arp-scan man page on Kali

Man page or keyword search:  
man Server   9211 pages
apropos Keyword Search (all sections)
Output format
Kali logo
[printable version]

ARP-SCAN(1)							   ARP-SCAN(1)

NAME
       arp-scan - The ARP scanner

SYNOPSIS
       arp-scan [options] [hosts...]

       Target  hosts  must  be specified on the command line unless the --file
       option is given, in which case the targets are read from the  specified
       file  instead, or the --localnet option is used, in which case the tar‐
       gets are generated from the network interface IP address and netmask.

       You will need to be root, or arp-scan must be SUID root,	 in  order  to
       run  arp-scan,  because	the  functions	that it uses to read and write
       packets require root privilege.

       The target hosts can be specified as IP addresses  or  hostnames.   You
       can  also specify the target as IPnetwork/bits (e.g. 192.168.1.0/24) to
       specify all hosts in the given network (network and broadcast addresses
       included), IPstart-IPend (e.g. 192.168.1.3-192.168.1.27) to specify all
       hosts   in   the	  inclusive   range,   or   IPnetwork:NetMask	 (e.g.
       192.168.1.0:255.255.255.0)  to  specify	all hosts in the given network
       and mask.

DESCRIPTION
       arp-scan sends ARP packets to hosts on the local network	 and  displays
       any  responses  that  are received. The network interface to use can be
       specified with the --interface option. If this option is	 not  present,
       arp-scan will search the system interface list for the lowest numbered,
       configured up interface (excluding  loopback).	By  default,  the  ARP
       packets	are sent to the Ethernet broadcast address, ff:ff:ff:ff:ff:ff,
       but that can be changed with the --destaddr option.

       The target hosts to scan may be specified in  one  of  three  ways:  by
       specifying  the	targets on the command line; by specifying a file con‐
       taining the targets with	 the  --file  option;  or  by  specifying  the
       --localnet  option  which  causes  all  possible	 hosts	on the network
       attached to the interface (as defined  by  the  interface  address  and
       mask)  to  be scanned. For hosts specified on the command line, or with
       the --file option, you can use either IP addresses or  hostnames.   You
       can  also  use network specifications IPnetwork/bits, IPstart-IPend, or
       IPnetwork:NetMask.

       The list of target hosts is stored in memory.  Each host in  this  list
       uses  28	 bytes of memory, so scanning a Class-B network (65,536 hosts)
       requires about 1.75MB of memory for the list, and  scanning  a  Class-A
       (16,777,216 hosts) requires about 448MB.

       arp-scan	 supports Ethernet and 802.11 wireless networks. It could also
       support token ring and FDDI, but they have not been tested. It does not
       support	serial links such as PPP or SLIP, because ARP is not supported
       on them.

       The ARP protocol is a layer-2 (datalink layer) protocol that is used to
       determine  a  host's  layer-2 address given its layer-3 (network layer)
       address. ARP was designed to work with any layer-2 and layer-3  address
       format,	but  the  most	common	use is to map IP addresses to Ethernet
       hardware addresses, and this is what arp-scan supports. ARP only	 oper‐
       ates  on the local network, and cannot be routed. Although the ARP pro‐
       tocol makes use of IP addresses, it is not  an  IP-based	 protocol  and
       arp-scan can be used on an interface that is not configured for IP.

       ARP is only used by IPv4 hosts. IPv6 uses NDP (neighbour discovery pro‐
       tocol) instead, which is a different protocol and is not	 supported  by
       arp-scan.

       One  ARP	 packet is sent for each for each target host, with the target
       protocol address (the ar$tpa field) set to the IP address of this host.
       If  a  host  does not respond, then the ARP packet will be re-sent once
       more.  The maximum number of retries can be changed  with  the  --retry
       option.	 Reducing  the number of retries will reduce the scanning time
       at the possible risk of missing some results due to packet loss.

