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Filename: //lib/python3/dist-packages///supervisor/tests/test_process.py
import errno import os import signal import tempfile import time import unittest from supervisor.compat import as_bytes from supervisor.compat import maxint from supervisor.tests.base import Mock, patch, sentinel from supervisor.tests.base import DummyOptions from supervisor.tests.base import DummyPConfig from supervisor.tests.base import DummyProcess from supervisor.tests.base import DummyPGroupConfig from supervisor.tests.base import DummyDispatcher from supervisor.tests.base import DummyEvent from supervisor.tests.base import DummyFCGIGroupConfig from supervisor.tests.base import DummySocketConfig from supervisor.tests.base import DummyProcessGroup from supervisor.tests.base import DummyFCGIProcessGroup from supervisor.process import Subprocess from supervisor.options import BadCommand class SubprocessTests(unittest.TestCase): def _getTargetClass(self): from supervisor.process import Subprocess return Subprocess def _makeOne(self, *arg, **kw): return self._getTargetClass()(*arg, **kw) def tearDown(self): from supervisor.events import clear clear() def test_getProcessStateDescription(self): from supervisor.states import ProcessStates from supervisor.process import getProcessStateDescription for statename, code in ProcessStates.__dict__.items(): if isinstance(code, int): self.assertEqual(getProcessStateDescription(code), statename) def test_ctor(self): options = DummyOptions() config = DummyPConfig(options, 'cat', 'bin/cat', stdout_logfile='/tmp/temp123.log', stderr_logfile='/tmp/temp456.log') instance = self._makeOne(config) self.assertEqual(instance.config, config) self.assertEqual(instance.config.options, options) self.assertEqual(instance.laststart, 0) self.assertEqual(instance.pid, 0) self.assertEqual(instance.laststart, 0) self.assertEqual(instance.laststop, 0) self.assertEqual(instance.delay, 0) self.assertFalse(instance.administrative_stop) self.assertFalse(instance.killing) self.assertEqual(instance.backoff, 0) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(instance.spawnerr, None) def test_repr(self): options = DummyOptions() config = DummyPConfig(options, 'cat', 'bin/cat') instance = self._makeOne(config) s = repr(instance) self.assertTrue(s.startswith('<Subprocess at')) self.assertTrue(s.endswith('with name cat in state STOPPED>')) def test_reopenlogs(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.dispatchers = {0:DummyDispatcher(readable=True), 1:DummyDispatcher(writable=True)} instance.reopenlogs() self.assertEqual(instance.dispatchers[0].logs_reopened, True) self.assertEqual(instance.dispatchers[1].logs_reopened, False) def test_removelogs(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.dispatchers = {0:DummyDispatcher(readable=True), 1:DummyDispatcher(writable=True)} instance.removelogs() self.assertEqual(instance.dispatchers[0].logs_removed, True) self.assertEqual(instance.dispatchers[1].logs_removed, False) def test_drain(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test', stdout_logfile='/tmp/foo', stderr_logfile='/tmp/bar') instance = self._makeOne(config) instance.dispatchers = {0:DummyDispatcher(readable=True), 1:DummyDispatcher(writable=True)} instance.drain() self.assertTrue(instance.dispatchers[0].read_event_handled) self.assertTrue(instance.dispatchers[1].write_event_handled) def test_get_execv_args_bad_command_extraquote(self): options = DummyOptions() config = DummyPConfig(options, 'extraquote', 'extraquote"') instance = self._makeOne(config) self.assertRaises(BadCommand, instance.get_execv_args) def test_get_execv_args_bad_command_empty(self): options = DummyOptions() config = DummyPConfig(options, 'empty', '') instance = self._makeOne(config) self.assertRaises(BadCommand, instance.get_execv_args) def test_get_execv_args_bad_command_whitespaceonly(self): options = DummyOptions() config = DummyPConfig(options, 'whitespaceonly', ' \t ') instance = self._makeOne(config) self.assertRaises(BadCommand, instance.get_execv_args) def test_get_execv_args_abs_missing(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere') instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(args, ('/notthere', ['/notthere'])) def test_get_execv_args_abs_withquotes_missing(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere "an argument"') instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(args, ('/notthere', ['/notthere', 'an argument'])) def test_get_execv_args_rel_missing(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', 'notthere') instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(args, ('notthere', ['notthere'])) def test_get_execv_args_rel_withquotes_missing(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', 'notthere "an argument"') instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(args, ('notthere', ['notthere', 'an argument'])) def test_get_execv_args_abs(self): executable = '/bin/sh foo' options = DummyOptions() config = DummyPConfig(options, 'sh', executable) instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(len(args), 2) self.assertEqual(args[0], '/bin/sh') self.assertEqual(args[1], ['/bin/sh', 'foo']) def test_get_execv_args_rel(self): executable = 'sh foo' options = DummyOptions() config = DummyPConfig(options, 'sh', executable) instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(len(args), 2) self.assertEqual(args[0], '/bin/sh') self.assertEqual(args[1], ['sh', 'foo']) def test_get_execv_args_rel_searches_using_pconfig_path(self): with tempfile.NamedTemporaryFile() as f: dirname, basename = os.path.split(f.name) executable = '%s foo' % basename options = DummyOptions() config = DummyPConfig(options, 'sh', executable) config.get_path = lambda: [ dirname ] instance = self._makeOne(config) args = instance.get_execv_args() self.assertEqual(args[0], f.name) self.assertEqual(args[1], [basename, 'foo']) def test_record_spawnerr(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.record_spawnerr('foo') self.assertEqual(instance.spawnerr, 'foo') self.assertEqual(options.logger.data[0], 'spawnerr: foo') def test_spawn_already_running(self): options = DummyOptions() config = DummyPConfig(options, 'sh', '/bin/sh') instance = self._makeOne(config) instance.pid = True from supervisor.states import ProcessStates instance.state = ProcessStates.RUNNING result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.logger.data[0], "process 'sh' already running") self.assertEqual(instance.state, ProcessStates.RUNNING) def test_spawn_fail_check_execv_args(self): options = DummyOptions() config = DummyPConfig(options, 'bad', '/bad/filename') instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.BACKOFF from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(instance.spawnerr, 'bad filename') self.assertEqual(options.logger.data[0], "spawnerr: bad filename") self.assertTrue(instance.delay) self.assertTrue(instance.backoff) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.BACKOFF) self.assertEqual(len(L), 2) event1 = L[0] event2 = L[1] self.assertEqual(event1.__class__, events.ProcessStateStartingEvent) self.assertEqual(event2.__class__, events.ProcessStateBackoffEvent) def test_spawn_fail_make_pipes_emfile(self): options = DummyOptions() options.make_pipes_exception = OSError(errno.EMFILE, os.strerror(errno.EMFILE)) config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.BACKOFF from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(instance.spawnerr, "too many open files to spawn 'good'") self.assertEqual(options.logger.data[0], "spawnerr: too many open files to spawn 'good'") self.assertTrue(instance.delay) self.assertTrue(instance.backoff) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.BACKOFF) self.assertEqual(len(L), 2) event1, event2 = L self.assertEqual(event1.__class__, events.ProcessStateStartingEvent) self.assertEqual(event2.__class__, events.ProcessStateBackoffEvent) def test_spawn_fail_make_pipes_other(self): options = DummyOptions() options.make_pipes_exception = OSError(errno.EPERM, os.strerror(errno.EPERM)) config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.BACKOFF from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) result = instance.spawn() self.assertEqual(result, None) msg = "unknown error making dispatchers for 'good': EPERM" self.assertEqual(instance.spawnerr, msg) self.assertEqual(options.logger.data[0], "spawnerr: %s" % msg) self.assertTrue(instance.delay) self.assertTrue(instance.backoff) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.BACKOFF) self.assertEqual(len(L), 2) event1, event2 = L self.assertEqual(event1.__class__, events.ProcessStateStartingEvent) self.assertEqual(event2.