def _CreateForemanClientRuleSet(self): return rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ])
def testRuleAdding(self): foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) rules = foreman.Get(foreman.Schema.RULES) # Make sure there are no rules yet in the foreman. self.assertEqual(len(rules), 0) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="HUNT")), rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.INTEGER, integer=rdf_foreman.ForemanIntegerClientRule( field="CLIENT_CLOCK", operator=rdf_foreman.ForemanIntegerClientRule.Operator. GREATER_THAN, value=1336650631137737)) ]) hunt = implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) # Push the rules to the foreman. with hunt: hunt.GetRunner().Start() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) rules = foreman.Get(foreman.Schema.RULES) # Make sure they were written correctly. self.assertEqual(len(rules), 1) rule = rules[0] self.assertEqual(rule.client_rule_set, client_rule_set) self.assertEqual(len(rule.actions), 1) self.assertEqual(rule.actions[0].hunt_name, "SampleHunt") # Running a second time should not change the rules any more. with hunt: hunt.GetRunner().Start() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) rules = foreman.Get(foreman.Schema.RULES) # Still just one rule. self.assertEqual(len(rules), 1)
def testEvaluatesPositiveInMatchAllModeWithNoRules(self): # Instantiate an empty rule set that matches if all of its rules match rs = rdf_foreman.ForemanClientRuleSet( match_mode=rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ALL, rules=[]) client_id_lin = self.SetupClient(0, system="Linux") # All of the set's rules have os_linux=True, so the set matches self.assertTrue( rs.Evaluate(aff4.FACTORY.Open(client_id_lin, token=self.token)))
def testEvaluatesNegativeInMatchAnyModeWithNoRules(self): # Instantiate an empty rule set that matches if any of its rules matches rs = rdf_foreman.ForemanClientRuleSet( match_mode=rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ANY, rules=[]) client_id_lin = self.SetupClient(0, system="Linux") # None of the set's rules has os_linux=True, so the set doesn't match self.assertFalse( rs.Evaluate(aff4.FACTORY.Open(client_id_lin, token=self.token)))
def GenerateSample(self, number=0): ret = rdf_foreman.ForemanClientRuleSet() # Use the number's least significant bit to assign a match mode if number % 1: ret.match_mode = rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ALL else: ret.match_mode = rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ANY # Generate a sequence of rules using all other bits ret.rules = [ ForemanClientRuleTest.GenerateSample(n) for n in xrange(number / 2) ] return ret
def testPausingAndRestartingDoesNotStartHuntTwiceOnTheSameClient(self): """This tests if the hunt completes when some clients hang or raise.""" client_ids = self.SetupClients(10) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) as hunt: hunt.GetRunner().Start() hunt_id = hunt.urn foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: num_tasks = foreman.AssignTasksToClient(client_id.Basename()) self.assertEqual(num_tasks, 1) client_mock = hunt_test_lib.SampleHuntMock() hunt_test_lib.TestHuntHelper(client_mock, client_ids, False, self.token) # Pausing and running hunt: this leads to the fresh rules being written # to Foreman.RULES. with aff4.FACTORY.Open(hunt_id, mode="rw", token=self.token) as hunt: runner = hunt.GetRunner() runner.Pause() runner.Start() # Recreating the foreman so that it updates list of rules. foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: num_tasks = foreman.AssignTasksToClient(client_id.Basename()) # No tasks should be assigned as this hunt ran on all the clients # before. self.assertEqual(num_tasks, 0)
def testInvalidRules(self): """Tests the behavior when the field is left UNSET in a rule.""" client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="UNSET", attribute_regex="HUNT")) ]) with implementation.GRRHunt.StartHunt( hunt_name=BrokenSampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) as hunt: runner = hunt.GetRunner() self.assertRaises(ValueError, runner.Start)
def testBrokenHunt(self): """This tests the behavior when a hunt raises an exception.""" # Set up 10 clients. client_ids = self.SetupClients(10) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt( hunt_name=BrokenSampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) as hunt: hunt.GetRunner().Start() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: foreman.AssignTasksToClient(client_id.Basename()) # Run the hunt. client_mock = hunt_test_lib.SampleHuntMock() hunt_test_lib.TestHuntHelper(client_mock, client_ids, False, self.token) hunt_obj = aff4.FACTORY.Open(hunt.session_id, mode="rw", age=aff4.ALL_TIMES, token=self.token) started, finished, errors = hunt_obj.GetClientsCounts() self.assertEqual(started, 10) # There should be errors for the five clients where the hunt raised. self.assertEqual(errors, 5) # All of the clients that have the file should still finish eventually. self.assertEqual(finished, 5)
