scripts/build/gen_handles.py - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright (c) 2017 Intel Corporation
 # Copyright (c) 2020 Nordic Semiconductor NA
 #
 # SPDX-License-Identifier: Apache-2.0
 """Translate generic handles into ones optimized for the application.

 Immutable device data includes information about dependencies,
 e.g. that a particular sensor is controlled through a specific I2C bus
 and that it signals event on a pin on a specific GPIO controller.
 This information is encoded in the first-pass binary using identifiers
 derived from the devicetree.  This script extracts those identifiers
 and replaces them with ones optimized for use with the devices
 actually present.

 For example the sensor might have a first-pass handle defined by its
 devicetree ordinal 52, with the I2C driver having ordinal 24 and the
 GPIO controller ordinal 14.  The runtime ordinal is the index of the
 corresponding device in the static devicetree array, which might be 6,
 5, and 3, respectively.

 The output is a C source file that provides alternative definitions
 for the array contents referenced from the immutable device objects.
 In the final link these definitions supersede the ones in the
 driver-specific object file.
 """

 import sys
 import argparse
 import os
 import pickle

 from elf_parser import ZephyrElf

 # This is needed to load edt.pickle files.
 sys.path.insert(0, os.path.join(os.path.dirname(__file__), '..',
                                 'dts', 'python-devicetree', 'src'))
 from devicetree import edtlib  # pylint: disable=unused-import

 def parse_args():
     global args

     parser = argparse.ArgumentParser(
         description=__doc__,
         formatter_class=argparse.RawDescriptionHelpFormatter)

     parser.add_argument("-k", "--kernel", required=True,
                         help="Input zephyr ELF binary")
     parser.add_argument("-d", "--num-dynamic-devices", required=False, default=0,
                         type=int, help="Input number of dynamic devices allowed")
     parser.add_argument("-o", "--output-source", required=True,
                         help="Output source file")
     parser.add_argument("-g", "--output-graphviz",
                         help="Output file for graphviz dependency graph")
     parser.add_argument("-z", "--zephyr-base",
                         help="Path to current Zephyr base. If this argument \
                         is not provided the environment will be checked for \
                         the ZEPHYR_BASE environment variable.")
     parser.add_argument("-s", "--start-symbol", required=True,
                         help="Symbol name of the section which contains the \
                         devices. The symbol name must point to the first \
                         device in that section.")

     args = parser.parse_args()

     ZEPHYR_BASE = args.zephyr_base or os.getenv("ZEPHYR_BASE")

     if ZEPHYR_BASE is None:
         sys.exit("-z / --zephyr-base not provided. Please provide "
                  "--zephyr-base or set ZEPHYR_BASE in environment")

     sys.path.insert(0, os.path.join(ZEPHYR_BASE, "scripts/dts"))

 def c_handle_comment(dev, handles):
     def dev_path_str(dev):
         return dev.edt_node and dev.edt_node.path or dev.sym.name
     lines = [
         '',
         '/* {:d} : {:s}:'.format(dev.handle, (dev_path_str(dev))),
     ]
     if len(handles["depends"]) > 0:
         lines.append(' * Direct Dependencies:')
         for dep in handles["depends"]:
             lines.append(' *    - {:s}'.format(dev_path_str(dep)))
     if len(handles["injected"]) > 0:
         lines.append(' * Injected Dependencies:')
         for dep in handles["injected"]:
             lines.append(' *    - {:s}'.format(dev_path_str(dep)))
     if len(handles["supports"]) > 0:
         lines.append(' * Supported:')
         for sup in handles["supports"]:
             lines.append(' *    - {:s}'.format(dev_path_str(sup)))
     lines.append(' */')
     return lines

