mirror of
https://git.kernel.org/pub/scm/network/wireless/iwd.git
synced 2024-11-05 11:39:24 +01:00
63e35dbd88
Certain tests may require external processes to work (e.g. testNetconfig) and if missing the test will just hang until the maximum test timeout. Check in start_process if the exe actually exists and if not throw an exception.
577 lines
14 KiB
Python
577 lines
14 KiB
Python
import os
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import subprocess
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import fcntl
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import sys
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import traceback
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import shutil
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import dbus
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from gi.repository import GLib
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from weakref import WeakValueDictionary
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from re import fullmatch
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from time import sleep
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from runner import RunnerCoreArgParse
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class Process(subprocess.Popen):
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processes = WeakValueDictionary()
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testargs = RunnerCoreArgParse().parse_args()
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def __new__(cls, *args, **kwargs):
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obj = super().__new__(cls)
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cls.processes[id(obj)] = obj
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return obj
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def __init__(self, args, namespace=None, outfile=None, env=None, check=False, cleanup=None):
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self.write_fds = []
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self.io_watch = None
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self.cleanup = cleanup
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self.verbose = False
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self.out = ''
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self.hup = False
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self.killed = False
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self.namespace = namespace
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logfile = args[0]
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if not shutil.which(args[0]):
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raise Exception("%s is not found on system" % args[0])
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if Process.is_verbose(args[0], log=False):
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self.verbose = True
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if namespace:
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args = ['ip', 'netns', 'exec', namespace] + args
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logfile += '-%s' % namespace
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if outfile:
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# outfile is only used by iwmon, in which case we don't want
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# to append to an existing file.
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self._append_outfile(outfile, append=False)
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if self.testargs.log:
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testdir = os.getcwd()
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# Special case any processes started prior to a test
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# (i.e. from testhome). Put these in the root log directory
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if testdir == self.testargs.testhome:
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testdir = '.'
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else:
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testdir = os.path.basename(testdir)
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logfile = '%s/%s/%s' % (self.testargs.log, testdir, logfile)
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self._append_outfile(logfile)
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super().__init__(args, stdout=subprocess.PIPE, stderr=subprocess.STDOUT,
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env=env, cwd=os.getcwd())
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# Set as non-blocking so read() in the IO callback doesn't block forever
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fl = fcntl.fcntl(self.stdout, fcntl.F_GETFL)
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fcntl.fcntl(self.stdout, fcntl.F_SETFL, fl | os.O_NONBLOCK)
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self.io_watch = GLib.io_add_watch(self.stdout, GLib.IO_IN |
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GLib.IO_HUP | GLib.IO_ERR, self.process_io)
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print("Starting process {}".format(self.args))
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if check:
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self.wait(10)
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self.killed = True
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if self.returncode != 0:
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raise subprocess.CalledProcessError(returncode=self.returncode,
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cmd=args)
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@staticmethod
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def is_verbose(process, log=True):
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exclude = ['iwd-rtnl']
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process = os.path.basename(process)
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if Process.testargs is None:
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return False
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# every process is verbose when logging is enabled
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if log and Process.testargs.log and process not in exclude:
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return True
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if process in Process.testargs.verbose:
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return True
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# Special case here to enable verbose output with valgrind running
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if process == 'valgrind' and 'iwd' in Process.testargs.verbose:
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return True
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# Handle any regex matches
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for item in Process.testargs.verbose:
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try:
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if fullmatch(item, process):
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return True
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except Exception as e:
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print("%s is not a valid regex" % item)
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return False
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@classmethod
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def get_all(cls):
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return cls.processes.values()
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@classmethod
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def kill_all(cls):
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for p in cls.processes.values():
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if p.args[0] == 'dmesg':
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continue
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p.kill()
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@staticmethod
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def _write_io(instance, data, stdout=True):
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for f in instance.write_fds:
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f.write(data)
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# Write out a separator so multiple process calls per
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# test are easer to read.
