qubes-installer-qubes-os/anaconda/tests/pyanaconda_tests/network_test.py

459 lines
20 KiB
Python
Raw Normal View History

# -*- coding: utf-8 -*-
#
# Copyright (C) 2014 Red Hat, Inc.
#
# This copyrighted material is made available to anyone wishing to use,
# modify, copy, or redistribute it subject to the terms and conditions of
# the GNU General Public License v.2, or (at your option) any later version.
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY expressed or implied, including the implied warranties of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General
# Public License for more details. You should have received a copy of the
# GNU General Public License along with this program; if not, write to the
# Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
# 02110-1301, USA. Any Red Hat trademarks that are incorporated in the
# source code or documentation are not subject to the GNU General Public
# License and may only be used or replicated with the express permission of
# Red Hat, Inc.
from pyanaconda import network
import unittest
import mock
from mock import patch
class NetworkTests(unittest.TestCase):
def default_ks_vlan_interface_name_test(self):
self.assertEqual(network.default_ks_vlan_interface_name("em1", "171"),
"em1.171")
def bond_options_ksdata_to_dbus_test(self):
cases = [("mode=802.3ad,miimon=100,xmit_hash_policy=layer2+3,lacp_rate=fast",
{"mode":"802.3ad",
"miimon":"100",
"xmit_hash_policy":"layer2+3",
"lacp_rate":"fast"}),
("mode=balance-alb,arp_interval=100,arp_ip_target=192.168.122.1",
{"mode":"balance-alb",
"arp_interval":"100",
"arp_ip_target":"192.168.122.1"}),
("mode=active-backup,primary=eth1,miimon=100,fail_over_mac=2",
{"mode":"active-backup",
"primary":"eth1",
"miimon":"100",
"fail_over_mac":"2"}),
("option1=value1,value2;option2=value3",
{"option1":"value1,value2",
"option2":"value3"}),
]
for bondopts, dbus_dict in cases:
self.assertEqual(network.bond_options_ksdata_to_dbus(bondopts), dbus_dict)
def sanityCheckHostname_test(self):
self.assertFalse(network.sanityCheckHostname("")[0])
self.assertFalse(network.sanityCheckHostname(None)[0])
# section length < 64
self.assertTrue(network.sanityCheckHostname("h"*63)[0])
self.assertFalse(network.sanityCheckHostname("h"*64)[0])
# length < 256
self.assertTrue(network.sanityCheckHostname("section." * 31+"section")[0])
self.assertFalse(network.sanityCheckHostname("section." * 31+"sectionx")[0])
self.assertFalse(network.sanityCheckHostname(
"section.must.be..nonempty.")[0])
self.assertFalse(network.sanityCheckHostname(
".section.must.be.nonempty.")[0])
self.assertTrue(network.sanityCheckHostname(
"section.can.contain.only.alphanums.012.or.hyp-hens")[0])
self.assertFalse(network.sanityCheckHostname(
"section.can.contain.only.alphanums.012.or.hyp-hens!!!")[0])
self.assertFalse(network.sanityCheckHostname(
"section.may.not.start.with.-hyphen")[0])
self.assertFalse(network.sanityCheckHostname(
"section.may.not.end.with.hyphen-")[0])
self.assertTrue(network.sanityCheckHostname("0-0.")[0])
self.assertTrue(network.sanityCheckHostname("0.")[0])
self.assertFalse(network.sanityCheckHostname("Lennart's Laptop")[0])
def prefix2netmask2prefix_test(self):
lore = [
(0, "0.0.0.0"),
(1, "128.0.0.0"),
(2, "192.0.0.0"),
(3, "224.0.0.0"),
(4, "240.0.0.0"),
(5, "248.0.0.0"),
(6, "252.0.0.0"),
(7, "254.0.0.0"),
(8, "255.0.0.0"),
(9, "255.128.0.0"),
(10, "255.192.0.0"),
(11, "255.224.0.0"),
(12, "255.240.0.0"),
(13, "255.248.0.0"),
(14, "255.252.0.0"),
(15, "255.254.0.0"),
(16, "255.255.0.0"),
(17, "255.255.128.0"),
(18, "255.255.192.0"),
(19, "255.255.224.0"),
(20, "255.255.240.0"),
(21, "255.255.248.0"),
