build/tools/merge_dtbs.py - LeafOS-Project/android_vendor_leaf - Gitiles

 #! /usr/bin/env python3

 # Copyright (c) 2020-2021, The Linux Foundation. All rights reserved.
 #
 # Redistribution and use in source and binary forms, with or without
 # modification, are permitted provided that the following conditions are
 # met:
 #     * Redistributions of source code must retain the above copyright
 #       notice, this list of conditions and the following disclaimer.
 #     * Redistributions in binary form must reproduce the above
 #       copyright notice, this list of conditions and the following
 #       disclaimer in the documentation and/or other materials provided
 #       with the distribution.
 #     * Neither the name of The Linux Foundation nor the names of its
 #       contributors may be used to endorse or promote products derived
 #       from this software without specific prior written permission.
 #
 # THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
 # WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
 # MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
 # ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
 # BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
 # BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
 # WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
 # OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
 # IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 import copy
 import os
 import sys
 import subprocess
 import shutil
 from itertools import product, combinations_with_replacement, chain

 def split_array(array, cells):
 	"""
 	Helper function for parsing fdtget output
 	"""
 	if array is None:
 		return None
 	assert (len(array) % cells) == 0
 	return frozenset(tuple(array[i*cells:(i*cells)+cells]) for i in range(len(array) // cells))

 class DeviceTreeInfo(object):
 	def __init__(self, plat, board, pmic):
 		self.plat_id = plat
 		self.board_id = board
 		self.pmic_id = pmic

 	def __str__(self):
 		s = ""
 		if self.plat_id is not None:
 			s += " msm-id = <{}>;".format(" ".join(map(str, self.plat_id)))
 		if self.board_id is not None:
 			s += " board-id = <{}>;".format(" ".join(map(str, self.board_id)))
 		if self.pmic_id is not None:
 			s += " pmic-id = <{}>;".format(" ".join(map(str, self.pmic_id)))
 		return s.strip()

 	def __repr__(self):
 		return "<{} {}>".format(self.__class__.__name__, str(self))

 	def has_any_properties(self):
 		return self.plat_id is not None or self.board_id is not None or self.pmic_id is not None

 	def __sub__(self, other):
 		"""
 		This devicetree has plat, board, and pmic id described like this:
 		msm-id = <A>, <B>
 		board-id = <c>, <d>
 		pmic-id = <0, 1>

 		Other has plat, board, pmic are:
 		msm-id = <A>, <B>
 		board-id = <c>
 		pmic-id = <0>

 		(self - other) will split self into a set of devicetrees with different identifers
 		and meets the following requirements:
 		 - One of the devicetrees matches the IDs supported by other
 		 - The devices which self matches are still supported (through 1 or more extra devicetrees)
 		   by creating new devicetrees with different plat/board/pmic IDs
 		"""
 		assert self.plat_id is None or isinstance(self.plat_id, (set, frozenset))
 		assert self.board_id is None or isinstance(self.board_id, (set, frozenset))
 		assert self.pmic_id is None or isinstance(self.pmic_id, (set, frozenset))
 		assert other in self

 		new_plat = other.plat_id is not None and self.plat_id != other.plat_id
 		new_board = other.board_id is not None and self.board_id != other.board_id
 		new_pmic = other.pmic_id is not None and self.pmic_id != other.pmic_id

 		res = set()
 		# Create the devicetree that matches other exactly
 		s = copy.deepcopy(self)
 		if new_plat:
 			s.plat_id = other.plat_id
 		if new_board:
 			s.board_id = other.board_id
 		if new_pmic:
 			s.pmic_id = other.pmic_id
 		res.add(s)

