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Current File : /proc/3/root/proc/self/root/lib/python3/dist-packages/supervisor/tests/test_rpcinterfaces.py
# -*- coding: utf-8 -*-
import unittest
import sys
import operator
import os
import time
import errno

from supervisor.tests.base import DummyOptions
from supervisor.tests.base import DummySupervisor
from supervisor.tests.base import DummyProcess
from supervisor.tests.base import DummyPConfig
from supervisor.tests.base import DummyPGroupConfig
from supervisor.tests.base import DummyProcessGroup
from supervisor.tests.base import PopulatedDummySupervisor
from supervisor.tests.base import _NOW
from supervisor.tests.base import _TIMEFORMAT

from supervisor.compat import as_string, PY2
from supervisor.datatypes import Automatic

class TestBase(unittest.TestCase):
    def setUp(self):
        pass

    def tearDown(self):
        pass

    def _assertRPCError(self, code, callable, *args, **kw):
        from supervisor import xmlrpc
        try:
            callable(*args, **kw)
        except xmlrpc.RPCError as inst:
            self.assertEqual(inst.code, code)
        else:
            raise AssertionError("Didn't raise")

class MainXMLRPCInterfaceTests(TestBase):

    def _getTargetClass(self):
        from supervisor import xmlrpc
        return xmlrpc.RootRPCInterface

    def _makeOne(self, *args, **kw):
        return self._getTargetClass()(*args, **kw)

    def test_ctor(self):
        interface = self._makeOne([('supervisor', None)])
        self.assertEqual(interface.supervisor, None)

    def test_traverse(self):
        dummy = DummyRPCInterface()
        interface = self._makeOne([('dummy', dummy)])
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.UNKNOWN_METHOD,
                             xmlrpc.traverse, interface, 'notthere.hello', [])
        self._assertRPCError(xmlrpc.Faults.UNKNOWN_METHOD,
                             xmlrpc.traverse, interface,
                             'supervisor._readFile', [])
        self._assertRPCError(xmlrpc.Faults.INCORRECT_PARAMETERS,
                             xmlrpc.traverse, interface,
                             'dummy.hello', [1])
        self.assertEqual(xmlrpc.traverse(
            interface, 'dummy.hello', []), 'Hello!')

class SupervisorNamespaceXMLRPCInterfaceTests(TestBase):
    def _getTargetClass(self):
        from supervisor import rpcinterface
        return rpcinterface.SupervisorNamespaceRPCInterface

    def _makeOne(self, *args, **kw):
        return self._getTargetClass()(*args, **kw)

    def test_update(self):
        from supervisor import xmlrpc
        from supervisor.supervisord import SupervisorStates
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        interface._update('foo')
        self.assertEqual(interface.update_text, 'foo')
        supervisord.options.mood = SupervisorStates.SHUTDOWN
        self._assertRPCError(xmlrpc.Faults.SHUTDOWN_STATE, interface._update,
                             'foo')

    def test_getAPIVersion(self):
        from supervisor import rpcinterface
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        version = interface.getAPIVersion()
        self.assertEqual(version, rpcinterface.API_VERSION)
        self.assertEqual(interface.update_text, 'getAPIVersion')

    def test_getAPIVersion_aliased_to_deprecated_getVersion(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self.assertEqual(interface.getAPIVersion, interface.getVersion)

    def test_getSupervisorVersion(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        version = interface.getSupervisorVersion()
        from supervisor import options
        self.assertEqual(version, options.VERSION)
        self.assertEqual(interface.update_text, 'getSupervisorVersion')


    def test_getIdentification(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        identifier = interface.getIdentification()
        self.assertEqual(identifier, supervisord.options.identifier)
        self.assertEqual(interface.update_text, 'getIdentification')

    def test_getState(self):
        from supervisor.states import getSupervisorStateDescription
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        stateinfo = interface.getState()
        statecode = supervisord.options.mood
        statename = getSupervisorStateDescription(statecode)
        self.assertEqual(stateinfo['statecode'], statecode)
        self.assertEqual(stateinfo['statename'], statename)
        self.assertEqual(interface.update_text, 'getState')

    def test_getPID(self):
        options = DummyOptions()
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)
        self.assertEqual(interface.getPID(), options.get_pid())
        self.assertEqual(interface.update_text, 'getPID')

    def test_readLog_aliased_to_deprecated_readMainLog(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self.assertEqual(interface.readMainLog, interface.readLog)

    def test_readLog_unreadable(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.NO_FILE, interface.readLog,
                             offset=0, length=1)

    def test_readLog_badargs(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        try:
            logfile = supervisord.options.logfile
            with open(logfile, 'w+') as f:
                f.write('x' * 2048)
            self._assertRPCError(xmlrpc.Faults.BAD_ARGUMENTS,
                                 interface.readLog, offset=-1, length=1)
            self._assertRPCError(xmlrpc.Faults.BAD_ARGUMENTS,
                                 interface.readLog, offset=-1,
                                 length=-1)
        finally:
            os.remove(logfile)

    def test_readLog(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        logfile = supervisord.options.logfile
        try:
            with open(logfile, 'w+') as f:
                f.write('x' * 2048)
                f.write('y' * 2048)
            data = interface.readLog(offset=0, length=0)
            self.assertEqual(interface.update_text, 'readLog')
            self.assertEqual(data, ('x' * 2048) + ('y' * 2048))
            data = interface.readLog(offset=2048, length=0)
            self.assertEqual(data, 'y' * 2048)
            data = interface.readLog(offset=0, length=2048)
            self.assertEqual(data, 'x' * 2048)
            data = interface.readLog(offset=-4, length=0)
            self.assertEqual(data, 'y' * 4)
        finally:
            os.remove(logfile)

    def test_clearLog_unreadable(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.NO_FILE, interface.clearLog)

    def test_clearLog_unremoveable(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        options.existing = [options.logfile]
        options.remove_exception = OSError(errno.EPERM,
                                           os.strerror(errno.EPERM))
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)
        self.assertRaises(xmlrpc.RPCError, interface.clearLog)
        self.assertEqual(interface.update_text, 'clearLog')

    def test_clearLog(self):
        options = DummyOptions()
        options.existing = [options.logfile]
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)
        result = interface.clearLog()
        self.assertEqual(interface.update_text, 'clearLog')
        self.assertEqual(result, True)
        self.assertEqual(options.removed[0], options.logfile)
        for handler in supervisord.options.logger.handlers:
            self.assertEqual(handler.reopened, True)

    def test_shutdown(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        value = interface.shutdown()
        self.assertEqual(value, True)
        self.assertEqual(supervisord.options.mood, -1)

    def test_restart(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        value = interface.restart()
        self.assertEqual(value, True)
        self.assertEqual(supervisord.options.mood, 0)

    def test_reloadConfig(self):
        options = DummyOptions()
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)

        changes = [ [DummyPGroupConfig(options, 'added')],
                    [DummyPGroupConfig(options, 'changed')],
                    [DummyPGroupConfig(options, 'dropped')] ]

        supervisord.diff_to_active = lambda : changes

        value = interface.reloadConfig()
        self.assertEqual(value, [[['added'], ['changed'], ['dropped']]])

    def test_reloadConfig_process_config_raises_ValueError(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        def raise_exc(*arg, **kw):
            raise ValueError('foo')
        options.process_config = raise_exc
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.CANT_REREAD, interface.reloadConfig)

    def test_addProcessGroup(self):
        from supervisor.supervisord import Supervisor
        from supervisor import xmlrpc
        options = DummyOptions()
        supervisord = Supervisor(options)
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        gconfig = DummyPGroupConfig(options, 'group1', pconfigs=[pconfig])
        supervisord.options.process_group_configs = [gconfig]

        interface = self._makeOne(supervisord)

        result = interface.addProcessGroup('group1')
        self.assertTrue(result)
        self.assertEqual(list(supervisord.process_groups.keys()), ['group1'])

        self._assertRPCError(xmlrpc.Faults.ALREADY_ADDED,
                             interface.addProcessGroup, 'group1')
        self.assertEqual(list(supervisord.process_groups.keys()), ['group1'])