(22, "255.255.252.0"),
(23, "255.255.254.0"),
(24, "255.255.255.0"),
(25, "255.255.255.128"),
(26, "255.255.255.192"),
(27, "255.255.255.224"),
(28, "255.255.255.240"),
(29, "255.255.255.248"),
(30, "255.255.255.252"),
(31, "255.255.255.254"),
(32, "255.255.255.255"),
]
for prefix, netmask in lore:
self.assertEqual(network.prefix2netmask(prefix), netmask)
self.assertEqual(network.netmask2prefix(netmask), prefix)
self.assertEqual(network.prefix2netmask(33), "255.255.255.255")
@patch("pyanaconda.network.flags.cmdline",
{"BOOTIF":"01-11-11-11-11-11-11"})
@patch("pyanaconda.nm.nm_device_valid_hwaddress")
@patch("pyanaconda.nm.nm_device_carrier",
lambda dev: dev == "eth1")
@patch("pyanaconda.nm.nm_devices",
lambda: ["eth0", "eth1"])
def nm_ks_spec_to_device_name_test(self, nm_hwaddr_mock):
def hwaddr_mock(dev):
h = {"eth0" : "00:00:00:00:00:00",
"eth1" : "11:11:11:11:11:11"}
try:
mac = h[dev]
except KeyError:
raise ValueError
return mac
nm_hwaddr_mock.side_effect = hwaddr_mock
self.assertEqual(network.ks_spec_to_device_name("eth0"), "eth0")
self.assertEqual(network.ks_spec_to_device_name("eth1"), "eth1")
self.assertEqual(network.ks_spec_to_device_name("nonexisting"), "nonexisting")
self.assertEqual(network.ks_spec_to_device_name("link"), "eth1")
self.assertNotEqual(network.ks_spec_to_device_name("link"), "eth0")
self.assertEqual(network.ks_spec_to_device_name("00:00:00:00:00:00"), "eth0")
self.assertNotEqual(network.ks_spec_to_device_name("00:00:00:00:00:00"), "eth1")
self.assertEqual(network.ks_spec_to_device_name("bootif"), "eth1")
self.assertNotEqual(network.ks_spec_to_device_name("bootif"), "eth0")
def nm_check_ip_address_test(self,):
good_IPv4_tests = [
'1.2.3.4',
'0.0.0.0',
'10.20.30.40',
'255.255.255.255',
'249.249.249.249'
]
good_IPv6_tests = [
'0000:0000:0000:0000:0000:0000:0000:0000',
'0000:0000:0000:0000:0000:0000:1.2.3.4',
'::a:b:c:d:e:f:1',
'::a:b:c:d:e:255.255.255.255',
'1::a:b:c:d:e:f',
'1::a:b:c:d:255.255.255.255',
'1:12::a:b:c:d:e',
'1:12::a:b:c:10.20.30.40',
'12::a:b:c:d:e',
'12::a:b:c:10.20.30.40',
'1:12:123::a:b:c:d',
'1:12:123::a:b:100.200.250.249',
'12:123::a:b:c:d',
'12:123::a:b:100.200.250.249',
'123::a:b:c:d',
'123::a:b:100.200.250.249',
'::a:b:c:d',
'::a:b:100.200.250.249',
'1:12:123:1234::a:b:c',
'1:12:123:1234::a:1.20.30.99',
'12:123:1234::a:b:c',
'12:123:1234::a:1.20.30.99',
'123:1234::a:b:c',
'123:1234::a:1.20.30.99',
'1234::a:b:c',
'1234::a:1.20.30.99',
'::a:b:c',
'::a:1.20.30.99',
'1:12:123:1234:abcd::a:b',
'1:12:123:1234:abcd::0.0.0.0',
'12:123:1234:abcd::a:b',
'12:123:1234:abcd::0.0.0.0',
'123:1234:abcd::a:b',
'123:1234:abcd::0.0.0.0',
'1234:abcd::a:b',
'1234:abcd::0.0.0.0',
'abcd::a:b',
'abcd::0.0.0.0',
'::a:b',
'::0.0.0.0',
'1:12:123:1234:dead:beef::aaaa',
'12:123:1234:dead:beef::aaaa',
'123:1234:dead:beef::aaaa',
'1234:dead:beef::aaaa',
'dead:beef::aaaa',
'beef::aaaa',
'::aaaa',
'::'
]
bad_IPv4_tests = [
'1.2.3.',
'1.2.3',
'256.2.3.4',
'a.b.c.d',
'1.2.3.400'
'....',
'1..2.3'
]
bad_IPv6_tests = [
# Too many bits
'0000:0000:0000:0000:0000:0000:0000:0000:0000'
'0000:0000:0000:0000:0000:0000:0000:1.2.3.4',
'0000:0000:0000:0000:0000:0000:1.2.3.4.5',
# Not enough bits
'0000:0000:0000:0000:0000:0000:0000',
'0000:0000:0000:0000:0000:1.2.3.4',
# zero-length contractions
'0000::0000:0000:0000:0000:0000:1.2.3.4',
'0000:0000::0000:0000:0000:0000:1.2.3.4',
'0000:0000:0000::0000:0000:0000:1.2.3.4',
'0000:0000:0000:0000::0000:0000:1.2.3.4',
'0000:0000:0000:0000:0000::0000:1.2.3.4',
'0000:0000:0000:0000:0000:0000::1.2.3.4',
'123::4567:89:a:bcde:f0f0:aaaa:8',
'123:4567::89:a:bcde:f0f0:aaaa:8',
'123:4567:89::a:bcde:f0f0:aaaa:8',
'123:4567:89:a:bcde::f0f0:aaaa:8',
