self.set_process_pending (True)
# Update again when we're told to. If we're getting CUPS
# D-Bus signals, however, rely on those instead.
if not self.received_any_dbus_signals:
if self.update_timer:
GLib.source_remove (self.update_timer)
interval = notifications['notify-get-interval']
t = GLib.timeout_add_seconds (interval,
self.get_notifications)
debugprint ("Next notifications fetch in %ds" % interval)
self.update_timer = t
return False
def refresh(self, which_jobs=None, refresh_all=True):
debugprint ("refresh")
self.emit ('refresh')
if which_jobs != None:
self.which_jobs = which_jobs
user = cups.getUser ()
try:
cups.setUser (self.user)
c = cups.Connection (host=self.host,
port=self.port,
encryption=self.encryption)
except RuntimeError:
GLib.idle_add (self.emit, 'cups-connection-error')
cups.setUser (user)
return
if self.sub_id != -1:
try:
c.cancelSubscription (self.sub_id)
except cups.IPPError as e:
(e, m) = e.args
GLib.idle_add (lambda (e, m):
self.emit ('cups-ipp-error', e, m),
(e, m))
if self.update_timer:
GLib.source_remove (self.update_timer)
debugprint ("Canceled subscription %d" % self.sub_id)
try:
del self.sub_seq
except AttributeError:
pass
events = ["printer-added",
"printer-deleted",
"printer-state-changed"]
if self.monitor_jobs:
events.extend (["job-created",
"job-completed",
"job-stopped",
"job-state-changed",
"job-progress"])
try:
self.sub_id = c.createSubscription ("/", events=events)
debugprint ("Created subscription %d, events=%s" % (self.sub_id,
repr (events)))
except cups.IPPError as e:
(e, m) = e.args
GLib.idle_add (lambda (e, m):
self.emit ('cups-ipp-error', e, m),
(e, m))
cups.setUser (user)
if self.sub_id != -1:
self.update_timer = GLib.timeout_add_seconds (
MIN_REFRESH_INTERVAL,
self.get_notifications)
debugprint ("Next notifications fetch in %ds" %
MIN_REFRESH_INTERVAL)
if self.monitor_jobs:
jobs = self.jobs.copy ()
if self.which_jobs not in ['all', 'completed']:
# Filter out completed jobs.
filtered = {}
for jobid, job in jobs.iteritems ():
if job.get ('job-state',
cups.IPP_JOB_CANCELED) < cups.IPP_JOB_CANCELED:
filtered[jobid] = job
jobs = filtered
self.fetch_first_job_id = 1
if self.fetch_jobs_timer:
GLib.source_remove (self.fetch_jobs_timer)
self.fetch_jobs_timer = GLib.timeout_add (5, self.fetch_jobs,
refresh_all)
else:
jobs = {}
try:
r = collect_printer_state_reasons (c, self.ppdcache)
self.printer_state_reasons = r
dests = c.getPrinters ()
self.printers = set(dests.keys ())
except cups.IPPError as e:
(e, m) = e.args
GLib.idle_add (lambda (e, m):
self.emit ('cups-ipp-error', e, m),
(e, m))
return
except RuntimeError:
GLib.idle_add (self.emit, 'cups-connection-error')
return
if self.specific_dests != None:
for jobid in jobs.keys ():
uri = jobs[jobid].get('job-printer-uri', '/')
i = uri.rfind ('/')
printer = uri[i + 1:]
if printer not in self.specific_dests:
del jobs[jobid]
self.set_process_pending (False)
for printer in self.printers:
GLib.idle_add (lambda x: self.emit ('printer-added', x), printer)
for jobid, job in jobs.iteritems ():
GLib.idle_add (lambda (jobid, job):
self.emit ('job-added', jobid, '', {}, job),
(jobid, job))
self.update_jobs (jobs)
self.jobs = jobs
self.set_process_pending (True)
return False
def fetch_jobs (self, refresh_all):
if not self.process_pending_events:
# Skip this call. We'll get called again soon.
return True
user = cups.getUser ()
try:
cups.setUser (self.user)
c = cups.Connection (host=self.host,
port=self.port,
encryption=self.encryption)
except RuntimeError:
self.emit ('cups-connection-error')
self.fetch_jobs_timer = None
cups.setUser (user)
return False
limit = 1
r = ["job-id",
"job-printer-uri",
"job-state",
"job-originating-user-name",
"job-k-octets",
"job-name",
"time-at-creation"]
try:
fetched = c.getJobs (which_jobs=self.which_jobs,
my_jobs=self.my_jobs,
first_job_id=self.fetch_first_job_id,
limit=limit,
requested_attributes=r)
except cups.IPPError as e:
(e, m) = e.args
self.emit ('cups-ipp-error', e, m)
self.fetch_jobs_timer = None
cups.setUser (user)
return False
cups.setUser (user)
got = len (fetched)
debugprint ("Got %s jobs, asked for %s" % (got, limit))
jobs = self.jobs.copy ()
jobids = fetched.keys ()
jobids.sort ()
if got > 0:
last_jobid = jobids[got - 1]
if last_jobid < self.fetch_first_job_id:
last_jobid = self.fetch_first_job_id + limit - 1
debugprint ("Unexpected job IDs returned: %s" % repr (jobids))
debugprint ("That's not what we asked for!")
