tcpdump tutorial
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tcpdump tutorial
Table of Contents
1 Options
It's also important to note that tcpdump only takes the first [S:68:S] 96 bytes of data from a packet by default. If you
would like to look at more, add the -s number option to the mix, where number is the number of bytes you want to capture. I
recommend using 0 (zero) for a snaplength, which gets everything. Here's a short list of the options I use most:
- -i any : Listen on all interfaces just to see if you're seeing any traffic.
- -n : Don't resolve hostnames.
- -nn : Don't resolve hostnames or port names.
- -X : Show the packet's contents in both hex and ASCII.
- -XX : Same as -X, but also shows the ethernet header.
- -v, -vv, -vvv : Increase the amount of packet information you get back.
- -c : Only get x number of packets and then stop.
- -s : Define the snaplength (size) of the capture in bytes. Use -s0 to get everything, unless you are intentionally
capturing less. - -S : Print absolute sequence numbers.
- -e : Get the ethernet header as well.
- -q : Show less protocol information.
- -E : Decrypt IPSEC traffic by providing an encryption key.
2 Basic Usage
So, based on the kind of traffic I'm looking for, I use a different combination of options to tcpdump, as can be seen
below:
- Basic communication // see the basics without many options
#!/bin/bash
tcpdump -nS
- Basic communication (very verbose) // see a good amount of traffic, with verbosity and no name help
#!/bin/bash
tcpdump -nnvvS - A deeper look at the traffic // adds -X for payload but doesn't grab any more of the packet
#!/bin/bash
tcpdump -nnvvXS - Heavy packet viewing // the final "s" increases the snaplength, grabbing the whole packet
#!/bin/bash
tcpdump -nnvvXSs 1514
Here's a capture of exactly two (-c2) ICMP packets (a ping and pong) using some of the options described above. Notice how
much we see about each packet.
#!/bin/bash
tcpdump -nnvXSs 0 -c2 icmp
tcpdump: listening on eth0, link-type EN10MB (Ethernet), 23:11:10.370321 IP
(tos 0x20, ttl 48, id 34859, offset 0, flags [none], length: 84)
69.254.213.43 > 72.21.34.42: icmp 64: echo request seq 0 0x0000: 4520 0054 882b 0000 3001 7cf5 45fe d52b E..T.+..0.|.E..+
0x0010: 4815 222a 0800 3530 272a 0000 25ff d744 H."*..50'*..%..D
0x0020: ae5e 0500 0809 0a0b 0c0d 0e0f 1011 1213 .^..............
0x0030: 1415 1617 1819 1a1b 1c1d 1e1f 2021 2223 .............!"#
0x0040: 2425 2627 2829 2a2b 2c2d 2e2f 3031 3233 $%&'()*+,-./0123
0x0050: 3435 3637 4567
23:11:10.370344 IP (tos 0x20, ttl 64, id 35612, offset 0, flags [none],
length: 84) 72.21.34.42 > 69.254.213.43: icmp 64: echo reply seq 0
0x0000: 4520 0054 8b1c 0000 4001 6a04 4815 222a E..T....@.j.H."*
0x0010: 45fe d52b 0000 3d30 272a 0000 25ff d744 E..+..=0'*..%..D
0x0020: ae5e 0500 0809 0a0b 0c0d 0e0f 1011 1213 .^..............
0x0030: 1415 1617 1819 1a1b 1c1d 1e1f 2021 2223 .............!"#
0x0040: 2425 2627 2829 2a2b 2c2d 2e2f 3031 3233 $%&'()*+,-./0123
0x0050: 3435 3637 4567
2 packets captured
2 packets received by filter
0 packets dropped by kernel
3 Common Syntax
Type options are host, net, and port. Direction is indicated by dir, and there you can have src, dst, src or dst, and src
and dst. Here are a few that you should definitely be comfortable with:
- host // look for traffic based on IP address (also works with hostname if you're not using -n)
#!/bin/bash tcpdump host 1.2.3.4
- src, dst // find traffic from only a source or destination (eliminates one side of a host conversation)
#!/bin/bash tcpdump src 2.3.4.5
tcpdump dst 3.4.5.6
- net // capture an entire network using CIDR notation
#!/bin/bash
tcpdump net 1.2.3.0/24
- proto // works for tcp, udp, and icmp. Note that you don't have to type proto
#!/bin/bash tcpdump icmp
- port // see only traffic to or from a certain port
#!/bin/bash tcpdump port 3389
- src, dst port // filter based on the source or destination port
#!/bin/bash tcpdump src port 1025
tcpdump dst port 389
- src/dst, port, protocol // combine all three
#!/bin/bash
tcpdump src port 1025 and tcp
tcpdump udp and src port 53
You also have the option to filter by a range of ports instead of declaring them individually, and to only see packets that
are above or below a certain size.
- Port Ranges // see traffic to any port in a range
#!/bin/bash
tcpdump portrange 21-23
- Packet Size Filter // only see packets below or above a certain size (in bytes)
#!/bin/bash
tcpdump less 32
tcpdump greater 128
[ You can use the symbols for less than, greater than, and less than or equal / greater than or equal signs as well. ]
// filtering for size using symbols
#!/bin/bash
tcpdump > 32
tcpdump
4 Writing to a File
using the -r option. This is an excellent way to capture raw traffic and then run it through various tools later. The traffic captured in this way is stored in tcpdump format, which is pretty much universal in the network analysis space.
