IEEE 802.15.4 Sniffer
The IEEE 802.15.4 Sniffer listens to a selected IEEE 802.15.4 channel (2.4GHz O-QPSK with DSSS) and integrates with the nRF 802.15.4 sniffer extcap for Wireshark.
Requirements
The sample supports the following development kits:
Hardware platforms |
PCA |
Board name |
Board target |
---|---|---|---|
PCA10095 |
|
||
PCA10059 |
|
||
PCA10056 |
|
The application can be used with the nRF Sniffer for 802.15.4 extcap utility for the Wireshark network protocol analyzer.
Overview
The application presents the user with a command-line interface.
See the Serial commands list for the list of the available commands.
- LED 1:
When the capture is stopped the LED blinks with a period of 2 seconds with 50% duty cycle. When the capture is ongoing the LED blinks with a period of 0.5 seconds with 50% duty cycle.
- LED 4:
When the sniffer captures a packet the LED is toggled on and off.
Serial commands list
This section lists the serial commands that are supported by the sample.
channel - Change the radio channel
The command changes the IEEE 802.15.4 radio channel to listen on.
channel <channel>
The <channel>
argument is an integer in the range between 11 and 26.
For example:
channel 23
receive - start capturing packets
The receive
command makes the sniffer enter the RX state and start capturing packets.
receive
The received packets will be printed to the command-line with the following format:
received: <data> power: <power> lqi: <lqi> time: <timestamp>
The
<data>
is a hexidecimal string representation of the received packet.The
<power>
value is the signal power in dBm.The
<lqi>
value is the IEEE 802.15.4 Link Quality Indicator.The
<timestamp>
value is the absolute time of the received packet since the sniffer booted.
sleep - stop capturing packets
The sleep
command disables the radio and ends the receive process.
sleep
Configuration
See Configuring and building an application for information about how to permanently or temporarily change the configuration.
Building and running
This sample can be found under samples/peripheral/802154_sniffer
in the nRF Connect SDK folder structure.
To build the sample, follow the instructions in Configuring and building an application for your preferred building environment. See also Programming an application for programming steps and Testing and optimization for general information about testing and debugging in the nRF Connect SDK.
Note
When building repository applications in the SDK repositories, building with sysbuild is enabled by default.
If you work with out-of-tree freestanding applications, you need to manually pass the --sysbuild
parameter to every build command or configure west to always use it.
Testing the sample
After programming the sample to your development kit, complete the following steps to test it:
Connect the development kit to the computer using a USB cable. Use the development kit’s nRF USB port (J3). The kits are assigned a COM port (in Windows) or a ttyACM device (in Linux), visible in the Device Manager or in the
/dev
directory.Connect to the kit with a terminal emulator (for example, nRF Connect Serial Terminal). See Testing and optimization for the required settings and steps.
Switch to a radio channel with an ongoing radio traffic:
channel 23
Start the capture process:
receive
The LED 1 will start blinking with shorter intervals.
If there is radio traffic on the selected channel, the sniffer should print the captured packets:
received: 49a85d41a5fffff4110f10270000369756e65619d09428a04b301951821db234460aa5ec4ff506631ef8adb22674683700 power: -39 lqi: 220 time: 15822687
The LED 4 will toggle its state when a frame is received.
Disable the capture:
sleep
The LED 1 will start blinking with longer intervals.
Dependencies
This sample uses the following sdk-nrfxlib libraries:
This sample uses the following nRF Connect SDK libraries:
This sample uses the following Zephyr libraries:
-
include/zephyr/kernel.h
include/zephyr/sys/util.h
-
include/zephyr/net/ieee802154_radio.h
-
include/zephyr/shell/shell.h
include/zephyr/shell/shell_uart.h