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<HTML>
<HEAD>
<TITLE>ArpON</TITLE>
</HEAD>
<BODY>
<H1>ArpON</H1>
<HR>
<PRE>
<!-- Manpage converted by man2html 3.0.1 -->

</PRE>
<H2>NAME</H2><PRE>
       <B>arpon</B> - <B>Arp handler Inspection</B>

</PRE>
<H2>SYNOPSIS</H2><PRE>
       <B>arpon</B> [ <B>-ndfgiolmpbraetuszycvh</B> ]
             [ <B>-n</B> <I>Nice</I> <I>value</I> ]
             [ <B>-f</B> <I>Log</I> <I>file</I> ]
             [ <B>-i</B> <I>Device</I> ]
             [ <B>-m</B> <I>Timeout</I> ] [ <B>-p</B> <I>Inet4</I> ]
             [ <B>-a</B> <I>Inet4</I> <I>MAC</I> ] [ <B>-e</B> <I>Inet4</I> <I>or</I> <I>MAC</I> ]
             [ <B>-u</B> <I>timeout</I> ] [ <B>-z</B> <I>timeout</I> ]

</PRE>
<H2>DESCRIPTION</H2><PRE>
       <I>ArpON</I>  (Arp  handler inspectiON) is a portable handler daemon with some
       nice tools to handle all ARP aspects. It has a lot of features  and  it
       makes  Arp  a  bit  safer. This is possible using two kinds of anti Arp
       Poisoning tecniques, the first is based on SARPI or "Static Arp Inspec-
       tion",  the second on DARPI or "Dynamic Arp Inspection" approach.  <I>Keep</I>
       <I>in</I> <I>mind</I> <I>other</I> <I>common</I> <I>tools</I> <I>fighting</I> <I>ARP</I> <I>poisoning</I> <I>usually</I>  <I>limit</I>  <I>their</I>
       <I>activity</I>  <I>only</I>  <I>to</I>  <I>point</I> <I>out</I> <I>the</I> <I>problem</I> <I>instead</I> <I>of</I> <I>blocking</I> <I>it,</I> <I>ArpON</I>
       <I>does</I> <I>it</I> <I>using</I> <I>SARPI</I> <I>and</I> <I>DARPI</I> <I>policies.</I>  Finally you can use  ArpON  to
       pentest  some  switched/hubbed  LAN with/without DHCP protocol, in fact
       you can disable the daemon in order to use the tools to poison the  ARP
       Cache.  However ArpON is also a good tool to a clever sysadmin aware of
       security related topics. It is a tool born to make Arp secure in  order
       to avoid Arp Spoofing/Poisoning &amp; co.

       <I>Remember</I> <I>it</I> <I>doesn't</I> <I>affect</I> <I>the</I> <I>communication</I> <I>efficiency</I> <I>of</I> <I>the</I> <I>ARP</I> <I>pro-</I>
       <I>tocol!</I>

</PRE>
<H2>OPTIONS</H2><PRE>
       <B>TASK</B> <B>MODE</B>

       -n (--nice) &lt;"Nice Value"&gt;
              Sets PID's CPU priority (Default: 0 nice) for Realtime  work  for
              many CPU architectures (little/big endian with 32/64 bits).

       -d (--daemon)
              Works in background task (Default: /var/run/arpon.pid). 


       <B>LOG</B> <B>MODE</B>

       -f (--log-file) &lt;"Log file"&gt;
              Sets log file (Default: /var/log/arpon.log).

       -g (--log)
              Works in logging mode.


       <B>DEVICE</B> <B>MANAGER</B>
       
       ArpON  is an ARP handler and it is able to handle network devices auto-
       matically or manually, to print a list of up network interfaces of  the
       system  (it  uses  the last of the list). It identifies the interface's
       datalink layer you are using but it supports only Ethernet/Wireless  as
       datalink. ArpON sets the netowrk interface and it deletes the PROMISCUE
       flag.

       -i (--dev-manual) &lt;"Device"&gt;
              Sets your Ethernet device manually.

