nes-proj/examples/sensniff
2018-03-09 16:29:06 +00:00
..
cc2538dk Specify default baudrate for CC2538DK 2016-12-04 18:43:41 +00:00
jn516x Include contiki.h instead of contiki-conf.h so as to ensure consistent inclusion of contiki-default-conf.h 2017-09-08 14:20:59 +02:00
openmote-cc2538
pool Include contiki.h instead of contiki-conf.h so as to ensure consistent inclusion of contiki-default-conf.h 2017-09-08 14:20:59 +02:00
srf06-cc26xx
zoul Add sensniff support: zoul 2016-08-12 15:58:02 +01:00
Makefile Update Makefiles to be compatible with the new build system and restrict them to specific platforms where needed 2018-03-09 16:29:06 +00:00
project-conf.h Do not #undef in example project-conf.h (sensniff) 2017-10-08 17:05:40 +01:00
README.md Clarify sensniff doc: It is also distributed as part of Contiki-NG 2017-12-05 00:44:20 +00:00
sensniff-mac.c Remove RDC layer 2017-05-17 15:09:19 +02:00
sensniff.c Change debug statement 2017-10-29 23:09:04 +00:00
sensniff.h Include contiki.h instead of contiki-conf.h so as to ensure consistent inclusion of contiki-default-conf.h 2017-09-08 14:20:59 +02:00

sensniff Contiki Project

This example can be used to create an IEEE 802.15.4 wireless sniffer firmware, meant to be used in parallel with sensniff. Sensniff is distributed standalone, but also as part of Contiki-NG under tools/sensniff.

Running

  • Build this example and program your device
  • Connect your device to a host
  • Run sensniff on your host
  • Fire up wireshark and enjoy.

You can run sensniff manually, or you can simply run make sniff from within this directory. If you choose the latter option, you may have to specify the port where you device is connected by using the PORT variable. For example, if your device is connected to /dev/ttyUSB1 then you should run make PORT=/dev/ttyUSB1 sniff.

Make sure your device's UART baud rate matches the -b argument passed to sensniff. I strongly recommend using at least 460800. This comment does not apply if your device is using native USB.

Subsequently, make absolutely certain that your device is tuned to the same RF channel as the network you are trying to sniff. You can change sniffing channel through sensniff's text interface.

More details in sensniff's README.

Adding support for more platforms

Firstly, this example will try to turn off frame filtering and automatic h/w ACKs by calling NETSTACK_RADIO.set_value(RADIO_PARAM_RX_MODE, 0). If your radio does not support this, then implementing this is your first step towards running this example on your board.

Secondly, in order to be able to switch channels and retrieve current/min/max RF channel supported from sensniff's text interface, your device's radio driver must also support:

NETSTACK_RADIO.get_value(RADIO_PARAM_CHANNEL, ...)
NETSTACK_RADIO.set_value(RADIO_PARAM_CHANNEL, ...)
NETSTACK_RADIO.get_value(RADIO_CONST_CHANNEL_MIN, ...)
NETSTACK_RADIO.get_value(RADIO_CONST_CHANNEL_MAX, ...)

The following radios have been tested:

  • CC13xx/CC26xx in PROP and IEEE modes
  • CC2538
  • CC2530/CC2531
  • CC1200
  • RF233

Once you have the radio sorted out, you also need to configure character I/O. The firmware captures wireless frames and streams them over a serial line to the host where your device is connected. This can be achieved over UART or over CDC-ACM. The example makes zero assumptions about your hardware's capability, you have to configure thnigs explicitly.

  • Firstly, create a directory named the same as your platform. Crate a header file therein called target-conf.h. This will get included automatically.

  • Then look at the header files under pool, perhaps your device's CPU is already supported. If that's the case, then within your target-conf.h you simply need to add a line like this:

      #define SENSNIFF_IO_DRIVER_H "pool/cc2538-io.h"
    

choosing the header that corresponds to your device's CPU. Just look for any of the platforms already supported to see how you can configure things in a more fine-grained fashion (e.g. to select UART instance, switch between UART/USB etc).

  • If your CPU is not already supported, then you need to create an additional header file. In that header file, you will need to define the following three:

      #define sensniff_io_byte_out()  <driver function that prints bytes>
      #define sensniff_io_flush()     <for buffered I/O. Can be empty>
      #define sensniff_io_set_input() <driver function that sets an input callback>
    

Those should map to functions implemented by your device's peripheral driver, e.g. your UART driver. _byte_out() and set_input() are required, but _flush() is optional and is only really helpful in case of drivers/hardware that support buffered I/O (as is the case for some Contiki's USB drivers). Once you have provided those defines, then simple go back to your target-conf.h and:

    #define SENSNIFF_IO_DRIVER_H "header-with-my-own-defines.h"
  • The build system will also try to include platform/Makefile.platform. You can create this Makefile if you want to extend the build system e.g. by adding source files to the build, or by specifying Make variables. A common reason why you may wish to do so would be to specify your device's baudrate. In doing so, make sniff will pass the correct value as the argument to -b. You do not have to create this file if you don't need to do so.

That should be it!