def create_networks(fmc, network_list):
"""Create Networks Objects"""
for net in network_list:
if "name" in net and "value" in net:
netaddr = fmcapi.Networks(fmc=fmc,
name=net["name"],
value=net["value"])
netaddr.post()
def test__ipv4staticroutes(fmc):
logging.info(
"Testing IPv4StaticRoutes class. get, post, put, delete IPv4StaticRoute Objects. Requires a registered device"
)
starttime = str(int(time.time()))
namer = f"_fmcapi_test_{starttime}"
iphost1 = fmcapi.Hosts(fmc=fmc,
name="_iphost1" + namer,
value="10.254.0.1")
iphost1.post()
ipnet1 = fmcapi.Networks(fmc=fmc,
name="_ipnet1" + namer,
value="192.0.2.0/25")
ipnet2 = fmcapi.Networks(fmc=fmc,
name="_ipnet2" + namer,
value="192.0.2.128/25")
ipnet1.post()
ipnet2.post()
ipv4route1 = fmcapi.IPv4StaticRoutes(fmc=fmc, name="_ipv4route1")
ipv4route1.device(device_name="ftdv01.ccie.lab")
ipv4route1.networks(action="add", networks=[ipnet1.name, ipnet2.name])
ipv4route1.gw(name=iphost1.name)
ipv4route1.interfaceName = "ifname"
ipv4route1.metricValue = 1
result = ipv4route1.post()
ipv4route2 = fmcapi.IPv4StaticRoutes(fmc=fmc, name="_ipv4route1")
ipv4route2.device(device_name="device_name")
ipv4route2.id = result["id"]
ipv4route2.get()
del ipv4route1
ipv4route2.networks(action="remove", networks=[ipnet2.name])
ipv4route2.put()
ipv4route2.delete()
ipnet1.delete()
ipnet2.delete()
iphost1.delete()
logging.info("Testing IPv4StaticRoutes class done.\n")
def test__ip_network(fmc):
logging.info("Test IPNetwork. Post, get, put, delete Network Objects.")
starttime = str(int(time.time()))
namer = f"_fmcapi_test_{starttime}"
obj1 = fmcapi.Networks(fmc=fmc)
obj1.name = namer
obj1.value = "8.8.8.0/24"
obj1.post()
time.sleep(1)
del obj1
obj1 = fmcapi.Networks(fmc=fmc, name=namer)
obj1.get()
obj1.value = "9.9.9.0/24"
obj1.put()
time.sleep(1)
obj1.delete()
logging.info("Test IPNetwork done.\n")
def main():
"""
The FTD device already has 100.127.100.15 on its management interface and the command 'configure network manager
100.64.0.155 cisco123' has already been manually typed on the FTD's CLI.
"""
with fmcapi.FMC(host='100.64.0.166',
username='******',
password='******',
autodeploy=True) as fmc1:
# Create Security Zones
sz1 = fmcapi.SecurityZones(fmc=fmc1)
sz1.name = 'Restricted'
sz1.post()
sz2 = fmcapi.SecurityZones(fmc=fmc1)
sz2.name = 'Outside'
sz2.post()
# Create Objects
border1 = fmcapi.NetworkAddresses(fmc=fmc1,
name='Border-1',
value='100.126.1.13')
border1.post()
finance = fmcapi.NetworkAddresses(fmc=fmc1,
name='finance.dcloud.cisco.com',
value='100.64.0.134')
finance.post()
pci = fmcapi.NetworkAddresses(fmc=fmc1,
name='pci.dcloud.cisco.com',
value='100.64.0.133')
pci.post()
ftd_border1_net = fmcapi.Networks(fmc=fmc1,
name='FTD-Border1-net',
value='100.126.1.12/30')
ftd_border1_net.post()
restricted_vn_net = fmcapi.Networks(fmc=fmc1,
name='Restricted-VN-net',
value='100.110.0.0/16')
restricted_vn_net.post()
# Create ACPs
acp1 = fmcapi.AccessPolicies(
fmc=fmc1,
name='Restricted-VN-Initial-Policy',
defaultAction='NETWORK_DISCOVERY',
)
acp1.post()
acp2 = fmcapi.AccessPolicies(
fmc=fmc1,
name='Restricted-VN-RTC-Policy',
defaultAction='NETWORK_DISCOVERY',
)
acp2.post()
# Create ACP Rules for the ACPs
initial_rule1 = fmcapi.AccessRules(fmc=fmc1,
acp_name=acp1.name,
name='Permit-ANY')
initial_rule1.logBegin = True
initial_rule1.logEnd = True
