| # vim: syntax=py |
| # -*- mode: python -*- |
| # SPDX-License-Identifier: Apache-2.0 |
| # Copyright 2020-present Open Networking Foundation |
| # Copyright(c) 2019 Intel Corporation |
| |
| # for errnos |
| import errno |
| from conf.utils import * |
| |
| |
| # ==================================================== |
| # Parameters |
| # ==================================================== |
| |
| |
| conf_file = get_env('CONF_FILE', 'conf/spgwu.json') |
| conf = get_json_conf(conf_file, False) |
| |
| # Maximum number of flows to manage ip frags for re-assembly |
| max_ip_defrag_flows = None |
| try: |
| max_ip_defrag_flows = int(conf["max_ip_defrag_flows"]) |
| except ValueError: |
| print('Invalid value for max_ip_defrag_flows. Not installing IPDefrag module.') |
| except KeyError: |
| print('max_ip_defrag_flows value not set. Not installing IPDefrag module.') |
| |
| # ==================================================== |
| # Port Helpers |
| # ==================================================== |
| |
| |
| MAX_GATES = 8192 |
| dpdk_ports = {} |
| |
| |
| def scan_dpdk_ports(): |
| idx = 0 |
| while True: |
| try: |
| intf = PMDPort(name="Port {}".format(idx), port_id=idx) |
| if intf: |
| # Need to declare mac so that we don't lose key during destroy_port |
| mac = intf.mac_addr |
| dpdk_ports[mac] = idx |
| bess.destroy_port(intf.name) |
| except bess.Error as e: |
| if e.code == errno.ENODEV: |
| break |
| else: |
| raise |
| idx += 1 |
| return True if dpdk_ports else False |
| |
| |
| class Port: |
| def __init__(self, name): |
| self.name = name |
| self.wid = None |
| self.fpi = None |
| self.fpo = None |
| self.bpf = None |
| self.bpfgate = 0 |
| self.routes_table = None |
| |
| def bpf_gate(self): |
| if self.bpfgate < MAX_GATES - 2: |
| self.bpfgate += 1 |
| return self.bpfgate |
| else: |
| raise Exception('Port {}: Out of BPF gates to allocate'.format(self.name)) |
| |
| def detect_mode(self): |
| # default case |
| mode = "unselected" |
| |
| try: |
| peer_by_interface(self.name) |
| mode = "dpdk" |
| except: |
| mode = "linux" |
| return mode |
| |
| def init_fastpath(self, **kwargs): |
| # Initialize PMDPort and RX/TX modules |
| name = self.name |
| fast = PMDPort(name="{}Fast".format(name), **kwargs) |
| self.fpi = __bess_module__("{}FastPI".format(name), 'PortInc', port=fast.name) |
| self.fpo = __bess_module__("{}FastPO".format(name), 'PortOut', port=fast.name) |
| |
| # Initialize BPF to classify incoming traffic to go to kernel and/or pipeline |
| self.bpf = __bess_module__("{}FastBPF".format(name), 'BPF') |
| self.bpf.clear() |
| |
| # Default drop when no matches |
| if max_ip_defrag_flows is not None: |
| ipdefrag = __bess_module__("{}Defrag".format(name), 'IPDefrag', num_flows=max_ip_defrag_flows, numa=0) |
| self.fpi -> ipdefrag:1 -> self.bpf:0 -> Sink() |
| ipdefrag:0 -> Sink() |
| else: |
| self.fpi -> self.bpf:0 -> Sink() |
| |
| # Initialize route module |
| self.rtr = __bess_module__("{}Routes".format(name), 'IPLookup') |
| |
| # Default route goes to Sink |
| self.rtr.add(prefix='0.0.0.0', prefix_len=0, gate=MAX_GATES-1) |
| self.rtr:(MAX_GATES-1) -> Sink() |
| |
| # Attach fastpath to worker's root TC |
| self.fpi.attach_task(wid=self.wid) |
| |
| def setup_port(self, idx, workers): |
| # Pick the worker handling this port |
| self.wid = idx % workers |
| |
| name = self.name |
| wid = self.wid |
| print('Setting up port {} on worker {}'.format(name,wid)) |
| |
| # Detect the mode of this interface - DPDK/AF_XDP/AF_PACKET |
| mode = self.detect_mode() |
| |
| if mode == 'linux': |
| try: |
| # Initialize kernel fastpath. |
| # AF_XDP requires that num_rx_qs == num_tx_qs |
| kwargs = {"vdev" : "net_af_xdp{},iface={},start_queue=0,queue_count={}" |
| .format(idx, name, workers), "num_out_q": workers, "num_inc_q": workers} |
| self.init_fastpath(**kwargs) |
| except: |
| print('Failed to create AF_XDP socket for {}. Creating AF_PACKET socket instead.'.format(name)) |