       -o (--dev-auto)
              Sets Ethernet device automatically.

       -l (--dev-list)
              Prints all Ethernet devices.


       <B>ARP</B> <B>PING</B>

       Among all its features ArpON is able to ping using ARP a host, the pos-
       sibility to ping the broadcast address (it can compute the number of up
       host  through  netmask  address,  it  recognizes  the   address   class
       INET/IPV4), then it prints a up host's list of the LAN.  Timeout is set
       by default to 500 ms, but you can override this value.

       -m (--ping-timeout) &lt;"Timeout"&gt;
               Sets Arp Ping response timeout (Default: 500 ms).

       -p (--ping-host) &lt;"Inet4"&gt;
              Sends Arp Ping to Inet4 address.

       -b (--ping-broadcast)
              Sends Arp Ping to Broadcast address  (Builds  and  prints  LAN's
              active hosts).


       <B>ARP</B> <B>PASSIVE</B> <B>SNIFFER</B>

       ArpON  can  be  also  a  passive  sniffer  and  so  it  can capture all
       inbound/outbound ARP packets, requests and replies, in TcpDump style.

       -r (--sniff-arp)
              Sniffs only Arp protocol (I/O Arp Request/Reply).


       <B>ARP</B> <B>CACHE</B> <B>MANAGER</B>

       ArpON is not over, in fact it can handle system's ARP cache, it has the
       possibility  to add, delete the entries and to print the current cache.

       -a (--cache-add) <"Inet4 MAC">
              Adds Inet4 and MAC Arp entry.

       -e (--cache-del) <"Inet4 | MAC">
              Deletes Inet4 or MAC Arp entry.

       -t (--cache-list)
              Prints total ARP Cache entries.


       <B>STATIC</B> <B>ARP</B> <B>INSPECTION</B>

       When SARPI starts, it saves statically all the ARP entries it finds  in
       the  ARP  cache in a static cache called SARPI Cache. Note that you can
       also manage the ARP cache before starting SARPI, through the "ARP CACHE
       MANAGER"  feature  of  ArpON.   After the startup, ArpON operations are
       split in two parallel tasks:

       - It automatically updates the ARP cache each time the timeout expires;
       timeout  is  simply  the  expire  time  of each entry in the ARP cache,
       defined according to the policy set in the running kernel.  Timeout  is
       set by default to 10 minutes, but you can override this value.

       -  It  applies  policies  to  the ARP cache, according to the following
       three schemes:

       1) For each received ARP reply, ArpON checks whether  source  addresses
       match  an  entry  in  the SARPI cache. In such case, the new entry will
       overwrite the old one, previously saved in the static cache.

       2) For each received  ARP  request,  ArpON  checks  wheter  the  source
       addresses  match  an  entry  in  the SARPI cache. In such case, the new
       entry will overwrite the old one, previously saved in the static cache.

       3)  Every ARP request/reply whose source address doesn't match an entry
       in the SARPI cache are just ignored.

       <I>Both</I> <I>these</I> <I>operations</I> <I>are</I> <I>a</I> <I>countermeasure</I> <I>against</I> <I>ARP</I> <I>Poisoning/Spoof-</I>
       <I>ing</I> <I>attacks,</I> <I>as</I> <I>SARPI</I> <I>detects</I> <I>and</I> <I>blocks</I> <I>them.</I> <I>SARPI</I> <I>doesn't</I> <I>affect</I> <I>the</I>
       <I>communication</I> <I>efficiency</I> <I>of</I> <I>the</I> <I>ARP</I> <I>protocol.</I> <I>SARPI</I> <I>just</I> <I>manages</I> <I>a</I> <I>list</I>
       <I>with</I>  <I>static</I>  <I>entries,</I>  <I>making</I>  <I>it</I>  <I>an</I> <I>optimal</I> <I>choice</I> <I>in</I> <I>those</I> <I>networks</I>
       <I>without</I> <I>DHCP.</I>  Finally, it's possible to use SARPI as a  daemon,  using
       the "TASK MODE" feature of ArpON.