initial_rule1.action = 'ALLOW'
initial_rule1.post()
rapid_threat_rule1 = fmcapi.AccessRules(fmc=fmc1,
acp_name=acp2.name,
name='PCIUsers-to-sources')
rapid_threat_rule1.source_network(action='add',
name=restricted_vn_net.name)
rapid_threat_rule1.destination_port(action='add', name='HTTP')
# rapid_threat_rule1.isesgt(name='PCI_user')
rapid_threat_rule1.logBegin = True
rapid_threat_rule1.logEnd = True
rapid_threat_rule1.intrusion_policy(action='add',
name='Restricted-VN-IPS-Policy')
rapid_threat_rule1.action = 'ALLOW'
rapid_threat_rule1.enabled = True
rapid_threat_rule1.post()
rapid_threat_rule2 = fmcapi.AccessRules(
fmc=fmc1, acp_name=acp2.name, name='FinanceUsers2PCIResource')
rapid_threat_rule2.source_network(action='add',
name=restricted_vn_net.name)
rapid_threat_rule2.destination_network(action='add', name=finance.name)
rapid_threat_rule2.destination_port(action='add', name='HTTP')
# rapid_threat_rule2.isesgt(name='PCI_user')
# rapid_threat_rule2.isesgt(name='finance_user')
rapid_threat_rule2.logBegin = True
rapid_threat_rule2.logEnd = True
rapid_threat_rule2.intrusion_policy(action='add',
name='Restricted-VN-IPS-Policy')
rapid_threat_rule2.action = 'ALLOW'
rapid_threat_rule2.enabled = True
rapid_threat_rule2.post()
rapid_threat_rule3 = fmcapi.AccessRules(
fmc=fmc1, acp_name=acp2.name, name='DenyUnauthenticatedUsers')
rapid_threat_rule3.source_network(action='add',
name=restricted_vn_net.name)
rapid_threat_rule3.destination_network(action='add', name=finance.name)
rapid_threat_rule3.destination_network(action='add', name=pci.name)
rapid_threat_rule3.destination_port(action='add', name='HTTP')
rapid_threat_rule3.logBegin = True
rapid_threat_rule3.action = 'BLOCK'
rapid_threat_rule3.enabled = True
rapid_threat_rule3.post()
rapid_threat_rule4 = fmcapi.AccessRules(fmc=fmc1,
acp_name=acp2.name,
name='Permit-ANY')
rapid_threat_rule4.source_network(action='add', name='ipv4-any')
rapid_threat_rule4.destination_network(action='add', name='ipv4-any')
rapid_threat_rule4.action = 'ALLOW'
rapid_threat_rule4.enabled = True
rapid_threat_rule4.post()
# Add FTD device to FMC
ftd1 = fmcapi.DeviceRecords(fmc=fmc1)
ftd1.hostName = '100.127.100.15'
ftd1.regKey = 'C1sco12345'
ftd1.acp(name='Restricted-VN-Initial-Policy')
ftd1.name = 'FTD'
ftd1.licensing(action='add', name='MALWARE')
ftd1.licensing(action='add', name='VPN')
ftd1.licensing(action='add', name='BASE')
ftd1.licensing(action='add', name='THREAT')
ftd1.licensing(action='add', name='URL')
# Push to FMC to start device registration.
ftd1.post(post_wait_time=300)
# Once registration is complete configure the interfaces of ftd.
int101 = fmcapi.PhysicalInterfaces(fmc=fmc1, device_name=ftd1.name)
int101.get(name='GigabitEthernet0/0')
int101.enabled = True
int101.ifname = 'FTD-to-Fusion'
int101.sz(name=sz2.name)
int101.static(ipv4addr='100.127.101.254', ipv4mask=24)
int101.put()
int3004 = fmcapi.PhysicalInterfaces(fmc=fmc1, device_name=ftd1.name)
int3004.get(name='GigabitEthernet0/1')
int3004.enabled = True
int3004.ifname = 'FTD-to-Border1'
int3004.sz(name=sz1.name)
int3004.static(ipv4addr='100.126.1.14', ipv4mask=30)
int3004.put()
def main():
"""
The hq-ftd device already has 10.0.0.254 on its manage interface and the command 'configure network manager
10.0.0.10 cisco123' has already been manually typed on the FTD's CLI.