'123:4567:89:a:bcde:f0f0::aaaa:8',
'123:4567:89:a:bcde:f0f0:aaaa::8',
# too many contractions
'a::b::c',
'::a::b',
'a::b::',
# invalid numbers
'00000::0000',
'defg::',
'12345::abcd',
'ffff::0x1e'
]
# test good IPv4
for i in good_IPv4_tests:
self.assertTrue(network.check_ip_address(i, version=4))
self.assertTrue(network.check_ip_address(i))
self.assertFalse(network.check_ip_address(i, version=6))
# test bad Ipv4
for i in bad_IPv4_tests:
self.assertFalse(network.check_ip_address(i))
self.assertFalse(network.check_ip_address(i, version=4))
self.assertFalse(network.check_ip_address(i, version=6))
# test good IPv6
for i in good_IPv6_tests:
self.assertTrue(network.check_ip_address(i, version=6))
self.assertTrue(network.check_ip_address(i))
self.assertFalse(network.check_ip_address(i, version=4))
# test bad IPv6
for i in bad_IPv6_tests:
self.assertFalse(network.check_ip_address(i))
self.assertFalse(network.check_ip_address(i, version=6))
self.assertFalse(network.check_ip_address(i, version=4))
class NetworkKSDataTests(unittest.TestCase):
def setUp(self):
self.ksdata_mock = mock.Mock()
self.ksdata_mock.network = mock.Mock()
def update_hostname_data_test(self):
from pyanaconda.kickstart import AnacondaKSHandler
handler = AnacondaKSHandler()
ksdata = self.ksdata_mock
# network --hostname oldhostname
# pylint: disable=no-member
nd = handler.NetworkData(hostname="oldhostname", bootProto="")
ksdata.network.network = [nd]
network.update_hostname_data(ksdata, "newhostname")
# network --hostname newhostname
self.assertEqual(ksdata.network.network[0].hostname, "newhostname")
# no network in ks
ksdata.network.network = []
network.update_hostname_data(ksdata, "newhostname")
# network --hostname newhostname
self.assertEqual(ksdata.network.network[0].hostname, "newhostname")
# network --bootproto dhcp --onboot no --device em1 --hostname oldhostname
# pylint: disable=no-member
nd = handler.NetworkData(bootProto="dhcp", onboot="no", device="em1", hostname="oldhostname")
ksdata.network.network = [nd]
network.update_hostname_data(ksdata, "newhostname")
# network --bootproto dhcp --onboot no --device em1 --hostname newhostname
self.assertEqual(ksdata.network.network[0].hostname, "newhostname")
self.assertEqual(len(ksdata.network.network), 1)
# network --bootproto dhcp --onboot no --device em1
# pylint: disable=no-member
nd = handler.NetworkData(bootProto="dhcp", onboot="no", device="em1")
ksdata.network.network = [nd]
network.update_hostname_data(ksdata, "newhostname")
# network --bootproto dhcp --onboot no --device em1
# network --hostname newhostname
self.assertEqual(ksdata.network.network[0].hostname, "")
self.assertEqual(ksdata.network.network[1].hostname, "newhostname")
# network --bootproto dhcp --onboot no --device em1
# network --hostname oldhostname
# pylint: disable=no-member
nd1 = handler.NetworkData(bootProto="dhcp", onboot="no", device="em1")
# pylint: disable=no-member
nd2 = handler.NetworkData(hostname="oldhostname", bootProto="")
ksdata.network.network = [nd1, nd2]
network.update_hostname_data(ksdata, "newhostname")
# network --bootproto dhcp --onboot no --device em1
# network --hostname newhostname
self.assertEqual(ksdata.network.network[0].hostname, "")
self.assertEqual(ksdata.network.network[1].hostname, "newhostname")
class NetworkIfcfgTests(unittest.TestCase):
def ifcfg_mock(self, settings):
def get(value):
return settings.get(value.upper(), "")
m = mock.Mock()
m.get = get
return m
def dracutBootArguments_test(self):
ifcfg = self.ifcfg_mock({"BOOTPROTO": "ibft"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, ""),
set(["ip=ibft"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "ibft",
