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import unittest
import os
import sys
from supervisor.compat import as_bytes
from supervisor.tests.base import DummyOptions
from supervisor.tests.base import DummyProcess
from supervisor.tests.base import DummyPConfig
from supervisor.tests.base import DummyLogger
from supervisor.tests.base import DummyEvent
class PDispatcherTests(unittest.TestCase):
def setUp(self):
from supervisor.events import clear
clear()
def tearDown(self):
from supervisor.events import clear
clear()
def _getTargetClass(self):
from supervisor.dispatchers import PDispatcher
return PDispatcher
def _makeOne(self, process=None, channel='stdout', fd=0):
return self._getTargetClass()(process, channel, fd)
def test_readable(self):
inst = self._makeOne()
self.assertRaises(NotImplementedError, inst.readable)
def test_writable(self):
inst = self._makeOne()
self.assertRaises(NotImplementedError, inst.writable)
def test_flush(self):
inst = self._makeOne()
self.assertEqual(inst.flush(), None)
class POutputDispatcherTests(unittest.TestCase):
def setUp(self):
from supervisor.events import clear
clear()
def tearDown(self):
from supervisor.events import clear
clear()
def _getTargetClass(self):
from supervisor.dispatchers import POutputDispatcher
return POutputDispatcher
def _makeOne(self, process, channel='stdout'):
from supervisor import events
events = {'stdout': events.ProcessCommunicationStdoutEvent,
'stderr': events.ProcessCommunicationStderrEvent}
# dispatcher derives its channel from event class
return self._getTargetClass()(process, events[channel], 0)
def test_writable(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.writable(), False)
def test_readable_open(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.closed = False
self.assertEqual(dispatcher.readable(), True)
def test_readable_closed(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.closed = True
self.assertEqual(dispatcher.readable(), False)
def test_handle_write_event(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertRaises(NotImplementedError, dispatcher.handle_write_event)
def test_handle_read_event(self):
options = DummyOptions()
options.readfd_result = b'abc'
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_capture_maxbytes=100)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.handle_read_event(), None)
self.assertEqual(dispatcher.output_buffer, b'abc')
def test_handle_read_event_no_data_closes(self):
options = DummyOptions()
options.readfd_result = b''
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_capture_maxbytes=100)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertFalse(dispatcher.closed)
self.assertEqual(dispatcher.handle_read_event(), None)
self.assertEqual(dispatcher.output_buffer, b'')
self.assertTrue(dispatcher.closed)
def test_handle_error(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
try:
raise ValueError('foo')
except:
dispatcher.handle_error()
result = options.logger.data[0]
self.assertTrue(result.startswith(
'uncaptured python exception, closing channel'),result)
def test_toggle_capturemode_sends_event(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo',
stdout_capture_maxbytes=500)
process = DummyProcess(config)
process.pid = 4000
dispatcher = self._makeOne(process)
dispatcher.capturemode = True
dispatcher.capturelog.getvalue = lambda: 'hallooo'
L = []
def doit(event):
L.append(event)
from supervisor import events
events.subscribe(events.EventTypes.PROCESS_COMMUNICATION, doit)
dispatcher.toggle_capturemode()
self.assertEqual(len(L), 1)
event = L[0]
self.assertEqual(event.process, process)
self.assertEqual(event.pid, 4000)
self.assertEqual(event.data, 'hallooo')
def test_removelogs(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.removelogs()