"""
# ### Set these variables to match your environment. ### #
host = "10.0.0.10"
username = "******"
password = "******"
with fmcapi.FMC(
host=host,
username=username,
password=password,
autodeploy=True,
file_logging="hq-ftd.log",
) as fmc1:
# Create an ACP
acp = fmcapi.AccessPolicies(fmc=fmc1, name="ACP Policy")
acp.defaultAction = "BLOCK"
# I intentionally put a "space" in the ACP name to show that fmcapi will "fix" that for you.
acp.post()
# Create Security Zones
sz_inside = fmcapi.SecurityZones(fmc=fmc1,
name="inside",
interfaceMode="ROUTED")
sz_inside.post()
sz_outside = fmcapi.SecurityZones(fmc=fmc1,
name="outside",
interfaceMode="ROUTED")
sz_outside.post()
sz_dmz = fmcapi.SecurityZones(fmc=fmc1,
name="dmz",
interfaceMode="ROUTED")
sz_dmz.post()
# Create Network Objects
hq_dfgw_gateway = fmcapi.Hosts(fmc=fmc1,
name="hq-default-gateway",
value="100.64.0.1")
hq_dfgw_gateway.post()
hq_lan = fmcapi.Networks(fmc=fmc1, name="hq-lan", value="10.0.0.0/24")
hq_lan.post()
all_lans = fmcapi.Networks(fmc=fmc1,
name="all-lans",
value="10.0.0.0/8")
all_lans.post()
hq_fmc = fmcapi.Hosts(fmc=fmc1, name="hq_fmc", value="10.0.0.10")
hq_fmc.post()
fmc_public = fmcapi.Hosts(fmc=fmc1,
name="fmc_public_ip",
value="100.64.0.10")
fmc_public.post()
# Create ACP Rule to permit hq_lan traffic inside to outside.
hq_acprule = fmcapi.AccessRules(
fmc=fmc1,
acp_name=acp.name,
name="Permit HQ LAN",
action="ALLOW",
enabled=True,
)
hq_acprule.source_zone(action="add", name=sz_inside.name)
hq_acprule.destination_zone(action="add", name=sz_outside.name)
hq_acprule.source_network(action="add", name=hq_lan.name)
hq_acprule.destination_network(action="add", name="any-ipv4")
# hq_acprule.logBegin = True
# hq_acprule.logEnd = True
hq_acprule.post()
# Build NAT Policy
nat = fmcapi.FTDNatPolicies(fmc=fmc1, name="NAT Policy")
nat.post()
# Build NAT Rule to NAT all_lans to interface outside
autonat = fmcapi.AutoNatRules(fmc=fmc1)
autonat.natType = "DYNAMIC"
autonat.interfaceInTranslatedNetwork = True
autonat.original_network(all_lans.name)
autonat.source_intf(name=sz_inside.name)
autonat.destination_intf(name=sz_outside.name)
autonat.nat_policy(name=nat.name)
autonat.post()
# Build NAT Rule to allow inbound traffic to FMC (Branches need to register to FMC.)
fmc_nat = fmcapi.ManualNatRules(fmc=fmc1)
fmc_nat.natType = "STATIC"
fmc_nat.original_source(hq_fmc.name)
fmc_nat.translated_source(fmc_public.name)
fmc_nat.source_intf(name=sz_inside.name)
fmc_nat.destination_intf(name=sz_outside.name)
fmc_nat.nat_policy(name=nat.name)
fmc_nat.enabled = True
fmc_nat.post()
# Add hq-ftd device to FMC
hq_ftd = fmcapi.DeviceRecords(fmc=fmc1)
# Minimum things set.
hq_ftd.hostName = "10.0.0.254"
hq_ftd.regKey = "cisco123"
hq_ftd.acp(name=acp.name)
# Other stuff I want set.
hq_ftd.name = "hq-ftd"
hq_ftd.licensing(action="add", name="MALWARE")
hq_ftd.licensing(action="add", name="VPN")
hq_ftd.licensing(action="add", name="BASE")
hq_ftd.licensing(action="add", name="THREAT")
hq_ftd.licensing(action="add", name="URLFilter")