 		# now create the other possibilities by removing any combination of
 		# other's plat, board, and/or pmic. Set logic (unique elemnts) handles
 		# duplicate devicetrees IDs spit out by this loop
 		for combo in combinations_with_replacement([True, False], 3):
 			if not any((c and n) for (c, n) in zip(combo, (new_plat, new_board, new_pmic))):
 				continue
 			s = copy.deepcopy(self)
 			if combo[0] and new_plat:
 				s.plat_id -= other.plat_id
 			if combo[1] and new_board:
 				s.board_id -= other.board_id
 			if combo[2] and new_pmic:
 				s.pmic_id -= other.pmic_id
 			res.add(s)
 		return res

 	def __hash__(self):
 		# Hash should only consider msm-id/board-id/pmic-id
 		return hash((self.plat_id, self.board_id, self.pmic_id))

 	def __and__(self, other):
 		s = copy.deepcopy(self)
 		for prop in ['plat_id', 'board_id', 'pmic_id']:
 			if getattr(self, prop) is None or getattr(other, prop) is None:
 				setattr(s, prop, None)
 			else:
 				setattr(s, prop, getattr(self, prop) & getattr(other, prop))
 		return s

 	def _do_equivalent(self, other, property):
 		other_prop = getattr(other, property)
 		self_prop = getattr(self, property)
 		if other_prop is None:
 			return True
 		return self_prop == other_prop

 	def __eq__(self, other):
 		"""
 		Checks whether other plat_id, board_id, pmic_id matches either identically
 		or because the property is none
 		"""
 		if not isinstance(other, DeviceTreeInfo):
 			return False
 		if not other.has_any_properties():
 			return False
 		return all(map(lambda p: self._do_equivalent(other, p), ['plat_id', 'board_id', 'pmic_id']))


 	def _do_gt(self, other, property):
 		other_prop = getattr(other, property)
 		self_prop = getattr(self, property)
 		# if either property doesn't exist, it could merge in ABL
 		if self_prop is None or other_prop is None:
 			return True
 		# convert to iterable for convenience of below check
 		if isinstance(other_prop, tuple):
 			# if this property is all 0s, ABL coud match with anything on other
 			other_prop = [other_prop]
 		assert hasattr(other_prop, '__iter__')
 		if len(other_prop) == 1 and all(p == 0 for p in next(iter(other_prop))):
 			return True
 		# Test if this property intersects with other property
 		if hasattr(self_prop, '__contains__') and not isinstance(self_prop, tuple):
 			return any(p in self_prop for p in other_prop)
 		else:
 			return self_prop in other_prop

 	def __gt__(self, other):
 		"""
 		Test if other is a more specific devicetree for self

 		This is used to test whether other devicetree applies to self by ABL matching rules
 		"""
 		if not isinstance(other, DeviceTreeInfo):
 			return False
 		if not other.has_any_properties():
 			return False
 		return all(map(lambda p: self._do_gt(other, p), ['plat_id', 'board_id', 'pmic_id']))


 	def _do_contains(self, other, property):
 		other_prop = getattr(other, property)
 		self_prop = getattr(self, property)
 		# if other property doesn't exist, it can apply here
 		if other_prop is None:
 			return True
 		# if self and other are sets, use "issubset". Handle special case where other set is
 		# empty, in which case they aren't compatible because other_prop should be None
 		if isinstance(self_prop, (set, frozenset)) and isinstance(other_prop, (set, frozenset)):
 			return len(other_prop) > 0 and other_prop.issubset(self_prop)
 		# unpack to one item for convience of below check
 		if hasattr(other_prop, '__len__') and not isinstance(other_prop, tuple):
 			if len(other_prop) == 1:
 				other_prop = next(iter(other_prop))
 		# if this is a single value (tuple), not a list of them, other needs to match exactly
 		if isinstance(self_prop, tuple):
 			return self_prop == other_prop
 		# otherwise, use contains if possible (e.g. list or set of tuples)
 		if hasattr(self_prop, '__contains__'):
 			return other_prop in self_prop
 		return False

 	def __contains__(self, other):
 		"""
 		Test if other devicetree covers this devicetree. That is, the devices other devicetree
 		matches is a subset of the devices this devicetree matches
 		"""
 		if not isinstance(other, DeviceTreeInfo):
 			return False
 		if not other.has_any_properties():
 			return False
 		return all(map(lambda p: self._do_contains(other, p), ['plat_id', 'board_id', 'pmic_id']))