       You can specify the bandwidth that arp-scan will use for	 the  outgoing
       ARP  packets  with the --bandwidth option.  By default, it uses a band‐
       width of 256000 bits per second. Increasing the bandwidth  will	reduce
       the  scanning time, but setting the bandwidth too high may result in an
       ARP storm which can disrupt network operation.  Also, setting the band‐
       width  too  high can send packets faster than the network interface can
       transmit them, which will eventually fill the kernel's transmit	buffer
       resulting in the error message: No buffer space available.  Another way
       to specify the outgoing ARP packet rate is with the --interval  option,
       which is an alternative way to modify the same underlying parameter.

       The  time  taken to perform a single-pass scan (i.e. with --retry=1) is
       given by:

       time = n*i + t + o

       Where n is the number of hosts in the list,  i  is  the	time  interval
       between	packets (specified with --interval, or calculated from --band‐
       width), t is the timeout value (specified with --timeout) and o is  the
       overhead	 time  taken  to  load	the targets into the list and read the
       MAC/Vendor mapping files.  For small lists of hosts, the timeout	 value
       will  dominate,	but  for  large	 lists the packet interval is the most
       important value.

       With 65,536 hosts, the default bandwidth of 256,000 bits/second	(which
       results in a packet interval of 2ms), the default timeout of 500ms, and
       a single pass ( --retry=1), and assuming an overhead of 1  second,  the
       scan would take 65536*0.002 + 0.5 + 1 = 132.57 seconds, or about 2 min‐
       utes 13 seconds.

       Any part of the outgoing ARP packet may be modified through the use  of
       the  various  --arpXXX  options.	  The use of some of these options may
       make the outgoing ARP packet non	 RFC  compliant.  Different  operating
       systems	handle the various non standard ARP packets in different ways,
       and this may be used to fingerprint  these  systems.   See  arp-finger‐
       print(1)	 for  information  about  a script which uses these options to
       fingerprint the target operating system.

       The table below summarises the options that  change  the	 outgoing  ARP
       packet. In this table, the Field column gives the ARP packet field name
       from RFC 826, Bits specifies the number of bits in  the	field,	Option
       shows  the  arp-scan  option  to modify this field, and Notes gives the
       default value and any other notes.

       ┌───────────────────────────────────────────────────────────────┐
       │		 Outgoing ARP Packet Options		       │
       ├───────┬──────┬──────────┬─────────────────────────────────────┤
       │Field  │ Bits │ Option	 │ Notes			       │
       ├───────┼──────┼──────────┼─────────────────────────────────────┤
       │ar$hrd │ 16   │ --arphrd │ Default is 1 (ARPHRD_ETHER)	       │
       │ar$pro │ 16   │ --arppro │ Default is 0x0800		       │
       │ar$hln │ 8    │ --arphln │ Default is 6 (ETH_ALEN)	       │
       │ar$pln │ 8    │ --arppln │ Default is 4 (IPv4)		       │
       │ar$op  │ 16   │ --arpop	 │ Default is 1 (ARPOP_REQUEST)	       │
       │ar$sha │ 48   │ --arpsha │ Default is interface h/w address    │
       │ar$spa │ 32   │ --arpspa │ Default is interface IP address     │
       │ar$tha │ 48   │ --arptha │ Default is zero (00:00:00:00:00:00) │
       │ar$tpa │ 32   │ None	 │ Set to the target host IP address   │
       └───────┴──────┴──────────┴─────────────────────────────────────┘
       The most commonly used outgoing ARP packet option  is  --arpspa,	 which
       sets  the  source IP address in the ARP packet.	This option allows the
       outgoing ARP packet to use a different source IP address from the  out‐
       going  interface	 address.  With this option it is possible to use arp-
       scan on an interface with no IP address configured, which can be useful
       if  you want to ensure that the testing host does not interact with the
       network being tested.

       Warning: Setting ar$spa to the destination IP address can disrupt  some
       operating  systems, as they assume there is an IP address clash if they
       receive an ARP request for their own address.

