pw_boot_armv7m/docs.rst - platform/external/pigweed - Gitiles

 .. _module-pw_boot_armv7m:

 --------------
 pw_boot_armv7m
 --------------

 The ARMv7-M boot module provides a linker script and some early initialization
 of static memory regions and C++ constructors. This is enough to get many
 ARMv7-M cores booted and ready to run C++ code.

 This module is currently designed to support a very minimal device memory layout
 configuration:

  - One contiguous region for RAM.
  - One contiguous region for flash.
  - Static, in-flash vector table at the default location expected by the SoC.

 Note that this module is not yet particularly suited for projects that utilize
 a bootloader, as it's relatively opinionated regarding where code is stored.

 .. warning::
   This module is currently NOT stable! Depending on this module may cause
   breakages as this module is updated.

 Sequence
 ========

 The high level pw_boot_armv7m boot sequence looks like the following psuedo-code
 invocation of the user-implemented functions:

 .. code:: cpp

   void pw_boot_Entry() {  // Boot entry point.
     pw_boot_PreStaticMemoryInit();  // User-implemented function.
     // Static memory initialization.
     pw_boot_PreStaticConstructorInit();  // User-implemented function.
     // C++ static constructors are invoked.
     pw_boot_PreMainInit();  // User-implemented function.
     main();  // User-implemented function.
     pw_boot_PostMain();  // User-implemented function.
     PW_UNREACHABLE;
   }

 Setup
 =====

 User-Implemented Functions
 --------------------------
 This module expects all of these extern "C" functions to be defined outside this
 module:

  - ``int main()``: This is where applications reside.
  - ``void pw_boot_PreStaticMemoryInit()``: This function executes just before
    static memory has been zeroed and static data is intialized. This function
    should set up any early initialization that should be done before static
    memory is initialized, such as:

    - Enabling the FPU or other coprocessors.
    - Opting into extra restrictions such as disabling unaligned access to ensure
      the restrictions are active during static RAM initialization.
    - Initial CPU clock, flash, and memory configurations including potentially
      enabling extra memory regions with .bss and .data sections, such as SDRAM
      or backup powered SRAM.
    - Fault handler initialization if required before static memory
      initialization.

    .. warning::
      Code running in this hook is violating the C spec as static values are not
      yet initialized, meaning they have not been loaded (.data) nor
      zero-initialized (.bss).

  - ``void pw_boot_PreStaticConstructorInit()``: This function executes just
    before C++ static constructors are called. At this point, other static memory
    has been zero or data initialized. This function should set up any early
    initialization that should be done before C++ static constructors are run,
    such as:

    - Run time dependencies such as Malloc, and ergo sometimes the RTOS.
    - Persistent memory that survives warm reboots.
    - Enabling the MPU to catch nullptr dereferences during construction.
    - Main stack watermarking.
    - Further fault handling configuration necessary for your platform which
      were not safe before pw_boot_PreStaticRamInit().
    - Boot count and/or boot session UUID management.

  - ``void pw_boot_PreMainInit()``: This function executes just before main, and
    can be used for any device initialization that isn't application specific.
    Depending on your platform, this might be turning on a UART, setting up
    default clocks, etc.

  - ``PW_NO_RETURN void pw_boot_PostMain()``: This function executes after main
    has returned. This could be used for device specific teardown such as an
    infinite loop, soft reset, or QEMU shutdown. In addition, if relevant for
    your application, this would be the place to invoke the global static
    destructors. This function must not return!


 If any of these functions are unimplemented, executables will encounter a link
 error.

 Required Configs
 ----------------
 This module has a number of required configuration options that mold the linker
 script to fit to a wide variety of ARMv7-M SoCs. The ``pw_boot_armv7m_config``
 GN variable has a ``defines`` member that can be used to modify these linker
 script options. See the documentation section on configuration for information
 regarding which configuration options are required.

