Provided by: nast_0.2.0-6_amd64 bug

NAME

       nast - Network Analyzer Sniffer Tool

SYNOPSIS

       nast [-G] [-i interface] [-l filename] [-f filter] [--ld filename] [-pdxPmsgrSMLbcCBVh]

DESCRIPTION

       Nast is a packet sniffer and a LAN analyzer based on Libnet and Libpcap.

       It  can sniff in normal mode or in promiscuous mode the packets on a network interface and
       log it.  It dumps the headers of packets and the payload in  ascii  or  ascii-hex  format.
       You can apply a filter. The sniffed data can be saved in a separated file.

       As analyzer tool, it has many features like:
              * Build LAN hosts list
              * Follow a TCP-DATA stream
              * Find LAN Internet gateways
              * Discover promiscuous nodes
              * Reset an established connection
              * Perform a single half-open portscanner
              * Perform a multi half-open portscanner
              * Find link type (hub or switch)
              * Catch daemon banner of LAN nodes
              * Control ARP answers to discover possible ARP-spoofing
              * Byte counting with an optional filter
              * Write reports logging

       It also provides a new ncurses interface.

CMDLINE SNIFFER OPTIONS

       -i, --interface
              Select the Interface, if not specified will be auto-detected.

       -p, --promisc
              Disable promiscuous mode on NIC.

       -d, --ascii-data
              Print data in ascii format.

       -x, --ascii-hex-data
              Print data in ascii-hex format.

       -f, --filter <"filter">
              Apply <"filter"> to sniffer (see "FILTER SYNTAX" section below for syntax)

           --ld <filename>
              Log  captured  data to <filename> (only payload). Use -l to log all packet instead,
              useful with -B

       -T, --tcpdump-log <filename>
              Log all packets in tcpdump format to <filename>

       -R, --tcpdump-log-read <filename>
              Read all packets saved in tcpdump format from <filename>

ANALYZER FEATURES

       -P, --check-promisc <ip>
              Check other NIC on the LAN with the promiscuous flag set.
              By performing a fake ARP broadcast, we can determine if a  NIC  is  in  promiscuous
              mode  or  not.  If the checked host is in promiscuous mode it will responds with an
              ARP response otherwise it drop the packet.
              Note: This method doesn't work with all OS
              Use -P all to query all network NIC

              eg: root@localhost:~/$ nast -P 192.168.1.2

              NAST "NETWORK ANALYZER SNIFFER TOOL"

              192.168.1.2 (localhost.org)             Found!!

              We can check all nodes by using:
              root@localhost:~/$ nast -P all

       -m, --host-list
              Map the LAN by  performing  a  series  of  ARP  request  to  sequential  subnet  IP
              addresses.

              eg: root@localhost:~/$ nast -m

              NAST "NETWORK ANALYZER SNIFFER TOOL"

              Mapping the Lan for 255.255.255.0 subnet ... please wait

              MAC address             IP address (hostname)
              ===========================================================
              00:4R:BR:3E:21:12       192.168.1.1(nast.experiment.net)
              00:50:BA:80:AC:11       192.168.1.2 (localhost.org) (*)

              (*) This is localhost

       -s, --tcp-stream
              Follow  a  TCP/IP  connection printing all data in payload. You must specify the IP
              addresses of the ends.

              eg of a ftp connection:
              root@localhost:~/$ nast -s

              NAST "NETWORK ANALYZER SNIFFER TOOL"

              Type connection extremes
              ------------------------
              1st ip : 192.168.1.1
              1st port : 1041
              2nd : 192.168.1.2
              2nd port : 21

              NAST TCP STREAM LOG
              192.168.1.1->mistaya.neverland.org
              PASV
              192.168.1.1<-mistaya.neverland.org
              227 Entering Passive Mode (192,168,1,2,4,12).
              192.168.1.1->mistaya.neverland.org
              LIST
              (...)

       -g, --find-gateway
              Try to find possible Internet-gateways.
              We send a SYN packet to a public host on port 80 through sequential host-lan and if
              a SYN-ACK return we have find the gateway.

