# Copyright (c) 2020 Cisco and/or its affiliates. # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at: # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """IPsec utilities library.""" import os from enum import Enum, IntEnum from io import open from random import choice from string import ascii_letters from ipaddress import ip_network, ip_address from resources.libraries.python.Constants import Constants from resources.libraries.python.InterfaceUtil import InterfaceUtil, \ InterfaceStatusFlags from resources.libraries.python.IPAddress import IPAddress from resources.libraries.python.IPUtil import IPUtil, IpDscp, MPLS_LABEL_INVALID from resources.libraries.python.PapiExecutor import PapiSocketExecutor from resources.libraries.python.ssh import scp_node from resources.libraries.python.topology import Topology from resources.libraries.python.VatExecutor import VatExecutor IPSEC_UDP_PORT_NONE = 0xffff def gen_key(length): """Generate random string as a key. :param length: Length of generated payload. :type length: int :returns: The generated payload. :rtype: bytes """ return u"".join( choice(ascii_letters) for _ in range(length) ).encode(encoding=u"utf-8") class PolicyAction(Enum): """Policy actions.""" BYPASS = (u"bypass", 0) DISCARD = (u"discard", 1) PROTECT = (u"protect", 3) def __init__(self, policy_name, policy_int_repr): self.policy_name = policy_name self.policy_int_repr = policy_int_repr class CryptoAlg(Enum): """Encryption algorithms.""" AES_CBC_128 = (u"aes-cbc-128", 1, u"AES-CBC", 16) AES_CBC_256 = (u"aes-cbc-256", 3, u"AES-CBC", 32) AES_GCM_128 = (u"aes-gcm-128", 7, u"AES-GCM", 16) AES_GCM_256 = (u"aes-gcm-256", 9, u"AES-GCM", 32) def __init__(self, alg_name, alg_int_repr, scapy_name, key_len): self.alg_name = alg_name self.alg_int_repr = alg_int_repr self.scapy_name = scapy_name self.key_len = key_len class IntegAlg(Enum): """Integrity algorithm.""" SHA_256_128 = (u"sha-256-128", 4, u"SHA2-256-128", 32) SHA_512_256 = (u"sha-512-256", 6, u"SHA2-512-256", 64) def __init__(self, alg_name, alg_int_repr, scapy_name, key_len): self.alg_name = alg_name self.alg_int_repr = alg_int_repr self.scapy_name = scapy_name self.key_len = key_len class IPsecProto(IntEnum): """IPsec protocol.""" IPSEC_API_PROTO_ESP = 50 IPSEC_API_PROTO_AH = 51 class IPsecSadFlags(IntEnum): """IPsec Security Association Database flags.""" IPSEC_API_SAD_FLAG_NONE = 0, # Enable extended sequence numbers IPSEC_API_SAD_FLAG_USE_ESN = 0x01, # Enable Anti - replay IPSEC_API_SAD_FLAG_USE_ANTI_REPLAY = 0x02, # IPsec tunnel mode if non-zero, else transport mode IPSEC_API_SAD_FLAG_IS_TUNNEL = 0x04, # IPsec tunnel mode is IPv6 if non-zero, else IPv4 tunnel # only valid if is_tunnel is non-zero IPSEC_API_SAD_FLAG_IS_TUNNEL_V6 = 0x08, # Enable UDP encapsulation for NAT traversal IPSEC_API_SAD_FLAG_UDP_ENCAP = 0x10, # IPsec SA is or inbound traffic IPSEC_API_SAD_FLAG_IS_INBOUND = 0x40 class TunnelEncpaDecapFlags(IntEnum): """Flags controlling tunnel behaviour.""" TUNNEL_API_ENCAP_DECAP_FLAG_NONE = 0 # at encap, copy the DF bit of the payload into the tunnel header TUNNEL_API_ENCAP_DECAP_FLAG_ENCAP_COPY_DF = 1 # at encap, set the DF bit in the tunnel header TUNNEL_API_ENCAP_DECAP_FLAG_ENCAP_SET_DF = 2 # at encap, copy the DSCP bits of the payload into the tunnel header TUNNEL_API_ENCAP_DECAP_FLAG_ENCAP_COPY_DSCP = 4 # at encap, copy the ECN bit of the payload into the tunnel header TUNNEL_API_ENCAP_DECAP_FLAG_ENCAP_COPY_ECN = 8 # at decap, copy the ECN bit of the tunnel header into the payload TUNNEL_API_ENCAP_DECAP_FLAG_ENCAP_SET_ECN = 16 class TunnelMode(IntEnum): """Tunnel modes.""" # point-to-point TUNNEL_API_MODE_P2P = 0 # multi-point TUNNEL_API_MODE_MP = 1 class IPsecUtil: """IPsec utilities.""" @staticmethod def policy_action_bypass(): """Return policy action bypass. :returns: PolicyAction enum BYPASS object. :rtype: PolicyAction """ return PolicyAction.BYPASS @staticmethod def policy_action_discard(): """Return policy action discard. :returns: PolicyAction enum DISCARD object. :rtype: PolicyAction """ return PolicyAction.DISCARD @staticmethod def policy_action_protect(): """Return policy action protect. :returns: PolicyAction enum PROTECT object. :rtype: PolicyAction """ return PolicyAction.PROTECT @staticmethod def crypto_alg_aes_cbc_128(): """Return encryption algorithm aes-cbc-128. :returns: CryptoAlg enum AES_CBC_128 object. :rtype: CryptoAlg """ return CryptoAlg.AES_CBC_128 @staticmethod def crypto_alg_aes_cbc_256(): """Return encryption algorithm aes-cbc-256. :returns: CryptoAlg enum AES_CBC_256 object. :rtype: CryptoAlg """ return CryptoAlg.AES_CBC_256 @staticmethod def crypto_alg_aes_gcm_128(): """Return encryption algorithm aes-gcm-128. :returns: CryptoAlg enum AES_GCM_128 object. :rtype: CryptoAlg """ return CryptoAlg.AES_GCM_128 @staticmethod def crypto_alg_aes_gcm_256(): """Return encryption algorithm aes-gcm-256. :returns: CryptoAlg enum AES_GCM_128 object. :rtype: CryptoAlg """ return CryptoAlg.AES_GCM_256 @staticmethod def get_crypto_alg_key_len(crypto_alg): """Return encryption algorithm key length. :param crypto_alg: Encryption algorithm. :type crypto_alg: CryptoAlg :returns: Key length. :rtype: int """ return crypto_alg.key_len @staticmethod def get_crypto_alg_scapy_name(crypto_alg): """Return encryption algorithm scapy name. :param crypto_alg: Encryption algorithm. :type crypto_alg: CryptoAlg :returns: Algorithm scapy name. :rtype: str """ return crypto_alg.scapy_name @staticmethod def integ_alg_sha_256_128(): """Return integrity algorithm SHA-256-128. :returns: IntegAlg enum SHA_256_128 object. :rtype: IntegAlg """ return IntegAlg.SHA_256_128 @staticmethod def integ_alg_sha_512_256(): """Return integrity algorithm SHA-512-256. :returns: IntegAlg enum SHA_512_256 object. :rtype: IntegAlg """ return IntegAlg.SHA_512_256 @staticmethod def get_integ_alg_key_len(integ_alg): """Return integrity algorithm key length. :param integ_alg: Integrity algorithm. :type integ_alg: IntegAlg :returns: Key length. :rtype: int """ return integ_alg.key_len @staticmethod def get_integ_alg_scapy_name(integ_alg): """Return integrity algorithm scapy name. :param integ_alg: Integrity algorithm. :type integ_alg: IntegAlg :returns: Algorithm scapy name. :rtype: str """ return integ_alg.scapy_name @staticmethod def ipsec_proto_esp(): """Return IPSec protocol ESP. :returns: IPsecProto enum ESP object. :rtype: IPsecProto """ return int(IPsecProto.IPSEC_API_PROTO_ESP) @staticmethod def ipsec_proto_ah(): """Return IPSec protocol AH. :returns: IPsecProto enum AH object. :rtype: IPsecProto """ return int(IPsecProto.IPSEC_API_PROTO_AH) @staticmethod def vpp_ipsec_select_backend(node, protocol, index=1): """Select IPsec backend. :param node: VPP node to select IPsec backend on. :param protocol: IPsec protocol. :param index: Backend index. :type node: dict :type protocol: IPsecProto :type index: int :raises RuntimeError: If failed to select IPsec backend or if no API reply received. """ cmd = u"ipsec_select_backend" err_msg = f"Failed to select IPsec backend on host {node[u'host']}" args = dict( protocol=protocol, index=index ) with PapiSocketExecutor(node) as papi_exec: papi_exec.add(cmd, **args).get_reply(err_msg) @staticmethod def vpp_ipsec_set_async_mode(node, async_enable=1): """Set IPsec async mode on|off. :param node: VPP node to set IPsec async mode. :param async_enable: Async mode on or off. :type node: dict :type async_enable: int :raises RuntimeError: If failed to set IPsec async mode or if no API reply received. """ cmd = u"ipsec_set_async_mode" err_msg = f"Failed to set IPsec async mode on host {node[u'host']}" args = dict( async_enable=async_enable ) with PapiSocketExecutor(node) as papi_exec: papi_exec.add(cmd, **args).get_reply(err_msg) @staticmethod def vpp_ipsec_add_sad_entry( node, sad_id, spi, crypto_alg, crypto_key, integ_alg=None, integ_key=u"", tunnel_src=None, tunnel_dst=None): """Create Security Association Database entry on the VPP node. :param node: VPP node to add SAD entry on. :param sad_id: SAD entry ID. :param spi: Security Parameter Index of this SAD entry. :param crypto_alg: The encryption algorithm name. :param crypto_key: The encryption key string. :param integ_alg: The integrity algorithm name. :param integ_key: The integrity key string. :param tunnel_src: Tunnel header source IPv4 or IPv6 address. If not specified ESP transport mode is used. :param tunnel_dst: Tunnel header destination IPv4 or IPv6 address. If not specified ESP transport mode is used. :type node: dict :type sad_id: int :type spi: int :type crypto_alg: CryptoAlg :type crypto_key: str :type integ_alg: IntegAlg :type integ_key: str :type tunnel_src: str :type tunnel_dst: str """ if isinstance(crypto_key, str): crypto_key = crypto_key.encode(encoding=u"utf-8") if isinstance(integ_key, str): integ_key = integ_key.encode(encoding=u"utf-8") ckey = dict( length=len(crypto_key), data=crypto_key ) ikey = dict( length=len(integ_key), data=integ_key if integ_key else 0 ) flags = int(IPsecSadFlags.IPSEC_API_SAD_FLAG_NONE) if tunnel_src and tunnel_dst: flags = flags | int(IPsecSadFlags.IPSEC_API_SAD_FLAG_IS_TUNNEL) src_addr = ip_address(tunnel_src) dst_addr = ip_address(tunnel_dst) if src_addr.version == 6: flags = \ flags | int(IPsecSadFlags.IPSEC_API_SAD_FLAG_IS_TUNNEL_V6) else: src_addr = u"" dst_addr = u"" cmd = u"ipsec_sad_entry_add_del" err_msg = f"Failed to add Security Association Database entry " \ f"on host {node[u'host']}" sad_entry = dict( sad_id=int(sad_id), spi=int(spi), crypto_algorithm=crypto_alg.alg_int_repr, crypto_key=ckey, integrity_algorithm=integ_alg.alg_int_repr if integ_alg else 0, integrity_key=ikey, flags=flags, tunnel_src=str(src_addr), tunnel_dst=str(dst_addr), protocol=int(IPsecProto.IPSEC_API_PROTO_ESP), udp_src_port=4500, # default value in api udp_dst_port=4500 # default value in api ) args = dict( is_add=True, entry=sad_entry ) with PapiSocketExecutor(node) as papi_exec: papi_exec.add(cmd, **args).get_reply(err_msg) @staticmethod def vpp_ipsec_add_sad_entries( node, n_entries, sad_id, spi, crypto_alg, crypto_key, integ_alg=None, integ_key=u"", tunnel_src=None, tunnel_dst=None): """Create multiple Security Association Database entries on VPP node. :param node: VPP node to add SAD entry on. :param n_entries: Number of SAD entries to be created. :param sad_id: First SAD entry ID. All subsequent SAD entries will have id incremented by 1. :param spi: Security Parameter Index of first SAD entry. All subsequent SAD entries will have spi incremented by 1. :param crypto_alg: The encryption algorithm name. :param crypto_key: The encryption key string. :param integ_alg: The integrity algorithm name. :param integ_key: The integrity key string. :param tunnel_src: Tunnel header source IPv4 or IPv6 address. If not specified ESP transport mode is used. :param tunnel_dst: Tunnel header destination IPv4 or IPv6 address. If not specified ESP transport mode is used. :type node: dict :type n_entries: int :type sad_id: int :type spi: int :type crypto_alg: CryptoAlg :type crypto_key: str :type integ_alg: IntegAlg :type integ_key: str :type tunnel_src: str :type tunnel_dst: str """ if isinstance(crypto_key, str): crypto_key = crypto_key.encode(encoding=u"utf-8") if isinstance(integ_key, str): integ_key = integ_key.encode(encoding=u"utf-8") if tunnel_src and tunnel_dst: src_addr = ip_address(tunnel_src) dst_addr = ip_address(tunnel_dst) else: src_addr = u"" dst_addr = u"" addr_incr = 1 << (128 - 96) if src_addr.version == 6 \ else 1 << (32 - 24) if int(n_entries) > 10: tmp_filename = f"/tmp/ipsec_sad_{sad_id}_add_del_entry.script" with open(tmp_filename, 'w') as tmp_file: for i in range(n_entries): integ = f"integ-alg {integ_alg.alg_name} " \ f"integ-key {integ_key.hex()}" \ if integ_alg else u"" tunnel = f"tunnel-src {src_addr + i * addr_incr} " \ f"tunnel-dst {dst_addr + i * addr_incr}" \ if tunnel_src and tunnel_dst else u"" conf = f"exec ipsec sa add {sad_id + i} esp spi {spi + i} "\ f"crypto-alg {crypto_alg.alg_name} " \ f"crypto-key {crypto_key.hex()} " \ f"{integ} {tunnel}\n" tmp_file.write(conf) vat = VatExecutor() vat.execute_script( tmp_filename, node, timeout=300, json_out=False, copy_on_execute=True ) os.remove(tmp_filename) return ckey = dict( length=len(crypto_key), data=crypto_key ) ikey = dict( length=len(integ_key), data=integ_key if integ_key else 0 ) flags = int(IPsecSadFlags.IPSEC_API_SAD_FLAG_NONE) if tunnel_src and tunnel_dst: flags = flags | int(IPsecSadFlags.IPSEC_API_SAD_FLAG_IS_TUNNEL) if src_addr.version == 6: flags = flags | int( IPsecSadFlags.IPSEC_API_SAD_FLAG_IS_TUNNEL_V6 ) cmd = u"ipsec_sad_entry_add_del" err_msg = f"Failed to add Security Association Database entry " \ f"on host {node[u'host']}" sad_entry = dict( sad_id=int(sad_id), spi=int(spi), crypto_algorithm=crypto_alg.alg_int_repr, crypto_key=ckey, integrity_algorithm=integ_alg.alg_int_repr if integ_alg else 0, integrity_key=ikey, flags=flags, tunnel_src=str(src_addr), tunnel_dst=str(dst_addr), protocol=int(IPsecProto.IPSEC_API_PROTO_ESP), udp_src_port=4500, # default value in api udp_dst_port=4500 # default value in api ) args = dict( is_add=True, entry=sad_entry ) with PapiSocketExecutor(node) as papi_exec: for i in range(n_entries): args[u"entry"][u"sad_id"] = int(sad_id) + i args[u"entry"][u"spi"] = int(spi) + i args[u"entry"][u"tunnel_src"] = str(src_addr + i * addr_incr) \ if tunnel_src and tunnel_dst else src_addr args[u"entry"][u"tunnel_dst"] = str(dst_addr + i * addr_incr) \ if tunnel_src and tunnel_dst else dst_addr history = bool(not 1 < i < n_entries - 2) papi_exec.add(cmd, history=history, **args) papi_exec.get_replies(err_msg) @staticmethod def vpp_ipsec_set_ip_route( node, n_tunnels, tunnel_src, traffic_addr, tunnel_dst, interface, raddr_range): """Set IP address and route on interface. :param node: VPP node to add config on. :param n_tunnels: Number of tunnels to create. :param tunnel_src: Tunnel header source IPv4 or IPv6 address. :param traffic_addr: Traffic destination IP address to route. :param tunnel_dst: Tunnel header destination IPv4 or IPv6 address. :param interface: Interface key on node 1. :param