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if self.ADBIPAddress == '' or self.ADBUserName == '' or self.ADBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
pStatus = self.CheckProcessExist(check_eNB, check_OAI_UE)
if (pStatus < 0):
self.CreateHtmlTestRow('N/A', 'KO', pStatus)
self.CreateHtmlTabFooter(False)
multi_jobs = []
for device_id in self.UEDevices:
p = Process(target = self.DetachUE_common, args = (device_id,))
p.daemon = True
p.start()
multi_jobs.append(p)
for job in multi_jobs:
job.join()
self.CreateHtmlTestRow('N/A', 'OK', ALL_PROCESSES_OK)
result = re.search('T_stdout', str(self.Initialize_eNB_args))
if result is not None:
logging.debug('Waiting 5 seconds to fill up record file')
time.sleep(5)
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def RebootUE_common(self, device_id):
try:
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
previousmDataConnectionStates = []
# Save mDataConnectionState
self.command('stdbuf -o0 adb -s ' + device_id + ' shell dumpsys telephony.registry | grep mDataConnectionState', '\$', 15)
self.command('stdbuf -o0 adb -s ' + device_id + ' shell dumpsys telephony.registry | grep mDataConnectionState', '\$', 15)
result = re.search('mDataConnectionState.*=(?P<state>[0-9\-]+)', str(self.ssh.before))
if result is None:
logging.debug('\u001B[1;37;41m mDataConnectionState Not Found! \u001B[0m')
sys.exit(1)
previousmDataConnectionStates.append(int(result.group('state')))
# Reboot UE
self.command('stdbuf -o0 adb -s ' + device_id + ' shell reboot', '\$', 10)
time.sleep(60)
previousmDataConnectionState = previousmDataConnectionStates.pop(0)
count = 180
while count > 0:
count = count - 1
self.command('stdbuf -o0 adb -s ' + device_id + ' shell dumpsys telephony.registry | grep mDataConnectionState', '\$', 15)
result = re.search('mDataConnectionState.*=(?P<state>[0-9\-]+)', str(self.ssh.before))
if result is None:
mDataConnectionState = None
else:
mDataConnectionState = int(result.group('state'))
logging.debug('mDataConnectionState = ' + result.group('state'))
if mDataConnectionState is None or (previousmDataConnectionState == 2 and mDataConnectionState != 2):
logging.debug('\u001B[1mWait UE (' + device_id + ') a second until reboot completion (' + str(180-count) + ' times)\u001B[0m')
time.sleep(1)
else:
logging.debug('\u001B[1mUE (' + device_id + ') Reboot Completed\u001B[0m')
break
if count == 0:
logging.debug('\u001B[1;37;41m UE (' + device_id + ') Reboot Failed \u001B[0m')
sys.exit(1)
self.close()
except:
os.kill(os.getppid(),signal.SIGUSR1)
def RebootUE(self):
if self.ADBIPAddress == '' or self.ADBUserName == '' or self.ADBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
pStatus = self.CheckProcessExist(check_eNB, check_OAI_UE)
if (pStatus < 0):
self.CreateHtmlTestRow('N/A', 'KO', pStatus)
self.CreateHtmlTabFooter(False)
multi_jobs = []
for device_id in self.UEDevices:
p = Process(target = self.RebootUE_common, args = (device_id,))
p.daemon = True
p.start()
multi_jobs.append(p)
for job in multi_jobs:
job.join()
self.CreateHtmlTestRow('N/A', 'OK', ALL_PROCESSES_OK)
def GetAllUEDevices(self, terminate_ue_flag):
if self.ADBIPAddress == '' or self.ADBUserName == '' or self.ADBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
self.command('adb devices', '\$', 15)
self.UEDevices = re.findall("\\\\r\\\\n([A-Za-z0-9]+)\\\\tdevice",str(self.ssh.before))
if terminate_ue_flag == False:
if len(self.UEDevices) == 0:
logging.debug('\u001B[1;37;41m UE Not Found! \u001B[0m')
sys.exit(1)
self.close()
def GetAllCatMDevices(self, terminate_ue_flag):
if self.ADBIPAddress == '' or self.ADBUserName == '' or self.ADBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
self.command('lsusb | egrep "Future Technology Devices International, Ltd FT2232C" | sed -e "s#:.*##" -e "s# #_#g"', '\$', 15)
self.CatMDevices = re.findall("\\\\r\\\\n([A-Za-z0-9_]+)",str(self.ssh.before))
if terminate_ue_flag == False:
if len(self.CatMDevices) == 0:
logging.debug('\u001B[1;37;41m CAT-M UE Not Found! \u001B[0m')
sys.exit(1)
self.close()
def GetAllUEIPAddresses(self):
if self.ADBIPAddress == '' or self.ADBUserName == '' or self.ADBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
self.UEIPAddresses = []
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
for device_id in self.UEDevices:
count = 0
while count < 4:
self.command('stdbuf -o0 adb -s ' + device_id + ' shell ip addr show | grep rmnet', '\$', 15)
result = re.search('inet (?P<ueipaddress>[0-9]+\.[0-9]+\.[0-9]+\.[0-9]+)\/[0-9]+[0-9a-zA-Z\.\s]+', str(self.ssh.before))
if result is None:
logging.debug('\u001B[1;37;41m UE IP Address Not Found! \u001B[0m')
count += 1
else:
count = 10
if count < 9:
ue_ip_status -= 1
continue
UE_IPAddress = result.group('ueipaddress')
logging.debug('\u001B[1mUE (' + device_id + ') IP Address is ' + UE_IPAddress + '\u001B[0m')
