sisniff

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Ein Netzwerk-Sniffer der für jedes Packet nebst Adresse und Port die lokal verbundene Anwendung und deren PID ermittelt und anzeigt.
Es wird TCP, UDP und ICMP unterstützt.
Der Sniffer akzeptiert Filter wie sie bei tcpdump üblich sind.

Bei HTTP Verbindungen kann ausserdem ein Teil der Payload angezeigt werden.

sisniff Image

Die Option -h gibt eine Argumenteübersicht und listet die verfügbaren Interfaces auf.

# ./sisniff.py -h
usage: sisniff.py [-h] -i {eth0,lo,tun0,wlan0} [-n] [-pH] [filter]

positional arguments:
  filter                Pcap filter (BPF syntax) on top of IP (in dbl-quotes "...")

optional arguments:
  -h, --help            show this help message and exit
  -i {eth0,lo,tun0,wlan0}
                        Interface (mandatory)
  -n                    Do not resolve IP-Addresses
  -pH                   Show HTTP Payload

Downloads der aktuellen Version
Source: https://gitlab.com/siongitlab/sisniff/raw/master/sisniff.py
gzipped: https://gitlab.com/siongitlab/sisniff/-/archive/master/sisniff-master.tar.gz

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Da sisniff.py auf der Scapy sniff()-Funktion aufsetzt, wird Scapy > 2.x benötigt:

Unter Debian/Ubuntu: apt-get install scapy
Andere: http://www.secdev.org/projects/scapy/


Python2 Code of sisniff.py:

#!/usr/bin/python2
 
# (c) 2017 by Siegrist(SystemLoesungen) <PSS@ZweierNet.ch>
 
from scapy.all import *
import pwd
import os
import re
import glob
import sys
import string
import fcntl
import struct
import commands
import argparse
 
VERSION = "0.76"
 
PROC_TCP4 = "/proc/net/tcp"
PROC_UDP4 = "/proc/net/udp"
PROC_ICMP4 = "/proc/net/icmp"
PROC_TCP6 = "/proc/net/tcp6"
PROC_UDP6 = "/proc/net/udp6"
PROC_PACKET = "/proc/net/packet"
 
# Services
TSERV = dict((TCP_SERVICES[k], k) for k in TCP_SERVICES.keys())
USERV = dict((UDP_SERVICES[k], k) for k in UDP_SERVICES.keys())
 
# IP Protocol Numbers (dec)
IPPROTO_ICMP = 1
IPPROTO_TCP = 6
IPROTOP_IGP = 9
IPPROTO_UDP = 17
 
nostate = set(['04','05','06''07','08','09','0C','0D'])
tcp_payload_hdrs = ['GET|POST|HTTP|HEAD|PUT|PATCH|DELETE|TRACE|OPTIONS|CONNECT']
numeric = False
payloadH = False
fillter = ""
 
def get_conn_info(proto,hosts,ports):
    ''' returns: pid, exe, uid '''
    uid = 0
 
    line_array = _proc4load(proto,hosts,ports)
 
    if line_array == 0:
        return ['?','?','?']
    '''    
    try:
        uid = pwd.getpwuid(int(line_array[7]))[0]       # Get user from UID.
    except:
        uid = line_array[7]
    '''
 
    inode = str(line_array[9])
    if inode == "0":
        return ['.','.','.']
 
    pid = _get_pid_of_inode(inode)          # try get a pid
 
 
    if pid == "NoPid":
        #print ">>>>>>>>>>>NoPID:" + str(hosts) +" "+ str(ports) + "//" + str(line_array)
        return ['-', '-', uid]
 
    try:                                            # try read the process name.
        exe = os.readlink('/proc/'+pid+'/exe').split('/')[-1]
    except:
        exe = None
 
