def testTableCreation(self): prod_network = nacaddr.IP('10.0.0.0/8') prod_network.parent_token = 'PROD_NETWORK' corp_internal_one = nacaddr.IP('100.96.0.1/11') corp_internal_one.parent_token = 'CORP_INTERNAL' corp_internal_two = nacaddr.IP('172.16.0.0/16') corp_internal_two.parent_token = 'CORP_INTERNAL' self.naming.GetNetAddr('PROD_NETWORK').AndReturn([prod_network]) self.naming.GetNetAddr('CORP_INTERNAL').AndReturn( [corp_internal_one, corp_internal_two]) self.naming.GetServiceByProto('SMTP', 'tcp').AndReturn(['25']) self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + MULTIPLE_NAME_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('table <PROD_NETWORK> {10.0.0.0/8}' in result, 'did not find PROD_NETWORKtable in header') self.failUnless( 'table <CORP_INTERNAL> {100.96.0.1/11,\\\n' '172.16.0.0/16}' in result, 'did not find CORP_INTERNAL table in header') self.failUnless( 'pass quick proto { tcp } from { <CORP_INTERNAL> } to ' '{ <PROD_NETWORK> } port { 25 } flags S/SA keep state' in result, 'did not find actual term for multiple-name')
def testBuildWarningTokens(self): pol1 = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + GOOD_WARNING_TERM, self.naming), EXP_INFO) st, sst = pol1._BuildTokens() self.assertEquals(st, SUPPORTED_TOKENS) self.assertEquals(sst, SUPPORTED_SUB_TOKENS)
def testTableSameLongNameDiffFilter(self): prod_network = nacaddr.IP('10.0.0.0/8') prod_network.parent_token = 'PROD_NETWORK_EXTREAMLY_LONG_VERY_NO_GOOD_NAME' self.naming.GetNetAddr.return_value = [prod_network] self.naming.GetServiceByProto.return_value = ['53'] acl = packetfilter.PacketFilter( policy.ParsePolicy( GOOD_HEADER_DIRECTIONAL + LONG_NAME_TERM_DNS_TCP + GOOD_HEADER_DIRECTIONAL + LONG_NAME_TERM_DNS_UDP, self.naming), EXP_INFO) result = str(acl) self.failUnless( 'table <PROD_NETWORK_EXTREAMLY_LONG_VER> {10.0.0.0/8}' in result, 'did not find shortened name in header.') self.failUnless( 'pass out quick proto { tcp } from { any } to ' '{ <PROD_NETWORK_EXTREAMLY_LONG_VER> } ' 'port { 53 } flags S/SA keep state' in result, 'did not find actual TCP term for multiple-name') self.failUnless( 'pass out quick proto { udp } from { any } to ' '{ <PROD_NETWORK_EXTREAMLY_LONG_VER> } ' 'port { 53 } keep state' in result, 'did not find actual UDP for multiple-name') self.naming.GetNetAddr.assert_has_calls([ mock.call('PROD_NETWORK_EXTREAMLY_LONG_VERY_NO_GOOD_NAME'), mock.call('PROD_NETWORK_EXTREAMLY_LONG_VERY_NO_GOOD_NAME') ]) self.naming.GetServiceByProto.assert_has_calls( [mock.call('DNS', 'tcp'), mock.call('DNS', 'udp')])
def testExpiredTerm2(self, mock_warn): packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + EXPIRED_TERM2, self.naming), EXP_INFO) mock_warn.assert_called_once_with( 'WARNING: Term %s in policy %s is expired and ' 'will not be rendered.', 'expired_test2', 'test-filter')
def testNextTerm(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + NEXT_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term next' in result, 'did not find comment for next') self.failUnless( 'pass from { any } to { any } flags S/SA keep state\n' in result, 'did not find actual term for next-term')
def testExpiringTerm(self, mock_info): exp_date = datetime.date.today() + datetime.timedelta(weeks=EXP_INFO) packetfilter.PacketFilter( policy.ParsePolicy( GOOD_HEADER + EXPIRING_TERM % exp_date.strftime('%Y-%m-%d'), self.naming), EXP_INFO) mock_info.assert_called_once_with( 'INFO: Term %s in policy %s expires in ' 'less than two weeks.', 'is_expiring', 'test-filter')
def testIcmpv6(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + GOOD_TERM_ICMPV6, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term good-term-icmpv6' in result, 'did not find comment for good-term-icmpv6') self.failUnless( 'pass quick proto { ipv6-icmp } from { any } to { any } keep state\n' in result, 'did not find actual term for good-term-icmpv6')
