| .. _design_guidelines: |
| |
| API Design Guidelines |
| ##################### |
| |
| Zephyr development and evolution is a group effort, and to simplify |
| maintenance and enhancements there are some general policies that should |
| be followed when developing a new capability or interface. |
| |
| Using Callbacks |
| *************** |
| |
| Many APIs involve passing a callback as a parameter or as a member of a |
| configuration structure. The following policies should be followed when |
| specifying the signature of a callback: |
| |
| * The first parameter should be a pointer to the object most closely |
| associated with the callback. In the case of device drivers this |
| would be ``const struct device *dev``. For library functions it may be a |
| pointer to another object that was referenced when the callback was |
| provided. |
| |
| * The next parameter(s) should be additional information specific to the |
| callback invocation, such as a channel identifier, new status value, |
| and/or a message pointer followed by the message length. |
| |
| * The final parameter should be a ``void *user_data`` pointer carrying |
| context that allows a shared callback function to locate additional |
| material necessary to process the callback. |
| |
| An exception to providing ``user_data`` as the last parameter may be |
| allowed when the callback itself was provided through a structure that |
| will be embedded in another structure. An example of such a case is |
| :c:type:`gpio_callback`, normally defined within a data structure |
| specific to the code that also defines the callback function. In those |
| cases further context can accessed by the callback indirectly by |
| :c:macro:`CONTAINER_OF`. |
| |
| Examples |
| ======== |
| |
| * The requirements of :c:type:`k_timer_expiry_t` invoked when a system |
| timer alarm fires are satisfied by:: |
| |
| void handle_timeout(struct k_timer *timer) |
| { ... } |
| |
| The assumption here, as with :c:type:`gpio_callback`, is that the |
| timer is embedded in a structure reachable from |
| :c:macro:`CONTAINER_OF` that can provide additional context to the |
| callback. |
| |
| * The requirements of :c:type:`counter_alarm_callback_t` invoked when a |
| counter device alarm fires are satisfied by:: |
| |
| void handle_alarm(const struct device *dev, |
| uint8_t chan_id, |
| uint32_t ticks, |
| void *user_data) |
| { ... } |
| |
| This provides more complete useful information, including which |
| counter channel timed-out and the counter value at which the timeout |
| occurred, as well as user context which may or may not be the |
| :c:type:`counter_alarm_cfg` used to register the callback, depending |
| on user needs. |
| |
| Conditional Data and APIs |
| ************************* |
| |
| APIs and libraries may provide features that are expensive in RAM or |
| code size but are optional in the sense that some applications can be |
| implemented without them. Examples of such feature include |
| :kconfig:option:`capturing a timestamp <CONFIG_CAN_RX_TIMESTAMP>` or |
| :kconfig:option:`providing an alternative interface <CONFIG_SPI_ASYNC>`. The |
| developer in coordination with the community must determine whether |
| enabling the features is to be controllable through a Kconfig option. |
| |
| In the case where a feature is determined to be optional the following |
| practices should be followed. |
| |
| * Any data that is accessed only when the feature is enabled should be |
| conditionally included via ``#ifdef CONFIG_MYFEATURE`` in the |
| structure or union declaration. This reduces memory use for |
| applications that don't need the capability. |
| * Function declarations that are available only when the option is |
| enabled should be provided unconditionally. Add a note in the |
| description that the function is available only when the specified |
| feature is enabled, referencing the required Kconfig symbol by name. |
| In the cases where the function is used but not enabled the definition |
| of the function shall be excluded from compilation, so references to |
| the unsupported API will result in a link-time error. |
| * Where code specific to the feature is isolated in a source file that |
| has no other content that file should be conditionally included in |
| ``CMakeLists.txt``:: |
| |
| zephyr_sources_ifdef(CONFIG_MYFEATURE foo_funcs.c) |
| * Where code specific to the feature is part of a source file that has |
| other content the feature-specific code should be conditionally |
| processed using ``#ifdef CONFIG_MYFEATURE``. |
| |
| The Kconfig flag used to enable the feature should be added to the |
| ``PREDEFINED`` variable in :file:`doc/zephyr.doxyfile.in` to ensure the |
| conditional API and functions appear in generated documentation. |
| |
| Return Codes |
| ************ |
| |
| Implementations of an API, for example an API for accessing a peripheral might |
| implement only a subset of the functions that is required for minimal operation. |
| A distinction is needed between APIs that are not supported and those that are |
| not implemented or optional: |
| |
| - APIs that are supported but not implemented shall return ``-ENOSYS``. |
| |
| - Optional APIs that are not supported by the hardware should be implemented and |
| the return code in this case shall be ``-ENOTSUP``. |
| |
| - When an API is implemented, but the particular combination of options |
| requested in the call cannot be satisfied by the implementation the call shall |
| return ``-ENOTSUP``. (For example, a request for a level-triggered GPIO interrupt on |
| hardware that supports only edge-triggered interrupts) |
