Fix pep8 errors

Recent pep8 upgrade and corresponding pycodestyle update break
pep8 job due to the new rules.

This commit fixes the following new errors:
- E266 too many leading '#' for block comment
- E501 line too long
- H903  Windows style line endings not allowed in code

The following errors are added to the ignore list
as there are many errors:
- E402 module level import not at top of file
- E731 do not assign a lambda expression, use a def
- W503 line break before binary operator

Change-Id: I1fd3357479bb2ba3d89de92739ffac99900761b6
This commit is contained in:
Akihiro Motoki 2018-04-11 00:47:20 +09:00
parent db8ecdd125
commit 7a714aeb13
5 changed files with 183 additions and 178 deletions

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@ -35,9 +35,9 @@ NONEXISTENT_PEER = 'nonexistent-peer'
TUNNEL_NETWORK_TYPES = [p_const.TYPE_GRE, p_const.TYPE_VXLAN,
p_const.TYPE_GENEVE]
### OpenFlow table IDs
# --- OpenFlow table IDs
## Integration bridge (int_br)
# --- Integration bridge (int_br)
LOCAL_SWITCHING = 0
@ -76,7 +76,7 @@ ACCEPTED_EGRESS_TRAFFIC_TABLE = 91
ACCEPTED_INGRESS_TRAFFIC_TABLE = 92
DROPPED_TRAFFIC_TABLE = 93
## Tunnel bridge (tun_br)
# --- Tunnel bridge (tun_br)
# Various tables for tunneling flows
DVR_PROCESS = 1
@ -91,14 +91,14 @@ UCAST_TO_TUN = 20
ARP_RESPONDER = 21
FLOOD_TO_TUN = 22
## Physical Bridges (phys_brs)
# --- Physical Bridges (phys_brs)
# Various tables for DVR use of physical bridge flows
DVR_PROCESS_VLAN = 1
LOCAL_VLAN_TRANSLATION = 2
DVR_NOT_LEARN_VLAN = 3
### end of OpenFlow table IDs
# --- end of OpenFlow table IDs
# type for ARP reply in ARP header
ARP_REPLY = '0x2'

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@ -1,44 +1,44 @@
# Copyright 2016 Cloudbase Solutions.
# All Rights Reserved.
#
# 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.
from neutron.agent.windows import ip_lib
from neutron.tests import base
WRONG_IP = '0.0.0.0'
TEST_IP = '127.0.0.1'
TEST_MAC = '00:00:00:00:00:00'
class IpLibTestCase(base.BaseTestCase):
def test_ipwrapper_get_device_by_ip_None(self):
self.assertIsNone(ip_lib.IPWrapper().get_device_by_ip(WRONG_IP))
def test_ipwrapper_get_device_by_ip(self):
ip_dev = ip_lib.IPWrapper().get_device_by_ip(TEST_IP)
self.assertEqual('lo', ip_dev.name)
def test_device_has_ip(self):
not_a_device = ip_lib.IPDevice('#!#._not_a_device_bleargh!!@@@')
self.assertFalse(not_a_device.device_has_ip(TEST_IP))
def test_ip_link_read_mac_address(self):
ip_dev = ip_lib.IPWrapper().get_device_by_ip(TEST_IP)
self.assertEqual([TEST_MAC], ip_lib.IPLink(ip_dev).address)
def test_ip_link_read_mac_address_wrong(self):
not_a_device = ip_lib.IPDevice('#!#._not_a_device_bleargh!!@@@')
mac_addr = ip_lib.IPLink(not_a_device).address
self.assertFalse(mac_addr)
# Copyright 2016 Cloudbase Solutions.
# All Rights Reserved.
#
# 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.
from neutron.agent.windows import ip_lib
from neutron.tests import base
WRONG_IP = '0.0.0.0'
TEST_IP = '127.0.0.1'
TEST_MAC = '00:00:00:00:00:00'
class IpLibTestCase(base.BaseTestCase):
def test_ipwrapper_get_device_by_ip_None(self):
self.assertIsNone(ip_lib.IPWrapper().get_device_by_ip(WRONG_IP))
def test_ipwrapper_get_device_by_ip(self):
ip_dev = ip_lib.IPWrapper().get_device_by_ip(TEST_IP)
self.assertEqual('lo', ip_dev.name)
def test_device_has_ip(self):
not_a_device = ip_lib.IPDevice('#!#._not_a_device_bleargh!!@@@')
self.assertFalse(not_a_device.device_has_ip(TEST_IP))
def test_ip_link_read_mac_address(self):
ip_dev = ip_lib.IPWrapper().get_device_by_ip(TEST_IP)
self.assertEqual([TEST_MAC], ip_lib.IPLink(ip_dev).address)
def test_ip_link_read_mac_address_wrong(self):
not_a_device = ip_lib.IPDevice('#!#._not_a_device_bleargh!!@@@')
mac_addr = ip_lib.IPLink(not_a_device).address
self.assertFalse(mac_addr)

