docs/romlib-design.rst - filogic/atf - Gitiles

 Library at ROM
 ==============

 .. section-numbering::
     :suffix: .

 .. contents::

 This document provides an overview of the "library at ROM" implementation in
 Trusted Firmware-A (TF-A).

 Introduction
 ~~~~~~~~~~~~

 The "library at ROM" feature allows platforms to build a library of functions to
 be placed in ROM. This reduces SRAM usage by utilising the available space in
 ROM. The "library at ROM" contains a jump table with the list of functions that
 are placed in ROM. The capabilities of the "library at ROM" are:

 1. Functions can be from one or several libraries.

 2. Functions can be patched after they have been programmed into ROM.

 3. Platform-specific libraries can be placed in ROM.

 4. Functions can be accessed by one or more BL images.

 Index file
 ~~~~~~~~~~

 .. image:: diagrams/romlib_design.png
     :width: 600

 Library at ROM is described by an index file with the list of functions to be
 placed in ROM. The index file is platform specific and its format is:

 ::

     lib function    [patch]

     lib      -- Name of the library the function belongs to
     function -- Name of the function to be placed in library at ROM
     [patch]  -- Option to patch the function

 It is also possible to insert reserved spaces in the list by using the keyword
 "reserved" rather than the "lib" and "function" names as shown below:

 ::

     reserved    reserved

 The reserved spaces can be used to add more functions in the future without
 affecting the order and location of functions already existing in the jump
 table. Also, for additional flexibility and modularity, the index file can
 include other index files.

 For an index file example, refer to ``lib/romlib/jmptbl.i``.

 Wrapper functions
 ~~~~~~~~~~~~~~~~~

 .. image:: diagrams/romlib_wrapper.png
     :width: 600

 When invoking a function of the "library at ROM", the calling sequence is as
 follows:

 BL image --> wrapper function --> jump table entry --> library at ROM

 The index file is used to create a jump table which is placed in ROM. Then, the
 wrappers refer to the jump table to call the "library at ROM" functions. The
 wrappers essentially contain a branch instruction to the jump table entry
 corresponding to the original function. Finally, the original function in the BL
 image(s) is replaced with the wrapper function.

 The "library at ROM" contains a necessary init function that initialises the
 global variables defined by the functions inside "library at ROM".

 Scripts
 ~~~~~~~

 There are several scripts that generate the necessary files for the "library at
 ROM" to work:

 1. ``gentbl.sh`` - Generates the jump table by parsing the index file.

 2. ``genvar.sh`` - Generates the jump table global variable (**not** the jump
 table itself) with the absolute address in ROM. This global variable is,
 basically, a pointer to the jump table.

 3. ``genwrappers.sh`` - Generates a wrapper function for each entry in the index
 file except for the ones that contain the keyword ``patch``. The generated
 wrapper file is called ``<lib>_<fn_name>.S``.

 Patching of functions in library at ROM
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 The ``genwrappers.sh`` script does not generate wrappers for the entries in the
 index file that contain the keyword ``patch``. Thus, it allows calling the
 function from the actual library by breaking the link to the  "library at ROM"
 version of this function.

 The calling sequence for a patched function is as follows:

 BL image --> function

 Build library at ROM
 ~~~~~~~~~~~~~~~~~~~~~

 The environment variable ``CROSS_COMPILE`` must be set as per the user guide.

 ::

     make PLAT=fvp                                                   \
     MBEDTLS_DIR=</path/to/mbedtls/>                                 \
     TRUSTED_BOARD_BOOT=1 GENERATE_COT=1                             \
     ARM_ROTPK_LOCATION=devel_rsa                                    \
     ROT_KEY=plat/arm/board/common/rotpk/arm_rotprivk_rsa.pem        \
     BL33=</path/to/bl33.bin>                                        \
     USE_ROMLIB=1                                                    \
     all fip

 --------------

 *Copyright (c) 2019, Arm Limited. All rights reserved.*
	Library at ROM
	==============

	.. section-numbering::
	:suffix: .

	.. contents::

	This document provides an overview of the "library at ROM" implementation in
	Trusted Firmware-A (TF-A).

	Introduction
	~~~~~~~~~~~~

	The "library at ROM" feature allows platforms to build a library of functions to
	be placed in ROM. This reduces SRAM usage by utilising the available space in
	ROM. The "library at ROM" contains a jump table with the list of functions that
	are placed in ROM. The capabilities of the "library at ROM" are:

	1. Functions can be from one or several libraries.

	2. Functions can be patched after they have been programmed into ROM.

	3. Platform-specific libraries can be placed in ROM.

	4. Functions can be accessed by one or more BL images.

	Index file
	~~~~~~~~~~

	.. image:: diagrams/romlib_design.png
	:width: 600

	Library at ROM is described by an index file with the list of functions to be
	placed in ROM. The index file is platform specific and its format is:

	::

	lib function [patch]

	lib -- Name of the library the function belongs to
	function -- Name of the function to be placed in library at ROM
	[patch] -- Option to patch the function

	It is also possible to insert reserved spaces in the list by using the keyword
	"reserved" rather than the "lib" and "function" names as shown below:

	::

	reserved reserved

	The reserved spaces can be used to add more functions in the future without
	affecting the order and location of functions already existing in the jump
	table. Also, for additional flexibility and modularity, the index file can
	include other index files.

	For an index file example, refer to ``lib/romlib/jmptbl.i``.

	Wrapper functions
	~~~~~~~~~~~~~~~~~

	.. image:: diagrams/romlib_wrapper.png
	:width: 600

	When invoking a function of the "library at ROM", the calling sequence is as
	follows:

	BL image --> wrapper function --> jump table entry --> library at ROM

	The index file is used to create a jump table which is placed in ROM. Then, the
	wrappers refer to the jump table to call the "library at ROM" functions. The
	wrappers essentially contain a branch instruction to the jump table entry
	corresponding to the original function. Finally, the original function in the BL
	image(s) is replaced with the wrapper function.

	The "library at ROM" contains a necessary init function that initialises the
	global variables defined by the functions inside "library at ROM".

	Scripts
	~~~~~~~

	There are several scripts that generate the necessary files for the "library at
	ROM" to work:

	1. ``gentbl.sh`` - Generates the jump table by parsing the index file.

	2. ``genvar.sh`` - Generates the jump table global variable (not the jump
	table itself) with the absolute address in ROM. This global variable is,
	basically, a pointer to the jump table.

	3. ``genwrappers.sh`` - Generates a wrapper function for each entry in the index
	file except for the ones that contain the keyword ``patch``. The generated
	wrapper file is called ``<lib>_<fn_name>.S``.

	Patching of functions in library at ROM
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	The ``genwrappers.sh`` script does not generate wrappers for the entries in the
	index file that contain the keyword ``patch``. Thus, it allows calling the
	function from the actual library by breaking the link to the "library at ROM"
	version of this function.

	The calling sequence for a patched function is as follows:

	BL image --> function

	Build library at ROM
	~~~~~~~~~~~~~~~~~~~~~

	The environment variable ``CROSS_COMPILE`` must be set as per the user guide.

	::

	make PLAT=fvp \
	MBEDTLS_DIR=</path/to/mbedtls/> \
	TRUSTED_BOARD_BOOT=1 GENERATE_COT=1 \
	ARM_ROTPK_LOCATION=devel_rsa \
	ROT_KEY=plat/arm/board/common/rotpk/arm_rotprivk_rsa.pem \
	BL33=</path/to/bl33.bin> \
	USE_ROMLIB=1 \
	all fip

	--------------

	Copyright (c) 2019, Arm Limited. All rights reserved.