       -r, --reset-connection
              Destroy  an  established  connection. You must specify the IP addresses of the ends
              and at least one port .  Please, pay attention when use this function.

              eg: root@localhost:~/$ nast -r

              NAST "NETWORK ANALYZER SNIFFER TOOL"

              Type connection extremes
              ------------------------
              1 ip / hostname : 192.168.1.1
              1 port (0 to autodetect) : 0
              2 ip / hostname : 192.168.1.2
              2 port (0 to autodetect) : 21

              - Waiting for SEQ ACK (192.168.1.1 -> 192.168.1.2:21)
              - Stoled SEQ (247656261) ACK (3764364876)...
              - Connection has been resetted

              This feature works only if we can read SEQ and ACK numbers, because  RST  mechanism
              works with them.

       -S, --port-scanner
              Performs a half-open port scanning on the selected host. It tries also to determine
              some firewall (just iptables) rules.
              About this technique NMAP says: This technique is often referred to as  "half-open"
              scanning,  because  you don't open a full TCP  connection.  You send  a SYN packet,
              as if you are going to open a real connection  and  you  wait  for  a  response.  A
              SYN|ACK indicates the port is listening. A RST is indicative of a non-listener.  If
              a SYN|ACK is received, a RST is immediately sent  to  tear  down   the   connection
              (actually  our OS kernel does this for us).  The primary advantage to this scanning
              technique is that fewer sites will log it.  Unfortunately you need root  privileges
              to build these custom SYN packets.

              eg: root@localhost:~/$ nast -S
              NAST "NETWORK ANALYZER SNIFFER TOOL"
              Port Scanner extremes
              Insert IP to scan   : 192.168.1.3
              Insert Port range   : 1-100

              Wait for scanning...

              State           Port            Services                Notes
              Open            22              ssh                     None
              Open            27              nsw-fe                  None

              All the other 98 ports are in state closed
              Scanning terminated on Apr 14 21:46:55

              The Port range could be in the following style:
              eg: 1-100       (means from port 1 to 100)
                  1,3,5,1000  (means ports 1,3,5 and 1000)
                  1-50,60     (means from port 1 to 50 and port 60)

       -M, --multi-port-scanner
              Same as above but done on all hosts of the lan.

       -L, --find-link
              Tries to determine what type of link is used in the LAN (Hub or switch).
              In  the LAN segment is there a HUB or a SWITCH? We can find it by sending a spoofed
              ICMP echo-request (to work there must be at least 3 host in LAN and at least one of
              them must reply with a ICMP echo-replay)

       -b, --daemon-banner
              Checks the most famous daemon banner on the LAN's hosts.
              You can customize ports database adding them to ports[] variable in main.c

       -c, --check-arp-poisoning
              Control  ARP  answers  to  discover  possible ARP spoofing attacks like man-in-the-
              middle
              When run, Nast make a database of all network node (IP and MAC address), then sniff
              ARP response and verify the correctness of IP-mac address association.  Remember to
              execute Nast when you are sure that nobody is making ARP-poisoning, than  have  fun
              and relax and check program output:).

       -C, --byte-counting <"filter">
              Apply traffic counting to <"filter"> (see FILTER SYNTAX section below for syntax)
              Use -C any if you don't want to use a filter.

              eg: root@localhost:~/$ nast -C any

              NAST "NETWORK ANALYZER SNIFFER TOOL"

              Reading from "eth0"

              Packets         Total           Current speed           Average speed
              ----------------------------------------------------------------
              - 24            1008B           18B/s                   21B/s

GENERAL OPTIONS

       -G, --ncurses
              Run Nast with the ncurses interfaces (only if compiled with ncurses support)

       -l, --log-file <filename>
              Log reports to <filename>. Work with many features.

       -B, --daemon
              Run   in   background   like   daemon   and   turn  off  stdout  (very  useful  for
              sniffer/stream/ARP control logging)

       -V, --version
              Show version information

NCURSES INTERFACE NOTE

       Versions later 0.2.0 have a new ncurses interface which has  many  improvements  regarding
       the  correspondent  command  line  version.  For  example  you  can  select the connection
       interactively for tcp stream and reset features and byte counting module  show  much  more
       information (packets type and connections load).

       Please read NCURSES_README file before using the ncurses interface!

FILTER SYNTAX, WHAT PCAP GIVE US!

       Important:  this  section has been copied from Tcpdump 3.7.1 manpage and "expression" here
       stand from "filter".
       Remeber to enclose filter between apexes ("something like this")

        expression
              selects which packets will be dumped.  If no expression is given,  all  packets  on
              the  net  will  be  dumped.  Otherwise, only packets for which expression is `true'
              will be dumped.

