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# Copyright 2017-present Open Networking Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import unittest
from mock import patch
import mock
import pdb
import networkx as nx
import os
import sys
#test_path = os.path.abspath(os.path.dirname(os.path.realpath(__file__)))
#xos_dir = os.path.join(test_path, "..", "..", "..")
class TestControllerDependencies(unittest.TestCase):
__test__ = False
def setUp(self):
global mock_enumerator, event_loop
self.sys_path_save = sys.path
self.cwd_save = os.getcwd()
config = os.path.join(test_path, "test_config.yaml")
from xosconfig import Config
Config.clear()
Config.init(config, "synchronizer-config-schema.yaml")
from xossynchronizer.mock_modelaccessor_build import (
build_mock_modelaccessor,
)
build_mock_modelaccessor(xos_dir, services_dir=None, service_xprotos=[])
os.chdir(os.path.join(test_path, "..")) # config references tests/model-deps
import event_loop
reload(event_loop)
import backend
reload(backend)
from mock_modelaccessor import mock_enumerator
from modelaccessor import model_accessor
# import all class names to globals
for (k, v) in model_accessor.all_model_classes.items():
globals()[k] = v
b = backend.Backend()
steps_dir = Config.get("steps_dir")
self.steps = b.load_sync_step_modules(steps_dir)
self.synchronizer = event_loop.XOSObserver(self.steps)
def tearDown(self):
sys.path = self.sys_path_save
os.chdir(self.cwd_save)
def test_multi_controller_path(self):
csl = ControllerSlice()
csi = ControllerSite()
site = Site()
slice = Slice()
slice.site = site
csl.slice = slice
csi.site = site
slice.controllerslices = mock_enumerator([csl])
site.controllersite = mock_enumerator([csi])
verdict, edge_type = self.synchronizer.concrete_path_exists(csl, csi)
self.assertTrue(verdict)
self.assertEqual(edge_type, event_loop.PROXY_EDGE)
def test_controller_path_simple(self):
p = Instance()
s = Slice()
t = Site()
ct = ControllerSite()
p.slice = s
s.site = t
ct.site = t
t.controllersite = mock_enumerator([ct])
cohorts = self.synchronizer.compute_dependent_cohorts([p, ct], False)
self.assertEqual([ct, p], cohorts[0])
cohorts = self.synchronizer.compute_dependent_cohorts([ct, p], False)
self.assertEqual([ct, p], cohorts[0])
def test_controller_deletion_path(self):
p = Instance()
s = Slice()
t = Site()
ct = ControllerSite()
ct.site = t
p.slice = s
s.site = t
t.controllersite = mock_enumerator([ct])
cohorts = self.synchronizer.compute_dependent_cohorts([p, s, t, ct], False)
self.assertEqual([t, ct, s, p], cohorts[0])
cohorts = self.synchronizer.compute_dependent_cohorts([p, s, t, ct], True)
self.assertEqual([p, s, ct, t], cohorts[0])
def test_multi_controller_schedule(self):
csl = ControllerSlice()
csi = ControllerSite()
site = Site()
slice = Slice()
slice.site = site
csl.slice = slice
csi.site = site
slice.controllerslices = mock_enumerator([csl])
site.controllersite = mock_enumerator([csi])
i = Instance()
i.slice = slice
cohorts = self.synchronizer.compute_dependent_cohorts(
[i, slice, site, csl, csi], False
)
self.assertEqual([site, csi, slice, csl, i], cohorts[0])
def test_multi_controller_path_negative(self):
csl = ControllerSlice()
csi = ControllerSite()
site = Site()
slice = Slice()
slice.site = site
csl.slice = slice
csi.site = site
slice.controllerslices = mock_enumerator([])
site.controllersite = mock_enumerator([])
verdict, edge_type = self.synchronizer.concrete_path_exists(csl, csi)
self.assertFalse(verdict)
self.assertEqual(edge_type, None)
def test_controller_path_simple_negative(self):
p = Instance()
s = Slice()
t = Site()
ct = ControllerSite()
p.slice = s
s.site = t
ct.site = t
t.controllersite = mock_enumerator([])
cohorts = self.synchronizer.compute_dependent_cohorts([p, ct], False)
self.assertIn([ct], cohorts)
self.assertIn([p], cohorts)
def test_controller_deletion_path_negative(self):
p = Instance()
s = Slice()
t = Site()
ct = ControllerSite()
s.site = t
t.controllersite = mock_enumerator([])
cohorts = self.synchronizer.compute_dependent_cohorts([p, s, t, ct], False)
self.assertIn([t, s], cohorts)
self.assertIn([p], cohorts)
self.assertIn([ct], cohorts)
cohorts = self.synchronizer.compute_dependent_cohorts([p, s, t, ct], True)
self.assertIn([s, t], cohorts)
self.assertIn([p], cohorts)
self.assertIn([ct], cohorts)
def test_multi_controller_deletion_schedule(self):
csl = ControllerSlice()
cn = ControllerNetwork()
site = Site()
slice = Slice()
slice.site = site
slice.controllerslices = mock_enumerator([])
site.controllersite = mock_enumerator([])
i = Instance()
i.slice = slice
cohorts = self.synchronizer.compute_dependent_cohorts(
[i, slice, site, csl, csi], False
)
self.assertIn([site, slice, i], cohorts)
self.assertIn([csl], cohorts)
self.assertIn([csi], cohorts)
def test_multi_controller_schedule_negative(self):
csl = ControllerSlice()
csi = ControllerSite()
site = Site()
slice = Slice()
slice.site = site
slice.controllerslices = mock_enumerator([])
site.controllersite = mock_enumerator([])
i = Instance()
i.slice = slice
cohorts = self.synchronizer.compute_dependent_cohorts(
[i, slice, site, csl, csi], False
)
self.assertIn([site, slice, i], cohorts)
self.assertIn([csl], cohorts)
self.assertIn([csi], cohorts)
if __name__ == "__main__":
unittest.main()