raddr_range: Mask specifying range of Policy selector Remote IP addresses. Valid values are from 1 to 32 in case of IPv4 and to 128 in case of IPv6. :type node: dict :type n_tunnels: int :type tunnel_src: str :type traffic_addr: str :type tunnel_dst: str :type interface: str :type raddr_range: int """ tunnel_src = ip_address(tunnel_src) tunnel_dst = ip_address(tunnel_dst) traffic_addr = ip_address(traffic_addr) addr_incr = 1 << (128 - raddr_range) if tunnel_src.version == 6 \ else 1 << (32 - raddr_range) if int(n_tunnels) > 10: tmp_filename = u"/tmp/ipsec_set_ip.script" with open(tmp_filename, 'w') as tmp_file: if_name = Topology.get_interface_name(node, interface) for i in range(n_tunnels): conf = f"exec set interface ip address {if_name} " \ f"{tunnel_src + i * addr_incr}/{raddr_range}\n" \ f"exec ip route add {traffic_addr + i}/" \ f"{128 if traffic_addr.version == 6 else 32} " \ f"via {tunnel_dst + i * addr_incr} {if_name}\n" tmp_file.write(conf) VatExecutor().execute_script( tmp_filename, node, timeout=300, json_out=False, copy_on_execute=True ) os.remove(tmp_filename) return cmd1 = u"sw_interface_add_del_address" args1 = dict( sw_if_index=InterfaceUtil.get_interface_index(node, interface), is_add=True, del_all=False, prefix=None ) cmd2 = u"ip_route_add_del" args2 = dict( is_add=1, is_multipath=0, route=None ) err_msg = f"Failed to configure IP addresses and IP routes " \ f"on interface {interface} on host {node[u'host']}" with PapiSocketExecutor(node) as papi_exec: for i in range(n_tunnels): args1[u"prefix"] = IPUtil.create_prefix_object( tunnel_src + i * addr_incr, raddr_range ) args2[u"route"] = IPUtil.compose_vpp_route_structure( node, traffic_addr + i, prefix_len=128 if traffic_addr.version == 6 else 32, interface=interface, gateway=tunnel_dst + i * addr_incr ) history = bool(not 1 < i < n_tunnels - 2) papi_exec.add(cmd1, history=history, **args1).\ add(cmd2, history=history, **args2) papi_exec.get_replies(err_msg) @staticmethod def vpp_ipsec_add_spd(node, spd_id): """Create Security Policy Database on the VPP node. :param node: VPP node to add SPD on. :param spd_id: SPD ID. :type node: dict :type spd_id: int """ cmd = u"ipsec_spd_add_del" err_msg = f"Failed to add Security Policy Database " \ f"on host {node[u'host']}" args = dict( is_add=True, spd_id=int(spd_id) ) with PapiSocketExecutor(node) as papi_exec: papi_exec.add(cmd, **args).get_reply(err_msg) @staticmethod def vpp_ipsec_spd_add_if(node, spd_id, interface): """Add interface to the Security Policy Database. :param node: VPP node. :param spd_id: SPD ID to add interface on. :param interface: Interface name or sw_if_index. :type node: dict :type spd_id: int :type interface: str or int """ cmd = u"ipsec_interface_add_del_spd" err_msg = f"Failed to add interface {interface} to Security Policy " \ f"Database {spd_id} on host {node[u'host']}" args = dict( is_add=True, sw_if_index=InterfaceUtil.get_interface_index(node, interface), spd_id=int(spd_id) ) with PapiSocketExecutor(node) as papi_exec: papi_exec.add(cmd, **args).get_reply(err_msg) @staticmethod def vpp_ipsec_policy_add( node, spd_id, priority, action, inbound=True, sa_id=None, laddr_range=None, raddr_range=None, proto=None, lport_range=None, rport_range=None, is_ipv6=False): """Create Security Policy Database entry on the VPP node. :param node: VPP node to add SPD entry on. :param spd_id: SPD ID to add entry on. :param priority: SPD entry priority, higher number = higher priority. :param action: Policy action. :param inbound: If True policy is for inbound traffic, otherwise outbound. :param sa_id: SAD entry ID for protect action. :param laddr_range: Policy selector local IPv4 or IPv6 address range in format IP/prefix or IP/mask. If no mask is provided, it's considered to be /32. :param raddr_range: Policy selector remote IPv4 or IPv6 address range in format IP/prefix or IP/mask. If no mask is provided, it's considered to be /32. :param proto: Policy selector next layer protocol number. :param lport_range: Policy selector local TCP/UDP port range in format -. :param rport_range: Policy selector remote TCP/UDP port range in format -. :param is_ipv6: True in case of IPv6 policy when IPv6 address range is not defined so it will default to address ::/0, otherwise False. :type node: dict :type spd_id: int :type priority: int :type action: PolicyAction :type inbound: bool :type sa_id: int :type laddr_range: string :type raddr_range: string :type proto: int :type lport_range: string :type rport_range: string :type is_ipv6: bool """ if laddr_range is None: laddr_range = u"::/0" if is_ipv6 else u"0.0.0.0/0" if raddr_range is None: raddr_range = u"::/0" if is_ipv6 else u"0.0.0.0/0" cmd = u"ipsec_spd_entry_add_del" err_msg = f"Failed to add entry to Security Policy Database {spd_id} " \ f"on host {node[u'host']}" spd_entry = dict( spd_id=int(spd_id), priority=int(priority), is_outbound=not inbound, sa_id=int(sa_id) if sa_id else 0, policy=action.policy_int_repr, protocol=int(proto) if proto else 0, remote_address_start=IPAddress.create_ip_address_object( ip_network(raddr_range, strict=False).network_address ), remote_address_stop=IPAddress.create_ip_address_object( ip_network(raddr_range, strict=False).broadcast_address ), local_address_start=IPAddress.create_ip_address_object( ip_network(laddr_range, strict=False).network_address ), local_address_stop=IPAddress.create_ip_address_object( ip_network(laddr_range, strict=False).broadcast_address ), remote_port_start=int(rport_range.split(u"-")[0]) if rport_range else 0, remote_port_stop=int(rport_range.split(u"-")[1]) if rport_range else 65535, local_port_start=int(lport_range.split(u"-")[0]) if lport_range else 0, local_port_stop=int(lport_range.split(u"-")[1]) if rport_range else 65535 ) args = dict( is_add=True, entry=spd_entry ) with PapiSocketExecutor(node) as papi_exec: papi_exec.add(cmd, **args).get_reply(err_msg) @staticmethod def vpp_ipsec_spd_add_entries( node, n_entries, spd_id, priority, inbound, sa_id, raddr_ip, raddr_range=0): """Create multiple Security Policy Database entries on the VPP node. :param node: VPP node to add SPD entries on. :param n_entries: Number of SPD entries to be added. :param spd_id: SPD ID to add entries on. :param priority: SPD entries priority, higher number = higher priority. :param inbound: If True policy is for inbound traffic, otherwise outbound. :param sa_id: SAD entry ID for first entry. Each subsequent entry will SAD entry ID incremented by 1. :param raddr_ip: Policy selector remote IPv4 start address for the first entry. Remote IPv4 end address will be calculated depending on raddr_range parameter. Each subsequent entry will have start address next after IPv4 end address of previous entry. :param raddr_range: Required IP addres range. :type node: dict :type n_entries: int :type spd_id: int :type priority: int :type inbound: bool :type sa_id: int :type raddr_ip: str :type raddr_range: int """ raddr_ip = ip_address(raddr_ip) if int(n_entries) > 10: tmp_filename = f"/tmp/ipsec_spd_{sa_id}_add_del_entry.script" with open(tmp_filename, 'w') as