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#!/usr/bin/env python3
import os
import math
import sys
import time
sys.path.append(os.path.dirname(sys.argv[0]) + '/../share/nDPId')
sys.path.append(os.path.dirname(sys.argv[0]) + '/../usr/share/nDPId')
try:
import nDPIsrvd
from nDPIsrvd import nDPIsrvdSocket, TermColor
except ImportError:
sys.path.append(os.path.dirname(sys.argv[0]) + '/../../dependencies')
import nDPIsrvd
from nDPIsrvd import nDPIsrvdSocket, TermColor
global args
global whois_db
def set_attr_from_dict(some_object, some_dict, key_and_attr_name, default_value):
try:
setattr(some_object, key_and_attr_name, some_dict[key_and_attr_name])
except KeyError:
if default_value is not None and getattr(some_object, key_and_attr_name, None) is None:
setattr(some_object, key_and_attr_name, default_value)
def set_attr_if_not_set(some_object, attr_name, value):
try:
getattr(some_object, attr_name)
except AttributeError:
setattr(some_object, attr_name, value)
class Stats:
last_status_length = 0
avg_xfer_json_bytes = 0.0
expired_tot_l4_payload_len = 0
expired_avg_l4_payload_len = 0
total_flows = 0
risky_flows = 0
midstream_flows = 0
guessed_flows = 0
not_detected_flows = 0
start_time = 0.0
current_time = 0.0
json_lines = 0
spinner_state = 0
def __init__(self, nDPIsrvd_sock):
self.start_time = time.time()
self.nsock = nDPIsrvd_sock
def updateSpinner(self):
if self.current_time + 0.25 <= time.time():
self.spinner_state += 1
def getSpinner(self):
spinner_states = ['-', '\\', '|', '/']
return spinner_states[self.spinner_state % len(spinner_states)]
def getDataFromJson(self, json_dict, current_flow):
if current_flow is None:
return
set_attr_from_dict(current_flow, json_dict, 'flow_tot_l4_payload_len', 0)
set_attr_from_dict(current_flow, json_dict, 'flow_avg_l4_payload_len', 0)
if 'ndpi' in json_dict:
set_attr_from_dict(current_flow, json_dict['ndpi'], 'flow_risk', {})
else:
set_attr_from_dict(current_flow, {}, 'flow_risk', {})
set_attr_from_dict(current_flow, json_dict, 'midstream', 0)
set_attr_from_dict(current_flow, json_dict, 'flow_event_name', '')
set_attr_if_not_set(current_flow, 'guessed', False)
set_attr_if_not_set(current_flow, 'not_detected', False)
if current_flow.flow_event_name == 'guessed':
current_flow.guessed = True
elif current_flow.flow_event_name == 'not-detected':
current_flow.not_detected = True
def update(self, json_dict, current_flow):
self.updateSpinner()
self.json_lines += 1
self.current_time = time.time()
self.avg_xfer_json_bytes = self.nsock.received_bytes / (self.current_time - self.start_time)
self.getDataFromJson(json_dict, current_flow)
def updateOnCleanup(self, current_flow):
self.total_flows += 1
self.expired_tot_l4_payload_len += current_flow.flow_tot_l4_payload_len
self.expired_avg_l4_payload_len += current_flow.flow_avg_l4_payload_len
self.risky_flows += 1 if len(current_flow.flow_risk) > 0 else 0
self.midstream_flows += 1 if current_flow.midstream != 0 else 0
self.guessed_flows += 1 if current_flow.guessed is True else 0
self.not_detected_flows += 1 if current_flow.not_detected is True else 0
def getStatsFromFlowMgr(self):
alias_count = 0
source_count = 0
flow_count = 0
flow_tot_l4_payload_len = 0.0
flow_avg_l4_payload_len = 0.0
risky = 0
midstream = 0
guessed = 0
not_detected = 0
instances = self.nsock.flow_mgr.instances
for alias in instances:
alias_count += 1
for source in instances[alias]:
source_count += 1
for flow_id in instances[alias][source].flows:
flow_count += 1
current_flow = instances[alias][source].flows[flow_id]
flow_tot_l4_payload_len += current_flow.flow_tot_l4_payload_len
flow_avg_l4_payload_len += current_flow.flow_avg_l4_payload_len
risky += 1 if len(current_flow.flow_risk) > 0 else 0
midstream += 1 if current_flow.midstream != 0 else 0
guessed += 1 if current_flow.guessed is True else 0
not_detected = 1 if current_flow.not_detected is True else 0
return alias_count, source_count, flow_count, \
flow_tot_l4_payload_len, flow_avg_l4_payload_len, \
risky, midstream, guessed, not_detected
@staticmethod
def prettifyBytes(bytes_received):