__class__, events.ProcessStateBackoffEvent) def test_spawn_fail_make_dispatchers_eisdir(self): options = DummyOptions() config = DummyPConfig(options, name='cat', command='/bin/cat', stdout_logfile='/a/directory') # not a file def raise_eisdir(envelope): raise IOError(errno.EISDIR) config.make_dispatchers = raise_eisdir instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.BACKOFF from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) result = instance.spawn() self.assertEqual(result, None) msg = "unknown error making dispatchers for 'cat': EISDIR" self.assertEqual(instance.spawnerr, msg) self.assertEqual(options.logger.data[0], "spawnerr: %s" % msg) self.assertTrue(instance.delay) self.assertTrue(instance.backoff) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.BACKOFF) self.assertEqual(len(L), 2) event1, event2 = L self.assertEqual(event1.__class__, events.ProcessStateStartingEvent) self.assertEqual(event2.__class__, events.ProcessStateBackoffEvent) def test_spawn_fork_fail_eagain(self): options = DummyOptions() options.fork_exception = OSError(errno.EAGAIN, os.strerror(errno.EAGAIN)) config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.BACKOFF from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) result = instance.spawn() self.assertEqual(result, None) msg = "Too many processes in process table to spawn 'good'" self.assertEqual(instance.spawnerr, msg) self.assertEqual(options.logger.data[0], "spawnerr: %s" % msg) self.assertEqual(len(options.parent_pipes_closed), 6) self.assertEqual(len(options.child_pipes_closed), 6) self.assertTrue(instance.delay) self.assertTrue(instance.backoff) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.BACKOFF) self.assertEqual(len(L), 2) event1, event2 = L self.assertEqual(event1.__class__, events.ProcessStateStartingEvent) self.assertEqual(event2.__class__, events.ProcessStateBackoffEvent) def test_spawn_fork_fail_other(self): options = DummyOptions() options.fork_exception = OSError(errno.EPERM, os.strerror(errno.EPERM)) config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.BACKOFF from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) result = instance.spawn() self.assertEqual(result, None) msg = "unknown error during fork for 'good': EPERM" self.assertEqual(instance.spawnerr, msg) self.assertEqual(options.logger.data[0], "spawnerr: %s" % msg) self.assertEqual(len(options.parent_pipes_closed), 6) self.assertEqual(len(options.child_pipes_closed), 6) self.assertTrue(instance.delay) self.assertTrue(instance.backoff) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.BACKOFF) self.assertEqual(len(L), 2) event1, event2 = L self.assertEqual(event1.__class__, events.ProcessStateStartingEvent) self.assertEqual(event2.__class__, events.ProcessStateBackoffEvent) def test_spawn_as_child_setuid_ok(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 3) self.assertEqual(len(options.fds_closed), options.minfds - 3) self.assertEqual(options.privsdropped, 1) self.assertEqual(options.execv_args, ('/good/filename', ['/good/filename']) ) self.assertEqual(options.execve_called, True) # if the real execve() succeeds, the code that writes the # "was not spawned" message won't be reached. this assertion # is to test that no other errors were written. self.assertEqual(options.written, {2: "supervisor: child process was not spawned\n"}) def test_spawn_as_child_setuid_fail(self): options = DummyOptions() options.forkpid = 0 options.setuid_msg = 'failure reason' config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 3) self.assertEqual(len(options.fds_closed), options.minfds - 3) self.assertEqual(options.written, {2: "supervisor: couldn't setuid to 1: failure reason\n" "supervisor: child process was not spawned\n"}) self.assertEqual(options.privsdropped, None) self.assertEqual(options.execve_called, False) self.assertEqual(options._exitcode, 127) def test_spawn_as_child_cwd_ok(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', directory='/tmp') instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 3) self.assertEqual(len(options.fds_closed), options.minfds - 3) self.assertEqual(options.execv_args, ('/good/filename', ['/good/filename']) ) self.assertEqual(options.changed_directory, True) self.assertEqual(options.execve_called, True) # if the real execve() succeeds, the code that writes the # "was not spawned" message won't be reached. this assertion # is to test that no other errors were written. self.assertEqual(options.written, {2: "supervisor: child process was not spawned\n"}) def test_spawn_as_child_sets_umask(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', umask=2) instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.execv_args, ('/good/filename', ['/good/filename']) ) self.assertEqual(options.umaskset, 2) self.assertEqual(options.execve_called, True) # if the real execve() succeeds, the code that writes the # "was not spawned" message won't be reached. this assertion # is to test that no other errors were written. self.assertEqual(options.written, {2: "supervisor: child process was not spawned\n"}) def test_spawn_as_child_cwd_fail(self): options = DummyOptions() options.forkpid = 0 options.chdir_exception = OSError(errno.ENOENT, os.strerror(errno.ENOENT)) config = DummyPConfig(options, 'good', '/good/filename', directory='/tmp') instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 3) self.assertEqual(len(options.fds_closed), options.minfds - 3) self.assertEqual(options.execv_args, None) out = {2: "supervisor: couldn't chdir to /tmp: ENOENT\n" "supervisor: child process was not spawned\n"} self.assertEqual(options.written, out) self.assertEqual(options._exitcode, 127) self.assertEqual(options.changed_directory, False) self.assertEqual(options.execve_called, False) def test_spawn_as_child_execv_fail_oserror(self): options = DummyOptions() options.forkpid = 0 options.execv_exception = OSError(errno.EPERM, os.strerror(errno.EPERM)) config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 3) self.assertEqual(len(options.fds_closed), options.minfds - 3) out = {2: "supervisor: couldn't exec /good/filename: EPERM\n" "supervisor: child process was not spawned\n"} self.assertEqual(options.written, out) self.assertEqual(options.privsdropped, None) self.assertEqual(options._exitcode, 127) def test_spawn_as_child_execv_fail_runtime_error(self): options = DummyOptions() options.forkpid = 0 options.execv_exception = RuntimeError(errno.ENOENT) config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 3) self.assertEqual(len(options.fds_closed), options.minfds - 3) msg = options.written[2] # dict, 2 is fd # head = "supervisor: couldn't exec /good/filename:" self.assertTrue(msg.startswith(head)) self.assertTrue("RuntimeError" in msg) self.assertEqual(options.privsdropped, None) self.assertEqual(options._exitcode, 127) def test_spawn_as_child_uses_pconfig_environment(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'cat', '/bin/cat', environment={'_TEST_':'1'}) instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.execv_args, ('/bin/cat', ['/bin/cat']) ) self.assertEqual(options.execv_environment['_TEST_'], '1') def test_spawn_as_child_environment_supervisor_envvars(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'cat', '/bin/cat') instance = self._makeOne(config) class Dummy: name = 'dummy' instance.group = Dummy() instance.group.config = Dummy() result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.execv_args, ('/bin/cat', ['/bin/cat']) ) self.assertEqual( options.execv_environment['SUPERVISOR_ENABLED'], '1') self.assertEqual( options.execv_environment['SUPERVISOR_PROCESS_NAME'], 'cat') self.assertEqual( options.execv_environment['SUPERVISOR_GROUP_NAME'], 'dummy') self.assertEqual( options.execv_environment['SUPERVISOR_SERVER_URL'], 'http://localhost:9001') def test_spawn_as_child_stderr_redirected(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', uid=1) config.redirect_stderr = True instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(options.child_pipes_closed, None) self.assertEqual(options.pgrp_set, True) self.assertEqual(len(options.duped), 2) self.assertEqual(len(options.fds_closed), options.minfds - 3) self.assertEqual(options.privsdropped, 1) self.assertEqual(options.execv_args, ('/good/filename', ['/good/filename']) ) self.assertEqual(options.execve_called, True) # if the real execve() succeeds, the code that writes the # "was not spawned" message won't be reached. this assertion # is to test that no other errors were written. self.assertEqual(options.written, {2: "supervisor: child process was not spawned\n"}) def test_spawn_as_parent(self): options = DummyOptions() options.forkpid = 10 config = DummyPConfig(options, 'good', '/good/filename') instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, 10) self.assertEqual(instance.dispatchers[4].