tmp_file: for i in range(n_entries): direction = u'inbound' if inbound else u'outbound' tunnel = f"exec ipsec policy add spd {spd_id} " \ f"priority {priority} {direction} " \ f"action protect sa {sa_id+i} " \ f"remote-ip-range {raddr_ip + i * (raddr_range + 1)} " \ f"- {raddr_ip + (i + 1) * raddr_range + i} " \ f"local-ip-range 0.0.0.0 - 255.255.255.255\n" tmp_file.write(tunnel) VatExecutor().execute_script( tmp_filename, node, timeout=300, json_out=False, copy_on_execute=True ) os.remove(tmp_filename) return laddr_range = u"::/0" if raddr_ip.version == 6 else u"0.0.0.0/0" cmd = u"ipsec_spd_entry_add_del" err_msg = f"ailed to add entry to Security Policy Database '{spd_id} " \ f"on host {node[u'host']}" spd_entry = dict( spd_id=int(spd_id), priority=int(priority), is_outbound=not inbound, sa_id=int(sa_id) if sa_id else 0, policy=getattr(PolicyAction.PROTECT, u"policy_int_repr"), protocol=0, remote_address_start=IPAddress.create_ip_address_object(raddr_ip), remote_address_stop=IPAddress.create_ip_address_object(raddr_ip), local_address_start=IPAddress.create_ip_address_object( ip_network(laddr_range, strict=False).network_address ), local_address_stop=IPAddress.create_ip_address_object( ip_network(laddr_range, strict=False).broadcast_address ), remote_port_start=0, remote_port_stop=65535, local_port_start=0, local_port_stop=65535 ) args = dict( is_add=True, entry=spd_entry ) with PapiSocketExecutor(node) as papi_exec: for i in range(n_entries): args[u"entry"][u"remote_address_start"][u"un"] = \ IPAddress.union_addr(raddr_ip + i) args[u"entry"][u"remote_address_stop"][u"un"] = \ IPAddress.union_addr(raddr_ip + i) history = bool(not 1 < i < n_entries - 2) papi_exec.add(cmd, history=history, **args) papi_exec.get_replies(err_msg) @staticmethod def _ipsec_create_tunnel_interfaces_dut1_vat( nodes, tun_ips, if1_key, if2_key, n_tunnels, crypto_alg, integ_alg, raddr_ip2, addr_incr, spi_d, existing_tunnels=0): """Create multiple IPsec tunnel interfaces on DUT1 node using VAT. :param nodes: VPP nodes to create tunnel interfaces. :param tun_ips: Dictionary with VPP node 1 ipsec tunnel interface IPv4/IPv6 address (ip1) and VPP node 2 ipsec tunnel interface IPv4/IPv6 address (ip2). :param if1_key: VPP node 1 interface key from topology file. :param if2_key: VPP node 2 / TG node (in case of 2-node topology) interface key from topology file. :param n_tunnels: Number of tunnel interfaces to be there at the end. :param crypto_alg: The encryption algorithm name. :param integ_alg: The integrity algorithm name. :param raddr_ip2: Policy selector remote IPv4/IPv6 start address for the first tunnel in direction node2->node1. :param spi_d: Dictionary with SPIs for VPP node 1 and VPP node 2. :param addr_incr: IP / IPv6 address incremental step. :param existing_tunnels: Number of tunnel interfaces before creation. Useful mainly for reconf tests. Default 0. :type nodes: dict :type tun_ips: dict :type if1_key: str :type if2_key: str :type n_tunnels: int :type crypto_alg: CryptoAlg :type integ_alg: IntegAlg :type raddr_ip2: IPv4Address or IPv6Address :type addr_incr: int :type spi_d: dict :type existing_tunnels: int """ tmp_fn1 = u"/tmp/ipsec_create_tunnel_dut1.config" if1_n = Topology.get_interface_name(nodes[u"DUT1"], if1_key) ckeys = [bytes()] * existing_tunnels ikeys = [bytes()] * existing_tunnels vat = VatExecutor() with open(tmp_fn1, u"w") as tmp_f1: rmac = Topology.get_interface_mac(nodes[u"DUT2"], if2_key) \ if u"DUT2" in nodes.keys() \ else Topology.get_interface_mac(nodes[u"TG"], if2_key) if not existing_tunnels: tmp_f1.write( f"exec create loopback interface\n" f"exec set interface state loop0 up\n" f"exec set interface ip address {if1_n} " f"{tun_ips[u'ip2'] - 1}/" f"{len(tun_ips[u'ip2'].packed)*8*3//4}\n" f"exec set ip neighbor {if1_n} {tun_ips[u'ip2']} {rmac} " f"static\n" ) for i in range(existing_tunnels, n_tunnels): ckeys.append( gen_key(IPsecUtil.get_crypto_alg_key_len(crypto_alg)) ) if integ_alg: ikeys.append( gen_key(IPsecUtil.get_integ_alg_key_len(integ_alg)) ) integ = f"integ-alg {integ_alg.alg_name} " \ f"integ-key {ikeys[i].hex()} " else: integ = u"" tmp_f1.write( f"exec set interface ip address loop0 " f"{tun_ips[u'ip1'] + i * addr_incr}/32\n" f"exec create ipip tunnel " f"src {tun_ips[u'ip1'] + i * addr_incr} " f"dst {tun_ips[u'ip2']} " f"p2p\n" f"exec ipsec sa add {i} " f"spi {spi_d[u'spi_1'] + i} " f"crypto-alg {crypto_alg.alg_name} " f"crypto-key {ckeys[i].hex()} " f"{integ}" f"esp\n" f"exec ipsec sa add {100000 + i} " f"spi {spi_d[u'spi_2'] + i} " f"crypto-alg {crypto_alg.alg_name} " f"crypto-key {ckeys[i].hex()} " f"{integ}" f"esp\n" f"exec ipsec tunnel protect ipip{i} " f"sa-out {i} " f"sa-in {100000 + i} " f"add\n" ) vat.execute_script( tmp_fn1, nodes[u"DUT1"], timeout=1800, json_out=False, copy_on_execute=True, history=bool(n_tunnels < 100) ) os.remove(tmp_fn1) with open(tmp_fn1, 'w') as tmp_f1: for i in range(existing_tunnels, n_tunnels): tmp_f1.write( f"exec set interface unnumbered ipip{i} use {if1_n}\n" f"exec set interface state ipip{i} up\n" f"exec ip route add " f"{raddr_ip2 + i}/{len(raddr_ip2.packed)*8} " f"via ipip{i}\n" ) vat.execute_script( tmp_fn1, nodes[u"DUT1"], timeout=1800, json_out=False, copy_on_execute=True, history=bool(n_tunnels < 100) ) os.remove(tmp_fn1) return ckeys, ikeys @staticmethod def _ipsec_create_tunnel_interfaces_dut2_vat( nodes, tun_ips, if2_key, n_tunnels, crypto_alg, ckeys, integ_alg, ikeys, raddr_ip1, addr_incr, spi_d, existing_tunnels=0): """Create multiple IPsec tunnel interfaces on DUT2 node using VAT. :param nodes: VPP nodes to create tunnel interfaces. :param tun_ips: Dictionary with VPP node 1 ipsec tunnel interface IPv4/IPv6 address (ip1) and VPP node 2 ipsec tunnel interface IPv4/IPv6 address (ip2). :param if2_key: VPP node 2 / TG node (in case of 2-node topology) interface key from topology file. :param n_tunnels: Number of tunnel interfaces to be there at the end. :param crypto_alg: The encryption algorithm name. :param ckeys: List of encryption keys. :param integ_alg: The integrity algorithm name. :param ikeys: List of integrity keys. :param spi_d: Dictionary with SPIs for VPP node 1 and VPP node 2. :param addr_incr: IP / IPv6 address incremental step. :param existing_tunnels: Number of tunnel interfaces before creation. Useful mainly for reconf tests. Default 0. :type nodes: dict :type tun_ips: dict :type if2_key: str :type n_tunnels: int :type crypto_alg: CryptoAlg :type ckeys: list :type integ_alg: IntegAlg :type ikeys: list :type addr_incr: int :type spi_d: dict :type existing_tunnels: int """ tmp_fn2 = u"/tmp/ipsec_create_tunnel_dut2.config" if2_n = Topology.get_interface_name(nodes[u"DUT2"], if2_key) vat = VatExecutor() with open(tmp_fn2, 'w') as tmp_f2: if not existing_tunnels: tmp_f2.write( f"exec set interface ip address {if2_n}" f" {tun_ips[u'ip2']}/{len(tun_ips[u'ip2'].packed)*8*3/4}\n" ) for i in range(existing_tunnels, n_tunnels): if integ_alg: integ = f"integ-alg {integ_alg.alg_name} " \ f"integ-key {ikeys[i].hex()} " else: integ = u"" tmp_f2.write( f"exec create ipip