self.assertEqual(dispatcher.normallog.handlers[0].reopened, True)
self.assertEqual(dispatcher.normallog.handlers[0].removed, True)
self.assertEqual(dispatcher.childlog.handlers[0].reopened, True)
self.assertEqual(dispatcher.childlog.handlers[0].removed, True)
def test_reopenlogs(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.reopenlogs()
self.assertEqual(dispatcher.childlog.handlers[0].reopened, True)
self.assertEqual(dispatcher.normallog.handlers[0].reopened, True)
def test_record_output_log_non_capturemode(self):
# stdout/stderr goes to the process log and the main log,
# in non-capturemode, the data length doesn't matter
options = DummyOptions()
from supervisor import loggers
options.loglevel = loggers.LevelsByName.TRAC
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.output_buffer = 'a'
dispatcher.record_output()
self.assertEqual(dispatcher.childlog.data, ['a'])
self.assertEqual(options.logger.data[0],
"'process1' stdout output:\na")
self.assertEqual(dispatcher.output_buffer, b'')
def test_record_output_emits_stdout_event_when_enabled(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_events_enabled=True)
process = DummyProcess(config)
dispatcher = self._makeOne(process, 'stdout')
dispatcher.output_buffer = b'hello from stdout'
L = []
def doit(event):
L.append(event)
from supervisor import events
events.subscribe(events.EventTypes.PROCESS_LOG_STDOUT, doit)
dispatcher.record_output()
self.assertEqual(len(L), 1)
event = L[0]
self.assertEqual(event.process, process)
self.assertEqual(event.data, b'hello from stdout')
def test_record_output_does_not_emit_stdout_event_when_disabled(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_events_enabled=False)
process = DummyProcess(config)
dispatcher = self._makeOne(process, 'stdout')
dispatcher.output_buffer = b'hello from stdout'
L = []
def doit(event):
L.append(event)
from supervisor import events
events.subscribe(events.EventTypes.PROCESS_LOG_STDOUT, doit)
dispatcher.record_output()
self.assertEqual(len(L), 0)
def test_record_output_emits_stderr_event_when_enabled(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stderr_events_enabled=True)
process = DummyProcess(config)
dispatcher = self._makeOne(process, 'stderr')
dispatcher.output_buffer = b'hello from stderr'
L = []
def doit(event):
L.append(event)
from supervisor import events
events.subscribe(events.EventTypes.PROCESS_LOG_STDERR, doit)
dispatcher.record_output()
self.assertEqual(len(L), 1)
event = L[0]
self.assertEqual(event.process, process)
self.assertEqual(event.data, b'hello from stderr')
def test_record_output_does_not_emit_stderr_event_when_disabled(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stderr_events_enabled=False)
process = DummyProcess(config)
dispatcher = self._makeOne(process, 'stderr')
dispatcher.output_buffer = b'hello from stderr'
L = []
def doit(event):
L.append(event)
from supervisor import events
events.subscribe(events.EventTypes.PROCESS_LOG_STDERR, doit)
dispatcher.record_output()
self.assertEqual(len(L), 0)
def test_record_output_capturemode_string_longer_than_token(self):
# stdout/stderr goes to the process log and the main log,
# in capturemode, the length of the data needs to be longer
# than the capture token to make it out.
options = DummyOptions()
from supervisor import loggers
options.loglevel = loggers.LevelsByName.TRAC
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo',
stdout_capture_maxbytes=100)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.output_buffer = b'stdout string longer than a token'
dispatcher.record_output()
self.assertEqual(dispatcher.childlog.data,
[b'stdout string longer than a token'])
self.assertEqual(options.logger.data[0],
"'process1' stdout output:\nstdout string longer than a token")
def test_record_output_capturemode_string_not_longer_than_token(self):
