Devicetree versus Kconfig¶
Along with devicetree, Zephyr also uses the Kconfig language to configure the source code. Whether to use devicetree or Kconfig for a particular purpose can sometimes be confusing. This section should help you decide which one to use.
Use devicetree to describe hardware and its boot-time configuration. Examples include peripherals on a board, boot-time clock frequencies, interrupt lines, etc.
Use Kconfig to configure software support to build into the final image. Examples include whether to add networking support, which drivers are needed by the application, etc.
In other words, devicetree mainly deals with hardware, and Kconfig with software.
For example, consider a board containing a SoC with 2 UART, or serial port, instances.
The fact that the board has this UART hardware is described with two UART nodes in the devicetree. These provide the UART type (via the
compatibleproperty) and certain settings such as the address range of the hardware peripheral registers in memory (via the
Additionally, the UART boot-time configuration is also described with devicetree. This could include configuration such as the RX IRQ line’s priority and the UART baud rate. These may be modifiable at runtime, but their boot-time configuration is described in devicetree.
Whether or not to include software support for UART in the build is controlled via Kconfig. Applications which do not need to use the UARTs can remove the driver source code from the build using Kconfig, even though the board’s devicetree still includes UART nodes.
As another example, consider a device with a 2.4GHz, multi-protocol radio supporting both the Bluetooth Low Energy and 802.15.4 wireless technologies.
Devicetree should be used to describe the presence of the radio hardware, what driver or drivers it’s compatible with, etc.
Boot-time configuration for the radio, such as TX power in dBm, should also be specified using devicetree.
Kconfig should determine which software features should be built for the radio, such as selecting a BLE or 802.15.4 protocol stack.
There are two noteworthy exceptions to these rules:
chosenkeyword, which allows the user to select a specific instance of a hardware device to be used for a particular purpose. An example of this is selecting a particular UART for use as the system’s console.
statuskeyword, which allows the user to enable or disable a particular instance of a hardware device. This takes precedence over related Kconfig options which serve a similar purpose.