 Vector Table
 ------------
 Targets using ``pw_boot_armv7m`` will need to provide an ARMv7-M interrupt
 vector table (ARMv7-M Architecture Reference Manual DDI 0403E.b section B1.5.2
 and B1.5.3). This is done by storing an array into the ``.vector_table``
 section, and properly configuring ``PW_BOOT_VECTOR_TABLE_*`` preprocessor
 defines to cover the address region your SoC expects the vector table to be
 located at (often the beginning of the flash region). If using a bootloader,
 ensure VTOR (Vector Table Offset Register) is configured to point to the vector
 table. Otherwise, refer to the hardware vendor's documentation to determine
 where the vector table should be located such that it resides where VTOR is
 initialized to by default.

 Example vector table:

 .. code-block:: cpp

   typedef void (*InterruptHandler)();

   PW_KEEP_IN_SECTION(".vector_table")
   const InterruptHandler vector_table[] = {
       // The starting location of the stack pointer.
       // This address is NOT an interrupt handler/function pointer, it is simply
       // the address that the main stack pointer should be initialized to. The
       // value is reinterpret casted because it needs to be in the vector table.
       [0] = reinterpret_cast<InterruptHandler>(&pw_boot_stack_high_addr),

       // Reset handler, dictates how to handle reset interrupt. This is the
       // address that the Program Counter (PC) is initialized to at boot.
       [1] = pw_boot_Entry,

       // NMI handler.
       [2] = DefaultFaultHandler,
       // HardFault handler.
       [3] = DefaultFaultHandler,
       ...
   };

 Usage
 =====

 Publicly exported symbols
 -------------------------
 The linker script provided by this module exports a number of symbols that
 may be used to retrieve the locations of specific memory regions at runtime.
 These symbols are declared as ``uint8_t`` variables. The variables themselves
 do not contain the addresses, they only reside at the memory location they
 reference. To retrieve the memory locations, simply take the reference of the
 symbol (e.g. ``&pw_boot_vector_table_addr``).

 ``pw_boot_heap_[low/high]_addr``: Beginning and end of the memory range of the heap.
 These addresses may be identical, indicating a heap with a size of zero bytes.

 ``pw_boot_stack_[low/high]_addr``: Beginning and end of the memory range of the main
 stack. This might not be the only stack in the system.

 ``pw_boot_vector_table_addr``: Beginning of the ARMv7-M interrupt vector table.

 Configuration
 =============
 These configuration options can be controlled by appending list items to
 ``pw_boot_armv7m_LINK_CONFIG_DEFINES`` as part of a Pigweed target
 configuration.

 ``PW_BOOT_HEAP_SIZE`` (required):
 How much memory (in bytes) to reserve for the heap. This can be zero.

 ``PW_BOOT_MIN_STACK_SIZE`` (required):
 The minimum size reserved for the main stack. If statically allocated memory
 begins to cut into the minimum, a link error will be emitted.

 ``PW_BOOT_FLASH_BEGIN`` (required):
 The start address of the MCU's flash region. This region must NOT include the
 vector table. (i.e. if the VECTOR_TABLE is in flash, the flash region
 should begin *after* the vtable)

 ``PW_BOOT_FLASH_SIZE`` (required):
 Size of the flash region in bytes.

 ``PW_BOOT_RAM_BEGIN`` (required):
 The start address of the MCU's RAM region.

 ``PW_BOOT_RAM_SIZE`` (required):
 Size of the RAM region in bytes.

 ``PW_BOOT_VECTOR_TABLE_BEGIN`` (required):
 Address the target MCU expects the link-time vector table to be located at. This
 is typically the beginning of the flash region. While the vector table may be
 changed later in the boot process, a minimal vector table MUST be present for
 the MCU to operate as expected.

 ``PW_BOOT_VECTOR_TABLE_SIZE`` (required):
 Number of bytes to reserve for the ARMv7-M vector table.