 def c_handle_array(dev, handles, extra_support_handles=0):
     handles = [
         *[str(d.handle) for d in handles["depends"]],
         'DEVICE_HANDLE_SEP',
         *[str(d.handle) for d in handles["injected"]],
         'DEVICE_HANDLE_SEP',
         *[str(d.handle) for d in handles["supports"]],
         *(extra_support_handles * ['DEVICE_HANDLE_NULL']),
         'DEVICE_HANDLE_ENDS',
     ]
     return [
         'const device_handle_t __aligned(2) __attribute__((__section__(".__device_handles_pass2")))',
         '{:s}[] = {{ {:s} }};'.format(dev.ordinals.sym.name, ', '.join(handles)),
     ]

 def main():
     parse_args()

     edtser = os.path.join(os.path.split(args.kernel)[0], "edt.pickle")
     with open(edtser, 'rb') as f:
         edt = pickle.load(f)

     parsed_elf = ZephyrElf(args.kernel, edt, args.start_symbol)

     if args.output_graphviz:
         # Try and output the dependency tree
         try:
             dot = parsed_elf.device_dependency_graph('Device dependency graph', args.kernel)
             with open(args.output_graphviz, 'w') as f:
                 f.write(dot.source)
         except ImportError:
             pass

     with open(args.output_source, "w") as fp:
         fp.write('#include <zephyr/device.h>\n')
         fp.write('#include <zephyr/toolchain.h>\n')
         for dev in parsed_elf.devices:
             # The device handle are collected up in a set, which has no
             # specified order.  Sort each sub-category of device handle types
             # separately, so that the generated C array is reproducible across
             # builds.
             sorted_handles = {
                 "depends": sorted(dev.devs_depends_on, key=lambda d: d.handle),
                 "injected": sorted(dev.devs_depends_on_injected, key=lambda d: d.handle),
                 "supports": sorted(dev.devs_supports, key=lambda d: d.handle),
             }
             extra_sups = args.num_dynamic_devices if dev.pm and dev.pm.is_power_domain else 0
             lines = c_handle_comment(dev, sorted_handles)
             lines.extend(c_handle_array(dev, sorted_handles, extra_sups))
             lines.extend([''])
             fp.write('\n'.join(lines))

 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3
	#
	# Copyright (c) 2017 Intel Corporation
	# Copyright (c) 2020 Nordic Semiconductor NA
	#
	# SPDX-License-Identifier: Apache-2.0
	"""Translate generic handles into ones optimized for the application.

	Immutable device data includes information about dependencies,
	e.g. that a particular sensor is controlled through a specific I2C bus
	and that it signals event on a pin on a specific GPIO controller.
	This information is encoded in the first-pass binary using identifiers
	derived from the devicetree. This script extracts those identifiers
	and replaces them with ones optimized for use with the devices
	actually present.

	For example the sensor might have a first-pass handle defined by its
	devicetree ordinal 52, with the I2C driver having ordinal 24 and the
	GPIO controller ordinal 14. The runtime ordinal is the index of the
	corresponding device in the static devicetree array, which might be 6,
	5, and 3, respectively.

	The output is a C source file that provides alternative definitions
	for the array contents referenced from the immutable device objects.
	In the final link these definitions supersede the ones in the
	driver-specific object file.
	"""

	import sys
	import argparse
	import os
	import pickle

	from elf_parser import ZephyrElf

	# This is needed to load edt.pickle files.
	sys.path.insert(0, os.path.join(os.path.dirname(__file__), '..',
	'dts', 'python-devicetree', 'src'))
	from devicetree import edtlib # pylint: disable=unused-import

	def parse_args():
	global args

	parser = argparse.ArgumentParser(
	description=__doc__,
	formatter_class=argparse.RawDescriptionHelpFormatter)

	parser.add_argument("-k", "--kernel", required=True,
	help="Input zephyr ELF binary")
	parser.add_argument("-d", "--num-dynamic-devices", required=False, default=0,
	type=int, help="Input number of dynamic devices allowed")
	parser.add_argument("-o", "--output-source", required=True,
	help="Output source file")
	parser.add_argument("-g", "--output-graphviz",
	help="Output file for graphviz dependency graph")
	parser.add_argument("-z", "--zephyr-base",
	help="Path to current Zephyr base. If this argument \
	is not provided the environment will be checked for \
	the ZEPHYR_BASE environment variable.")
	parser.add_argument("-s", "--start-symbol", required=True,
	help="Symbol name of the section which contains the \
	devices. The symbol name must point to the first \
	device in that section.")

