#!/router/bin/python from .stl_general_test import CStlGeneral_Test, CTRexScenario from trex_stl_lib.api import * import os, sys ERROR_LATENCY_TOO_HIGH = 1 class STLRX_Test(CStlGeneral_Test): """Tests for RX feature""" def setUp(self): per_driver_params = {"rte_vmxnet3_pmd": [1, 50, 1,False], "rte_ixgbe_pmd": [30, 1000, 1,True,300,400], "rte_i40e_pmd": [80, 1000, 1,True,100,250], "rte_igb_pmd": [80, 500, 1,False], "rte_em_pmd": [1, 50, 1,False], "rte_virtio_pmd": [1, 50, 1,False]} CStlGeneral_Test.setUp(self) assert 'bi' in CTRexScenario.stl_ports_map self.c = CTRexScenario.stl_trex self.tx_port, self.rx_port = CTRexScenario.stl_ports_map['bi'][0] port_info = self.c.get_port_info(ports = self.rx_port)[0] self.speed = port_info['speed'] cap = port_info['rx']['caps'] if "flow_stats" not in cap or "latency" not in cap: self.skip('port {0} does not support RX'.format(self.rx_port)) self.cap = cap drv_name = port_info['driver'] if drv_name == "rte_ixgbe_pmd": self.ipv6_support = False else: self.ipv6_support = True self.rate_percent = per_driver_params[drv_name][0] self.total_pkts = per_driver_params[drv_name][1] if len(per_driver_params[drv_name]) > 2: self.rate_lat = per_driver_params[drv_name][2] else: self.rate_lat = self.rate_percent self.lat_pps = 1000 self.drops_expected = False self.c.reset(ports = [self.tx_port, self.rx_port]) vm = STLScVmRaw( [ STLVmFlowVar ( "ip_src", min_value="10.0.0.1", max_value="10.0.0.255", size=4, step=1,op="inc"), STLVmWrFlowVar (fv_name="ip_src", pkt_offset= "IP.src" ), # write ip to packet IP.src STLVmFixIpv4(offset = "IP") # fix checksum ] # Latency is bound to one core. We test that this option is not causing trouble ,split_by_field = "ip_src" ,cache_size =255 # Cache is ignored by latency flows. Need to test it is not crashing. ); self.pkt = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025)/('Your_paylaod_comes_here')) self.ipv6pkt = STLPktBuilder(pkt = Ether()/IPv6(dst="2001:0:4137:9350:8000:f12a:b9c8:2815",src="2001:4860:0:2001::68") /UDP(dport=12,sport=1025)/('Your_paylaod_comes_here')) self.large_pkt = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025)/('a'*1000)) self.pkt_9k = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025)/('a'*9000)) self.vm_pkt = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1") / UDP(dport=12,sport=1025)/('Your_paylaod_comes_here') , vm = vm) self.vm_large_pkt = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025)/('a'*1000) , vm = vm) self.vm_9k_pkt = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025)/('a'*9000) ,vm = vm) self.latency_9k_enable=per_driver_params[drv_name][3] if self.latency_9k_enable: self.latency_9k_max_average = per_driver_params[drv_name][4] self.latency_9k_max_latency = per_driver_params[drv_name][5] @classmethod def tearDownClass(cls): if CTRexScenario.stl_init_error: return # connect back at end of tests if not cls.is_connected(): CTRexScenario.stl_trex.connect() def __verify_latency (self, latency_stats,max_latency,max_average): error=0; err_latency = latency_stats['err_cntrs'] latency = latency_stats['latency'] for key in err_latency : error +=err_latency[key] if error !=0 : pprint.pprint(err_latency) tmp = 'RX pkts ERROR - one of the error is on' print(tmp) assert False, tmp if latency['average']> max_average: pprint.pprint(latency_stats) tmp = 'Average latency is too high {0} {1} '.format(latency['average'], max_average) print(tmp) return ERROR_LATENCY_TOO_HIGH if latency['total_max']> max_latency: pprint.pprint(latency_stats) tmp = 'Max latency is too high {0} {1} '.format(latency['total_max'], max_latency) print(tmp) return ERROR_LATENCY_TOO_HIGH return 0 def __verify_flow (self, pg_id, total_pkts, pkt_len, stats): flow_stats = stats['flow_stats'].get(pg_id) latency_stats = stats['latency'].get(pg_id) if not flow_stats: assert False, "no flow stats available" tx_pkts = flow_stats['tx_pkts'].get(self.tx_port, 0) tx_bytes = flow_stats['tx_bytes'].get(self.tx_port, 0) rx_pkts = flow_stats['rx_pkts'].get(self.rx_port, 0) if latency_stats is not None: drops = latency_stats['err_cntrs']['dropped'] ooo = latency_stats['err_cntrs']['out_of_order'] dup = latency_stats['err_cntrs']['dup'] sth = latency_stats['err_cntrs']['seq_too_high'] stl = latency_stats['err_cntrs']['seq_too_low'] lat = latency_stats['latency'] if ooo != 0 or dup != 0 or stl != 0: pprint.pprint(latency_stats) tmp='Error packets - dropped:{0}, ooo:{1} dup:{2} seq too high:{3} seq too low:{4}'.format(drops, ooo, dup, sth, stl) assert False, tmp if (drops != 0 or sth != 0) and not self.drops_expected: pprint.pprint(latency_stats) tmp='Error packets - dropped:{0}, ooo:{1} dup:{2} seq too high:{3} seq too low:{4}'.format(drops, ooo, dup, sth, stl) assert False, tmp if tx_pkts != total_pkts: pprint.pprint(flow_stats) tmp = 'TX pkts mismatch - got: {0}, expected: {1}'.format(tx_pkts, total_pkts) assert False, tmp if tx_bytes != (total_pkts * pkt_len): pprint.pprint(flow_stats) tmp = 'TX bytes mismatch - got: {0}, expected: {1}'.format(tx_bytes, (total_pkts * pkt_len)) assert False, tmp if rx_pkts != total_pkts and not self.drops_expected: pprint.pprint(flow_stats) tmp = 'RX pkts mismatch - got: {0}, expected: {1}'.format(rx_pkts, total_pkts) assert False, tmp if "rx_bytes" in self.cap: rx_bytes = flow_stats['rx_bytes'].get(self.rx_port, 0) if rx_bytes != (total_pkts * pkt_len) and not self.drops_expected: pprint.pprint(flow_stats) tmp = 'RX bytes mismatch - got: {0}, expected: {1}'.format(rx_bytes, (total_pkts * pkt_len)) assert False, tmp # RX itreation def __rx_iteration (self, exp_list): self.c.clear_stats() self.c.start(ports = [self.tx_port]) self.c.wait_on_traffic(ports = [self.tx_port]) stats = self.c.get_stats() for exp in exp_list: self.__verify_flow(exp['pg_id'], exp['total_pkts'], exp['pkt_len'], stats) # one stream on TX --> RX def test_one_stream(self): total_pkts = self.total_pkts try: s1 = STLStream(name = 'rx', packet = self.pkt, flow_stats = STLFlowLatencyStats(pg_id = 5), mode = STLTXSingleBurst(total_pkts = total_pkts, percentage = self.rate_lat )) # add both streams to ports self.c.add_streams([s1], ports = [self.tx_port]) print("\ninjecting {0} packets on port {1}\n".format(total_pkts, self.tx_port)) exp = {'pg_id': 5, 'total_pkts': total_pkts, 'pkt_len': s1.get_pkt_len()} self.__rx_iteration( [exp] ) except STLError as e: assert False , '{0}'.format(e) def test_multiple_streams(self): if self.is_virt_nics: self.skip('Skip this for virtual NICs') num_latency_streams = 128 num_flow_stat_streams = 127 total_pkts = int(self.total_pkts / (num_latency_streams + num_flow_stat_streams)) if total_pkts == 0: total_pkts = 1 percent = float(self.rate_lat) / (num_latency_streams + num_flow_stat_streams) try: streams = [] exp = [] # 10 identical streams for pg_id in range(1, num_latency_streams): streams.append(STLStream(name = 'rx {0}'.format(pg_id), packet = self.pkt, flow_stats = STLFlowLatencyStats(pg_id = pg_id), mode = STLTXSingleBurst(total_pkts = total_pkts+pg_id, percentage = percent))) exp.append({'pg_id': pg_id, 'total_pkts': total_pkts+pg_id, 'pkt_len': streams[-1].get_pkt_len()}) for pg_id in range(num_latency_streams + 1, num_latency_streams + num_flow_stat_streams): streams.append(STLStream(name = 'rx {0}'.format(pg_id), packet = self.pkt, flow_stats = STLFlowStats(pg_id = pg_id), mode = STLTXSingleBurst(total_pkts = total_pkts+pg_id, percentage = percent))) exp.append({'pg_id': pg_id, 'total_pkts': total_pkts+pg_id, 'pkt_len': streams[-1].get_pkt_len()}) # add both streams to ports self.c.add_streams(streams, ports = [self.tx_port]) self.