# stdout/stderr goes to the process log and the main log,
# in capturemode, the length of the data needs to be longer
# than the capture token to make it out.
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo',
stdout_capture_maxbytes=100)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.output_buffer = 'a'
dispatcher.record_output()
self.assertEqual(dispatcher.childlog.data, [])
self.assertEqual(dispatcher.output_buffer, 'a')
def test_stdout_capturemode_single_buffer(self):
# mike reported that comm events that took place within a single
# output buffer were broken 8/20/2007
from supervisor.events import ProcessCommunicationEvent
from supervisor.events import subscribe
events = []
def doit(event):
events.append(event)
subscribe(ProcessCommunicationEvent, doit)
BEGIN_TOKEN = ProcessCommunicationEvent.BEGIN_TOKEN
END_TOKEN = ProcessCommunicationEvent.END_TOKEN
data = BEGIN_TOKEN + b'hello' + END_TOKEN
options = DummyOptions()
from supervisor.loggers import getLogger
options.getLogger = getLogger # actually use real logger
logfile = '/tmp/log'
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile,
stdout_capture_maxbytes=1000)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
try:
dispatcher.output_buffer = data
dispatcher.record_output()
self.assertEqual(os.path.getsize(logfile), 0)
self.assertEqual(len(dispatcher.output_buffer), 0)
self.assertEqual(len(events), 1)
event = events[0]
from supervisor.events import ProcessCommunicationStdoutEvent
self.assertEqual(event.__class__, ProcessCommunicationStdoutEvent)
self.assertEqual(event.process, process)
self.assertEqual(event.channel, 'stdout')
self.assertEqual(event.data, b'hello')
finally:
try:
dispatcher.capturelog.close()
dispatcher.childlog.close()
os.remove(logfile)
except (OSError, IOError):
pass
def test_stdout_capturemode_multiple_buffers(self):
from supervisor.events import ProcessCommunicationEvent
from supervisor.events import subscribe
events = []
def doit(event):
events.append(event)
subscribe(ProcessCommunicationEvent, doit)
import string
# ascii_letters for python 3
letters = as_bytes(getattr(string, "letters", string.ascii_letters))
digits = as_bytes(string.digits) * 4
BEGIN_TOKEN = ProcessCommunicationEvent.BEGIN_TOKEN
END_TOKEN = ProcessCommunicationEvent.END_TOKEN
data = (letters + BEGIN_TOKEN + digits + END_TOKEN + letters)
# boundaries that split tokens
colon = b':'
broken = data.split(colon)
first = broken[0] + colon
second = broken[1] + colon
third = broken[2]
options = DummyOptions()
from supervisor.loggers import getLogger
options.getLogger = getLogger # actually use real logger
logfile = '/tmp/log'
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile,
stdout_capture_maxbytes=10000)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
try:
dispatcher.output_buffer = first
dispatcher.record_output()
[ x.flush() for x in dispatcher.childlog.handlers ]
with open(logfile, 'rb') as f:
self.assertEqual(f.read(), letters)
self.assertEqual(dispatcher.output_buffer, first[len(letters):])
self.assertEqual(len(events), 0)
dispatcher.output_buffer += second
dispatcher.record_output()
self.assertEqual(len(events), 0)
[ x.flush() for x in dispatcher.childlog.handlers ]
with open(logfile, 'rb') as f:
self.assertEqual(f.read(), letters)
self.assertEqual(dispatcher.output_buffer, first[len(letters):])
self.assertEqual(len(events), 0)
dispatcher.output_buffer += third
dispatcher.record_output()
[ x.flush() for x in dispatcher.childlog.handlers ]
with open(logfile, 'rb') as f:
self.assertEqual(f.read(), letters * 2)
self.assertEqual(len(events), 1)
event = events[0]
from supervisor.events import ProcessCommunicationStdoutEvent
self.assertEqual(event.__class__, ProcessCommunicationStdoutEvent)
self.assertEqual(event.process, process)
self.assertEqual(event.channel, 'stdout')
self.assertEqual(event.data, digits)
finally:
try:
dispatcher.capturelog.close()
dispatcher.childlog.close()
os.remove(logfile)
except (OSError, IOError):
pass
def test_strip_ansi(self):
options = DummyOptions()
options.strip_ansi = True
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
ansi = b'\x1b[34mHello world... this is longer than a token!\x1b[0m'
noansi = b'Hello world... this is longer than a token!'