def testMultiprotocol(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + MULTIPLE_PROTOCOLS_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term multi-proto' in result, 'did not find comment for multi-proto') self.failUnless( 'pass quick proto { tcp udp icmp } from { any } to { any } keep state\n' in result, 'did not find actual term for multi-proto')
def testStatelessEstablished(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER_STATELESS + TCP_STATE_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term tcp-established-only' in result, 'did not find comment for tcp-established-only') self.failUnless( 'pass quick proto { tcp } from { any } to { any } flags A/A no state' in result, 'did not find actual term for tcp-established-only')
def testTcpEstablished(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + TCP_GOOD_ESTABLISHED_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term tcp-established-good' in result, 'did not find comment for tcp-established-good') self.failUnless( 'pass quick proto { tcp } from { any } to { any } flags A/A keep state' in result, 'did not find actual term for udp-established')
def testStatefulBlock(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + DENY_TERM_TCP, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term deny-term-tcp' in result, 'did not find comment for udp-established') self.failUnless( 'block drop quick proto { tcp } from { any } to { any } flags S/SA' in result, 'did not find actual term for deny-term-tcp')
def testMultilineComment(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + MULTILINE_COMMENT, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term multiline-comment' in result, 'did not find comment for multiline-comment') self.failUnless( '# This is a\n# multiline comment' in result, 'did not find multiline comment for multiline-comment')
def testFlags(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + FLAGS_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term flags' in result, 'did not find comment for flags') self.failUnless( 'pass quick proto { tcp } from { any } to { any } ' 'flags SF/SF' in result, 'did not find actual term for flags')
def testUdpStatelessEstablished(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER_STATELESS + UDP_ESTABLISHED_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term udp-established' in result, 'did not find comment for udp-established') self.failUnless( 'pass quick proto { udp } from { any } to { any } no state' in result, 'did not find actual term for udp-established')
def testExpiredTerm2(self): self.mox.StubOutWithMock(packetfilter.logging, 'warn') # create mock to ensure we warn about expired terms being skipped packetfilter.logging.warn( 'WARNING: Term %s in policy %s is expired and ' 'will not be rendered.', 'expired_test2', 'test-filter') self.mox.ReplayAll() packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + EXPIRED_TERM2, self.naming), EXP_INFO)
def testInet6(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER_INET6 + GOOD_TERM_LOG, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term good-term-log' in result, 'did not find comment for good-term-log') self.failUnless( 'pass quick log inet6 proto { tcp } from { any } to { any } flags S/SA ' 'keep state\n' in result, 'did not find actual term for good-term-log')
def testIcmpTypes(self): acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + GOOD_TERM_ICMP_TYPES, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term good-term-icmp-types' in result, 'did not find comment for good-term-icmp-types') self.failUnless( 'block drop quick proto { icmp } from { any } to { any } ' 'icmp-type { 0, 3, 11 }' in result, 'did not find actual term for good-term-icmp-types')
def testNextLogTerm(self): self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + NEXT_LOG_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term next-log' in result, 'did not find comment for next-log') self.failUnless( 'pass log from { any } to { any } flags S/SA keep state\n' in result, 'did not find actual term for next-log-term')