# Push to FMC to start device registration.
hq_ftd.post(post_wait_time=300)
# Once registration is complete configure the interfaces of hq-ftd.
hq_ftd_g00 = fmcapi.PhysicalInterfaces(fmc=fmc1,
device_name=hq_ftd.name)
hq_ftd_g00.get(name="GigabitEthernet0/0")
hq_ftd_g00.enabled = True
hq_ftd_g00.ifname = "IN"
hq_ftd_g00.static(ipv4addr="10.0.0.1", ipv4mask=24)
hq_ftd_g00.sz(name="inside")
hq_ftd_g00.put()
hq_ftd_g01 = fmcapi.PhysicalInterfaces(fmc=fmc1,
device_name=hq_ftd.name)
hq_ftd_g01.get(name="GigabitEthernet0/1")
hq_ftd_g01.enabled = True
hq_ftd_g01.ifname = "OUT"
hq_ftd_g01.static(ipv4addr="100.64.0.200", ipv4mask=24)
hq_ftd_g01.sz(name="outside")
hq_ftd_g01.put()
# Build static default route for HQ FTD
hq_default_route = fmcapi.IPv4StaticRoutes(fmc=fmc1,
name="hq_default_route")
hq_default_route.device(device_name=hq_ftd.name)
hq_default_route.networks(action="add", networks=["any-ipv4"])
hq_default_route.gw(name=hq_dfgw_gateway.name)
hq_default_route.interfaceName = hq_ftd_g01.ifname
hq_default_route.metricValue = 1
hq_default_route.post()
# Associate NAT policy with HQ FTD device.
devices = [{"name": hq_ftd.name, "type": "device"}]
assign_nat_policy = fmcapi.PolicyAssignments(fmc=fmc1)
assign_nat_policy.ftd_natpolicy(name=nat.name, devices=devices)
assign_nat_policy.post()
def test__ftds2svpns(fmc):
logging.info(
"Testing FTDS2SVPNs class. Requires at least one registered device.")
starttime = str(int(time.time()))
namer = f"_fmcapi_test_{starttime}"
# Create a Site2Site VPN Policy
vpnpol1 = fmcapi.FTDS2SVPNs(fmc=fmc, name=namer)
vpnpol1.topologyType = "POINT_TO_POINT"
vpnpol1.ikeV1Enabled = True
vpnpol1.ikeV2Enabled = False
vpnpol1.post()
vpnpol1.get()
# Create some network objects for the encryption domains
obj1 = fmcapi.Networks(fmc=fmc)
obj1.name = "_net1_site1"
obj1.value = "10.255.0.0/24"
obj1.post()
time.sleep(1)
obj2 = fmcapi.Networks(fmc=fmc)
obj2.name = "_net2_site1"
obj2.value = "10.255.1.0/24"
obj2.post()
time.sleep(1)
obj3 = fmcapi.Networks(fmc=fmc)
obj3.name = "_net1_site2"
obj3.value = "10.255.2.0/24"
obj3.post()
time.sleep(1)
# Create Phase 1 settings
# There is no way to search by name, so we just find the iksettings object inside the vpn policy
ike1_json = fmcapi.IKESettings(fmc=fmc)
ike1_json.vpn_policy(pol_name=namer)
items = ike1_json.get()["items"][0]
ike1 = fmcapi.IKESettings(fmc=fmc)
ike1.vpn_policy(pol_name=namer)
ike1.id = items["id"]
ike1.get()
ike1.ike_policy(pol_name="preshared_sha_aes192_dh5_10")
ike1.put()
# Create Phase 2 settings
# There is no way to search by name, so we just find the ipsecsettings object inside the vpn policy
ipsec1_json = fmcapi.IPSecSettings(fmc=fmc)
ipsec1_json.vpn_policy(pol_name=namer)
items = ipsec1_json.get()["items"][0]
ipsec1 = fmcapi.IPSecSettings(fmc=fmc)
ipsec1.vpn_policy(pol_name=namer)
ipsec1.id = items["id"]
ipsec1.get()
ipsec1.ipsec_policy(pol_name="tunnel_aes256_sha")
ipsec1.put()
# Add vpn peers
# FTD in HA mode should use the name of logical HA device
endp1 = fmcapi.Endpoints(fmc=fmc)
endp1.peerType = "PEER"
endp1.connectionType = "BIDIRECTIONAL"
endp1.vpn_policy(pol_name=namer)
endp1.endpoint(action="add", device_name="_ha_name")
endp1.vpn_interface(device_name="_ha_name", ifname="OUTSIDE1")
endp1.encryption_domain(action="add", names=["_net1_site1", "_net2_site1"])
endp2 = fmcapi.Endpoints(fmc=fmc)
endp2.peerType = "PEER"
endp2.connectionType = "BIDIRECTIONAL"
endp2.vpn_policy(pol_name=namer)
endp2.endpoint(action="add", device_name="_device_name")
endp2.vpn_interface(device_name="device_name", ifname="OUTSIDE1")
endp2.encryption_domain(action="add", names=["_net1_site2"])
endp1.post()
endp2.post()
time.sleep(30)
vpnpol1.delete()
obj1.delete()
obj2.delete()
obj3.delete()
def test__acp_rule(fmc):
logging.info(
"In preparation for testing ACPRule methods, set up some known objects in the FMC."