for ueipaddress in self.UEIPAddresses:
if ueipaddress == UE_IPAddress:
logging.debug('\u001B[1mUE (' + device_id + ') IP Address ' + UE_IPAddress + 'has been existed!' + '\u001B[0m')
ue_ip_status -= 1
continue
self.UEIPAddresses.append(UE_IPAddress)
def ping_iperf_wrong_exit(self, lock, UE_IPAddress, device_id, statusQueue, message):
lock.acquire()
statusQueue.put(-1)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
statusQueue.put(message)
lock.release()
def Ping_common(self, lock, UE_IPAddress, device_id, statusQueue):
try:
self.open(self.EPCIPAddress, self.EPCUserName, self.EPCPassword)
self.command('cd ' + self.EPCSourceCodePath, '\$', 5)
self.command('cd scripts', '\$', 5)
ping_time = re.findall("-c (\d+)",str(self.ping_args))
ping_status = self.command('stdbuf -o0 ping ' + self.ping_args + ' ' + UE_IPAddress + ' 2>&1 | stdbuf -o0 tee ping_' + self.testCase_id + '_' + device_id + '.log', '\$', int(ping_time[0])*1.5)
# TIMEOUT CASE
if ping_status < 0:
message = 'Ping with UE (' + str(UE_IPAddress) + ') crashed due to TIMEOUT!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
return
result = re.search(', (?P<packetloss>[0-9\.]+)% packet loss, time [0-9\.]+ms', str(self.ssh.before))
if result is None:
message = 'Packet Loss Not Found!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
packetloss = result.group('packetloss')
if float(packetloss) == 100:
message = 'Packet Loss is 100%'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
result = re.search('rtt min\/avg\/max\/mdev = (?P<rtt_min>[0-9\.]+)\/(?P<rtt_avg>[0-9\.]+)\/(?P<rtt_max>[0-9\.]+)\/[0-9\.]+ ms', str(self.ssh.before))
if result is None:
message = 'Ping RTT_Min RTT_Avg RTT_Max Not Found!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
rtt_min = result.group('rtt_min')
rtt_avg = result.group('rtt_avg')
rtt_max = result.group('rtt_max')
pal_msg = 'Packet Loss : ' + packetloss + '%'
min_msg = 'RTT(Min) : ' + rtt_min + ' ms'
avg_msg = 'RTT(Avg) : ' + rtt_avg + ' ms'
max_msg = 'RTT(Max) : ' + rtt_max + ' ms'
lock.acquire()
logging.debug('\u001B[1;37;44m ping result (' + UE_IPAddress + ') \u001B[0m')
logging.debug('\u001B[1;34m ' + pal_msg + '\u001B[0m')
logging.debug('\u001B[1;34m ' + min_msg + '\u001B[0m')
logging.debug('\u001B[1;34m ' + avg_msg + '\u001B[0m')
logging.debug('\u001B[1;34m ' + max_msg + '\u001B[0m')
qMsg = pal_msg + '\n' + min_msg + '\n' + avg_msg + '\n' + max_msg
packetLossOK = True
if packetloss is not None:
if float(packetloss) > float(self.ping_packetloss_threshold):
logging.debug('\u001B[1;37;41m Packet Loss too high \u001B[0m')
elif float(packetloss) > 0:
logging.debug('\u001B[1;30;43m Packet Loss is not 0% \u001B[0m')
if (packetLossOK):
statusQueue.put(0)
else:
statusQueue.put(-1)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
statusQueue.put(qMsg)
lock.release()
self.close()
except:
os.kill(os.getppid(),signal.SIGUSR1)
def PingNoS1(self):
check_eNB = True
check_OAI_UE = True
pStatus = self.CheckProcessExist(check_eNB, check_OAI_UE)
if (pStatus < 0):
self.CreateHtmlTestRow(self.ping_args, 'KO', pStatus)
self.AutoTerminateUEandeNB()
self.CreateHtmlTabFooter(False)
sys.exit(1)
ping_from_eNB = re.search('oaitun_enb1', str(self.ping_args))
if ping_from_eNB is not None:
if self.eNBIPAddress == '' or self.eNBUserName == '' or self.eNBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
else:
if self.UEIPAddress == '' or self.UEUserName == '' or self.UEPassword == '':
Usage()
sys.exit('Insufficient Parameter')
try:
if ping_from_eNB is not None:
self.open(self.eNBIPAddress, self.eNBUserName, self.eNBPassword)
self.command('cd ' + self.eNBSourceCodePath + '/cmake_targets/', '\$', 5)
else:
self.open(self.UEIPAddress, self.UEUserName, self.UEPassword)
self.command('cd ' + self.UESourceCodePath + '/cmake_targets/', '\$', 5)
self.command('cd cmake_targets', '\$', 5)
ping_time = re.findall("-c (\d+)",str(self.ping_args))
ping_status = self.command('stdbuf -o0 ping ' + self.ping_args + ' 2>&1 | stdbuf -o0 tee ping_' + self.testCase_id + '.log', '\$', int(ping_time[0])*1.5)
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# TIMEOUT CASE
if ping_status < 0:
message = 'Ping with OAI UE crashed due to TIMEOUT!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
return
result = re.search(', (?P<packetloss>[0-9\.]+)% packet loss, time [0-9\.]+ms', str(self.ssh.before))
if result is None:
message = 'Packet Loss Not Found!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
return
packetloss = result.group('packetloss')
if float(packetloss) == 100:
message = 'Packet Loss is 100%'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
return
result = re.search('rtt min\/avg\/max\/mdev = (?P<rtt_min>[0-9\.]+)\/(?P<rtt_avg>[0-9\.]+)\/(?P<rtt_max>[0-9\.]+)\/[0-9\.]+ ms', str(self.ssh.before))
if result is None:
message = 'Ping RTT_Min RTT_Avg RTT_Max Not Found!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
return
rtt_min = result.group('rtt_min')
rtt_avg = result.group('rtt_avg')
rtt_max = result.group('rtt_max')
pal_msg = 'Packet Loss : ' + packetloss + '%'
min_msg = 'RTT(Min) : ' + rtt_min + ' ms'
avg_msg = 'RTT(Avg) : ' + rtt_avg + ' ms'
max_msg = 'RTT(Max) : ' + rtt_max + ' ms'
logging.debug('\u001B[1;37;44m OAI UE ping result \u001B[0m')
logging.debug('\u001B[1;34m ' + pal_msg + '\u001B[0m')
logging.debug('\u001B[1;34m ' + min_msg + '\u001B[0m')
logging.debug('\u001B[1;34m ' + avg_msg + '\u001B[0m')
logging.debug('\u001B[1;34m ' + max_msg + '\u001B[0m')
qMsg = pal_msg + '\n' + min_msg + '\n' + avg_msg + '\n' + max_msg
packetLossOK = True
if packetloss is not None:
if float(packetloss) > float(self.ping_packetloss_threshold):
qMsg += '\nPacket Loss too high'
logging.debug('\u001B[1;37;41m Packet Loss too high \u001B[0m')
packetLossOK = False
elif float(packetloss) > 0:
qMsg += '\nPacket Loss is not 0%'
logging.debug('\u001B[1;30;43m Packet Loss is not 0% \u001B[0m')
self.close()
html_queue = SimpleQueue()
ip_addr = 'TBD'
html_cell = '<pre style="background-color:white">OAI UE ping result\n' + qMsg + '</pre>'
html_queue.put(html_cell)
if packetLossOK:
self.CreateHtmlTestRowQueue(self.ping_args, 'OK', len(self.UEDevices), html_queue)
else:
self.CreateHtmlTestRowQueue(self.ping_args, 'KO', len(self.UEDevices), html_queue)
# copying on the EPC server for logCollection
if ping_from_eNB is not None:
copyin_res = self.copyin(self.eNBIPAddress, self.eNBUserName, self.eNBPassword, self.eNBSourceCodePath + '/cmake_targets/ping_' + self.testCase_id + '.log', '.')
else:
copyin_res = self.copyin(self.UEIPAddress, self.UEUserName, self.UEPassword, self.UESourceCodePath + '/cmake_targets/ping_' + self.testCase_id + '.log', '.')
if (copyin_res == 0):
self.copyout(self.EPCIPAddress, self.EPCUserName, self.EPCPassword, 'ping_' + self.testCase_id + '.log', self.EPCSourceCodePath + '/scripts')
except:
os.kill(os.getppid(),signal.SIGUSR1)
result = re.search('noS1', str(self.Initialize_eNB_args))
if result is not None:
self.PingNoS1()
return
if self.EPCIPAddress == '' or self.EPCUserName == '' or self.EPCPassword == '' or self.EPCSourceCodePath == '':
Usage()
sys.exit('Insufficient Parameter')
check_eNB = True
check_OAI_UE = False
pStatus = self.CheckProcessExist(check_eNB, check_OAI_UE)
if (pStatus < 0):
self.CreateHtmlTestRow(self.ping_args, 'KO', pStatus)
self.CreateHtmlTabFooter(False)
ueIpStatus = self.GetAllUEIPAddresses()
if (ueIpStatus < 0):
self.CreateHtmlTestRow(self.ping_args, 'KO', UE_IP_ADDRESS_ISSUE)
self.CreateHtmlTabFooter(False)
multi_jobs = []
i = 0
lock = Lock()
for UE_IPAddress in self.UEIPAddresses:
device_id = self.UEDevices[i]
p = Process(target = self.Ping_common, args = (lock,UE_IPAddress,device_id,status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
i = i + 1
for job in multi_jobs:
job.join()
self.CreateHtmlTestRow(self.ping_args, 'KO', ALL_PROCESSES_OK)
self.CreateHtmlTabFooter(False)
sys.exit(1)
else:
ping_status = True
html_queue = SimpleQueue()
while (not status_queue.empty()):
count = status_queue.get()
if (count < 0):
ping_status = False
device_id = status_queue.get()
ip_addr = status_queue.get()
message = status_queue.get()
html_cell = '<pre style="background-color:white">UE (' + device_id + ')\nIP Address : ' + ip_addr + '\n' + message + '</pre>'
html_queue.put(html_cell)
if (ping_status):
self.CreateHtmlTestRowQueue(self.ping_args, 'OK', len(self.UEDevices), html_queue)
else:
self.CreateHtmlTestRowQueue(self.ping_args, 'KO', len(self.UEDevices), html_queue)
self.CreateHtmlTabFooter(False)
def Iperf_ComputeTime(self):
result = re.search('-t (?P<iperf_time>\d+)', str(self.iperf_args))
if result is None:
logging.debug('\u001B[1;37;41m Iperf time Not Found! \u001B[0m')
sys.exit(1)
return result.group('iperf_time')
def Iperf_ComputeModifiedBW(self, idx, ue_num):
result = re.search('-b (?P<iperf_bandwidth>[0-9\.]+)[KMG]', str(self.iperf_args))
if result is None:
logging.debug('\u001B[1;37;41m Iperf bandwidth Not Found! \u001B[0m')
sys.exit(1)
iperf_bandwidth = result.group('iperf_bandwidth')
if self.iperf_profile == 'balanced':
iperf_bandwidth_new = float(iperf_bandwidth)/ue_num
if self.iperf_profile == 'single-ue':
iperf_bandwidth_new = float(iperf_bandwidth)
if self.iperf_profile == 'unbalanced':
# residual is 2% of max bw
residualBW = float(iperf_bandwidth) / 50
if idx == 0:
iperf_bandwidth_new = float(iperf_bandwidth) - ((ue_num - 1) * residualBW)
else:
iperf_bandwidth_new = residualBW
iperf_bandwidth_str = '-b ' + iperf_bandwidth
iperf_bandwidth_str_new = '-b ' + ('%.2f' % iperf_bandwidth_new)
result = re.sub(iperf_bandwidth_str, iperf_bandwidth_str_new, str(self.iperf_args))
if result is None:
logging.debug('\u001B[1;37;41m Calculate Iperf bandwidth Failed! \u001B[0m')