__class__, DummyDispatcher) self.assertEqual(instance.dispatchers[5].__class__, DummyDispatcher) self.assertEqual(instance.dispatchers[7].__class__, DummyDispatcher) self.assertEqual(instance.pipes['stdin'], 4) self.assertEqual(instance.pipes['stdout'], 5) self.assertEqual(instance.pipes['stderr'], 7) self.assertEqual(options.parent_pipes_closed, None) self.assertEqual(len(options.child_pipes_closed), 6) self.assertEqual(options.logger.data[0], "spawned: 'good' with pid 10") self.assertEqual(instance.spawnerr, None) self.assertTrue(instance.delay) self.assertEqual(instance.config.options.pidhistory[10], instance) from supervisor.states import ProcessStates self.assertEqual(instance.state, ProcessStates.STARTING) def test_spawn_redirect_stderr(self): options = DummyOptions() options.forkpid = 10 config = DummyPConfig(options, 'good', '/good/filename', redirect_stderr=True) instance = self._makeOne(config) result = instance.spawn() self.assertEqual(result, 10) self.assertEqual(instance.dispatchers[4].__class__, DummyDispatcher) self.assertEqual(instance.dispatchers[5].__class__, DummyDispatcher) self.assertEqual(instance.pipes['stdin'], 4) self.assertEqual(instance.pipes['stdout'], 5) self.assertEqual(instance.pipes['stderr'], None) def test_write(self): executable = '/bin/cat' options = DummyOptions() config = DummyPConfig(options, 'output', executable) instance = self._makeOne(config) sent = 'a' * (1 << 13) self.assertRaises(OSError, instance.write, sent) options.forkpid = 1 instance.spawn() instance.write(sent) stdin_fd = instance.pipes['stdin'] self.assertEqual(sent, instance.dispatchers[stdin_fd].input_buffer) instance.killing = True self.assertRaises(OSError, instance.write, sent) def test_write_dispatcher_closed(self): executable = '/bin/cat' options = DummyOptions() config = DummyPConfig(options, 'output', executable) instance = self._makeOne(config) sent = 'a' * (1 << 13) self.assertRaises(OSError, instance.write, sent) options.forkpid = 1 instance.spawn() stdin_fd = instance.pipes['stdin'] instance.dispatchers[stdin_fd].close() self.assertRaises(OSError, instance.write, sent) def test_write_stdin_fd_none(self): executable = '/bin/cat' options = DummyOptions() config = DummyPConfig(options, 'output', executable) instance = self._makeOne(config) options.forkpid = 1 instance.spawn() stdin_fd = instance.pipes['stdin'] instance.dispatchers[stdin_fd].close() instance.pipes['stdin'] = None try: instance.write('foo') self.fail('nothing raised') except OSError as exc: self.assertEqual(exc.args[0], errno.EPIPE) self.assertEqual(exc.args[1], 'Process has no stdin channel') def test_write_dispatcher_flush_raises_epipe(self): executable = '/bin/cat' options = DummyOptions() config = DummyPConfig(options, 'output', executable) instance = self._makeOne(config) sent = 'a' * (1 << 13) self.assertRaises(OSError, instance.write, sent) options.forkpid = 1 instance.spawn() stdin_fd = instance.pipes['stdin'] instance.dispatchers[stdin_fd].flush_exception = OSError(errno.EPIPE, os.strerror(errno.EPIPE)) self.assertRaises(OSError, instance.write, sent) def _dont_test_spawn_and_kill(self): # this is a functional test from supervisor.tests.base import makeSpew try: sigchlds = [] def sighandler(*args): sigchlds.append(True) signal.signal(signal.SIGCHLD, sighandler) executable = makeSpew() options = DummyOptions() config = DummyPConfig(options, 'spew', executable) instance = self._makeOne(config) result = instance.spawn() msg = options.logger.data[0] self.assertTrue(msg.startswith("spawned: 'spew' with pid")) self.assertEqual(len(instance.pipes), 6) self.assertTrue(instance.pid) self.assertEqual(instance.pid, result) origpid = instance.pid while 1: try: data = os.popen('ps').read() break except IOError as why: if why.args[0] != errno.EINTR: raise # try again ;-) time.sleep(0.1) # arbitrary, race condition possible self.assertTrue(data.find(as_bytes(repr(origpid))) != -1 ) msg = instance.kill(signal.SIGTERM) time.sleep(0.1) # arbitrary, race condition possible self.assertEqual(msg, None) pid, sts = os.waitpid(-1, os.WNOHANG) data = os.popen('ps').read() self.assertEqual(data.find(as_bytes(repr(origpid))), -1) # dubious self.assertNotEqual(sigchlds, []) finally: try: os.remove(executable) except: pass signal.signal(signal.SIGCHLD, signal.SIG_DFL) def test_stop(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 dispatcher = DummyDispatcher(writable=True) instance.dispatchers = {'foo':dispatcher} from supervisor.states import ProcessStates instance.state = ProcessStates.RUNNING instance.laststopreport = time.time() instance.stop() self.assertTrue(instance.administrative_stop) self.assertEqual(instance.laststopreport, 0) self.assertTrue(instance.delay) self.assertEqual(options.logger.data[0], 'killing test (pid 11) with ' 'signal SIGTERM') self.assertTrue(instance.killing) self.assertEqual(options.kills[11], signal.SIGTERM) def test_stop_not_in_stoppable_state_error(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 dispatcher = DummyDispatcher(writable=True) instance.dispatchers = {'foo':dispatcher} from supervisor.states import ProcessStates instance.state = ProcessStates.STOPPED try: instance.stop() self.fail('nothing raised') except AssertionError as exc: self.assertEqual(exc.args[0], 'Assertion failed for test: ' 'STOPPED not in RUNNING STARTING STOPPING') def test_stop_report_logs_nothing_if_not_stopping_state(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 dispatcher = DummyDispatcher(writable=True) instance.dispatchers = {'foo':dispatcher} from supervisor.states import ProcessStates instance.state = ProcessStates.STOPPED instance.stop_report() self.assertEqual(len(options.logger.data), 0) def test_stop_report_logs_throttled_by_laststopreport(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 dispatcher = DummyDispatcher(writable=True) instance.dispatchers = {'foo':dispatcher} from supervisor.states import ProcessStates instance.state = ProcessStates.STOPPING self.assertEqual(instance.laststopreport, 0) instance.stop_report() self.assertEqual(len(options.logger.data), 1) self.assertEqual(options.logger.data[0], 'waiting for test to stop') self.assertNotEqual(instance.laststopreport, 0) instance.stop_report() self.assertEqual(len(options.logger.data), 1) # throttled def test_stop_report_laststopreport_in_future(self): future_time = time.time() + 3600 # 1 hour into the future options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 dispatcher = DummyDispatcher(writable=True) instance.dispatchers = {'foo':dispatcher} from supervisor.states import ProcessStates instance.state = ProcessStates.STOPPING instance.laststopreport = future_time # This iteration of stop_report() should reset instance.laststopreport # to the current time instance.stop_report() # No logging should have taken place self.assertEqual(len(options.logger.data), 0) # Ensure instance.laststopreport has rolled backward self.assertTrue(instance.laststopreport < future_time) # Sleep for 2 seconds time.sleep(2) # This iteration of stop_report() should actaully trigger the report instance.stop_report() self.assertEqual(len(options.logger.data), 1) self.assertEqual(options.logger.data[0], 'waiting for test to stop') self.assertNotEqual(instance.laststopreport, 0) instance.stop_report() self.assertEqual(len(options.logger.data), 1) # throttled def test_give_up(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.BACKOFF instance.give_up() self.assertTrue(instance.system_stop) self.assertFalse(instance.delay) self.assertFalse(instance.backoff) self.assertEqual(instance.state, ProcessStates.FATAL) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateFatalEvent) def test_kill_nopid(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.kill(signal.SIGTERM) self.assertEqual(options.logger.data[0], 'attempted to kill test with sig SIGTERM but it wasn\'t running') self.assertFalse(instance.killing) def test_kill_from_starting(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.STARTING instance.kill(signal.SIGTERM) self.assertEqual(options.logger.data[0], 'killing test (pid 11) with ' 'signal SIGTERM') self.assertTrue(instance.killing) self.assertEqual(options.kills[11], signal.SIGTERM) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStoppingEvent) def test_kill_from_running(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.RUNNING instance.kill(signal.SIGTERM) self.assertEqual(options.logger.data[0], 'killing test (pid 11) with ' 'signal SIGTERM') self.assertTrue(instance.killing) self.assertEqual(options.kills[11], signal.SIGTERM) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStoppingEvent) def test_kill_from_running_error(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') options.kill_exception = OSError(errno.EPERM, os.strerror(errno.EPERM)) instance = self._makeOne(config) L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 11 instance.state = ProcessStates.RUNNING instance.kill(signal.SIGTERM) self.assertEqual(options.logger.data[0], 'killing test (pid 11) with ' 'signal SIGTERM') self.assertTrue(options.logger.data[1].startswith( 'unknown problem killing test')) self.assertTrue('Traceback' in options.logger.data[1]) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 11) # unchanged self.assertEqual(instance.state, ProcessStates.UNKNOWN) self.assertEqual(len(L), 2) event1 = L[0] event2 = L[1] self.assertEqual(event1.