    #print str(lhost) +" "+ str(lport) +" "+ inode +" "+ pid
    return [pid, exe, uid]
 
 
def _proc4load(proto,hosts,ports):
    ''' Read the table of tcp/udp connections
    tcp/udp: "sl,  local_address, rem_address, st, tx_queue rx_queue, tr tm->when, retrnsmt,   uid , timeout, inode ,..."
    ---- TCP states from https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/include/net/tcp_states.h?id=HEAD
    enum {
	TCP_ESTABLISHED = 1,
	TCP_SYN_SENT,
	TCP_SYN_RECV,
	TCP_FIN_WAIT1,
	TCP_FIN_WAIT2,
	TCP_TIME_WAIT,
	TCP_CLOSE,
	TCP_CLOSE_WAIT,
	TCP_LAST_ACK,
	TCP_LISTEN,
	TCP_CLOSING,	/* Now a valid state */
	TCP_NEW_SYN_RECV,
 
	TCP_MAX_STATES	/* Leave at the end! */
    };
    ----------
    '''
 
    #xhosts = _ip_hexrev(hosts)
    xports = _dec2hex(ports)
 
    if proto == IPPROTO_UDP:
        try:
            with open(PROC_UDP4,'r') as f:
                next(f)
                for line in f:
                    line_arrayu = _remove_empty(line.split(' '))
                    l_xhost,l_xport = line_arrayu[1].split(':')
                    if l_xhost not in xMYADDRS:
                        continue
                    if l_xport == xports:
                        return line_arrayu
 
                return 0
        except:
            print "open proc_udp4 error"
            return 0
    elif proto == IPPROTO_TCP:
        try:
            with open(PROC_TCP4,'r') as f:
                next(f)
                for line in f:
                    line_arrayt = _remove_empty(line.split(' '))
                    if line_arrayt[3] in nostate:        # not some TCP state
                        continue
                    l_xhost,l_xport = line_arrayt[1].split(':')
                    if l_xhost not in xMYADDRS:
                        continue
                    if l_xport == xports:
                        return line_arrayt
 
                return 0
        except:
            print "open proc_tcp error"
            return 0
 
    elif proto == IPPROTO_ICMP:
        try:
            with open(PROC_ICMP4,'r') as f:
                next(f)
                for line in f:
                    line_arrayi = _remove_empty(line.split(' '))
                    l_xhost,l_xport = line_arrayi[1].split(':')
                    if l_xhost not in xMYADDRS:
                        continue
                    if l_xport == xports:
                        return line_arrayi
 
                return 0
        except:
            print "open proc_icmp4 error"
            return 0
 
    return 0
 
def _convert_ipv4_port(array):
    host,port = array.split(':')
    return _ip(host),_hex2dec(port)
 
def _hex2dec(s):
    return str(int(s,16))
 
def _dec2hex(p):
    return hex(int(p)).split('x')[-1].upper()
 
def _ip(s):
    ip = [(_hex2dec(s[6:8])),(_hex2dec(s[4:6])),(_hex2dec(s[2:4])),(_hex2dec(s[0:2]))]
    return '.'.join(ip)
 
def _ip6(s):
    ip = [s[6:8],s[4:6],s[2:4],s[0:2],s[12:14],s[14:16],s[10:12],s[8:10],s[22:24],s[20:22],s[18:20],s[16:18],s[30:32],s[28:30],s[26:28],s[24:26]]
    #print '66666:', ':'.join(ip), s
    return ':'.join(ip)
 
def _ip_hexrev(ip):
    return ''.join([hex(int(x)+256)[3:] for x in ip.split('.')][::-1]).upper()
 
def _remove_empty(array):
    return [x for x in array if x != '']
 
def _get_pid_of_inode(inode):
    s_term = r'^socket\:\['+ inode +r'\]$'
    for item in glob.iglob('/proc/[0-9]*/fd/[0-9]*'):
        try:
            if re.match(s_term,os.readlink(item)):
                return item.split('/')[2]
        except:
            pass
    return "NoPid"
 
def _resolve_ip(host):
    """
    resolve ip und update dictionary res_cache {'ip': 'name'}.
    If resolution for a ip failed, 'name' is n_try ... 0.
    """
    try:
        hname = socket.gethostbyaddr(host)[0]
        res_cache[host] = str(hname)
        return str(hname)
    except:
        res_cache[host] = str(host)
        return str(host)
 
def check_root():
   if os.getuid() == 0:
       return True
   else:
       return False
 
## Define our Custom Action function
def doPackets(packet):
 
    program = "-"
    pid = "-"    
    uid = "-"    
    o_proto = ""
    o_dport = "none"
    o_sport = "none"
    flags = ""
 
    # only local addresses
    if packet[0][1].src in MYADDRS:
        conn_addr = packet[0][1].src
        if packet.haslayer(TCP) or packet.haslayer(UDP) or packet.haslayer(ICMP):
            try:
                conn_port = packet[0][2].sport
            except:
                conn_port = 99999
        o_dir = 1
    else:
        conn_addr = packet[0][1].dst
        if packet.haslayer(TCP) or packet.haslayer(UDP) or packet.haslayer(ICMP):
            try:
                conn_port = packet[0][2].dport
            except:
                conn_port = 99999
        o_dir = 0
 
    if packet.haslayer(TCP) or packet.haslayer(UDP) or packet.haslayer(ICMP):        # grrr, no info in /proc/net/icmp so far. or packet.haslayer(ICMP):
        # logemol casch 
        c_hash = conn_addr+'=:='+str(conn_port)
        if not any(x[0] == c_hash for x in conn_cache):
            # get the connection info from packet
            spid,sexe,suid = get_conn_info(packet[0][1].proto, conn_addr, conn_port)
            if re.match("^[0-9]+$", spid):
                program = sexe
                pid = spid
                uid = suid
 
                # update cache
                if len(conn_cache) >= cc_maxlen:
                    conn_cache.pop(0)
                conn_cache.append([c_hash,program,pid])
                #print conn_cache
            else:
                program = sexe
                pid = spid
                uid = suid
        else:
            # me honds fom casch
            indx = [x[0] for x in conn_cache].index(c_hash)
            program = conn_cache[indx][1]
            pid = conn_cache[indx][2]
            uid = 0
            # cache aktualisieren
            renew = conn_cache.pop(indx)
            conn_cache.append(renew)
 
 
    o_payload = ""
    if packet.haslayer(UDP):
        o_proto = "UDP"
        try:
            o_dport = "\033[1m"+USERV[packet[0][2].dport]+"\033[0m"
        except:
            o_dport = str(packet[0][2].dport)
        try:
            o_sport = "\033[1m"+USERV[packet[0][2].sport]+"\033[0m"
        except:
            o_sport = str(packet[0][2].sport)
        flags = ""
        #o_payload = packet[0].sprintf('%10s,UDP.payload%')
    elif packet.haslayer(TCP):
        o_proto = "TCP"
        try:
            o_dport = "\033[1m"+TSERV[packet[0][2].dport]+"\033[0m"
        except:
            o_dport = str(packet[0][2].dport)
        try:
            o_sport = "\033[1m"+TSERV[packet[0][2].sport]+"\033[0m"
        except:
            o_sport = str(packet[0][2].sport)
        flags = packet[0].sprintf('%3s,TCP.flags%')
        if payloadH == True:
            if packet.haslayer(Raw):
                tpld = packet[0].sprintf('%TCP.payload%')
                if re.match("^GET|POST|HTTP|HEAD|PUT|PATCH|DELETE|TRACE|OPTIONS|CONNECT.*", tpld[0:8]):
                    request_line, gaga = tpld.split('\r\n', 1)
                    o_payload = str(request_line)
                    #o_payload = tpld[0:20]
    elif packet.haslayer(ICMP):
        o_proto = "ICMP"
        if conn_port == 99999:
            o_dport = "-"
            o_sport = "-"
        else:
            try:
                o_dport = "\033[1m"+USERV[packet[0][2].sport]+"\033[0m"
            except:
                o_dport = str(packet[0][2].sport)
            try:
                o_sport = "\033[1m"+USERV[packet[0][2].dport]+"\033[0m"
            except:
                o_sport = str(packet[0][2].dport)
        flags = "["+packet[0].sprintf('%ICMP.type%') + "/" + packet[0].sprintf('%ICMP.code%')+"]"
    else:
        o_proto = "UNKNOWN"
 