        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.addProcessGroup, 'asdf')
        self.assertEqual(list(supervisord.process_groups.keys()), ['group1'])

    def test_removeProcessGroup(self):
        from supervisor.supervisord import Supervisor
        options = DummyOptions()
        supervisord = Supervisor(options)
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        gconfig = DummyPGroupConfig(options, 'group1', pconfigs=[pconfig])
        supervisord.options.process_group_configs = [gconfig]

        interface = self._makeOne(supervisord)

        interface.addProcessGroup('group1')
        result = interface.removeProcessGroup('group1')
        self.assertTrue(result)
        self.assertEqual(list(supervisord.process_groups.keys()), [])

    def test_removeProcessGroup_bad_name(self):
        from supervisor.supervisord import Supervisor
        from supervisor import xmlrpc
        options = DummyOptions()
        supervisord = Supervisor(options)
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        gconfig = DummyPGroupConfig(options, 'group1', pconfigs=[pconfig])
        supervisord.options.process_group_configs = [gconfig]

        interface = self._makeOne(supervisord)

        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.removeProcessGroup, 'asdf')

    def test_removeProcessGroup_still_running(self):
        from supervisor.supervisord import Supervisor
        from supervisor import xmlrpc
        options = DummyOptions()
        supervisord = Supervisor(options)
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        gconfig = DummyPGroupConfig(options, 'group1', pconfigs=[pconfig])
        supervisord.options.process_group_configs = [gconfig]
        process = DummyProcessGroup(gconfig)
        process.unstopped_processes = [123]
        supervisord.process_groups = {'group1':process}
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.STILL_RUNNING,
                             interface.removeProcessGroup, 'group1')

    def test_startProcess_already_started(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'pid', 10)
        interface = self._makeOne(supervisord)
        self._assertRPCError(
            xmlrpc.Faults.ALREADY_STARTED,
            interface.startProcess, 'foo'
            )

    def test_startProcess_unknown_state(self):
        from supervisor import xmlrpc
        from supervisor.states import ProcessStates
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'pid', 10)
        supervisord.set_procattr('foo', 'state', ProcessStates.UNKNOWN)
        interface = self._makeOne(supervisord)
        self._assertRPCError(
            xmlrpc.Faults.FAILED,
            interface.startProcess, 'foo'
            )
        process = supervisord.process_groups['foo'].processes['foo']
        self.assertEqual(process.spawned, False)

    def test_startProcess_bad_group_name(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        supervisord = PopulatedDummySupervisor(options, 'group1', pconfig)
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.startProcess, 'group2:foo')

    def test_startProcess_bad_process_name(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        supervisord = PopulatedDummySupervisor(options, 'group1', pconfig)
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.startProcess, 'group1:bar')

    def test_startProcess_file_not_found(self):
        options = DummyOptions()
        pconfig  = DummyPConfig(options, 'foo', '/foo/bar', autostart=False)
        from supervisor.options import NotFound
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        process = supervisord.process_groups['foo'].processes['foo']
        process.execv_arg_exception = NotFound
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.NO_FILE,
                             interface.startProcess, 'foo')

    def test_startProcess_bad_command(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/foo/bar', autostart=False)
        from supervisor.options import BadCommand
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        process = supervisord.process_groups['foo'].processes['foo']
        process.execv_arg_exception = BadCommand
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.NOT_EXECUTABLE,
                             interface.startProcess, 'foo')

    def test_startProcess_file_not_executable(self):
        options = DummyOptions()
        pconfig  = DummyPConfig(options, 'foo', '/foo/bar', autostart=False)
        from supervisor.options import NotExecutable
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        process = supervisord.process_groups['foo'].processes['foo']
        process.execv_arg_exception = NotExecutable
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.NOT_EXECUTABLE,
                             interface.startProcess, 'foo')

    def test_startProcess_spawnerr(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        process = supervisord.process_groups['foo'].processes['foo']
        process.spawnerr = 'abc'
        interface = self._makeOne(supervisord)
        self._assertRPCError(
            xmlrpc.Faults.SPAWN_ERROR,
            interface.startProcess,
            'foo'
            )

    def test_startProcess(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False,
                               startsecs=.01)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        result = interface.startProcess('foo')
        process = supervisord.process_groups['foo'].processes['foo']
        self.assertEqual(process.spawned, True)
        self.assertEqual(interface.update_text, 'startProcess')
        process.state = ProcessStates.RUNNING
        self.assertEqual(result, True)

    def test_startProcess_spawnerr_in_onwait(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        process = supervisord.process_groups['foo'].processes['foo']
        def spawn():
            process.spawned = True
            process.state = ProcessStates.STARTING
        def transition():
            process.spawnerr = 'abc'
        process.spawn = spawn
        process.transition = transition
        interface = self._makeOne(supervisord)
        callback = interface.startProcess('foo')
        self._assertRPCError(xmlrpc.Faults.SPAWN_ERROR, callback)

    def test_startProcess_success_in_onwait(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        process = supervisord.process_groups['foo'].processes['foo']
        def spawn():
            process.spawned = True
            process.state = ProcessStates.STARTING
        process.spawn = spawn
        interface = self._makeOne(supervisord)
        callback = interface.startProcess('foo')
        process.state = ProcessStates.RUNNING
        self.assertEqual(callback(), True)

    def test_startProcess_nowait(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        result = interface.startProcess('foo', wait=False)
        self.assertEqual(result, True)
        process = supervisord.process_groups['foo'].processes['foo']
        self.assertEqual(process.spawned, True)
        self.assertEqual(interface.update_text, 'startProcess')

    def test_startProcess_abnormal_term_process_not_running(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__, autostart=False)
        from supervisor.process import ProcessStates
        from supervisor import http
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        def spawn():
            process.spawned = True
            process.state = ProcessStates.STARTING
        process.spawn = spawn
        callback = interface.startProcess('foo', 100) # milliseconds
        result = callback()
        self.assertEqual(result, http.NOT_DONE_YET)
        self.assertEqual(process.spawned, True)
        self.assertEqual(interface.update_text, 'startProcess')
        process.state = ProcessStates.BACKOFF
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.ABNORMAL_TERMINATION, callback)

    def test_startProcess_splat_calls_startProcessGroup(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, autostart=False,
                               startsecs=.01)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2,
                                startsecs=.01)
        supervisord = PopulatedDummySupervisor(options, 'foo',
                                               pconfig1, pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.STOPPED)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        interface.startProcess('foo:*')
        self.assertEqual(interface.update_text, 'startProcessGroup')

    def test_startProcessGroup(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, priority=1,
                                startsecs=.01)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2,
                                startsecs=.01)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        from supervisor.process import ProcessStates
        from supervisor.xmlrpc import Faults
        supervisord.set_procattr('process1', 'state', ProcessStates.STOPPED)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        callback = interface.startProcessGroup('foo')

        self.assertEqual(
            callback(),
            [{'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process1'},
             {'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process2'}
             ]
            )
        self.assertEqual(interface.update_text, 'startProcess')

        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.spawned, True)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.spawned, True)

    def test_startProcessGroup_nowait(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, priority=1,
                                startsecs=.01)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2,
                                startsecs=.01)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.STOPPED)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        callback = interface.startProcessGroup('foo', wait=False)
        from supervisor.xmlrpc import Faults

        self.assertEqual(
            callback(),
            [{'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process1'},
             {'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process2'}
             ]
            )

    def test_startProcessGroup_badname(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.startProcessGroup, 'foo')


    def test_startAllProcesses(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, priority=1,
                                startsecs=.01)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2,
                                startsecs=.01)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.STOPPED)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        callback = interface.startAllProcesses()

        from supervisor.xmlrpc import Faults

        self.assertEqual(
            callback(),
            [{'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process1'},
             {'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process2'}
             ]
            )

        self.assertEqual(interface.update_text, 'startProcess')