              The expression consists of one or more primitives.  Primitives usually  consist  of
              an  id  (name  or  number)  preceded  by  one  or more qualifiers.  There are three
              different kinds of qualifier:

              type   qualifiers say what kind of thing the id name or number refers to.  Possible
                     types are host, net and port.  E.g., `host foo', `net 128.3', `port 20'.  If
                     there is no type qualifier, host is assumed.

              dir    qualifiers specify a  particular  transfer  direction  to  and/or  from  id.
                     Possible  directions  are  src, dst, src or dst and src and dst.  E.g., `src
                     foo', `dst net 128.3', `src or dst port  ftp-data'.   If  there  is  no  dir
                     qualifier,  src  or  dst  is assumed.  For `null' link layers (i.e. point to
                     point protocols such as slip) the inbound and  outbound  qualifiers  can  be
                     used to specify a desired direction.

              proto  qualifiers  restrict  the  match  to a particular protocol.  Possible protos
                     are: ether, fddi, tr, ip, ip6, arp, rarp, decnet, tcp and udp.  E.g., `ether
                     src  foo',  `arp net 128.3', `tcp port 21'.  If there is no proto qualifier,
                     all protocols consistent with the type are assumed.  E.g., `src  foo'  means
                     `(ip  or arp or rarp) src foo' (except the latter is not legal syntax), `net
                     bar' means `(ip or arp or rarp) net bar' and `port 53' means `(tcp  or  udp)
                     port 53'.

              [`fddi'  is  actually  an  alias for `ether'; the parser treats them identically as
              meaning ``the data link level used on  the  specified  network  interface.''   FDDI
              headers  contain  Ethernet-like source and destination addresses, and often contain
              Ethernet-like packet types, so you can filter on these FDDI fields just as with the
              analogous  Ethernet fields.  FDDI headers also contain other fields, but you cannot
              name them explicitly in a filter expression.

              Similarly, `tr' is an alias for `ether'; the previous paragraph's statements  about
              FDDI headers also apply to Token Ring headers.]

              In  addition  to  the above, there are some special `primitive' keywords that don't
              follow the pattern: gateway, broadcast, less, greater and  arithmetic  expressions.
              All of these are described below.

              More  complex filter expressions are built up by using the words and, or and not to
              combine primitives.  E.g., `host foo and not port ftp and not port  ftp-data'.   To
              save  typing, identical qualifier lists can be omitted.  E.g., `tcp dst port ftp or
              ftp-data or domain' is exactly the same as `tcp dst port ftp or tcp dst  port  ftp-
              data or tcp dst port domain'.

              Allowable primitives are:

              dst host host
                     True  if  the  IPv4/v6 destination field of the packet is host, which may be
                     either an address or a name.

              src host host
                     True if the IPv4/v6 source field of the packet is host.

              host host
                     True if either the IPv4/v6 source or destination of the packet is host.  Any
                     of  the  above host expressions can be prepended with the keywords, ip, arp,
                     rarp, or ip6 as in:
                          ip host host
                     which is equivalent to:
                          ether proto \ip and host host
                     If host is a name with multiple IP addresses, each address will  be  checked
                     for a match.

              ether dst ehost
                     True  if  the  ethernet destination address is ehost.  Ehost may be either a
                     name from /etc/ethers or a number (see ethers(3N) for numeric format).

              ether src ehost
                     True if the ethernet source address is ehost.

              ether host ehost
                     True if either the ethernet source or destination address is ehost.

              gateway host
                     True if the packet used host as a gateway.  I.e.,  the  ethernet  source  or
                     destination  address  was  host  but  neither  the  IP  source  nor  the  IP
                     destination was host.  Host must be a name and must be  found  both  by  the
                     machine's  host-name-to-IP-address  resolution  mechanisms  (host name file,
                     DNS,  NIS,  etc.)  and  by   the   machine's   host-name-to-Ethernet-address
                     resolution mechanism (/etc/ethers, etc.).  (An equivalent expression is
                          ether host ehost and not host host
                     which  can  be  used  with  either names or numbers for host / ehost.)  This
                     syntax does not work in IPv6-enabled configuration at this moment.