       It is also possible to change the values in the Ethernet	 frame	header
       that  precedes  the ARP packet in the outgoing packets. The table below
       summarises the options that change values in the Ethernet frame header.

       ┌───────────────────────────────────────────────────────────────────┐
       │		 Outgoing Ethernet Frame Options		   │
       ├───────────────┬──────┬─────────────┬──────────────────────────────┤
       │Field	       │ Bits │ Option	    │ Notes			   │
       ├───────────────┼──────┼─────────────┼──────────────────────────────┤
       │Dest Address   │ 48   │ --destaddr  │ Default is ff:ff:ff:ff:ff:ff │
       │Source Address │ 48   │ --srcaddr   │ Default is interface address │
       │Protocol Type  │ 16   │ --prototype │ Default is 0x0806		   │
       └───────────────┴──────┴─────────────┴──────────────────────────────┘
       The most commonly used outgoing Ethernet frame  option  is  --destaddr,
       which sets the destination Ethernet address for the ARP packet.	--pro‐
       totype is not often used, because it will cause the packet to be inter‐
       preted as a different Ethernet protocol.

       Any ARP responses that are received are displayed in the following for‐
       mat:

       <IP Address>   <Hardware Address>   <Vendor Details>

       Where IP Address is the IP address of the responding  target,  Hardware
       Address	is  its	 Ethernet  hardware  address  (also  known  as the MAC
       address) and Vendor Details are the vendor details,  decoded  from  the
       hardware	 address.   The	 output	 fields	 are separated by a single tab
       character.

       The responses are displayed in the order they are  received,  which  is
       not  always the same order as the requests were sent because some hosts
       may respond faster than others.

       The vendor decoding uses the files ieee-oui.txt, ieee-iab.txt and  mac-
       vendor.txt,  which  are	supplied  with arp-scan.  The ieee-oui.txt and
       ieee-iab.txt files are generated from the OUI and IAB data on the  IEEE
       website	 at   http://standards.ieee.org/regauth/oui/ieee-oui.txt   and
       http://standards.ieee.org/regauth/oui/iab.txt.  The Perl	 scripts  get-
       oui  and	 get-iab,  which  are included in the arp-scan package, can be
       used to update these files with the latest data from the IEEE  website.
       The  mac-vendor.txt file contains other MAC to Vendor mappings that are
       not covered by the IEEE OUI and IAB files, and can be used to add  cus‐
       tom mappings.

       Almost  all  hosts  that	 support  IP  will respond to arp-scan if they
       receive an ARP packet with the target protocol address (ar$tpa) set  to
       their IP address.  This includes firewalls and other hosts with IP fil‐
       tering that drop all IP traffic from the testing system. For this  rea‐
       son,  arp-scan  is a useful tool to quickly determine all the active IP
       hosts on a given Ethernet network segment.

OPTIONS
       Where an option takes a value, that value is specified as a  letter  in
       angle brackets. The letter indicates the type of data that is expected:

       <s>    A character string, e.g. --file=hostlist.txt.

       <i>    An  integer,  which can be specified as a decimal number or as a
	      hexadecimal number if preceded with 0x,  e.g.  --arppro=2048  or
	      --arpro=0x0800.

       <f>    A floating point decimal number, e.g. --backoff=1.5.

       <m>    An  Ethernet  MAC	 address, which can be specified either in the
	      format 01:23:45:67:89:ab, or as  01-23-45-67-89-ab.  The	alpha‐
	      betic  hex  characters  may  be either upper or lower case. E.g.
	      --arpsha=01:23:45:67:89:ab.

       <a>    An IPv4 address, e.g. --arpspa=10.0.0.1

       <h>    Binary data specified as a hexadecimal string, which should  not
	      include  a  leading  0x.	The  alphabetic	 hex characters may be
	      either upper or lower case. E.g. --padding=aaaaaaaaaaaa

       <x>    Something else. See the description of the option for details.

       --help or -h
	      Display this usage message and exit.