        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.spawned, True)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.spawned, True)

    def test_startAllProcesses_nowait(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, priority=1,
                                startsecs=.01)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2,
                                startsecs=.01)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.STOPPED)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        callback = interface.startAllProcesses(wait=False)
        from supervisor.xmlrpc import Faults

        self.assertEqual(
            callback(),
            [{'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process1'},
             {'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process2'}
             ]
            )

    def test_stopProcess(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        result = interface.stopProcess('foo')
        self.assertTrue(result)
        self.assertEqual(interface.update_text, 'stopProcess')
        process = supervisord.process_groups['foo'].processes['foo']
        self.assertEqual(process.backoff, 0)
        self.assertEqual(process.delay, 0)
        self.assertFalse(process.killing)
        self.assertEqual(process.state, ProcessStates.STOPPED)
        self.assertTrue(process.stop_report_called)
        self.assertEqual(len(supervisord.process_groups['foo'].processes), 1)
        self.assertEqual(interface.update_text, 'stopProcess')

    def test_stopProcess_nowait(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', __file__)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        result = interface.stopProcess('foo', wait=False)
        self.assertEqual(result, True)
        process = supervisord.process_groups['foo'].processes['foo']
        self.assertEqual(process.stop_called, True)
        self.assertTrue(process.stop_report_called)
        self.assertEqual(interface.update_text, 'stopProcess')

    def test_stopProcess_success_in_onwait(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        process = supervisord.process_groups['foo'].processes['foo']
        L = [ ProcessStates.RUNNING,
              ProcessStates.STOPPING,
              ProcessStates.STOPPED ]
        def get_state():
            return L.pop(0)
        process.get_state = get_state
        interface = self._makeOne(supervisord)
        callback = interface.stopProcess('foo')
        self.assertEqual(interface.update_text, 'stopProcess')
        self.assertTrue(callback())

    def test_stopProcess_NDY_in_onwait(self):
        from supervisor.http import NOT_DONE_YET
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        process = supervisord.process_groups['foo'].processes['foo']
        L = [ ProcessStates.RUNNING,
              ProcessStates.STOPPING,
              ProcessStates.STOPPING ]
        def get_state():
            return L.pop(0)
        process.get_state = get_state
        interface = self._makeOne(supervisord)
        callback = interface.stopProcess('foo')
        self.assertEqual(callback(), NOT_DONE_YET)
        self.assertEqual(interface.update_text, 'stopProcess')

    def test_stopProcess_bad_name(self):
        from supervisor.xmlrpc import Faults
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(Faults.BAD_NAME,
                             interface.stopProcess, 'foo')

    def test_stopProcess_not_running(self):
        from supervisor.states import ProcessStates
        from supervisor.xmlrpc import Faults
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.EXITED)
        interface = self._makeOne(supervisord)
        self._assertRPCError(Faults.NOT_RUNNING, interface.stopProcess, 'foo')

    def test_stopProcess_failed(self):
        from supervisor.xmlrpc import Faults
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'stop', lambda: 'unstoppable')
        interface = self._makeOne(supervisord)
        self._assertRPCError(Faults.FAILED, interface.stopProcess, 'foo')

    def test_stopProcessGroup(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo', priority=1)
        pconfig2 = DummyPConfig(options, 'process2', '/bin/foo2', priority=2)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        callback = interface.stopProcessGroup('foo')
        self.assertEqual(interface.update_text, 'stopProcessGroup')
        from supervisor import http
        value = http.NOT_DONE_YET
        while 1:
            value = callback()
            if value is not http.NOT_DONE_YET:
                break

        from supervisor.xmlrpc import Faults
        self.assertEqual(value, [
            {'status': Faults.SUCCESS,
             'group':'foo',
             'name': 'process1',
             'description': 'OK'},

            {'status': Faults.SUCCESS,
             'group':'foo',
             'name': 'process2',
             'description': 'OK'},
            ] )
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.stop_called, True)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.stop_called, True)

    def test_stopProcessGroup_nowait(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, priority=1)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        callback = interface.stopProcessGroup('foo', wait=False)
        from supervisor.xmlrpc import Faults

        self.assertEqual(
            callback(),
            [
                {'name': 'process1',
                 'description': 'OK',
                 'group': 'foo',
                 'status': Faults.SUCCESS},
                {'name': 'process2',
                 'description': 'OK',
                 'group': 'foo',
                 'status': Faults.SUCCESS}
                ]
            )

    def test_stopProcessGroup_badname(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.stopProcessGroup, 'foo')

    def test_stopProcess_splat_calls_stopProcessGroup(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, autostart=False,
                               startsecs=.01)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2,
                                startsecs=.01)
        supervisord = PopulatedDummySupervisor(options, 'foo',
                                               pconfig1, pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.STOPPED)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        interface.stopProcess('foo:*')
        self.assertEqual(interface.update_text, 'stopProcessGroup')

    def test_stopAllProcesses(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo', priority=1)
        pconfig2 = DummyPConfig(options, 'process2', '/bin/foo2', priority=2)
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        callback = interface.stopAllProcesses()
        self.assertEqual(interface.update_text, 'stopAllProcesses')
        from supervisor import http
        value = http.NOT_DONE_YET
        while 1:
            value = callback()
            if value is not http.NOT_DONE_YET:
                break

        from supervisor.xmlrpc import Faults
        self.assertEqual(value, [
            {'status': Faults.SUCCESS,
             'group':'foo',
             'name': 'process1',
             'description': 'OK'},

            {'status': Faults.SUCCESS,
             'group':'foo',
             'name': 'process2',
             'description': 'OK'},
            ] )
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.stop_called, True)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.stop_called, True)

    def test_stopAllProcesses_nowait(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', __file__, priority=1)
        pconfig2 = DummyPConfig(options, 'process2', __file__, priority=2)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        from supervisor.process import ProcessStates
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        callback = interface.stopAllProcesses(wait=False)
        from supervisor.xmlrpc import Faults

        self.assertEqual(
            callback(),
            [{'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process1'},
             {'group': 'foo',
              'status': Faults.SUCCESS,
              'description': 'OK',
              'name': 'process2'}
             ]
            )

    def test_signalProcess_with_signal_number(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.RUNNING)

        interface = self._makeOne(supervisord)
        result = interface.signalProcess('foo', 10)

        self.assertEqual(interface.update_text, 'signalProcess')
        self.assertEqual(result, True)
        p = supervisord.process_groups[supervisord.group_name].processes['foo']
        self.assertEqual(p.sent_signal, 10)

    def test_signalProcess_with_signal_name(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.RUNNING)

        from supervisor.datatypes import signal_number
        signame = 'quit'
        signum = signal_number(signame)

        interface = self._makeOne(supervisord)
        result = interface.signalProcess('foo', signame)

        self.assertEqual(interface.update_text, 'signalProcess')
        self.assertEqual(result, True)
        p = supervisord.process_groups[supervisord.group_name].processes['foo']
        self.assertEqual(p.sent_signal, signum)

    def test_signalProcess_stopping(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPING)

        interface = self._makeOne(supervisord)
        result = interface.signalProcess('foo', 10)

        self.assertEqual(interface.update_text, 'signalProcess')
        self.assertEqual(result, True)
        p = supervisord.process_groups[supervisord.group_name].processes['foo']
        self.assertEqual(p.sent_signal, 10)

    def test_signalProcess_badsignal(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        from supervisor import xmlrpc
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        self._assertRPCError(
            xmlrpc.Faults.BAD_SIGNAL, interface.signalProcess, 'foo', 155
            )

    def test_signalProcess_notrunning(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        from supervisor import xmlrpc
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.STOPPED)
        interface = self._makeOne(supervisord)
        self._assertRPCError(
            xmlrpc.Faults.NOT_RUNNING, interface.signalProcess, 'foo', 10
            )


    def test_signalProcess_signal_returns_message(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        from supervisor.process import ProcessStates
        from supervisor import xmlrpc
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.RUNNING)
        def signalreturn(sig):
            return 'msg'
        pgroup = supervisord.process_groups[supervisord.group_name]
        proc = pgroup.processes['foo']
        proc.signal = signalreturn
        interface = self._makeOne(supervisord)
        self._assertRPCError(
            xmlrpc.Faults.FAILED, interface.signalProcess, 'foo', 10
            )


    def test_signalProcess_withgroup(self):
        """ Test that sending foo:* works """
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo')
        pconfig2 = DummyPConfig(options, 'process2', '/bin/foo2')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPING)
        interface = self._makeOne(supervisord)
        result = interface.signalProcess('foo:*', 10)
        self.assertEqual(interface.update_text, 'signalProcessGroup')

        # Sort so we get deterministic results despite hash randomization
        result = sorted(result, key=operator.itemgetter('name'))

        from supervisor.xmlrpc import Faults
        self.assertEqual(result, [
            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process1',
             'description': 'OK'},

            {'status': Faults.SUCCESS,
             'group':'foo',
             'name': 'process2',
             'description': 'OK'},
            ] )
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.sent_signal, 10)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.sent_signal, 10)


    def test_signalProcessGroup_with_signal_number(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo')
        pconfig2 = DummyPConfig(options, 'process2', '/bin/foo2')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        result = interface.signalProcessGroup('foo', 10)
        self.assertEqual(interface.update_text, 'signalProcessGroup')
        # Sort so we get deterministic results despite hash randomization
        result = sorted(result, key=operator.itemgetter('name'))

        from supervisor.xmlrpc import Faults
        self.assertEqual(result, [
            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process1',
             'description': 'OK'},

