Source: https://hackertarget.com/tcpdump-examples/
Display ASCII text
Adding -A
to the command line will have the output include the ascii
strings from the capture. This allows easy reading and the ability to parse the output using grep
or other commands. Another option that shows both hexadecimal output and ASCII is the -X
option.
:~$ sudo tcpdump -A -s0 port 80
Capture on Protocol
Filter on UDP traffic. Another way to specify this is to use protocol 17 that is udp
. These two commands will produce the same result. The equivalent of the tcp
filter is protocol 6.
:~$ sudo tcpdump -i eth0 udp :~$ sudo tcpdump -i eth0 proto 17
Capture Hosts based on IP address
Using the host
filter will capture traffic going to (destination) and from (source) the IP address.
:~$ sudo tcpdump -i eth0 host 10.10.1.1
Alternatively capture only packets going one way using src
or dst
.
:~$ sudo tcpdump -i eth0 dst 10.10.1.20
Write a capture file
Writing a standard pcap
file is a common command option. Writing a capture file to disk allows the file to be opened in Wireshark or other packet analysis tools.
:~$ sudo tcpdump -i eth0 -s0 -w test.pcap
Line Buffered Mode
Without the option to force line (-l
) buffered (or packet buffered -C
) mode you will not always get the expected response when piping the tcpdump
output to another command such as grep
. By using this option the output is sent immediately to the piped command giving an immediate response when troubleshooting.
:~$ sudo tcpdump -i eth0 -s0 -l port 80 | grep 'Server:'
Combine Filters
Throughout these examples you can use standard logic to combine different filters.
and or && or or || not or !
Practical Examples
In many of these examples there are a number of ways that the result could be achieved. As seen in some of the examples it is possible to focus the capture right down to individual bits in the packet.
The method you will use will depend on your desired output and how much traffic is on the wire. Capturing on a busy gigabit link may force you to use specific low level packet filters.
When troubleshooting you often simply want to get a result. Filtering on the port and selecting ascii output in combination with grep
, cut
or awk
will often get that result. You can always go deeper into the packet if required.
For example when capturing HTTP requests and responses you could filter out all packets except the data by removing SYN /ACK / FIN however if you are using grep
the noise will be filtered anyway. Keep it simple.
This can be seen in the following examples, where the aim is to get a result in the simplest (and therefore fastest) manner.
1. Extract HTTP User Agents
Extract HTTP User Agent from HTTP request header.
:~$ sudo tcpdump -nn -A -s1500 -l | grep "User-Agent:"
By using egrep
and multiple matches we can get the User Agent and the Host (or any other header) from the request.
:~$ sudo tcpdump -nn -A -s1500 -l | egrep -i 'User-Agent:|Host:'
2. Capture only HTTP GET and POST packets
Going deep on the filter we can specify only packets that match GET.
:~$ sudo tcpdump -s 0 -A -vv 'tcp[((tcp[12:1] & 0xf0) >> 2):4] = 0x47455420'
Alternatively we can select only on POST requests. Note that the POST data may not be included in the packet captured with this filter. It is likely that a POST request will be split across multiple TCP data packets.
:~$ sudo tcpdump -s 0 -A -vv 'tcp[((tcp[12:1] & 0xf0) >> 2):4] = 0x504f5354'
The hexadecimal being matched in these expressions matches the ascii for GET and POST.
As an explanation tcp[((tcp[12:1] & 0xf0) >> 2):4] first determines the location of the bytes we are interested in (after the TCP header) and then selects the 4 bytes we wish to match against.
3. Extract HTTP Request URL's
Parse Host and HTTP Request location from traffic. By not targeting port 80 we may find these requests on any port such as HTTP services running on high ports.
:~$ sudo tcpdump -s 0 -v -n -l | egrep -i "POST /|GET /|Host:" tcpdump: listening on enp7s0, link-type EN10MB (Ethernet), capture size 262144 bytes POST /wp-login.php HTTP/1.1 Host: dev.example.com GET /wp-login.php HTTP/1.1 Host: dev.example.com GET /favicon.ico HTTP/1.1 Host: dev.example.com GET / HTTP/1.1 Host: dev.example.com
4. Extract HTTP Passwords in POST Requests
Lets get some passwords from the POST data. Will include Host: and request location so we know what the password is used for.