sys.exit(1)
return result
def Iperf_analyzeV2TCPOutput(self, lock, UE_IPAddress, device_id, statusQueue, iperf_real_options):
self.command('awk -f /tmp/tcp_iperf_stats.awk /tmp/CI-eNB/scripts/iperf_' + self.testCase_id + '_' + device_id + '.log', '\$', 5)
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result = re.search('Avg Bitrate : (?P<average>[0-9\.]+ Mbits\/sec) Max Bitrate : (?P<maximum>[0-9\.]+ Mbits\/sec) Min Bitrate : (?P<minimum>[0-9\.]+ Mbits\/sec)', str(self.ssh.before))
if result is not None:
avgbitrate = result.group('average')
maxbitrate = result.group('maximum')
minbitrate = result.group('minimum')
lock.acquire()
logging.debug('\u001B[1;37;44m TCP iperf result (' + UE_IPAddress + ') \u001B[0m')
msg = 'TCP Stats :\n'
if avgbitrate is not None:
logging.debug('\u001B[1;34m Avg Bitrate : ' + avgbitrate + '\u001B[0m')
msg += 'Avg Bitrate : ' + avgbitrate + '\n'
if maxbitrate is not None:
logging.debug('\u001B[1;34m Max Bitrate : ' + maxbitrate + '\u001B[0m')
msg += 'Max Bitrate : ' + maxbitrate + '\n'
if minbitrate is not None:
logging.debug('\u001B[1;34m Min Bitrate : ' + minbitrate + '\u001B[0m')
msg += 'Min Bitrate : ' + minbitrate + '\n'
statusQueue.put(0)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
statusQueue.put(msg)
lock.release()
return 0
def Iperf_analyzeV2Output(self, lock, UE_IPAddress, device_id, statusQueue, iperf_real_options):
result = re.search('-u', str(iperf_real_options))
if result is None:
return self.Iperf_analyzeV2TCPOutput(lock, UE_IPAddress, device_id, statusQueue, iperf_real_options)
result = re.search('Server Report:', str(self.ssh.before))
if result is None:
result = re.search('read failed: Connection refused', str(self.ssh.before))
if result is not None:
logging.debug('\u001B[1;37;41m Could not connect to iperf server! \u001B[0m')
else:
logging.debug('\u001B[1;37;41m Server Report and Connection refused Not Found! \u001B[0m')
# Computing the requested bandwidth in float
result = re.search('-b (?P<iperf_bandwidth>[0-9\.]+)[KMG]', str(iperf_real_options))
if result is not None:
req_bandwidth = result.group('iperf_bandwidth')
req_bw = float(req_bandwidth)
result = re.search('-b [0-9\.]+K', str(iperf_real_options))
if result is not None:
req_bandwidth = '%.1f Kbits/sec' % req_bw
req_bw = req_bw * 1000
result = re.search('-b [0-9\.]+M', str(iperf_real_options))
if result is not None:
req_bandwidth = '%.1f Mbits/sec' % req_bw
req_bw = req_bw * 1000000
result = re.search('-b [0-9\.]+G', str(iperf_real_options))
if result is not None:
req_bandwidth = '%.1f Gbits/sec' % req_bw
req_bw = req_bw * 1000000000
result = re.search('Server Report:\\\\r\\\\n(?:|\[ *\d+\].*) (?P<bitrate>[0-9\.]+ [KMG]bits\/sec) +(?P<jitter>[0-9\.]+ ms) +(\d+\/..\d+) (\((?P<packetloss>[0-9\.]+)%\))', str(self.ssh.before))
if result is not None:
bitrate = result.group('bitrate')
packetloss = result.group('packetloss')
jitter = result.group('jitter')
lock.acquire()
logging.debug('\u001B[1;37;44m iperf result (' + UE_IPAddress + ') \u001B[0m')
msg = 'Req Bitrate : ' + req_bandwidth + '\n'
logging.debug('\u001B[1;34m Req Bitrate : ' + req_bandwidth + '\u001B[0m')
logging.debug('\u001B[1;34m Bitrate : ' + bitrate + '\u001B[0m')
result = re.search('(?P<real_bw>[0-9\.]+) [KMG]bits/sec', str(bitrate))
if result is not None:
actual_bw = float(str(result.group('real_bw')))
result = re.search('[0-9\.]+ K', bitrate)
if result is not None:
actual_bw = actual_bw * 1000
result = re.search('[0-9\.]+ M', bitrate)
if result is not None:
actual_bw = actual_bw * 1000000
result = re.search('[0-9\.]+ G', bitrate)
if result is not None:
actual_bw = actual_bw * 1000000000
br_loss = 100 * actual_bw / req_bw
bitperf = '%.2f ' % br_loss
msg += 'Bitrate Perf: ' + bitperf + '%\n'
logging.debug('\u001B[1;34m Bitrate Perf: ' + bitperf + '%\u001B[0m')
logging.debug('\u001B[1;34m Packet Loss : ' + packetloss + '%\u001B[0m')
if float(packetloss) > float(self.iperf_packetloss_threshold):
logging.debug('\u001B[1;37;41m Packet Loss too high \u001B[0m')
logging.debug('\u001B[1;34m Jitter : ' + jitter + '\u001B[0m')
if (iperfStatus):
statusQueue.put(0)
else:
statusQueue.put(-1)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
statusQueue.put(msg)
return 0
def Iperf_analyzeV2Server(self, lock, UE_IPAddress, device_id, statusQueue, iperf_real_options):
if (not os.path.isfile('iperf_server_' + self.testCase_id + '_' + device_id + '.log')):
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, 'Could not analyze from server log')
return
# Computing the requested bandwidth in float
result = re.search('-b (?P<iperf_bandwidth>[0-9\.]+)[KMG]', str(iperf_real_options))
if result is None:
logging.debug('Iperf bandwidth Not Found!')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, 'Could not compute Iperf bandwidth!')