__rx_iteration(exp) except STLError as e: assert False , '{0}'.format(e) def test_1_stream_many_iterations (self): total_pkts = self.total_pkts try: streams_data = [ {'name': 'Flow stat. No latency', 'pkt': self.pkt, 'lat': False}, {'name': 'Latency, no field engine', 'pkt': self.pkt, 'lat': True}, {'name': 'Latency, short packet with field engine', 'pkt': self.vm_pkt, 'lat': True}, {'name': 'Latency, large packet field engine', 'pkt': self.vm_large_pkt, 'lat': True} ] if self.latency_9k_enable: streams_data.append({'name': 'Latency, 9k packet with field engine', 'pkt': self.vm_9k_pkt, 'lat': True}) if self.ipv6_support: streams_data.append({'name': 'IPv6 flow stat. No latency', 'pkt': self.ipv6pkt, 'lat': False}) streams_data.append({'name': 'IPv6 latency, no field engine', 'pkt': self.ipv6pkt, 'lat': True}) streams = [] for data in streams_data: if data['lat']: flow_stats = STLFlowLatencyStats(pg_id = 5) mode = STLTXSingleBurst(total_pkts = total_pkts, percentage = self.rate_percent) else: flow_stats = STLFlowStats(pg_id = 5) mode = STLTXSingleBurst(total_pkts = total_pkts, pps = self.lat_pps) s = STLStream(name = data['name'], packet = data['pkt'], flow_stats = flow_stats, mode = mode ) streams.append(s) print("\ninjecting {0} packets on port {1}".format(total_pkts, self.tx_port)) exp = {'pg_id': 5, 'total_pkts': total_pkts} for stream in streams: self.c.add_streams([stream], ports = [self.tx_port]) print("Stream: {0}".format(stream.name)) exp['pkt_len'] = stream.get_pkt_len() for i in range(0, 10): print("Iteration {0}".format(i)) self.__rx_iteration( [exp] ) self.c.remove_all_streams(ports = [self.tx_port]) except STLError as e: assert False , '{0}'.format(e) def __9k_stream(self,pgid,ports,precet,max_latency,avg_latency,duration,pkt_size): my_pg_id=pgid s_ports=ports; all_ports=list(CTRexScenario.stl_ports_map['map'].keys()); if ports == None: s_ports=all_ports assert( type(s_ports)==list) stream_pkt = STLPktBuilder(pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025)/('a'*pkt_size)) try: # reset all ports self.c.reset(ports = all_ports) for pid in s_ports: s1 = STLStream(name = 'rx', packet = self.pkt, flow_stats = STLFlowLatencyStats(pg_id = my_pg_id+pid), mode = STLTXCont(pps = 1000)) s2 = STLStream(name = 'bulk', packet = stream_pkt, mode = STLTXCont(percentage =precet)) # add both streams to ports self.c.add_streams([s1,s2], ports = [pid]) self.c.clear_stats() self.c.start(ports = s_ports,duration = duration) self.c.wait_on_traffic(ports = s_ports,timeout = duration+10,rx_delay_ms = 100) stats = self.c.get_stats() for pid in s_ports: latency_stats = stats['latency'].get(my_pg_id+pid) #pprint.pprint(latency_stats) if self.__verify_latency (latency_stats,max_latency,avg_latency) !=0: return (ERROR_LATENCY_TOO_HIGH); return 0 except STLError as e: assert False , '{0}'.format(e) # check low latency when you have stream of 9K stream def test_9k_stream(self): if self.is_virt_nics: self.skip('Skip this for virtual NICs') if self.latency_9k_enable == False: print("SKIP") return for i in range(0,5): print("Iteration {0}".format(i)); duration=random.randint(10, 70); pgid=random.randint(1, 65000); pkt_size=random.randint(1000, 9000); all_ports = list(CTRexScenario.stl_ports_map['map'].keys()); s_port=random.sample(all_ports, random.randint(1, len(all_ports)) ) s_port=sorted(s_port) if self.speed == 40 : # the NIC does not support all full rate in case both port works let's filter odd ports s_port=list(filter(lambda x: x % 2==0, s_port)) if len(s_port)==0: s_port=[0]; error=1; for j in range(0,5): print(" {4} - duration {0} pgid {1} pkt_size {2} s_port {3} ".format(duration,pgid,pkt_size,s_port,j)); if self.