DOs and DON’Ts for designing and writing Devicetree bindings¶
This is a list of common review feedback items focused on binding design. With every rule, there are exceptions and bindings have many gray areas.
For guidelines related to patches, see Submitting devicetree (DT) binding patches
DO attempt to make bindings complete even if a driver doesn’t support some features. For example, if a device has an interrupt, then include the ‘interrupts’ property even if the driver is only polled mode.
DON’T refer to Linux or “device driver” in bindings. Bindings should be based on what the hardware has, not what an OS and driver currently support.
DO use node names matching the class of the device. Many standard names are defined in the DT Spec. If there isn’t one, consider adding it.
DO check that the example matches the documentation especially after making review changes.
DON’T create nodes just for the sake of instantiating drivers. Multi-function devices only need child nodes when the child nodes have their own DT resources. A single node can be multiple providers (e.g. clocks and resets).
DON’T use ‘syscon’ alone without a specific compatible string. A ‘syscon’ hardware block should have a compatible string unique enough to infer the register layout of the entire block (at a minimum).
DO make ‘compatible’ properties specific. DON’T use wildcards in compatible strings. DO use fallback compatibles when devices are the same as or a subset of prior implementations. DO add new compatibles in case there are new features or bugs.
DO use a vendor prefix on device specific property names. Consider if properties could be common among devices of the same class. Check other existing bindings for similar devices.
DON’T redefine common properties. Just reference the definition and define constraints specific to the device.
DO use common property unit suffixes for properties with scientific units. See property-units.txt.
DO define properties in terms of constraints. How many entries? What are possible values? What is the order?
Board/SoC .dts Files¶
DO put all MMIO devices under a bus node and not at the top-level.
DO use non-empty ‘ranges’ to limit the size of child buses/devices. 64-bit platforms don’t need all devices to have 64-bit address and size.