)
starttime = str(int(time.time()))
namer = f"_fmcapi_test_{starttime}"
# Build an IP host object
iphost1 = fmcapi.Hosts(fmc=fmc, name="_iphost1", value="7.7.7.7")
iphost1.post()
# Build an IP Network object
ipnet1 = fmcapi.Networks(fmc=fmc, name="_ipnet1", value="1.2.3.0/24")
ipnet1.post()
# Build an IP range object
iprange1 = fmcapi.Ranges(fmc=fmc,
name="_iprange1",
value="6.6.6.6-7.7.7.7")
iprange1.post()
# Build a Network Group object
ipnet2 = fmcapi.Networks(fmc=fmc, name="_ipnet2", value="5.5.5.0/24")
ipnet2.post()
time.sleep(1)
# Build an FQDNS object
fqdns1 = fmcapi.FQDNS(fmc=fmc, name="_fqdns1", value="www.cisco.com")
fqdns1.post()
obj1 = fmcapi.NetworkGroups(fmc=fmc, name="_fmcapi_test_networkgroup")
obj1.named_networks(action="add", name=ipnet2.name)
obj1.unnamed_networks(action="add", value="4.4.4.4/32")
obj1.post()
# Build a URL object
url1 = fmcapi.URLs(fmc=fmc, name="_url1", url="asdf.org")
url1.post()
url1.get()
# lists = [{"type": url1.type, "id": url1.id, "name": url1.name}]
# Build a VLAN Tag object
vlantag1 = fmcapi.VlanTags(fmc=fmc,
name="_vlantag1",
data={
"startTag": "888",
"endTag": "999"
})
vlantag1.post()
# Build a Port object
pport1 = fmcapi.ProtocolPortObjects(fmc=fmc,
name="_pport1",
port="9090",
protocol="UDP")
pport1.post()
# Build a Port Group Object
obj10 = fmcapi.ProtocolPortObjects(fmc=fmc,
name="_porttcp1",
port="8443",
protocol="TCP")
obj10.post()
obj11 = fmcapi.ProtocolPortObjects(fmc=fmc,
name="_portudp1",
port="161",
protocol="UDP")
obj11.post()
obj12 = fmcapi.ProtocolPortObjects(fmc=fmc,
name="_portrangetcp1",
port="0-1023",
protocol="TCP")
obj12.post()
obj2 = fmcapi.PortObjectGroups(fmc=fmc,
name="_fmcapi_test_portobjectgroup")
obj2.named_ports(action="add", name=obj10.name)
obj2.named_ports(action="add", name=obj11.name)
obj2.named_ports(action="add", name=obj12.name)
obj2.post()
# Build a Security Zone object
sz1 = fmcapi.SecurityZones(fmc=fmc, name="_sz1", interfaceMode="ROUTED")
sz1.post()
# Build an ACP Object
acp1 = fmcapi.AccessPolicies(fmc=fmc, name=namer)
acp1.post()
# Get a file_policy
# fp = fmcapi.FilePolicies(fmc=fmc1, name='daxm_test')
time.sleep(1)
logging.info("Setup of objects for ACPRule test done.\n")
logging.info(
"Test ACPRule. Try to test all features of all methods of the ACPRule class."