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if instance.hup:
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f.write("Terminated: {}\n\n".format(instance.args))
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f.flush()
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if instance.verbose and stdout:
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sys.__stdout__.write(data)
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sys.__stdout__.flush()
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@classmethod
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def write_separators(cls, test, sep):
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#
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# There are either log running processes (cls.processes) or
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# processes that have terminated already but a log file exists
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# on disk. We still want the separators to show for both cases
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# so after writing separators for running processes, also
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# write them in any additional log files.
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#
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nowrite = []
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for proc in cls.processes.values():
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if proc.killed:
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continue
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cls._write_io(proc, sep, stdout=False)
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nowrite.append(proc.args[0])
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if cls.testargs.log:
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logfiles = os.listdir('%s/%s' % (cls.testargs.log, test))
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extra = list(set(logfiles) - set(nowrite))
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for log in extra:
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logfile = '%s/%s/%s' % (cls.testargs.log, test, log)
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with open(logfile, 'a') as f:
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f.write(sep)
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f.close()
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def process_io(self, source, condition):
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if condition & GLib.IO_HUP:
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self.hup = True
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data = source.read()
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if not data:
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return True
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try:
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data = data.decode('utf-8')
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except:
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return True
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# Save data away in case the caller needs it (e.g. list_sta)
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self.out += data
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self._write_io(self, data)
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return True
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def _append_outfile(self, file, append=True):
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gid = int(os.environ.get('SUDO_GID', os.getgid()))
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uid = int(os.environ.get('SUDO_UID', os.getuid()))
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dir = os.path.dirname(file)
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if not os.path.exists(dir):
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os.mkdir(dir)
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os.chown(dir, uid, gid)
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file = os.path.join(dir,file)
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# If the out file exists, append. Useful for processes like
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# hostapd_cli where it is called multiple times independently.
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if os.path.isfile(file) and append:
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mode = 'a'
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else:
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mode = 'w'
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try:
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f = open(file, mode)
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except Exception as e:
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traceback.print_exc()
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sys.exit(0)
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os.fchown(f.fileno(), uid, gid)
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self.write_fds.append(f)
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def wait_for_socket(self, socket, wait):
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def _wait(socket):
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if not os.path.exists(socket):
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sleep(0.1)
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return False
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return True
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Namespace.non_block_wait(_wait, wait, socket,
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exception=Exception("Timed out waiting for %s" % socket))
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def wait_for_service(self, ns, service, wait):
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def _wait(ns, service):
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if not ns._bus.name_has_owner(service):
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sleep(0.1)
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return False
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return True
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Namespace.non_block_wait(_wait, wait, ns, service,
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exception=Exception("Timed out waiting for %s" % service))
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# Wait for both process termination and HUP signal
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def __wait(self, timeout):
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try:
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super().wait(timeout)
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if not self.hup:
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return False
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return True
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except:
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return False
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# Override wait() so it can do so non-blocking
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def wait(self, timeout=10):
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if timeout == None:
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super().wait()
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return
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Namespace.non_block_wait(self.__wait, timeout, 1)
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self._cleanup()
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def _cleanup(self):
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if self.cleanup:
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self.cleanup()
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self.write_fds = []
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if self.io_watch:
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GLib.source_remove(self.io_watch)
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self.io_watch = None
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self.cleanup = None
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self.killed = True
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# Override kill()
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def kill(self, force=False):
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if self.killed:
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return
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print("Killing process {}".format(self.args))
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if force:
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super().kill()
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else:
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self.terminate()
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try:
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self.wait(timeout=15)
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except:
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print("Process %s did not complete in 15 seconds!" % self.args[0])
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super().kill()
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self._cleanup()
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def __str__(self):
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return str(self.args) + '\n'
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dbus_count = 0
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# Partial DBus config. The remainder (<listen>) will be filled in for each
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# namespace that is created so each individual dbus-daemon has its own socket
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# and address.
