The first thing you need to do is to get a
LINKTYPE_ value for your proprietary headers. See the link-layer header types page on the tcpdump.org Web site for the existing DLT_/LINKTYPE_ link-layer header type values and information on how to either use one of the
DLT_USERn values internally or get a new value assigned if you plan to have people outside your organization use this.
Once you have the value assigned, you'll have to do some work on libpcap:
If you've been assigned a
DLT_ value, you'll have to modify the
pcap/pcap.h file to add that link-layer type (and change the
DLT_MATCHING_MAX value in that header file, and
pcap-common.c, so that they are >= your
DLT_ value), or wait for whoever at tcpdump.org (which will probably be me) assigns your
DLT_ value and updates the libpcap Git repository (at which point you could use top-of-trunk libpcap).
If you plan to do live capturing, you may have to add a module to libpcap to support live capturing on your hardware, or, if your device looks like a regular networking device to your OS, so that you can use its native capture mechanism, modify the module for that OS to map whatever link-layer header type value the OS uses (e.g., a
DLT_ value on *BSD/OS X or an
ARPHRD_ value on Linux) to whatever
DLT_ you're using for your link-layer header type.
You'd have to modify
gencode.c to be able to compile capture filters for your
Once that's done, libpcap should now work.
Now, for tcpdump:
if_print routine that processes the proprietary headers (whether it just skips them or prints things for them), calls
ether_print(), and then returns the sum of the length of your proprietary headers and the Ethernet header (
ETHER_HDRLEN as defined in
print-ether.c for an example.
Add a declaration of that routine to
netdissect.h, and add an entry for it, with the routine name and
ndo_printers if you copied
ether_if_print() (which you should) or to
printers if you didn't (if you didn't, you'll have to pass
&gndo as the first argument to
ether_print()). Those arrays are in