)
acprule1 = fmcapi.AccessRules(fmc=fmc, acp_name=acp1.name)
acprule1.name = namer
acprule1.action = "ALLOW"
acprule1.enabled = False
acprule1.sendEventsToFMC = True
acprule1.logFiles = False
acprule1.logBegin = True
acprule1.logEnd = True
acprule1.variable_set(action="set", name="Default-Set")
acprule1.source_zone(action="add", name=sz1.name)
acprule1.destination_zone(action="add", name=sz1.name)
acprule1.intrusion_policy(action="set", name="Security Over Connectivity")
acprule1.vlan_tags(action="add", name=vlantag1.name)
acprule1.source_port(action="add", name=pport1.name)
acprule1.destination_port(action="add", name=pport1.name)
acprule1.destination_port(action="add", name=obj2.name)
acprule1.source_network(action="add", name=iphost1.name)
acprule1.source_network(action="add", name=obj1.name)
acprule1.source_network(action="add", name=iprange1.name)
acprule1.destination_network(action="add", name=ipnet1.name)
acprule1.destination_network(action="add", name=iprange1.name)
acprule1.destination_network(action="add", name=fqdns1.name)
# acprule1.urls(name=url1.name)
# acprule1.file_policy(action='set', name=fp.name)
acprule1.post()
logging.info("Test ACPRule done.\n")
logging.info("Cleanup of testing ACPRule methods.")
acprule1.delete()
time.sleep(1)
acp1.delete()
iphost1.delete()
ipnet1.delete()
iprange1.delete()
fqdns1.delete()
obj1.delete()
ipnet2.delete()
url1.delete()
vlantag1.delete()
pport1.delete()
sz1.delete()
obj2.delete()
obj10.delete()
obj11.delete()
obj12.delete()
logging.info("Cleanup of objects for ACPRule test done.\n")
def test__autonat(fmc):
logging.info("Testing AutoNatPolicy class.")
starttime = str(int(time.time()))
namer = f"_fmcapi_test_{starttime}"
# Create a container policy for FTD NAT rules
natpol1 = fmcapi.FTDNatPolicies(fmc=fmc, name=namer)
natpol1.post()
natpol1.get()
# Create original and translate objects
obj1 = fmcapi.Networks(fmc=fmc)
obj1.name = "_net_original"
obj1.value = "10.0.0.0/8"
obj1.post()
time.sleep(1)
obj2 = fmcapi.Hosts(fmc=fmc)
obj2.name = "_net_xlate"
obj2.value = "192.0.2.1"
obj2.post()
time.sleep(1)
# Create identity nat object
obj3 = fmcapi.Networks(fmc=fmc)
obj3.name = "_net_identity"
obj3.value = "192.168.0.0/24"
obj3.post()
time.sleep(1)
# Create nat pool objects
obj4 = fmcapi.Networks(fmc=fmc)
obj4.name = "_net_original_pool"
obj4.value = "172.16.0.0/24"
obj4.post()
time.sleep(1)
# PAT Pool must be a range, not a subnet
obj5 = fmcapi.Ranges(fmc=fmc)
obj5.name = "_net_xlate_pool"
obj5.value = "192.0.2.128-192.0.2.254"
obj5.post()
time.sleep(1)
# Create interface PAT object
obj6 = fmcapi.Networks(fmc=fmc)
obj6.name = "_net_original_intf"
obj6.value = "192.168.1.0/24"
obj6.post()
time.sleep(1)
# Create Security Zones
sz1 = fmcapi.SecurityZones(fmc=fmc, name="IG-INSIDE")
sz1.post()
sz2 = fmcapi.SecurityZones(fmc=fmc, name="SZ-OUTSIDE1")
sz2.post()
# Autonat a network object to a host
autonat1 = fmcapi.AutoNatRules(fmc=fmc)
autonat1.original_network(name="_net_original")
autonat1.translated_network(name="_net_xlate")
autonat1.natType = "STATIC"
# Source and destination interface can be either an interface group or security zone
autonat1.source_intf(name="IG-INSIDE")
autonat1.destination_intf(name="SZ-OUTSIDE1")