size_names = ['B', 'KB', 'MB', 'GB', 'TB']
if bytes_received == 0:
i = 0
else:
i = min(int(math.floor(math.log(bytes_received, 1024))), len(size_names) - 1)
p = math.pow(1024, i)
s = round(bytes_received / p, 2)
return '{:.2f} {}'.format(s, size_names[i])
def resetStatus(self):
sys.stdout.write('\r' + str(' ' * self.last_status_length) + '\r')
sys.stdout.flush()
def printStatus(self):
alias_count, source_count, flow_count, \
tot_l4_payload_len, avg_l4_payload_len, \
risky, midstream, guessed, not_detected = self.getStatsFromFlowMgr()
out_str = '\r[n|tot|avg JSONs: {}|{}|{}/s] [tot|avg l4: {}|{}] ' \
'[lss|srcs: {}|{}] ' \
'[flws|rsky|mdstrm|!dtctd|gssd: {}|{}|{}|{}|{} / {}|{}|{}|{}|{}] [{}]' \
''.format(self.json_lines,
Stats.prettifyBytes(self.nsock.received_bytes),
Stats.prettifyBytes(self.avg_xfer_json_bytes),
Stats.prettifyBytes(tot_l4_payload_len + self.expired_tot_l4_payload_len),
Stats.prettifyBytes(avg_l4_payload_len + self.expired_avg_l4_payload_len),
alias_count, source_count,
flow_count, risky, midstream, not_detected, guessed,
flow_count + self.total_flows,
risky + self.risky_flows,
midstream + self.midstream_flows,
not_detected + self.not_detected_flows,
guessed + self.guessed_flows,
self.getSpinner())
self.last_status_length = len(out_str) - 1 # '\r'
sys.stdout.write(out_str)
sys.stdout.flush()
def prettifyEvent(color_list, whitespaces, text):
term_attrs = str()
for color in color_list:
term_attrs += str(color)
fmt = '{}{:>' + str(whitespaces) + '}{}'
return fmt.format(term_attrs, text, TermColor.END)
def checkEventFilter(json_dict):
if json_dict['flow_event_name'] == 'new':
if args.new is True:
return True
if json_dict['flow_event_name'] == 'detected' or \
json_dict['flow_event_name'] == 'detection-update':
if args.detection is True:
return True
if json_dict['flow_event_name'] == 'guessed':
if args.guessed is True:
return True
if json_dict['flow_event_name'] == 'not-detected':
if args.undetected is True:
return True
if 'ndpi' in json_dict and 'flow_risk' in json_dict['ndpi']:
if args.risky is True:
return True
if json_dict['midstream'] != 0:
if args.midstream is True:
return True
if args.new is False and args.detection is False and \
args.guessed is False and args.undetected is False and \
args.risky is False and args.midstream is False:
return True
return False
def whois(ip_str):
if ip_str not in whois_db:
try:
whois_json = ipwhois.ipwhois.IPWhois(ip_str).lookup_whois()
whois_db[ip_str] = whois_json['asn_description']
except (ipwhois.exceptions.IPDefinedError, dns.resolver.NoResolverConfiguration):
return None
return whois_db[ip_str]
def onFlowCleanup(instance, current_flow, global_user_data):
stats = global_user_data
stats.updateOnCleanup(current_flow)
return True
def onJsonLineRecvd(json_dict, instance, current_flow, global_user_data):
stats = global_user_data
stats.update(json_dict, current_flow)
stats.resetStatus()
instance_and_source = ''
instance_and_source += '[{}]'.format(TermColor.setColorByString(instance.alias))
instance_and_source += '[{}]'.format(TermColor.setColorByString(instance.source))
if 'daemon_event_id' in json_dict:
print('{} {}: {}'.format(instance_and_source, prettifyEvent([TermColor.WARNING, TermColor.BLINK], 16, 'DAEMON-EVENT'), json_dict['daemon_event_name']))
stats.printStatus()
return True
if 'basic_event_id' in json_dict:
print('{} {}: {}'.format(instance_and_source, prettifyEvent([TermColor.FAIL, TermColor.BLINK], 16, 'BASIC-EVENT'), json_dict['basic_event_name']))
stats.printStatus()
return True
elif 'flow_event_id' not in json_dict:
stats.printStatus()
return True
if checkEventFilter(json_dict) is False:
stats.printStatus()
return True
ndpi_proto_categ_breed = ''
ndpi_frisk = ''
if 'ndpi' in json_dict:
if 'proto' in json_dict['ndpi']:
ndpi_proto_categ_breed += '[' + str(json_dict['ndpi']['proto']) + ']'
if 'category' in json_dict['ndpi']:
ndpi_proto_categ_breed += '[' + str(json_dict['ndpi']['category']) + ']'
if 'breed' in json_dict['ndpi']:
ndpi_proto_categ_breed += '[' + str(json_dict['ndpi']['breed']) + ']'
if 'flow_risk' in json_dict['ndpi']:
cnt = 0
