# # The Qubes OS Project, https://www.qubes-os.org/ # # Copyright (C) 2015 # Marek Marczykowski-Górecki # Copyright (C) 2015 Wojtek Porczyk # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, see . # from distutils import spawn import asyncio import multiprocessing import os import subprocess import unittest import time import qubes.tests import qubes.firewall import qubes.vm.appvm class NcVersion: Trad = 1 Nmap = 2 # noinspection PyAttributeOutsideInit class VmNetworkingMixin(object): test_ip = '192.168.123.45' test_name = 'test.example.com' ping_cmd = 'ping -W 1 -n -c 1 {target}' ping_ip = ping_cmd.format(target=test_ip) ping_name = ping_cmd.format(target=test_name) # filled by load_tests template = None def run_cmd(self, vm, cmd, user="root"): try: self.loop.run_until_complete(vm.run_for_stdio(cmd, user=user)) except subprocess.CalledProcessError as e: return e.returncode return 0 def setUp(self): super(VmNetworkingMixin, self).setUp() if self.template.startswith('whonix-gw'): self.skipTest("Test not supported here - Whonix uses its own " "firewall settings") self.init_default_template(self.template) self.testnetvm = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('netvm1'), label='red') self.loop.run_until_complete(self.testnetvm.create_on_disk()) self.testnetvm.provides_network = True self.testvm1 = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('vm1'), label='red') self.loop.run_until_complete(self.testvm1.create_on_disk()) self.testvm1.netvm = self.testnetvm self.app.save() self.configure_netvm() def configure_netvm(self): def run_netvm_cmd(cmd): if self.run_cmd(self.testnetvm, cmd) != 0: self.fail("Command '%s' failed" % cmd) if not self.testnetvm.is_running(): self.loop.run_until_complete(self.testnetvm.start()) # Ensure that dnsmasq is installed: try: self.loop.run_until_complete(self.testnetvm.run_for_stdio( 'dnsmasq --version', user='root')) except subprocess.CalledProcessError: self.skipTest("dnsmasq not installed") run_netvm_cmd("ip link add test0 type dummy") run_netvm_cmd("ip link set test0 up") run_netvm_cmd("ip addr add {}/24 dev test0".format(self.test_ip)) run_netvm_cmd("iptables -I INPUT -d {} -j ACCEPT".format(self.test_ip)) # ignore failure self.run_cmd(self.testnetvm, "killall --wait dnsmasq") run_netvm_cmd("dnsmasq -a {ip} -A /{name}/{ip} -i test0 -z".format( ip=self.test_ip, name=self.test_name)) run_netvm_cmd("echo nameserver {} > /etc/resolv.conf".format( self.test_ip)) run_netvm_cmd("/usr/lib/qubes/qubes-setup-dnat-to-ns") def test_000_simple_networking(self): self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0) def test_010_simple_proxyvm(self): self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.proxy.provides_network = True self.proxy.netvm = self.testnetvm self.loop.run_until_complete(self.proxy.create_on_disk()) self.testvm1.netvm = self.proxy self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertTrue(self.proxy.is_running()) self.assertEqual(self.run_cmd(self.proxy, self.ping_ip), 0, "Ping by IP from ProxyVM failed") self.assertEqual(self.run_cmd(self.proxy, self.ping_name), 0, "Ping by name from ProxyVM failed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP from AppVM failed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by IP from AppVM failed") @qubes.tests.expectedFailureIfTemplate('debian-7') @unittest.skipUnless(spawn.find_executable('xdotool'), "xdotool not installed") def test_020_simple_proxyvm_nm(self): self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.proxy.provides_network = True self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.netvm = self.testnetvm self.proxy.features['service.network-manager'] = True self.testvm1.netvm = self.proxy self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertTrue(self.proxy.is_running()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP failed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by name failed") # reconnect to make sure that device was configured by NM self.assertEqual( self.run_cmd(self.proxy, "nmcli device disconnect eth0", user="user"), 0, "Failed to disconnect eth0 using nmcli") self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Network should be disabled, but apparently it isn't") self.assertEqual( self.run_cmd(self.proxy, 'nmcli connection up "VM uplink eth0" ifname eth0', user="user"), 0, "Failed to connect eth0 using nmcli") self.assertEqual(self.run_cmd(self.proxy, "nm-online", user="user"), 0, "Failed to wait for NM connection") # check for nm-applet presence self.assertEqual(subprocess.call([ 'xdotool', 'search', '--class', '{}:nm-applet'.format( self.proxy.name)], stdout=subprocess.DEVNULL), 0, "nm-applet window not found") self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP failed (after NM reconnection") self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by name failed (after NM reconnection)") def test_030_firewallvm_firewall(self): self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.proxy.provides_network = True self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.netvm = self.testnetvm self.testvm1.netvm = self.proxy self.app.save() if self.run_cmd(self.testnetvm, 'nc -h 2>&1|grep -q nmap.org') == 0: nc_version = NcVersion.Nmap else: nc_version = NcVersion.Trad # block all for first self.testvm1.firewall.rules = [qubes.firewall.Rule(action='drop')] self.testvm1.firewall.save() self.loop.run_until_complete(self.testvm1.start()) self.assertTrue(self.proxy.is_running()) nc = self.loop.run_until_complete(self.testnetvm.run( 'nc -l --send-only -e /bin/hostname -k 1234' if nc_version == NcVersion.Nmap else 'while nc -l -e /bin/hostname -p 1234; do true; done')) try: self.assertEqual(self.run_cmd(self.proxy, self.ping_ip), 0, "Ping by IP from ProxyVM failed") self.assertEqual(self.run_cmd(self.proxy, self.ping_name), 0, "Ping by name from ProxyVM failed") self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP should be blocked") if nc_version == NcVersion.Nmap: nc_cmd = "nc -w 1 --recv-only {} 1234".format(self.test_ip) else: nc_cmd = "nc -w 1 {} 1234".format(self.test_ip) self.assertNotEqual(self.run_cmd(self.testvm1, nc_cmd), 0, "TCP connection should be blocked") # block all except ICMP self.testvm1.firewall.rules = [( qubes.firewall.Rule(None, action='accept', proto='icmp') )] self.testvm1.firewall.save() # Ugly hack b/c there is no feedback when the rules are actually # applied time.sleep(3) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP failed (should be allowed now)") self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by name should be blocked") # all TCP still blocked self.testvm1.firewall.rules = [ qubes.firewall.Rule(None, action='accept', proto='icmp'), qubes.firewall.Rule(None, action='accept', specialtarget='dns'), ] self.testvm1.firewall.save() # Ugly hack b/c there is no feedback when the rules are actually # applied time.sleep(3) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by name failed (should be allowed now)") self.assertNotEqual(self.run_cmd(self.testvm1, nc_cmd), 0, "TCP connection should be blocked") # block all except target self.testvm1.firewall.rules = [ qubes.firewall.Rule(None, action='accept', dsthost=self.test_ip, proto='tcp', dstports=1234), ] self.testvm1.firewall.save() # Ugly hack b/c there is no feedback when the rules are actually # applied time.sleep(3) self.assertEqual(self.run_cmd(self.testvm1, nc_cmd), 