tunnel " f"src {tun_ips[u'ip2']} " f"dst {tun_ips[u'ip1'] + i * addr_incr} " f"p2p\n" f"exec ipsec sa add {100000 + i} " f"spi {spi_d[u'spi_2'] + i} " f"crypto-alg {crypto_alg.alg_name} " f"crypto-key {ckeys[i].hex()} " f"{integ}" f"esp\n" f"exec ipsec sa add {i} " f"spi {spi_d[u'spi_1'] + i} " f"crypto-alg {crypto_alg.alg_name} " f"crypto-key {ckeys[i].hex()} " f"{integ}" f"esp\n" f"exec ipsec tunnel protect ipip{i} " f"sa-out {100000 + i} " f"sa-in {i} " f"add\n" ) vat.execute_script( tmp_fn2, nodes[u"DUT2"], timeout=1800, json_out=False, copy_on_execute=True, history=bool(n_tunnels < 100) ) os.remove(tmp_fn2) with open(tmp_fn2, 'w') as tmp_f2: if not existing_tunnels: tmp_f2.write( f"exec ip route add {tun_ips[u'ip1']}/8 " f"via {tun_ips[u'ip2'] - 1} {if2_n}\n" ) for i in range(existing_tunnels, n_tunnels): tmp_f2.write( f"exec set interface unnumbered ipip{i} use {if2_n}\n" f"exec set interface state ipip{i} up\n" f"exec ip route add " f"{raddr_ip1 + i}/{len(raddr_ip1.packed)*8} " f"via ipip{i}\n" ) vat.execute_script( tmp_fn2, nodes[u"DUT2"], timeout=1800, json_out=False, copy_on_execute=True, history=bool(n_tunnels < 100) ) os.remove(tmp_fn2) @staticmethod def _ipsec_create_loopback_dut1_papi(nodes, tun_ips, if1_key, if2_key): """Create loopback interface and set IP address on VPP node 1 interface using PAPI. :param nodes: VPP nodes to create tunnel interfaces. :param tun_ips: Dictionary with VPP node 1 ipsec tunnel interface IPv4/IPv6 address (ip1) and VPP node 2 ipsec tunnel interface IPv4/IPv6 address (ip2). :param if1_key: VPP node 1 interface key from topology file. :param if2_key: VPP node 2 / TG node (in case of 2-node topology) interface key from topology file. :type nodes: dict :type tun_ips: dict :type if1_key: str :type if2_key: str """ with PapiSocketExecutor(nodes[u"DUT1"]) as papi_exec: # Create loopback interface on DUT1, set it to up state cmd = u"create_loopback" args = dict( mac_address=0 ) err_msg = f"Failed to create loopback interface " \ f"on host {nodes[u'DUT1'][u'host']}" loop_sw_if_idx = papi_exec.add(cmd, **args). \ get_sw_if_index(err_msg) cmd = u"sw_interface_set_flags" args = dict( sw_if_index=loop_sw_if_idx, flags=InterfaceStatusFlags.IF_STATUS_API_FLAG_ADMIN_UP.value ) err_msg = f"Failed to set loopback interface state up " \ f"on host {nodes[u'DUT1'][u'host']}" papi_exec.add(cmd, **args).get_reply(err_msg) # Set IP address on VPP node 1 interface cmd = u"sw_interface_add_del_address" args = dict( sw_if_index=InterfaceUtil.get_interface_index( nodes[u"DUT1"], if1_key ), is_add=True, del_all=False, prefix=IPUtil.create_prefix_object( tun_ips[u"ip2"] - 1, 96 if tun_ips[u"ip2"].version == 6 else 24 ) ) err_msg = f"Failed to set IP address on interface {if1_key} " \ f"on host {nodes[u'DUT1'][u'host']}" papi_exec.add(cmd, **args).get_reply(err_msg) cmd2 = u"ip_neighbor_add_del" args2 = dict( is_add=1, neighbor=dict( sw_if_index=Topology.get_interface_sw_index( nodes[u"DUT1"], if1_key ), flags=1, mac_address=str( Topology.get_interface_mac(nodes[u"DUT2"], if2_key) if u"DUT2" in nodes.keys() else Topology.get_interface_mac( nodes[u"TG"], if2_key ) ), ip_address=tun_ips[u"ip2"].compressed ) ) err_msg = f"Failed to add IP neighbor on interface {if1_key}" papi_exec.add(cmd2, **args2).get_reply(err_msg) return loop_sw_if_idx @staticmethod def _ipsec_create_tunnel_interfaces_dut1_papi( nodes, tun_ips, if1_key, if2_key, n_tunnels, crypto_alg, integ_alg, raddr_ip2, addr_incr, spi_d, existing_tunnels=0): """Create multiple IPsec tunnel interfaces on DUT1 node using PAPI. :param nodes: VPP nodes to create tunnel interfaces. :param tun_ips: Dictionary with VPP node 1 ipsec tunnel interface IPv4/IPv6 address (ip1) and VPP node 2 ipsec tunnel interface IPv4/IPv6 address (ip2). :param if1_key: VPP node 1 interface key from topology file. :param if2_key: VPP node 2 / TG node (in case of 2-node topology) interface key from topology file. :param n_tunnels: Number of tunnel interfaces to be there at the end. :param crypto_alg: The encryption algorithm name. :param integ_alg: The integrity algorithm name. :param raddr_ip2: Policy selector remote IPv4/IPv6 start address for the first tunnel in direction node2->node1. :param spi_d: Dictionary with SPIs for VPP node 1 and VPP node 2. :param addr_incr: IP / IPv6 address incremental step. :param existing_tunnels: Number of tunnel interfaces before creation. Useful mainly for reconf tests. Default 0. :type nodes: dict :type tun_ips: dict :type if1_key: str :type if2_key: str :type n_tunnels: int :type crypto_alg: CryptoAlg :type integ_alg: IntegAlg :type raddr_ip2: IPv4Address or IPv6Address :type addr_incr: int :type spi_d: dict :type existing_tunnels: int """ if not existing_tunnels: loop_sw_if_idx = IPsecUtil._ipsec_create_loopback_dut1_papi( nodes, tun_ips, if1_key, if2_key ) else: loop_sw_if_idx = InterfaceUtil.vpp_get_interface_sw_index( nodes[u"DUT1"], u"loop0" ) with PapiSocketExecutor(nodes[u"DUT1"]) as papi_exec: # Configure IP addresses on loop0 interface cmd = u"sw_interface_add_del_address" args = dict( sw_if_index=loop_sw_if_idx, is_add=True, del_all=False, prefix=None ) for i in range(existing_tunnels, n_tunnels): args[u"prefix"] = IPUtil.create_prefix_object( tun_ips[u"ip1"] + i * addr_incr, 128 if tun_ips[u"ip1"].version == 6 else 32 ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # Configure IPIP tunnel interfaces cmd = u"ipip_add_tunnel" ipip_tunnel = dict( instance=Constants.BITWISE_NON_ZERO, src=None, dst=None, table_id=0, flags=int( TunnelEncpaDecapFlags.TUNNEL_API_ENCAP_DECAP_FLAG_NONE ), mode=int(TunnelMode.TUNNEL_API_MODE_P2P), dscp=int(IpDscp.IP_API_DSCP_CS0) ) args = dict( tunnel=ipip_tunnel ) ipip_tunnels = [None] * existing_tunnels for i in range(existing_tunnels, n_tunnels): args[u"tunnel"][u"src"] = IPAddress.create_ip_address_object( tun_ips[u"ip1"] + i * addr_incr ) args[u"tunnel"][u"dst"] = IPAddress.create_ip_address_object( tun_ips[u"ip2"] ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add IPIP tunnel interfaces on host" \ f" {nodes[u'DUT1'][u'host']}" ipip_tunnels.extend( [ reply[u"sw_if_index"] for reply in papi_exec.get_replies(err_msg) if u"sw_if_index" in reply ] ) # Configure IPSec SAD entries ckeys = [bytes()] * existing_tunnels ikeys = [bytes()] * existing_tunnels cmd = u"ipsec_sad_entry_add_del_v2" c_key = dict( length=0, data=None ) i_key = dict( length=0, data=None ) sad_entry = dict( sad_id=None, spi=None, protocol=int(IPsecProto.IPSEC_API_PROTO_ESP), crypto_algorithm=crypto_alg.alg_int_repr, crypto_key=c_key, integrity_algorithm=integ_alg.alg_int_repr if integ_alg else 0, integrity_key=i_key, flags=None, tunnel_src=0, tunnel_dst=0, tunnel_flags=int( TunnelEncpaDecapFlags.TUNNEL_API_ENCAP_DECAP_FLAG_NONE ), dscp=int(IpDscp.IP_API_DSCP_CS0), table_id=0, salt=0, udp_src_port=IPSEC_UDP_PORT_NONE, udp_dst_port=IPSEC_UDP_PORT_NONE ) args = dict( is_add=True, entry=sad_entry ) for i in range(existing_tunnels, n_tunnels): ckeys.append( gen_key(IPsecUtil.get_crypto_alg_key_len(crypto_alg)) ) if integ_alg: ikeys.append( gen_key(IPsecUtil.get_integ_alg_key_len(integ_alg)) ) # SAD entry for outband / tx path args[u"entry"][u"sad_id"] = i args[u"entry"][u"spi"] = spi_d[u"spi_1"] + i args[u"entry"][u"crypto_key"][u"length"] = len(ckeys[i]) args[u"entry"][u"crypto_key"][u"data"] = ckeys[i] if integ_alg: args[u"entry"][u"integrity_key"][u"length"] = len(ikeys[i]) args[u"entry"][u"integrity_key"][u"data"] = ikeys[i] args[u"entry"][u"flags"] = int( IPsecSadFlags.IPSEC_API_SAD_FLAG_NONE ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # SAD entry for inband / rx path args[u"entry"][u"sad_id"] = 100000 + i args[u"entry"][u"spi"] = spi_d[u"spi_2"] + i args[u"entry"][u"crypto_key"][u"length"] = len(ckeys[i]) args[u"entry"][u"crypto_key"][u"data"] = ckeys[i] if integ_alg: args[u"entry"][u"integrity_key"][u"length"] = len(ikeys[i]) args[u"entry"][u"integrity_key"][u"data"] = ikeys[i] args[u"entry"][u"flags"] = int( IPsecSadFlags.IPSEC_API_SAD_FLAG_NONE | IPsecSadFlags.IPSEC_API_SAD_FLAG_IS_INBOUND ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add IPsec SAD entries on host" \ f" {nodes[u'DUT1'][u'host']}" papi_exec.get_replies(err_msg) # Add protection for tunnels with IPSEC cmd = u"ipsec_tunnel_protect_update" n_hop = dict( address=0, via_label=MPLS_LABEL_INVALID, obj_id=Constants.BITWISE_NON_ZERO ) ipsec_tunnel_protect = dict( sw_if_index=None, nh=n_hop, sa_out=None, n_sa_in=1, sa_in=None ) args = dict( tunnel=ipsec_tunnel_protect ) for i in range(existing_tunnels, n_tunnels): args[u"tunnel"][u"sw_if_index"] = ipip_tunnels[i] args[u"tunnel"][u"sa_out"] = i args[u"tunnel"][u"sa_in"] = [100000 + i] papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add protection for tunnels with IPSEC " \ f"on host {nodes[u'DUT1'][u'host']}" papi_exec.get_replies(err_msg) # Configure unnumbered interfaces cmd = u"sw_interface_set_unnumbered" args = dict( is_add=True, sw_if_index=InterfaceUtil.get_interface_index( nodes[u"DUT1"], if1_key ), unnumbered_sw_if_index=0 ) for i in range(existing_tunnels, n_tunnels): args[u"unnumbered_sw_if_index"] = ipip_tunnels[i] papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # Set interfaces up cmd = u"sw_interface_set_flags" args = dict( sw_if_index=0, flags=InterfaceStatusFlags.IF_STATUS_API_FLAG_ADMIN_UP.value ) for i in range(existing_tunnels, n_tunnels): args[u"sw_if_index"] = ipip_tunnels[i] papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # Configure IP routes cmd = u"ip_route_add_del" args = dict( is_add=1, is_multipath=0, route=None ) for i in range(existing_tunnels, n_tunnels): args[u"route"] = IPUtil.compose_vpp_route_structure( nodes[u"DUT1"], (raddr_ip2 + i).compressed, prefix_len=128 if raddr_ip2.version == 6 else 32, interface=ipip_tunnels[i] ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add IP routes on host " \ f"{nodes[u'DUT1'][u'host']}" papi_exec.get_replies(err_msg) return ckeys, ikeys @staticmethod def _ipsec_create_tunnel_interfaces_dut2_papi( nodes, tun_ips, if2_key, n_tunnels, crypto_alg, ckeys, integ_alg, ikeys, raddr_ip1, addr_incr, spi_d, existing_tunnels=0): """Create multiple IPsec tunnel interfaces on DUT2 node using PAPI. :param nodes: VPP nodes to create tunnel interfaces. :param tun_ips: Dictionary with VPP node 1 ipsec tunnel interface IPv4/IPv6 address (ip1) and VPP node 2 ipsec tunnel interface IPv4/IPv6 address (ip2). :param if2_key: VPP node 2 / TG node (in case of 2-node topology) interface key from topology file. :param n_tunnels: Number of tunnel interfaces to be there at the end. :param crypto_alg: The encryption algorithm name. :param ckeys: List of encryption keys. :param integ_alg: The integrity algorithm name. :param ikeys: List of integrity keys. :param spi_d: Dictionary with SPIs for VPP node 1 and VPP node 2. :param addr_incr: IP / IPv6 address incremental step. :param existing_tunnels: Number of tunnel interfaces before creation. Useful mainly for reconf tests. Default 0. :type nodes: dict :type tun_ips: dict :type if2_key: str :type n_tunnels: int :type crypto_alg: CryptoAlg :type ckeys: list :type integ_alg: IntegAlg :type ikeys: list :type addr_incr: int :type spi_d: dict :type existing_tunnels: int """ with PapiSocketExecutor(nodes[u"DUT2"]) as papi_exec: if not existing_tunnels: # Set IP address on VPP node 2 interface cmd = u"sw_interface_add_del_address" args = dict( sw_if_index=InterfaceUtil.get_interface_index( nodes[u"DUT2"], if2_key ), is_add=True, del_all=False, prefix=IPUtil.create_prefix_object( tun_ips[u"ip2"], 96 if tun_ips[u"ip2"].version == 6 else 24 ) ) err_msg = f"Failed to set IP address on interface {if2_key} " \ f"on host {nodes[u'DUT2'][u'host']}" papi_exec.add(cmd, **args).get_reply(err_msg) # Configure IPIP tunnel interfaces cmd = u"ipip_add_tunnel" ipip_tunnel = dict( instance=Constants.BITWISE_NON_ZERO, src=None, dst=None, table_id=0, flags=int( TunnelEncpaDecapFlags.TUNNEL_API_ENCAP_DECAP_FLAG_NONE ), mode=int(TunnelMode.TUNNEL_API_MODE_P2P), dscp=int(IpDscp.IP_API_DSCP_CS0) ) args = dict( tunnel=ipip_tunnel ) ipip_tunnels = [None] * existing_tunnels for i in range(existing_tunnels, n_tunnels): args[u"tunnel"][u"src"] = IPAddress.create_ip_address_object( tun_ips[u"ip2"] ) args[u"tunnel"][u"dst"] = IPAddress.create_ip_address_object( tun_ips[u"ip1"] + i * addr_incr ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add IPIP tunnel interfaces on host" \ f" {nodes[u'DUT2'][u'host']}" ipip_tunnels.extend( [ reply[u"sw_if_index"] for reply in papi_exec.get_replies(err_msg) if u"sw_if_index" in reply ] ) # Configure IPSec SAD entries cmd = u"ipsec_sad_entry_add_del_v2" c_key = dict( length=0, data=None ) i_key = dict( length=0, data=None ) sad_entry = dict( sad_id=None, spi=None, protocol=int(IPsecProto.IPSEC_API_PROTO_ESP), crypto_algorithm=crypto_alg.alg_int_repr, crypto_key=c_key, integrity_algorithm=integ_alg.alg_int_repr if integ_alg else 0, integrity_key=i_key, flags=None, tunnel_src=0, tunnel_dst=0, tunnel_flags=int( TunnelEncpaDecapFlags.TUNNEL_API_ENCAP_DECAP_FLAG_NONE ), dscp=int(IpDscp.IP_API_DSCP_CS0), table_id=0, salt=0, udp_src_port=IPSEC_UDP_PORT_NONE, udp_dst_port=IPSEC_UDP_PORT_NONE ) args = dict( is_add=True, entry=sad_entry ) for i in range(existing_tunnels, n_tunnels): ckeys.append( gen_key(IPsecUtil.get_crypto_alg_key_len(crypto_alg)) ) if integ_alg: ikeys.append( gen_key(IPsecUtil.get_integ_alg_key_len(integ_alg)) ) # SAD entry for outband / tx path args[u"entry"][u"sad_id"] = 100000 + i args[u"entry"][u"spi"] = spi_d[u"spi_2"] + i args[u"entry"][u"crypto_key"][u"length"] = len(ckeys[i]) args[u"entry"][u"crypto_key"][u"data"] = ckeys[i] if integ_alg: args[u"entry"][u"integrity_key"][u"length"] = len(ikeys[i]) args[u"entry"][u"integrity_key"][u"data"] = ikeys[i] args[u"entry"][u"flags"] = int( IPsecSadFlags.IPSEC_API_SAD_FLAG_NONE ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # SAD entry for inband / rx path args[u"entry"][u"sad_id"] = i args[u"entry"][u"spi"] = spi_d[u"spi_1"] + i args[u"entry"][u"crypto_key"][u"length"] = len(ckeys[i]) args[u"entry"][u"crypto_key"][u"data"] = ckeys[i] if integ_alg: args[u"entry"][u"integrity_key"][u"length"] = len(ikeys[i]) args[u"entry"][u"integrity_key"][u"data"] = ikeys[i] args[u"entry"][u"flags"] = int( IPsecSadFlags.IPSEC_API_SAD_FLAG_NONE | IPsecSadFlags.IPSEC_API_SAD_FLAG_IS_INBOUND ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add IPsec SAD entries on host" \ f" {nodes[u'DUT2'][u'host']}" papi_exec.get_replies(err_msg) # Add protection for tunnels with IPSEC cmd = u"ipsec_tunnel_protect_update" n_hop = dict( address=0, via_label=MPLS_LABEL_INVALID, obj_id=Constants.BITWISE_NON_ZERO ) ipsec_tunnel_protect = dict( sw_if_index=None, nh=n_hop, sa_out=None, n_sa_in=1, sa_in=None ) args = dict( tunnel=ipsec_tunnel_protect ) for i in range(existing_tunnels, n_tunnels): args[u"tunnel"][u"sw_if_index"] = ipip_tunnels[i] args[u"tunnel"][u"sa_out"] = 100000 + i args[u"tunnel"][u"sa_in"] = [i] papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add protection for tunnels with IPSEC " \ f"on host {nodes[u'DUT2'][u'host']}" papi_exec.get_replies(err_msg) if not existing_tunnels: # Configure IP route cmd = u"ip_route_add_del" route = IPUtil.compose_vpp_route_structure( nodes[u"DUT2"], tun_ips[u"ip1"].compressed, prefix_len=32 if tun_ips[u"ip1"].version == 6 else 8, interface=if2_key, gateway=(tun_ips[u"ip2"] - 1).compressed ) args = dict( is_add=1, is_multipath=0, route=route ) papi_exec.add(cmd, **args) # Configure unnumbered interfaces cmd = u"sw_interface_set_unnumbered" args = dict( is_add=True, sw_if_index=InterfaceUtil.get_interface_index( nodes[u"DUT2"], if2_key ), unnumbered_sw_if_index=0 ) for i in range(existing_tunnels, n_tunnels): args[u"unnumbered_sw_if_index"] = ipip_tunnels[i] papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # Set interfaces up cmd = u"sw_interface_set_flags" args = dict( sw_if_index=0, flags=InterfaceStatusFlags.IF_STATUS_API_FLAG_ADMIN_UP.value ) for i in range(existing_tunnels, n_tunnels): args[u"sw_if_index"] = ipip_tunnels[i] papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) # Configure IP routes cmd = u"ip_route_add_del" args = dict( is_add=1, is_multipath=0, route=None ) for i in range(existing_tunnels, n_tunnels): args[u"route"] = IPUtil.compose_vpp_route_structure( nodes[u"DUT1"], (raddr_ip1 + i).compressed, prefix_len=128 if raddr_ip1.version == 6 else 32, interface=ipip_tunnels[i] ) papi_exec.add( cmd, history=bool(not 1 < i < n_tunnels - 2), **args ) err_msg = f"Failed to add IP routes " \ f"on host {nodes[u'DUT2'][u'host']}" papi_exec.get_replies(err_msg) @staticmethod def vpp_ipsec_create_tunnel_interfaces( nodes, tun_if1_ip_addr, tun_if2_ip_addr, if1_key, if2_key, n_tunnels, crypto_alg, integ_alg, raddr_ip1, raddr_ip2, raddr_range, existing_tunnels=0): """Create multiple IPsec tunnel interfaces between two VPP nodes. :param nodes: VPP nodes to create tunnel interfaces. :param tun_if1_ip_addr: VPP node 1 ipsec tunnel interface IPv4/IPv6 address. :param tun_if2_ip_addr: VPP node 2 ipsec tunnel interface IPv4/IPv6 address. :param if1_key: VPP node 1 interface key from topology file. :param if2_key: VPP node 2 / TG node (in case of 2-node topology) interface key from topology file. :param n_tunnels: Number of tunnel interfaces to be there at the end. :param crypto_alg: The encryption algorithm name. :param integ_alg: The integrity algorithm name. :param raddr_ip1: Policy selector remote IPv4/IPv6 start address for the first tunnel in direction node1->node2. :param raddr_ip2: Policy selector remote IPv4/IPv6 start address for the first tunnel in direction node2->node1. :param raddr_range: Mask specifying range of Policy selector Remote IPv4/IPv6 addresses. Valid values are from 1 to 32 in case of IPv4 and to 128 in case of IPv6. :param existing_tunnels: Number of tunnel interfaces before creation. Useful mainly for reconf tests. Default 0. :type nodes: dict :type tun_if1_ip_addr: str :type tun_if2_ip_addr: str :type if1_key: str :type if2_key: str :type n_tunnels: int :type crypto_alg: CryptoAlg :type integ_alg: IntegAlg :type raddr_ip1: string :type raddr_ip2: string :type raddr_range: int :type existing_tunnels: int """ n_tunnels = int(n_tunnels) existing_tunnels = int(existing_tunnels) spi_d = dict( spi_1=100000, spi_2=200000 ) tun_ips = dict( ip1=ip_address(tun_if1_ip_addr), ip2=ip_address(tun_if2_ip_addr) ) raddr_ip1 = ip_address(raddr_ip1) raddr_ip2 = ip_address(raddr_ip2) addr_incr = 1 << (128 - raddr_range) if tun_ips[u"ip1"].version == 6 \ else 1 << (32 - raddr_range) if n_tunnels - existing_tunnels > 10: ckeys, ikeys = IPsecUtil._ipsec_create_tunnel_interfaces_dut1_vat( nodes, tun_ips, if1_key, if2_key, n_tunnels, crypto_alg, integ_alg, raddr_ip2, addr_incr, spi_d, existing_tunnels ) if u"DUT2" not in nodes.keys(): return ckeys[0], ikeys[0], spi_d[u"spi_1"], spi_d[u"spi_2"] IPsecUtil._ipsec_create_tunnel_interfaces_dut2_vat( nodes, tun_ips, if2_key, n_tunnels, crypto_alg, ckeys, integ_alg, ikeys, raddr_ip1, addr_incr, spi_d, existing_tunnels ) else: ckeys, ikeys = IPsecUtil._ipsec_create_tunnel_interfaces_dut1_papi( nodes, tun_ips, if1_key, if2_key, n_tunnels, crypto_alg, integ_alg, raddr_ip2, addr_incr, spi_d, existing_tunnels ) if u"DUT2" not in nodes.keys(): return ckeys[0], ikeys[0], spi_d[u"spi_1"], spi_d[u"spi_2"] IPsecUtil._ipsec_create_tunnel_interfaces_dut2_papi( nodes, tun_ips, if2_key, n_tunnels, crypto_alg, ckeys, integ_alg, ikeys, raddr_ip1, addr_incr, spi_d, existing_tunnels ) return None, None, None, None @staticmethod def _create_ipsec_script_files(dut, instances): """Create script files for configuring IPsec in containers :param dut: DUT node on which to create the script files :param instances: number of containers on DUT node :type dut: string :type instances: int """ scripts = [] for cnf in range(0, instances): script_filename = ( f"/tmp/ipsec_create_tunnel_cnf_{dut}_{cnf + 1}.config" ) scripts.append(open(script_filename, 'w')) return scripts @staticmethod def _close_and_copy_ipsec_script_files( dut, nodes, instances, scripts): """Close created scripts and copy them to containers :param dut: DUT node on which to create the script files :param nodes: VPP nodes :param instances: number of containers on DUT node :param scripts: dictionary holding the script files :type dut: string :type nodes: dict :type instances: int :type scripts: dict """ for cnf in range(0, instances): scripts[cnf].close() script_filename = ( f"/tmp/ipsec_create_tunnel_cnf_{dut}_{cnf + 1}.config" ) scp_node(nodes[dut], script_filename, script_filename) @staticmethod def vpp_ipsec_create_tunnel_interfaces_in_containers( nodes, if1_ip_addr, if2_ip_addr, n_tunnels, crypto_alg, integ_alg, raddr_ip1, raddr_ip2, raddr_range, n_instances): """Create multiple IPsec tunnel interfaces between two VPP nodes. :param nodes: VPP nodes to create tunnel interfaces. :param if1_ip_addr: VPP node 1 interface IP4 address. :param if2_ip_addr: VPP node 2 interface IP4 address. :param n_tunnels: Number of tunnell interfaces to create. :param crypto_alg: The encryption algorithm name. :param integ_alg: The integrity algorithm name. :param raddr_ip1: Policy selector remote IPv4 start