            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process2',
             'description': 'OK'},
            ] )
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.sent_signal, 10)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.sent_signal, 10)

    def test_signalProcessGroup_with_signal_name(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)

        from supervisor.datatypes import signal_number
        signame = 'term'
        signum = signal_number(signame)

        interface = self._makeOne(supervisord)
        result = interface.signalProcessGroup('foo', signame)

        self.assertEqual(interface.update_text, 'signalProcessGroup')
        from supervisor.xmlrpc import Faults
        self.assertEqual(result, [
            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process1',
             'description': 'OK'},
            ] )

        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.sent_signal, signum)

    def test_signalProcessGroup_nosuchgroup(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo')
        pconfig2 = DummyPConfig(options, 'process2', '/bin/foo2')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
            interface.signalProcessGroup, 'bar', 10
            )

    def test_signalAllProcesses_with_signal_number(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo')
        pconfig2 = DummyPConfig(options, 'process2', '/bin/foo2')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)
        supervisord.set_procattr('process2', 'state', ProcessStates.RUNNING)
        interface = self._makeOne(supervisord)
        result = interface.signalAllProcesses(10)
        self.assertEqual(interface.update_text, 'signalAllProcesses')

        # Sort so we get deterministic results despite hash randomization
        result = sorted(result, key=operator.itemgetter('name'))

        from supervisor.xmlrpc import Faults
        self.assertEqual(result, [
            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process1',
             'description': 'OK'},

            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process2',
             'description': 'OK'},
            ] )
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.sent_signal, 10)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.sent_signal, 10)

    def test_signalAllProcesses_with_signal_name(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', '/bin/foo')
        from supervisor.process import ProcessStates
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)

        from supervisor.datatypes import signal_number
        signame = 'hup'
        signum = signal_number(signame)

        interface = self._makeOne(supervisord)
        result = interface.signalAllProcesses(signame)
        self.assertEqual(interface.update_text, 'signalAllProcesses')

        from supervisor.xmlrpc import Faults
        self.assertEqual(result, [
            {'status': Faults.SUCCESS,
             'group': 'foo',
             'name': 'process1',
             'description': 'OK'},
            ] )
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.sent_signal, signum)

    def test_getAllConfigInfo(self):
        options = DummyOptions()
        supervisord = DummySupervisor(options, 'foo')

        pconfig1 = DummyPConfig(options, 'process1', __file__,
                                stdout_logfile=Automatic,
                                stderr_logfile=Automatic,
                                )
        pconfig2 = DummyPConfig(options, 'process2', __file__,
                                stdout_logfile=None,
                                stderr_logfile=None,
                                )
        gconfig = DummyPGroupConfig(options, 'group1', pconfigs=[pconfig1, pconfig2])
        supervisord.process_groups = {'group1': DummyProcessGroup(gconfig)}
        supervisord.options.process_group_configs = [gconfig]

        interface = self._makeOne(supervisord)
        configs = interface.getAllConfigInfo()
        self.assertEqual(configs[0]['autostart'], True)
        self.assertEqual(configs[0]['stopwaitsecs'], 10)
        self.assertEqual(configs[0]['stdout_events_enabled'], False)
        self.assertEqual(configs[0]['stderr_events_enabled'], False)
        self.assertEqual(configs[0]['group'], 'group1')
        self.assertEqual(configs[0]['stdout_capture_maxbytes'], 0)
        self.assertEqual(configs[0]['name'], 'process1')
        self.assertEqual(configs[0]['stopsignal'], 15)
        self.assertEqual(configs[0]['stderr_syslog'], False)
        self.assertEqual(configs[0]['stdout_logfile_maxbytes'], 0)
        self.assertEqual(configs[0]['group_prio'], 999)
        self.assertEqual(configs[0]['killasgroup'], False)
        self.assertEqual(configs[0]['process_prio'], 999)
        self.assertEqual(configs[0]['stdout_syslog'], False)
        self.assertEqual(configs[0]['stderr_logfile_maxbytes'], 0)
        self.assertEqual(configs[0]['startsecs'], 10)
        self.assertEqual(configs[0]['redirect_stderr'], False)
        self.assertEqual(configs[0]['stdout_logfile'], 'auto')
        self.assertEqual(configs[0]['exitcodes'], (0,))
        self.assertEqual(configs[0]['stderr_capture_maxbytes'], 0)
        self.assertEqual(configs[0]['startretries'], 999)
        self.assertEqual(configs[0]['stderr_logfile_maxbytes'], 0)
        self.assertEqual(configs[0]['inuse'], True)
        self.assertEqual(configs[0]['stderr_logfile'], 'auto')
        self.assertEqual(configs[0]['stdout_logfile_backups'], 0)
        assert 'test_rpcinterfaces.py' in configs[0]['command']

        self.assertEqual(configs[1]['autostart'], True)
        self.assertEqual(configs[1]['stopwaitsecs'], 10)
        self.assertEqual(configs[1]['stdout_events_enabled'], False)
        self.assertEqual(configs[1]['stderr_events_enabled'], False)
        self.assertEqual(configs[1]['group'], 'group1')
        self.assertEqual(configs[1]['stdout_capture_maxbytes'], 0)
        self.assertEqual(configs[1]['name'], 'process2')
        self.assertEqual(configs[1]['stopsignal'], 15)
        self.assertEqual(configs[1]['stderr_syslog'], False)
        self.assertEqual(configs[1]['stdout_logfile_maxbytes'], 0)
        self.assertEqual(configs[1]['group_prio'], 999)
        self.assertEqual(configs[1]['killasgroup'], False)
        self.assertEqual(configs[1]['process_prio'], 999)
        self.assertEqual(configs[1]['stdout_syslog'], False)
        self.assertEqual(configs[1]['stderr_logfile_maxbytes'], 0)
        self.assertEqual(configs[1]['startsecs'], 10)
        self.assertEqual(configs[1]['redirect_stderr'], False)
        self.assertEqual(configs[1]['stdout_logfile'], 'none')
        self.assertEqual(configs[1]['exitcodes'], (0,))
        self.assertEqual(configs[1]['stderr_capture_maxbytes'], 0)
        self.assertEqual(configs[1]['startretries'], 999)
        self.assertEqual(configs[1]['stderr_logfile_maxbytes'], 0)
        self.assertEqual(configs[1]['inuse'], True)
        self.assertEqual(configs[1]['stderr_logfile'], 'none')
        self.assertEqual(configs[1]['stdout_logfile_backups'], 0)
        assert 'test_rpcinterfaces.py' in configs[0]['command']

    def test_getAllConfigInfo_filters_types_not_compatible_with_xmlrpc(self):
        options = DummyOptions()
        supervisord = DummySupervisor(options, 'foo')

        pconfig1 = DummyPConfig(options, 'process1', __file__)
        pconfig2 = DummyPConfig(options, 'process2', __file__)
        gconfig = DummyPGroupConfig(options, 'group1', pconfigs=[pconfig1, pconfig2])
        supervisord.process_groups = {'group1': DummyProcessGroup(gconfig)}
        supervisord.options.process_group_configs = [gconfig]
        interface = self._makeOne(supervisord)

        unmarshallables = [type(None)]

        try:
            from enum import Enum
            unmarshallables.append(Enum)
        except ImportError: # python 2
            pass

        for typ in unmarshallables:
            for config in interface.getAllConfigInfo():
                for k, v in config.items():
                    self.assertFalse(isinstance(v, typ), k)

    def test__interpretProcessInfo(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        start = _NOW -100
        stop  = _NOW -1
        from supervisor.process import ProcessStates
        running = {'name':'running',
                   'pid':1,
                   'state':ProcessStates.RUNNING,
                   'start':start,
                   'stop':stop,
                   'now':_NOW}

        description = interface._interpretProcessInfo(running)
        self.assertEqual(description, 'pid 1, uptime 0:01:40')

        fatal = {'name':'fatal',
                 'pid':2,
                 'state':ProcessStates.FATAL,
                 'start':start,
                 'stop':stop,
                 'now':_NOW,
                 'spawnerr':'Hosed'}

        description = interface._interpretProcessInfo(fatal)
        self.assertEqual(description, 'Hosed')

        fatal2 = {'name':'fatal',
                  'pid':2,
                  'state':ProcessStates.FATAL,
                  'start':start,
                  'stop':stop,
                  'now':_NOW,
                  'spawnerr':'',}

        description = interface._interpretProcessInfo(fatal2)
        self.assertEqual(description, 'unknown error (try "tail fatal")')

        stopped = {'name':'stopped',
                   'pid':3,
                   'state':ProcessStates.STOPPED,
                   'start':start,
                   'stop':stop,
                   'now':_NOW,
                   'spawnerr':'',}

