# Utils # Copyright (c) 2016, Tieto Corporation # # This software may be distributed under the terms of the BSD license. # See README for more details. import re import time from remotehost import Host import hostapd import config class TestSkip(Exception): def __init__(self, reason): self.reason = reason def __str__(self): return self.reason # get host based on name def get_host(devices, dev_name): dev = config.get_device(devices, dev_name) host = Host(host=dev['hostname'], ifname=dev['ifname'], port=dev['port'], name=dev['name']) host.dev = dev return host # Run setup_hw - hardware specific def setup_hw_host_iface(host, iface, setup_params, force_restart=False): try: setup_hw = setup_params['setup_hw'] restart = "" try: if setup_params['restart_device'] == True: restart = "-R" except: pass if force_restart: restart = "-R" host.execute([setup_hw, "-I", iface, restart]) except: pass def setup_hw_host(host, setup_params, force_restart=False): ifaces = re.split('; | |, ', host.ifname) for iface in ifaces: setup_hw_host_iface(host, iface, setup_params, force_restart) def setup_hw(hosts, setup_params, force_restart=False): for host in hosts: setup_hw_host(host, setup_params, force_restart) # get traces - hw specific def trace_start(hosts, setup_params): for host in hosts: trace_start_stop(host, setup_params, start=True) def trace_stop(hosts, setup_params): for host in hosts: trace_start_stop(host, setup_params, start=False) def trace_start_stop(host, setup_params, start): if setup_params['trace'] == False: return try: start_trace = setup_params['trace_start'] stop_trace = setup_params['trace_stop'] if start: cmd = start_trace else: cmd = stop_trace trace_dir = setup_params['log_dir'] + host.ifname + "/remote_traces" host.add_log(trace_dir + "/*") host.execute([cmd, "-I", host.ifname, "-D", trace_dir]) except: pass # get perf def perf_start(hosts, setup_params): for host in hosts: perf_start_stop(host, setup_params, start=True) def perf_stop(hosts, setup_params): for host in hosts: perf_start_stop(host, setup_params, start=False) def perf_start_stop(host, setup_params, start): if setup_params['perf'] == False: return try: perf_start = setup_params['perf_start'] perf_stop = setup_params['perf_stop'] if start: cmd = perf_start else: cmd = perf_stop perf_dir = setup_params['log_dir'] + host.ifname + "/remote_perf" host.add_log(perf_dir + "/*") host.execute([cmd, "-I", host.ifname, "-D", perf_dir]) except: pass # hostapd/wpa_supplicant helpers def run_hostapd(host, setup_params): log_file = None try: tc_name = setup_params['tc_name'] log_dir = setup_params['log_dir'] log_file = log_dir + tc_name + "_hostapd_" + host.name + "_" + host.ifname + ".log" host.execute(["rm", log_file]) log = " -f " + log_file except: log = "" if log_file: host.add_log(log_file) pidfile = setup_params['log_dir'] + "hostapd_" + host.ifname + "_" + setup_params['tc_name'] + ".pid" status, buf = host.execute([setup_params['hostapd'], "-B", "-ddt", "-g", "udp:" + host.port, "-P", pidfile, log]) if status != 0: raise Exception("Could not run hostapd: " + buf) def run_wpasupplicant(host, setup_params): log_file = None try: tc_name = setup_params['tc_name'] log_dir = setup_params['log_dir'] log_file = log_dir + tc_name + "_wpa_supplicant_" + host.name + "_" + host.ifname + ".log" host.execute(["rm", log_file]) log = " -f " + log_file except: log = "" if log_file: host.add_log(log_file) pidfile = setup_params['log_dir'] + "wpa_supplicant_" + host.ifname + "_" + setup_params['tc_name'] + ".pid" status, buf = host.execute([setup_params['wpa_supplicant'], "-B", "-ddt", "-g", "udp:" + host.port, "-P", pidfile, log]) if status != 0: raise Exception("Could not run wpa_supplicant: " + buf) def kill_wpasupplicant(host, setup_params): pidfile = setup_params['log_dir'] + "wpa_supplicant_" + host.ifname + "_" + setup_params['tc_name'] + ".pid" host.execute(["kill `cat " + pidfile + "`"]) def kill_hostapd(host, setup_params): pidfile = setup_params['log_dir'] + "hostapd_" + host.ifname + "_" + setup_params['tc_name'] + ".pid" host.execute(["kill `cat " + pidfile + "`"]) def get_ap_params(channel="1", bw="HT20", country="US", security="open", ht_capab=None, vht_capab=None): ssid = "test_" + channel + "_" + security + "_" + bw if bw == "b_only": params = hostapd.b_only_params(channel, ssid, country) elif bw == "g_only": params = hostapd.g_only_params(channel, ssid, country) elif bw == "g_only_wmm": params = hostapd.g_only_params(channel, ssid, country) params['wmm_enabled'] = "1" elif bw == "a_only": params = hostapd.a_only_params(channel, ssid, country) elif bw == "a_only_wmm": params = hostapd.a_only_params(channel, ssid, country) params['wmm_enabled'] = "1" elif bw == "HT20": params = hostapd.ht20_params(channel, ssid, country) if ht_capab: try: params['ht_capab'] = params['ht_capab'] + ht_capab except: params['ht_capab'] = ht_capab elif bw == "HT40+": params = hostapd.ht40_plus_params(channel, ssid, country) if ht_capab: params['ht_capab'] = params['ht_capab'] + ht_capab elif bw == "HT40-": params = hostapd.ht40_minus_params(channel, ssid, country) if ht_capab: params['ht_capab'] = params['ht_capab'] + ht_capab elif bw == "VHT80": params = hostapd.ht40_plus_params(channel, ssid, country) if ht_capab: params['ht_capab'] = params['ht_capab'] + ht_capab if vht_capab: try: params['vht_capab'] = params['vht_capab'] + vht_capab except: params['vht_capab'] = vht_capab params['ieee80211ac'] = "1" params['vht_oper_chwidth'] = "1" params['vht_oper_centr_freq_seg0_idx'] = str(int(channel) + 6) else: params = {} # now setup security params if security == "tkip": sec_params = hostapd.wpa_params(passphrase="testtest") elif security == "ccmp": sec_params = hostapd.wpa2_params(passphrase="testtest") elif security == "mixed": sec_params = hostapd.wpa_mixed_params(passphrase="testtest") elif security == "wep": sec_params = {"wep_key0" : "123456789a", "wep_default_key" : "0", "auth_algs" : "1"} elif security == "wep_shared": sec_params = {"wep_key0" : "123456789a", "wep_default_key" : "0", "auth_algs" : "2"} else: sec_params = {} params.update(sec_params) return params # ip helpers def get_ipv4(client, ifname=None): if ifname is None: ifname = client.ifname status, buf = client.execute(["ifconfig", ifname]) lines = buf.splitlines() for line in lines: res = line.find("inet addr:") if res != -1: break if res != -1: words = line.split() addr = words[1].split(":") return addr[1] return "unknown" def get_ipv6(client, ifname=None): res = -1 if ifname is None: ifname = client.ifname status, buf = client.execute(["ifconfig", ifname]) lines = buf.splitlines() for line in lines: res = line.find("Scope:Link") if res == -1: res = line.find("") if res != -1: break if res != -1: words = line.split() if words[0] == "inet6" and words[1] == "addr:": addr_mask = words[2] addr = addr_mask.split("/") return addr[0] if words[0] == "inet6": return words[1] return "unknown" def get_ip(client, addr_type="ipv6", iface=None): if addr_type == "ipv6": return get_ipv6(client, iface) elif addr_type == "ipv4": return