address for the first tunnel in direction node1->node2. :param raddr_ip2: Policy selector remote IPv4 start address for the first tunnel in direction node2->node1. :param raddr_range: Mask specifying range of Policy selector Remote IPv4 addresses. Valid values are from 1 to 32. :param n_instances: Number of containers. :type nodes: dict :type if1_ip_addr: str :type if2_ip_addr: str :type n_tunnels: int :type crypto_alg: CryptoAlg :type integ_alg: IntegAlg :type raddr_ip1: string :type raddr_ip2: string :type raddr_range: int :type n_instances: int """ spi_1 = 100000 spi_2 = 200000 addr_incr = 1 << (32 - raddr_range) dut1_scripts = IPsecUtil._create_ipsec_script_files( u"DUT1", n_instances ) dut2_scripts = IPsecUtil._create_ipsec_script_files( u"DUT2", n_instances ) for cnf in range(0, n_instances): dut1_scripts[cnf].write( u"create loopback interface\n" u"set interface state loop0 up\n\n" ) dut2_scripts[cnf].write( f"ip route add {if1_ip_addr}/8 via " f"{ip_address(if2_ip_addr) + cnf + 100} memif1/{cnf + 1}\n\n" ) for tnl in range(0, n_tunnels): cnf = tnl % n_instances ckey = getattr( gen_key(IPsecUtil.get_crypto_alg_key_len(crypto_alg)), u"hex" ) integ = u"" if integ_alg: ikey = getattr( gen_key(IPsecUtil.get_integ_alg_key_len(integ_alg)), u"hex" ) integ = ( f"integ-alg {integ_alg.alg_name} " f"local-integ-key {ikey} " f"remote-integ-key {ikey} " ) # Configure tunnel end point(s) on left side dut1_scripts[cnf].write( u"set interface ip address loop0 " f"{ip_address(if1_ip_addr) + tnl * addr_incr}/32\n" f"create ipsec tunnel " f"local-ip {ip_address(if1_ip_addr) + tnl * addr_incr} " f"local-spi {spi_1 + tnl} " f"remote-ip {ip_address(if2_ip_addr) + cnf} " f"remote-spi {spi_2 + tnl} " f"crypto-alg {crypto_alg.alg_name} " f"local-crypto-key {ckey} " f"remote-crypto-key {ckey} " f"instance {tnl // n_instances} " f"salt 0x0 " f"{integ} \n" f"set interface unnumbered ipip{tnl // n_instances} use loop0\n" f"set interface state ipip{tnl // n_instances} up\n" f"ip route add {ip_address(raddr_ip2)+tnl}/32 " f"via ipip{tnl // n_instances}\n\n" ) # Configure tunnel end point(s) on right side dut2_scripts[cnf].write( f"set ip neighbor memif1/{cnf + 1} " f"{ip_address(if1_ip_addr) + tnl * addr_incr} " f"02:02:00:00:{17:02X}:{cnf:02X} static\n" f"create ipsec tunnel local-ip {ip_address(if2_ip_addr) + cnf} " f"local-spi {spi_2 + tnl} " f"remote-ip {ip_address(if1_ip_addr) + tnl * addr_incr} " f"remote-spi {spi_1 + tnl} " f"crypto-alg {crypto_alg.alg_name} " f"local-crypto-key {ckey} " f"remote-crypto-key {ckey} " f"instance {tnl // n_instances} " f"salt 0x0 " f"{integ}\n" f"set interface unnumbered ipip{tnl // n_instances} " f"use memif1/{cnf + 1}\n" f"set interface state ipip{tnl // n_instances} up\n" f"ip route add {ip_address(raddr_ip1) + tnl}/32 " f"via ipip{tnl // n_instances}\n\n" ) IPsecUtil._close_and_copy_ipsec_script_files( u"DUT1", nodes, n_instances, dut1_scripts) IPsecUtil._close_and_copy_ipsec_script_files( u"DUT2", nodes, n_instances, dut2_scripts) @staticmethod def vpp_ipsec_add_multiple_tunnels( nodes, interface1, interface2, n_tunnels, crypto_alg, integ_alg, tunnel_ip1, tunnel_ip2, raddr_ip1, raddr_ip2, raddr_range): """Create multiple IPsec tunnels between two VPP nodes. :param nodes: VPP nodes to create tunnels. :param interface1: Interface name or sw_if_index on node 1. :param interface2: Interface name or sw_if_index on node 2. :param n_tunnels: Number of tunnels to create. :param crypto_alg: The encryption algorithm name. :param integ_alg: The integrity algorithm name. :param tunnel_ip1: Tunnel node1 IPv4 address. :param tunnel_ip2: Tunnel node2 IPv4 address. :param raddr_ip1: Policy selector remote IPv4 start address for the first tunnel in direction node1->node2. :param raddr_ip2: Policy selector remote IPv4 start address for the first tunnel in direction node2->node1. :param raddr_range: Mask specifying range of Policy selector Remote IPv4 addresses. Valid values are from 1 to 32. :type nodes: dict :type interface1: str or int :type interface2: str or int :type n_tunnels: int :type crypto_alg: CryptoAlg :type integ_alg: IntegAlg :type tunnel_ip1: str :type tunnel_ip2: str :type raddr_ip1: string :type raddr_ip2: string :type raddr_range: int """ spd_id = 1 p_hi = 100 p_lo = 10 sa_id_1 = 100000 sa_id_2 = 200000 spi_1 = 300000 spi_2 = 400000 crypto_key = gen_key( IPsecUtil.get_crypto_alg_key_len(crypto_alg) ).decode() integ_key = gen_key( IPsecUtil.get_integ_alg_key_len(integ_alg) ).decode() if integ_alg else u"" IPsecUtil.vpp_ipsec_set_ip_route( nodes[u"DUT1"], n_tunnels, tunnel_ip1, raddr_ip2, tunnel_ip2, interface1, raddr_range) IPsecUtil.vpp_ipsec_set_ip_route( nodes[u"DUT2"], n_tunnels, tunnel_ip2, raddr_ip1, tunnel_ip1, interface2, raddr_range) IPsecUtil.vpp_ipsec_add_spd(nodes[u"DUT1"], spd_id) IPsecUtil.vpp_ipsec_spd_add_if(nodes[u"DUT1"], spd_id, interface1) IPsecUtil.vpp_ipsec_policy_add( nodes[u"DUT1"], spd_id, p_hi, PolicyAction.BYPASS, inbound=False, proto=50, laddr_range=u"100.0.0.0/8", raddr_range=u"100.0.0.0/8" ) IPsecUtil.vpp_ipsec_policy_add( nodes[u"DUT1"], spd_id, p_hi, PolicyAction.BYPASS, inbound=True, proto=50, laddr_range=u"100.0.0.0/8", raddr_range=u"100.0.0.0/8" ) IPsecUtil.vpp_ipsec_add_spd(nodes[u"DUT2"], spd_id) IPsecUtil.vpp_ipsec_spd_add_if(nodes[u"DUT2"], spd_id, interface2) IPsecUtil.vpp_ipsec_policy_add( nodes[u"DUT2"], spd_id, p_hi, PolicyAction.BYPASS, inbound=False, proto=50, laddr_range=u"100.0.0.0/8", raddr_range=u"100.0.0.0/8" ) IPsecUtil.vpp_ipsec_policy_add( nodes[u"DUT2"], spd_id, p_hi, PolicyAction.BYPASS, inbound=True, proto=50, laddr_range=u"100.0.0.0/8", raddr_range=u"100.0.0.0/8" ) IPsecUtil.vpp_ipsec_add_sad_entries( nodes[u"DUT1"], n_tunnels, sa_id_1, spi_1, crypto_alg, crypto_key, integ_alg, integ_key, tunnel_ip1, tunnel_ip2 ) IPsecUtil.vpp_ipsec_spd_add_entries( nodes[u"DUT1"], n_tunnels, spd_id, p_lo, False, sa_id_1, raddr_ip2 ) IPsecUtil.vpp_ipsec_add_sad_entries( nodes[u"DUT2"], n_tunnels, sa_id_1, spi_1, crypto_alg, crypto_key, integ_alg, integ_key, tunnel_ip1, tunnel_ip2 ) IPsecUtil.vpp_ipsec_spd_add_entries( nodes[u"DUT2"], n_tunnels, spd_id, p_lo, True, sa_id_1, raddr_ip2 ) IPsecUtil.vpp_ipsec_add_sad_entries( nodes[u"DUT2"], n_tunnels, sa_id_2, spi_2, crypto_alg, crypto_key, integ_alg, integ_key, tunnel_ip2, tunnel_ip1 ) IPsecUtil.vpp_ipsec_spd_add_entries( nodes[u"DUT2"], n_tunnels, spd_id, p_lo, False, sa_id_2, raddr_ip1 ) IPsecUtil.vpp_ipsec_add_sad_entries( nodes[u"DUT1"], n_tunnels, sa_id_2, spi_2, crypto_alg, crypto_key, integ_alg, integ_key, tunnel_ip2, tunnel_ip1 ) IPsecUtil.vpp_ipsec_spd_add_entries( nodes[u"DUT1"], n_tunnels, spd_id, p_lo, True, sa_id_2, raddr_ip1 ) @staticmethod def vpp_ipsec_show(node): """Run "show ipsec" debug CLI command. :param node: Node to run command on. :type node: dict """ PapiSocketExecutor.run_cli_cmd(node, u"show ipsec") @staticmethod def show_ipsec_security_association(node): """Show IPSec security association. :param node: DUT node. :type node: dict """ cmds = [ u"ipsec_sa_v2_dump" ] PapiSocketExecutor.dump_and_log(node, cmds)