__9k_stream(pgid, s_port,90, self.latency_9k_max_latency, self.latency_9k_max_average, duration, pkt_size)==0: error=0; break; if error: assert False , "Latency too high" else: print("===>Iteration {0} PASS {1}".format(i,j)); def check_stats (self,stats,a,b,err): if a != b: tmp = 'ERROR field : {0}, read : {1} != expected : {2} '.format(err,a,b) pprint.pprint(stats) assert False,tmp def send_1_burst(self,from_port,is_latency,pkts): pid = from_port base_pkt = Ether()/IP(src="16.0.0.1",dst="48.0.0.1")/UDP(dport=12,sport=1025) pad = (60 - len(base_pkt)) * 'x' stream_pkt = STLPktBuilder(pkt = base_pkt/pad) all_ports=list(CTRexScenario.stl_ports_map['map'].keys()); dpid = CTRexScenario.stl_ports_map['map'][pid] s_ports =[pid] try: # reset all ports self.c.reset(ports = all_ports) for pid in s_ports: if is_latency: s1 = STLStream(name = 'rx', packet = stream_pkt, flow_stats = STLFlowLatencyStats(pg_id = 5 + pid), mode = STLTXSingleBurst(total_pkts = pkts,pps = 1000)) else: s1 = STLStream(name = 'rx', packet = stream_pkt, mode = STLTXSingleBurst(total_pkts = pkts,pps = 1000)) # add both streams to ports self.c.add_streams(s1, ports = [pid]) self.c.clear_stats() self.c.start(ports = s_ports) self.c.wait_on_traffic(ports = s_ports) stats = self.c.get_stats() ips = stats[dpid] ops = stats[pid] tps = stats['total'] tbytes = pkts*64 self.check_stats (stats,ops["obytes"], tbytes,"ops[obytes]") self.check_stats (stats,ops["opackets"], pkts,"ops[opackets]") self.check_stats (stats,ips["ibytes"], tbytes,"ips[ibytes]") self.check_stats (stats,ips["ipackets"], pkts,"ips[ipackets]") self.check_stats (stats,tps['ibytes'], tbytes,"tps[ibytes]") self.check_stats (stats,tps['obytes'], tbytes,"tps[obytes]") self.check_stats (stats,tps['ipackets'], pkts,"tps[ipackets]") self.check_stats (stats,tps['opackets'], pkts,"tps[opackets]") if is_latency: ls=stats['flow_stats'][5+ pid] self.check_stats (stats,ls['rx_pkts']['total'], pkts,"ls['rx_pkts']['total']") self.check_stats (stats,ls['rx_pkts'][dpid], pkts,"ls['rx_pkts'][dpid]") self.check_stats (stats,ls['tx_pkts']['total'], pkts,"ls['tx_pkts']['total']") self.check_stats (stats,ls['tx_pkts'][pid], pkts,"ls['tx_pkts'][pid]") self.check_stats (stats,ls['tx_bytes']['total'], tbytes,"ls['tx_bytes']['total']") self.check_stats (stats,ls['tx_bytes'][pid], tbytes,"ls['tx_bytes'][pid]") return 0 except STLError as e: assert False , '{0}'.format(e) def test_fcs_stream(self): """ this test send 1 64 byte packet with latency and check that all counters are reported as 64 bytes""" if self.is_virt_nics: self.skip('Skip this for virtual NICs') all_ports=list(CTRexScenario.stl_ports_map['map'].keys()); for port in all_ports: for l in [True,False]: print(" test port {0} latency : {1} ".format(port,l)) self.send_1_burst(port,l,100) # this test adds more and more latency streams and re-test with incremental def test_incremental_latency_streams (self): if self.is_virt_nics: self.skip('Skip this for virtual NICs') total_pkts = self.total_pkts percent = 0.5 try: # We run till maximum streams allowed. At some point, expecting drops, because rate is too high. # then run with less streams again, to see that system is still working. for num_iter in [128, 5]: exp = [] for i in range(1, num_iter): # mix small and large packets if i % 2 != 0: my_pkt = self.pkt else: my_pkt = self.large_pkt s1 = STLStream(name = 'rx', packet = my_pkt, flow_stats = STLFlowLatencyStats(pg_id = i), mode = STLTXSingleBurst(total_pkts = total_pkts, percentage = percent )) # add both streams to ports self.c.add_streams([s1], ports = [self.tx_port]) total_percent = i * percent if total_percent > self.rate_lat: self.drops_expected = True else: self.drops_expected = False print("port {0} : {1} streams at {2}% of line rate\n".format(self.tx_port, i, total_percent)) exp.append({'pg_id': i, 'total_pkts': total_pkts, 'pkt_len': s1.get_pkt_len()}) self.__rx_iteration( exp ) self.c.remove_all_streams(ports = [self.tx_port]) except STLError as e: assert False , '{0}'.format(e)