# Copyright (C) 2013 INRIA
#
# This program is free software: you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation, either version 3 of the License, or
-# (at your option) any later version.
+# it under the terms of the GNU General Public License version 2 as
+# published by the Free Software Foundation;
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
from nepi.execution.attribute import Attribute
-from nepi.execution.ec import ExperimentController
-from nepi.execution.resource import ResourceManager, ResourceState, clsinit, \
- ResourceAction
+from nepi.execution.ec import ExperimentController, FailureLevel
+from nepi.execution.resource import ResourceManager, ResourceState, \
+ clsinit_copy, ResourceAction
import random
import time
import unittest
-@clsinit
+@clsinit_copy
class MyResource(ResourceManager):
_rtype = "MyResource"
def __init__(self, ec, guid):
super(MyResource, self).__init__(ec, guid)
-@clsinit
+@clsinit_copy
class AnotherResource(ResourceManager):
_rtype = "AnotherResource"
def __init__(self, ec, guid):
super(AnotherResource, self).__init__(ec, guid)
-
class Channel(ResourceManager):
_rtype = "Channel"
def __init__(self, ec, guid):
super(Channel, self).__init__(ec, guid)
- def deploy(self):
+ def do_deploy(self):
time.sleep(1)
- super(Channel, self).deploy()
+ super(Channel, self).do_deploy()
self.logger.debug(" -------- DEPLOYED ------- ")
class Interface(ResourceManager):
def __init__(self, ec, guid):
super(Interface, self).__init__(ec, guid)
- def deploy(self):
- node = self.get_connected(Node.rtype())[0]
- chan = self.get_connected(Channel.rtype())[0]
+ def do_deploy(self):
+ node = self.get_connected(Node.get_rtype())[0]
+ chan = self.get_connected(Channel.get_rtype())[0]
if node.state < ResourceState.PROVISIONED:
self.ec.schedule("0.5s", self.deploy)
self.ec.schedule("0.5s", self.deploy)
else:
time.sleep(2)
- super(Interface, self).deploy()
+ super(Interface, self).do_deploy()
self.logger.debug(" -------- DEPLOYED ------- ")
class Node(ResourceManager):
def __init__(self, ec, guid):
super(Node, self).__init__(ec, guid)
- def deploy(self):
+ def do_deploy(self):
if self.state == ResourceState.NEW:
- self.discover()
- self.provision()
+ self.do_discover()
+ self.do_provision()
self.logger.debug(" -------- PROVISIONED ------- ")
- self.ec.schedule("3s", self.deploy)
+ self.ec.schedule("1s", self.deploy)
elif self.state == ResourceState.PROVISIONED:
- ifaces = self.get_connected(Interface.rtype())
+ ifaces = self.get_connected(Interface.get_rtype())
for rm in ifaces:
if rm.state < ResourceState.READY:
self.ec.schedule("0.5s", self.deploy)
return
- super(Node, self).deploy()
+ super(Node, self).do_deploy()
self.logger.debug(" -------- DEPLOYED ------- ")
class Application(ResourceManager):
def __init__(self, ec, guid):
super(Application, self).__init__(ec, guid)
- def deploy(self):
- node = self.get_connected(Node.rtype())[0]
+ def do_deploy(self):
+ node = self.get_connected(Node.get_rtype())[0]
if node.state < ResourceState.READY:
self.ec.schedule("0.5s", self.deploy)
else:
- time.sleep(random.random() * 5)
- super(Application, self).deploy()
+ time.sleep(random.random() * 2)
+ super(Application, self).do_deploy()
self.logger.debug(" -------- DEPLOYED ------- ")
- def start(self):
- super(Application, self).start()
- time.sleep(random.random() * 5)
- self._state = ResourceState.FINISHED
-
+ def do_start(self):
+ super(Application, self).do_start()
+ time.sleep(random.random() * 3)
+ self.ec.schedule("0.5s", self.stop)
+
+class ErrorApplication(ResourceManager):
+ _rtype = "ErrorApplication"
+
+ def __init__(self, ec, guid):
+ super(ErrorApplication, self).__init__(ec, guid)
+
+ def do_deploy(self):
+ node = self.get_connected(Node.get_rtype())[0]
+ if node.state < ResourceState.READY:
+ self.ec.schedule("0.5s", self.deploy)
+ else:
+ time.sleep(random.random() * 2)
+ raise RuntimeError("NOT A REAL ERROR. JUST TESTING")
class ResourceFactoryTestCase(unittest.TestCase):
def test_add_resource_factory(self):
ResourceFactory.register_type(MyResource)
ResourceFactory.register_type(AnotherResource)
- self.assertEquals(MyResource.rtype(), "MyResource")
- self.assertEquals(len(MyResource._attributes), 1)
+ # Take into account default 'Critical' attribute
+ self.assertEqual(MyResource.get_rtype(), "MyResource")
+ self.assertEqual(len(MyResource._attributes), 3)
- self.assertEquals(ResourceManager.rtype(), "Resource")
- self.assertEquals(len(ResourceManager._attributes), 0)
+ self.assertEqual(ResourceManager.get_rtype(), "Resource")
+ self.assertEqual(len(ResourceManager._attributes), 2)
- self.assertEquals(AnotherResource.rtype(), "AnotherResource")
- self.assertEquals(len(AnotherResource._attributes), 0)
+ self.assertEqual(AnotherResource.get_rtype(), "AnotherResource")
+ self.assertEqual(len(AnotherResource._attributes), 2)
- self.assertEquals(len(ResourceFactory.resource_types()), 2)