__class__, events.ProcessStateStoppingEvent) self.assertEqual(event2.__class__, events.ProcessStateUnknownEvent) def test_kill_from_running_error_ESRCH(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') options.kill_exception = OSError(errno.ESRCH, os.strerror(errno.ESRCH)) instance = self._makeOne(config) L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 11 instance.state = ProcessStates.RUNNING instance.kill(signal.SIGTERM) self.assertEqual(options.logger.data[0], 'killing test (pid 11) with ' 'signal SIGTERM') self.assertEqual(options.logger.data[1], 'unable to signal test (pid 11), ' 'it probably just exited on its own: %s' % str(options.kill_exception)) self.assertTrue(instance.killing) self.assertEqual(instance.pid, 11) # unchanged self.assertEqual(instance.state, ProcessStates.STOPPING) self.assertEqual(len(L), 1) event1 = L[0] self.assertEqual(event1.__class__, events.ProcessStateStoppingEvent) def test_kill_from_stopping(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.STOPPING instance.kill(signal.SIGKILL) self.assertEqual(options.logger.data[0], 'killing test (pid 11) with ' 'signal SIGKILL') self.assertTrue(instance.killing) self.assertEqual(options.kills[11], signal.SIGKILL) self.assertEqual(L, []) # no event because we didn't change state def test_kill_from_backoff(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.BACKOFF instance.kill(signal.SIGKILL) self.assertEqual(options.logger.data[0], 'Attempted to kill test, which is in BACKOFF state.') self.assertFalse(instance.killing) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStoppedEvent) def test_kill_from_stopping_w_killasgroup(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test', killasgroup=True) instance = self._makeOne(config) instance.pid = 11 L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.STOPPING instance.kill(signal.SIGKILL) self.assertEqual(options.logger.data[0], 'killing test (pid 11) ' 'process group with signal SIGKILL') self.assertTrue(instance.killing) self.assertEqual(options.kills[-11], signal.SIGKILL) self.assertEqual(L, []) # no event because we didn't change state def test_stopasgroup(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test', stopasgroup=True) instance = self._makeOne(config) instance.pid = 11 L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.state = ProcessStates.RUNNING instance.kill(signal.SIGTERM) self.assertEqual(options.logger.data[0], 'killing test (pid 11) ' 'process group with signal SIGTERM') self.assertTrue(instance.killing) self.assertEqual(options.kills[-11], signal.SIGTERM) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStoppingEvent) self.assertEqual(event.extra_values, [('pid', 11)]) self.assertEqual(event.from_state, ProcessStates.RUNNING) def test_signal_from_stopped(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.STOPPED instance.signal(signal.SIGWINCH) self.assertEqual(options.logger.data[0], "attempted to send test sig SIGWINCH " "but it wasn't running") self.assertEqual(len(options.kills), 0) def test_signal_from_running(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.pid = 11 from supervisor.states import ProcessStates instance.state = ProcessStates.RUNNING instance.signal(signal.SIGWINCH) self.assertEqual(options.logger.data[0], 'sending test (pid 11) sig SIGWINCH') self.assertEqual(len(options.kills), 1) self.assertTrue(instance.pid in options.kills) self.assertEqual(options.kills[instance.pid], signal.SIGWINCH) def test_signal_from_running_error_ESRCH(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') options.kill_exception = OSError(errno.ESRCH, os.strerror(errno.ESRCH)) instance = self._makeOne(config) L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 11 instance.state = ProcessStates.RUNNING instance.signal(signal.SIGWINCH) self.assertEqual(options.logger.data[0], 'sending test (pid 11) sig SIGWINCH') self.assertEqual(options.logger.data[1], 'unable to signal test (pid 11), ' 'it probably just now exited on its own: %s' % str(options.kill_exception)) self.assertFalse(instance.killing) self.assertEqual(instance.state, ProcessStates.RUNNING) # unchanged self.assertEqual(instance.pid, 11) # unchanged self.assertEqual(len(L), 0) def test_signal_from_running_error(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') options.kill_exception = OSError(errno.EPERM, os.strerror(errno.EPERM)) instance = self._makeOne(config) L = [] from supervisor.states import ProcessStates from supervisor import events events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 11 instance.state = ProcessStates.RUNNING instance.signal(signal.SIGWINCH) self.assertEqual(options.logger.data[0], 'sending test (pid 11) sig SIGWINCH') self.assertTrue(options.logger.data[1].startswith( 'unknown problem sending sig test (11)')) self.assertTrue('Traceback' in options.logger.data[1]) self.assertFalse(instance.killing) self.assertEqual(instance.state, ProcessStates.UNKNOWN) self.assertEqual(instance.pid, 11) # unchanged self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateUnknownEvent) def test_finish_stopping_state(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo') instance = self._makeOne(config) instance.waitstatus = (123, 1) # pid, waitstatus instance.config.options.pidhistory[123] = instance instance.killing = True pipes = {'stdout':'','stderr':''} instance.pipes = pipes from supervisor.states import ProcessStates from supervisor import events instance.state = ProcessStates.STOPPING L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 123 instance.finish(123, 1) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 0) self.assertEqual(options.parent_pipes_closed, pipes) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(options.logger.data[0], 'stopped: notthere ' '(terminated by SIGHUP)') self.assertEqual(instance.exitstatus, -1) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStoppedEvent) self.assertEqual(event.extra_values, [('pid', 123)]) self.assertEqual(event.from_state, ProcessStates.STOPPING) def test_finish_running_state_exit_expected(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo') instance = self._makeOne(config) instance.config.options.pidhistory[123] = instance pipes = {'stdout':'','stderr':''} instance.pipes = pipes instance.config.exitcodes =[-1] from supervisor.states import ProcessStates from supervisor import events instance.state = ProcessStates.RUNNING L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 123 instance.finish(123, 1) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 0) self.assertEqual(options.parent_pipes_closed, pipes) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(options.logger.data[0], 'exited: notthere (terminated by SIGHUP; expected)') self.assertEqual(instance.exitstatus, -1) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateExitedEvent) self.assertEqual(event.expected, True) self.assertEqual(event.extra_values, [('expected', True), ('pid', 123)]) self.assertEqual(event.from_state, ProcessStates.RUNNING) def test_finish_starting_state_laststart_in_future(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo') instance = self._makeOne(config) instance.config.options.pidhistory[123] = instance pipes = {'stdout':'','stderr':''} instance.pipes = pipes instance.config.exitcodes =[-1] instance.laststart = time.time() + 3600 # 1 hour into the future from supervisor.states import ProcessStates from supervisor import events instance.state = ProcessStates.STARTING L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 123 instance.finish(123, 1) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 0) self.assertEqual(options.parent_pipes_closed, pipes) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(options.logger.data[0], "process 'notthere' (123) laststart time is in the " "future, don't know how long process was running so " "assuming it did not exit too quickly") self.assertEqual(options.logger.data[1], 'exited: notthere (terminated by SIGHUP; expected)') self.assertEqual(instance.exitstatus, -1) self.assertEqual(len(L), 2) event = L[0] self.assertEqual(event.