return
else:
req_bandwidth = result.group('iperf_bandwidth')
req_bw = float(req_bandwidth)
result = re.search('-b [0-9\.]+K', str(iperf_real_options))
if result is not None:
req_bandwidth = '%.1f Kbits/sec' % req_bw
req_bw = req_bw * 1000
result = re.search('-b [0-9\.]+M', str(iperf_real_options))
if result is not None:
req_bandwidth = '%.1f Mbits/sec' % req_bw
req_bw = req_bw * 1000000
result = re.search('-b [0-9\.]+G', str(iperf_real_options))
if result is not None:
req_bandwidth = '%.1f Gbits/sec' % req_bw
req_bw = req_bw * 1000000000
server_file = open('iperf_server_' + self.testCase_id + '_' + device_id + '.log', 'r')
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br_sum = 0.0
ji_sum = 0.0
pl_sum = 0
ps_sum = 0
row_idx = 0
for line in server_file.readlines():
result = re.search('(?P<bitrate>[0-9\.]+ [KMG]bits\/sec) +(?P<jitter>[0-9\.]+ ms) +(?P<lostPack>[0-9]+)/ +(?P<sentPack>[0-9]+)', str(line))
if result is not None:
bitrate = result.group('bitrate')
jitter = result.group('jitter')
packetlost = result.group('lostPack')
packetsent = result.group('sentPack')
br = bitrate.split(' ')
ji = jitter.split(' ')
row_idx = row_idx + 1
curr_br = float(br[0])
pl_sum = pl_sum + int(packetlost)
ps_sum = ps_sum + int(packetsent)
if (br[1] == 'Kbits/sec'):
curr_br = curr_br * 1000
if (br[1] == 'Mbits/sec'):
curr_br = curr_br * 1000 * 1000
br_sum = curr_br + br_sum
ji_sum = float(ji[0]) + ji_sum
if (row_idx > 0):
br_sum = br_sum / row_idx
ji_sum = ji_sum / row_idx
br_loss = 100 * br_sum / req_bw
if (br_sum > 1000):
br_sum = br_sum / 1000
if (br_sum > 1000):
br_sum = br_sum / 1000
bitrate = '%.2f Mbits/sec' % br_sum
else:
bitrate = '%.2f Kbits/sec' % br_sum
else:
bitrate = '%.2f bits/sec' % br_sum
bitperf = '%.2f ' % br_loss
bitperf += '%'
jitter = '%.2f ms' % (ji_sum)
if (ps_sum > 0):
pl = float(100 * pl_sum / ps_sum)
packetloss = '%2.1f ' % (pl)
packetloss += '%'
else:
packetloss = 'unknown'
lock.acquire()
if (br_loss < 90):
statusQueue.put(1)
else:
statusQueue.put(0)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
req_msg = 'Req Bitrate : ' + req_bandwidth
bir_msg = 'Bitrate : ' + bitrate
brl_msg = 'Bitrate Perf: ' + bitperf
jit_msg = 'Jitter : ' + jitter
pal_msg = 'Packet Loss : ' + packetloss
statusQueue.put(req_msg + '\n' + bir_msg + '\n' + brl_msg + '\n' + jit_msg + '\n' + pal_msg + '\n')
logging.debug('\u001B[1;37;45m iperf result (' + UE_IPAddress + ') \u001B[0m')
logging.debug('\u001B[1;35m ' + req_msg + '\u001B[0m')
logging.debug('\u001B[1;35m ' + bir_msg + '\u001B[0m')
logging.debug('\u001B[1;35m ' + brl_msg + '\u001B[0m')
logging.debug('\u001B[1;35m ' + jit_msg + '\u001B[0m')
logging.debug('\u001B[1;35m ' + pal_msg + '\u001B[0m')
lock.release()
else:
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, 'Could not analyze from server log')
def Iperf_analyzeV3Output(self, lock, UE_IPAddress, device_id, statusQueue):
result = re.search('(?P<bitrate>[0-9\.]+ [KMG]bits\/sec) +(?:|[0-9\.]+ ms +\d+\/\d+ \((?P<packetloss>[0-9\.]+)%\)) +(?:|receiver)\\\\r\\\\n(?:|\[ *\d+\] Sent \d+ datagrams)\\\\r\\\\niperf Done\.', str(self.ssh.before))
if result is None:
result = re.search('(?P<error>iperf: error - [a-zA-Z0-9 :]+)', str(self.ssh.before))
lock.acquire()
statusQueue.put(-1)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
if result is not None:
logging.debug('\u001B[1;37;41m ' + result.group('error') + ' \u001B[0m')
else:
logging.debug('\u001B[1;37;41m Bitrate and/or Packet Loss Not Found! \u001B[0m')
statusQueue.put('Bitrate and/or Packet Loss Not Found!')