| kwargs = {"vdev" : "net_af_packet{},iface={},qpairs={}".format(idx, name, workers), "num_out_q": workers} |
| self.init_fastpath(**kwargs) |
| |
| elif mode == 'dpdk': |
| # if port list is empty, scan for dpdk_ports first |
| if not dpdk_ports and scan_dpdk_ports() == False: |
| print('Registered dpdk ports do not exist.') |
| sys.exit() |
| # Initialize DPDK fastpath |
| fidx = dpdk_ports.get(mac_by_interface(name)) |
| if fidx is None: |
| raise Exception('Registered port for {} not detected!'.format(name)) |
| kwargs = {"port_id" : fidx, "num_out_q": workers} |
| self.init_fastpath( **kwargs) |
| |
| # Initialize kernel slowpath port and RX/TX modules |
| try: |
| peer = peer_by_interface(name) |
| vdev = "net_af_packet{},iface={}".format(idx, peer) |
| slow = PMDPort(name="{}Slow".format(name), vdev=vdev) |
| spi = __bess_module__("{}SlowPI".format(name), 'PortInc', port=slow.name) |
| spo = __bess_module__("{}SlowPO".format(name), 'PortOut', port=slow.name) |
| qspo = __bess_module__("{}QSlowPO".format(name), 'Queue') |
| |
| # host_ip_filter: tcpdump -i foo 'dst host 198.19.0.1 or 198.18.0.1' -d |
| # Should always be set to lowest priority |
| HostGate = MAX_GATES - 1 |
| ips = ips_by_interface(name) |
| host_ip_filter = {"priority": -HostGate, "filter": "dst host " |
| + " or ".join(str(x) for x in ips), "gate": HostGate} |
| |
| self.bpf.add(filters=[host_ip_filter]) |
| |
| # Direct control traffic from DPDK to kernel |
| self.bpf:HostGate -> qspo -> spo |
| |
| # Direct control traffic from kernel to DPDK |
| spi -> self.fpo |
| |
| tc = 'slow{}'.format(wid) |
| try: |
| bess.add_tc(tc, policy='round_robin', wid=wid) |
| except Exception as e: |
| if e.errmsg == "Name '{}' already exists".format(tc): |
| pass |
| else: |
| raise e |
| # Limit scheduling slow path RX/TX to 1000 times/second each |
| for mod in spi, qspo: |
| bess.add_tc(mod.name, |
| parent=tc, |
| policy='rate_limit', |
| resource='count', |
| limit={'count': 1000}) |
| mod.attach_task(mod.name) |
| except Exception as e: |
| print('Mirror veth interface: {} misconfigured: {}'.format(name, e)) |
| else: |
| raise Exception('Invalid mode selected.') |
| |
| |
| # ==================================================== |
| # Validate |
| # ==================================================== |
| |
| |
| # CIDRs |
| enb_cidr = conf["enb_cidr"] |
| ue_cidr = conf["ue_cidr"] |
| |
| cidrs = [enb_cidr, ue_cidr] |
| for cidr in cidrs: |
| if validate_cidr(cidr) is False: |
| exit(1, 'Invalid {}'.format(cidr)) |
| |
| # ==================================================== |
| # Core Setup |
| # ==================================================== |
| |
| |
| # Initialize workers |
| workers = 1 |
| try: |
| workers = int(conf["workers"]) |
| except ValueError: |
| print('Invalid workers value! Re-setting # of workers to 1.') |
| |
| cores = get_process_affinity() |
| for wid in xrange(workers): |
| bess.add_worker(wid=wid, core=int(cores[wid % len(cores)])) |
| |
| # ==================================================== |
| # Port Setup |
| # ==================================================== |
| |
| |
| interfaces = ["s1u", "sgi"] |
| ports = {} |
| for idx, interface in enumerate(interfaces): |
| port = Port(conf[interface]["ifname"]) |
| if port.name in ports: |
| continue |
| port.setup_port(idx, workers) |
| ports[port.name] = port |
| |
| s1u_ifname = conf["s1u"]["ifname"] |
| sgi_ifname = conf["sgi"]["ifname"] |
| |
| # ==================================================== |
| # Downlink Pipeline |
| # ==================================================== |
| |
| s1uRoutes = ports[s1u_ifname].rtr |
| |
| # Maximum number of sessions to manage |
| try: |
| max_sessions = int(conf["max_sessions"]) |
| except ValueError: |
| print('Invalid max_sessions value!') |
| |
| # Setting filter to detect UE subnet |
| sgiFastBPF = ports[sgi_ifname].bpf |
| UEGate = ports[sgi_ifname].bpf_gate() |
| ue_filter = {"priority": -UEGate, |
| "filter": "ip dst net {}".format(ue_cidr), "gate": UEGate} |
| sgiFastBPF.add(filters=[ue_filter]) |