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@ -1,127 +1,127 @@
# Copyright 2016 Cloudbase Solutions.
# All Rights Reserved.
#
# 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 mock
import netifaces
from neutron.agent.windows import ip_lib
from neutron.tests import base
class TestIpWrapper(base.BaseTestCase):
def test_get_device_by_ip_no_ip(self):
ret = ip_lib.IPWrapper().get_device_by_ip(None)
self.assertIsNone(ret)
@mock.patch.object(ip_lib.IPWrapper, 'get_devices')
def test_get_device_by_ip(self, mock_get_devices):
mock_dev1 = mock.MagicMock()
mock_dev2 = mock.MagicMock()
mock_dev1.device_has_ip.return_value = False
mock_dev2.device_has_ip.return_value = True
mock_get_devices.return_value = [mock_dev1, mock_dev2]
ret = ip_lib.IPWrapper().get_device_by_ip('fake_ip')
self.assertEqual(mock_dev2, ret)
@mock.patch('netifaces.interfaces')
def test_get_devices(self, mock_interfaces):
mock_interfaces.return_value = [mock.sentinel.dev1,
mock.sentinel.dev2]
ret = ip_lib.IPWrapper().get_devices()
self.assertEqual(mock.sentinel.dev1, ret[0].name)
self.assertEqual(mock.sentinel.dev2, ret[1].name)
@mock.patch('netifaces.interfaces')
def test_get_devices_error(self, mock_interfaces):
mock_interfaces.side_effect = OSError
ret = ip_lib.IPWrapper().get_devices()
self.assertEqual([], ret)
class TestIpDevice(base.BaseTestCase):
@mock.patch('netifaces.ifaddresses')
def test_read_ifaddresses(self, mock_netifaces):
mock_address = {'addr': mock.sentinel.fake_addr}
mock_netifaces.return_value = {netifaces.AF_INET: [mock_address]}
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertTrue(ret)
@mock.patch('netifaces.ifaddresses')
def test_read_ifaddresses_no_ip(self, mock_netifaces):
mock_netifaces.return_value = {}
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertFalse(ret)
@mock.patch('netifaces.ifaddresses')
def test_read_ifaddresses_ip_error(self, mock_netifaces):
mock_netifaces.side_effect = OSError
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertFalse(ret)
@mock.patch('netifaces.ifaddresses')
def test_read_faddresses_not_found(self, mock_netifaces):
mock_netifaces.side_effect = ValueError
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertFalse(ret)
def test_device_has_ip(self):
mock_address = {'addr': mock.sentinel.fake_addr}
ip_device = ip_lib.IPDevice("fake_dev")
with mock.patch.object(ip_device, "read_ifaddresses", return_value=(
{netifaces.AF_INET: [mock_address]})):
ret = ip_device.device_has_ip(mock.sentinel.fake_addr)
self.assertTrue(ret)
def test_device_has_ip_false(self):
ip_device = ip_lib.IPDevice("fake_dev")
with mock.patch.object(ip_device, "read_ifaddresses", return_value={}):
ret = ip_device.device_has_ip(mock.sentinel.fake_addr)
self.assertFalse(ret)
def test_device_has_ip_error(self):
ip_device = ip_lib.IPDevice("fake_dev")
with mock.patch.object(ip_device, "read_ifaddresses",
return_value=None):
ret = ip_device.device_has_ip(mock.sentinel.fake_addr)
self.assertFalse(ret)
class TestIPLink(base.BaseTestCase):
def setUp(self):
super(TestIPLink, self).setUp()
parent = ip_lib.IPDevice("fake_dev")
self.ip_link = ip_lib.IPLink(parent)
self.ip_link._parent.read_ifaddresses = mock.Mock()
def test_address(self):
mock_address = {'addr': mock.sentinel.fake_addr}
self.ip_link._parent.read_ifaddresses.return_value = {
netifaces.AF_LINK: [mock_address]}
self.assertEqual([mock_address['addr']], self.ip_link.address)
def test_address_no_address(self):
self.ip_link._parent.read_ifaddresses.return_value = {
netifaces.AF_LINK: []}
self.assertEqual([], self.ip_link.address)
def test_address_error(self):
self.ip_link._parent.read_ifaddresses.return_value = None
self.assertFalse(self.ip_link.address)
# Copyright 2016 Cloudbase Solutions.
# All Rights Reserved.
#
# 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 mock
import netifaces
from neutron.agent.windows import ip_lib
from neutron.tests import base
class TestIpWrapper(base.BaseTestCase):
def test_get_device_by_ip_no_ip(self):
ret = ip_lib.IPWrapper().get_device_by_ip(None)
self.assertIsNone(ret)
@mock.patch.object(ip_lib.IPWrapper, 'get_devices')
def test_get_device_by_ip(self, mock_get_devices):
mock_dev1 = mock.MagicMock()
mock_dev2 = mock.MagicMock()
mock_dev1.device_has_ip.return_value = False
mock_dev2.device_has_ip.return_value = True
mock_get_devices.return_value = [mock_dev1, mock_dev2]
ret = ip_lib.IPWrapper().get_device_by_ip('fake_ip')
self.assertEqual(mock_dev2, ret)
@mock.patch('netifaces.interfaces')
def test_get_devices(self, mock_interfaces):
mock_interfaces.return_value = [mock.sentinel.dev1,
mock.sentinel.dev2]
ret = ip_lib.IPWrapper().get_devices()
self.assertEqual(mock.sentinel.dev1, ret[0].name)
self.assertEqual(mock.sentinel.dev2, ret[1].name)
@mock.patch('netifaces.interfaces')
def test_get_devices_error(self, mock_interfaces):
mock_interfaces.side_effect = OSError
ret = ip_lib.IPWrapper().get_devices()
self.assertEqual([], ret)
class TestIpDevice(base.BaseTestCase):
@mock.patch('netifaces.ifaddresses')
def test_read_ifaddresses(self, mock_netifaces):
mock_address = {'addr': mock.sentinel.fake_addr}
mock_netifaces.return_value = {netifaces.AF_INET: [mock_address]}
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertTrue(ret)
@mock.patch('netifaces.ifaddresses')
def test_read_ifaddresses_no_ip(self, mock_netifaces):
mock_netifaces.return_value = {}
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertFalse(ret)
@mock.patch('netifaces.ifaddresses')
def test_read_ifaddresses_ip_error(self, mock_netifaces):
mock_netifaces.side_effect = OSError
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertFalse(ret)
@mock.patch('netifaces.ifaddresses')
def test_read_faddresses_not_found(self, mock_netifaces):
mock_netifaces.side_effect = ValueError
ret = ip_lib.IPDevice("fake_dev").read_ifaddresses()
self.assertFalse(ret)
def test_device_has_ip(self):
mock_address = {'addr': mock.sentinel.fake_addr}
ip_device = ip_lib.IPDevice("fake_dev")
with mock.patch.object(ip_device, "read_ifaddresses", return_value=(
{netifaces.AF_INET: [mock_address]})):
ret = ip_device.device_has_ip(mock.sentinel.fake_addr)
self.assertTrue(ret)
def test_device_has_ip_false(self):
ip_device = ip_lib.IPDevice("fake_dev")
with mock.patch.object(ip_device, "read_ifaddresses", return_value={}):
ret = ip_device.device_has_ip(mock.sentinel.fake_addr)
self.assertFalse(ret)
def test_device_has_ip_error(self):
ip_device = ip_lib.IPDevice("fake_dev")
with mock.patch.object(ip_device, "read_ifaddresses",
return_value=None):
ret = ip_device.device_has_ip(mock.sentinel.fake_addr)
self.assertFalse(ret)
class TestIPLink(base.BaseTestCase):
def setUp(self):
super(TestIPLink, self).setUp()
parent = ip_lib.IPDevice("fake_dev")
self.ip_link = ip_lib.IPLink(parent)
self.ip_link._parent.read_ifaddresses = mock.Mock()
def test_address(self):
mock_address = {'addr': mock.sentinel.fake_addr}
self.ip_link._parent.read_ifaddresses.return_value = {
netifaces.AF_LINK: [mock_address]}
self.assertEqual([mock_address['addr']], self.ip_link.address)
def test_address_no_address(self):
self.ip_link._parent.read_ifaddresses.return_value = {
netifaces.AF_LINK: []}
self.assertEqual([], self.ip_link.address)
def test_address_error(self):
self.ip_link._parent.read_ifaddresses.return_value = None
self.assertFalse(self.ip_link.address)