def testExpiringTerm(self): self.mox.StubOutWithMock(packetfilter.logging, 'info') # create mock to ensure we inform about expiring terms packetfilter.logging.info( 'INFO: Term %s in policy %s expires in ' 'less than two weeks.', 'is_expiring', 'test-filter') self.mox.ReplayAll() exp_date = datetime.date.today() + datetime.timedelta(weeks=EXP_INFO) packetfilter.PacketFilter( policy.ParsePolicy( GOOD_HEADER + EXPIRING_TERM % exp_date.strftime('%Y-%m-%d'), self.naming), EXP_INFO)
def testMultipleHeader(self): acl = packetfilter.PacketFilter( policy.ParsePolicy( GOOD_HEADER_STATELESS + GOOD_TERM_LOG + GOOD_HEADER_INET6 + GOOD_TERM_ICMP, self.naming), EXP_INFO) result = str(acl) self.failUnless( 'pass quick log proto { tcp } from { any } to { any } no state' in result, 'did not find actual term for good-term-log') self.failUnless( 'pass quick inet6 proto { icmp } from { any } to { any } no state' in result, 'did not find actual term for good-term-icmp')
def testBuildTokens(self): ip = nacaddr.IP('10.0.0.0/8') ip.parent_token = 'PROD_NETWORK' self.naming.GetNetAddr.return_value = [ip] self.naming.GetServiceByProto.return_value = ['25'] pol1 = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + GOOD_TERM_TCP, self.naming), EXP_INFO) st, sst = pol1._BuildTokens() self.assertEquals(st, SUPPORTED_TOKENS) self.assertEquals(sst, SUPPORTED_SUB_TOKENS)
def testPortRange(self): self.naming.GetServiceByProto('HIGH_PORTS', 'tcp').AndReturn(['12345-12354']) self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + PORTRANGE_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term portrange' in result, 'did not find comment for portrange') self.failUnless( 'pass quick proto { tcp } from { any } to { any } ' 'port { 12345:12354 }' in result, 'did not find actual term for portrange')
def testDirectional(self): ip = nacaddr.IP('10.0.0.0/8') ip.parent_token = 'PROD_NETWORK' self.naming.GetNetAddr('PROD_NETWORK').AndReturn([ip]) self.naming.GetServiceByProto('SMTP', 'tcp').AndReturn(['25']) self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER_DIRECTIONAL + GOOD_TERM_TCP, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term good-term-tcp' in result, 'did not find comment for good-term-tcp') self.failUnless( 'pass out quick proto { tcp } from { any } to { <PROD_NETWORK> } port ' '{ 25 }' in result, 'did not find actual term for good-term-tcp')
def testPortRange(self): self.naming.GetServiceByProto.return_value = ['12345-12354'] acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + PORTRANGE_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term portrange' in result, 'did not find comment for portrange') self.failUnless( 'pass quick proto { tcp } from { any } to { any } ' 'port { 12345:12354 }' in result, 'did not find actual term for portrange') self.naming.GetServiceByProto.assert_called_once_with( 'HIGH_PORTS', 'tcp')
def testTcp(self): ip = nacaddr.IP('10.0.0.0/8') ip.parent_token = 'PROD_NETWORK' self.naming.GetNetAddr.return_value = [ip] self.naming.GetServiceByProto.return_value = ['25'] acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + GOOD_TERM_TCP, self.naming), EXP_INFO) result = str(acl) self.failUnless('# term good-term-tcp' in result, 'did not find comment for good-term-tcp') self.failUnless( 'pass quick proto { tcp } from { any } to { <PROD_NETWORK> } port ' '{ 25 }' in result, 'did not find actual term for good-term-tcp') self.naming.GetNetAddr.assert_called_once_with('PROD_NETWORK') self.naming.GetServiceByProto.assert_called_once_with('SMTP', 'tcp')
def testTableNameShortened(self): prod_network = nacaddr.IP('10.0.0.0/8') prod_network.parent_token = 'PROD_NETWORK_EXTREAMLY_LONG_VERY_NO_GOOD_NAME' self.naming.GetNetAddr( 'PROD_NETWORK_EXTREAMLY_LONG_VERY_NO_GOOD_NAME').AndReturn( [prod_network]) self.naming.GetServiceByProto('SMTP', 'tcp').AndReturn(['25']) self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER_DIRECTIONAL + LONG_NAME_TERM, self.naming), EXP_INFO) result = str(acl) self.failUnless( 'table <PROD_NETWORK_EXTREAMLY_LONG_VER> {10.0.0.0/8}' in result, 'did not find shortened name in header.') self.failUnless( 'pass out quick proto { tcp } from { any } to ' '{ <PROD_NETWORK_EXTREAMLY_LONG_VER> } ' 'port { 25 } flags S/SA keep state' in result, 'did not find actual term for multiple-name')