This means it can be read in by all sorts of tools, including Wireshark, Snort, etc. Capture all Port 80 Traffic to a File
#!/bin/bash
tcpdump -s 1514 port 80 -w capture_file
Then, at some point in the future, you can then read the traffic back in like so:
Read Captured Traffic back into tcpdump
#!/bin/bash
tcpdump -r capture_file
Getting Creative
Expressions are nice, but the real magic of tcpdump comes from the ability to combine them in creative ways in order to
isolate exactly what you're looking for. There are three ways to do combinations, and if you've studied computers at all
they'll be pretty familar to you:
- AND
and or && - OR
or or || - EXCEPT
not or !
More Examples
#!/bin/bash # TCP traffic from 10.5.2.3 destined for port 3389 tcpdump -nnvvS and src 10.5.2.3 and dst port 3389
#!/bin/bash # Traffic originating from the 192.168 network headed for the 10 or 172.16 networks tcpdump -nvX src net 192.168.0.0/16 and dst net 10.0.0.0/8 or 172.16.0.0/16
#!/bin/bash # Non-ICMP traffic destined for 192.168.0.2 from the 172.16 network tcpdump -nvvXSs 1514 dst 192.168.0.2 and src net and not icmp
#!/bin/bash # Traffic originating from Mars or Pluto that isn't to the SSH port tcpdump -vv src mars and not dst port 22
As you can see, you can build queries to find just about anything you need. The key is to first figure out precisely what
you're looking for and then to build the syntax to isolate that specific type of traffic.
5 Grouping
Also keep in mind that when you're building complex queries you might have to group your options using single quotes.
Single quotes are used in order to tell tcpdump to ignore certain special characters – in this case the "( )" brackets.
This same technique can be used to group using other expressions such as host, port, net, etc. Take a look at the command
below:
#!/bin/bash # Traffic that's from 10.0.2.4 AND destined for ports 3389 or 22 (incorrect) tcpdump src 10.0.2.4 and (dst port 3389 or 22)
If you tried to run this otherwise very useful command, you'd get an error because of the parenthesis. You can either fix
this by escaping the parenthesis (putting a \ before each one), or by putting the entire command within single quotes:
#!/bin/bash # Traffic that's from 10.0.2.4 AND destined for ports 3389 or 22 (correct) tcpdump 'src 10.0.2.4 and (dst port 3389 or 22)'
Advanced
You can also filter based on specific portions of a packet, as well as combine multiple conditions into groups. The former
is useful when looking for only SYNs or RSTs, for example, and the latter for even more advanced traffic isolation.
[ Hint: An anagram for the TCP flags: Unskilled Attackers Pester Real Security Folk ]
Show me all URGENT (URG) packets…
#!/bin/bash
tcpdump 'tcp[13] & 32!=0'
Show me all ACKNOWLEDGE (ACK) packets…
#!/bin/bash
tcpdump 'tcp[13] & 16!=0'
Show me all PUSH (PSH) packets…
#!/bin/bash
tcpdump 'tcp[13] & 8!=0'
Show me all RESET (RST) packets…
#!/bin/bash
tcpdump 'tcp[13] & 4!=0'
Show me all SYNCHRONIZE (SYN) packets…
#!/bin/bash
tcpdump 'tcp[13] & 2!=0'
Show me all FINISH (FIN) packets…
#!/bin/bash
tcpdump 'tcp[13] & 1!=0'
Show me all SYNCHRONIZE/ACKNOWLEDGE (SYNACK) packets…
#!/bin/bash
tcpdump 'tcp[13]=18'
[ Note: Only the PSH, RST, SYN, and FIN flags are displayed in tcpdump's flag field output. URGs and ACKs are displayed,
but they are shown elsewhere in the output rather than in the flags field ]
Keep in mind the reasons these filters work. The filters above find these various packets because tcp1 looks at offset
13 in the TCP header, the number represents the location within the byte, and the !=0 means that the flag in question is
set to 1, i.e. it's on.
As with most powerful tools, however, there are multiple ways to do things. The example below shows another way to capture
packets with specific TCP flags set.
Capture TCP Flags Using the tcpflags Option…
#!/bin/bash
tcpdump 'tcp[tcpflags] & & tcp-syn != 0'
Specialized Traffic
Finally, there are a few quick recipes you'll want to remember for catching specific and specialized traffic, such as IPv6
and malformed/likely-malicious packets.
IPv6 traffic
#!/bin/bash
tcpdump ip6
Packets with both the RST and SYN flags set (why?)
#!/bin/bash
tcpdump 'tcp[13] = 6'
Traffic with the 'Evil Bit' Set
#!/bin/bash
tcpdump 'ip[6] & 128 != 0'
Conclusion
Well, this primer should get you going strong, but the man page should always be handy for the most advanced and one-off
usage scenarios. I truly hope this has been useful to you, and feel free to contact me if you have any questions. ::
Footnotes:
1 DEFINITION NOT FOUND: 13