       -u (--sarpi-timeout) &lt;"Timeout"&gt;
              Sets Arp Cache refresh timeout (Default: 10 minuts).

       -s (--sarpi)
              Manages Arp Cache statically.


       <B>DYNAMIC</B> <B>ARP</B> <B>INSPECTION</B>

       DARPI startup phase consists in cleaning up the ARP cache, deleting all
       of its entries. This is due because ARP cache may have poisoned entries
       from  the beginning.  DARPI handles the so called DARPI cache, applying
       different policies to different kinds of packets:

       - ARP request: It traces ARP requests and follows these rules if  traf-
       fic is:

       1)  Outbound:  Packets are generated by us. ArpON let them pass, adding
       an entry with the target to the DARPI cache (see ARP reply -  Inbound).
       On this DARPI cache entry, DARPI sets timeout because if this entry 
       doesn't exist in network, DARPI must to delete it.
       
       2)  Inbound:  Packets  come  to  us from the network. ArpON refuses the
       packet, deleting the entry of the source address from  the  ARP  cache,
       because  such  packet may be poisoned. Afterwards, the kernel will send
       an ARP request to the source address, and it will be managed  by  ArpON
       through  DARPI.
       <I>Here,</I> <I>ArpON</I> <I>will</I> <I>defend</I> <I>and</I> <I>block</I> <I>ARP</I>  <I>Poisoning/Spoofing</I>  <I>attacks</I> 
       <I>through</I> <I>the</I> <I>ARP</I> <I>requests.</I> 

       - ARP reply: It traces the ARP replies,  and  follows  these  rules  if
       traffic is:

       1) Outbound: Packets are generated by us. ArpON just lets them pass.

       2)  Inbound:  Packets come to us from the network. ArpON checks whether
       the source address matches an entry in the DARPI cache (see ARP request
       - Outbound), it lets the packet flow, adding an entry in the ARP cache.
       Otherwise, if the source address doesn't match any entry in  the  DARPI
       cache, ArpON refuses the packet, deleting the entry from the ARP cache.
       <I>Here,</I> <I>ArpON</I> <I>defends</I> <I>and</I> <I>blocks</I> <I>ARP</I>  <I>Poisoning/Spoofing</I>  <I>attacks</I>  <I>through</I>
       <I>the</I> <I>ARP</I> <I>replies.</I>

       <I>Both</I>  <I>types</I>  <I>of</I>  <I>packets</I>  <I>are</I>  <I>used</I>  <I>to</I>  <I>perform</I> <I>ARP</I> <I>Poisoning/Spoofing</I>
       <I>attacks,</I> <I>as</I> <I>DARPI</I> <I>detects</I> <I>and</I> <I>blocks</I> <I>them.</I>  <I>DARPI</I>  <I>doesn't</I>  <I>affect</I>  <I>the</I>
       <I>communication</I>  <I>efficiency</I> <I>of</I> <I>the</I> <I>ARP</I> <I>protocol.</I> <I>DARPI</I> <I>manages</I> <I>uniquely</I> <I>a</I>
       <I>list</I> <I>with</I> <I>dynamic</I> <I>entries.</I> <I>Therefore</I> <I>it's</I> <I>an</I> <I>optimal</I> <I>solution</I>  <I>in</I>  <I>net-</I>
       <I>works</I>  <I>having</I>  <I>DHCP.</I>   Finally, it's possible to use DARPI as a network
       daemon, through the feature "TASK MODE" of ArpON.

       -z (--darpi-timeout) &lt;"Timeout"&gt;
              Sets DARPI Cache entry timeout (Default: 500 milliseconds).

       -y (--darpi)
              Manages Arp Cache dinamically.


       <B>MISC</B>

       -c (--license)
              Prints license page.

       -v (--version)
              Prints version number.

       -h (--help)
              Prints help summary page.