       --file=<s> or -f <s>
	      Read hostnames or addresses from the specified file  instead  of
	      from  the command line. One name or IP address per line. Use "-"
	      for standard input.

       --localnet or -l
	      Generate addresses from network  interface  configuration.   Use
	      the  network  interface  IP address and network mask to generate
	      the list of target host addresses.  The list  will  include  the
	      network  and  broadcast  addresses,  so  an interface address of
	      10.0.0.1 with netmask 255.255.255.0 would	 generate  256	target
	      hosts  from  10.0.0.0  to 10.0.0.255 inclusive.  If you use this
	      option, you cannot specify the --file option or specify any tar‐
	      get hosts on the command line.  The interface specifications are
	      taken from the interface that arp-scan will use,	which  can  be
	      changed with the --interface option.

       --retry=<i> or -r <i>
	      Set total number of attempts per host to <i>, default=2.

       --timeout=<i> or -t <i>
	      Set initial per host timeout to <i> ms, default=500.  This time‐
	      out is for the first packet sent to each host.  subsequent time‐
	      outs  are	 multiplied  by	 the  backoff factor which is set with
	      --backoff.

       --interval=<x> or -i <x>
	      Set minimum packet interval to <x>.  This controls the  outgoing
	      bandwidth	 usage	by  limiting  the rate at which packets can be
	      sent. The packet interval will be no smaller than	 this  number.
	      If you want to use up to a given bandwidth, then it is easier to
	      use the --bandwidth option instead.  The interval	 specified  is
	      in  milliseconds	by  default,  or  in  microseconds  if	"u" is
	      appended to the value.

       --bandwidth=<x> or -B <x>
	      Set desired outbound  bandwidth  to  <x>,	 default=256000.   The
	      value is in bits per second by default. If you append "K" to the
	      value, then the units are kilobits per sec; and  if  you	append
	      "M"  to  the  value, the units are megabits per second.  The "K"
	      and "M" suffixes represent the decimal, not  binary,  multiples.
	      So  64K is 64000, not 65536.  You cannot specify both --interval
	      and --bandwidth because they are just different ways  to	change
	      the same underlying parameter.

       --backoff=<f> or -b <f>
	      Set  timeout  backoff factor to <f>, default=1.50.  The per-host
	      timeout is multiplied by this factor after each timeout. So,  if
	      the  number  of  retries	is  3, the initial per-host timeout is
	      500ms and the backoff factor is 1.5, then the first timeout will
	      be 500ms, the second 750ms and the third 1125ms.

       --verbose or -v
	      Display  verbose	progress  messages.   Use  more	 than once for
	      greater effect:

	      1 - Display the network address and mask used when the  --local‐
	      net  option  is  specified,  display any nonzero packet padding,
	      display packets received from unknown hosts, and show when  each
	      pass through the list completes.

	      2 - Show each packet sent and received, when entries are removed
	      from the list, the pcap filter string, and counts of  MAC/Vendor
	      mapping entries.

	      3 - Display the host list before scanning starts.

       --version or -V
	      Display program version and exit.

       --random or -R
	      Randomise	 the  host  list.  This option randomises the order of
	      the hosts in the host list, so the ARP packets are sent  to  the
	      hosts in a random order. It uses the Knuth shuffle algorithm.

       --numeric or -N
	      IP  addresses  only,  no hostnames.  With this option, all hosts
	      must be specified as IP addresses. Hostnames are not  permitted.
	      No DNS lookups will be performed.

       --snap=<i> or -n <i>
	      Set the pcap snap length to <i>. Default=64.  This specifies the
	      frame capture length. This length includes the data-link header.
	      The default is normally sufficient.

       --interface=<s> or -I <s>
	      Use  network  interface  <s>.   If this option is not specified,
	      arp-scan will search the system interface list  for  the	lowest
	      numbered,	 configured  up	 interface  (excluding loopback).  The
	      interface specified must support ARP.