__class__, events.ProcessStateRunningEvent) self.assertEqual(event.expected, True) self.assertEqual(event.extra_values, [('pid', 123)]) self.assertEqual(event.from_state, ProcessStates.STARTING) event = L[1] self.assertEqual(event.__class__, events.ProcessStateExitedEvent) self.assertEqual(event.expected, True) self.assertEqual(event.extra_values, [('expected', True), ('pid', 123)]) self.assertEqual(event.from_state, ProcessStates.RUNNING) def test_finish_starting_state_exited_too_quickly(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo', startsecs=10) instance = self._makeOne(config) instance.config.options.pidhistory[123] = instance pipes = {'stdout':'','stderr':''} instance.pipes = pipes instance.config.exitcodes =[-1] instance.laststart = time.time() from supervisor.states import ProcessStates from supervisor import events instance.state = ProcessStates.STARTING L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 123 instance.finish(123, 1) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 0) self.assertEqual(options.parent_pipes_closed, pipes) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(options.logger.data[0], 'exited: notthere (terminated by SIGHUP; not expected)') self.assertEqual(instance.exitstatus, None) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateBackoffEvent) self.assertEqual(event.from_state, ProcessStates.STARTING) # This tests the case where the process has stayed alive longer than # startsecs (i.e., long enough to enter the RUNNING state), however the # system clock has since rolled backward such that the current time is # greater than laststart but less than startsecs. def test_finish_running_state_exited_too_quickly_due_to_clock_rollback(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo', startsecs=10) instance = self._makeOne(config) instance.config.options.pidhistory[123] = instance pipes = {'stdout':'','stderr':''} instance.pipes = pipes instance.config.exitcodes =[-1] instance.laststart = time.time() from supervisor.states import ProcessStates from supervisor import events instance.state = ProcessStates.RUNNING L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 123 instance.finish(123, 1) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 0) self.assertEqual(options.parent_pipes_closed, pipes) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(options.logger.data[0], 'exited: notthere (terminated by SIGHUP; expected)') self.assertEqual(instance.exitstatus, -1) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateExitedEvent) self.assertEqual(event.expected, True) self.assertEqual(event.extra_values, [('expected', True), ('pid', 123)]) self.assertEqual(event.from_state, ProcessStates.RUNNING) def test_finish_running_state_laststart_in_future(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo') instance = self._makeOne(config) instance.config.options.pidhistory[123] = instance pipes = {'stdout':'','stderr':''} instance.pipes = pipes instance.config.exitcodes =[-1] instance.laststart = time.time() + 3600 # 1 hour into the future from supervisor.states import ProcessStates from supervisor import events instance.state = ProcessStates.RUNNING L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) instance.pid = 123 instance.finish(123, 1) self.assertFalse(instance.killing) self.assertEqual(instance.pid, 0) self.assertEqual(options.parent_pipes_closed, pipes) self.assertEqual(instance.pipes, {}) self.assertEqual(instance.dispatchers, {}) self.assertEqual(options.logger.data[0], "process 'notthere' (123) laststart time is in the " "future, don't know how long process was running so " "assuming it did not exit too quickly") self.assertEqual(options.logger.data[1], 'exited: notthere (terminated by SIGHUP; expected)') self.assertEqual(instance.exitstatus, -1) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateExitedEvent) self.assertEqual(event.expected, True) self.assertEqual(event.extra_values, [('expected', True), ('pid', 123)]) self.assertEqual(event.from_state, ProcessStates.RUNNING) def test_finish_with_current_event_sends_rejected(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) events.subscribe(events.EventRejectedEvent, lambda x: L.append(x)) options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo', startsecs=10) instance = self._makeOne(config) from supervisor.states import ProcessStates instance.state = ProcessStates.RUNNING event = DummyEvent() instance.event = event instance.finish(123, 1) self.assertEqual(len(L), 2) event1, event2 = L self.assertEqual(event1.__class__, events.ProcessStateExitedEvent) self.assertEqual(event2.__class__, events.EventRejectedEvent) self.assertEqual(event2.process, instance) self.assertEqual(event2.event, event) self.assertEqual(instance.event, None) def test_set_uid_no_uid(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.set_uid() self.assertEqual(options.privsdropped, None) def test_set_uid(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test', uid=1) instance = self._makeOne(config) msg = instance.set_uid() self.assertEqual(options.privsdropped, 1) self.assertEqual(msg, None) def test_cmp_bypriority(self): options = DummyOptions() config = DummyPConfig(options, 'notthere', '/notthere', stdout_logfile='/tmp/foo', priority=1) instance = self._makeOne(config) config = DummyPConfig(options, 'notthere1', '/notthere', stdout_logfile='/tmp/foo', priority=2) instance1 = self._makeOne(config) config = DummyPConfig(options, 'notthere2', '/notthere', stdout_logfile='/tmp/foo', priority=3) instance2 = self._makeOne(config) L = [instance2, instance, instance1] L.sort() self.assertEqual(L, [instance, instance1, instance2]) def test_transition_stopped_to_starting_supervisor_stopping(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates, SupervisorStates options = DummyOptions() options.mood = SupervisorStates.SHUTDOWN # this should not be spawned, as supervisor is shutting down pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 0 process.state = ProcessStates.STOPPED process.transition() self.assertEqual(process.state, ProcessStates.STOPPED) self.assertEqual(L, []) def test_transition_stopped_to_starting_supervisor_running(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates, SupervisorStates options = DummyOptions() options.mood = SupervisorStates.RUNNING pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 0 process.state = ProcessStates.STOPPED process.transition() self.assertEqual(process.state, ProcessStates.STARTING) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStartingEvent) def test_transition_exited_to_starting_supervisor_stopping(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates, SupervisorStates options = DummyOptions() options.mood = SupervisorStates.SHUTDOWN # this should not be spawned, as supervisor is shutting down pconfig = DummyPConfig(options, 'process', 'process','/bin/process') from supervisor.datatypes import RestartUnconditionally pconfig.autorestart = RestartUnconditionally process = self._makeOne(pconfig) process.laststart = 1 process.system_stop = True process.state = ProcessStates.EXITED process.transition() self.assertEqual(process.state, ProcessStates.EXITED) self.assertTrue(process.system_stop) self.assertEqual(L, []) def test_transition_exited_to_starting_uncond_supervisor_running(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') from supervisor.datatypes import RestartUnconditionally pconfig.autorestart = RestartUnconditionally process = self._makeOne(pconfig) process.laststart = 1 process.state = ProcessStates.EXITED process.transition() self.assertEqual(process.state, ProcessStates.STARTING) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStartingEvent) def test_transition_exited_to_starting_condit_supervisor_running(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') from supervisor.datatypes import RestartWhenExitUnexpected pconfig.autorestart = RestartWhenExitUnexpected process = self._makeOne(pconfig) process.laststart = 1 process.state = ProcessStates.EXITED process.exitstatus = 'bogus' process.transition() self.assertEqual(process.state, ProcessStates.STARTING) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateStartingEvent) def test_transition_exited_to_starting_condit_fls_supervisor_running(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') from supervisor.datatypes import RestartWhenExitUnexpected pconfig.autorestart = RestartWhenExitUnexpected process = self._makeOne(pconfig) process.laststart = 1 process.state = ProcessStates.EXITED process.exitstatus = 0 process.transition() self.assertEqual(process.state, ProcessStates.EXITED) self.assertEqual(L, []) def test_transition_backoff_to_starting_supervisor_stopping(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates, SupervisorStates options = DummyOptions() options.mood = SupervisorStates.SHUTDOWN pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 1 process.delay = 0 process.backoff = 0 process.state = ProcessStates.BACKOFF process.transition() self.assertEqual(process.state, ProcessStates.BACKOFF) self.assertEqual(L, []) def test_transition_backoff_to_starting_supervisor_running(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates, SupervisorStates options = DummyOptions() options.mood = SupervisorStates.RUNNING pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 1 process.delay = 0 process.backoff = 0 process.state = ProcessStates.BACKOFF process.transition() self.assertEqual(process.state, ProcessStates.STARTING) self.assertEqual(len(L), 1) self.assertEqual(L[0].