    if o_dir == 1:
        if numeric == False:
            if res_cache.has_key(packet[0][1].dst):
                rem_name = res_cache[packet[0][1].dst]
            else:
                rem_name = _resolve_ip(packet[0][1].dst)
        else:
            rem_name = packet[0][1].dst
 
        return "\033[1m"+str(program)+"\033[0m" +"/"+ str(pid) + " - " + o_proto + ": " + packet[0][1].src + ":" + o_sport + "\033[1m\033[31m  ->>>  \033[0m" + rem_name + ":" + o_dport + " " + flags + " Len:" + str(packet[0][1].len) + " : " + o_payload
    else:
        if numeric == False:
            if res_cache.has_key(packet[0][1].src):
                rem_name = res_cache[packet[0][1].src]
            else:
                rem_name = _resolve_ip(packet[0][1].src)
        else:
            rem_name = packet[0][1].src
 
        return "\033[1m"+str(program)+"\033[0m" +"/"+ str(pid) + " - " + o_proto + ": " + packet[0][1].dst + ":" + o_dport + "\033[1m\033[36m  <<<-  \033[0m" + rem_name + ":" + o_sport + " " + flags + " Len:" + str(packet[0][1].len) + " : " + o_payload
 
 
 
## -- Ond denn s'Hooptprogramm
 
# root check
if not check_root():
    print("This program needs root privileges !\nThats because of reading the /proc filesystem and using libpcap functions.\nSo I give up\n")
    conf.sniff_promisc=0
    conf.sniff_promisc=0
    #print conf
    sys.exit()
 
# get the interfaces
ifaces = commands.getoutput("ls /sys/class/net")
iface_list = ifaces.split('\n')
 
print
# commandline params
parser = argparse.ArgumentParser(description='sisniff V'+VERSION)
parser.add_argument('-i', help="Interface (mandatory)", choices=iface_list, required=True)
parser.add_argument('-n', help="Do not resolve IP-Addresses", action="store_true")
parser.add_argument('-pH', help="Show HTTP Payload", action="store_true")
parser.add_argument('filter', nargs='?', help="Filter (BPF syntax) on top of IP (in dbl-quotes \"...\")", type=str)
args = parser.parse_args()
iface = args.i
if args.n:
    numeric = True
if args.pH:
    payloadH = True
if args.filter:
    fillter = " and (" + args.filter + ")"
    print "> Applying Filter: \"ip" + fillter + "\"" 
 
# local addresses 
MYADDRS = _remove_empty([os.popen('ip addr show '+iface).read().split("inet ")[1].split("/")[0]])
MYADDRS.append('0.0.0.0')
MYADDRS.append('127.0.0.1')
xMYADDRS = [_ip_hexrev(x) for x in MYADDRS]
print "> My IP-Addresses: " + str(MYADDRS)
 
# confirmed connections cache (ringboffer)
conn_cache = []
cc_maxlen = 20
 
# resolver cache
res_cache = {}
n_try = 3
print
print "Prog/PID mavericks: ?/? = No entry in /proc/net/xxx; -/- = No PID for Inode found; ./. = Inode=0;"
print
print "Program/PID: Local addr:port <<->> Remote addr:port [Flags] Len:length : [Payload]"
print "-------------------------------------------------------------------------------"
 
# sniff, filtering for IP traffic
sniff(filter="ip"+fillter,iface=iface,prn=doPackets, store=0)
 
## -- oond denn isch schloss