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@ -387,7 +387,8 @@ class TestLinuxBridgeManager(base.BaseTestCase):
de_fn.return_value = False
vxlan_dev = FakeIpDevice()
with mock.patch.object(vxlan_dev, 'disable_ipv6') as dv6_fn,\
mock.patch.object(vxlan_dev.link, 'set_mtu') as set_mtu_fn,\
mock.patch.object(vxlan_dev.link,
'set_mtu') as set_mtu_fn,\
mock.patch.object(ip_lib, 'get_device_mtu',
return_value=physical_mtu),\
mock.patch.object(self.lbm.ip, 'add_vxlan',

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@ -145,7 +145,11 @@ commands = sphinx-build -W -b linkcheck doc/source doc/build/linkcheck
# TODO(ihrachys) figure out what to do with N534 and N536
# N534 Untranslated exception message
# N536 Use assertIsNone rather than assertEqual to check for None values
ignore = E125,E126,E128,E129,E265,H404,H405,N530,N534,N536
# TODO(amotoki) check the following new rules should be fixed or ignored
# E402 module level import not at top of file
# E731 do not assign a lambda expression, use a def
# W503 line break before binary operator
ignore = E125,E126,E128,E129,E265,E402,E731,W503,H404,H405,N530,N534,N536
# H106: Don't put vim configuration in source files
# H203: Use assertIs(Not)None to check for None
# H204: Use assert(Not)Equal to check for equality