:~$ sudo tcpdump -s 0 -A -n -l | egrep -i "POST /|pwd=|passwd=|password=|Host:" tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on enp7s0, link-type EN10MB (Ethernet), capture size 262144 bytes 11:25:54.799014 IP 10.10.1.30.39224 > 10.10.1.125.80: Flags [P.], seq 1458768667:1458770008, ack 2440130792, win 704, options [nop,nop,TS val 461552632 ecr 208900561], length 1341: HTTP: POST /wp-login.php HTTP/1.1 .....s..POST /wp-login.php HTTP/1.1 Host: dev.example.com .....s..log=admin&pwd=notmypassword&wp-submit=Log+In&redirect_to=http%3A%2F%2Fdev.example.com%2Fwp-admin%2F&testcookie=1
5. Capture Cookies from Server and from Client
MMMmmm Cookies! Capture cookies from the server by searching on Set-Cookie: (from Server) and Cookie: (from Client).
:~$ sudo tcpdump -nn -A -s0 -l | egrep -i 'Set-Cookie|Host:|Cookie:' tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on wlp58s0, link-type EN10MB (Ethernet), capture size 262144 bytes Host: dev.example.com Cookie: wordpress_86be02xxxxxxxxxxxxxxxxxxxc43=admin%7C152xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxfb3e15c744fdd6; _ga=GA1.2.21343434343421934; _gid=GA1.2.927343434349426; wordpress_test_cookie=WP+Cookie+check; wordpress_logged_in_86be654654645645645654645653fc43=admin%7C15275102testtesttesttestab7a61e; wp-settings-time-1=1527337439
6. Capture all ICMP packets
See all ICMP
packets on the wire.
:~$ sudo tcpdump -n icmp
tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
listening on enp7s0, link-type EN10MB (Ethernet), capture size 262144 bytes
11:34:21.590380 IP 10.10.1.217 > 10.10.1.30: ICMP echo request, id 27948, seq 1, length 64
11:34:21.590434 IP 10.10.1.30 > 10.10.1.217: ICMP echo reply, id 27948, seq 1, length 64
11:34:27.680307 IP 10.10.1.159 > 10.10.1.1: ICMP 10.10.1.189 udp port 59619 unreachable, length 115
7. Show ICMP Packets that are not ECHO/REPLY (standard ping)
Filter on the icmp
type to select on icmp
packets that are not standard ping
packets.
:~$ sudo tcpdump 'icmp[icmptype] != icmp-echo and icmp[icmptype] != icmp-echoreply'
tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
listening on enp7s0, link-type EN10MB (Ethernet), capture size 262144 bytes
11:37:04.041037 IP 10.10.1.189 > 10.10.1.20: ICMP 10.10.1.189 udp port 36078 unreachable, length 156
8. Capture SMTP / POP3 Email
It is possible to extract email body and other data, in this example we are only parsing the email recipients.
:~$ sudo tcpdump -nn -l port 25 | grep -i 'MAIL FROM\|RCPT TO'
9. Troubleshooting NTP Query and Response
In this example we see the NTP query and response.
:~$ sudo tcpdump dst port 123 tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on eth0, link-type EN10MB (Ethernet), capture size 65535 bytes 21:02:19.112502 IP test33.ntp > 199.30.140.74.ntp: NTPv4, Client, length 48 21:02:19.113888 IP 216.239.35.0.ntp > test33.ntp: NTPv4, Server, length 48 21:02:20.150347 IP test33.ntp > 216.239.35.0.ntp: NTPv4, Client, length 48 21:02:20.150991 IP 216.239.35.0.ntp > test33.ntp: NTPv4, Server, length 48
10. Capture SNMP Query and Response
Using onesixtyone
the fast SNMP protocol scanner we test an SNMP service on our local network and capture the GetRequest
and GetResponse
. For anyone who has had the (dis)pleasure of troubleshooting SNMP, this is a great way to see exactly what is happening on the wire. You can see the OID
clearly in the traffic, very helpful when wrestling with MIBS
.
