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These docs are useful for developers, not users. Move them under that section. Suggested-by: Heinrich Schuchardt <xypron.glpk@gmx.de> Signed-off-by: Simon Glass <sjg@chromium.org>
132 lines
5.8 KiB
ReStructuredText
132 lines
5.8 KiB
ReStructuredText
.. SPDX-License-Identifier: GPL-2.0+
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.. 2017-01-06, Mario Six <mario.six@gdsys.cc>
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Pre-relocation device tree manipulation
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=======================================
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Purpose
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-------
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In certain markets, it is beneficial for manufacturers of embedded devices to
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offer certain ranges of products, where the functionality of the devices within
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one series either don't differ greatly from another, or can be thought of as
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"extensions" of each other, where one device only differs from another in the
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addition of a small number of features (e.g. an additional output connector).
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To realize this in hardware, one method is to have a motherboard, and several
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possible daughter boards that can be attached to this mother board. Different
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daughter boards then either offer the slightly different functionality, or the
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addition of the daughter board to the device realizes the "extension" of
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functionality to the device described previously.
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For the software, we obviously want to reuse components for all these
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variations of the device. This means that the software somehow needs to cope
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with the situation that certain ICs may or may not be present on any given
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system, depending on which daughter boards are connected to the motherboard.
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In the Linux kernel, one possible solution to this problem is to employ the
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device tree overlay mechanism: There exists one "base" device tree, which
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features only the components guaranteed to exist in all varieties of the
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device. At the start of the kernel, the presence and type of the daughter
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boards is then detected, and the corresponding device tree overlays are applied
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to support the components on the daughter boards.
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Note that the components present on every variety of the board must, of course,
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provide a way to find out if and which daughter boards are installed for this
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mechanism to work.
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In the U-Boot boot loader, support for device tree overlays has recently been
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integrated, and is used on some boards to alter the device tree that is later
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passed to Linux. But since U-Boot's driver model, which is device tree-based as
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well, is being used in more and more drivers, the same problem of altering the
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device tree starts cropping up in U-Boot itself as well.
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An additional problem with the device tree in U-Boot is that it is read-only,
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and the current mechanisms don't allow easy manipulation of the device tree
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after the driver model has been initialized. While migrating to a live device
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tree (at least after the relocation) would greatly simplify the solution of
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this problem, it is a non-negligible task to implement it, an a interim
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solution is needed to address the problem at least in the medium-term.
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Hence, we propose a solution to this problem by offering a board-specific
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call-back function, which is passed a writeable pointer to the device tree.
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This function is called before the device tree is relocated, and specifically
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before the main U-Boot's driver model is instantiated, hence the main U-Boot
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"sees" all modifications to the device tree made in this function. Furthermore,
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we have the pre-relocation driver model at our disposal at this stage, which
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means that we can query the hardware for the existence and variety of the
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components easily.
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Implementation
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--------------
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To take advantage of the pre-relocation device tree manipulation mechanism,
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boards have to implement the function board_fix_fdt, which has the following
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signature:
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.. code-block:: c
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int board_fix_fdt (void *rw_fdt_blob)
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The passed-in void pointer is a writeable pointer to the device tree, which can
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be used to manipulate the device tree using e.g. functions from
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include/fdt_support.h. The return value should either be 0 in case of
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successful execution of the device tree manipulation or something else for a
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failure. Note that returning a non-null value from the function will
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unrecoverably halt the boot process, as with any function from init_sequence_f
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(in common/board_f.c).
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Furthermore, the Kconfig option OF_BOARD_FIXUP has to be set for the function
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to be called::
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Device Tree Control
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-> [*] Board-specific manipulation of Device Tree
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+----------------------------------------------------------+
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| WARNING: The actual manipulation of the device tree has |
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| to be the _last_ set of operations in board_fix_fdt! |
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| Since the pre-relocation driver model does not adapt to |
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| changes made to the device tree either, its references |
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| into the device tree will be invalid after manipulating |
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| it, and unpredictable behavior might occur when |
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| functions that rely on them are executed! |
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+----------------------------------------------------------+
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Hence, the recommended layout of the board_fixup_fdt call-back function is the
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following:
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.. code-block:: c
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int board_fix_fdt(void *rw_fdt_blob)
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{
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/*
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* Collect information about device's hardware and store
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* them in e.g. local variables
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*/
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/* Do device tree manipulation using the values previously collected */
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/* Return 0 on successful manipulation and non-zero otherwise */
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}
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If this convention is kept, both an "additive" approach, meaning that nodes for
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detected components are added to the device tree, as well as a "subtractive"
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approach, meaning that nodes for absent components are removed from the tree,
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as well as a combination of both approaches should work.
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Example
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-------
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The controlcenterdc board (board/gdsys/a38x/controlcenterdc.c) features a
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board_fix_fdt function, in which six GPIO expanders (which might be present or
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not, since they are on daughter boards) on a I2C bus are queried for, and
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subsequently deactivated in the device tree if they are not present.
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Note that the dm_i2c_simple_probe function does not use the device tree, hence
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it is safe to call it after the tree has already been manipulated.
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Work to be done
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---------------
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* The application of device tree overlay should be possible in board_fixup_fdt,
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but has not been tested at this stage.
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