 Dependencies
 ============
   * ``pw_preprocessor`` module
	.. _module-pw_boot_armv7m:

	--------------
	pw_boot_armv7m
	--------------

	The ARMv7-M boot module provides a linker script and some early initialization
	of static memory regions and C++ constructors. This is enough to get many
	ARMv7-M cores booted and ready to run C++ code.

	This module is currently designed to support a very minimal device memory layout
	configuration:

	- One contiguous region for RAM.
	- One contiguous region for flash.
	- Static, in-flash vector table at the default location expected by the SoC.

	Note that this module is not yet particularly suited for projects that utilize
	a bootloader, as it's relatively opinionated regarding where code is stored.

	.. warning::
	This module is currently NOT stable! Depending on this module may cause
	breakages as this module is updated.

	Sequence
	========

	The high level pw_boot_armv7m boot sequence looks like the following psuedo-code
	invocation of the user-implemented functions:

	.. code:: cpp

	void pw_boot_Entry() { // Boot entry point.
	pw_boot_PreStaticMemoryInit(); // User-implemented function.
	// Static memory initialization.
	pw_boot_PreStaticConstructorInit(); // User-implemented function.
	// C++ static constructors are invoked.
	pw_boot_PreMainInit(); // User-implemented function.
	main(); // User-implemented function.
	pw_boot_PostMain(); // User-implemented function.
	PW_UNREACHABLE;
	}

	Setup
	=====

	User-Implemented Functions
	--------------------------
	This module expects all of these extern "C" functions to be defined outside this
	module:

	- ``int main()``: This is where applications reside.
	- ``void pw_boot_PreStaticMemoryInit()``: This function executes just before
	static memory has been zeroed and static data is intialized. This function
	should set up any early initialization that should be done before static
	memory is initialized, such as:

	- Enabling the FPU or other coprocessors.
	- Opting into extra restrictions such as disabling unaligned access to ensure
	the restrictions are active during static RAM initialization.
	- Initial CPU clock, flash, and memory configurations including potentially
	enabling extra memory regions with .bss and .data sections, such as SDRAM
	or backup powered SRAM.
	- Fault handler initialization if required before static memory
	initialization.

	.. warning::
	Code running in this hook is violating the C spec as static values are not
	yet initialized, meaning they have not been loaded (.data) nor
	zero-initialized (.bss).

	- ``void pw_boot_PreStaticConstructorInit()``: This function executes just
	before C++ static constructors are called. At this point, other static memory
	has been zero or data initialized. This function should set up any early
	initialization that should be done before C++ static constructors are run,
	such as:

	- Run time dependencies such as Malloc, and ergo sometimes the RTOS.
	- Persistent memory that survives warm reboots.
	- Enabling the MPU to catch nullptr dereferences during construction.
	- Main stack watermarking.
	- Further fault handling configuration necessary for your platform which
	were not safe before pw_boot_PreStaticRamInit().
	- Boot count and/or boot session UUID management.

	- ``void pw_boot_PreMainInit()``: This function executes just before main, and
	can be used for any device initialization that isn't application specific.
	Depending on your platform, this might be turning on a UART, setting up
	default clocks, etc.

	- ``PW_NO_RETURN void pw_boot_PostMain()``: This function executes after main
	has returned. This could be used for device specific teardown such as an
	infinite loop, soft reset, or QEMU shutdown. In addition, if relevant for
	your application, this would be the place to invoke the global static
	destructors. This function must not return!


	If any of these functions are unimplemented, executables will encounter a link
	error.

	Required Configs
	----------------
	This module has a number of required configuration options that mold the linker
	script to fit to a wide variety of ARMv7-M SoCs. The ``pw_boot_armv7m_config``
	GN variable has a ``defines`` member that can be used to modify these linker
	script options. See the documentation section on configuration for information
	regarding which configuration options are required.