lock.release()
bitrate = result.group('bitrate')
packetloss = result.group('packetloss')
lock.acquire()
logging.debug('\u001B[1;37;44m iperf result (' + UE_IPAddress + ') \u001B[0m')
logging.debug('\u001B[1;34m Bitrate : ' + bitrate + '\u001B[0m')
if packetloss is not None:
logging.debug('\u001B[1;34m Packet Loss : ' + packetloss + '%\u001B[0m')
if float(packetloss) > float(self.iperf_packetloss_threshold):
logging.debug('\u001B[1;37;41m Packet Loss too high \u001B[0m')
msg += 'Packet Loss too high!\n'
iperfStatus = False
if (iperfStatus):
statusQueue.put(0)
else:
statusQueue.put(-1)
statusQueue.put(device_id)
statusQueue.put(UE_IPAddress)
def Iperf_UL_common(self, lock, UE_IPAddress, device_id, idx, ue_num, statusQueue):
udpIperf = True
result = re.search('-u', str(self.iperf_args))
if result is None:
udpIperf = False
ipnumbers = UE_IPAddress.split('.')
if (len(ipnumbers) == 4):
ipnumbers[3] = '1'
EPC_Iperf_UE_IPAddress = ipnumbers[0] + '.' + ipnumbers[1] + '.' + ipnumbers[2] + '.' + ipnumbers[3]
# Launch iperf server on EPC side
self.open(self.EPCIPAddress, self.EPCUserName, self.EPCPassword)
self.command('cd ' + self.EPCSourceCodePath + '/scripts', '\$', 5)
self.command('rm -f iperf_server_' + self.testCase_id + '_' + device_id + '.log', '\$', 5)
self.command('echo $USER; nohup iperf -u -s -i 1 -p ' + str(port) + ' > iperf_server_' + self.testCase_id + '_' + device_id + '.log &', self.EPCUserName, 5)
self.command('echo $USER; nohup iperf -s -i 1 -p ' + str(port) + ' > iperf_server_' + self.testCase_id + '_' + device_id + '.log &', self.EPCUserName, 5)
time.sleep(0.5)
self.close()
# Launch iperf client on UE
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
self.command('cd ' + self.EPCSourceCodePath + '/scripts', '\$', 5)
iperf_time = self.Iperf_ComputeTime()
time.sleep(0.5)
if udpIperf:
modified_options = self.Iperf_ComputeModifiedBW(idx, ue_num)
else:
modified_options = str(self.iperf_args)
self.command('rm -f iperf_' + self.testCase_id + '_' + device_id + '.log', '\$', 5)
iperf_status = self.command('stdbuf -o0 adb -s ' + device_id + ' shell "/data/local/tmp/iperf -c ' + EPC_Iperf_UE_IPAddress + ' ' + modified_options + ' -p ' + str(port) + '" 2>&1 | stdbuf -o0 tee iperf_' + self.testCase_id + '_' + device_id + '.log', '\$', int(iperf_time)*5.0)
# TIMEOUT Case
if iperf_status < 0:
self.close()
message = 'iperf on UE (' + str(UE_IPAddress) + ') crashed due to TIMEOUT !'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
return
clientStatus = self.Iperf_analyzeV2Output(lock, UE_IPAddress, device_id, statusQueue, modified_options)
self.open(self.EPCIPAddress, self.EPCUserName, self.EPCPassword)
self.command('killall --signal SIGKILL iperf', self.EPCUserName, 5)
self.close()
if (os.path.isfile('iperf_server_' + self.testCase_id + '_' + device_id + '.log')):
os.remove('iperf_server_' + self.testCase_id + '_' + device_id + '.log')
self.copyin(self.EPCIPAddress, self.EPCUserName, self.EPCPassword, self.EPCSourceCodePath + '/scripts/iperf_server_' + self.testCase_id + '_' + device_id + '.log', '.')
self.Iperf_analyzeV2Server(lock, UE_IPAddress, device_id, statusQueue, modified_options)
def Iperf_common(self, lock, UE_IPAddress, device_id, idx, ue_num, statusQueue):
# Single-UE profile -- iperf only on one UE
if self.iperf_profile == 'single-ue' and idx != 0:
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
# if by chance ADB server and EPC are on the same remote host, at least log collection will take care of it
self.command('if [ ! -d ' + self.EPCSourceCodePath + '/scripts ]; then mkdir -p ' + self.EPCSourceCodePath + '/scripts ; fi', '\$', 5)
self.command('cd ' + self.EPCSourceCodePath + '/scripts', '\$', 5)
# Checking if iperf / iperf3 are installed
self.command('adb -s ' + device_id + ' shell "ls /data/local/tmp"', '\$', 5)
result = re.search('iperf3', str(self.ssh.before))
if result is None:
result = re.search('iperf', str(self.ssh.before))
if result is None:
message = 'Neither iperf nor iperf3 installed on UE!'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
else:
useIperf3 = True
# in case of iperf, UL has its own function
if (not useIperf3):
result = re.search('-R', str(self.iperf_args))
if result is not None:
self.close()
self.Iperf_UL_common(lock, UE_IPAddress, device_id, idx, ue_num, statusQueue)
if (useIperf3):
self.command('stdbuf -o0 adb -s ' + device_id + ' shell /data/local/tmp/iperf3 -s &', '\$', 5)
else:
self.command('rm -f iperf_server_' + self.testCase_id + '_' + device_id + '.log', '\$', 5)
result = re.search('-u', str(self.iperf_args))
