def main(argv):
"""Main."""
del argv # Unused.
config.CONFIG.AddContext(contexts.WORKER_CONTEXT,
"Context applied when running a worker.")
# Initialise flows and config_lib
server_startup.Init()
fleetspeak_connector.Init()
token = access_control.ACLToken(username="******").SetUID()
worker_obj = worker.GRRWorker(token=token)
worker_obj.Run()
def main(argv):
"""Main."""
del argv # Unused.
banner = ("\nWelcome to the GRR console\n")
config.CONFIG.AddContext(contexts.COMMAND_LINE_CONTEXT)
config.CONFIG.AddContext(
contexts.CONSOLE_CONTEXT,
"Context applied when running the console binary.")
server_startup.Init()
fleetspeak_connector.Init()
# To make the console easier to use, we make a default token which will be
# used in StartFlow operations.
data_store.default_token = access_control.ACLToken(
username=getpass.getuser(), reason=flags.FLAGS.reason)
locals_vars = {
"__name__": "GRR Console",
"l": Lister,
"lc": GetChildrenList,
"o": aff4.FACTORY.Open,
# Bring some symbols from other modules into the console's
# namespace.
"StartFlowAndWait": flow_utils.StartFlowAndWait,
"StartFlowAndWorker": debugging.StartFlowAndWorker,
}
locals_vars.update(globals()) # add global variables to console
if flags.FLAGS.client is not None:
locals_vars["client"], locals_vars["token"] = console_utils.OpenClient(
client_id=flags.FLAGS.client)
if flags.FLAGS.code_to_execute:
logging.info("Running code from flag: %s", flags.FLAGS.code_to_execute)
exec(flags.FLAGS.code_to_execute) # pylint: disable=exec-used
elif flags.FLAGS.command_file:
logging.info("Running code from file: %s", flags.FLAGS.command_file)
execfile(flags.FLAGS.command_file)
if (flags.FLAGS.exit_on_complete
and (flags.FLAGS.code_to_execute or flags.FLAGS.command_file)):
return
else: # We want the normal shell.
locals_vars.update(globals()) # add global variables to console
ipshell.IPShell(argv=[], user_ns=locals_vars, banner=banner)
def testProcessListingOnlyFleetspeak(self):
"""Test that the ListProcesses flow works with Fleetspeak."""
client_mock = ListProcessesMock([
rdf_client.Process(pid=2,
ppid=1,
cmdline=["cmd.exe"],
exe=r"c:\windows\cmd.exe",
ctime=1333718907167083L)
])
def SendCallback(fs_msg):
pb_msg = jobs_pb2.GrrMessage()
fs_msg.data.Unpack(pb_msg)
msg = rdf_flows.GrrMessage.FromSerializedString(
pb_msg.SerializeToString())
client_mock.mock_task_queue.append(msg)
service_name = "GRR"
fake_service_client = _FakeGRPCServiceClient(
service_name, send_callback=SendCallback)
fleetspeak_connector.Reset()
fleetspeak_connector.Init(service_client=fake_service_client)
with mock.patch.object(fake_service_client,
"Send",
wraps=fake_service_client.Send):
flow_urn = flow.GRRFlow.StartFlow(
client_id=self.client_id,
flow_name=flow_processes.ListProcesses.__name__,
token=self.token)
for s in flow_test_lib.TestFlowHelper(flow_urn,
client_mock,
client_id=self.client_id,
token=self.token):
session_id = s
fleetspeak_connector.CONN.Send.assert_called()
# Check the output collection
processes = flow.GRRFlow.ResultCollectionForFID(session_id)
self.assertEqual(len(processes), 1)
process, = processes
self.assertEqual(process.ctime, 1333718907167083L)
self.assertEqual(process.cmdline, ["cmd.exe"])
def main(argv):
del argv # Unused.
config.CONFIG.AddContext("FleetspeakFrontend Context")
server_startup.Init()
server_startup.DropPrivileges()
fleetspeak_connector.Init()
fsd = GRRFSServer()
fleetspeak_connector.CONN.Listen(fsd.Process)
logging.info("Serving through Fleetspeak ...")
try:
while True:
time.sleep(600)
except KeyboardInterrupt:
print "Caught keyboard interrupt, stopping"
def testReceiveMessagesFleetspeak(self):
service_name = "GRR"
fake_service_client = _FakeGRPCServiceClient(service_name)
fleetspeak_connector.Reset()
fleetspeak_connector.Init(service_client=fake_service_client)
fsd = fs_frontend_tool.GRRFSServer()
grr_client_nr = 0xab
grr_client_id_urn = self.SetupClient(grr_client_nr)
flow_obj = self.FlowSetup(flow_test_lib.FlowOrderTest.__name__,
grr_client_id_urn)
num_msgs = 9
session_id = flow_obj.session_id
messages = [
rdf_flows.GrrMessage(request_id=1,
response_id=i,
session_id=session_id,
payload=rdfvalue.RDFInteger(i))
for i in xrange(1, num_msgs + 1)
]
fs_client_id = "\x10\x00\x00\x00\x00\x00\x00\xab"
# fs_client_id should be equivalent to grr_client_id_urn
self.assertEqual(
fs_client_id,
fleetspeak_utils.GRRIDToFleetspeakID(grr_client_id_urn.Basename()))
fs_messages = [
fs_common_pb2.Message(message_type="GrrMessage",
source=fs_common_pb2.Address(
client_id=fs_client_id,
service_name=service_name))
for _ in xrange(num_msgs)
]
for fs_message, message in itertools.izip(fs_messages, messages):
fs_message.data.Pack(message.AsPrimitiveProto())
for msg in fs_messages:
fsd.Process(msg, None)
# Make sure the task is still on the client queue
manager = queue_manager.QueueManager(token=self.token)
tasks_on_client_queue = manager.Query(grr_client_id_urn, 100)
self.assertEqual(len(tasks_on_client_queue), 1)
want_messages = [message.Copy() for message in messages]
for want_message in want_messages:
# This is filled in by the frontend as soon as it gets the message.
want_message.auth_state = (
rdf_flows.GrrMessage.AuthorizationState.AUTHENTICATED)
want_message.source = grr_client_id_urn
stored_messages = data_store.DB.ReadResponsesForRequestId(
session_id, 1)
self.assertEqual(len(stored_messages), len(want_messages))
stored_messages.sort(key=lambda m: m.response_id)
# Check that messages were stored correctly
for stored_message, want_message in itertools.izip(
stored_messages, want_messages):
stored_message.timestamp = None
self.assertRDFValuesEqual(stored_message, want_message)