</PRE>
<H2>EXAMPLES</H2><PRE>
       - Print the interfaces list:

       # arpon -l

         [09/05/2008 - 18:20:23 CEST] Device: (eth0) MAC: 0:e0:4c:xx:xx:xx Inet4: 192.168.1.7 Netmask: 255.255.255.0
         [09/05/2008 - 18:20:23 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0



       - Print ethernet datalink:

       # arpon -i eth0

         [09/05/2008 - 18:21:06 CEST] Device: (eth0) MAC: 0:e0:4c:xx:xx:xx Inet4: 192.168.1.7 Netmask: 255.255.255.0



       - Print automatic network interfaces:

       # arpon -o

         [09/05/2008 - 18:22:25 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0



       - Arp ping to host with 10 milliseconds timeout:

       # arpon -m 10 -p 192.168.1.1

         [09/05/2008 - 18:25:08 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0
         [09/05/2008 - 18:25:08 CEST] Arp Ping to Host (192.168.1.1) with timeout: 10 milliseconds.
         [09/05/2008 - 18:25:08 CEST] -&gt; Arp who-has 192.168.1.1 (ff:ff:ff:ff:ff:ff) tell 192.168.1.3 (aa:0:4:xx:xx:xx)
         [09/05/2008 - 18:25:08 CEST] &lt;- Arp reply 192.168.1.1 is-at (0:17:37:xx:xx:xx)



       - Arp ping to broadcast with -20 nice, logging mode and 20 milliseconds
       timeout:

       # arpon -n -20 -g -m 20 -b

         [09/05/2008 - 18:26:43 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0
         [09/05/2008 - 18:26:43 CEST] Arp Ping to Broadcast with timeout: 20 milliseconds, Class: "C", Possible Hosts: 255.
         [09/05/2008 - 18:26:43 CEST] 1) Inet4:     192.168.1.1  -&gt;  Mac:  0:17:37:xx:xx:xx
         [09/05/2008 - 18:26:43 CEST] 2) Inet4:     192.168.1.2  -&gt;  Mac:  0:12:dc:xx:xx:xx
         [09/05/2008 - 18:26:43 CEST] 3) Inet4:     192.168.1.4  -&gt;  Mac:    0:4f:4e:xx:xx:xx
         [09/05/2008 - 18:26:43 CEST] 4) Inet4:     192.168.1.5  -&gt;  Mac:   0:e0:4c:xx:xx:xx



       - Arp passive sniffer with logging mode:

       # arpon -f ./arpon.log -g -i en0 -r

         [09/05/2008 - 18:28:35 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0
         [09/05/2008 - 18:28:35 CEST] Sniffing Arp packets:
         [09/05/2008 - 18:28:57 CEST] &lt;- Arp who-has 192.168.1.1 (ff:ff:ff:ff:ff:ff) tell 192.168.1.3 (aa:0:4:xx:xx:xx)
         [09/05/2008 - 18:28:57 CEST] -&gt; Arp reply 192.168.1.1 is-at (0:17:37:xx:xx:xx)
         [09/05/2008 - 18:30:22 CEST] &lt;- Arp who-has 192.168.1.5 (ff:ff:ff:ff:ff:ff) tell 192.168.1.3 (aa:0:4:xx:xx:xx)
         [09/05/2008 - 18:30:22 CEST] -&gt; Arp reply 192.168.1.5 is-at (0:e0:4c:xx:xx:xx)
         [09/05/2008 - 18:29:01 CEST] Arp packets stats:
         [09/05/2008 - 18:29:01 CEST] Received "Arp Total": 2
         [09/05/2008 - 18:29:01 CEST] Received "Arp Request": 1
         [09/05/2008 - 18:29:01 CEST] Received "Arp Reply": 1



       - Manage ARP cache

       The arp cache management includes this operation:
         1) Get the current arp cache list
         2) Add entry 192.168.1.10 aa:bb:cc:dd:ee:ff
         3) Get updated arp cache list
         4) Elimination of the last entry
         5) Get updated arp cache list

       This operation can be execute in a single command:

       # arpon -t -a "192.168.1.10 aa:bb:cc:dd:ee:ff" -t -e aa:bb:cc:dd:ee:ff -t

         [09/05/2008 - 18:31:34 CEST] Arp Cache list:
         [09/05/2008 - 18:31:34 CEST] 1)     192.168.1.5 -&gt;   0:e0:4c:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 2)     192.168.1.2 -&gt;  0:12:dc:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 3)     192.168.1.4 -&gt;    0:4f:4e:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 4)     192.168.1.1 -&gt;  0:17:37:xx:xx:xx

         [09/05/2008 - 18:31:34 CEST] Arp Cache added 192.168.1.10 -&gt; aa:bb:cc:dd:ee:ff entry.