dispatcher.output_buffer = ansi
dispatcher.record_output()
self.assertEqual(len(dispatcher.childlog.data), 1)
self.assertEqual(dispatcher.childlog.data[0], noansi)
options.strip_ansi = False
dispatcher.output_buffer = ansi
dispatcher.record_output()
self.assertEqual(len(dispatcher.childlog.data), 2)
self.assertEqual(dispatcher.childlog.data[1], ansi)
def test_ctor_no_logfiles(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.capturelog, None)
self.assertEqual(dispatcher.normallog, None)
self.assertEqual(dispatcher.childlog, None)
def test_ctor_logfile_only(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.capturelog, None)
self.assertEqual(dispatcher.normallog.__class__, DummyLogger)
self.assertEqual(dispatcher.childlog, dispatcher.normallog)
def test_ctor_capturelog_only(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_capture_maxbytes=300)
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.capturelog.__class__, DummyLogger)
self.assertEqual(dispatcher.normallog, None)
self.assertEqual(dispatcher.childlog, None)
def test_ctor_stdout_logfile_is_empty_string(self):
from supervisor.datatypes import logfile_name
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile_name(''))
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.normallog, None)
def test_ctor_stdout_logfile_none_and_stdout_syslog_false(self):
from supervisor.datatypes import boolean, logfile_name
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile_name('NONE'),
stdout_syslog=boolean('false'))
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.normallog, None)
def test_ctor_stdout_logfile_none_and_stdout_syslog_true(self):
from supervisor.datatypes import boolean, logfile_name
from supervisor.loggers import LevelsByName, SyslogHandler
from supervisor.options import ServerOptions
options = ServerOptions() # need real options to get a real logger
options.loglevel = LevelsByName.TRAC
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile_name('NONE'),
stdout_syslog=boolean('true'))
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(len(dispatcher.normallog.handlers), 1)
self.assertEqual(dispatcher.normallog.handlers[0].__class__,
SyslogHandler)
def test_ctor_stdout_logfile_str_and_stdout_syslog_false(self):
from supervisor.datatypes import boolean, logfile_name
from supervisor.loggers import FileHandler, LevelsByName
from supervisor.options import ServerOptions
options = ServerOptions() # need real options to get a real logger
options.loglevel = LevelsByName.TRAC
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile_name('/tmp/foo'),
stdout_syslog=boolean('false'))
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(len(dispatcher.normallog.handlers), 1)
self.assertEqual(dispatcher.normallog.handlers[0].__class__, FileHandler)
dispatcher.normallog.close()
def test_ctor_stdout_logfile_str_and_stdout_syslog_true(self):
from supervisor.datatypes import boolean, logfile_name
from supervisor.loggers import FileHandler, LevelsByName, SyslogHandler
from supervisor.options import ServerOptions
options = ServerOptions() # need real options to get a real logger
options.loglevel = LevelsByName.TRAC
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile=logfile_name('/tmp/foo'),
stdout_syslog=boolean('true'))
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(len(dispatcher.normallog.handlers), 2)
self.assertTrue(any(isinstance(h, FileHandler) for h in
dispatcher.normallog.handlers))
self.assertTrue(any(isinstance(h, SyslogHandler) for h in
dispatcher.normallog.handlers))
dispatcher.normallog.close()
def test_repr(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
drepr = repr(dispatcher)
self.assertTrue('POutputDispatcher' in drepr)
self.assertNotEqual(
drepr.find('supervisor.tests.base.DummyProcess'),
-1)
self.assertTrue(drepr.endswith('(stdout)>'), drepr)
def test_close(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.close()
self.assertEqual(dispatcher.closed, True)
dispatcher.close() # make sure we don't error if we try to close twice
self.assertEqual(dispatcher.closed, True)
class PInputDispatcherTests(unittest.TestCase):
def _getTargetClass(self):
from supervisor.dispatchers import PInputDispatcher
return PInputDispatcher
def _makeOne(self, process):
channel = 'stdin'
return self._getTargetClass()(process, channel, 0)
def test_writable_open_nodata(self):