def testHangingClients(self): """This tests if the hunt completes when some clients hang or raise.""" # Set up 10 clients. client_ids = self.SetupClients(10) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) as hunt: hunt.GetRunner().Start() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: foreman.AssignTasksToClient(client_id.Basename()) client_mock = hunt_test_lib.SampleHuntMock() # Just pass 8 clients to run, the other two went offline. hunt_test_lib.TestHuntHelper(client_mock, client_ids[1:9], False, self.token) hunt_obj = aff4.FACTORY.Open(hunt.session_id, mode="rw", age=aff4.ALL_TIMES, token=self.token) started, finished, _ = hunt_obj.GetClientsCounts() # We started the hunt on 10 clients. self.assertEqual(started, 10) # But only 8 should have finished. self.assertEqual(finished, 8)
def testClientLimit(self): """This tests that we can limit hunts to a number of clients.""" # Set up 10 clients. client_ids = self.SetupClients(10) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_limit=5, client_rule_set=client_rule_set, client_rate=0, token=self.token) as hunt: hunt.Run() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: foreman.AssignTasksToClient(client_id.Basename()) # Run the hunt. client_mock = hunt_test_lib.SampleHuntMock() hunt_test_lib.TestHuntHelper(client_mock, client_ids, False, self.token) hunt_obj = aff4.FACTORY.Open(hunt.urn, mode="rw", age=aff4.ALL_TIMES, token=self.token) started, finished, _ = hunt_obj.GetClientsCounts() # We limited here to 5 clients. self.assertEqual(started, 5) self.assertEqual(finished, 5)
def testProcessing(self): """This tests running the hunt on some clients.""" # Set up 10 clients. client_ids = self.SetupClients(10) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) as hunt: hunt.GetRunner().Start() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: foreman.AssignTasksToClient(client_id.Basename()) # Run the hunt. client_mock = hunt_test_lib.SampleHuntMock() hunt_test_lib.TestHuntHelper(client_mock, client_ids, False, self.token) hunt_obj = aff4.FACTORY.Open(hunt.session_id, mode="r", age=aff4.ALL_TIMES, aff4_type=standard.SampleHunt, token=self.token) started, finished, _ = hunt_obj.GetClientsCounts() self.assertEqual(started, 10) self.assertEqual(finished, 10)
def testCopyHuntPreservesRuleType(self): implementation.GRRHunt.StartHunt( hunt_name=standard.GenericHunt.__name__, description="model hunt", flow_runner_args=rdf_flows.FlowRunnerArgs( flow_name=transfer.GetFile.__name__), flow_args=transfer.GetFileArgs(pathspec=rdf_paths.PathSpec( path="/tmp/evil.txt", pathtype=rdf_paths.PathSpec.PathType.TSK, )), client_rule_set=rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_darwin=True)) ]), token=self.token) self.Open("/#main=ManageHunts") self.Click("css=tr:contains('model hunt')") self.Click("css=button[name=CopyHunt]:not([disabled])") # Wait until dialog appears. self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('What to run?')") # Click on "Next" button self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Hunt parameters')") # Click on "Next" button. self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil( self.IsElementPresent, "css=grr-wizard-form:contains('How to process results')") # Click on "Next" button self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Where to run?')") self.WaitUntil( self.IsElementPresent, "css=grr-new-hunt-wizard-form " "label:contains('Os darwin') ~ * input:checked")
def _RunRateLimitedHunt(self, client_ids, start_time): client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt(hunt_name=DummyHunt.__name__, client_rule_set=client_rule_set, client_rate=1, token=self.token) as hunt: hunt.Run() # Pretend to be the foreman now and dish out hunting jobs to all the # clients.. foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) for client_id in client_ids: foreman.AssignTasksToClient(client_id.Basename()) self.assertEqual(len(DummyHunt.client_ids), 0) # Run the hunt. worker_mock = worker_test_lib.MockWorker(check_flow_errors=True, queues=queues.HUNTS, token=self.token) # One client is scheduled in the first minute. with test_lib.FakeTime(start_time + 2): worker_mock.Simulate() self.assertEqual(len(DummyHunt.client_ids), 1) # No further clients will be scheduled until the end of the first minute. with test_lib.FakeTime(start_time + 59): worker_mock.Simulate() self.assertEqual(len(DummyHunt.client_ids), 1) return worker_mock, hunt.urn
