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Mirror of DTC
ec7986e682
Reference via label allows extending nodes with compile-time checking of
whether the node being extended exists. This is useful to catch
renamed/removed nodes after an update of the device trees to be extended.
In absence of labels in the original device trees, new style path
references can be used:
/* upstream device tree */
/ {
leds: some-non-standard-led-controller-name {
led-0 {
default-state = "off";
};
};
};
/* downstream device tree */
&{/some-non-standard-led-controller-name/led-0} {
default-state = "on";
};
This is a common theme within the barebox bootloader[0], which extends the
upstream (Linux) device trees in that manner. The downside is that,
especially for deep nodes, these references can get quite long and tend to
break often due to upstream rework (e.g. rename to adhere to bindings).
Often there is a label a level or two higher that could be used. This
patch allows combining both a label and a new style path reference to
get a compile-time-checked reference, which allows rewriting the
previous downstream device tree snippet to:
&{leds/led-0} {
default-state = "on";
};
This won't be broken when /some-non-standard-led-controller-name is
renamed or moved while keeping the label. And if led-0 is renamed, we
will get the expected compile-time error.
Overlay support is skipped for now as they require special support: The
label and relative path parts need to be resolved at overlay apply-time,
not at compile-time.
[0]: https://www.barebox.org/doc/latest/devicetree/index.html
Signed-off-by: Ahmad Fatoum <a.fatoum@pengutronix.de>
|
||
|---|---|---|
| Documentation | ||
| libfdt | ||
| pylibfdt | ||
| scripts | ||
| tests | ||
| .cirrus.yml | ||
| .editorconfig | ||
| .gitignore | ||
| .travis.yml | ||
| BSD-2-Clause | ||
| checks.c | ||
| convert-dtsv0-lexer.l | ||
| data.c | ||
| dtc-lexer.l | ||
| dtc-parser.y | ||
| dtc.c | ||
| dtc.h | ||
| dtdiff | ||
| fdtdump.c | ||
| fdtget.c | ||
| fdtoverlay.c | ||
| fdtput.c | ||
| flattree.c | ||
| fstree.c | ||
| GPL | ||
| livetree.c | ||
| Makefile | ||
| Makefile.convert-dtsv0 | ||
| Makefile.dtc | ||
| Makefile.utils | ||
| MANIFEST.in | ||
| meson.build | ||
| meson_options.txt | ||
| README | ||
| README.license | ||
| setup.py | ||
| srcpos.c | ||
| srcpos.h | ||
| TODO | ||
| treesource.c | ||
| util.c | ||
| util.h | ||
| version_gen.h.in | ||
| yamltree.c | ||
The source tree contains the Device Tree Compiler (dtc) toolchain for
working with device tree source and binary files and also libfdt, a
utility library for reading and manipulating the binary format.
DTC and LIBFDT are maintained by:
David Gibson <david@gibson.dropbear.id.au>
Jon Loeliger <loeliger@gmail.com>
Python library
--------------
A Python library is also available. To build this you will need to install
swig and Python development files. On Debian distributions:
sudo apt-get install swig python3-dev
The library provides an Fdt class which you can use like this:
$ PYTHONPATH=../pylibfdt python3
>>> import libfdt
>>> fdt = libfdt.Fdt(open('test_tree1.dtb', mode='rb').read())
>>> node = fdt.path_offset('/subnode@1')
>>> print(node)
124
>>> prop_offset = fdt.first_property_offset(node)
>>> prop = fdt.get_property_by_offset(prop_offset)
>>> print('%s=%s' % (prop.name, prop.as_str()))
compatible=subnode1
>>> node2 = fdt.path_offset('/')
>>> print(fdt.getprop(node2, 'compatible').as_str())
test_tree1
You will find tests in tests/pylibfdt_tests.py showing how to use each
method. Help is available using the Python help command, e.g.:
$ cd pylibfdt
$ python3 -c "import libfdt; help(libfdt)"
If you add new features, please check code coverage:
$ sudo apt-get install python3-coverage
$ cd tests
# It's just 'coverage' on most other distributions
$ python3-coverage run pylibfdt_tests.py
$ python3-coverage html
# Open 'htmlcov/index.html' in your browser
The library can be installed with pip from a local source tree:
pip install . [--user|--prefix=/path/to/install_dir]
Or directly from a remote git repo:
pip install git+git://git.kernel.org/pub/scm/utils/dtc/dtc.git@main
The install depends on libfdt shared library being installed on the host system
first. Generally, using --user or --prefix is not necessary and pip will use the
default location for the Python installation which varies if the user is root or
not.
You can also install everything via make if you like, but pip is recommended.
To install both libfdt and pylibfdt you can use:
make install [PREFIX=/path/to/install_dir]
To disable building the python library, even if swig and Python are available,
use:
make NO_PYTHON=1
More work remains to support all of libfdt, including access to numeric
values.
Adding a new function to libfdt.h
---------------------------------
The shared library uses libfdt/version.lds to list the exported functions, so
add your new function there. Check that your function works with pylibfdt. If
it cannot be supported, put the declaration in libfdt.h behind #ifndef SWIG so
that swig ignores it.
Tests
-----
Test files are kept in the tests/ directory. Use 'make check' to build and run
all tests.
If you want to adjust a test file, be aware that tree_tree1.dts is compiled
and checked against a binary tree from assembler macros in trees.S. So
if you change that file you must change tree.S also.
Mailing list
------------
The following list is for discussion about dtc and libfdt implementation
mailto:devicetree-compiler@vger.kernel.org
Core device tree bindings are discussed on the devicetree-spec list:
mailto:devicetree-spec@vger.kernel.org