process = DummyProcess(None)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = 'a'
dispatcher.closed = False
self.assertEqual(dispatcher.writable(), True)
def test_writable_open_withdata(self):
process = DummyProcess(None)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = ''
dispatcher.closed = False
self.assertEqual(dispatcher.writable(), False)
def test_writable_closed_nodata(self):
process = DummyProcess(None)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = 'a'
dispatcher.closed = True
self.assertEqual(dispatcher.writable(), False)
def test_writable_closed_withdata(self):
process = DummyProcess(None)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = ''
dispatcher.closed = True
self.assertEqual(dispatcher.writable(), False)
def test_readable(self):
process = DummyProcess(None)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.readable(), False)
def test_handle_write_event(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = 'halloooo'
self.assertEqual(dispatcher.handle_write_event(), None)
self.assertEqual(options.written[0], 'halloooo')
def test_handle_write_event_nodata(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.input_buffer, b'')
dispatcher.handle_write_event()
self.assertEqual(dispatcher.input_buffer, b'')
self.assertEqual(options.written, {})
def test_handle_write_event_epipe_raised(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = 'halloooo'
import errno
options.write_exception = OSError(errno.EPIPE,
os.strerror(errno.EPIPE))
dispatcher.handle_write_event()
self.assertEqual(dispatcher.input_buffer, b'')
self.assertTrue(options.logger.data[0].startswith(
'fd 0 closed, stopped monitoring'))
self.assertTrue(options.logger.data[0].endswith('(stdin)>'))
def test_handle_write_event_uncaught_raised(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.input_buffer = 'halloooo'
import errno
options.write_exception = OSError(errno.EBADF,
os.strerror(errno.EBADF))
self.assertRaises(OSError, dispatcher.handle_write_event)
def test_handle_write_event_over_os_limit(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
options.write_accept = 1
dispatcher.input_buffer = 'a' * 50
dispatcher.handle_write_event()
self.assertEqual(len(dispatcher.input_buffer), 49)
self.assertEqual(options.written[0], 'a')
def test_handle_read_event(self):
process = DummyProcess(None)
dispatcher = self._makeOne(process)
self.assertRaises(NotImplementedError, dispatcher.handle_read_event)
def test_handle_error(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
try:
raise ValueError('foo')
except:
dispatcher.handle_error()
result = options.logger.data[0]
self.assertTrue(result.startswith(
'uncaptured python exception, closing channel'),result)
def test_repr(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
drepr = repr(dispatcher)
self.assertTrue('PInputDispatcher' in drepr)
self.assertNotEqual(
drepr.find('supervisor.tests.base.DummyProcess'),
-1)
self.assertTrue(drepr.endswith('(stdin)>'), drepr)
def test_close(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.close()
self.assertEqual(dispatcher.closed, True)
dispatcher.close() # make sure we don't error if we try to close twice
self.assertEqual(dispatcher.closed, True)
class PEventListenerDispatcherTests(unittest.TestCase):
def setUp(self):
from supervisor.events import clear
clear()
def tearDown(self):
from supervisor.events import clear
clear()
def _getTargetClass(self):
from supervisor.dispatchers import PEventListenerDispatcher
return PEventListenerDispatcher
def _makeOne(self, process):
channel = 'stdout'
return self._getTargetClass()(process, channel, 0)
def test_writable(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.writable(), False)
def test_readable_open(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.closed = False
self.assertEqual(dispatcher.readable(), True)
def test_readable_closed(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.closed = True
self.assertEqual(dispatcher.readable(), False)
def test_handle_write_event(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertRaises(NotImplementedError, dispatcher.handle_write_event)
def test_handle_read_event_calls_handle_listener_state_change(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
process.listener_state = EventListenerStates.ACKNOWLEDGED
dispatcher = self._makeOne(process)
options.readfd_result = dispatcher.READY_FOR_EVENTS_TOKEN
self.assertEqual(dispatcher.handle_read_event(), None)