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dbus_config = '''
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<!DOCTYPE busconfig PUBLIC \
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"-//freedesktop//DTD D-Bus Bus Configuration 1.0//EN" \
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"http://www.freedesktop.org/standards/dbus/1.0/\
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busconfig.dtd\">
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<busconfig>
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<type>system</type>
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<limit name=\"reply_timeout\">2147483647</limit>
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<auth>ANONYMOUS</auth>
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<allow_anonymous/>
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<policy context=\"default\">
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<allow user=\"*\"/>
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<allow own=\"*\"/>
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<allow send_type=\"method_call\"/>
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<allow send_type=\"signal\"/>
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<allow send_type=\"method_return\"/>
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<allow send_type=\"error\"/>
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<allow receive_type=\"method_call\"/>
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<allow receive_type=\"signal\"/>
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<allow receive_type=\"method_return\"/>
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<allow receive_type=\"error\"/>
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<allow send_destination=\"*\" eavesdrop=\"true\"/>
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<allow eavesdrop=\"true\"/>
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</policy>
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'''
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class Namespace:
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def __init__(self, args, name, radios):
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self.dbus_address = None
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self.name = name
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self.radios = radios
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self.args = args
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Process(['ip', 'netns', 'add', name]).wait()
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for r in radios:
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r.set_namespace(self)
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self.start_dbus()
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def reset(self):
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self._bus = None
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for r in self.radios:
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r._radio = None
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self.radios = []
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Process.kill_all()
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def __del__(self):
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if self.name:
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print("Removing namespace %s" % self.name)
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Process(['ip', 'netns', 'del', self.name]).wait()
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def get_bus(self):
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return self._bus
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def start_process(self, args, env=None, **kwargs):
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if not env:
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env = os.environ.copy()
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if hasattr(self, "dbus_address"):
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# In case this process needs DBus...
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env['DBUS_SYSTEM_BUS_ADDRESS'] = self.dbus_address
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return Process(args, namespace=self.name, env=env, **kwargs)
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def stop_process(self, p, force=False):
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p.kill(force)
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def _is_running(self, pid):
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try:
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os.kill(pid, 0)
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except OSError:
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return False
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return True
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def is_process_running(self, process):
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for p in Process.get_all():
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# Namespace processes are actually started by 'ip' where
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# the actual process name is at index 4 of the arguments.
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idx = 0 if not p.namespace else 4
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if p.namespace == self.name and p.args[idx] == process:
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# The process object exists, but make sure its
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# actually running.
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return self._is_running(p.pid)
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return False
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def _cleanup_dbus(self):
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try:
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os.remove(self.dbus_address.split('=')[1])
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except:
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pass
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os.remove(self.dbus_cfg)
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def start_dbus(self):
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global dbus_count
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self.dbus_address = 'unix:path=/tmp/dbus%d' % dbus_count
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self.dbus_cfg = '/tmp/dbus%d.conf' % dbus_count
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dbus_count += 1
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with open(self.dbus_cfg, 'w+') as f:
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f.write(dbus_config)
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f.write('<listen>%s</listen>\n' % self.dbus_address)
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f.write('</busconfig>\n')
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p = self.start_process(['dbus-daemon', '--config-file=%s' % self.dbus_cfg],
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cleanup=self._cleanup_dbus)
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p.wait_for_socket(self.dbus_address.split('=')[1], 5)
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self._bus = dbus.bus.BusConnection(address_or_type=self.dbus_address)
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def start_iwd(self, config_dir = '/tmp', storage_dir = '/tmp/iwd',
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developer_mode = True):
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args = []
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iwd_radios = ','.join([r.name for r in self.radios if r.use == 'iwd'])
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if self.args.valgrind:
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args.extend(['valgrind', '--leak-check=full', '--track-origins=yes',
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'--show-leak-kinds=all',
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'--log-file=/tmp/valgrind.log.%p'])
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args.append('iwd')
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if developer_mode:
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args.append('-E')
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if iwd_radios != '':
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args.extend(['-p', iwd_radios])
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if Process.is_verbose(args[0]):
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args.append('-d')
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env = os.environ.copy()
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env['CONFIGURATION_DIRECTORY'] = config_dir
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env['STATE_DIRECTORY'] = storage_dir
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if Process.is_verbose('iwd-dhcp'):
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env['IWD_DHCP_DEBUG'] = '1'
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if Process.is_verbose('iwd-tls'):
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env['IWD_TLS_DEBUG'] = '1'
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if Process.is_verbose('iwd-acd'):
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env['IWD_ACD_DEBUG'] = '1'
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if Process.is_verbose('iwd-rtnl'):
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env['IWD_RTNL_DEBUG'] = '1'
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if Process.is_verbose('iwd-sae'):
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env['IWD_SAE_DEBUG'] = '1'
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proc = self.start_process(args, env=env)
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proc.wait_for_service(self, 'net.connman.iwd', 20)
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return proc
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@staticmethod
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def non_block_wait(func, timeout, *args, exception=True):
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'''
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Convenience function for waiting in a non blocking
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manor using GLibs context iteration i.e. does not block
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the main loop while waiting.