autonat1.nat_policy(name=namer)
# Autonat identity nat
autonat2 = fmcapi.AutoNatRules(fmc=fmc)
autonat2.identity_nat(name="_net_identity")
autonat2.source_intf(name="IG-INSIDE")
autonat2.destination_intf(name="SZ-OUTSIDE1")
autonat2.nat_policy(name=namer)
# Autonat nat pool
autonat3 = fmcapi.AutoNatRules(fmc=fmc)
autonat3.original_network(name="_net_original_pool")
autonat3.patPool(name="_net_xlate_pool")
autonat3.source_intf(name="IG-INSIDE")
autonat3.destination_intf(name="SZ-OUTSIDE1")
autonat3.nat_policy(name=namer)
# Autonat interface PAT
autonat4 = fmcapi.AutoNatRules(fmc=fmc)
autonat4.original_network(name="_net_original_intf")
autonat4.natType = "DYNAMIC"
autonat4.source_intf(name="IG-INSIDE")
autonat4.destination_intf(name="SZ-OUTSIDE1")
autonat4.nat_policy(name=namer)
autonat4.interfaceInTranslatedNetwork = True
autonat1.post()
autonat2.post()
autonat3.post()
autonat4.post()
"""
# Associate a nat policy to a device
# Do not uncomment if you do not have a device registered to FMC
# Use name of device or deviceHAPair as applicable
pol_devices = [{"name": "deviceHAName", "type": "deviceHAPair"}]
assign1 = fmcapi.PolicyAssignments(fmc=fmc)
assign1.ftd_natpolicy(name=namer, devices=pol_devices)
assign1.post()
assign1.ftd_natpolicy(name=namer, devices=[])
assign1.put()
"""
natpol1.delete()
obj1.delete()
obj2.delete()
obj3.delete()
obj4.delete()
obj5.delete()
obj6.delete()
sz1.delete()
sz2.delete()
def test__manualnat(fmc):
logging.info("Testing ManualNatRules class.")
starttime = str(int(time.time()))
namer = f"_fmcapi_test_{starttime}"
# Create a container policy for FTD NAT rules
natpol1 = fmcapi.FTDNatPolicies(fmc=fmc, name=namer)
natpol1.post()
natpol1.get()
# Create original and translate objects
obj1 = fmcapi.Networks(fmc=fmc)
obj1.name = "_net_original"
obj1.value = "10.0.0.0/8"
obj1.post()
time.sleep(1)
obj2 = fmcapi.Hosts(fmc=fmc)
obj2.name = "_net_xlate"
obj2.value = "192.0.2.1"
obj2.post()
time.sleep(1)
# Create identity nat object
obj3 = fmcapi.Networks(fmc=fmc)
obj3.name = "_net_identity"
obj3.value = "192.168.0.0/24"
obj3.post()
time.sleep(1)
# Create nat pool objects
obj4 = fmcapi.Networks(fmc=fmc)
obj4.name = "_net_original_pool"
obj4.value = "172.16.0.0/24"
obj4.post()
time.sleep(1)
# PAT Pool must be a range, not a subnet
obj5 = fmcapi.Ranges(fmc=fmc)
obj5.name = "_net_xlate_pool"
obj5.value = "192.0.2.128-192.0.2.254"
obj5.post()
time.sleep(1)
# Create interface PAT object
obj6 = fmcapi.Networks(fmc=fmc)
obj6.name = "_net_original_intf"
obj6.value = "192.168.1.0/24"
obj6.post()
# Create NAT divert objects
obj7 = fmcapi.Hosts(fmc=fmc)
obj7.name = "_net_source_divert"
obj7.value = "172.30.1.1"
obj7.post()
time.sleep(1)
obj8 = fmcapi.Hosts(fmc=fmc)
obj8.name = "_net_destination_divert"
obj8.value = "4.2.2.2"
obj8.post()
time.sleep(1)
# Create port-based NAT objects
obj9 = fmcapi.Hosts(fmc=fmc)
obj9.name = "_net_source_portbased"
obj9.value = "172.30.1.2"
obj9.post()
time.sleep(1)
obj10 = fmcapi.Hosts(fmc=fmc)
obj10.name = "_net_xlate_portbased"
obj10.value = "192.0.2.254"
obj10.post()
time.sleep(1)
obj11 = fmcapi.ProtocolPortObjects(fmc=fmc)
obj11.name = "_port_original"
obj11.protocol = "TCP"
obj11.port = "443"
obj11.post()
time.sleep(1)
obj12 = fmcapi.ProtocolPortObjects(fmc=fmc)