self.assertEqual(process.listener_state, EventListenerStates.READY)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(len(dispatcher.childlog.data), 1)
self.assertEqual(dispatcher.childlog.data[0],
dispatcher.READY_FOR_EVENTS_TOKEN)
def test_handle_read_event_nodata(self):
options = DummyOptions()
options.readfd_result = ''
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.handle_read_event(), None)
self.assertEqual(dispatcher.state_buffer, b'')
from supervisor.dispatchers import EventListenerStates
self.assertEqual(dispatcher.process.listener_state,
EventListenerStates.ACKNOWLEDGED)
def test_handle_read_event_logging_nologs(self):
options = DummyOptions()
options.readfd_result = b'supercalifragilisticexpialidocious'
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
# just make sure there are no errors if a child logger doesnt
# exist
self.assertEqual(dispatcher.handle_read_event(), None)
self.assertEqual(dispatcher.childlog, None)
def test_handle_read_event_logging_childlog(self):
options = DummyOptions()
options.readfd_result = b'supercalifragilisticexpialidocious'
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.handle_read_event(), None)
self.assertEqual(len(dispatcher.childlog.data), 1)
self.assertEqual(dispatcher.childlog.data[0],
b'supercalifragilisticexpialidocious')
def test_handle_listener_state_change_from_unknown(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.UNKNOWN
dispatcher.state_buffer = b'whatever'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data, [])
self.assertEqual(process.listener_state, EventListenerStates.UNKNOWN)
def test_handle_listener_state_change_acknowledged_to_ready(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.ACKNOWLEDGED
dispatcher.state_buffer = b'READY\n'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data[0],
'process1: ACKNOWLEDGED -> READY')
self.assertEqual(process.listener_state, EventListenerStates.READY)
def test_handle_listener_state_change_acknowledged_gobbles(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.ACKNOWLEDGED
dispatcher.state_buffer = b'READY\ngarbage\n'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data[0],
'process1: ACKNOWLEDGED -> READY')
self.assertEqual(options.logger.data[1],
'process1: READY -> UNKNOWN')
self.assertEqual(process.listener_state, EventListenerStates.UNKNOWN)
def test_handle_listener_state_change_acknowledged_to_insufficient(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.ACKNOWLEDGED
dispatcher.state_buffer = b'RE'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'RE')
self.assertEqual(options.logger.data, [])
self.assertEqual(process.listener_state,
EventListenerStates.ACKNOWLEDGED)
def test_handle_listener_state_change_acknowledged_to_unknown(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.ACKNOWLEDGED
dispatcher.state_buffer = b'bogus data yo'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data[0],
'process1: ACKNOWLEDGED -> UNKNOWN')
self.assertEqual(options.logger.data[1],
'process1: has entered the UNKNOWN state and will '
'no longer receive events, this usually indicates '
'the process violated the eventlistener protocol')
self.assertEqual(process.listener_state, EventListenerStates.UNKNOWN)
def test_handle_listener_state_change_ready_to_unknown(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.READY
dispatcher.state_buffer = b'bogus data yo'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data[0],
'process1: READY -> UNKNOWN')
self.assertEqual(options.logger.data[1],
'process1: has entered the UNKNOWN state and will '
'no longer receive events, this usually indicates '
'the process violated the eventlistener protocol')
self.assertEqual(process.listener_state, EventListenerStates.UNKNOWN)
def test_handle_listener_state_change_busy_to_insufficient(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.BUSY
dispatcher.state_buffer = b'bogus data yo'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'bogus data yo')
self.assertEqual(process.listener_state, EventListenerStates.BUSY)
def test_handle_listener_state_change_busy_to_acknowledged_procd(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.BUSY
class Dummy:
pass
process.group = Dummy()
process.group.config = Dummy()
from supervisor.dispatchers import default_handler
process.group.config.result_handler = default_handler