0, "TCP connection failed (should be allowed now)") # allow all except target self.testvm1.firewall.rules = [ qubes.firewall.Rule(None, action='drop', dsthost=self.test_ip, proto='tcp', dstports=1234), qubes.firewall.Rule(action='accept'), ] self.testvm1.firewall.save() # Ugly hack b/c there is no feedback when the rules are actually # applied time.sleep(3) self.assertNotEqual(self.run_cmd(self.testvm1, nc_cmd), 0, "TCP connection should be blocked") finally: nc.terminate() self.loop.run_until_complete(nc.wait()) def test_040_inter_vm(self): self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.provides_network = True self.proxy.netvm = self.testnetvm self.testvm1.netvm = self.proxy self.testvm2 = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('vm2'), label='red') self.loop.run_until_complete(self.testvm2.create_on_disk()) self.testvm2.netvm = self.proxy self.app.save() self.loop.run_until_complete(asyncio.wait([ self.testvm1.start(), self.testvm2.start()])) self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_cmd.format(target=self.testvm2.ip)), 0) self.testvm2.netvm = self.testnetvm self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_cmd.format(target=self.testvm2.ip)), 0) self.assertNotEqual(self.run_cmd(self.testvm2, self.ping_cmd.format(target=self.testvm1.ip)), 0) self.testvm1.netvm = self.testnetvm self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_cmd.format(target=self.testvm2.ip)), 0) self.assertNotEqual(self.run_cmd(self.testvm2, self.ping_cmd.format(target=self.testvm1.ip)), 0) def test_050_spoof_ip(self): """Test if VM IP spoofing is blocked""" self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.loop.run_until_complete(self.testvm1.run_for_stdio( 'ip addr flush dev eth0 && ' 'ip addr add 10.137.1.128/24 dev eth0 && ' 'ip route add default dev eth0', user='root')) self.assertNotEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Spoofed ping should be blocked") def test_100_late_xldevd_startup(self): """Regression test for #1990""" # Simulater late xl devd startup cmd = "systemctl stop xendriverdomain" if self.run_cmd(self.testnetvm, cmd) != 0: self.fail("Command '%s' failed" % cmd) self.loop.run_until_complete(self.testvm1.start()) cmd = "systemctl start xendriverdomain" if self.run_cmd(self.testnetvm, cmd) != 0: self.fail("Command '%s' failed" % cmd) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) def test_200_fake_ip_simple(self): '''Test hiding VM real IP''' self.testvm1.features['net.fake-ip'] = '192.168.1.128' self.testvm1.features['net.fake-gateway'] = '192.168.1.1' self.testvm1.features['net.fake-netmask'] = '255.255.255.0' self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0) try: (output, _) = self.loop.run_until_complete( self.testvm1.run_for_stdio( 'ip addr show dev eth0', user='root')) except subprocess.CalledProcessError: self.fail('ip addr show dev eth0 failed') output = output.decode() self.assertIn('192.168.1.128', output) self.assertNotIn(self.testvm1.ip, output) try: (output, _) = self.loop.run_until_complete( self.testvm1.run_for_stdio('ip route show', user='root')) except subprocess.CalledProcessError: self.fail('ip route show failed') output = output.decode() self.assertIn('192.168.1.1', output) self.assertNotIn(self.testvm1.netvm.ip, output) def test_201_fake_ip_without_gw(self): '''Test hiding VM real IP''' self.testvm1.features['net.fake-ip'] = '192.168.1.128' self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0) try: (output, _) = self.loop.run_until_complete( self.testvm1.run_for_stdio('ip addr show dev eth0', user='root')) except subprocess.CalledProcessError: self.fail('ip addr show dev eth0 failed') output = output.decode() self.assertIn('192.168.1.128', output) self.assertNotIn(self.testvm1.ip, output) def test_202_fake_ip_firewall(self): '''Test hiding VM real IP, firewall''' self.testvm1.features['net.fake-ip'] = '192.168.1.128' self.testvm1.features['net.fake-gateway'] = '192.168.1.1' self.testvm1.features['net.fake-netmask'] = '255.255.255.0' self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.proxy.provides_network = True self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.netvm = self.testnetvm self.testvm1.netvm = self.proxy self.app.save() if self.run_cmd(self.testnetvm, 'nc -h 2>&1|grep -q nmap.org') == 0: nc_version = NcVersion.Nmap else: nc_version = NcVersion.Trad # block all but ICMP and DNS self.testvm1.firewall.rules = [ qubes.firewall.Rule(None, action='accept', proto='icmp'), qubes.firewall.Rule(None, action='accept', specialtarget='dns'), ] self.testvm1.firewall.save() self.loop.run_until_complete(self.testvm1.start()) self.assertTrue(self.proxy.is_running()) nc = self.loop.run_until_complete(self.testnetvm.run( 'nc -l --send-only -e /bin/hostname -k 1234' if nc_version == NcVersion.Nmap else 'while nc -l -e /bin/hostname -p 1234; do true; done')) try: self.assertEqual(self.run_cmd(self.proxy, self.ping_ip), 0, "Ping by IP from ProxyVM failed") self.assertEqual(self.run_cmd(self.proxy, self.ping_name), 0, "Ping by name from ProxyVM failed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP should be allowed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by name should be allowed") if nc_version == NcVersion.Nmap: nc_cmd = "nc -w 1 --recv-only {} 1234".format(self.test_ip) else: nc_cmd = "nc -w 1 {} 1234".format(self.test_ip) self.assertNotEqual(self.run_cmd(self.testvm1, nc_cmd), 0, "TCP connection should be blocked") finally: nc.terminate() self.loop.run_until_complete(nc.wait()) def test_203_fake_ip_inter_vm_allow(self): '''Access VM with "fake IP" from other VM (when firewall allows)''' self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.provides_network = True self.proxy.netvm = self.testnetvm self.testvm1.netvm = self.proxy self.testvm1.features['net.fake-ip'] = '192.168.1.128' self.testvm1.features['net.fake-gateway'] = '192.168.1.1' self.testvm1.features['net.fake-netmask'] = '255.255.255.0' self.testvm2 = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('vm2'), label='red') self.loop.run_until_complete(self.testvm2.create_on_disk()) self.testvm2.netvm = self.proxy self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.loop.run_until_complete(self.testvm2.start()) try: cmd = 'iptables -I FORWARD -s {} -d {} -j ACCEPT'.format( self.testvm2.ip, self.testvm1.ip) self.loop.run_until_complete(self.proxy.run_for_stdio( cmd, user='root')) except subprocess.CalledProcessError as e: raise AssertionError( '{} failed with: {}'.format(cmd, e.returncode)) from None try: cmd = 'iptables -I INPUT -s {} -j ACCEPT'.format(self.testvm2.ip) self.loop.run_until_complete(self.testvm1.run_for_stdio( cmd, user='root')) except subprocess.CalledProcessError as e: raise AssertionError( '{} failed with: {}'.format(cmd, e.returncode)) from None self.assertEqual(self.run_cmd(self.testvm2, self.ping_cmd.format(target=self.testvm1.ip)), 0) try: cmd = 'iptables -nvxL INPUT | grep {}'.format(self.testvm2.ip) (stdout, _) = self.loop.run_until_complete( self.testvm1.run_for_stdio(cmd, user='root')) except subprocess.CalledProcessError as e: raise AssertionError( '{} failed with {}'.format(cmd, e.returncode)) from None self.assertNotEqual(stdout.decode().split()[0], '0', 'Packets didn\'t managed to the VM') def test_204_fake_ip_proxy(self): '''Test hiding VM real IP''' self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.provides_network = True self.proxy.netvm = self.testnetvm self.proxy.features['net.fake-ip'] = '192.168.1.128' self.proxy.features['net.fake-gateway'] = '192.168.1.1' self.proxy.features['net.fake-netmask'] = '255.255.255.0' self.testvm1.netvm = self.proxy self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.proxy, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.proxy, self.ping_name), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0) try: (output, _) = self.loop.run_until_complete( self.proxy.run_for_stdio( 'ip addr show dev eth0', user='root')) except subprocess.CalledProcessError as e: self.fail('ip addr show dev eth0 failed') output = output.decode() self.assertIn('192.168.1.128', output) self.assertNotIn(self.testvm1.ip, output) try: (output, _) = self.loop.run_until_complete( self.proxy.run_for_stdio( 'ip route show', user='root')) except subprocess.CalledProcessError as e: self.fail('ip route show failed') output = output.decode() self.assertIn('192.168.1.1', output) self.assertNotIn(self.testvm1.netvm.ip, output) try: (output, _) = self.loop.run_until_complete( self.testvm1.run_for_stdio( 'ip addr show dev eth0', user='root')) except subprocess.CalledProcessError as e: self.fail('ip addr show dev eth0 failed') output = output.decode() self.assertNotIn('192.168.1.128', output) self.assertIn(self.testvm1.ip, output) try: (output, _) = self.loop.run_until_complete( self.testvm1.run_for_stdio( 'ip route show', user='root')) except subprocess.CalledProcessError as e: self.fail('ip route show failed') output = output.decode() self.assertIn('192.168.1.128', output) self.assertNotIn(self.proxy.ip, output) def test_210_custom_ip_simple(self): '''Custom AppVM IP''' self.testvm1.ip = '192.168.1.1' self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0) def test_211_custom_ip_proxy(self): '''Custom ProxyVM IP''' self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.provides_network = True self.proxy.netvm = self.testnetvm self.proxy.ip = '192.168.1.1' self.testvm1.netvm = self.proxy self.app.save() self.loop.run_until_complete(self.testvm1.start()) self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0) self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0) def test_212_custom_ip_firewall(self): '''Custom VM IP and firewall''' self.testvm1.ip = '192.168.1.1' self.proxy = self.app.add_new_vm(qubes.vm.appvm.AppVM, name=self.make_vm_name('proxy'), label='red') self.proxy.provides_network = True self.loop.run_until_complete(self.proxy.create_on_disk()) self.proxy.netvm = self.testnetvm self.testvm1.netvm = self.proxy self.app.save() if self.run_cmd(self.testnetvm, 'nc -h 2>&1|grep -q nmap.org') == 0: nc_version = NcVersion.Nmap else: nc_version = NcVersion.Trad # block all but ICMP and DNS self.testvm1.firewall.rules = [ qubes.firewall.Rule(None, action='accept', proto='icmp'), qubes.firewall.Rule(None, action='accept', specialtarget='dns'), ] self.testvm1.firewall.save() self.loop.run_until_complete(self.testvm1.start()) self.assertTrue(self.proxy.is_running()) nc = self.loop.run_until_complete(self.testnetvm.run( 'nc -l --send-only -e /bin/hostname -k 1234' if nc_version == NcVersion.Nmap else 'while nc -l -e /bin/hostname -p 1234; do true; done')) try: self.assertEqual(self.run_cmd(self.proxy, self.ping_ip), 0, "Ping by IP from ProxyVM failed") self.assertEqual(self.run_cmd(self.proxy, self.ping_name), 0, "Ping by name from ProxyVM failed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_ip), 0, "Ping by IP should be allowed") self.assertEqual(self.run_cmd(self.testvm1, self.ping_name), 0, "Ping by name should be allowed") if nc_version == NcVersion.Nmap: nc_cmd = "nc -w 1 --recv-only {} 1234".format(self.test_ip) else: nc_cmd = "nc -w 1 {} 1234".format(self.test_ip) self.assertNotEqual(self.run_cmd(self.testvm1, nc_cmd), 0, "TCP connection should be blocked") finally: nc.terminate() self.loop.run_until_complete(nc.wait()) # noinspection PyAttributeOutsideInit class VmUpdatesMixin(object): """ Tests for VM updates """ # filled by load_tests template = None # made this way to work also when no package build tools are installed """ $ cat test-pkg.spec: Name: test-pkg Version: 1.0 Release: 1%{?dist} Summary: Test package Group: System License: GPL URL: http://example.com/ %description Test package %files %changelog $ rpmbuild -bb test-pkg.spec $ cat test-pkg-1.0-1.fc21.x86_64.rpm | gzip | base64 """ RPM_PACKAGE_GZIP_BASE64 = ( b"H4sIAPzRLlYAA+2Y728URRjHn7ueUCkERKJVJDnTxLSxs7293o8WOER6ljYYrtKCLUSa3" b"bnZ64bd22VmTq8nr4wJbwxvjNHIG0x8oTHGGCHB8AcYE1/0lS80GgmQFCJU3wgB4ZjdfZ" b"q2xDe8NNlvMjfzmeeZH7tPbl98b35169cOUEpIJiTxT9SIrmVUs2hWh8dUAp54dOrM14s" b"JHK4D2DKl+j2qrVfjsuq3qEWbohjuAB2Lqk+p1o/8Z5QPmSi/YwnjezH+F8bLQZjqllW0" b"hvODRmFIL5hFk9JMXi/mi5ZuDleNwSEzP5wtmLnouNQnm3/6fndz7FLt9M/Hruj37gav4" b"tTjPnasWLFixYoVK1asWLFixYoV63+p0KNot9vnIPQc1vgYOwCSgXfxCoS+QzKHOVXVOj" b"Fn2ccIfI0k8nXkLuQbyJthxed4UrVnkG8i9yDfgsj3yCAv4foc8t+w1hf5B+Nl5Du43xj" b"yvxivIN9HpsgPkO2IU9uQfeRn8Xk/iJ4x1Y3nfxH1qecwfhH5+YgT25F7o/0SRdxvOppP" b"7MX9ZjB/DNnE/OOYX404uRGZIT+FbCFvQ3aQ8f0+/WF0XjJ8nyOw7H+BrmUA/a8pNZf2D" b"XrCqLG1cERbWHI8ajhznpBY9P0Tr8PkvJDMhTkp/Z0DA6xpuL7DNOq5A+DY9UYTmkOF2U" b"IO/sNt0wSnGvfdlZssD3rVIlLI9UUX37C6qXzHNntHPNfnTAhWHbUddtBwmegDjAUzZbu" b"m9lqZmzDmHc8Ik8WY8Tab4Myym4+Gx8V0qw8GtYyWIzrktEJwV9UHv3ktG471rAqHTmFQ" b"685V5uGqIalk06SWJr7tszR503Ac9cs493jJ8rhrSCIYbXBbzqt5v5+UZ0crh6bGR2dmJ" b"yuHD428VlLLLdakzJe2VxcKhFSFID73JKPS40RI7tXVCcQ3uOGWhPCJ2bAspiJ2i5Vy6n" b"jOqMerpEYpEe/Yks4xkU4Tt6BirmzUWanG6ozbFKhve9BsQRaLRTirzqk7hgUktXojKnf" b"n8jeg3X4QepP3i63po6oml+9t/CwJLya2Bn/ei6f7/4B3Ycdb0L3pt5Q5mNz16rWJ9fLk" b"vvOff/nxS7//8O2P2gvt7nDDnoV9L1du9N4+ucjl9u/8+a7dC5Nnvjlv9Ox5r+v9Cy0NE" b"m+c6rv60S/dZw98Gn6MNswcfQiWUvg3wBUAAA==" ) """ Minimal package generated by running dh_make on empty directory Then cat test-pkg_1.0-1_amd64.deb | gzip | base64 """ DEB_PACKAGE_GZIP_BASE64 = ( b"H4sIACTXLlYAA1O0SSxKzrDjSklNykzM003KzEssqlRQUDA0MTG1NDQwNDVTUDBQAAEIa" b"WhgYGZioqBgogADCVxGegZcyfl5JUX5OXoliUV66VVE6DcwheuX7+ZgAAEW5rdXHb0PG4" b"iwf5j3WfMT6zWzzMuZgoE3jjYraNzbbFKWGms0SaRw/r2SV23WZ4IdP8preM4yqf0jt95" b"3c8qnacfNxJUkf9/w+/3X9ph2GEdgQdixrz/niHKKTnYXizf4oSC7tHOz2Zzq+/6vn8/7" b"ezQ7c1tmi7xZ3SGJ4yzhT2dcr7V+W3zM5ZPu/56PSv4Zdok+7Yv/V/6buWaKVlFkkV58S" b"N3GmLgnqzRmeZ3V3ymmurS5fGa85/LNx1bpZMin3S6dvXKqydp3ubP1vmyarJZb/qSh62" b"C8oIdxqm/BtvkGDza+On/Vfv2py7/0LV7VH+qR6a+bkKUbHXt5/SG187d+nps1a5PJfMO" b"i11dWcUe1HjwaW3Q5RHXn9LmcHy+tW9YcKf0768XVB1t3R0bKrzs5t9P+6r7rZ99svH10" b"+Q6F/o8tf1fO/32y+fWa14eifd+WxUy0jcxYH7N9/tUvmnUZL74pW32qLeuRU+ZwYGASa" b"GBgUWBgxM90ayy3VdmykkGDgYErJbEkERydFVWQmCMQo8aWZvAY/WteFRHFwMCYqXTPjI" b"lBkVEMGLsl+k8XP1D/z+gXyyDOvUemlnHqAVkvu0rRQ2fUFodkN3mtU9uwhqk8V+TqPEE" b"Nc7fzoQ4n71lqRs/7kbbT0+qOZuKH4r8mjzsc1k/YkCHN8Pjg48fbpE+teHa96LNcfu0V" b"5n2/Z2xa2KDvaCOx8cqBFxc514uZ3TmadXS+6cpzU7wSzq5SWfapJOD9n6wLXSwtlgxZh" b"xITzWW7buhx/bb291RcVlEfeC9K5hlrqunSzIMSZT7/Nqgc/qMvMNW227WI8ezB8mVuZh" b"0hERJSvysfburr4Dx0I9BW57UwR4+e1gxu49PcEt8sbK18Xpvt//Hj5UYm+Zc25q+T4xl" b"rJvxfVnh80oadq57OZxPaU1bbztv1yF365W4t45Yr+XrFzov237GVY1Zgf7NvE4+W2SuR" b"lQtLauR1TQ/mbOiIONYya6tU1jPGpWfk/i1+ttiXe3ZO14n0YOWggndznjGlGLyfVbBC6" b"MRP5aMM7aCco/s7sZqB8RlTQwADw8rnuT/sDHi7mUASjJFRAAbWwNLiAwAA" ) def run_cmd(self, vm, cmd, user="root"): try: self.loop.run_until_complete(vm.run_for_stdio(cmd)) except subprocess.CalledProcessError as e: return e.returncode return 0 def setUp(self): if not self.template.count('debian') and \ not self.template.count('fedora'): self.skipTest("Template {} not supported by this test".format( self.template)) super(VmUpdatesMixin, self).setUp() self.update_cmd = None if self.template.count("debian"): self.update_cmd = "set -o pipefail; apt-get update 2>&1 | " \ "{ ! grep '^W:\|^E:'; }" self.install_cmd = "apt-get install -y {}" self.install_test_cmd = "dpkg -l {}" self.exit_code_ok = [0] elif self.template.count("fedora"): cmd = "yum" try: # assume template name in form "fedora-XX-suffix" if int(self.template.split("-")[1]) > 21: cmd = "dnf" except ValueError: pass self.update_cmd = "{cmd} clean all; {cmd} check-update".format( cmd=cmd) self.install_cmd = cmd + " install -y {}" self.install_test_cmd = "rpm -q {}" self.exit_code_ok = [0, 100] self.init_default_template(self.template) self.init_networking() self.testvm1 = self.app.add_new_vm( qubes.vm.appvm.AppVM, name=self.make_vm_name('vm1'), label='red') self.loop.run_until_complete(self.testvm1.create_on_disk()) def test_000_simple_update(self): self.app.save() # reload the VM to have all the properties properly set (especially # default netvm) self.testvm1 = self.app.domains[self.testvm1.qid] self.loop.run_until_complete(self.testvm1.start()) p = self.loop.run_until_complete( self.testvm1.run(self.update_cmd, user='root')) (stdout, stderr) = self.loop.run_until_complete(p.communicate()) self.assertIn(p.returncode, self.exit_code_ok, '{}: {}\n{}'.format(self.update_cmd, stdout, stderr)) def create_repo_apt(self): pkg_file_name = "test-pkg_1.0-1_amd64.deb" self.loop.run_until_complete(self.netvm_repo.run_for_stdio(''' mkdir /tmp/apt-repo \ && cd /tmp/apt-repo \ && base64 -d | zcat > {} '''.format(pkg_file_name), input=self.DEB_PACKAGE_GZIP_BASE64)) # do not assume dpkg-scanpackage installed packages_path = "dists/test/main/binary-amd64/Packages" self.loop.run_until_complete(self.netvm_repo.run_for_stdio(''' mkdir -p /tmp/apt-repo/dists/test/main/binary-amd64 \ && cd /tmp/apt-repo \ && cat > {packages} \ && echo MD5sum: $(openssl md5 -r {pkg} | cut -f 1 -d ' ') \ >> {packages} \ && echo SHA1: $(openssl sha1 -r {pkg} | cut -f 1 -d ' ') \ >> {packages} \ && echo SHA256: $(openssl sha256 -r {pkg} | cut -f 1 -d ' ') \ >> {packages} \ && gzip < {packages} > {packages}.gz '''.format(pkg=pkg_file_name, packages=packages_path), input='''\ Package: test-pkg Version: 1.0-1 Architecture: amd64 Maintainer: unknown Installed-Size: 25 Filename: {pkg} Size: 994 Section: unknown Priority: optional Description: Test package'''.format(pkg=pkg_file_name).encode('utf-8'))) self.loop.run_until_complete(self.netvm_repo.run_for_stdio(''' mkdir -p /tmp/apt-repo/dists/test \ && cd /tmp/apt-repo/dists/test \ && cat > Release \ && echo '' $(sha256sum {p} | cut -f 1 -d ' ') $(stat -c %s {p}) {p}\ >> Release \ && echo '' $(sha256sum {z} | cut -f 1 -d ' ') $(stat -c %s {z}) {z}\ >> Release '''.format(p='main/binary-amd64/Packages', z='main/binary-amd64/Packages.gz'), input=b'''\ Label: Test repo Suite: test Codename: test Date: Tue, 27 Oct 2015 03:22:09 UTC Architectures: amd64 Components: main SHA256: ''')) def create_repo_yum(self): pkg_file_name = "test-pkg-1.0-1.fc21.x86_64.rpm" self.loop.run_until_complete(self.netvm_repo.run_for_stdio(''' mkdir /tmp/yum-repo \ && cd /tmp/yum-repo \ && base64 -d | zcat > {} '''.format(pkg_file_name), input=self.RPM_PACKAGE_GZIP_BASE64)) # createrepo is installed by default in Fedora template self.loop.run_until_complete(self.netvm_repo.run_for_stdio( 'createrepo /tmp/yum-repo')) def create_repo_and_serve(self): if self.template.count("debian") or self.template.count("whonix"): self.create_repo_apt() self.loop.run_until_complete(self.netvm_repo.run( 'cd /tmp/apt-repo && python -m SimpleHTTPServer 8080')) elif self.template.count("fedora"): self.create_repo_yum() self.loop.run_until_complete(self.netvm_repo.run( 'cd /tmp/yum-repo && python -m SimpleHTTPServer 8080')) else: # not reachable... self.skipTest("Template {} not supported by this test".format( self.template)) def configure_test_repo(self): """ Configure test repository in test-vm and disable rest of them. The critical part is to use "localhost" - this will work only when accessed through update proxy and this is exactly what we want to test here. """ if self.template.count("debian") or self.template.count("whonix"): self.loop.run_until_complete(self.testvm1.run_for_stdio( "rm -f /etc/apt/sources.list.d/* &&" "echo 'deb [trusted=yes] http://localhost:8080 test main' " "> /etc/apt/sources.list", user="root")) elif self.template.count("fedora"): self.loop.run_until_complete(self.testvm1.run_for_stdio( "rm -f /etc/yum.repos.d/*.repo &&" "echo '[test]' > /etc/yum.repos.d/test.repo &&" "echo 'name=Test repo' >> /etc/yum.repos.d/test.repo &&" "echo 'gpgcheck=0' >> /etc/yum.repos.d/test.repo &&" "echo 'baseurl=http://localhost:8080/'" " >> /etc/yum.repos.d/test.repo", user="root" )) else: # not reachable... self.skipTest("Template {} not supported by this test".format( self.template)) def test_010_update_via_proxy(self): """ Test both whether updates proxy works and whether is actually used by the VM """ if self.template.count("minimal"): self.skipTest("Template {} not supported by this test".format( self.template)) self.netvm_repo = self.app.add_new_vm( qubes.vm.appvm.AppVM, name=self.make_vm_name('net'), label='red') self.netvm_repo.provides_network = True self.loop.run_until_complete(self.netvm_repo.create_on_disk()) self.testvm1.netvm = self.netvm_repo self.netvm_repo.features['service.qubes-updates-proxy'] = True # TODO: consider also adding a test for the template itself self.testvm1.features['service.updates-proxy-setup'] = True self.app.save() # Setup test repo self.loop.run_until_complete(self.netvm_repo.start()) self.create_repo_and_serve() # Configure local repo self.loop.run_until_complete(self.testvm1.start()) self.configure_test_repo() with self.qrexec_policy('qubes.UpdatesProxy', self.testvm1, '$default', action='allow,target=' + self.netvm_repo.name): # update repository metadata p = self.loop.run_until_complete(self.testvm1.run( self.update_cmd, user='root', stdout=subprocess.PIPE, stderr=subprocess.PIPE)) (stdout, stderr) = self.loop.run_until_complete(p.communicate()) self.assertIn(self.loop.run_until_complete(p.wait()), self.exit_code_ok, '{}: {}\n{}'.format(self.update_cmd, stdout, stderr)) # install test package p = self.loop.run_until_complete(self.testvm1.run( self.install_cmd.format('test-pkg'), user='root')) (stdout, stderr) = self.loop.run_until_complete(p.communicate()) self.assertIn(self.loop.run_until_complete(p.wait()), self.exit_code_ok, '{}: {}\n{}'.format(self.update_cmd, stdout, stderr)) # verify if it was really installed p = self.loop.run_until_complete(self.testvm1.run( self.install_test_cmd.format('test-pkg'), user='root')) (stdout, stderr) = self.loop.run_until_complete(p.communicate()) self.assertIn(self.loop.run_until_complete(p.wait()), self.exit_code_ok, '{}: {}\n{}'.format(self.update_cmd, stdout, stderr)) def load_tests(loader, tests, pattern): for template in qubes.tests.list_templates(): tests.addTests(loader.loadTestsFromTestCase( type( 'VmNetworking_' + template, (VmNetworkingMixin, qubes.tests.SystemTestCase), {'template': template}))) tests.addTests(loader.loadTestsFromTestCase( type( 'VmUpdates_' + template, (VmUpdatesMixin, qubes.tests.SystemTestCase), {'template': template}))) return tests