get_ipv4(client, iface) else: return "unknown addr_type: " + addr_type def get_ipv4_addr(setup_params, number): try: ipv4_base = setup_params['ipv4_test_net'] except: ipv4_base = "172.16.12.0" parts = ipv4_base.split('.') ipv4 = parts[0] + "." + parts[1] + "." + parts[2] + "." + str(number) return ipv4 def get_mac_addr(host, iface=None): if iface == None: iface = host.ifname status, buf = host.execute(["ifconfig", iface]) if status != 0: raise Exception("ifconfig " + iface) words = buf.split() found = 0 for word in words: if found == 1: return word if word == "HWaddr" or word == "ether": found = 1 raise Exception("Could not find HWaddr") # connectivity/ping helpers def get_ping_packet_loss(ping_res): loss_line = "" lines = ping_res.splitlines() for line in lines: if line.find("packet loss") != -1: loss_line = line break; if loss_line == "": return "100%" sections = loss_line.split(",") for section in sections: if section.find("packet loss") != -1: words = section.split() return words[0] return "100%" def ac_to_ping_ac(qos): if qos == "be": qos_param = "0x00" elif qos == "bk": qos_param = "0x20" elif qos == "vi": qos_param = "0xA0" elif qos == "vo": qos_param = "0xE0" else: qos_param = "0x00" return qos_param def ping_run(host, ip, result, ifname=None, addr_type="ipv4", deadline="5", qos=None): if ifname is None: ifname = host.ifname if addr_type == "ipv6": ping = ["ping6"] else: ping = ["ping"] ping = ping + ["-w", deadline, "-I", ifname] if qos: ping = ping + ["-Q", ac_to_ping_ac(qos)] ping = ping + [ip] flush_arp_cache(host) thread = host.thread_run(ping, result) return thread def ping_wait(host, thread, timeout=None): host.thread_wait(thread, timeout) if thread.is_alive(): raise Exception("ping thread still alive") def flush_arp_cache(host): host.execute(["ip", "-s", "-s", "neigh", "flush", "all"]) def check_connectivity(a, b, addr_type="ipv4", deadline="5", qos=None): addr_a = get_ip(a, addr_type) addr_b = get_ip(b, addr_type) if addr_type == "ipv4": ping = ["ping"] else: ping = ["ping6"] ping_a_b = ping + ["-w", deadline, "-I", a.ifname] ping_b_a = ping + ["-w", deadline, "-I", b.ifname] if qos: ping_a_b = ping_a_b + ["-Q", ac_to_ping_ac(qos)] ping_b_a = ping_b_a + ["-Q", ac_to_ping_ac(qos)] ping_a_b = ping_a_b + [addr_b] ping_b_a = ping_b_a + [addr_a] # Clear arp cache flush_arp_cache(a) flush_arp_cache(b) status, buf = a.execute(ping_a_b) if status == 2 and ping == "ping6": # tentative possible for a while, try again time.sleep(3) status, buf = a.execute(ping_a_b) if status != 0: raise Exception("ping " + a.name + "/" + a.ifname + " >> " + b.name + "/" + b.ifname) a_b = get_ping_packet_loss(buf) # Clear arp cache flush_arp_cache(a) flush_arp_cache(b) status, buf = b.execute(ping_b_a) if status != 0: raise Exception("ping " + b.name + "/" + b.ifname + " >> " + a.name + "/" + a.ifname) b_a = get_ping_packet_loss(buf) if int(a_b[:-1]) > 40: raise Exception("Too high packet lost: " + a_b) if int(b_a[:-1]) > 40: raise Exception("Too high packet lost: " + b_a) return a_b, b_a # iperf helpers def get_iperf_speed(iperf_res, pattern="Mbits/sec"): lines = iperf_res.splitlines() sum_line = "" last_line = "" count = 0 res = -1 # first find last SUM line for line in lines: res = line.find("[SUM]") if res != -1: sum_line = line # next check SUM status if sum_line != "": words = sum_line.split() for word in words: res = word.find(pattern) if res != -1: return words[count - 1] + " " + pattern count = count + 1 # no SUM - one thread - find last line for line in lines: res = line.find(pattern) if res != -1: last_line = line if last_line == "": return "0 " + pattern count = 0 words = last_line.split() for word in words: res = word.find(pattern) if res != -1: return words[count - 1] + " " + pattern break; count = count + 1 return "0 " + pattern def ac_to_iperf_ac(qos): if qos == "be": qos_param = "0x00" elif qos == "bk": qos_param = "0x20" elif qos == "vi": qos_param = "0xA0" elif qos == "vo": qos_param = "0xE0" else: qos_param = "0x00" return qos_param def iperf_run(server, client, server_ip, client_res, server_res, l4="udp", bw="30M", test_time="30", parallel="5", qos="be", param=" -i 5 ", ifname=None, l3="ipv4", port="5001", iperf="iperf"): if ifname == None: ifname = client.ifname if iperf == "iperf": iperf_server = [iperf] elif iperf == "iperf3": iperf_server = [iperf, "-1"] if l3 == "ipv4": iperf_client = [iperf, "-c", server_ip, "-p", port] iperf_server = iperf_server + ["-p", port] elif l3 == "ipv6": iperf_client = [iperf, "-V", "-c", server_ip + "%" + ifname, "-p", port] iperf_server = iperf_server + ["-V", "-p", port] else: return -1, -1 iperf_server = iperf_server + ["-s", "-f", "m", param] iperf_client = iperf_client + ["-f", "m", "-t", test_time] if parallel != "1": iperf_client = iperf_client + ["-P", parallel] if l4 == "udp": if iperf != "iperf3": iperf_server = iperf_server + ["-u"] iperf_client = iperf_client + ["-u", "-b", bw] if qos: iperf_client = iperf_client + ["-Q", ac_to_iperf_ac(qos)] flush_arp_cache(server) flush_arp_cache(client) server_thread = server.thread_run(iperf_server, server_res) time.sleep(1) client_thread = client.thread_run(iperf_client, client_res) return server_thread, client_thread def iperf_wait(server, client, server_thread, client_thread, timeout=None, iperf="iperf"): client.thread_wait(client_thread, timeout) if client_thread.is_alive(): raise Exception("iperf client thread still alive") server.thread_wait(server_thread, 5) if server_thread.is_alive(): server.execute(["killall", "-s", "INT", iperf]) time.sleep(1) server.thread_wait(server_thread, 5) if server_thread.is_alive(): raise Exception("iperf server thread still alive") return def run_tp_test(server, client, l3="ipv4", iperf="iperf", l4="tcp", test_time="10", parallel="5", qos="be", bw="30M", ifname=None, port="5001"): client_res = [] server_res = [] server_ip = get_ip(server, l3) time.sleep(1) server_thread, client_thread = iperf_run(server, client, server_ip, client_res, server_res, l3=l3, iperf=iperf, l4=l4, test_time=test_time, parallel=parallel, qos=qos, bw=bw, ifname=ifname, port=port) iperf_wait(server, client, server_thread, client_thread, iperf=iperf, timeout=int(test_time) + 10) if client_res[0] != 0: raise Exception(iperf + " client: " + client_res[1]) if server_res[0] != 0: raise Exception(iperf + " server: " + server_res[1]) if client_res[1] is None: raise Exception(iperf + " client result issue") if server_res[1] is None: raise Exception(iperf + " server result issue") if iperf == "iperf": result = server_res[1] if iperf == "iperf3": result = client_res[1] speed = get_iperf_speed(result) return speed def get_iperf_bw(bw, parallel, spacial_streams=2): if bw == "b_only": max_tp = 11 elif bw == "g_only" or bw == "g_only_wmm" or bw == "a_only" or bw == "a_only_wmm": max_tp = 54 elif bw == "HT20": max_tp = 72 * spacial_streams elif bw == "HT40+" or bw == "HT40-": max_tp = 150 * spacial_streams elif bw == "VHT80": max_tp = 433 * spacial_streams else: max_tp = 150 max_tp = 1.2 * max_tp return str(int(max_tp/int(parallel))) + "M"