for key in json_dict['ndpi']['flow_risk']:
ndpi_frisk += str(json_dict['ndpi']['flow_risk'][key]) + ', '
cnt += 1
ndpi_frisk = '{}: {}'.format(
TermColor.WARNING + TermColor.BOLD + 'RISK' + TermColor.END if cnt < 2
else TermColor.FAIL + TermColor.BOLD + TermColor.BLINK + 'RISK' + TermColor.END,
ndpi_frisk[:-2])
line_suffix = ''
flow_event_name = ''
if json_dict['flow_event_name'] == 'guessed':
flow_event_name += '{}{:>16}{}'.format(TermColor.HINT, json_dict['flow_event_name'], TermColor.END)
elif json_dict['flow_event_name'] == 'not-detected':
flow_event_name += '{}{:>16}{}'.format(TermColor.WARNING + TermColor.BOLD + TermColor.BLINK,
json_dict['flow_event_name'], TermColor.END)
else:
if json_dict['flow_event_name'] == 'new':
line_suffix = ''
if json_dict['midstream'] != 0:
line_suffix += '[{}] '.format(TermColor.WARNING + TermColor.BLINK + 'MIDSTREAM' + TermColor.END)
if args.ipwhois is True:
src_whois = whois(json_dict['src_ip'].lower())
dst_whois = whois(json_dict['dst_ip'].lower())
line_suffix += '['
if src_whois is not None:
line_suffix += '{}'.format(src_whois)
if dst_whois is not None:
if src_whois is not None:
line_suffix += ' -> '
line_suffix += '{}'.format(dst_whois)
if src_whois is None and dst_whois is None:
line_suffix += TermColor.WARNING + 'WHOIS empty' + TermColor.END
line_suffix += ']'
flow_event_name += '{:>16}'.format(json_dict['flow_event_name'])
if json_dict['l3_proto'] == 'ip4':
print('{} {}: [{:.>6}] [{}][{:.>5}] [{:.>15}]{} -> [{:.>15}]{} {}{}' \
''.format(instance_and_source, flow_event_name,
json_dict['flow_id'], json_dict['l3_proto'], json_dict['l4_proto'],
json_dict['src_ip'].lower(),
'[{:.>5}]'.format(json_dict['src_port']) if 'src_port' in json_dict else '',
json_dict['dst_ip'].lower(),
'[{:.>5}]'.format(json_dict['dst_port']) if 'dst_port' in json_dict else '',
ndpi_proto_categ_breed, line_suffix))
elif json_dict['l3_proto'] == 'ip6':
print('{} {}: [{:.>6}] [{}][{:.>5}] [{:.>39}]{} -> [{:.>39}]{} {}{}' \
''.format(instance_and_source, flow_event_name,
json_dict['flow_id'], json_dict['l3_proto'], json_dict['l4_proto'],
json_dict['src_ip'].lower(),
'[{:.>5}]'.format(json_dict['src_port']) if 'src_port' in json_dict else '',
json_dict['dst_ip'].lower(),
'[{:.>5}]'.format(json_dict['dst_port']) if 'dst_port' in json_dict else '',
ndpi_proto_categ_breed, line_suffix))
else:
raise RuntimeError('unsupported l3 protocol: {}'.format(json_dict['l3_proto']))
if len(ndpi_frisk) > 0:
print('{} {:>18}{}'.format(instance_and_source, '', ndpi_frisk))
stats.printStatus()
return True
if __name__ == '__main__':
argparser = nDPIsrvd.defaultArgumentParser()
argparser.add_argument('--guessed', action='store_true', default=False, help='Print only guessed flow events.')
argparser.add_argument('--undetected', action='store_true', default=False, help='Print only undetected flow events.')
argparser.add_argument('--risky', action='store_true', default=False, help='Print only risky flow events.')
argparser.add_argument('--midstream', action='store_true', default=False, help='Print only midstream flow events.')
argparser.add_argument('--new', action='store_true', default=False, help='Print only new flow events.')
argparser.add_argument('--detection', action='store_true', default=False, help='Print only detected/detection-update flow events.')
argparser.add_argument('--ipwhois', action='store_true', default=False, help='Use Python-IPWhois to print additional location information.')
args = argparser.parse_args()
if args.ipwhois is True:
import dns, ipwhois
whois_db = dict()
address = nDPIsrvd.validateAddress(args)
sys.stderr.write('Recv buffer size: {}\n'.format(nDPIsrvd.NETWORK_BUFFER_MAX_SIZE))
sys.stderr.write('Connecting to {} ..\n'.format(address[0]+':'+str(address[1]) if type(address) is tuple else address))
nsock = nDPIsrvdSocket()
nsock.connect(address)
stats = Stats(nsock)
try:
nsock.loop(onJsonLineRecvd, onFlowCleanup, stats)
except KeyboardInterrupt:
print('\n\nKeyboard Interrupt: cleaned up {} flows.'.format(len(nsock.shutdown())))
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