u-boot/doc/device-tree-bindings/bootph.yaml
Simon Glass 7703efbc99 schemas: Add schema for U-Boot driver model 'phase tags'
U-Boot has some particular challenges with device tree and devices:

- U-Boot has multiple build phases, such as a Secondary Program Loader
  (SPL) phase which typically runs in a pre-SDRAM environment where code
  and data space are limited. In particular, there may not be enough
  space for the full device tree blob. U-Boot uses various automated
  techniques to reduce the size from perhaps 40KB to 3KB. It is not
  always possible to handle these tags entirely at build time, since
  U-Boot proper must have the full device tree, even though we do not
  want it to process all nodes until after relocation.
- Some U-Boot phases needs to run before the clocks are properly set up,
  where the CPU may be running very slowly. Therefore it is important to
  bind only those devices which are actually needed in that phase
- U-Boot uses lazy initialisation for its devices, with 'bind' and
  'probe' being separate steps. Even if a device is bound, it is not
  actually probed until it is used. This is necessary to keep the boot
  time reasonable, e.g. to under a second

The phases of U-Boot in order are: TPL, VPL, SPL, U-Boot (first
pre-relocation, then post-relocation). ALl but the last two are optional.

For the above reasons, U-Boot only includes the full device tree in the
final 'U-Boot proper' build. Even then, before relocation U-Boot only
processes nodes which are marked as being needed.

For this to work, U-Boot's driver model[1] provides a way to mark device
tree nodes as applicable for a particular phase. This works by adding a
tag to the node, e.g.:

   cru: clock-controller@ff760000 {
      bootph-all;
      compatible = "rockchip,rk3399-cru";
      reg = <0x0 0xff760000 0x0 0x1000>;
      rockchip,grf = <&grf>;
      #clock-cells = <1>;
      #reset-cells = <1>;
      ...
   };

Here the "bootph-all" tag indicates that the node must be present in all
phases, since the clock driver is required.

There has been discussion over the years about whether this could be done
in a property instead, e.g.

   options {
      bootph-all = <&cru> <&gpio_a> ...;
      ...
   };

Some problems with this:

- we need to be able to merge several such tags from different .dtsi files
  since many boards have their own specific requirements
- it is hard to find and cross-reference the affected nodes
- it is more error-prone
- it requires significant tool rework in U-Boot, including fdtgrep and
  the build system
- is harder (slower, more code) to process since it involves scanning
  another node/property to find out what to do with a particular node
- we don't want to add phandle arguments to the above since we are
  referring, e.g., to the clock device as a whole, not a paricular clock
- the of-platdata feature[2], which converts device tree to C for even
  more constrained environments, would need to become aware of the
  /options node

There is also the question about whether this needs to be U-Boot-specific,
or whether the tags could be generic. From what I can tell, U-Boot is the
only bootloader which seriously attempts to use a runtime device tree in
all cases. For this version, an attempt is made to name the phases in a
generic manner.

It should also be noted that the approach provided here has stood the test
of time, used in U-Boot for 8 years so far.

So add the schema for this. This will allow a major class of schema
exceptions to be dropped from the U-Boot source tree.

This has been applied upstream[3]

[1] https://u-boot.readthedocs.io/en/latest/develop/driver-model/index.html
[2] https://u-boot.readthedocs.io/en/latest/develop/driver-model/of-plat.html
[3] https://github.com/devicetree-org/dt-schema/commit/63bd847

Signed-off-by: Simon Glass <sjg@chromium.org>
2023-02-14 09:42:14 -07:00

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3.1 KiB
YAML

# SPDX-License-Identifier: BSD-2-Clause
# Copyright 2022 Google LLC
%YAML 1.2
---
$id: http://devicetree.org/schemas/bootph.yaml#
$schema: http://devicetree.org/meta-schemas/core.yaml#
title: Boot-phase-specific device nodes
maintainers:
- Simon Glass <sjg@chromium.org>
description: |
Some programs run in memory-constrained environments yet want to make use
of device tree.
The full device tree is often quite large relative to the available memory
of a boot phase, so cannot fit into every phase of the boot process. Even
when memory is not a problem, some phases may wish to limit which device
nodes are present, so as to reduce execution time.
This binding supports adding tags to device tree nodes to allow them to be
marked according to the phases where they should be included.
Without any tags, nodes are included only in the final phase, where all
memory is available. Any untagged nodes are dropped from previous phases
and are ignored before the final phase is reached.
The build process produces a separate executable for each phase. It can
use fdtgrep to drop any nodes which are not needed for a particular build.
For example, the pre-sram build will drop any nodes which are not marked
with bootph-pre-sram or bootph-all tags.
Note that phase builds may drop the tags, since they have served their
purpose by that point. So when looking at phase-specific device tree files
you may not see these tags.
Multiple tags can be used in the same node.
Tags in a child node are implied to be present in all parent nodes as well.
This is important, since some missing properties (such as "ranges", or
"compatible") can cause the child node to be ignored or incorrectly
parsed.
That said, at present, fdtgrep applies tags only to the node they are
added to, not to any parents. This means U-Boot device tree files often
add the same tag to parent nodes, rather than relying on tooling to do
this. This is a limitation of fdtgrep and it will be addressed so that
'Linux DTs' do not need to do this.
The available tags are described as properties below, in order of phase
execution.
select: true
properties:
bootph-pre-sram:
type: boolean
description:
Enable this node when SRAM is not available. This phase must set up
some SRAM or cache-as-RAM so it can obtain data/BSS space to use
during execution.
bootph-verify:
type: boolean
description:
Enable this node in the verification step, which decides which of the
available images should be run next.
bootph-pre-ram:
type: boolean
description:
Enable this node in the phase that sets up SDRAM.
bootph-some-ram:
type: boolean
description:
Enable this node in the phase that is run after SDRAM is working but
before all of it is available. Some RAM is available but it is limited
(e.g. it may be split into two pieces by the location of the running
program) because the program code is not yet relocated out of the way.
bootph-all:
type: boolean
description:
Include this node in all phases (for U-Boot see enum u_boot_phase).
additionalProperties: true