	args = parser.parse_args()

	ZEPHYR_BASE = args.zephyr_base or os.getenv("ZEPHYR_BASE")

	if ZEPHYR_BASE is None:
	sys.exit("-z / --zephyr-base not provided. Please provide "
	"--zephyr-base or set ZEPHYR_BASE in environment")

	sys.path.insert(0, os.path.join(ZEPHYR_BASE, "scripts/dts"))

	def c_handle_comment(dev, handles):
	def dev_path_str(dev):
	return dev.edt_node and dev.edt_node.path or dev.sym.name
	lines = [
	'',
	'/* {:d} : {:s}:'.format(dev.handle, (dev_path_str(dev))),
	]
	if len(handles["depends"]) > 0:
	lines.append(' * Direct Dependencies:')
	for dep in handles["depends"]:
	lines.append(' * - {:s}'.format(dev_path_str(dep)))
	if len(handles["injected"]) > 0:
	lines.append(' * Injected Dependencies:')
	for dep in handles["injected"]:
	lines.append(' * - {:s}'.format(dev_path_str(dep)))
	if len(handles["supports"]) > 0:
	lines.append(' * Supported:')
	for sup in handles["supports"]:
	lines.append(' * - {:s}'.format(dev_path_str(sup)))
	lines.append(' */')
	return lines

	def c_handle_array(dev, handles, extra_support_handles=0):
	handles = [
	*[str(d.handle) for d in handles["depends"]],
	'DEVICE_HANDLE_SEP',
	*[str(d.handle) for d in handles["injected"]],
	'DEVICE_HANDLE_SEP',
	*[str(d.handle) for d in handles["supports"]],
	(extra_support_handles ['DEVICE_HANDLE_NULL']),
	'DEVICE_HANDLE_ENDS',
	]
	return [
	'const device_handle_t __aligned(2) __attribute__((__section__(".__device_handles_pass2")))',
	'{:s}[] = {{ {:s} }};'.format(dev.ordinals.sym.name, ', '.join(handles)),
	]

	def main():
	parse_args()

	edtser = os.path.join(os.path.split(args.kernel)[0], "edt.pickle")
	with open(edtser, 'rb') as f:
	edt = pickle.load(f)

	parsed_elf = ZephyrElf(args.kernel, edt, args.start_symbol)

	if args.output_graphviz:
	# Try and output the dependency tree
	try:
	dot = parsed_elf.device_dependency_graph('Device dependency graph', args.kernel)
	with open(args.output_graphviz, 'w') as f:
	f.write(dot.source)
	except ImportError:
	pass

	with open(args.output_source, "w") as fp:
	fp.write('#include <zephyr/device.h>\n')
	fp.write('#include <zephyr/toolchain.h>\n')
	for dev in parsed_elf.devices:
	# The device handle are collected up in a set, which has no
	# specified order. Sort each sub-category of device handle types
	# separately, so that the generated C array is reproducible across
	# builds.
	sorted_handles = {
	"depends": sorted(dev.devs_depends_on, key=lambda d: d.handle),
	"injected": sorted(dev.devs_depends_on_injected, key=lambda d: d.handle),
	"supports": sorted(dev.devs_supports, key=lambda d: d.handle),
	}
	extra_sups = args.num_dynamic_devices if dev.pm and dev.pm.is_power_domain else 0
	lines = c_handle_comment(dev, sorted_handles)
	lines.extend(c_handle_array(dev, sorted_handles, extra_sups))
	lines.extend([''])
	fp.write('\n'.join(lines))

	if __name__ == "__main__":
	main()