Introduction
The system firmware provides hardware definitions and a hardware abstraction layer for common operations. These definitions and abstraction layer are easier to use and understand than low-level C or assembly code. The firmware components supporting common run time, debug, and manufacturing elements simplify incorporation of the device into a system throughout the development cycle. In addition, the security and wireless protocol firmware elements provide more advanced functionality, which can form the basis for applications developed to take advantage of the hardware that the RSL15 SoC provides.
When multiple programmers are involved in development, using the firmware leads to increased consistency, which in turn leads to increased overall robustness and correctness of code.
In some cases, depending on the particulars of the application, the firmware implementation might not be optimal; however, even in these situations, the firmware serves as an example and an advanced starting point for custom-developed functions and macros.
All firmware components execute on the Arm Cortex®-M33 processor, and all of these components are CMSIS-compatible.
Compliance Exceptions
The firmware provided for the Arm Cortex-M33 processor is generally compliant with the MISRA-C rules, as required by the CMSIS standard. The RSL15 firmware exceptions in compliance are the same compliance exceptions that are part of the CMSIS-Core standard.
The RSL15 firmware and CMSIS-Core violate the following MISRA-C rules:
- Required Rule 8.5, object/function definition in header file. Violated because function definitions in header files are used to allow inlining of functions.
- Required Rule 18.4, declaration of union type or object of union type: {...}. Violated because unions are used for effective representation of core registers.
- Advisory Rule 19.7, function-like macro defined. Violated because function-like macros are used to allow for more efficient code.