if result is None:
self.command('echo $USER; nohup adb -s ' + device_id + ' shell "/data/local/tmp/iperf -s -i 1" > iperf_server_' + self.testCase_id + '_' + device_id + '.log &', self.ADBUserName, 5)
self.command('echo $USER; nohup adb -s ' + device_id + ' shell "/data/local/tmp/iperf -u -s -i 1" > iperf_server_' + self.testCase_id + '_' + device_id + '.log &', self.ADBUserName, 5)
time.sleep(0.5)
self.close()
self.open(self.EPCIPAddress, self.EPCUserName, self.EPCPassword)
self.command('cd ' + self.EPCSourceCodePath + '/scripts', '\$', 5)
iperf_time = self.Iperf_ComputeTime()
if udpIperf:
modified_options = self.Iperf_ComputeModifiedBW(idx, ue_num)
else:
modified_options = str(self.iperf_args)
self.command('rm -f iperf_' + self.testCase_id + '_' + device_id + '.log', '\$', 5)
self.command('stdbuf -o0 iperf3 -c ' + UE_IPAddress + ' ' + modified_options + ' 2>&1 | stdbuf -o0 tee iperf_' + self.testCase_id + '_' + device_id + '.log', '\$', int(iperf_time)*5.0)
self.Iperf_analyzeV3Output(lock, UE_IPAddress, device_id, statusQueue)
iperf_status = self.command('stdbuf -o0 iperf -c ' + UE_IPAddress + ' ' + modified_options + ' 2>&1 | stdbuf -o0 tee iperf_' + self.testCase_id + '_' + device_id + '.log', '\$', int(iperf_time)*5.0)
if iperf_status < 0:
self.close()
message = 'iperf on UE (' + str(UE_IPAddress) + ') crashed due to TIMEOUT !'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
self.ping_iperf_wrong_exit(lock, UE_IPAddress, device_id, statusQueue, message)
return
clientStatus = self.Iperf_analyzeV2Output(lock, UE_IPAddress, device_id, statusQueue, modified_options)
self.close()
self.open(self.ADBIPAddress, self.ADBUserName, self.ADBPassword)
self.command('stdbuf -o0 adb -s ' + device_id + ' shell ps | grep --color=never iperf | grep -v grep', '\$', 5)
result = re.search('shell +(?P<pid>\d+)', str(self.ssh.before))
if result is not None:
pid_iperf = result.group('pid')
self.command('stdbuf -o0 adb -s ' + device_id + ' shell kill -KILL ' + pid_iperf, '\$', 5)
self.close()
if (os.path.isfile('iperf_server_' + self.testCase_id + '_' + device_id + '.log')):
os.remove('iperf_server_' + self.testCase_id + '_' + device_id + '.log')
self.copyin(self.ADBIPAddress, self.ADBUserName, self.ADBPassword, self.EPCSourceCodePath + '/scripts/iperf_server_' + self.testCase_id + '_' + device_id + '.log', '.')
self.Iperf_analyzeV2Server(lock, UE_IPAddress, device_id, statusQueue, modified_options)
except:
os.kill(os.getppid(),signal.SIGUSR1)
check_eNB = True
check_OAI_UE = True
pStatus = self.CheckProcessExist(check_eNB, check_OAI_UE)
if (pStatus < 0):
self.CreateHtmlTestRow(self.iperf_args, 'KO', pStatus)
self.AutoTerminateUEandeNB()
self.CreateHtmlTabFooter(False)
sys.exit(1)
if self.eNBIPAddress == '' or self.eNBUserName == '' or self.eNBPassword == '' or self.UEIPAddress == '' or self.UEUserName == '' or self.UEPassword == '':
Usage()
sys.exit('Insufficient Parameter')
server_on_enb = re.search('-R', str(self.iperf_args))
if server_on_enb is not None:
iServerIPAddr = self.eNBIPAddress
iServerUser = self.eNBUserName
iServerPasswd = self.eNBPassword
iClientIPAddr = self.UEIPAddress
iClientUser = self.UEUserName
iClientPasswd = self.UEPassword
else:
iServerIPAddr = self.UEIPAddress
iServerUser = self.UEUserName
iServerPasswd = self.UEPassword
iClientIPAddr = self.eNBIPAddress
iClientUser = self.eNBUserName
iClientPasswd = self.eNBPassword
# Starting the iperf server
self.open(iServerIPAddr, iServerUser, iServerPasswd)
# args SHALL be "-c client -u any"
# -c 10.0.1.2 -u -b 1M -t 30 -i 1 -fm -B 10.0.1.1
# -B 10.0.1.1 -u -s -i 1 -fm
server_options = re.sub('-u.*$', '-u -s -i 1 -fm', str(self.iperf_args))
server_options = server_options.replace('-c','-B')
self.command('rm -f /tmp/tmp_iperf_server_' + self.testCase_id + '.log', '\$', 5)
self.command('echo $USER; nohup iperf ' + server_options + ' > /tmp/tmp_iperf_server_' + self.testCase_id + '.log 2>&1 &', iServerUser, 5)
time.sleep(0.5)
self.close()
# Starting the iperf client
modified_options = self.Iperf_ComputeModifiedBW(0, 1)
modified_options = modified_options.replace('-R','')
iperf_time = self.Iperf_ComputeTime()
self.open(iClientIPAddr, iClientUser, iClientPasswd)
self.command('rm -f /tmp/tmp_iperf_' + self.testCase_id + '.log', '\$', 5)
iperf_status = self.command('stdbuf -o0 iperf ' + modified_options + ' 2>&1 | stdbuf -o0 tee /tmp/tmp_iperf_' + self.testCase_id + '.log', '\$', int(iperf_time)*5.0)
status_queue = SimpleQueue()
lock = Lock()
if iperf_status < 0:
message = 'iperf on OAI UE crashed due to TIMEOUT !'