def testEvaluatesPositiveInMatchAllModeIfAllRuleMatch(self): # Instantiate a rule set that matches if all of its two # operating system rules match rs = rdf_foreman.ForemanClientRuleSet( match_mode=rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ALL, rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_windows=False, os_linux=True, os_darwin=False)), rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_windows=False, os_linux=True, os_darwin=True)) ]) client_id_lin = self.SetupClient(0, system="Linux") # All of the set's rules have os_linux=False, so the whole set matches self.assertTrue( rs.Evaluate(aff4.FACTORY.Open(client_id_lin, token=self.token)))
def testEvaluatesNegativeInMatchAnyModeIfNoRuleMatches(self): # Instantiate a rule set that matches if any of its two # operating system rules matches rs = rdf_foreman.ForemanClientRuleSet( match_mode=rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ANY, rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_windows=False, os_linux=True, os_darwin=False)), rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_windows=False, os_linux=True, os_darwin=True)) ]) client_id_win = self.SetupClient(0, system="Windows") # None of the set's rules has os_windows=True, so the whole set doesn't # match self.assertFalse( rs.Evaluate(aff4.FACTORY.Open(client_id_win, token=self.token)))
def testEvaluatesNegativeInMatchAllModeIfOnlyOneRuleMatches(self): # Instantiate a rule set that matches if all of its two # operating system rules match rs = rdf_foreman.ForemanClientRuleSet( match_mode=rdf_foreman.ForemanClientRuleSet.MatchMode.MATCH_ALL, rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_windows=False, os_linux=True, os_darwin=False)), rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.OS, os=rdf_foreman.ForemanOsClientRule(os_windows=False, os_linux=True, os_darwin=True)) ]) client_id_dar = self.SetupClient(0, system="Darwin") # One of the set's rules has os_darwin=False, so the whole set doesn't # match with the match all match mode self.assertFalse( rs.Evaluate(aff4.FACTORY.Open(client_id_dar, token=self.token)))
def testCallback(self, client_limit=None): """Checks that the foreman uses the callback specified in the action.""" client_urn = self.SetupClient(0) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="GRR")) ]) with implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_rule_set=client_rule_set, client_limit=client_limit, client_rate=0, token=self.token) as hunt: hunt.GetRunner().Start() # Create a client that matches our regex. with aff4.FACTORY.Open(client_urn, mode="rw", token=self.token) as client: info = client.Schema.CLIENT_INFO() info.client_name = "GRR Monitor" client.Set(client.Schema.CLIENT_INFO, info) foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) with utils.Stubber(standard.SampleHunt, "StartClients", self.Callback): self.called = [] client_id = client_urn.Basename() foreman.AssignTasksToClient(client_id) self.assertEqual(len(self.called), 1) self.assertEqual(self.called[0][1], [client_id])
def testStopping(self): """Tests if we can stop a hunt.""" foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) rules = foreman.Get(foreman.Schema.RULES) # Make sure there are no rules yet. self.assertEqual(len(rules), 0) now = rdfvalue.RDFDatetime.Now() expires = rdfvalue.Duration("1h").Expiry() # Add some rules. rules = [ rdf_foreman.ForemanRule(created=now, expires=expires, description="Test rule1"), rdf_foreman.ForemanRule(created=now, expires=expires, description="Test rule2") ] self.AddForemanRules(rules) client_rule_set = rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.REGEX, regex=rdf_foreman.ForemanRegexClientRule( field="CLIENT_NAME", attribute_regex="HUNT")), rdf_foreman.ForemanClientRule( rule_type=rdf_foreman.ForemanClientRule.Type.INTEGER, integer=rdf_foreman.ForemanIntegerClientRule( field="CLIENT_CLOCK", operator=rdf_foreman.ForemanIntegerClientRule.Operator. GREATER_THAN, value=1336650631137737)) ]) hunt = implementation.GRRHunt.StartHunt( hunt_name=standard.SampleHunt.__name__, client_rule_set=client_rule_set, client_rate=0, token=self.token) with hunt: runner = hunt.GetRunner() runner.Start() # Add some more rules. rules = [ rdf_foreman.ForemanRule(created=now, expires=expires, description="Test rule3"), rdf_foreman.ForemanRule(created=now, expires=expires, description="Test rule4") ] self.AddForemanRules(rules) foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) rules = foreman.Get(foreman.Schema.RULES) self.assertEqual(len(rules), 5) # It should be running. self.assertTrue(runner.IsHuntStarted()) # Now we stop the hunt. hunt.Stop() foreman = aff4.FACTORY.Open("aff4:/foreman", mode="rw", token=self.token) rules = foreman.Get(foreman.Schema.RULES) # The rule for this hunt should be deleted but the rest should be there. self.assertEqual(len(rules), 4) # And the hunt should report no outstanding requests any more. with hunt: self.assertFalse(hunt.GetRunner().IsHuntStarted())