       --quiet or -q
	      Only display minimal output.  If this option is specified,  then
	      only the minimum information is displayed. With this option, the
	      OUI files are not used.

       --ignoredups or -g
	      Don't display duplicate packets.	By default, duplicate  packets
	      are displayed and are flagged with "(DUP: n)".

       --ouifile=<s> or -O <s>
	      Use  IEEE	 Ethernet  OUI	to  vendor  mapping file <s>.  If this
	      option is not specified, the default filename is ieee-oui.txt in
	      the  current  directory.	If  that  is  not found, then the file
	      /usr/local/share/arp-scan/ieee-oui.txt is used.

       --iabfile=<s> or -O <s>
	      Use IEEE Ethernet IAB to	vendor	mapping	 file  <s>.   If  this
	      option is not specified, the default filename is ieee-iab.txt in
	      the current directory. If that  is  not  found,  then  the  file
	      /usr/local/share/arp-scan/ieee-iab.txt is used.

       --macfile=<s> or -O <s>
	      Use  custom  Ethernet  MAC  to vendor mapping file <s>.  If this
	      option is not specified, the default filename is	mac-vendor.txt
	      in  the  current	directory. If that is not found, then the file
	      /usr/local/share/arp-scan/mac-vendor.txt is used.

       --srcaddr=<m> or -S <m>
	      Set the source Ethernet MAC  address  to	<m>.   This  sets  the
	      48-bit  hardware address in the Ethernet frame header for outgo‐
	      ing ARP packets. It does not change the hardware address in  the
	      ARP  packet,  see	 --arpsha  for	details	 on how to change that
	      address.	The default is the Ethernet address  of	 the  outgoing
	      interface.

       --destaddr=<m> or -T <m>
	      Send  the	 packets  to  Ethernet	MAC  address <m> This sets the
	      48-bit destination address in the Ethernet  frame	 header.   The
	      default  is the broadcast address ff:ff:ff:ff:ff:ff.  Most oper‐
	      ating systems will also respond if the ARP request  is  sent  to
	      their  MAC address, or to a multicast address that they are lis‐
	      tening on.

       --arpsha=<m> or -u <m>
	      Use <m> as the ARP source Ethernet address This sets the	48-bit
	      ar$sha  field  in the ARP packet It does not change the hardware
	      address in the frame header, see --srcaddr for details on how to
	      change  that address. The default is the Ethernet address of the
	      outgoing interface.

       --arptha=<m> or -w <m>
	      Use <m> as the ARP target Ethernet address This sets the	48-bit
	      ar$tha field in the ARP packet The default is zero, because this
	      field is not used for ARP request packets.

       --prototype=<i> or -y <i>
	      Set the Ethernet protocol type  to  <i>,	default=0x0806.	  This
	      sets  the	 16-bit	 protocol  type	 field	in  the Ethernet frame
	      header.  Setting this to a non-default value will result in  the
	      packet  being ignored by the target, or sent to the wrong proto‐
	      col stack.

       --arphrd=<i> or -H <i>
	      Use <i> for the ARP hardware type,  default=1.   This  sets  the
	      16-bit  ar$hrd  field  in the ARP packet.	 The normal value is 1
	      (ARPHRD_ETHER). Most, but not all, operating systems  will  also
	      respond  to  6  (ARPHRD_IEEE802).	 A  few systems respond to any
	      value.

       --arppro=<i> or -p <i>
	      Use <i> for the ARP protocol type,  default=0x0800.   This  sets
	      the  16-bit ar$pro field in the ARP packet.  Most operating sys‐
	      tems only respond to 0x0800 (IPv4)  but  some  will  respond  to
	      other values as well.

       --arphln=<i> or -a <i>
	      Set  the	hardware  address length to <i>, default=6.  This sets
	      the 8-bit ar$hln field in the ARP packet.	 It sets  the  claimed
	      length  of the hardware address in the ARP packet. Setting it to
	      any value other than the default will make the  packet  non  RFC
	      compliant.   Some	 operating  systems  may  still	 respond to it
	      though.  Note that the actual lengths of the ar$sha  and	ar$tha
	      fields in the ARP packet are not changed by this option; it only
	      changes the ar$hln field.

