The FireBrick includes the ability to capture packet dumps for diagnostic purposes. This might typically be used where the behaviour of the FB2500 is not as expected, and can help identify whether other devices are correctly implementing network protocols - if they are, then you should be able to determine whether the FB2500 is responding appropriately. The packet dumping facility may also be of use to you to debug traffic (and thus specific network protocols) between two hosts that the brick is routing traffic between.
This feature is provided via the FB2500's HTTP server and
provides a download of a pcap format file (old format) suitable for use with tcpdump
or Wireshark.
A packet dump can be performed by either of these methods :-
tcpdump
or Wiresharkcurl
)The output is streamed so that, when used with curl
and tcpdump
, you can monitor traffic in real time.
Limited filtering is provided by the FB2500, so you will normally apply any additional filtering you need via tcpdump
.
Table 14.1 lists the parameters you can specify to control what gets dumped. The "Parameter name" column shows the exact parameter name to specify when constructing a URL to use with an HTTP client. The "Web-form field" column shows the label of the equivalent field on the user interface form.
Table 14.1. Packet dump parameters
Parameter name | Web-form field | Function |
interface | Interface | One or more interfaces, as the name of the interface. e.g. interface=WAN, also applies for name of PPPoE on an interface |
l2tp | L2TP session | Where L2TP is available, one or more sessions, using the full hex accounting ID, can be specified, e.g. l2tp=002132D94AE297DFF51E01 or you can use l2tp=* followed by a calling line ID - this sets up logging for a session based on calling line id when it next connects. |
snaplen | Snaplen | The maximum capture length for a packet can be specified, in bytes. Default 0 (auto). See notes below. |
timeout | Timeout | The maximum capture time can be specified in seconds. Default 10. |
ip | IP address (2-off) | Up to two IPs can be specified to filter packets |
self | Include my IP | By default any traffic to or from the IP which is connecting to the web interface to access pcap is excluded. This option allows such traffic. Use with care else you dump your own dump traffic. |
The following criteria must be met in order to use the packet dump facility :-
level
attribute on the user
object.You may optionally specify upto two IP address to be checked for a match in packets on the interface(s) and/or L2TP session(s) specified. If you do not specify any IP addresses, then all packets are returned. If you specify one IP address then all packets containing that IP address (as source or destination) are returned. If you specify two IP addresses then only those packets containing both addresses (each address being either as source or destination) are returned.
IP matching is only performed against ARP, IPv4 or IPv6 headers and not in encapsulated packets or ICMP payloads.
If capturing too much, some packets may be lost.
The capture can collect different types of packets depending on where the capture is performed. All of these are presented as Ethernet frames, with faked Ethernet headers where the packet type is not Ethernet.
Table 14.2. Packet types that can be captured
Type | Notes |
Ethernet | Interface based capture contains the full Ethernet frame with any VLAN tag removed. |
IP | IP only, currently not possible to capture at this level. An Ethernet header is faked. |
PPP | PPP from the protocol word (HDLC header is ignored if present). An Ethernet header is faked and also a PPPoE header. The PPPoE header has the session PPPoE ID that is the local end L2TP session ID. |
The faked protocol header has target MAC of 00:00:00:00:00:00 and source MAC of 00:00:00:00:00:01 for received packets, and these reversed for sent packets.
The snaplen
argument specifies the maximum length captured, but this applies at the protocol level. As such PPP packets will have up to the snaplen
from the PPP protocol bytes and then have fake PPPoE and Ethernet headers added.
A snaplen
value of 0 has special meaning - it causes logging of just IP, TCP, UDP and ICMP headers as well as headers in ICMP error payloads. This is primarily to avoid logging data carried by these protocols.
The web form is accessed by selecting the "Packet dump" item under the "Diagnostics" main-menu item. Setup the dump parameters with reference to Table 14.1 and click the "Dump" button. Your browser will ask you to save a file, which will take time to save as per the timeout requested.
To perform a packet dump using an HTTP client, you first construct an appropriate URL that contains standard HTTP URL form-style parameters from the list shown in Table 14.1.
Then you retreive the dump from the FB2500 using a tool such as curl
.
The URL is http://<FB2500 IP address or DNS name>/pcap?parameter_name=value[¶meter_name=value ...]
The URL may include as many parameter name and value pairs as you need to completely specify the dump parameters.
Packet capturing stops if the output stream (HTTP transfer) fails. This is useful if you are unable to determine a suitable timeout period, and would like to run an ongoing capture which you stop manually. This is achieved by specifying a very long duration, and then interrupting execution of the HTTP client using Ctrl+C or similar.
Only one capture can operate at a time. The HTTP access fails if no valid interfaces or sessions etc. are specified or if a capturing is currently running.
An example of a simple real-time dump and analysis run on a Linux box is shown below :-
curl --silent --no-buffer --user name:pass 'http://1.2.3.4/pcap?interface=LAN&timeout=300&snaplen=1500' | /usr/sbin/tcpdump -r - -n -v
In this example we have used username name and password pass to log-in to a FireBrick on address 1.2.3.4 - obviously you would change the IP address (or host name) and credentials to something suitable for your FB2500.
We have asked for a dump of the interface named LAN
, with a 5 minute timeout and capturing 1500 byte packets. We have then fed the
output in real time (hence specifying --no-buffer
on the curl
command) to tcpdump
, and asked it to take
capture data from the standard input stream (via the -r -
options). We have additionally asked for no DNS resolution (-n
) and verbose output (-v
).
Consult the documentation provided with the client (e.g. Linux box) system for details on the extensive range of tcpdump
options - these
can be used to filter the dump to better locate the packets you are interested in.