	Vector Table
	------------
	Targets using ``pw_boot_armv7m`` will need to provide an ARMv7-M interrupt
	vector table (ARMv7-M Architecture Reference Manual DDI 0403E.b section B1.5.2
	and B1.5.3). This is done by storing an array into the ``.vector_table``
	section, and properly configuring ``PW_BOOT_VECTOR_TABLE_*`` preprocessor
	defines to cover the address region your SoC expects the vector table to be
	located at (often the beginning of the flash region). If using a bootloader,
	ensure VTOR (Vector Table Offset Register) is configured to point to the vector
	table. Otherwise, refer to the hardware vendor's documentation to determine
	where the vector table should be located such that it resides where VTOR is
	initialized to by default.

	Example vector table:

	.. code-block:: cpp

	typedef void (*InterruptHandler)();

	PW_KEEP_IN_SECTION(".vector_table")
	const InterruptHandler vector_table[] = {
	// The starting location of the stack pointer.
	// This address is NOT an interrupt handler/function pointer, it is simply
	// the address that the main stack pointer should be initialized to. The
	// value is reinterpret casted because it needs to be in the vector table.
	[0] = reinterpret_cast<InterruptHandler>(&pw_boot_stack_high_addr),

	// Reset handler, dictates how to handle reset interrupt. This is the
	// address that the Program Counter (PC) is initialized to at boot.
	[1] = pw_boot_Entry,

	// NMI handler.
	[2] = DefaultFaultHandler,
	// HardFault handler.
	[3] = DefaultFaultHandler,
	...
	};

	Usage
	=====

	Publicly exported symbols
	-------------------------
	The linker script provided by this module exports a number of symbols that
	may be used to retrieve the locations of specific memory regions at runtime.
	These symbols are declared as ``uint8_t`` variables. The variables themselves
	do not contain the addresses, they only reside at the memory location they
	reference. To retrieve the memory locations, simply take the reference of the
	symbol (e.g. ``&pw_boot_vector_table_addr``).

	``pw_boot_heap_[low/high]_addr``: Beginning and end of the memory range of the heap.
	These addresses may be identical, indicating a heap with a size of zero bytes.

	``pw_boot_stack_[low/high]_addr``: Beginning and end of the memory range of the main
	stack. This might not be the only stack in the system.

	``pw_boot_vector_table_addr``: Beginning of the ARMv7-M interrupt vector table.

	Configuration
	=============
	These configuration options can be controlled by appending list items to
	``pw_boot_armv7m_LINK_CONFIG_DEFINES`` as part of a Pigweed target
	configuration.

	``PW_BOOT_HEAP_SIZE`` (required):
	How much memory (in bytes) to reserve for the heap. This can be zero.

	``PW_BOOT_MIN_STACK_SIZE`` (required):
	The minimum size reserved for the main stack. If statically allocated memory
	begins to cut into the minimum, a link error will be emitted.

	``PW_BOOT_FLASH_BEGIN`` (required):
	The start address of the MCU's flash region. This region must NOT include the
	vector table. (i.e. if the VECTOR_TABLE is in flash, the flash region
	should begin after the vtable)

	``PW_BOOT_FLASH_SIZE`` (required):
	Size of the flash region in bytes.

	``PW_BOOT_RAM_BEGIN`` (required):
	The start address of the MCU's RAM region.

	``PW_BOOT_RAM_SIZE`` (required):
	Size of the RAM region in bytes.

	``PW_BOOT_VECTOR_TABLE_BEGIN`` (required):
	Address the target MCU expects the link-time vector table to be located at. This
	is typically the beginning of the flash region. While the vector table may be
	changed later in the boot process, a minimal vector table MUST be present for
	the MCU to operate as expected.

	``PW_BOOT_VECTOR_TABLE_SIZE`` (required):
	Number of bytes to reserve for the ARMv7-M vector table.

	Dependencies
	============
	* ``pw_preprocessor`` module