fragattacks/tests/remote/rutils.py
Jonathan Afek 04fd8ea1ba tests/remote: Use a function to add a log file to a remote host
Instead of accessing the logs list member of the remote host directly,
use a function to add logs to the remote host to be collected after the
test. This enables us to later have different implementation of remote
hosts or logs collection without requiring to have this list as the
implementation.

Signed-off-by: Jonathan Afek <jonathanx.afek@intel.com>
2016-05-28 16:33:48 +03:00

544 lines
16 KiB
Python

# Utils
# Copyright (c) 2016, Tieto Corporation
#
# This software may be distributed under the terms of the BSD license.
# See README for more details.
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 - hw specyfic
def setup_hw(hosts, setup_params):
for host in hosts:
setup_hw_host(host, setup_params)
def setup_hw_host(host, setup_params):
try:
setup_hw = setup_params['setup_hw']
restart = ""
try:
if setup_params['restart_device'] == True:
restart = " -R "
except:
pass
host.execute([setup_hw, "-I", host.ifname, restart])
except:
pass
# 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)
status, buf = host.execute([setup_params['hostapd'], "-B", "-ddt", "-g", "udp:" + host.port, 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)
status, buf = host.execute([setup_params['wpa_supplicant'], "-B", "-ddt", "-g", "udp:" + host.port, log])
if status != 0:
raise Exception("Could not run wpa_supplicant: " + buf)
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:
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]
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":
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.execute_run(ping, result)
return thread
def ping_wait(host, thread, timeout=None):
host.wait_execute_complete(thread, timeout)
if thread.isAlive():
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.execute_run(iperf_server, server_res)
time.sleep(1)
client_thread = client.execute_run(iperf_client, client_res)
return server_thread, client_thread
def iperf_wait(server, client, server_thread, client_thread, timeout=None, iperf="iperf"):
client.wait_execute_complete(client_thread, timeout)
if client_thread.isAlive():
raise Exception("iperf client thread still alive")
server.wait_execute_complete(server_thread, 5)
if server_thread.isAlive():
server.execute(["killall", "-s", "INT", iperf])
time.sleep(1)
server.wait_execute_complete(server_thread, 5)
if server_thread.isAlive():
raise Execption("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"