logging.debug('\u001B[1;37;41m ' + message + ' \u001B[0m')
clientStatus = -2
else:
clientStatus = self.Iperf_analyzeV2Output(lock, '10.0.1.2', 'OAI-UE', status_queue, modified_options)
self.close()
# Stopping the iperf server
self.open(iServerIPAddr, iServerUser, iServerPasswd)
self.command('killall --signal SIGKILL iperf', '\$', 5)
time.sleep(0.5)
self.close()
if (clientStatus == -1):
if (os.path.isfile('iperf_server_' + self.testCase_id + '.log')):
os.remove('iperf_server_' + self.testCase_id + '.log')
self.copyin(iServerIPAddr, iServerUser, iServerPasswd, '/tmp/tmp_iperf_server_' + self.testCase_id + '.log', 'iperf_server_' + self.testCase_id + '_OAI-UE.log')
self.Iperf_analyzeV2Server(lock, '10.0.1.2', 'OAI-UE', status_queue, modified_options)
# copying on the EPC server for logCollection
copyin_res = self.copyin(iServerIPAddr, iServerUser, iServerPasswd, '/tmp/tmp_iperf_server_' + self.testCase_id + '.log', 'iperf_server_' + self.testCase_id + '_OAI-UE.log')
if (copyin_res == 0):
self.copyout(self.EPCIPAddress, self.EPCUserName, self.EPCPassword, 'iperf_server_' + self.testCase_id + '_OAI-UE.log', self.EPCSourceCodePath + '/scripts')
copyin_res = self.copyin(iClientIPAddr, iClientUser, iClientPasswd, '/tmp/tmp_iperf_' + self.testCase_id + '.log', 'iperf_' + self.testCase_id + '_OAI-UE.log')
if (copyin_res == 0):
self.copyout(self.EPCIPAddress, self.EPCUserName, self.EPCPassword, 'iperf_' + self.testCase_id + '_OAI-UE.log', self.EPCSourceCodePath + '/scripts')
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iperf_noperf = False
if status_queue.empty():
iperf_status = False
else:
iperf_status = True
html_queue = SimpleQueue()
while (not status_queue.empty()):
count = status_queue.get()
if (count < 0):
iperf_status = False
if (count > 0):
iperf_noperf = True
device_id = status_queue.get()
ip_addr = status_queue.get()
message = status_queue.get()
html_cell = '<pre style="background-color:white">UE (' + device_id + ')\nIP Address : ' + ip_addr + '\n' + message + '</pre>'
html_queue.put(html_cell)
if (iperf_noperf and iperf_status):
self.CreateHtmlTestRowQueue(self.iperf_args, 'PERF NOT MET', len(self.UEDevices), html_queue)
elif (iperf_status):
self.CreateHtmlTestRowQueue(self.iperf_args, 'OK', len(self.UEDevices), html_queue)
else:
self.CreateHtmlTestRowQueue(self.iperf_args, 'KO', len(self.UEDevices), html_queue)
self.AutoTerminateUEandeNB()
self.CreateHtmlTabFooter(False)
sys.exit(1)
result = re.search('noS1', str(self.Initialize_eNB_args))
if result is not None:
self.IperfNoS1()
return
if self.EPCIPAddress == '' or self.EPCUserName == '' or self.EPCPassword == '' or self.EPCSourceCodePath == '' or self.ADBIPAddress == '' or self.ADBUserName == '' or self.ADBPassword == '':
Usage()
sys.exit('Insufficient Parameter')
check_eNB = True
check_OAI_UE = False
pStatus = self.CheckProcessExist(check_eNB, check_OAI_UE)
if (pStatus < 0):
self.CreateHtmlTestRow(self.iperf_args, 'KO', pStatus)
self.CreateHtmlTabFooter(False)
ueIpStatus = self.GetAllUEIPAddresses()
if (ueIpStatus < 0):
self.CreateHtmlTestRow(self.iperf_args, 'KO', UE_IP_ADDRESS_ISSUE)
self.CreateHtmlTabFooter(False)
multi_jobs = []
i = 0
ue_num = len(self.UEIPAddresses)
lock = Lock()
for UE_IPAddress in self.UEIPAddresses:
device_id = self.UEDevices[i]
p = Process(target = SSH.Iperf_common, args = (lock,UE_IPAddress,device_id,i,ue_num,status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
i = i + 1
for job in multi_jobs:
job.join()
self.CreateHtmlTestRow(self.iperf_args, 'KO', ALL_PROCESSES_OK)
self.CreateHtmlTabFooter(False)
html_queue = SimpleQueue()
while (not status_queue.empty()):
count = status_queue.get()
if (count < 0):
iperf_status = False
device_id = status_queue.get()
ip_addr = status_queue.get()
message = status_queue.get()
html_cell = '<pre style="background-color:white">UE (' + device_id + ')\nIP Address : ' + ip_addr + '\n' + message + '</pre>'
if (iperf_noperf and iperf_status):
self.CreateHtmlTestRowQueue(self.iperf_args, 'PERF NOT MET', len(self.UEDevices), html_queue)
elif (iperf_status):
self.CreateHtmlTestRowQueue(self.iperf_args, 'OK', len(self.UEDevices), html_queue)
else:
self.CreateHtmlTestRowQueue(self.iperf_args, 'KO', len(self.UEDevices), html_queue)
self.CreateHtmlTabFooter(False)
def CheckProcessExist(self, check_eNB, check_OAI_UE):
# in noS1 config, no need to check status from EPC
result = re.search('noS1', str(self.Initialize_eNB_args))
if result is None:
p = Process(target = SSH.CheckHSSProcess, args = (status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
p = Process(target = SSH.CheckMMEProcess, args = (status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
p = Process(target = SSH.CheckSPGWProcess, args = (status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
else:
if (check_eNB == False) and (check_OAI_UE == False):
return 0
if check_eNB:
p = Process(target = SSH.CheckeNBProcess, args = (status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
if check_OAI_UE:
p = Process(target = SSH.CheckOAIUEProcess, args = (status_queue,))
p.daemon = True
p.start()
multi_jobs.append(p)
for job in multi_jobs:
job.join()
if (status_queue.empty()):
return -15
else:
result = 0
while (not status_queue.empty()):
status = status_queue.get()
if (status < 0):
result = status
if result == ENB_PROCESS_FAILED: