170 lines
5.7 KiB
Python
Executable File
170 lines
5.7 KiB
Python
Executable File
#!/usr/bin/env python3
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# Copyright (c) 2021 Nordic Semiconductor ASA
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# SPDX-License-Identifier: Apache-2.0
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'''
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This script uses edtlib and the devicetree data in the build directory
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to generate a CMake file which contains devicetree data.
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That data can then be used in the rest of the build system.
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The generated CMake file looks like this:
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add_custom_target(devicetree_target)
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set_target_properties(devicetree_target PROPERTIES
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"DT_PROP|/soc|compatible" "vnd,soc;")
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...
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It defines a special CMake target, and saves various values in the
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devicetree as CMake target properties.
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Be careful:
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"Property" here can refer to a CMake target property or a
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DTS property. DTS property values are stored inside
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CMake target properties, along with other devicetree data.
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The build system includes this generated file early on, so
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devicetree values can be used at CMake processing time.
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Access is not done directly, but with Zephyr CMake extension APIs,
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like this:
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# sets 'compat' to "vnd,soc" in CMake
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dt_prop(compat PATH "/soc" PROPERTY compatible INDEX 0)
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This is analogous to how DTS values are encoded as C macros,
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which can be read in source code using C APIs like
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DT_PROP(node_id, foo) from devicetree.h.
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'''
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import argparse
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import os
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import pickle
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import sys
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from collections import defaultdict
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sys.path.insert(0, os.path.join(os.path.dirname(__file__), 'python-devicetree',
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'src'))
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def parse_args():
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# Returns parsed command-line arguments
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parser = argparse.ArgumentParser()
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parser.add_argument("--cmake-out", required=True,
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help="path to write the CMake property file")
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parser.add_argument("--edt-pickle", required=True,
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help="path to read the pickled edtlib.EDT object from")
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return parser.parse_args()
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def main():
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args = parse_args()
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with open(args.edt_pickle, 'rb') as f:
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edt = pickle.load(f)
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# In what looks like an undocumented implementation detail, CMake
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# target properties are stored in a C++ standard library map whose
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# keys and values are each arbitrary strings, so we can use
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# whatever we want as target property names.
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#
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# We therefore use '|' as a field separator character below within
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# because it's not a valid character in DTS node paths or property
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# names. This lets us store the "real" paths and property names
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# without conversion to lowercase-and-underscores like we have to
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# do in C.
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#
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# If CMake adds restrictions on target property names later, we
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# can just tweak the generated file to use a more restrictive
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# property encoding, perhaps reusing the same style documented in
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# macros.bnf for C macros.
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cmake_props = []
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chosen_nodes = edt.chosen_nodes
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for node in chosen_nodes:
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path = chosen_nodes[node].path
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cmake_props.append(f'"DT_CHOSEN|{node}" "{path}"')
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# The separate loop over edt.nodes here is meant to keep
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# all of the alias-related properties in one place.
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for node in edt.nodes:
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path = node.path
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for alias in node.aliases:
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cmake_props.append(f'"DT_ALIAS|{alias}" "{path}"')
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compatible2paths = defaultdict(list)
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for node in edt.nodes:
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cmake_props.append(f'"DT_NODE|{node.path}" TRUE')
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for label in node.labels:
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cmake_props.append(f'"DT_NODELABEL|{label}" "{node.path}"')
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for item in node.props:
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# We currently do not support phandles for edt -> cmake conversion.
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if "phandle" not in node.props[item].type:
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if "array" in node.props[item].type:
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# Convert array to CMake list
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cmake_value = ''
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for val in node.props[item].val:
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cmake_value = f'{cmake_value}{val};'
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else:
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cmake_value = node.props[item].val
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# Encode node's property 'item' as a CMake target property
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# with a name like 'DT_PROP|<path>|<property>'.
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cmake_prop = f'DT_PROP|{node.path}|{item}'
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cmake_props.append(f'"{cmake_prop}" "{cmake_value}"')
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if item == 'compatible':
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# compatibles is always an array
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for comp in node.props[item].val:
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compatible2paths[comp].append(node.path)
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if node.regs is not None:
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cmake_props.append(f'"DT_REG|{node.path}|NUM" "{len(node.regs)}"')
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cmake_addr = ''
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cmake_size = ''
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for reg in node.regs:
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if reg.addr is None:
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cmake_addr = f'{cmake_addr}NONE;'
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else:
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cmake_addr = f'{cmake_addr}{hex(reg.addr)};'
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if reg.size is None:
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cmake_size = f'{cmake_size}NONE;'
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else:
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cmake_size = f'{cmake_size}{hex(reg.size)};'
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cmake_props.append(f'"DT_REG|{node.path}|ADDR" "{cmake_addr}"')
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cmake_props.append(f'"DT_REG|{node.path}|SIZE" "{cmake_size}"')
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for comp in compatible2paths.keys():
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cmake_path = ''
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for path in compatible2paths[comp]:
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cmake_path = f'{cmake_path}{path};'
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# Remove the last ';'
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cmake_path = cmake_path[:-1]
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cmake_comp = f'DT_COMP|{comp}'
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cmake_props.append(f'"{cmake_comp}" "{cmake_path}"')
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with open(args.cmake_out, "w", encoding="utf-8") as cmake_file:
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print('add_custom_target(devicetree_target)', file=cmake_file)
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print(file=cmake_file)
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for prop in cmake_props:
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print(
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f'set_target_properties(devicetree_target PROPERTIES {prop})',
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file=cmake_file
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)
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if __name__ == "__main__":
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main()
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