:~$ onesixtyone 10.10.1.10 public Scanning 1 hosts, 1 communities 10.10.1.10 [public] Linux test33 4.15.0-20-generic #21-Ubuntu SMP Tue Apr 24 06:16:15 UTC 2018 x86_64
:~$ sudo tcpdump -n -s0 port 161 and udp tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on wlp58s0, link-type EN10MB (Ethernet), capture size 262144 bytes 23:39:13.725522 IP 10.10.1.159.36826 > 10.10.1.20.161: GetRequest(28) .1.3.6.1.2.1.1.1.0 23:39:13.728789 IP 10.10.1.20.161 > 10.10.1.159.36826: GetResponse(109) .1.3.6.1.2.1.1.1.0="Linux testmachine 4.15.0-20-generic #21-Ubuntu SMP Tue Apr 24 06:16:15 UTC 2018 x86_64"
11. Capture FTP Credentials and Commands
Capturing FTP commands and login details is straight forward. After the authentication is established an FTP session can be active or passive this will determine whether the data part of the session is conducted over TCP port 20 or another ephemeral port. With the following command you will USER and PASS in the output (which could be fed to grep) as well as the FTP commands such as LIST, CWD and PASSIVE.
:~$ sudo tcpdump -nn -v port ftp or ftp-data
12. Rotate Capture Files
When capturing large amounts of traffic or over a long period of time it can be helpful to automatically create new files of a fixed size. This is done using the parameters -W
, -G
and -C
.
In this command the file capture-(hour).pcap will be created every (-G) 3600 seconds (1 hour). The files will be overwritten the following day. So you should end up with capture-{1-24}.pcap, if the hour was 15 the new file is (/tmp/capture-15.pcap).
:~$ tcpdump -w /tmp/capture-%H.pcap -G 3600 -C 200
13. Capture IPv6 Traffic
Capture IPv6 traffic using the ip6
filter. In these examples we have specified the TCP and UDP protocols using proto 6
and proto 17
.
tcpdump -nn ip6 proto 6
IPv6 with UDP and reading from a previously saved capture file.
tcpdump -nr ipv6-test.pcap ip6 proto 17
14. Detect Port Scan in Network Traffic
In the following example you can see the traffic coming from a single source to a single destination. The Flags [S] and [R] can be seen and matched against a seemingly random series of destination ports. These ports are seen in the RESET that is sent when the SYN finds a closed port on the destination system. This is standard behaviour for a port scan by a tool such as Nmap.
We have another tutorial on Nmap that details captured port scans (open / closed / filtered) in a number of Wireshark captures.
:~$ tcpdump -nn 21:46:19.693601 IP 10.10.1.10.60460 > 10.10.1.199.5432: Flags [S], seq 116466344, win 29200, options [mss 1460,sackOK,TS val 3547090332 ecr 0,nop,wscale 7], length 0 21:46:19.693626 IP 10.10.1.10.35470 > 10.10.1.199.513: Flags [S], seq 3400074709, win 29200, options [mss 1460,sackOK,TS val 3547090332 ecr 0,nop,wscale 7], length 0 21:46:19.693762 IP 10.10.1.10.44244 > 10.10.1.199.389: Flags [S], seq 2214070267, win 29200, options [mss 1460,sackOK,TS val 3547090333 ecr 0,nop,wscale 7], length 0 21:46:19.693772 IP 10.10.1.199.389 > 10.10.1.10.44244: Flags [R.], seq 0, ack 2214070268, win 0, length 0 21:46:19.693783 IP 10.10.1.10.35172 > 10.10.1.199.1433: Flags [S], seq 2358257571, win 29200, options [mss 1460,sackOK,TS val 3547090333 ecr 0,nop,wscale 7], length 0 21:46:19.693826 IP 10.10.1.10.33022 > 10.10.1.199.49153: Flags [S], seq 2406028551, win 29200, options [mss 1460,sackOK,TS val 3547090333 ecr 0,nop,wscale 7], length 0 21:46:19.695567 IP 10.10.1.10.55130 > 10.10.1.199.49154: Flags [S], seq 3230403372, win 29200, options [mss 1460,sackOK,TS val 3547090334 ecr 0,nop,wscale 7], length 0 21:46:19.695590 IP 10.10.1.199.49154 > 10.10.1.10.55130: Flags [R.], seq 