              dst net net
                     True if the IPv4/v6 destination address of the packet has a  network  number
                     of  net.   Net  may  be either a name from /etc/networks or a network number
                     (see networks(4) for details).

              src net net
                     True if the IPv4/v6 source address of the packet has  a  network  number  of
                     net.

              net net
                     True if either the IPv4/v6 source or destination address of the packet has a
                     network number of net.

              net net mask netmask
                     True if the IP address matches  net  with  the  specific  netmask.   May  be
                     qualified with src or dst.  Note that this syntax is not valid for IPv6 net.

              net net/len
                     True  if  the IPv4/v6 address matches net with a netmask len bits wide.  May
                     be qualified with src or dst.

              dst port port
                     True if the  packet  is  ip/tcp,  ip/udp,  ip6/tcp  or  ip6/udp  and  has  a
                     destination  port value of port.  The port can be a number or a name used in
                     /etc/services (see tcp(4P) and udp(4P)).  If a name is used, both  the  port
                     number  and  protocol  are  checked.  If a number or ambiguous name is used,
                     only the port number  is  checked  (e.g.,  dst  port  513  will  print  both
                     tcp/login  traffic  and  udp/who  traffic,  and  port domain will print both
                     tcp/domain and udp/domain traffic).

              src port port
                     True if the packet has a source port value of port.

              port port
                     True if either the source or destination port of the packet is port.  Any of
                     the  above  port expressions can be prepended with the keywords, tcp or udp,
                     as in:
                          tcp src port port
                     which matches only tcp packets whose source port is port.

              less length
                     True if the packet has a length less than  or  equal  to  length.   This  is
                     equivalent to:
                          len <= length.

              greater length
                     True  if  the  packet has a length greater than or equal to length.  This is
                     equivalent to:
                          len >= length.

              ip proto protocol
                     True if the packet is an IP packet (see ip(4P)) of protocol  type  protocol.
                     Protocol  can  be a number or one of the names icmp, icmp6, igmp, igrp, pim,
                     ah, esp, vrrp, udp, or tcp.  Note that the identifiers tcp,  udp,  and  icmp
                     are  also keywords and must be escaped via backslash (\), which is \\ in the
                     C-shell.  Note that this primitive does not chase the protocol header chain.

              ip6 proto protocol
                     True if the packet is an IPv6 packet of protocol type protocol.   Note  that
                     this primitive does not chase the protocol header chain.

              ip6 protochain protocol
                     True  if  the  packet is IPv6 packet, and contains protocol header with type
                     protocol in its protocol header chain.  For example,
                          ip6 protochain 6
                     matches any IPv6 packet with TCP protocol  header  in  the  protocol  header
                     chain.   The packet may contain, for example, authentication header, routing
                     header, or hop-by-hop option header, between IPv6  header  and  TCP  header.
                     The BPF code emitted by this primitive is complex and cannot be optimized by
                     BPF optimizer code in tcpdump, so this can be somewhat slow.

              ip protochain protocol
                     Equivalent to ip6 protochain protocol, but this is for IPv4.

              ether broadcast
                     True if the packet is an ethernet broadcast packet.  The  ether  keyword  is
                     optional.

              ip broadcast
                     True  if  the packet is an IP broadcast packet.  It checks for both the all-
                     zeroes and all-ones broadcast conventions, and looks  up  the  local  subnet
                     mask.

              ether multicast
                     True  if  the  packet is an ethernet multicast packet.  The ether keyword is
                     optional.  This is shorthand for `ether[0] & 1 != 0'.

              ip multicast
                     True if the packet is an IP multicast packet.

              ip6 multicast
                     True if the packet is an IPv6 multicast packet.

              ether proto protocol
                     True if the packet is of ether type protocol.  Protocol can be a  number  or
                     one  of  the names ip, ip6, arp, rarp, atalk, aarp, decnet, sca, lat, mopdl,
                     moprc, iso, stp, ipx, or netbeui.  Note these identifiers are also  keywords
                     and must be escaped via backslash (\).

                     [In  the  case of FDDI (e.g., `fddi protocol arp') and Token Ring (e.g., `tr
                     protocol arp'), for most of those  protocols,  the  protocol  identification
                     comes  from  the  802.2  Logical Link Control (LLC) header, which is usually
                     layered on top of the FDDI or Token Ring header.