        description = interface._interpretProcessInfo(stopped)
        from datetime import datetime
        stoptime = datetime(*time.localtime(stop)[:7])
        self.assertEqual(description, stoptime.strftime(_TIMEFORMAT))

        stopped2 = {'name':'stopped',
                   'pid':3,
                   'state':ProcessStates.STOPPED,
                   'start':0,
                   'stop':stop,
                   'now':_NOW,
                   'spawnerr':'',}

        description = interface._interpretProcessInfo(stopped2)
        self.assertEqual(description, 'Not started')

    def test__interpretProcessInfo_doesnt_report_negative_uptime(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        from supervisor.process import ProcessStates
        running = {'name': 'running',
                   'pid': 42,
                   'state': ProcessStates.RUNNING,
                   'start': _NOW + 10, # started in the future
                   'stop': None,
                   'now': _NOW}
        description = interface._interpretProcessInfo(running)
        self.assertEqual(description, 'pid 42, uptime 0:00:00')

    def test_getProcessInfo(self):
        from supervisor.process import ProcessStates

        options = DummyOptions()
        config = DummyPConfig(options, 'foo', '/bin/foo',
                              stdout_logfile='/tmp/fleeb.bar')
        process = DummyProcess(config)
        process.pid = 111
        process.laststart = 10
        process.laststop = 11
        pgroup_config = DummyPGroupConfig(options, name='foo')
        pgroup = DummyProcessGroup(pgroup_config)
        pgroup.processes = {'foo':process}
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        data = interface.getProcessInfo('foo')

        self.assertEqual(interface.update_text, 'getProcessInfo')
        self.assertEqual(data['logfile'], '/tmp/fleeb.bar')
        self.assertEqual(data['stdout_logfile'], '/tmp/fleeb.bar')
        self.assertEqual(data['stderr_logfile'], '')
        self.assertEqual(data['name'], 'foo')
        self.assertEqual(data['pid'], 111)
        self.assertEqual(data['start'], 10)
        self.assertEqual(data['stop'], 11)
        self.assertEqual(data['state'], ProcessStates.RUNNING)
        self.assertEqual(data['statename'], 'RUNNING')
        self.assertEqual(data['exitstatus'], 0)
        self.assertEqual(data['spawnerr'], '')
        self.assertTrue(data['description'].startswith('pid 111'))

    def test_getProcessInfo_logfile_NONE(self):
        options = DummyOptions()
        config = DummyPConfig(options, 'foo', '/bin/foo',
                              stdout_logfile=None)
        process = DummyProcess(config)
        process.pid = 111
        process.laststart = 10
        process.laststop = 11
        pgroup_config = DummyPGroupConfig(options, name='foo')
        pgroup = DummyProcessGroup(pgroup_config)
        pgroup.processes = {'foo':process}
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        data = interface.getProcessInfo('foo')
        self.assertEqual(data['logfile'], '')
        self.assertEqual(data['stdout_logfile'], '')

    def test_getProcessInfo_unknown_state(self):
        from supervisor.states import ProcessStates
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        supervisord.set_procattr('foo', 'state', ProcessStates.UNKNOWN)
        interface = self._makeOne(supervisord)
        data = interface.getProcessInfo('foo')
        self.assertEqual(data['statename'], 'UNKNOWN')
        self.assertEqual(data['description'], '')

    def test_getProcessInfo_bad_name_when_bad_process(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.getProcessInfo, 'nonexistent')

    def test_getProcessInfo_bad_name_when_no_process(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.getProcessInfo, 'foo:')

    def test_getProcessInfo_caps_timestamps_exceeding_xmlrpc_maxint(self):
        from supervisor.compat import xmlrpclib
        options = DummyOptions()
        config = DummyPConfig(options, 'foo', '/bin/foo',
                              stdout_logfile=None)
        process = DummyProcess(config)
        process.laststart = float(xmlrpclib.MAXINT + 1)
        process.laststop = float(xmlrpclib.MAXINT + 1)
        pgroup_config = DummyPGroupConfig(options, name='foo')
        pgroup = DummyProcessGroup(pgroup_config)
        pgroup.processes = {'foo':process}
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        interface._now = lambda: float(xmlrpclib.MAXINT + 1)
        data = interface.getProcessInfo('foo')
        self.assertEqual(data['start'], xmlrpclib.MAXINT)
        self.assertEqual(data['stop'], xmlrpclib.MAXINT)
        self.assertEqual(data['now'], xmlrpclib.MAXINT)

    def test_getAllProcessInfo(self):
        from supervisor.process import ProcessStates
        options = DummyOptions()

        p1config = DummyPConfig(options, 'process1', '/bin/process1',
                                priority=1,
                                stdout_logfile='/tmp/process1.log')

        p2config = DummyPConfig(options, 'process2', '/bin/process2',
                                priority=2,
                                stdout_logfile='/tmp/process2.log')

        supervisord = PopulatedDummySupervisor(options, 'gname', p1config,
                                               p2config)
        supervisord.set_procattr('process1', 'pid', 111)
        supervisord.set_procattr('process1', 'laststart', 10)
        supervisord.set_procattr('process1', 'laststop', 11)
        supervisord.set_procattr('process1', 'state', ProcessStates.RUNNING)

        supervisord.set_procattr('process2', 'pid', 0)
        supervisord.set_procattr('process2', 'laststart', 20)
        supervisord.set_procattr('process2', 'laststop', 11)
        supervisord.set_procattr('process2', 'state', ProcessStates.STOPPED)

        interface = self._makeOne(supervisord)

        info = interface.getAllProcessInfo()

        self.assertEqual(interface.update_text, 'getProcessInfo')
        self.assertEqual(len(info), 2)

        p1info = info[0]
        self.assertEqual(p1info['logfile'], '/tmp/process1.log')
        self.assertEqual(p1info['stdout_logfile'], '/tmp/process1.log')
        self.assertEqual(p1info['stderr_logfile'], '')
        self.assertEqual(p1info['name'], 'process1')
        self.assertEqual(p1info['pid'], 111)
        self.assertEqual(p1info['start'], 10)
        self.assertEqual(p1info['stop'], 11)
        self.assertEqual(p1info['state'], ProcessStates.RUNNING)
        self.assertEqual(p1info['statename'], 'RUNNING')
        self.assertEqual(p1info['exitstatus'], 0)
        self.assertEqual(p1info['spawnerr'], '')
        self.assertEqual(p1info['group'], 'gname')
        self.assertTrue(p1info['description'].startswith('pid 111'))

        p2info = info[1]
        process2 = supervisord.process_groups['gname'].processes['process2']
        self.assertEqual(p2info['logfile'], '/tmp/process2.log')
        self.assertEqual(p2info['stdout_logfile'], '/tmp/process2.log')
        self.assertEqual(p1info['stderr_logfile'], '')
        self.assertEqual(p2info['name'], 'process2')
        self.assertEqual(p2info['pid'], 0)
        self.assertEqual(p2info['start'], process2.laststart)
        self.assertEqual(p2info['stop'], 11)
        self.assertEqual(p2info['state'], ProcessStates.STOPPED)
        self.assertEqual(p2info['statename'], 'STOPPED')
        self.assertEqual(p2info['exitstatus'], 0)
        self.assertEqual(p2info['spawnerr'], '')
        self.assertEqual(p1info['group'], 'gname')

        from datetime import datetime
        starttime = datetime(*time.localtime(process2.laststart)[:7])
        self.assertEqual(p2info['description'],
                            starttime.strftime(_TIMEFORMAT))

    def test_readProcessStdoutLog_unreadable(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                               stdout_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.NO_FILE,
                             interface.readProcessStdoutLog,
                             'process1', offset=0, length=1)

    def test_readProcessStdoutLog_badargs(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                              stdout_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['process1'].processes['process1']
        logfile = process.config.stdout_logfile

        try:
            with open(logfile, 'w+') as f:
                f.write('x' * 2048)
            self._assertRPCError(xmlrpc.Faults.BAD_ARGUMENTS,
                                 interface.readProcessStdoutLog,
                                 'process1', offset=-1, length=1)
            self._assertRPCError(xmlrpc.Faults.BAD_ARGUMENTS,
                                 interface.readProcessStdoutLog, 'process1',
                                 offset=-1, length=-1)
        finally:
            os.remove(logfile)

    def test_readProcessStdoutLog_bad_name_no_process(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                               stdout_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.readProcessStdoutLog,
                             'foo:*', offset=0, length=1)

    def test_readProcessStdoutLog(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                              stdout_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stdout_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write('x' * 2048)
                f.write('y' * 2048)
            data = interface.readProcessStdoutLog('foo', offset=0, length=0)
            self.assertEqual(interface.update_text, 'readProcessStdoutLog')
            self.assertEqual(data, ('x' * 2048) + ('y' * 2048))
            data = interface.readProcessStdoutLog('foo', offset=2048, length=0)
            self.assertEqual(data, 'y' * 2048)
            data = interface.readProcessStdoutLog('foo', offset=0, length=2048)
            self.assertEqual(data, 'x' * 2048)
            data = interface.readProcessStdoutLog('foo', offset=-4, length=0)
            self.assertEqual(data, 'y' * 4)
        finally:
            os.remove(logfile)

    def test_readProcessLogAliasedTo_readProcessStdoutLog(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self.assertEqual(interface.readProcessLog,
                         interface.readProcessStdoutLog)

    def test_readProcessStderrLog_unreadable(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                               stderr_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.NO_FILE,
                             interface.readProcessStderrLog,
                             'process1', offset=0, length=1)

    def test_readProcessStderrLog_badargs(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                              stderr_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['process1'].processes['process1']
        logfile = process.config.stderr_logfile

        try:
            with open(logfile, 'w+') as f:
                f.write('x' * 2048)
            self._assertRPCError(xmlrpc.Faults.BAD_ARGUMENTS,
                                 interface.readProcessStderrLog,
                                 'process1', offset=-1, length=1)
            self._assertRPCError(xmlrpc.Faults.BAD_ARGUMENTS,
                                 interface.readProcessStderrLog, 'process1',
                                 offset=-1, length=-1)
        finally:
            os.remove(logfile)

    def test_readProcessStderrLog_bad_name_no_process(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                               stdout_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.readProcessStderrLog,
                             'foo:*', offset=0, length=1)

    def test_readProcessStderrLog(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                              stderr_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stderr_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write('x' * 2048)
                f.write('y' * 2048)
            data = interface.readProcessStderrLog('foo', offset=0, length=0)
            self.assertEqual(interface.update_text, 'readProcessStderrLog')
            self.assertEqual(data, ('x' * 2048) + ('y' * 2048))
            data = interface.readProcessStderrLog('foo', offset=2048, length=0)
            self.assertEqual(data, 'y' * 2048)
            data = interface.readProcessStderrLog('foo', offset=0, length=2048)
            self.assertEqual(data, 'x' * 2048)
            data = interface.readProcessStderrLog('foo', offset=-4, length=0)
            self.assertEqual(data, 'y' * 4)
        finally:
            os.remove(logfile)

    def test_tailProcessStdoutLog_bad_name(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.tailProcessStdoutLog, 'BAD_NAME', 0, 10)

    def test_tailProcessStdoutLog_bad_name_no_process(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                               stdout_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.tailProcessStdoutLog, 'foo:*', 0, 10)

    def test_tailProcessStdoutLog_all(self):
        # test entire log is returned when offset==0 and logsize < length
        from supervisor.compat import letters
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                               stdout_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stdout_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write(letters)

            data, offset, overflow = interface.tailProcessStdoutLog('foo',
                                                        offset=0,
                                                        length=len(letters))
            self.assertEqual(interface.update_text, 'tailProcessStdoutLog')
            self.assertEqual(overflow, False)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, letters)
        finally:
            os.remove(logfile)

    def test_tailProcessStdoutLog_none(self):
        # test nothing is returned when offset <= logsize
        from supervisor.compat import letters
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                               stdout_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stdout_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write(letters)

            # offset==logsize
            data, offset, overflow = interface.tailProcessStdoutLog('foo',
                                                        offset=len(letters),
                                                        length=100)
            self.assertEqual(interface.update_text, 'tailProcessStdoutLog')
            self.assertEqual(overflow, False)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, '')

            # offset > logsize
            data, offset, overflow = interface.tailProcessStdoutLog('foo',
                                                        offset=len(letters)+5,
                                                        length=100)
            self.assertEqual(interface.update_text, 'tailProcessStdoutLog')
            self.assertEqual(overflow, False)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, '')
        finally:
            os.remove(logfile)

    def test_tailProcessStdoutLog_overflow(self):
        # test buffer overflow occurs when logsize > offset+length
        from supervisor.compat import letters
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                              stdout_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stdout_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write(letters)

            data, offset, overflow = interface.tailProcessStdoutLog('foo',
                                                        offset=0, length=5)
            self.assertEqual(interface.update_text, 'tailProcessStdoutLog')
            self.assertEqual(overflow, True)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, letters[-5:])
        finally:
            os.remove(logfile)

    def test_tailProcessStdoutLog_unreadable(self):
        # test nothing is returned if the log doesn't exist yet
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                               stdout_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)

        data, offset, overflow = interface.tailProcessStdoutLog('foo',
                                                    offset=0, length=100)
        self.assertEqual(interface.update_text, 'tailProcessStdoutLog')
        self.assertEqual(overflow, False)
        self.assertEqual(offset, 0)
        self.assertEqual(data, '')

    def test_tailProcessLogAliasedTo_tailProcessStdoutLog(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self.assertEqual(interface.tailProcessLog,
                         interface.tailProcessStdoutLog)

    def test_tailProcessStderrLog_bad_name(self):
        from supervisor import xmlrpc
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.tailProcessStderrLog, 'BAD_NAME', 0, 10)

    def test_tailProcessStderrLog_bad_name_no_process(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'process1', '/bin/process1', priority=1,
                               stdout_logfile='/tmp/process1.log')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.tailProcessStderrLog, 'foo:*', 0, 10)

    def test_tailProcessStderrLog_all(self):
        # test entire log is returned when offset==0 and logsize < length
        from supervisor.compat import letters
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                               stderr_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stderr_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write(letters)

            data, offset, overflow = interface.tailProcessStderrLog('foo',
                                                        offset=0,
                                                        length=len(letters))
            self.assertEqual(interface.update_text, 'tailProcessStderrLog')
            self.assertEqual(overflow, False)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, letters)
        finally:
            os.remove(logfile)

    def test_tailProcessStderrLog_none(self):
        # test nothing is returned when offset <= logsize
        from supervisor.compat import letters
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                               stderr_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stderr_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write(letters)

            # offset==logsize
            data, offset, overflow = interface.tailProcessStderrLog('foo',
                                                        offset=len(letters),
                                                        length=100)
            self.assertEqual(interface.update_text, 'tailProcessStderrLog')
            self.assertEqual(overflow, False)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, '')

            # offset > logsize
            data, offset, overflow = interface.tailProcessStderrLog('foo',
                                                        offset=len(letters)+5,
                                                        length=100)
            self.assertEqual(interface.update_text, 'tailProcessStderrLog')
            self.assertEqual(overflow, False)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, '')
        finally:
            os.remove(logfile)

    def test_tailProcessStderrLog_overflow(self):
        # test buffer overflow occurs when logsize > offset+length
        from supervisor.compat import letters
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                              stderr_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        process = supervisord.process_groups['foo'].processes['foo']
        logfile = process.config.stderr_logfile
        try:
            with open(logfile, 'w+') as f:
                f.write(letters)

            data, offset, overflow = interface.tailProcessStderrLog('foo',
                                                        offset=0, length=5)
            self.assertEqual(interface.update_text, 'tailProcessStderrLog')
            self.assertEqual(overflow, True)
            self.assertEqual(offset, len(letters))
            self.assertEqual(data, letters[-5:])
        finally:
            os.remove(logfile)

    def test_tailProcessStderrLog_unreadable(self):
        # test nothing is returned if the log doesn't exist yet
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo',
                               stderr_logfile='/tmp/fooooooo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)

        data, offset, overflow = interface.tailProcessStderrLog('foo',
                                                    offset=0, length=100)
        self.assertEqual(interface.update_text, 'tailProcessStderrLog')
        self.assertEqual(overflow, False)
        self.assertEqual(offset, 0)
        self.assertEqual(data, '')

    def test_clearProcessLogs_bad_name_no_group(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', 'foo')
        process = DummyProcess(pconfig)
        pgroup = DummyProcessGroup(None)
        pgroup.processes = {'foo': process}
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.clearProcessLogs,
                             'badgroup')

    def test_clearProcessLogs_bad_name_no_process(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', 'foo')
        process = DummyProcess(pconfig)
        pgroup = DummyProcessGroup(None)
        pgroup.processes = {'foo': process}
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.clearProcessLogs,
                             'foo:*')

    def test_clearProcessLogs(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', 'foo')
        process = DummyProcess(pconfig)
        pgroup = DummyProcessGroup(None)
        pgroup.processes = {'foo': process}
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        interface.clearProcessLogs('foo')
        self.assertEqual(process.logsremoved, True)

    def test_clearProcessLogs_failed(self):
        from supervisor import xmlrpc
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', 'foo')
        process = DummyProcess(pconfig)
        pgroup = DummyProcessGroup(None)
        pgroup.processes = {'foo': process}
        process.error_at_clear = True
        supervisord = DummySupervisor(process_groups={'foo':pgroup})
        interface = self._makeOne(supervisord)
        self.assertRaises(xmlrpc.RPCError, interface.clearProcessLogs, 'foo')

    def test_clearProcessLogAliasedTo_clearProcessLogs(self):
        options = DummyOptions()
        pconfig = DummyPConfig(options, 'foo', '/bin/foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig)
        interface = self._makeOne(supervisord)
        self.assertEqual(interface.clearProcessLog,
                         interface.clearProcessLogs)

    def test_clearAllProcessLogs(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo', priority=1)
        pconfig2 = DummyPConfig(options, 'process2', 'bar', priority=2)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        interface = self._makeOne(supervisord)
        callback = interface.clearAllProcessLogs()
        callback()
        results = callback()
        from supervisor import xmlrpc
        self.assertEqual(results[0],
                         {'name':'process1',
                          'group':'foo',
                          'status':xmlrpc.Faults.SUCCESS,
                          'description':'OK'})
        self.assertEqual(results[1],
                         {'name':'process2',
                          'group':'foo',
                          'status':xmlrpc.Faults.SUCCESS,
                          'description':'OK'})
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.logsremoved, True)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.logsremoved, True)

    def test_clearAllProcessLogs_onefails(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo', priority=1)
        pconfig2 = DummyPConfig(options, 'process2', 'bar', priority=2)
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1,
                                               pconfig2)
        supervisord.set_procattr('process1', 'error_at_clear', True)
        interface = self._makeOne(supervisord)
        callback = interface.clearAllProcessLogs()
        callback()
        results = callback()
        process1 = supervisord.process_groups['foo'].processes['process1']
        self.assertEqual(process1.logsremoved, False)
        process2 = supervisord.process_groups['foo'].processes['process2']
        self.assertEqual(process2.logsremoved, True)
        self.assertEqual(len(results), 2)
        from supervisor import xmlrpc
        self.assertEqual(results[0],
                         {'name':'process1',
                          'group':'foo',
                          'status':xmlrpc.Faults.FAILED,
                          'description':'FAILED: foo:process1'})
        self.assertEqual(results[1],
                         {'name':'process2',
                          'group':'foo',
                          'status':xmlrpc.Faults.SUCCESS,
                          'description':'OK'})

    def test_clearAllProcessLogs_no_processes(self):
        supervisord = DummySupervisor()
        self.assertEqual(supervisord.process_groups, {})
        interface = self._makeOne(supervisord)
        callback = interface.clearAllProcessLogs()
        results = callback()
        self.assertEqual(results, [])

    def test_sendProcessStdin_raises_incorrect_params_when_not_chars(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'foo', pconfig1)
        interface   = self._makeOne(supervisord)
        thing_not_chars = 42
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.INCORRECT_PARAMETERS,
                             interface.sendProcessStdin,
                             'process1', thing_not_chars)

    def test_sendProcessStdin_raises_bad_name_when_bad_process(self):
        supervisord = DummySupervisor()
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.sendProcessStdin,
                             'nonexistent', 'chars for stdin')

    def test_sendProcessStdin_raises_bad_name_when_no_process(self):
        options = DummyOptions()
        supervisord = PopulatedDummySupervisor(options, 'foo')
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.BAD_NAME,
                             interface.sendProcessStdin,
                             'foo:*', 'chars for stdin')

    def test_sendProcessStdin_raises_not_running_when_not_process_pid(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig1)
        supervisord.set_procattr('process1', 'pid', 0)
        interface = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.NOT_RUNNING,
                            interface.sendProcessStdin,
                            'process1', 'chars for stdin')

    def test_sendProcessStdin_raises_not_running_when_killing(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig1)
        supervisord.set_procattr('process1', 'pid', 42)
        supervisord.set_procattr('process1', 'killing', True)
        interface   = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.NOT_RUNNING,
                             interface.sendProcessStdin,
                             'process1', 'chars for stdin')

    def test_sendProcessStdin_raises_no_file_when_write_raises_epipe(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig1)
        supervisord.set_procattr('process1', 'pid', 42)
        supervisord.set_procattr('process1', 'killing', False)
        supervisord.set_procattr('process1', 'write_exception',
            OSError(errno.EPIPE, os.strerror(errno.EPIPE)))
        interface   = self._makeOne(supervisord)
        from supervisor import xmlrpc
        self._assertRPCError(xmlrpc.Faults.NO_FILE,
                             interface.sendProcessStdin,
                             'process1', 'chars for stdin')

    def test_sendProcessStdin_reraises_other_oserrors(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig1)
        supervisord.set_procattr('process1', 'pid', 42)
        supervisord.set_procattr('process1', 'killing', False)
        supervisord.set_procattr('process1', 'write_exception',
            OSError(errno.EINTR, os.strerror(errno.EINTR)))
        interface   = self._makeOne(supervisord)
        self.assertRaises(OSError,
                          interface.sendProcessStdin,
                          'process1', 'chars for stdin')

    def test_sendProcessStdin_writes_chars_and_returns_true(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig1)
        supervisord.set_procattr('process1', 'pid', 42)
        interface   = self._makeOne(supervisord)
        chars = b'chars for stdin'
        self.assertTrue(interface.sendProcessStdin('process1', chars))
        self.assertEqual('sendProcessStdin', interface.update_text)
        process1 = supervisord.process_groups['process1'].processes['process1']
        self.assertEqual(process1.stdin_buffer, chars)

    def test_sendProcessStdin_unicode_encoded_to_utf8(self):
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        supervisord = PopulatedDummySupervisor(options, 'process1', pconfig1)
        supervisord.set_procattr('process1', 'pid', 42)
        interface   = self._makeOne(supervisord)
        interface.sendProcessStdin('process1', as_string(b'fi\xc3\xad'))
        process1 = supervisord.process_groups['process1'].processes['process1']
        self.assertEqual(process1.stdin_buffer, b'fi\xc3\xad')

    def test_sendRemoteCommEvent_notifies_subscribers(self):
        options = DummyOptions()
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)

        from supervisor import events
        L = []
        def callback(event):
            L.append(event)

        try:
            events.callbacks[:] = [(events.RemoteCommunicationEvent, callback)]
            result = interface.sendRemoteCommEvent('foo', 'bar')
        finally:
            events.callbacks[:] = []
            events.clear()

        self.assertTrue(result)
        self.assertEqual(len(L), 1)
        event = L[0]
        self.assertEqual(event.type, 'foo')
        self.assertEqual(event.data, 'bar')

    def test_sendRemoteCommEvent_unicode_encoded_to_utf8(self):
        options = DummyOptions()
        supervisord = DummySupervisor(options)
        interface = self._makeOne(supervisord)

        from supervisor import events
        L = []
        def callback(event):
            L.append(event)

        try:
            events.callbacks[:] = [(events.RemoteCommunicationEvent, callback)]
            result = interface.sendRemoteCommEvent(
                as_string('fií once'),
                as_string('fií twice'),
                )
        finally:
            events.callbacks[:] = []
            events.clear()

        self.assertTrue(result)
        self.assertEqual(len(L), 1)
        event = L[0]
        if PY2:
            self.assertEqual(event.type, 'fi\xc3\xad once')
            self.assertEqual(event.data, 'fi\xc3\xad twice')
        else:
            self.assertEqual(event.type, 'fií once')
            self.assertEqual(event.data, 'fií twice')


class SystemNamespaceXMLRPCInterfaceTests(TestBase):
    def _getTargetClass(self):
        from supervisor import xmlrpc
        return xmlrpc.SystemNamespaceRPCInterface

    def _makeOne(self):
        from supervisor import rpcinterface
        supervisord = DummySupervisor()
        supervisor = rpcinterface.SupervisorNamespaceRPCInterface(supervisord)
        return self._getTargetClass()(
            [('supervisor', supervisor),
             ]
            )

    def test_ctor(self):
        interface = self._makeOne()
        self.assertTrue(interface.namespaces['supervisor'])
        self.assertTrue(interface.namespaces['system'])

    def test_listMethods(self):
        interface = self._makeOne()
        methods = interface.listMethods()
        methods.sort()
        keys = list(interface._listMethods().keys())
        keys.sort()
        self.assertEqual(methods, keys)

    def test_methodSignature(self):
        from supervisor import xmlrpc
        interface = self._makeOne()
        self._assertRPCError(xmlrpc.Faults.SIGNATURE_UNSUPPORTED,
                             interface.methodSignature,
                             ['foo.bar'])
        result = interface.methodSignature('system.methodSignature')
        self.assertEqual(result, ['array', 'string'])

    def test_allMethodDocs(self):
        from supervisor import xmlrpc
        # belt-and-suspenders test for docstring-as-typing parsing correctness
        # and documentation validity vs. implementation
        _RPCTYPES = ['int', 'double', 'string', 'boolean', 'dateTime.iso8601',
                     'base64', 'binary', 'array', 'struct']
        interface = self._makeOne()
        methods = interface._listMethods()
        for k in methods.keys():
            # if a method doesn't have a @return value, an RPCError is raised.
            # Detect that here.
            try:
                interface.methodSignature(k)
            except xmlrpc.RPCError:
                raise AssertionError('methodSignature for %s raises '
                                     'RPCError (missing @return doc?)' % k)