else:
last_jobid = self.fetch_first_job_id + limit - 1
for jobid in xrange (self.fetch_first_job_id, last_jobid + 1):
try:
job = fetched[jobid]
if self.specific_dests != None:
uri = job.get('job-printer-uri', '/')
i = uri.rfind ('/')
printer = uri[i + 1:]
if printer not in self.specific_dests:
raise KeyError
if jobs.has_key (jobid):
n = 'job-event'
else:
n = 'job-added'
jobs[jobid] = job
self.emit (n, jobid, '', {}, job.copy ())
except KeyError:
# No job by that ID.
if jobs.has_key (jobid):
del jobs[jobid]
self.emit ('job-removed', jobid, '', {})
jobids = jobs.keys ()
jobids.sort ()
if got < limit:
trim = False
for i in range (len (jobids)):
jobid = jobids[i]
if not trim and jobid > last_jobid:
trim = True
if trim:
del jobs[jobid]
self.emit ('job-removed', jobid, '', {})
self.update_jobs (jobs)
self.jobs = jobs
if got < limit:
# That's all. Don't run this timer again.
self.fetch_jobs_timer = None
return False
# Remember where we got up to and run this timer again.
next = jobid + 1
while not refresh_all and self.jobs.has_key (next):
next += 1
self.fetch_first_job_id = next
return True
def sort_jobs_by_printer (self, jobs=None):
if jobs == None:
jobs = self.jobs
my_printers = set()
printer_jobs = {}
for job, data in jobs.iteritems ():
state = data.get ('job-state', cups.IPP_JOB_CANCELED)
if state >= cups.IPP_JOB_CANCELED:
continue
uri = data.get ('job-printer-uri', '')
i = uri.rfind ('/')
if i == -1:
continue
printer = uri[i + 1:]
my_printers.add (printer)
if not printer_jobs.has_key (printer):
printer_jobs[printer] = {}
printer_jobs[printer][job] = data
return (printer_jobs, my_printers)
def update_jobs(self, jobs):
debugprint ("update_jobs")
(printer_jobs, my_printers) = self.sort_jobs_by_printer (jobs)
self.check_state_reasons (my_printers, printer_jobs)
def update(self):
if self.update_timer:
GLib.source_remove (self.update_timer)
self.update_timer = GLib.timeout_add (200, self.get_notifications)
debugprint ("Next notifications fetch in 200ms (update called)")
def handle_dbus_signal(self, *args):
debugprint ("D-Bus signal from CUPS... calling update")
self.update ()
if not self.received_any_dbus_signals:
self.received_any_dbus_signals = True
if __name__ == '__main__':
class SignalWatcher:
def __init__ (self, monitor):
monitor.connect ('monitor-exited', self.on_monitor_exited)
monitor.connect ('state-reason-added', self.on_state_reason_added)
monitor.connect ('state-reason-removed',
self.on_state_reason_removed)
monitor.connect ('still-connecting', self.on_still_connecting)
monitor.connect ('now-connected', self.on_now_connected)
monitor.connect ('job-added', self.on_job_added)
monitor.connect ('job-event', self.on_job_event)
monitor.connect ('job-removed', self.on_job_removed)
monitor.connect ('printer-added', self.on_printer_added)
monitor.connect ('printer-event', self.on_printer_event)
monitor.connect ('printer-removed', self.on_printer_removed)
monitor.connect ('cups-connection-error',
self.on_cups_connection_error)
monitor.connect ('cups-ipp-error', self.on_cups_ipp_error)
def on_monitor_exited (self, obj):
print "*%s: monitor exited" % obj
def on_state_reason_added (self, obj, reason):
print "*%s: +%s" % (obj, reason)
def on_state_reason_removed (self, obj, reason):
print "*%s: -%s" % (obj, reason)
def on_still_connecting (self, obj, reason):
print "*%s: still connecting: %s" % (obj, reason)
def on_now_connected (self, obj, printer):
print "*%s: now connected: %s" % (obj, printer)
def on_job_added (self, obj, jobid, eventname, event, jobdata):
print "*%s: job %d added" % (obj, jobid)
def on_job_event (self, obj, jobid, eventname, event, jobdata):
print "*%s: job %d event: %s" % (obj, jobid, event)
def on_job_removed (self, obj, jobid, eventname, event):
print "*%s: job %d removed (%s)"% (obj, jobid, eventname)
def on_printer_added (self, obj, name):
print "*%s: printer added: %s" % (obj, name)
def on_printer_event (self, obj, name, eventname, event):
print "*%s: printer event: %s: %s" % (obj, name, eventname)
def on_printer_removed (self, obj, name):
print "*%s: printer %s removed" % (obj, name)
def on_cups_connection_error (self, obj):
print "*%s: cups connection error" % obj
def on_cups_ipp_error (self, obj, err, errstring):
# cups.IPPError message is (utf-8) encoded
if isinstance(errstring, bytes):
errstring = errstring.decode('utf-8', 'replace')
print "*%s: IPP error (%d): %s" % (obj, err, errstring)
set_debugging (True)
m = Monitor ()
SignalWatcher (m)
m.refresh ()
loop = GObject.MainLoop ()
try:
loop.run ()
finally:
m.cleanup ()
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