       --arppln=<i> or -P <i>
	      Set the protocol address length to <i>,  default=4.   This  sets
	      the  8-bit  ar$pln field in the ARP packet.  It sets the claimed
	      length of the protocol address in the ARP packet. Setting it  to
	      any  value  other	 than the default will make the packet non RFC
	      compliant.  Some operating  systems  may	still  respond	to  it
	      though.	Note  that the actual lengths of the ar$spa and ar$tpa
	      fields in the ARP packet are not changed by this option; it only
	      changes the ar$pln field.

       --arpop=<i> or -o <i>
	      Use  <i> for the ARP operation, default=1.  This sets the 16-bit
	      ar$op field in the ARP packet.  Most operating systems will only
	      respond  to  the	value 1 (ARPOP_REQUEST). However, some systems
	      will respond to other values as well.

       --arpspa=<a> or -s <a>
	      Use <a> as the source IP address.	 The address should be	speci‐
	      fied  in dotted quad format; or the literal string "dest", which
	      sets the source address to  be  the  same	 as  the  target  host
	      address.	 This  sets the 32-bit ar$spa field in the ARP packet.
	      Some operating systems check this, and will only respond if  the
	      source address is within the network of the receiving interface.
	      Others don't care, and will respond to any source	 address.   By
	      default, the outgoing interface address is used.

	      WARNING:	Setting	 ar$spa to the destination IP address can dis‐
	      rupt some operating systems, as  they  assume  there  is	an  IP
	      address  clash  if  they	receive	 an  ARP request for their own
	      address.

       --padding=<h> or -A <h>
	      Specify padding after packet data.  Set the padding data to  hex
	      value  <h>.  This data is appended to the end of the ARP packet,
	      after the data.  Most, if not all, operating systems will ignore
	      any  padding.  The  default is no padding, although the Ethernet
	      driver on the sending system may pad the packet to  the  minimum
	      Ethernet frame length.

       --llc or -L
	      Use RFC 1042 LLC framing with SNAP.  This option causes the out‐
	      going ARP packets to use IEEE 802.2 framing with a  SNAP	header
	      as  described  in	 RFC  1042.  The default is to use Ethernet-II
	      framing.	arp-scan will decode and display received ARP  packets
	      in either Ethernet-II or IEEE 802.2 formats irrespective of this
	      option.

       --vlan=<i> or -Q <i>
	      Use 802.1Q tagging with VLAN id <i>.   This  option  causes  the
	      outgoing	ARP  packets to use 802.1Q VLAN tagging with a VLAN ID
	      of <i>, which should be in the range 0 to 4095 inclusive.	  arp-
	      scan  will  always  decode  and  display received ARP packets in
	      802.1Q format irrespective of this option.

       --pcapsavefile=<s> or -W <s>
	      Write received packets to pcap savefile <s>.  This option causes
	      received ARP responses to be written to the specified pcap save‐
	      file as well as being decoded and displayed. This	 savefile  can
	      be  analysed with programs that understand the pcap file format,
	      such as "tcpdump" and "wireshark".

       --rtt or -D
	      Display the packet round-trip time.

FILES
       /usr/local/share/arp-scan/ieee-oui.txt
	      List of IEEE OUI (Organisationally Unique Identifier) to	vendor
	      mappings.

       /usr/local/share/arp-scan/ieee-iab.txt
	      List of IEEE IAB (Individual Address Block) to vendor mappings.

       /usr/local/share/arp-scan/mac-vendor.txt
	      List of other Ethernet MAC to vendor mappings.

EXAMPLES
       The  example  below  shows  arp-scan  being  used  to  scan the network
       192.168.0.0/24 using the network interface eth0.