+ self.assertEqual(len(ResourceFactory.resource_types()), 2)
# restore factory state for other tests
from nepi.execution.resource import populate_factory
for (group, state, time) in conditions:
waiting_for.extend(group)
- self.assertEquals(waiting_for, [1, 3, 5, 7, 10, 8])
+ self.assertEqual(waiting_for, [1, 3, 5, 7, 10, 8])
group = [1, 2, 3, 4, 6]
rm.unregister_condition(group)
for (group, state, time) in conditions:
waiting_for.extend(group)
- self.assertEquals(waiting_for, [5, 7, 10, 8])
+ self.assertEqual(waiting_for, [5, 7, 10, 8])
def test_deploy_in_order(self):
"""
self.assertTrue(rmnode1.ready_time < rmapp1.ready_time)
self.assertTrue(rmnode2.ready_time < rmapp2.ready_time)
- # - Node needs to wait until Interface is ready to be ready
+ # - Node needs to wait until Interface is ready to be ready
self.assertTrue(rmnode1.ready_time > rmiface1.ready_time)
self.assertTrue(rmnode2.ready_time > rmiface2.ready_time)
- # - Interface needs to wait until Node is provisioned to be ready
+ # - Interface needs to wait until Node is provisioned to be ready
self.assertTrue(rmnode1.provision_time < rmiface1.ready_time)
self.assertTrue(rmnode2.provision_time < rmiface2.ready_time)
- # - Interface needs to wait until Channel is ready to be ready
+ # - Interface needs to wait until Channel is ready to be ready
self.assertTrue(rmchan.ready_time < rmiface1.ready_time)
self.assertTrue(rmchan.ready_time < rmiface2.ready_time)
node = ec.register_resource("Node")
apps = list()
- for i in xrange(1000):
+ for i in range(1000):
app = ec.register_resource("Application")
ec.register_connection(app, node)
apps.append(app)
self.assertTrue(ec.state(node) == ResourceState.STARTED)
self.assertTrue(
- all([ec.state(guid) == ResourceState.FINISHED \
+ all([ec.state(guid) == ResourceState.STOPPED \
for guid in apps])
)
ec.shutdown()
+ def test_exception(self):
+ from nepi.execution.resource import ResourceFactory
+
+ ResourceFactory.register_type(ErrorApplication)
+ ResourceFactory.register_type(Node)
+ ResourceFactory.register_type(Interface)
+
+ ec = ExperimentController()
+
+ node = ec.register_resource("Node")
+
+ app = ec.register_resource("ErrorApplication")
+ ec.register_connection(app, node)
+
+ ec.deploy()
+
+ ec.wait_finished(app)
+
+ ec.shutdown()
+
+ self.assertEqual(ec._fm._failure_level, FailureLevel.RM_FAILURE)
+
+ def test_critical(self):
+ from nepi.execution.resource import ResourceFactory
+
+ ResourceFactory.register_type(ErrorApplication)
+ ResourceFactory.register_type(Application)
+ ResourceFactory.register_type(Node)
+ ResourceFactory.register_type(Interface)
+
+ ec = ExperimentController()
+
+ node = ec.register_resource("Node")
+
+ apps = list()
+
+ eapp = ec.register_resource("ErrorApplication")
+ ec.set(eapp, "critical", False)
+ ec.register_connection(eapp, node)
+ apps.append(eapp)
+
+ for i in range(10):
+ app = ec.register_resource("Application")
+ ec.register_connection(app, node)
+ apps.append(app)
+
+ ec.deploy()
+
+ ec.wait_finished(apps)
+
+ state = ec.state(eapp)
+ self.assertEqual(state, ResourceState.FAILED)
+
+ apps.remove(eapp)
+
+ for app in apps:
+ state = ec.state(app)
+ self.assertEqual(state, ResourceState.STOPPED)
+
+ ec.shutdown()
+
+ self.assertEqual(ec._fm._failure_level, FailureLevel.OK)
+
def test_start_with_condition(self):
- # TODO!!!
- pass
-
+ from nepi.execution.resource import ResourceFactory
+
+ ResourceFactory.register_type(Application)
+ ResourceFactory.register_type(Node)
+ ResourceFactory.register_type(Interface)
+
+ ec = ExperimentController()
+
+ node = ec.register_resource("Node")
+
+ app1 = ec.register_resource("Application")
+ ec.register_connection(app1, node)
+
+ app2 = ec.register_resource("Application")
+ ec.register_connection(app2, node)
+
+ ec.register_condition(app2, ResourceAction.START, app1,
+ ResourceState.STARTED, time = "5s")
+
+ ec.deploy()
+
+ ec.wait_finished([app1, app2])
+
+ rmapp1 = ec.get_resource(app1)
+ rmapp2 = ec.get_resource(app2)
+
+ self.assertTrue(rmapp2.start_time > rmapp1.start_time)
+
+ ec.shutdown()
+
def test_stop_with_condition(self):
- # TODO!!!
- pass
+ from nepi.execution.resource import ResourceFactory
+
+ ResourceFactory.register_type(Application)
+ ResourceFactory.register_type(Node)
+ ResourceFactory.register_type(Interface)
+
+ ec = ExperimentController()
+
+ node = ec.register_resource("Node")
+
+ app1 = ec.register_resource("Application")
+ ec.register_connection(app1, node)
+
+ app2 = ec.register_resource("Application")
+ ec.register_connection(app2, node)
+
+ ec.register_condition(app2, ResourceAction.START, app1,
+ ResourceState.STOPPED)
+
+ ec.deploy()
+
+ ec.wait_finished([app1, app2])
+
+ rmapp1 = ec.get_resource(app1)
+ rmapp2 = ec.get_resource(app2)
+
+ self.assertTrue(rmapp2.start_time > rmapp1.stop_time)
+
+ ec.shutdown()
- def test_set_with_condition(self):
+ def ztest_set_with_condition(self):
# TODO!!!
pass