pw_cpu_exception/docs.rst - pigweed/pigweed - Git at Google

 .. _module-pw_cpu_exception:

 ----------------
 pw_cpu_exception
 ----------------
 Pigweed's exception module provides a consistent interface for entering an
 application's CPU exception handler. While the actual exception handling
 behavior is left to an application to implement, this module deals with any
 architecture-specific actions required before calling the application exception
 handler. More specifically, the exception module collects CPU state that may
 otherwise be clobbered by an application's exception handler.

 Setup
 =====
 An application using this module **must** connect ``pw_cpu_exception_Entry()`` to
 the platform's CPU exception handler interrupt so ``pw_cpu_exception_Entry()`` is
 called immediately upon a CPU exception. For specifics on how this may be done,
 see the backend documentation for your architecture.

 Applications must also provide an implementation for
 ``pw_cpu_exception_DefaultHandler()``. The behavior of this functions is entirely
 up to the application/project, but some examples are provided below:

   * Enter an infinite loop so the device can be debugged by JTAG.
   * Reset the device.
   * Attempt to handle the exception so execution can continue.
   * Capture and record additional device state and save to flash for a crash
     report.
   * A combination of the above, using logic that fits the needs of your project.

 Module Usage
 ============
 Basic usage of this module entails applications supplying a definition for
 ``pw_cpu_exception_DefaultHandler()``. ``pw_cpu_exception_DefaultHandler()`` should
 contain any logic to determine if a exception can be recovered from, as well as
 necessary actions to properly recover. If the device cannot recover from the
 exception, the function should **not** return.

 ``pw_cpu_exception_DefaultHandler()`` is called indirectly, and may be overridden
 at runtime via ``pw_cpu_exception_SetHandler()``. The handler can also be reset to
 point to ``pw_cpu_exception_DefaultHandler()`` by calling
 ``pw_cpu_exception_RestoreDefaultHandler()``.

 When writing an exception handler, prefer to use the functions provided by this
 interface rather than relying on the backend implementation of
 ``pw_cpu_exception_State``. This allows better code portability as it helps
 prevent an application fault handler from being tied to a single backend.

 For example; when logging or dumping CPU state, prefer ``ToString()`` or
 ``RawFaultingCpuState()`` over directly accessing members of a
 ``pw_cpu_exception_State`` object.

 Some exception handling behavior may require architecture-specific CPU state to
 attempt to correct a fault. In this situation, the application's exception
 handler will be tied to the backend implementation of the CPU exception module.

 Backend Expectations
 ====================
 CPU exception backends do not provide an exception handler, but instead provide
 mechanisms to capture CPU state for use by an application's exception handler,
 and allow recovery from CPU exceptions when possible.

   * A backend should provide a definition for the ``pw_cpu_exception_State``
     struct that provides suitable means to access and modify any captured CPU
     state.
   * If an application's exception handler modifies the captured CPU state, the
     state should be treated as though it were the original state of the CPU when
     the exception occurred. The backend may need to manually restore some of the
     modified state to ensure this on exception handler return.
   * A backend should implement the ``pw_cpu_exception_Entry()`` function that will
     call ``pw_cpu_exception_HandleException()`` after performing any necessary
     actions prior to handing control to the application's exception handler
     (e.g. capturing necessary CPU state).

 Compatibility
 =============
 Most of the pw_cpu_exception module is C-compatible. The exception to this is
 the "support" facade and library, which requires C++.

 Dependencies
 ============
   * ``pw_span``
   * ``pw_preprocessor``
	.. _module-pw_cpu_exception:

	----------------
	pw_cpu_exception
	----------------
	Pigweed's exception module provides a consistent interface for entering an
	application's CPU exception handler. While the actual exception handling
	behavior is left to an application to implement, this module deals with any
	architecture-specific actions required before calling the application exception
	handler. More specifically, the exception module collects CPU state that may
	otherwise be clobbered by an application's exception handler.

	Setup
	=====
	An application using this module must connect ``pw_cpu_exception_Entry()`` to
	the platform's CPU exception handler interrupt so ``pw_cpu_exception_Entry()`` is
	called immediately upon a CPU exception. For specifics on how this may be done,
	see the backend documentation for your architecture.

	Applications must also provide an implementation for
	``pw_cpu_exception_DefaultHandler()``. The behavior of this functions is entirely
	up to the application/project, but some examples are provided below:

	* Enter an infinite loop so the device can be debugged by JTAG.
	* Reset the device.
	* Attempt to handle the exception so execution can continue.
	* Capture and record additional device state and save to flash for a crash
	report.
	* A combination of the above, using logic that fits the needs of your project.

	Module Usage
	============
	Basic usage of this module entails applications supplying a definition for
	``pw_cpu_exception_DefaultHandler()``. ``pw_cpu_exception_DefaultHandler()`` should
	contain any logic to determine if a exception can be recovered from, as well as
	necessary actions to properly recover. If the device cannot recover from the
	exception, the function should not return.

	``pw_cpu_exception_DefaultHandler()`` is called indirectly, and may be overridden
	at runtime via ``pw_cpu_exception_SetHandler()``. The handler can also be reset to
	point to ``pw_cpu_exception_DefaultHandler()`` by calling
	``pw_cpu_exception_RestoreDefaultHandler()``.

	When writing an exception handler, prefer to use the functions provided by this
	interface rather than relying on the backend implementation of
	``pw_cpu_exception_State``. This allows better code portability as it helps
	prevent an application fault handler from being tied to a single backend.

	For example; when logging or dumping CPU state, prefer ``ToString()`` or
	``RawFaultingCpuState()`` over directly accessing members of a
	``pw_cpu_exception_State`` object.

	Some exception handling behavior may require architecture-specific CPU state to
	attempt to correct a fault. In this situation, the application's exception
	handler will be tied to the backend implementation of the CPU exception module.

	Backend Expectations
	====================
	CPU exception backends do not provide an exception handler, but instead provide
	mechanisms to capture CPU state for use by an application's exception handler,
	and allow recovery from CPU exceptions when possible.

	* A backend should provide a definition for the ``pw_cpu_exception_State``
	struct that provides suitable means to access and modify any captured CPU
	state.
	* If an application's exception handler modifies the captured CPU state, the
	state should be treated as though it were the original state of the CPU when
	the exception occurred. The backend may need to manually restore some of the
	modified state to ensure this on exception handler return.
	* A backend should implement the ``pw_cpu_exception_Entry()`` function that will
	call ``pw_cpu_exception_HandleException()`` after performing any necessary
	actions prior to handing control to the application's exception handler
	(e.g. capturing necessary CPU state).

	Compatibility
	=============
	Most of the pw_cpu_exception module is C-compatible. The exception to this is
	the "support" facade and library, which requires C++.

	Dependencies
	============
	* ``pw_span``
	* ``pw_preprocessor``