0, ack 3230403373, win 0, length 0 21:46:19.695608 IP 10.10.1.10.33460 > 10.10.1.199.49152: Flags [S], seq 3289070068, win 29200, options [mss 1460,sackOK,TS val 3547090335 ecr 0,nop,wscale 7], length 0 21:46:19.695622 IP 10.10.1.199.49152 > 10.10.1.10.33460: Flags [R.], seq 0, ack 3289070069, win 0, length 0 21:46:19.695637 IP 10.10.1.10.34940 > 10.10.1.199.1029: Flags [S], seq 140319147, win 29200, options [mss 1460,sackOK,TS val 3547090335 ecr 0,nop,wscale 7], length 0 21:46:19.695650 IP 10.10.1.199.1029 > 10.10.1.10.34940: Flags [R.], seq 0, ack 140319148, win 0, length 0 21:46:19.695664 IP 10.10.1.10.45648 > 10.10.1.199.5060: Flags [S], seq 2203629201, win 29200, options [mss 1460,sackOK,TS val 3547090335 ecr 0,nop,wscale 7], length 0 21:46:19.695775 IP 10.10.1.10.49028 > 10.10.1.199.2000: Flags [S], seq 635990431, win 29200, options [mss 1460,sackOK,TS val 3547090335 ecr 0,nop,wscale 7], length 0 21:46:19.695790 IP 10.10.1.199.2000 > 10.10.1.10.49028: Flags [R.], seq 0, ack 635990432, win 0, length 0
15. Example Filter Showing Nmap NSE Script Testing
In this example the Nmap NSE script http-enum.nse
is shown testing for valid urls against an open HTTP service.
On the Nmap machine:
:~$ nmap -p 80 --script=http-enum.nse targetip
On the target machine:
:~$ tcpdump -nn port 80 | grep "GET /" GET /w3perl/ HTTP/1.1 GET /w-agora/ HTTP/1.1 GET /way-board/ HTTP/1.1 GET /web800fo/ HTTP/1.1 GET /webaccess/ HTTP/1.1 GET /webadmin/ HTTP/1.1 GET /webAdmin/ HTTP/1.1
16. Capture Start and End Packets of every non-local host
This example is straight out of the tcpdump
man page. By selecting on the tcp-syn
and tcp-fin
packets we can show each established TCP conversation with timestamps but without the data. As with many filters this allows the amount of noise to be reduced in order to focus in on the information that you care about.
:~$ tcpdump 'tcp[tcpflags] & (tcp-syn|tcp-fin) != 0 and not src and dst net localnet'
17. Capture DNS Request and Response
Outbound DNS request to Google public DNS and the A record (ip address) response can be seen in this capture.
:~$ sudo tcpdump -i wlp58s0 -s0 port 53 tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on wlp58s0, link-type EN10MB (Ethernet), capture size 262144 bytes 14:19:06.879799 IP test.53852 > google-public-dns-a.google.com.domain: 26977+ [1au] A? play.google.com. (44) 14:19:07.022618 IP google-public-dns-a.google.com.domain > test.53852: 26977 1/0/1 A 216.58.203.110 (60)
18. Capture HTTP data packets
Only capture on HTTP data packets on port 80. Avoid capturing the TCP session setup (SYN / FIN / ACK).
tcpdump 'tcp port 80 and (((ip[2:2] - ((ip[0]&0xf)<<2)) - ((tcp[12]&0xf0)>>2)) != 0)'
19. Capture with tcpdump and view in Wireshark
Parsing and analysis of full application streams such as HTTP is much easier to perform with Wireshark (or tshark) rather than tcpdump
. It is often more practical to capture traffic on a remote system using tcpdump
with the write file option. Then copy the pcap
to the local workstation for analysis with Wireshark.
Other than manually moving the file from the remote system to the local workstation it is possible to feed the capture to Wireshark over the SSH connection in real time. This tip is a favorite, pipe the raw tcpdump
output right into wireshark
on your local machine. Don't forget the not port 22
so you are not capturing your SSH traffic.
:~$ ssh root@remotesystem 'tcpdump -s0 -c 1000 -nn -w - not port 22' | wireshark -k -i -
Another tip is to use count -c
on the remote tcpdump
to allow the capture to finish otherwise hitting ctrl-c
will not only kill tcpdump
but also Wireshark and your capture.