| |
| sgiFastBPF:UEGate \ |
| -> EtherTrim::GenericDecap(bytes=14) \ |
| -> GTPUEncap::GtpuEncap(s1u_sgw_ip=ip2long(ips_by_interface(s1u_ifname)[0]), num_subscribers=max_sessions):1 \ |
| -> S1UEtherAdd::GenericEncap(fields=[ |
| {'size': 6, 'value': {'value_int': 0x0}}, |
| {'size': 6, 'value': {'value_int': mac2hex(mac_by_interface(s1u_ifname))}}, |
| {'size': 2, 'value': {'value_int': 0x0800}}]) \ |
| -> OuterUDPCsum::L4Checksum() \ |
| -> OuterIPCsum::IPChecksum() \ |
| -> s1uRoutes |
| |
| # Drop unknown packets |
| GTPUEncap:0 -> Sink() |
| |
| |
| # ==================================================== |
| # Uplink Pipeline |
| # ==================================================== |
| |
| |
| # Setting filter to detect gtpu traffic |
| # src net 11.1.1.0 mask 255.255.255.0 # check eNB subnet |
| # and dst host 11.1.1.1 # check S/PGWU IP |
| # and udp dst port 2152 # check GTPU port |
| # and (udp[28:4] & 0xffffff00) = 0x10000000 # check UE subnet |
| s1uFastBPF = ports[s1u_ifname].bpf |
| check_enb_subnet = "src net {} ".format(enb_cidr) |
| check_spgwu_ip = " and dst host " + \ |
| " or ".join(str(x) for x in ips_by_interface(s1u_ifname)) |
| check_gtpu_port = " and udp dst port 2152" |
| check_ue_subnet = " and (udp[28:4] & 0x{}) = 0x{}".format( |
| cidr2mask(ue_cidr), ip2hex(cidr2block(ue_cidr)[0])) |
| check_gtpu_msg_echo = " and udp[9] = 0x1" |
| |
| GTPUEchoGate = ports[s1u_ifname].bpf_gate() |
| uplink_echo_filter = {"priority": -GTPUEchoGate, "filter": check_enb_subnet + |
| check_spgwu_ip + check_gtpu_port + |
| check_gtpu_msg_echo, "gate": GTPUEchoGate} |
| s1uFastBPF.add(filters=[uplink_echo_filter]) |
| |
| GTPUGate = ports[s1u_ifname].bpf_gate() |
| uplink_filter = {"priority": -GTPUGate, "filter": check_enb_subnet + |
| check_spgwu_ip + check_gtpu_port, "gate": GTPUGate} |
| s1uFastBPF.add(filters=[uplink_filter]) |
| |
| sgiRoutes = ports[sgi_ifname].rtr |
| |
| s1uFastBPF:GTPUGate -> EtherDecapTrim::GenericDecap(bytes=14) -> GTPUDecap::GtpuDecap(ename="GTPUEncap"):1 \ |
| -> SGIEtherAdd::GenericEncap(fields=[ |
| {'size': 6, 'value': {'value_int': 0x0}}, |
| {'size': 6, 'value': {'value_int': mac2hex(mac_by_interface(sgi_ifname))}}, |
| {'size': 2, 'value': {'value_int': 0x0800}}]) \ |
| -> sgiRoutes |
| |
| s1uFastBPF:GTPUEchoGate \ |
| -> GTPUEcho::GtpuEcho(s1u_sgw_ip=ip2long(ips_by_interface(s1u_ifname)[0])):1 \ |
| -> EthSwap::MACSwap() \ |
| -> 1:OuterUDPCsum |
| |
| # Drop unknown packets |
| GTPUEcho:0 -> Sink() |
| GTPUDecap:0 -> Sink() |
| |
| |
| # ==================================================== |
| # SIM_TEST |
| # ==================================================== |
| |
| import time |
| |
| def sim_start_test(): |
| start_teid = 0xf0000000 |
| start_ue_ip = 0x10000001 |
| start_enb_ip = 0x0b010181 |
| NG4T_MAX_UE_RAN = 500000 |
| NG4T_MAX_ENB_RAN = 80 |
| |
| for i in range(max_sessions): |
| |
| # NG4T-based formula to calculate enodeB IP address against a given UE IP address |
| # il_trafficgen also uses the same scheme |
| # See SimuCPEnbv4Teid(...) in ngic code for more details |
| ue_of_ran = i % NG4T_MAX_UE_RAN |
| ran = i / NG4T_MAX_UE_RAN |
| enb_of_ran = ue_of_ran % NG4T_MAX_ENB_RAN |
| enb_idx = ran * NG4T_MAX_ENB_RAN + enb_of_ran |
| |
| GTPUEncap.add(teid=start_teid+i, eteid=i+1, ueaddr=start_ue_ip+i, enodeb_ip=start_enb_ip+enb_idx) |
| |
| def sim_end_test(): |
| start_ue_ip = 0x10000001 |
| |
| for i in range(max_sessions): |
| GTPUEncap.remove(ueaddr=start_ue_ip+i) |
| |
| GTPUEncap.show_records() |
| |
| ### Uncomment the following lines to test with il_trafficgen ### |
| # Start the test |
| #sim_start_test() |
| # Wait for 30 seconds before deleting the session info entries (optional) |
| #time.sleep(30) |
| #sim_end_test() |
| |
| # Finally send SIGHUP to route_control daemon on reload |
| # TODO: behavior is unspecified if route_control.py pid is not found |
| route_control_pid = getpythonpid('route_control.py') |
| if route_control_pid: |
| os.kill(route_control_pid, signal.SIGHUP) |