         [09/05/2008 - 18:31:34 CEST] Arp Cache list:
         [09/05/2008 - 18:31:34 CEST] 1)     192.168.1.5 -&gt;   0:e0:4c:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 2)    192.168.1.10 -&gt; aa:bb:cc:dd:ee:ff
         [09/05/2008 - 18:31:34 CEST] 3)     192.168.1.2 -&gt;  0:12:dc:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 4)     192.168.1.4 -&gt;    0:4f:4e:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 5)     192.168.1.1 -&gt;  0:17:37:xx:xx:xx

         [09/05/2008 - 18:31:34 CEST] Arp Cache deleted 192.168.1.10 -&gt; aa:bb:cc:dd:ee:ff entry.

         [09/05/2008 - 18:31:34 CEST] Arp Cache list:
         [09/05/2008 - 18:31:34 CEST] 1)     192.168.1.5 -&gt;   0:e0:4c:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 2)     192.168.1.2 -&gt;  0:12:dc:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 3)     192.168.1.4 -&gt;    0:4f:4e:xx:xx:xx
         [09/05/2008 - 18:31:34 CEST] 4)     192.168.1.1 -&gt;  0:17:37:xx:xx:xx



       - Static ARP Inspection:

       With -10 nice, logging mode, 1 minut of timeout for arp cache refresh:

       # arpon -n -10 -g -o -u 1 -s

         [09/05/2008 - 18:33:40 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0
         [09/05/2008 - 18:33:40 CEST] SARPI Start...
         [09/05/2008 - 18:33:40 CEST] SARPI protects these Arp Cache's entries:
         [09/05/2008 - 18:33:40 CEST] 1)     192.168.1.2 -&gt;  0:12:dc:xx:xx:xx
         [09/05/2008 - 18:33:40 CEST] 2)     192.168.1.4 -&gt;    0:4f:4e:xx:xx:xx
         [09/05/2008 - 18:33:40 CEST] 3)     192.168.1.1 -&gt;  0:17:37:xx:xx:xx
         [09/05/2008 - 18:33:40 CEST] SARPI Arp Cache refresh timeout: 1 minut.
         [09/05/2008 - 18:33:40 CEST] SARPI Realtime Protect actived!
         [09/05/2008 - 18:33:58 CEST] SARPI Arp Request Inbound: Refresh 192.168.1.1 -&gt; 0:17:37:xx:xx:xx entry in Arp Cache.
         [09/05/2008 - 18:33:58 CEST] SARPI Arp Reply Outbound: Send to 192.168.1.1 -&gt; 0:17:37:xx:xx:xx
         [09/05/2008 - 18:38:09 CEST] SARPI Arp Request Outbound: Send to 192.168.1.5 -&gt; ff:ff:ff:ff:ff:ff
         [09/05/2008 - 18:38:09 CEST] SARPI Arp Reply Inbound: Ignores entry in Arp Cache: 192.168.1.5 -&gt; 0:e0:4c:xx:xx:xx



       - Dynamic ARP Inspection:

       With 0 nice (default), logging mode:

       # arpon -g -y

         [09/05/2008 - 18:35:35 CEST] Device: (eth1) MAC: aa:0:4:xx:xx:xx Inet4: 192.168.1.3 Netmask: 255.255.255.0
         [09/05/2008 - 18:35:35 CEST] DARPI Start...
         [09/05/2008 - 18:35:35 CEST] DARPI deletes these Arp Cache entries:
         [09/05/2008 - 18:35:35 CEST] 1)     192.168.1.5 -&gt;   0:e0:4c:xx:xx:xx
         [09/05/2008 - 18:35:35 CEST] 2)     192.168.1.2 -&gt;  0:12:dc:xx:xx:xx
         [09/05/2008 - 18:35:35 CEST] 3)     192.168.1.4 -&gt;    0:4f:4e:xx:xx:xx
         [09/05/2008 - 18:35:35 CEST] 4)     192.168.1.1 -&gt;  0:17:37:xx:xx:xx
         [09/05/2008 - 18:35:35 CEST] DARPI Cache entry timeout: 500 milliseconds.
         [09/05/2008 - 18:35:35 CEST] DARPI Realtime Protect actived!
         [09/05/2008 - 18:35:45 CEST] DARPI Arp Request Outbound: Added 192.168.1.1 entry in DARPI Cache!
         [09/05/2008 - 18:35:45 CEST] DARPI Arp Reply Inbound: 192.168.1.1 entry found in DARPI Cache, deleted it.
         [09/05/2008 - 18:35:45 CEST] DARPI added 192.168.1.1 -&gt; 0:17:37:xx:xx:xx entry in Arp Cache.
         [09/05/2008 - 18:36:23 CEST] DARPI Arp Request Inbound: deleted 192.168.1.1 -&gt; 0:17:37:xx:xx:xx entry from Arp Cache.
         [09/05/2008 - 18:36:23 CEST] DARPI Arp Reply Outbound: Send to 192.168.1.1 -&gt; 0:17:37:xx:xx:xx
         [09/05/2008 - 18:36:23 CEST] DARPI Arp Request Outbound: Added 192.168.1.1 entry in DARPI Cache!
         [09/05/2008 - 18:36:23 CEST] DARPI Arp Reply Inbound: 192.168.1.1 entry found in DARPI Cache, deleted it.
         [09/05/2008 - 18:36:23 CEST] DARPI added 192.168.1.1 -&gt; 0:17:37:xx:xx:xx entry in Arp Cache.



       - Multiplexing interfaces:

       With 0 nice (default), daemon mode, 2 interfaces, en0 with Dynamic
       Arp Inspection, en1 with Static Arp Inspection and 2 logging files:

       # arpon -d -f darpi.log -g -i eth0 -z 100 -y -f sarpi.log -g -i eth1 -u 10 -s

         [09/05/2008 - 18:42:13 CEST] Task is forking to background, using /var/run/arpon.pid pid file...

       In this example, when you want to read network traffic, you can to use:
         - eth0: ./darpi.log
         - eth1: ./sarpi.lo



</PRE>
<H2>AUTHORS</H2><PRE>
       ArpON    was    writen    by:   Andrea   Di   Pasquale   aka   "spikey"
       &lt;spikey.it@gmail.com&gt;


       The current version is available via http:
                 http://arpon.sourceforge.net

       Special Thanks to:

       Mariano Graziano aka "emdel" &lt;emdel@playhack.net&gt;
            Web master, he proposed SARPI idea, thank you!

       Andrea Barberio aka "insomniac" &lt;insomniac@slackware.it&gt;
            Beta tester, LD_PRELOAD idea, thank you!

       Marco Fabre aka "Morpe" &lt;twatac@gmail.com&gt;
            ArpON's logo!

       Giuseppe Marco Randazzo aka "zeld" &lt;zeld@freaknet.org&gt;
            Man page.
	
       Giuseppe Iuculano aka "Derevko" &lt;giuseppe@iuculano.it&gt;
            Adjusted man page, added pid file, thank you!

       Allan Jigpe Eversun aka "jigp" &lt;allan@digitaldev.com&gt;
            Tester, thank you! 
 
</PRE>
<H2>BUGS</H2><PRE>
       Please send problems, bugs, questions, desirable  enhancements,  patch,
       source code contributions, etc. to:

              spikey.it@gmail.com


                                 05 October 2008                      arpon(8)
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