       $ arp-scan --interface=eth0 192.168.0.0/24
       Interface: eth0, datalink type: EN10MB (Ethernet)
       Starting arp-scan 1.4 with 256 hosts (http://www.nta-monitor.com/tools/arp-scan/)
       192.168.0.1     00:c0:9f:09:b8:db       QUANTA COMPUTER, INC.
       192.168.0.3     00:02:b3:bb:66:98       Intel Corporation
       192.168.0.5     00:02:a5:90:c3:e6       Compaq Computer Corporation
       192.168.0.6     00:c0:9f:0b:91:d1       QUANTA COMPUTER, INC.
       192.168.0.12    00:02:b3:46:0d:4c       Intel Corporation
       192.168.0.13    00:02:a5:de:c2:17       Compaq Computer Corporation
       192.168.0.87    00:0b:db:b2:fa:60       Dell ESG PCBA Test
       192.168.0.90    00:02:b3:06:d7:9b       Intel Corporation
       192.168.0.105   00:13:72:09:ad:76       Dell Inc.
       192.168.0.153   00:10:db:26:4d:52       Juniper Networks, Inc.
       192.168.0.191   00:01:e6:57:8b:68       Hewlett-Packard Company
       192.168.0.251   00:04:27:6a:5d:a1       Cisco Systems, Inc.
       192.168.0.196   00:30:c1:5e:58:7d       HEWLETT-PACKARD

       13 packets received by filter, 0 packets dropped by kernel
       Ending arp-scan: 256 hosts scanned in 3.386 seconds (75.61 hosts/sec).  13 responded

       This next example shows arp-scan being used to scan the	local  network
       after configuring the network interface with DHCP using pump.

       # pump
       # ifconfig eth0
       eth0	 Link encap:Ethernet  HWaddr 00:D0:B7:0B:DD:C7
		 inet addr:10.0.84.178	Bcast:10.0.84.183  Mask:255.255.255.248
		 UP BROADCAST RUNNING MULTICAST	 MTU:1500  Metric:1
		 RX packets:46335 errors:0 dropped:0 overruns:0 frame:0
		 TX packets:1542776 errors:0 dropped:0 overruns:0 carrier:0
		 collisions:1644 txqueuelen:1000
		 RX bytes:6184146 (5.8 MiB)  TX bytes:348887835 (332.7 MiB)
       # arp-scan --localnet
       Interface: eth0, datalink type: EN10MB (Ethernet)
       Starting arp-scan 1.4 with 8 hosts (http://www.nta-monitor.com/tools/arp-scan/)
       10.0.84.179     00:02:b3:63:c7:57       Intel Corporation
       10.0.84.177     00:d0:41:08:be:e8       AMIGO TECHNOLOGY CO., LTD.
       10.0.84.180     00:02:b3:bd:82:9b       Intel Corporation
       10.0.84.181     00:02:b3:1f:73:da       Intel Corporation

       4 packets received by filter, 0 packets dropped by kernel
       Ending arp-scan 1.4: 8 hosts scanned in 0.820 seconds (9.76 hosts/sec).	4 responded

AUTHOR
       Roy Hills <Roy.Hills@nta-monitor.com>

SEE ALSO
       get-oui(1)

       get-iab(1)

       arp-fingerprint(1)

       RFC 826 - An Ethernet Address Resolution Protocol

       http://www.nta-monitor.com/wiki/ The arp-scan wiki page.

       http://www.nta-monitor.com/tools/arp-scan/ The arp-scan homepage.

			       December 30, 2011		   ARP-SCAN(1)
[top]

List of man pages available for Kali

Copyright (c) for man pages and the logo by the respective OS vendor.

For those who want to learn more, the polarhome community provides shell access and support.

[legal] [privacy] [GNU] [policy] [cookies] [netiquette] [sponsors] [FAQ]
Tweet
Polarhome, production since 1999.
Member of Polarhome portal.
Based on Fawad Halim's script.
....................................................................
Vote for polarhome
Free Shell Accounts :: the biggest list on the net