def RenderFile(input_file, output_directory, definitions, exp_info, write_files): """Render a single file. Args: input_file: the name of the input policy file. output_directory: the directory in which we place the rendered file. definitions: the definitions from naming.Naming(). exp_info: print a info message when a term is set to expire in that many weeks. write_files: a list of file tuples, (output_file, acl_text), to write """ logging.debug('rendering file: %s into %s', input_file, output_directory) pol = None jcl = False acl = False asacl = False aacl = False bacl = False eacl = False gcefw = False ips = False ipt = False spd = False nsx = False pcap_accept = False pcap_deny = False pf = False srx = False jsl = False nft = False win_afw = False xacl = False paloalto = False try: conf = open(input_file).read() logging.debug('opened and read %s', input_file) except IOError as e: logging.warn('bad file: \n%s', e) raise try: pol = policy.ParsePolicy(conf, definitions, optimize=FLAGS.optimize, base_dir=FLAGS.base_directory, shade_check=FLAGS.shade_check) except policy.ShadingError as e: logging.warn('shading errors for %s:\n%s', input_file, e) return except (policy.Error, naming.Error): raise ACLParserError( 'Error parsing policy file %s:\n%s%s' % (input_file, sys.exc_info()[0], sys.exc_info()[1])) platforms = set() for header in pol.headers: platforms.update(header.platforms) if 'juniper' in platforms: jcl = copy.deepcopy(pol) if 'cisco' in platforms: acl = copy.deepcopy(pol) if 'ciscoasa' in platforms: asacl = copy.deepcopy(pol) if 'brocade' in platforms: bacl = copy.deepcopy(pol) if 'arista' in platforms: eacl = copy.deepcopy(pol) if 'aruba' in platforms: aacl = copy.deepcopy(pol) if 'ipset' in platforms: ips = copy.deepcopy(pol) if 'iptables' in platforms: ipt = copy.deepcopy(pol) if 'nsxv' in platforms: nsx = copy.deepcopy(pol) if 'packetfilter' in platforms: pf = copy.deepcopy(pol) if 'pcap' in platforms: pcap_accept = copy.deepcopy(pol) pcap_deny = copy.deepcopy(pol) if 'speedway' in platforms: spd = copy.deepcopy(pol) if 'srx' in platforms: srx = copy.deepcopy(pol) if 'srxlo' in platforms: jsl = copy.deepcopy(pol) if 'windows_advfirewall' in platforms: win_afw = copy.deepcopy(pol) if 'ciscoxr' in platforms: xacl = copy.deepcopy(pol) if 'nftables' in platforms: nft = copy.deepcopy(pol) if 'gce' in platforms: gcefw = copy.deepcopy(pol) if 'paloalto' in platforms: paloalto = copy.deepcopy(pol) if not output_directory.endswith('/'): output_directory += '/' try: if jcl: acl_obj = juniper.Juniper(jcl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if srx: acl_obj = junipersrx.JuniperSRX(srx, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if acl: acl_obj = cisco.Cisco(acl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if asacl: acl_obj = ciscoasa.CiscoASA(acl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if aacl: acl_obj = aruba.Aruba(aacl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if bacl: acl_obj = brocade.Brocade(bacl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if eacl: acl_obj = arista.Arista(eacl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if ips: acl_obj = ipset.Ipset(ips, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if ipt: acl_obj = iptables.Iptables(ipt, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if nsx: acl_obj = nsxv.Nsxv(nsx, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if spd: acl_obj = speedway.Speedway(spd, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if pcap_accept: acl_obj = pcap.PcapFilter(pcap_accept, exp_info) RenderACL(str(acl_obj), '-accept' + acl_obj.SUFFIX, output_directory, input_file, write_files) if pcap_deny: acl_obj = pcap.PcapFilter(pcap_deny, exp_info, invert=True) RenderACL(str(acl_obj), '-deny' + acl_obj.SUFFIX, output_directory, input_file, write_files) if pf: acl_obj = packetfilter.PacketFilter(pf, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if win_afw: acl_obj = windows_advfirewall.WindowsAdvFirewall(win_afw, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if jsl: acl_obj = srxlo.SRXlo(jsl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if xacl: acl_obj = ciscoxr.CiscoXR(xacl, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if nft: acl_obj = nftables.Nftables(nft, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if gcefw: acl_obj = gce.GCE(gcefw, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) if paloalto: acl_obj = paloaltofw.PaloAltoFW(paloalto, exp_info) RenderACL(str(acl_obj), acl_obj.SUFFIX, output_directory, input_file, write_files) # TODO(robankeny) add additional errors. except (juniper.Error, junipersrx.Error, cisco.Error, ipset.Error, iptables.Error, speedway.Error, pcap.Error, aclgenerator.Error, aruba.Error, nftables.Error, gce.Error): raise ACLGeneratorError( 'Error generating target ACL for %s:\n%s%s' % (input_file, sys.exc_info()[0], sys.exc_info()[1]))
def render_filters(source_file, definitions_obj, shade_check, exp_info): count = 0 [(eacl, aacl, bacl, jcl, acl, asa, xacl, ipt, ips, pf, spd, spk, srx, dem) ] = [(False, False, False, False, False, False, False, False, False, False, False, False, False, False)] pol = policy.ParsePolicy(open(source_file).read(), definitions_obj, shade_check=shade_check) for header in pol.headers: if 'arista' in header.platforms: eacl = copy.deepcopy(pol) if 'aruba' in header.platforms: aacl = copy.deepcopy(pol) if 'brocade' in header.platforms: bacl = copy.deepcopy(pol) if 'juniper' in header.platforms: jcl = copy.deepcopy(pol) if 'cisco' in header.platforms: acl = copy.deepcopy(pol) if 'ciscoasa' in header.platforms: asa = copy.deepcopy(pol) if 'ciscoxr' in header.platforms: xacl = copy.deepcopy(pol) if 'iptables' in header.platforms: ipt = copy.deepcopy(pol) if 'ipset' in header.platforms: ips = copy.deepcopy(pol) if 'packetfilter' in header.platforms: pf = copy.deepcopy(pol) if 'speedway' in header.platforms: spd = copy.deepcopy(pol) # SRX needs to be un-optimized for correct building of the address book # entries. if 'srx' in header.platforms: unoptimized_pol = policy.ParsePolicy(open(source_file).read(), definitions_obj, optimize=False) srx = copy.deepcopy(unoptimized_pol) if 'demo' in header.platforms: dem = copy.deepcopy(pol) if eacl: fw = arista.Arista(eacl, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if aacl: fw = aruba.Aruba(aacl, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if bacl: fw = brocade.Brocade(bacl, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if jcl: fw = juniper.Juniper(jcl, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if acl: fw = cisco.Cisco(acl, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if asa: fw = ciscoasa.CiscoASA(asa, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if xacl: fw = ciscoxr.CiscoXR(xacl, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if ipt: fw = iptables.Iptables(ipt, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if ips: fw = ipset.Ipset(ips, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if pf: fw = packetfilter.PacketFilter(pf, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if spd: fw = speedway.Speedway(spd, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if srx: fw = junipersrx.JuniperSRX(srx, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 if dem: fw = demo.Demo(dem, exp_info) do_output_filter(str(fw), filter_name(source_file, fw._SUFFIX)) count += 1 return count
def testBadProtoError(self): self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + BAD_PROTO_TERM, self.naming), EXP_INFO) self.assertRaises(packetfilter.UnsupportedProtoError, str, acl)
def testBadFlags(self): self.mox.ReplayAll() acl = packetfilter.PacketFilter( policy.ParsePolicy(GOOD_HEADER + TCP_BAD_ESTABLISHED_TERM, self.naming), EXP_INFO) self.assertRaises(aclgenerator.UnsupportedFilterError, str, acl)