def testCopyHuntRespectsUserChanges(self): self.CreateSampleHunt("model hunt", token=self.token) self.Open("/#main=ManageHunts") self.Click("css=tr:contains('model hunt')") self.Click("css=button[name=CopyHunt]:not([disabled])") # Wait until dialog appears and then click through. self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('What to run?')") # Change values in the flow configuration. self.Type( "css=grr-new-hunt-wizard-form label:contains('Path') " "~ * input:text", "/tmp/very-evil.txt") self.Select( "css=grr-new-hunt-wizard-form label:contains('Pathtype') " "~ * select", "OS") # Click on "Next" button self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Hunt parameters')") self.Type( "css=grr-new-hunt-wizard-form label:contains('Description') " "~ * input:text", "my personal copy") self.Type( "css=grr-new-hunt-wizard-form label:contains('Client rate') " "~ * input", "42") # Click on "Next" button. self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil( self.IsElementPresent, "css=grr-wizard-form:contains('How to process results')") # Change output plugin and add another one. self.Click("css=grr-new-hunt-wizard-form button[name=Add]") self.Select("css=grr-configure-output-plugins-page select:eq(0)", "DummyOutputPlugin") self.Type( "css=grr-configure-output-plugins-page " "label:contains('Filename Regex'):eq(0) ~ * input:text", "foobar!") # Click on "Next" button. self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Where to run?')") # Replace a rule with another one. self.Click("css=grr-configure-rules-page button[name=Remove]") self.Click("css=grr-configure-rules-page button[name=Add]") self.Click( "css=grr-configure-rules-page label:contains('Os darwin') ~ * " "input[type=checkbox]") # Click on "Next" button. self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Review')") # Check that expected values are shown in the review. self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('OS')") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('/tmp/very-evil.txt')") self.WaitUntil( self.IsElementPresent, "css=grr-wizard-form:contains('%s')" % transfer.GetFile.__name__) self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('DummyOutputPlugin')") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('foobar!')") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('blah!')") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('my personal copy')") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Os darwin')") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('42')") # Click on "Run" button. self.Click("css=grr-new-hunt-wizard-form button.Next") self.WaitUntil(self.IsElementPresent, "css=grr-wizard-form:contains('Created Hunt')") hunts_root = aff4.FACTORY.Open("aff4:/hunts", token=self.token) hunts_list = sorted(list(hunts_root.ListChildren()), key=lambda x: x.age) self.assertEqual(len(hunts_list), 2) last_hunt = aff4.FACTORY.Open(hunts_list[-1], token=self.token) self.assertEqual(last_hunt.args.flow_args.pathspec.path, "/tmp/very-evil.txt") self.assertEqual(last_hunt.args.flow_args.pathspec.pathtype, "OS") self.assertEqual(last_hunt.args.flow_runner_args.flow_name, transfer.GetFile.__name__) self.assertEqual(len(last_hunt.runner_args.output_plugins), 2) self.assertEqual(last_hunt.runner_args.output_plugins[0].plugin_name, "DummyOutputPlugin") self.assertEqual( last_hunt.runner_args.output_plugins[0].plugin_args.filename_regex, "foobar!") self.assertEqual( last_hunt.runner_args.output_plugins[0].plugin_args.fetch_binaries, False) self.assertEqual(last_hunt.runner_args.output_plugins[1].plugin_name, "DummyOutputPlugin") self.assertEqual( last_hunt.runner_args.output_plugins[1].plugin_args.filename_regex, "blah!") self.assertEqual( last_hunt.runner_args.output_plugins[1].plugin_args.fetch_binaries, True) runner_args = last_hunt.runner_args self.assertAlmostEqual(runner_args.client_rate, 42) self.assertEqual(runner_args.description, "my personal copy") self.assertEqual( runner_args.client_rule_set, rdf_foreman.ForemanClientRuleSet(rules=[ rdf_foreman.ForemanClientRule( os=rdf_foreman.ForemanOsClientRule(os_darwin=True)) ]))