obj12.name = "_port_xlate"
obj12.protocol = "TCP"
obj12.port = "8443"
obj12.post()
time.sleep(1)
# Create Security Zones
sz1 = fmcapi.SecurityZones(fmc=fmc, name="IG-INSIDE")
sz1.post()
sz2 = fmcapi.SecurityZones(fmc=fmc, name="SZ-OUTSIDE1")
sz2.post()
# Manualnat a network object to a host
manualnat1 = fmcapi.ManualNatRules(fmc=fmc)
manualnat1.original_source(name="_net_original")
manualnat1.translated_source(name="_net_xlate")
manualnat1.natType = "STATIC"
# Source and destination interface can be either an interface group or security zone
manualnat1.source_intf(name="IG-INSIDE")
manualnat1.destination_intf(name="SZ-OUTSIDE1")
manualnat1.enabled = True
manualnat1.nat_policy(name=namer)
# Manualnat identity nat
manualnat2 = fmcapi.ManualNatRules(fmc=fmc)
manualnat2.identity_nat(name="_net_identity")
manualnat2.source_intf(name="IG-INSIDE")
manualnat2.destination_intf(name="SZ-OUTSIDE1")
manualnat2.enabled = True
manualnat2.nat_policy(name=namer)
# Manualnat nat pool
manualnat3 = fmcapi.ManualNatRules(fmc=fmc)
manualnat3.original_source(name="_net_original_pool")
manualnat3.patPool(name="_net_xlate_pool")
manualnat3.source_intf(name="IG-INSIDE")
manualnat3.destination_intf(name="SZ-OUTSIDE1")
manualnat3.enabled = True
manualnat3.nat_policy(name=namer)
# Manualnat interface PAT
manualnat4 = fmcapi.ManualNatRules(fmc=fmc)
manualnat4.original_source(name="_net_original_intf")
manualnat4.natType = "DYNAMIC"
manualnat4.unidirectional = True
manualnat4.source_intf(name="IG-INSIDE")
manualnat4.destination_intf(name="SZ-OUTSIDE1")
manualnat4.nat_policy(name=namer)
manualnat4.enabled = True
manualnat4.interfaceInTranslatedSource = True
# Manualnat divert
manualnat5 = fmcapi.ManualNatRules(fmc=fmc)
manualnat5.identity_nat(name="_net_source_divert")
manualnat5.original_destination(name="_net_destination_divert")
manualnat5.source_intf(name="IG-INSIDE")
manualnat5.destination_intf(name="SZ-OUTSIDE1")
manualnat5.enabled = True
manualnat5.nat_policy(name=namer)
# Manualnat port-based
manualnat6 = fmcapi.ManualNatRules(fmc=fmc)
manualnat6.original_source(name="_net_source_portbased")
manualnat6.original_source_port(name="_port_original")
manualnat6.translated_source(name="_net_xlate_portbased")
manualnat6.translated_source_port(name="_port_xlate")
manualnat6.natType = "STATIC"
manualnat6.source_intf(name="IG-INSIDE")
manualnat6.destination_intf(name="SZ-OUTSIDE1")
manualnat6.enabled = True
manualnat6.nat_policy(name=namer)
manualnat1.post()
manualnat2.post()
manualnat3.post()
manualnat4.post()
manualnat5.post()
manualnat6.post()
"""
# Associate a nat policy to a device
# Do not uncomment if you do not have a device registered to FPMC
# Use name of device or deviceHAPair as applicable
pol_devices = [{"name": "ftdv-HA", "type": "deviceHAPair"}]
assign1 = PolicyAssignments(fmc=fmc)
assign1.ftd_natpolicy(name=namer, devices=pol_devices)
assign1.post()
assign1.ftd_natpolicy(name=namer, devices=[])
assign1.put()
"""
logging.info("Cleanup of testing ManualNatRule methods.")
natpol1.delete()
obj1.delete()
obj2.delete()
obj3.delete()
obj4.delete()
obj5.delete()
obj6.delete()
obj7.delete()
obj8.delete()
obj9.delete()
obj10.delete()
obj11.delete()
obj12.delete()
sz1.delete()
sz2.delete()