"HWADDR": "00:00:00:00:00:00"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, ""),
set(["ip=ibft"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "dhcp"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77"),
set(["ip=em1:dhcp"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "dhcp",
"HWADDR": "00:00:00:00:00:00"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77"),
set(["ip=em1:dhcp", "ifname=em1:00:00:00:00:00:00"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "static",
"IPADDR": "10.34.102.233",
"GATEWAY": "10.34.102.254",
"NETMASK": "255.255.255.0",
"HWADDR": "00:00:00:00:00:00"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77"),
set(["ip=10.34.102.233::10.34.102.254:255.255.255.0::em1:none", "ifname=em1:00:00:00:00:00:00"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "static",
"IPADDR": "10.34.102.233",
"GATEWAY": "10.34.102.254",
"NETMASK": "255.255.255.0"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77"),
set(["ip=10.34.102.233::10.34.102.254:255.255.255.0::em1:none"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "static",
"IPADDR": "10.34.102.233",
"GATEWAY": "10.34.102.254",
"PREFIX": "24"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77"),
set(["ip=10.34.102.233::10.34.102.254:255.255.255.0::em1:none"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "static",
"IPADDR": "10.34.102.233",
"NETMASK": "255.255.255.0"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77"),
set(["ip=10.34.102.233:::255.255.255.0::em1:none"]))
ifcfg = self.ifcfg_mock({"BOOTPROTO": "static",
"IPADDR": "10.34.102.233",
"GATEWAY": "10.34.102.254",
"NETMASK": "255.255.255.0"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "10.34.102.77", hostname="node1"),
set(["ip=10.34.102.233::10.34.102.254:255.255.255.0:node1:em1:none"]))
ifcfg = self.ifcfg_mock({"DHCPV6C": "yes",
"IPV6_AUTOCONF": "yes"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "2001::1"),
set(["ip=em1:dhcp6"]))
ifcfg = self.ifcfg_mock({"IPV6_AUTOCONF": "yes"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "2001::1"),
set(["ip=em1:auto6"]))
ifcfg = self.ifcfg_mock({"IPV6_AUTOCONF": "yes",
"HWADDR": "00:00:00:00:00:00"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "2001::1"),
set(["ip=em1:auto6", "ifname=em1:00:00:00:00:00:00"]))
ifcfg = self.ifcfg_mock({"IPV6ADDR": "2001::4"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "2001::1"),
set(["ip=[2001::4]:::::em1:none"]))
ifcfg = self.ifcfg_mock({"IPV6ADDR": "2001::4"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "2001::1", hostname="node1"),
set(["ip=[2001::4]::::node1:em1:none"]))
ifcfg = self.ifcfg_mock({"IPV6ADDR": "2001::4",
"IPV6_DEFAULTGW": "2001::a"})
self.assertEqual(
network.dracutBootArguments("em1", ifcfg, "2001::1"),
set(["ip=[2001::4]::[2001::a]:::em1:none"]))
@patch("blivet.arch.is_s390", lambda: True)
def dracutBootArguments_s390_test(self):
ifcfg = self.ifcfg_mock({"NETTYPE": "qeth",
"SUBCHANNELS": "0.0.f5f0,0.0.f5f1,0.0.f5f2",
"OPTIONS": '"layer2=1 portname=OSAPORT"'})
self.assertEqual(
network.dracutBootArguments("eth0", ifcfg, ""),
set(["rd.znet=qeth,0.0.f5f0,0.0.f5f1,0.0.f5f2,layer2=1,portname=OSAPORT"]))
ifcfg = self.ifcfg_mock({"NETTYPE": "qeth",
"SUBCHANNELS": "0.0.f5f0,0.0.f5f1,0.0.f5f2",
"OPTIONS": '"layer2=1 portname=OSAPORT"',
"BOOTPROTO": "static",
"IPADDR": "10.34.102.233",
"GATEWAY": "10.34.102.254",
"NETMASK": "255.255.255.0"})
self.assertEqual(
network.dracutBootArguments("eth0", ifcfg, "10.34.102.77"),
set(["rd.znet=qeth,0.0.f5f0,0.0.f5f1,0.0.f5f2,layer2=1,portname=OSAPORT",
"ip=10.34.102.233::10.34.102.254:255.255.255.0::eth0:none"]))