dispatcher.state_buffer = b'RESULT 2\nOKabc'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'abc')
self.assertEqual(options.logger.data[0],
'process1: event was processed')
self.assertEqual(options.logger.data[1],
'process1: BUSY -> ACKNOWLEDGED')
self.assertEqual(process.listener_state,
EventListenerStates.ACKNOWLEDGED)
def test_handle_listener_state_change_busy_to_acknowledged_rejected(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.BUSY
class Dummy:
pass
process.group = Dummy()
process.group.config = Dummy()
from supervisor.dispatchers import default_handler
process.group.config.result_handler = default_handler
dispatcher.state_buffer = b'RESULT 4\nFAILabc'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'abc')
self.assertEqual(options.logger.data[0],
'process1: event was rejected')
self.assertEqual(options.logger.data[1],
'process1: BUSY -> ACKNOWLEDGED')
self.assertEqual(process.listener_state,
EventListenerStates.ACKNOWLEDGED)
def test_handle_listener_state_change_busy_to_unknown(self):
from supervisor.events import EventRejectedEvent
from supervisor.events import subscribe
events = []
def doit(event):
events.append(event)
subscribe(EventRejectedEvent, doit)
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.BUSY
current_event = DummyEvent()
process.event = current_event
dispatcher.state_buffer = b'bogus data\n'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data[0],
"process1: bad result line: 'bogus data'")
self.assertEqual(options.logger.data[1],
'process1: BUSY -> UNKNOWN')
self.assertEqual(options.logger.data[2],
'process1: has entered the UNKNOWN state and will '
'no longer receive events, this usually indicates '
'the process violated the eventlistener protocol')
self.assertEqual(process.listener_state,
EventListenerStates.UNKNOWN)
self.assertEqual(events[0].process, process)
self.assertEqual(events[0].event, current_event)
def test_handle_listener_state_busy_gobbles(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
process.listener_state = EventListenerStates.BUSY
class Dummy:
pass
process.group = Dummy()
process.group.config = Dummy()
from supervisor.dispatchers import default_handler
process.group.config.result_handler = default_handler
dispatcher.state_buffer = b'RESULT 2\nOKbogus data\n'
self.assertEqual(dispatcher.handle_listener_state_change(), None)
self.assertEqual(dispatcher.state_buffer, b'')
self.assertEqual(options.logger.data[0],
'process1: event was processed')
self.assertEqual(options.logger.data[1],
'process1: BUSY -> ACKNOWLEDGED')
self.assertEqual(options.logger.data[2],
'process1: ACKNOWLEDGED -> UNKNOWN')
self.assertEqual(options.logger.data[3],
'process1: has entered the UNKNOWN state and will '
'no longer receive events, this usually indicates '
'the process violated the eventlistener protocol')
self.assertEqual(process.listener_state,
EventListenerStates.UNKNOWN)
def test_handle_result_accept(self):
from supervisor.events import subscribe
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
L = []
def doit(event):
L.append(event)
from supervisor import events
subscribe(events.EventRejectedEvent, doit)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
def handle(event, result):
pass
class Dummy:
pass
process.group = Dummy()
process.group.config = Dummy()
process.group.config.result_handler = handle
process.listener_state = EventListenerStates.BUSY
dispatcher.handle_result('foo')
self.assertEqual(len(L), 0)
self.assertEqual(process.listener_state,
EventListenerStates.ACKNOWLEDGED)
self.assertEqual(options.logger.data[0],
'process1: event was processed')
self.assertEqual(options.logger.data[1],
'process1: BUSY -> ACKNOWLEDGED')
def test_handle_result_rejectevent(self):
from supervisor.events import subscribe
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
L = []
def doit(event):
L.append(event)
from supervisor import events
subscribe(events.EventRejectedEvent, doit)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
def rejected(event, result):
from supervisor.dispatchers import RejectEvent
raise RejectEvent(result)
class Dummy:
pass
process.group = Dummy()
process.group.config = Dummy()
process.group.config.result_handler = rejected
process.listener_state = EventListenerStates.BUSY
dispatcher.handle_result('foo')
self.assertEqual(len(L), 1)
self.assertEqual(L[0].__class__, events.EventRejectedEvent)
self.assertEqual(process.listener_state,