                     When filtering for most protocol identifiers on FDDI or Token Ring,  tcpdump
                     checks  only the protocol ID field of an LLC header in so-called SNAP format
                     with an Organizational Unit Identifier (OUI) of 0x000000,  for  encapsulated
                     Ethernet;  it doesn't check whether the packet is in SNAP format with an OUI
                     of 0x000000.

                     The exceptions are iso, for which it checks the  DSAP  (Destination  Service
                     Access  Point)  and  SSAP  (Source  Service  Access Point) fields of the LLC
                     header, stp and netbeui, where it checks the DSAP of  the  LLC  header,  and
                     atalk,  where it checks for a SNAP-format packet with an OUI of 0x080007 and
                     the Appletalk etype.

                     In the case of Ethernet, tcpdump checks the Ethernet type field for most  of
                     those  protocols;  the  exceptions  are  iso, sap, and netbeui, for which it
                     checks for an 802.3 frame and then checks the LLC header as it does for FDDI
                     and  Token  Ring,  atalk, where it checks both for the Appletalk etype in an
                     Ethernet frame and for a SNAP-format packet as it does for  FDDI  and  Token
                     Ring,  aarp,  where  it  checks  for  the  Appletalk  ARP etype in either an
                     Ethernet frame or an 802.2 SNAP frame with an  OUI  of  0x000000,  and  ipx,
                     where  it checks for the IPX etype in an Ethernet frame, the IPX DSAP in the
                     LLC header, the 802.3 with no LLC header encapsulation of IPX, and  the  IPX
                     etype in a SNAP frame.]

              decnet src host
                     True  if  the  DECNET source address is host, which may be an address of the
                     form ``10.123'', or a DECNET host name.  [DECNET host name support  is  only
                     available on Ultrix systems that are configured to run DECNET.]

              decnet dst host
                     True if the DECNET destination address is host.

              decnet host host
                     True if either the DECNET source or destination address is host.

              ip, ip6, arp, rarp, atalk, aarp, decnet, iso, stp, ipx, netbeui
                     Abbreviations for:
                          ether proto p
                     where p is one of the above protocols.

              lat, moprc, mopdl
                     Abbreviations for:
                          ether proto p
                     where p is one of the above protocols.  Note that tcpdump does not currently
                     know how to parse these protocols.

              vlan [vlan_id]
                     True if the  packet  is  an  IEEE  802.1Q  VLAN  packet.   If  [vlan_id]  is
                     specified, only true is the packet has the specified vlan_id.  Note that the
                     first vlan keyword encountered in expression changes  the  decoding  offsets
                     for  the remainder of expression on the assumption that the packet is a VLAN
                     packet.

              tcp, udp, icmp
                     Abbreviations for:
                          ip proto p or ip6 proto p
                     where p is one of the above protocols.

              iso proto protocol
                     True if the packet is an OSI packet of protocol type protocol.  Protocol can
                     be a number or one of the names clnp, esis, or isis.

              clnp, esis, isis
                     Abbreviations for:
                          iso proto p
                     where p is one of the above protocols.  Note that tcpdump does an incomplete
                     job of parsing these protocols.

EXAMPLES

       Here are some examples of the use of NAST:

          nast -f "src 192.168.1.2"
       In this example with the help of the filter  we  choose  to  see  only  the  traffic  from
       192.168.1.2

          nast -p -B --ld logfile.txt
       Here we run nast in background mode and log all data that pass through our NIC.

          nast -S -l logfile.txt
       In this other case we log the results of the port scanner in the file "logfile.txt"

          nast -c -B
       This  is  a  very useful options. We run in background mode nast that checks if someone is
       arp-poisoning.

SUPPORTED PLATFORMS

       Tested:
       * Linux 2.4.x
       * Linux 2.6.x
       * FreeBSD 5.x
       * FreeBSD 4.x

       Not tested yet:
       * Linux 2.2.x

AVAILABILITY

       Official web site: http://nast.berlios.de
       Newsletter: http://lists.berlios.de/mailman/listinfo/nast-news

KNOWN BUGS

       * Promiscuous mode scanner many times returns wrong results
       * Sometimes the port scanner generates false results

       Please report bugs to authors

AUTHORS

       Embyte <embyte@madlab.it>
       Snifth <snifth@box.it>

LICENSE

       GNU GENERAL PUBLIC LICENSE Version 2, June 1991
       See COPYING for details.