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'func' will be called at least once and repeatedly until
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either it returns success, throws an exception, or the
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'timeout' expires.
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'timeout' is the ultimate timeout in seconds
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'*args' will be passed to 'func'
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If 'exception' is an Exception type it will be raised.
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If 'exception' is True a generic TimeoutError will be raised.
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Any other value will not result in an exception.
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'''
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# Simple class for signaling the wait timeout
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class Bool:
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def __init__(self, value):
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self.value = value
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def wait_timeout_cb(done):
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done.value = True
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return False
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mainloop = GLib.MainLoop()
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done = Bool(False)
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timeout = GLib.timeout_add_seconds(timeout, wait_timeout_cb, done)
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context = mainloop.get_context()
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while True:
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try:
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ret = func(*args)
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if ret:
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if not done.value:
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GLib.source_remove(timeout)
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return ret
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except Exception as e:
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if not done.value:
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GLib.source_remove(timeout)
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raise e
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if done.value == True:
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if isinstance(exception, Exception):
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raise exception
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elif type(exception) == bool and exception:
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raise TimeoutError("Timeout on non_block_wait")
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else:
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return
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context.iteration(may_block=True)
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def __str__(self):
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ret = 'Namespace: %s\n' % self.name
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ret += 'Processes:\n'
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for p in Process.get_all():
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ret += '\t%s' % str(p)
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ret += 'Radios:\n'
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if len(self.radios) > 0:
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for r in self.radios:
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ret += '\t%s\n' % str(r)
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else:
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ret += '\tNo Radios\n'
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ret += 'DBus Address: %s\n' % self.dbus_address
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ret += '===================================================\n\n'
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return ret
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class BarChart():
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def __init__(self, height=10, max_width=80):
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self._height = height
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self._max_width = max_width
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self._values = []
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self._max_value = 0
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self._min_value = 0
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def add_value(self, value):
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if len(self._values) == 0:
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self._max_value = int(1.01 * value)
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self._min_value = int(0.99 * value)
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elif value > self._max_value:
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self._max_value = int(1.01 * value)
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elif value < self._min_value:
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self._min_value = int(0.99 * value)
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self._values.append(value)
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def _value_to_stars(self, value):
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# Need to scale value (range of min_value -> max_value) to
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# a range of 0 -> height
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#
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# Scaled = ((value - min_value) / ( max_value - min_value)) * (Height - 0) + 0
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return int(((value - self._min_value) /
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(self._max_value - self._min_value)) * self._height)
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def __str__(self):
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# Need to map value from range 0 - self._height
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ret = ''
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for i, value in enumerate(self._values):
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stars = self._value_to_stars(value)
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ret += '[%3u] ' % i + '%-10s' % ('*' * stars) + '\t\t\t%d\n' % value
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ret += '\n'
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return ret
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