__class__, events.ProcessStateStartingEvent) def test_transition_backoff_to_starting_supervisor_running_notyet(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates, SupervisorStates options = DummyOptions() options.mood = SupervisorStates.RUNNING pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 1 process.delay = maxint process.backoff = 0 process.state = ProcessStates.BACKOFF process.transition() self.assertEqual(process.state, ProcessStates.BACKOFF) self.assertEqual(L, []) def test_transition_starting_to_running(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() # this should go from STARTING to RUNNING via transition() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.backoff = 1 process.delay = 1 process.system_stop = False process.laststart = 1 process.pid = 1 process.stdout_buffer = 'abc' process.stderr_buffer = 'def' process.state = ProcessStates.STARTING process.transition() # this implies RUNNING self.assertEqual(process.backoff, 0) self.assertEqual(process.delay, 0) self.assertFalse(process.system_stop) self.assertEqual(options.logger.data[0], 'success: process entered RUNNING state, process has ' 'stayed up for > than 10 seconds (startsecs)') self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateRunningEvent) def test_transition_starting_to_running_laststart_in_future(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates future_time = time.time() + 3600 # 1 hour into the future options = DummyOptions() test_startsecs = 2 # this should go from STARTING to RUNNING via transition() pconfig = DummyPConfig(options, 'process', 'process','/bin/process', startsecs=test_startsecs) process = self._makeOne(pconfig) process.backoff = 1 process.delay = 1 process.system_stop = False process.laststart = future_time process.pid = 1 process.stdout_buffer = 'abc' process.stderr_buffer = 'def' process.state = ProcessStates.STARTING # This iteration of transition() should reset process.laststart # to the current time process.transition() # Process state should still be STARTING self.assertEqual(process.state, ProcessStates.STARTING) # Ensure process.laststart has rolled backward self.assertTrue(process.laststart < future_time) # Sleep for (startsecs + 1) time.sleep(test_startsecs + 1) # This iteration of transition() should actaully trigger the state # transition to RUNNING process.transition() # this implies RUNNING self.assertEqual(process.backoff, 0) self.assertEqual(process.delay, 0) self.assertFalse(process.system_stop) self.assertEqual(process.state, ProcessStates.RUNNING) self.assertEqual(options.logger.data[0], 'success: process entered RUNNING state, process has ' 'stayed up for > than {} seconds (startsecs)'.format(test_startsecs)) self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateRunningEvent) def test_transition_backoff_to_starting_delay_in_future(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates future_time = time.time() + 3600 # 1 hour into the future options = DummyOptions() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 1 process.delay = future_time process.backoff = 0 process.state = ProcessStates.BACKOFF # This iteration of transition() should reset process.delay # to the current time process.transition() # Process state should still be BACKOFF self.assertEqual(process.state, ProcessStates.BACKOFF) # Ensure process.delay has rolled backward self.assertTrue(process.delay < future_time) # This iteration of transition() should actaully trigger the state # transition to STARTING process.transition() self.assertEqual(process.state, ProcessStates.STARTING) self.assertEqual(len(L), 1) self.assertEqual(L[0].__class__, events.ProcessStateStartingEvent) def test_transition_backoff_to_fatal(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() # this should go from BACKOFF to FATAL via transition() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.laststart = 1 process.backoff = 10000 process.delay = 1 process.system_stop = False process.stdout_buffer = 'abc' process.stderr_buffer = 'def' process.state = ProcessStates.BACKOFF process.transition() # this implies FATAL self.assertEqual(process.backoff, 0) self.assertEqual(process.delay, 0) self.assertTrue(process.system_stop) self.assertEqual(options.logger.data[0], 'gave up: process entered FATAL state, too many start' ' retries too quickly') self.assertEqual(len(L), 1) event = L[0] self.assertEqual(event.__class__, events.ProcessStateFatalEvent) def test_transition_stops_unkillable_notyet(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.delay = maxint process.state = ProcessStates.STOPPING process.transition() self.assertEqual(process.state, ProcessStates.STOPPING) self.assertEqual(L, []) def test_transition_stops_unkillable(self): from supervisor import events L = [] events.subscribe(events.ProcessStateEvent, lambda x: L.append(x)) from supervisor.states import ProcessStates options = DummyOptions() pconfig = DummyPConfig(options, 'process', 'process','/bin/process') process = self._makeOne(pconfig) process.delay = 0 process.pid = 1 process.killing = False process.state = ProcessStates.STOPPING process.transition() self.assertTrue(process.killing) self.assertNotEqual(process.delay, 0) self.assertEqual(process.state, ProcessStates.STOPPING) self.assertEqual(options.logger.data[0], "killing 'process' (1) with SIGKILL") self.assertEqual(options.kills[1], signal.SIGKILL) self.assertEqual(L, []) def test_change_state_doesnt_notify_if_no_state_change(self): options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.state = 10 self.assertEqual(instance.change_state(10), False) def test_change_state_sets_backoff_and_delay(self): from supervisor.states import ProcessStates options = DummyOptions() config = DummyPConfig(options, 'test', '/test') instance = self._makeOne(config) instance.state = 10 instance.change_state(ProcessStates.BACKOFF) self.assertEqual(instance.backoff, 1) self.assertTrue(instance.delay > 0) class FastCGISubprocessTests(unittest.TestCase): def _getTargetClass(self): from supervisor.process import FastCGISubprocess return FastCGISubprocess def _makeOne(self, *arg, **kw): return self._getTargetClass()(*arg, **kw) def tearDown(self): from supervisor.events import clear clear() def test_no_group(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) self.assertRaises(NotImplementedError, instance.spawn) def test_no_socket_manager(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) instance.group = DummyProcessGroup(DummyPGroupConfig(options)) self.assertRaises(NotImplementedError, instance.spawn) def test_prepare_child_fds(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) sock_config = DummySocketConfig(7) gconfig = DummyFCGIGroupConfig(options, 'whatever', 999, None, sock_config) instance.group = DummyFCGIProcessGroup(gconfig) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(len(options.duped), 3) self.assertEqual(options.duped[7], 0) self.assertEqual(options.duped[instance.pipes['child_stdout']], 1) self.assertEqual(options.duped[instance.pipes['child_stderr']], 2) self.assertEqual(len(options.fds_closed), options.minfds - 3) def test_prepare_child_fds_stderr_redirected(self): options = DummyOptions() options.forkpid = 0 config = DummyPConfig(options, 'good', '/good/filename', uid=1) config.redirect_stderr = True instance = self._makeOne(config) sock_config = DummySocketConfig(13) gconfig = DummyFCGIGroupConfig(options, 'whatever', 999, None, sock_config) instance.group = DummyFCGIProcessGroup(gconfig) result = instance.spawn() self.assertEqual(result, None) self.assertEqual(len(options.duped), 2) self.assertEqual(options.duped[13], 0) self.assertEqual(len(options.fds_closed), options.minfds - 3) def test_before_spawn_gets_socket_ref(self): options = DummyOptions() config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) sock_config = DummySocketConfig(7) gconfig = DummyFCGIGroupConfig(options, 'whatever', 999, None, sock_config) instance.group = DummyFCGIProcessGroup(gconfig) self.assertTrue(instance.fcgi_sock is None) instance.before_spawn() self.assertFalse(instance.fcgi_sock is None) def test_after_finish_removes_socket_ref(self): options = DummyOptions() config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) instance.fcgi_sock = 'hello' instance.after_finish() self.assertTrue(instance.fcgi_sock is None) #Patch Subprocess.finish() method for this test to verify override @patch.object(Subprocess, 'finish', Mock(return_value=sentinel.finish_result)) def test_finish_override(self): options = DummyOptions() config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) instance.after_finish = Mock() result = instance.finish(sentinel.pid, sentinel.sts) self.assertEqual(sentinel.finish_result, result, 'FastCGISubprocess.finish() did not pass thru result') self.assertEqual(1, instance.after_finish.call_count, 'FastCGISubprocess.after_finish() not called once') finish_mock = Subprocess.finish self.assertEqual(1, finish_mock.call_count, 'Subprocess.finish() not called once') pid_arg = finish_mock.call_args[0][1] sts_arg = finish_mock.call_args[0][2] self.assertEqual(sentinel.pid, pid_arg, 'Subprocess.finish() pid arg was not passed') self.assertEqual(sentinel.sts, sts_arg, 'Subprocess.finish() sts arg was not passed') #Patch Subprocess.spawn() method for this test to verify override @patch.object(Subprocess, 'spawn', Mock(return_value=sentinel.ppid)) def test_spawn_override_success(self): options = DummyOptions() config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) instance.before_spawn = Mock() result = instance.spawn() self.assertEqual(sentinel.ppid, result, 'FastCGISubprocess.spawn() did not pass thru result') self.assertEqual(1, instance.before_spawn.call_count, 'FastCGISubprocess.before_spawn() not called once') spawn_mock = Subprocess.spawn self.assertEqual(1, spawn_mock.call_count, 'Subprocess.spawn() not called once') #Patch Subprocess.spawn() method for this test to verify error handling @patch.object(Subprocess, 'spawn', Mock(return_value=None)) def test_spawn_error(self): options = DummyOptions() config = DummyPConfig(options, 'good', '/good/filename', uid=1) instance = self._makeOne(config) instance.before_spawn = Mock() instance.fcgi_sock = 'nuke me on error' result = instance.spawn() self.assertEqual(None, result, 'FastCGISubprocess.spawn() did return None on error') self.assertEqual(1, instance.before_spawn.call_count, 'FastCGISubprocess.before_spawn() not called once') self.assertEqual(None, instance.fcgi_sock, 'FastCGISubprocess.spawn() did not remove sock ref on error') class ProcessGroupBaseTests(unittest.TestCase): def _getTargetClass(self): from supervisor.process import ProcessGroupBase return ProcessGroupBase def _makeOne(self, *args, **kw): return self._getTargetClass()(*args, **kw) def test_get_unstopped_processes(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) group = self._makeOne(gconfig) group.processes = { 'process1': process1 } unstopped = group.get_unstopped_processes() self.assertEqual(unstopped, [process1]) def test_before_remove(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) group = self._makeOne(gconfig) group.processes = { 'process1': process1 } group.before_remove() # shouldn't raise def test_stop_all(self): from supervisor.states import ProcessStates options = DummyOptions() pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPED) pconfig2 = DummyPConfig(options, 'process2', 'process2','/bin/process2') process2 = DummyProcess(pconfig2, state=ProcessStates.RUNNING) pconfig3 = DummyPConfig(options, 'process3', 'process3','/bin/process3') process3 = DummyProcess(pconfig3, state=ProcessStates.STARTING) pconfig4 = DummyPConfig(options, 'process4', 'process4','/bin/process4') process4 = DummyProcess(pconfig4, state=ProcessStates.BACKOFF) process4.delay = 1000 process4.backoff = 10 gconfig = DummyPGroupConfig( options, pconfigs=[pconfig1, pconfig2, pconfig3, pconfig4]) group = self._makeOne(gconfig) group.processes = {'process1': process1, 'process2': process2, 'process3':process3, 'process4':process4} group.stop_all() self.assertEqual(process1.stop_called, False) self.assertEqual(process2.stop_called, True) self.assertEqual(process3.stop_called, True) self.assertEqual(process4.stop_called, False) self.assertEqual(process4.state, ProcessStates.FATAL) def test_get_dispatchers(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPING) process1.dispatchers = {4:None} pconfig2 = DummyPConfig(options, 'process2', 'process2','/bin/process2') process2 = DummyProcess(pconfig2, state=ProcessStates.STOPPING) process2.dispatchers = {5:None} gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1, pconfig2]) group = self._makeOne(gconfig) group.processes = { 'process1': process1, 'process2': process2 } result= group.get_dispatchers() self.assertEqual(result, {4:None, 5:None}) def test_reopenlogs(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) group = self._makeOne(gconfig) group.processes = {'process1': process1} group.reopenlogs() self.assertEqual(process1.logs_reopened, True) def test_removelogs(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) group = self._makeOne(gconfig) group.processes = {'process1': process1} group.removelogs() self.assertEqual(process1.logsremoved, True) def test_ordering_and_comparison(self): options = DummyOptions() gconfig1 = DummyPGroupConfig(options) group1 = self._makeOne(gconfig1) gconfig2 = DummyPGroupConfig(options) group2 = self._makeOne(gconfig2) config3 = DummyPGroupConfig(options) group3 = self._makeOne(config3) group1.config.priority = 5 group2.config.priority = 1 group3.config.priority = 5 L = [group1, group2] L.sort() self.assertEqual(L, [group2, group1]) self.assertNotEqual(group1, group2) self.assertEqual(group1, group3) class ProcessGroupTests(ProcessGroupBaseTests): def _getTargetClass(self): from supervisor.process import ProcessGroup return ProcessGroup def test_repr(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) group = self._makeOne(gconfig) s = repr(group) self.assertTrue('supervisor.process.ProcessGroup' in s) self.assertTrue(s.endswith('named whatever>'), s) def test_transition(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) group = self._makeOne(gconfig) group.processes = {'process1': process1} group.transition() self.assertEqual(process1.transitioned, True) class FastCGIProcessGroupTests(unittest.TestCase): def _getTargetClass(self): from supervisor.process import FastCGIProcessGroup return FastCGIProcessGroup def _makeOne(self, config, **kwargs): cls = self._getTargetClass() return cls(config, **kwargs) def test___init__without_socket_error(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) gconfig.socket_config = None class DummySocketManager(object): def __init__(self, config, logger): pass def get_socket(self): pass self._makeOne(gconfig, socketManager=DummySocketManager) # doesn't fail with exception def test___init__with_socket_error(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) gconfig.socket_config = None class DummySocketManager(object): def __init__(self, config, logger): pass def get_socket(self): raise KeyError(5) def config(self): return 'config' self.assertRaises( ValueError, self._makeOne, gconfig, socketManager=DummySocketManager ) class EventListenerPoolTests(ProcessGroupBaseTests): def setUp(self): from supervisor.events import clear clear() def tearDown(self): from supervisor.events import clear clear() def _getTargetClass(self): from supervisor.process import EventListenerPool return EventListenerPool def test_ctor(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) class EventType: pass gconfig.pool_events = (EventType,) pool = self._makeOne(gconfig) from supervisor import events self.assertEqual(len(events.callbacks), 2) self.assertEqual(events.callbacks[0], (EventType, pool._acceptEvent)) self.assertEqual(events.callbacks[1], (events.EventRejectedEvent, pool.handle_rejected)) self.assertEqual(pool.serial, -1) def test_before_remove_unsubscribes_from_events(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) class EventType: pass gconfig.pool_events = (EventType,) pool = self._makeOne(gconfig) from supervisor import events self.assertEqual(len(events.callbacks), 2) pool.before_remove() self.assertEqual(len(events.callbacks), 0) def test__eventEnvelope(self): options = DummyOptions() options.identifier = 'thesupervisorname' gconfig = DummyPGroupConfig(options) gconfig.name = 'thepoolname' pool = self._makeOne(gconfig) from supervisor import events result = pool._eventEnvelope( events.EventTypes.PROCESS_COMMUNICATION_STDOUT, 80, 20, 'payload\n') header, payload = result.split('\n', 1) headers = header.split() self.assertEqual(headers[0], 'ver:3.0') self.assertEqual(headers[1], 'server:thesupervisorname') self.assertEqual(headers[2], 'serial:80') self.assertEqual(headers[3], 'pool:thepoolname') self.assertEqual(headers[4], 'poolserial:20') self.assertEqual(headers[5], 'eventname:PROCESS_COMMUNICATION_STDOUT') self.assertEqual(headers[6], 'len:8') self.assertEqual(payload, 'payload\n') def test_handle_rejected_no_overflow(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.processes = {'process1': process1} pool.event_buffer = [None, None] class DummyEvent1: serial = 'abc' class DummyEvent2: process = process1 event = DummyEvent1() dummyevent = DummyEvent2() dummyevent.serial = 1 pool.handle_rejected(dummyevent) self.assertEqual(pool.event_buffer, [dummyevent.event, None, None]) def test_handle_rejected_event_buffer_overflowed(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) gconfig.buffer_size = 3 pool = self._makeOne(gconfig) pool.processes = {'process1': process1} class DummyEvent: def __init__(self, serial): self.serial = serial class DummyRejectedEvent: def __init__(self, serial): self.process = process1 self.event = DummyEvent(serial) event_a = DummyEvent('a') event_b = DummyEvent('b') event_c = DummyEvent('c') rej_event = DummyRejectedEvent('rejected') pool.event_buffer = [event_a, event_b, event_c] pool.handle_rejected(rej_event) serials = [ x.serial for x in pool.event_buffer ] # we popped a, and we inserted the rejected event into the 1st pos self.assertEqual(serials, ['rejected', 'b', 'c']) self.assertEqual(pool.config.options.logger.data[0], 'pool whatever event buffer overflowed, discarding event a') def test_dispatch_pipe_error(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') from supervisor.states import EventListenerStates gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) process1 = pool.processes['process1'] process1.write_exception = OSError(errno.EPIPE, os.strerror(errno.EPIPE)) process1.listener_state = EventListenerStates.READY event = DummyEvent() pool._acceptEvent(event) pool.dispatch() self.assertEqual(process1.listener_state, EventListenerStates.READY) self.assertEqual(pool.event_buffer, [event]) self.assertEqual(options.logger.data[0], 'epipe occurred while sending event abc to listener ' 'process1, listener state unchanged') self.assertEqual(options.logger.data[1], 'rebuffering event abc for pool whatever (buf size=0, max=10)') def test__acceptEvent_attaches_pool_serial_and_serial(self): from supervisor.process import GlobalSerial options = DummyOptions() gconfig = DummyPGroupConfig(options) pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) process1 = pool.processes['process1'] from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.READY event = DummyEvent(None) pool._acceptEvent(event) self.assertEqual(event.serial, GlobalSerial.serial) self.assertEqual(event.pool_serials['whatever'], pool.serial) def test_repr(self): options = DummyOptions() gconfig = DummyPGroupConfig(options) pool = self._makeOne(gconfig) s = repr(pool) self.assertTrue('supervisor.process.EventListenerPool' in s) self.assertTrue(s.endswith('named whatever>')) def test_transition_nobody_ready(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STARTING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.processes = {'process1': process1} event = DummyEvent() event.serial = 'a' from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.BUSY pool._acceptEvent(event) pool.transition() self.assertEqual(process1.transitioned, True) self.assertEqual(pool.event_buffer, [event]) def test_transition_event_proc_not_running(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STARTING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.processes = {'process1': process1} event = DummyEvent() from supervisor.states import EventListenerStates event.serial = 1 process1.listener_state = EventListenerStates.READY pool._acceptEvent(event) pool.transition() self.assertEqual(process1.transitioned, True) self.assertEqual(pool.event_buffer, [event]) self.assertEqual(process1.stdin_buffer, b'') self.assertEqual(process1.listener_state, EventListenerStates.READY) def test_transition_event_proc_running(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.RUNNING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.processes = {'process1': process1} event = DummyEvent() from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.READY class DummyGroup: config = gconfig process1.group = DummyGroup pool._acceptEvent(event) pool.transition() self.assertEqual(process1.transitioned, True) self.assertEqual(pool.event_buffer, []) header, payload = process1.stdin_buffer.split(b'\n', 1) self.assertEqual(payload, b'dummy event', payload) self.assertEqual(process1.listener_state, EventListenerStates.BUSY) self.assertEqual(process1.event, event) def test_transition_event_proc_running_with_dispatch_throttle_notyet(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.RUNNING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.dispatch_throttle = 5 pool.last_dispatch = time.time() pool.processes = {'process1': process1} event = DummyEvent() from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.READY class DummyGroup: config = gconfig process1.group = DummyGroup pool._acceptEvent(event) pool.transition() self.assertEqual(process1.transitioned, True) self.assertEqual(pool.event_buffer, [event]) # not popped def test_transition_event_proc_running_with_dispatch_throttle_ready(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.RUNNING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.dispatch_throttle = 5 pool.last_dispatch = time.time() - 1000 pool.processes = {'process1': process1} event = DummyEvent() from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.READY class DummyGroup: config = gconfig process1.group = DummyGroup pool._acceptEvent(event) pool.transition() self.assertEqual(process1.transitioned, True) self.assertEqual(pool.event_buffer, []) header, payload = process1.stdin_buffer.split(b'\n', 1) self.assertEqual(payload, b'dummy event', payload) self.assertEqual(process1.listener_state, EventListenerStates.BUSY) self.assertEqual(process1.event, event) def test_transition_event_proc_running_with_dispatch_throttle_last_dispatch_in_future(self): future_time = time.time() + 3600 # 1 hour into the future options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.RUNNING) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.dispatch_throttle = 5 pool.last_dispatch = future_time pool.processes = {'process1': process1} event = DummyEvent() from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.READY class DummyGroup: config = gconfig process1.group = DummyGroup pool._acceptEvent(event) pool.transition() self.assertEqual(process1.transitioned, True) self.assertEqual(pool.event_buffer, [event]) # not popped # Ensure pool.last_dispatch has been rolled backward self.assertTrue(pool.last_dispatch < future_time) def test__dispatchEvent_notready(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.STOPPED) gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.processes = {'process1': process1} event = DummyEvent() pool._acceptEvent(event) self.assertEqual(pool._dispatchEvent(event), False) def test__dispatchEvent_proc_write_raises_non_EPIPE_OSError(self): options = DummyOptions() from supervisor.states import ProcessStates pconfig1 = DummyPConfig(options, 'process1', 'process1','/bin/process1') process1 = DummyProcess(pconfig1, state=ProcessStates.RUNNING) def raise_epipe(envelope): raise OSError(errno.EAGAIN) process1.write = raise_epipe gconfig = DummyPGroupConfig(options, pconfigs=[pconfig1]) pool = self._makeOne(gconfig) pool.processes = {'process1': process1} event = DummyEvent() from supervisor.states import EventListenerStates process1.listener_state = EventListenerStates.READY class DummyGroup: config = gconfig process1.group = DummyGroup pool._acceptEvent(event) self.assertRaises(OSError, pool._dispatchEvent, event) class test_new_serial(unittest.TestCase): def _callFUT(self, inst): from supervisor.process import new_serial return new_serial(inst) def test_inst_serial_is_maxint(self): from supervisor.compat import maxint class Inst(object): def __init__(self): self.serial = maxint inst = Inst() result = self._callFUT(inst) self.assertEqual(inst.serial, 0) self.assertEqual(result, 0) def test_inst_serial_is_not_maxint(self): class Inst(object): def __init__(self): self.serial = 1 inst = Inst() result = self._callFUT(inst) self.assertEqual(inst.serial, 2) self.assertEqual(result, 2)
./Ninja\.