98 lines
4.2 KiB
Markdown
98 lines
4.2 KiB
Markdown
sensniff Contiki Project
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========================
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This example can be used to create an IEEE 802.15.4 wireless sniffer firmware,
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meant to be used in parallel with
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[sensniff](https://github.com/g-oikonomou/sensniff).
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Running
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=======
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* Build this example and program your device
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* Connect your device to a host
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* Run sensniff on your host
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* Fire up wireshark and enjoy.
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You can run sensniff manually, or you can simply run `make sniff` from within
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this directory. If you choose the latter option, you may have to specify the
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port where you device is connected by using the PORT variable. For example, if
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your device is connected to `/dev/ttyUSB1` then you should run
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`make PORT=/dev/ttyUSB1 sniff`.
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Make sure your device's UART baud rate matches the `-b` argument passed to
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sensniff. I strongly recommend using at least 460800. This comment does not
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apply if your device is using native USB.
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Subsequently, make absolutely certain that your device is tuned to the same RF
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channel as the network you are trying to sniff. You can change sniffing channel
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through sensniff's text interface.
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More details in sensniff's README.
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Adding support for more platforms
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=================================
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Firstly, this example will try to turn off frame filtering and automatic h/w
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ACKs by calling `NETSTACK_RADIO.set_value(RADIO_PARAM_RX_MODE, 0)`. If your
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radio does not support this, then implementing this is your first step towards
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running this example on your board.
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Secondly, in order to be able to switch channels and retrieve current/min/max
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RF channel supported from sensniff's text interface, your device's radio driver
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must also support:
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NETSTACK_RADIO.get_value(RADIO_PARAM_CHANNEL, ...)
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NETSTACK_RADIO.set_value(RADIO_PARAM_CHANNEL, ...)
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NETSTACK_RADIO.get_value(RADIO_CONST_CHANNEL_MIN, ...)
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NETSTACK_RADIO.get_value(RADIO_CONST_CHANNEL_MAX, ...)
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The following radios have been tested:
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* CC13xx/CC26xx in PROP and IEEE modes
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* CC2538
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* CC2530/CC2531
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* CC1200
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* RF233
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Once you have the radio sorted out, you also need to configure character I/O.
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The firmware captures wireless frames and streams them over a serial line to
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the host where your device is connected. This can be achieved over UART or over
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CDC-ACM. The example makes zero assumptions about your hardware's capability,
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you have to configure thnigs explicitly.
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* Firstly, create a directory named the same as your platform. Crate a header
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file therein called `target-conf.h`. This will get included automatically.
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* Then look at the header files under `pool`, perhaps your device's CPU is
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already supported. If that's the case, then within your `target-conf.h` you
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simply need to add a line like this:
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#define SENSNIFF_IO_DRIVER_H "pool/cc2538-io.h"
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choosing the header that corresponds to your device's CPU. Just look for any of
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the platforms already supported to see how you can configure things in a more
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fine-grained fashion (e.g. to select UART instance, switch between UART/USB
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etc).
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* If your CPU is not already supported, then you need to create an additional
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header file. In that header file, you will need to define the following three:
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#define sensniff_io_byte_out() <driver function that prints bytes>
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#define sensniff_io_flush() <for buffered I/O. Can be empty>
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#define sensniff_io_set_input() <driver function that sets an input callback>
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Those should map to functions implemented by your device's peripheral driver,
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e.g. your UART driver. `_byte_out()` and `set_input()` are required, but
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`_flush()` is optional and is only really helpful in case of drivers/hardware
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that support buffered I/O (as is the case for some Contiki's USB drivers). Once
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you have provided those defines, then simple go back to your `target-conf.h`
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and:
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#define SENSNIFF_IO_DRIVER_H "header-with-my-own-defines.h"
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* The build system will also try to include `platform/Makefile.platform`. You
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can create this Makefile if you want to extend the build system e.g. by adding
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source files to the build, or by specifying Make variables. A common reason why
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you may wish to do so would be to specify your device's baudrate. In doing so,
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`make sniff` will pass the correct value as the argument to `-b`. You do not
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have to create this file if you don't need to do so.
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That should be it!
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