EventListenerStates.ACKNOWLEDGED)
self.assertEqual(options.logger.data[0],
'process1: event was rejected')
self.assertEqual(options.logger.data[1],
'process1: BUSY -> ACKNOWLEDGED')
def test_handle_result_exception(self):
from supervisor.events import subscribe
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
L = []
def doit(event):
L.append(event)
from supervisor import events
subscribe(events.EventRejectedEvent, doit)
from supervisor.dispatchers import EventListenerStates
dispatcher = self._makeOne(process)
def exception(event, result):
raise ValueError
class Dummy:
pass
process.group = Dummy()
process.group.config = Dummy()
process.group.config.result_handler = exception
process.group.result_handler = exception
process.listener_state = EventListenerStates.BUSY
dispatcher.handle_result('foo')
self.assertEqual(len(L), 1)
self.assertEqual(L[0].__class__, events.EventRejectedEvent)
self.assertEqual(process.listener_state,
EventListenerStates.UNKNOWN)
self.assertEqual(options.logger.data[0],
'process1: event caused an error')
self.assertEqual(options.logger.data[1],
'process1: BUSY -> UNKNOWN')
self.assertEqual(options.logger.data[2],
'process1: has entered the UNKNOWN state and will '
'no longer receive events, this usually indicates '
'the process violated the eventlistener protocol')
def test_handle_error(self):
options = DummyOptions()
config = DummyPConfig(options, 'test', '/test')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
try:
raise ValueError('foo')
except:
dispatcher.handle_error()
result = options.logger.data[0]
self.assertTrue(result.startswith(
'uncaptured python exception, closing channel'),result)
def test_removelogs(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.removelogs()
self.assertEqual(dispatcher.childlog.handlers[0].reopened, True)
self.assertEqual(dispatcher.childlog.handlers[0].removed, True)
def test_reopenlogs(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.reopenlogs()
self.assertEqual(dispatcher.childlog.handlers[0].reopened, True)
def test_strip_ansi(self):
options = DummyOptions()
options.strip_ansi = True
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
ansi = b'\x1b[34mHello world... this is longer than a token!\x1b[0m'
noansi = b'Hello world... this is longer than a token!'
options.readfd_result = ansi
dispatcher.handle_read_event()
self.assertEqual(len(dispatcher.childlog.data), 1)
self.assertEqual(dispatcher.childlog.data[0], noansi)
options.strip_ansi = False
options.readfd_result = ansi
dispatcher.handle_read_event()
self.assertEqual(len(dispatcher.childlog.data), 2)
self.assertEqual(dispatcher.childlog.data[1], ansi)
def test_ctor_nologfiles(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.childlog, None)
def test_ctor_logfile_only(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1',
stdout_logfile='/tmp/foo')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
self.assertEqual(dispatcher.process, process)
self.assertEqual(dispatcher.channel, 'stdout')
self.assertEqual(dispatcher.fd, 0)
self.assertEqual(dispatcher.childlog.__class__, DummyLogger)
def test_repr(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
drepr = repr(dispatcher)
self.assertTrue('PEventListenerDispatcher' in drepr)
self.assertNotEqual(
drepr.find('supervisor.tests.base.DummyProcess'),
-1)
self.assertTrue(drepr.endswith('(stdout)>'), drepr)
def test_close(self):
options = DummyOptions()
config = DummyPConfig(options, 'process1', '/bin/process1')
process = DummyProcess(config)
dispatcher = self._makeOne(process)
dispatcher.close()
self.assertEqual(dispatcher.closed, True)
dispatcher.close() # make sure we don't error if we try to close twice
self.assertEqual(dispatcher.closed, True)
class stripEscapeTests(unittest.TestCase):
def _callFUT(self, s):
from supervisor.dispatchers import stripEscapes
return stripEscapes(s)
def test_zero_length_string(self):
self.assertEqual(self._callFUT(b''), b'')
def test_ansi(self):
ansi = b'\x1b[34mHello world... this is longer than a token!\x1b[0m'
noansi = b'Hello world... this is longer than a token!'
self.assertEqual(self._callFUT(ansi), noansi)
def test_noansi(self):
noansi = b'Hello world... this is longer than a token!'
self.assertEqual(self._callFUT(noansi), noansi)
def test_suite():
return unittest.findTestCases(sys.modules[__name__])
if __name__ == '__main__':
unittest.main(defaultTest='test_suite')