20. Top Hosts by Packets
List the top talkers for a period of time or number of packets. Using simple command line field extraction to get the IP address, sort and count the occurrances. Capture is limited by the count option -c
.
sudo tcpdump -nnn -t -c 200 | cut -f 1,2,3,4 -d '.' | sort | uniq -c | sort -nr | head -n 20 tcpdump: verbose output suppressed, use -v or -vv for full protocol decode listening on enp7s0, link-type EN10MB (Ethernet), capture size 262144 bytes 200 packets captured 261 packets received by filter 0 packets dropped by kernel 108 IP 10.10.211.181 91 IP 10.10.1.30 1 IP 10.10.1.50
21. Capture all the plaintext passwords
In this command we are focusing on standard plain text protocols and chosing to grep on anything user or password related. By selecting the -B5
option on grep
the aim is to get the preceding 5 lines that may provide context around the captured password (hostname, ip address, system).
:~$ sudo tcpdump port http or port ftp or port smtp or port imap or port pop3 or port telnet -l -A | egrep -i -B5 'pass=|pwd=|log=|login=|user=|username=|pw=|passw=|passwd=|password=|pass:|user:|username:|password:|login:|pass |user '
22. DHCP Example
And our final tcpdump
example is for monitoring DHCP request and reply. DHCP requests are seen on port 67 and the reply is on 68. Using the verbose parameter -v
we get to see the protocol options and other details.
:~$ sudo tcpdump -v -n port 67 or 68 tcpdump: listening on enp7s0, link-type EN10MB (Ethernet), capture size 262144 bytes 14:37:50.059662 IP (tos 0x10, ttl 128, id 0, offset 0, flags [none], proto UDP (17), length 328) 0.0.0.0.68 > 255.255.255.255.67: BOOTP/DHCP, Request from 00:0c:xx:xx:xx:d5, length 300, xid 0xc9779c2a, Flags [none] Client-Ethernet-Address 00:0c:xx:xx:xx:d5 Vendor-rfc1048 Extensions Magic Cookie 0x63825363 DHCP-Message Option 53, length 1: Request Requested-IP Option 50, length 4: 10.10.1.163 Hostname Option 12, length 14: "test-ubuntu" Parameter-Request Option 55, length 16: Subnet-Mask, BR, Time-Zone, Default-Gateway Domain-Name, Domain-Name-Server, Option 119, Hostname Netbios-Name-Server, Netbios-Scope, MTU, Classless-Static-Route NTP, Classless-Static-Route-Microsoft, Static-Route, Option 252 14:37:50.059667 IP (tos 0x10, ttl 128, id 0, offset 0, flags [none], proto UDP (17), length 328) 0.0.0.0.68 > 255.255.255.255.67: BOOTP/DHCP, Request from 00:0c:xx:xx:xx:d5, length 300, xid 0xc9779c2a, Flags [none] Client-Ethernet-Address 00:0c:xx:xx:xx:d5 Vendor-rfc1048 Extensions Magic Cookie 0x63825363 DHCP-Message Option 53, length 1: Request Requested-IP Option 50, length 4: 10.10.1.163 Hostname Option 12, length 14: "test-ubuntu" Parameter-Request Option 55, length 16: Subnet-Mask, BR, Time-Zone, Default-Gateway Domain-Name, Domain-Name-Server, Option 119, Hostname Netbios-Name-Server, Netbios-Scope, MTU, Classless-Static-Route NTP, Classless-Static-Route-Microsoft, Static-Route, Option 252 14:37:50.060780 IP (tos 0x0, ttl 64, id 53564, offset 0, flags [none], proto UDP (17), length 339) 10.10.1.1.67 > 10.10.1.163.68: BOOTP/DHCP, Reply, length 311, xid 0xc9779c2a, Flags [none] Your-IP 10.10.1.163 Server-IP 10.10.1.1 Client-Ethernet-Address 00:0c:xx:xx:xx:d5 Vendor-rfc1048 Extensions Magic Cookie 0x63825363 DHCP-Message Option 53, length 1: ACK Server-ID Option 54, length 4: 10.10.1.1 Lease-Time Option 51, length 4: 86400 RN Option 58, length 4: 43200 RB Option 59, length 4: 75600 Subnet-Mask Option 1, length 4: 255.255.255.0 BR Option 28, length 4: 10.10.1.255 Domain-Name-Server Option 6, length 4: 10.10.1.1 Hostname Option 12, length 14: "test-ubuntu" T252 Option 252, length 1: 10 Default-Gateway Option 3, length 4: 10.10.1.1