            # we want to test that the number of arguments implemented in
            # the function is the same as the number of arguments implied by
            # the doc @params, and that they show up in the same order.
            ns_name, method_name = k.split('.', 1)
            namespace = interface.namespaces[ns_name]
            meth = getattr(namespace, method_name)
            try:
                code = meth.func_code
            except Exception:
                code = meth.__code__
            argnames = code.co_varnames[1:code.co_argcount]
            parsed = xmlrpc.gettags(str(meth.__doc__))

            plines = []
            ptypes = []
            pnames = []
            ptexts = []

            rlines = []
            rtypes = []
            rnames = []
            rtexts = []

            for thing in parsed:
                if thing[1] == 'param': # tag name
                    plines.append(thing[0]) # doc line number
                    ptypes.append(thing[2]) # data type
                    pnames.append(thing[3]) # function name
                    ptexts.append(thing[4])  # description
                elif thing[1] == 'return': # tag name
                    rlines.append(thing[0]) # doc line number
                    rtypes.append(thing[2]) # data type
                    rnames.append(thing[3]) # function name
                    rtexts.append(thing[4])  # description
                elif thing[1] is not None:
                    raise AssertionError(
                        'unknown tag type %s for %s, parsed %s' % (thing[1],
                                                                   k,
                                                                   parsed))
            # param tokens

            if len(argnames) != len(pnames):
                raise AssertionError('Incorrect documentation '
                                     '(%s args, %s doc params) in %s'
                                     % (len(argnames), len(pnames), k))
            for docline in plines:
                self.assertTrue(type(docline) == int, (docline,
                                                       type(docline),
                                                       k,
                                                       parsed))
            for doctype in ptypes:
                self.assertTrue(doctype in _RPCTYPES, doctype)
            for x in range(len(pnames)):
                if pnames[x] != argnames[x]:
                    msg = 'Name wrong: (%s vs. %s in %s)\n%s' % (pnames[x],
                                                                 argnames[x],
                                                                 k,
                                                                 parsed)
                    raise AssertionError(msg)
            for doctext in ptexts:
                self.assertTrue(type(doctext) == type(''), doctext)

            # result tokens

            if len(rlines) > 1:
                raise AssertionError(
                    'Duplicate @return values in docs for %s' % k)
            for docline in rlines:
                self.assertTrue(type(docline) == int, (docline,
                                                       type(docline), k))
            for doctype in rtypes:
                self.assertTrue(doctype in _RPCTYPES, doctype)
            for docname in rnames:
                self.assertTrue(type(docname) == type(''), (docname,
                                                            type(docname),
                                                            k))
            for doctext in rtexts:
                self.assertTrue(type(doctext) == type(''), (doctext,
                                                            type(doctext), k))

    def test_multicall_simplevals(self):
        interface = self._makeOne()
        results = interface.multicall([
            {'methodName':'system.methodHelp', 'params':['system.methodHelp']},
            {'methodName':'system.listMethods', 'params':[]},
            ])
        self.assertEqual(results[0], interface.methodHelp('system.methodHelp'))
        self.assertEqual(results[1], interface.listMethods())

    def test_multicall_recursion_guard(self):
        from supervisor import xmlrpc
        interface = self._makeOne()
        results = interface.multicall([
            {'methodName': 'system.multicall', 'params': []},
        ])

        e = xmlrpc.RPCError(xmlrpc.Faults.INCORRECT_PARAMETERS,
                'Recursive system.multicall forbidden')
        recursion_fault = {'faultCode': e.code, 'faultString': e.text}
        self.assertEqual(results, [recursion_fault])

    def test_multicall_nested_callback(self):
        from supervisor import http
        interface = self._makeOne()
        callback = interface.multicall([
            {'methodName':'supervisor.stopAllProcesses'}])
        results = http.NOT_DONE_YET
        while results is http.NOT_DONE_YET:
            results = callback()
        self.assertEqual(results[0], [])

    def test_methodHelp(self):
        from supervisor import xmlrpc
        interface = self._makeOne()
        self._assertRPCError(xmlrpc.Faults.SIGNATURE_UNSUPPORTED,
                             interface.methodHelp,
                             ['foo.bar'])
        help = interface.methodHelp('system.methodHelp')
        self.assertEqual(help, interface.methodHelp.__doc__)

class Test_make_allfunc(unittest.TestCase):
    def _callFUT(self, processes, predicate, func, **extra_kwargs):
        from supervisor.rpcinterface import make_allfunc
        return make_allfunc(processes, predicate, func, **extra_kwargs)

    def test_rpcerror_nocallbacks(self):
        from supervisor import xmlrpc
        def cb(name, **kw):
            raise xmlrpc.RPCError(xmlrpc.Faults.FAILED)
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        proc = DummyProcess(pconfig1)
        group = DummyProcessGroup(pconfig1)
        def pred(proc):
            return True
        af = self._callFUT([(group, proc)], pred, cb)
        result = af()
        self.assertEqual(result,
            [{'description': 'FAILED',
            'group': 'process1',
            'name': 'process1',
            'status': xmlrpc.Faults.FAILED}])

    def test_func_callback_normal_return_val(self):
        def cb(name, **kw):
            return lambda: 1
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        proc = DummyProcess(pconfig1)
        group = DummyProcessGroup(pconfig1)
        def pred(proc):
            return True
        af = self._callFUT([(group, proc)], pred, cb)
        result = af()
        self.assertEqual(
            result,
            [{'group': 'process1',
              'description': 'OK',
              'status': 80, 'name': 'process1'}]
            )

    def test_func_callback_raises_RPCError(self):
        from supervisor import xmlrpc
        def cb(name, **kw):
            def inner():
                raise xmlrpc.RPCError(xmlrpc.Faults.FAILED)
            return inner
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        proc = DummyProcess(pconfig1)
        group = DummyProcessGroup(pconfig1)
        def pred(proc):
            return True
        af = self._callFUT([(group, proc)], pred, cb)
        result = af()
        self.assertEqual(
            result,
            [{'description': 'FAILED',
              'group': 'process1',
              'status': 30,
              'name': 'process1'}]
            )

    def test_func_callback_returns_NOT_DONE_YET(self):
        from supervisor.http import NOT_DONE_YET
        def cb(name, **kw):
            def inner():
                return NOT_DONE_YET
            return inner
        options = DummyOptions()
        pconfig1 = DummyPConfig(options, 'process1', 'foo')
        proc = DummyProcess(pconfig1)
        group = DummyProcessGroup(pconfig1)
        def pred(proc):
            return True
        af = self._callFUT([(group, proc)], pred, cb)
        result = af()
        self.assertEqual(
            result,
            NOT_DONE_YET,
            )

class Test_make_main_rpcinterface(unittest.TestCase):
    def _callFUT(self, supervisord):
        from supervisor.rpcinterface import make_main_rpcinterface
        return make_main_rpcinterface(supervisord)

    def test_it(self):
        inst = self._callFUT(None)
        self.assertEqual(
            inst.__class__.__name__,
            'SupervisorNamespaceRPCInterface'
            )



class DummyRPCInterface:
    def hello(self):
        return 'Hello!'

def test_suite():
    return unittest.findTestCases(sys.modules[__name__])

if __name__ == '__main__':
    unittest.main(defaultTest='test_suite')


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