 class DeviceTree(DeviceTreeInfo):
 	def __init__(self, filename):
 		self.filename = filename
 		msm_id = split_array(self.get_prop('/', 'qcom,msm-id', check_output=False), 2)
 		board_id = split_array(self.get_prop('/', 'qcom,board-id', check_output=False), 2)
 		# default pmic-id-size is 4
 		pmic_id_size = self.get_prop('/', 'qcom,pmic-id-size', check_output=False) or 4
 		pmic_id = split_array(self.get_prop('/', 'qcom,pmic-id', check_output=False), pmic_id_size)
 		super().__init__(msm_id, board_id, pmic_id)

 		if not self.has_any_properties():
 			print('WARNING! {} has no properties and may match with any other devicetree'.format(self.filename))

 	def get_prop(self, node, property, prop_type='i', check_output=True):
 		r = subprocess.run(["fdtget", "-t", prop_type, self.filename, node, property],
 			check=check_output, stdout=subprocess.PIPE,
 			stderr=None if check_output else subprocess.DEVNULL)
 		if r.returncode != 0:
 			return None
 		out = r.stdout.decode("utf-8").strip()

 		out_array = None
 		if prop_type[-1] == 'i' or prop_type[-1] == 'u':
 			out_array = [int(e) for e in out.split(' ')]
 		if prop_type[-1] == 'x':
 			out_array = [int(e, 16) for e in out.split(' ')]
 		if out_array is not None:
 			if len(out_array) == 0:
 				return None
 			if len(out_array) == 1:
 				return out_array[0]
 			return out_array

 		return out

 	def __str__(self):
 		return "{} [{}]".format(super().__str__(), self.filename)

 class InnerMergedDeviceTree(DeviceTreeInfo):
 	"""
 	InnerMergedDeviceTree is an actual representation of a merged devicetree.
 	It has a platform, board, and pmic ID, the "base" devicetree, and some set of add-on
 	devicetrees
 	"""
 	def __init__(self, filename, plat_id, board_id, pmic_id, techpacks=None):
 		self.base = filename
 		self.techpacks = techpacks or []
 		super().__init__(plat_id, board_id, pmic_id)

 	def try_add(self, techpack):
 		if not isinstance(techpack, DeviceTree):
 			raise TypeError("{} is not a DeviceTree object".format(repr(techpack)))
 		intersection = techpack & self
 		if intersection in self:
 			self.techpacks.append(intersection)
 			return True
 		return False

 	def save(self, name=None, out_dir='.'):
 		if name is None:
 			name = self.get_name()

 		out_file = os.path.join(out_dir, name)
 		ext = os.path.splitext(os.path.basename(self.base))[1]

 		# This check might fail in future if we get into an edge case
 		# when splitting the base devicetree into multiple merged DTs
 		assert not os.path.exists(out_file)

 		if len(self.techpacks) == 0:
 			cmd = ['cp', self.base, out_file]
 		else:
 			if ext == '.dtb':
 				cmd = ['fdtoverlay']
 			else:
 				cmd = ['fdtoverlaymerge']
 			cmd.extend(['-i', self.base])
 			cmd.extend([tp.filename for tp in self.techpacks])
 			cmd.extend(['-o', out_file])

 		print(' {}'.format(' '.join(cmd)))
 		subprocess.run(cmd, check=True)

 		if self.plat_id:
 			plat_iter = self.plat_id if isinstance(self.plat_id, tuple) else chain.from_iterable(self.plat_id)
 			cmd = ['fdtput', '-t', 'i', out_file, '/', 'qcom,msm-id'] + list(map(str, plat_iter))
 			print('  {}'.format(' '.join(cmd)))
 			subprocess.run(cmd, check=True)

 		if self.board_id:
 			board_iter = self.board_id if isinstance(self.board_id, tuple) else chain.from_iterable(self.board_id)
 			cmd = ['fdtput', '-t', 'i', out_file, '/', 'qcom,board-id'] + list(map(str, board_iter))
 			print('  {}'.format(' '.join(cmd)))
 			subprocess.run(cmd, check=True)

 		if self.pmic_id:
 			pmic_iter = self.pmic_id if isinstance(self.pmic_id, tuple) else chain.from_iterable(self.pmic_id)
 			cmd = ['fdtput', '-t', 'i', out_file, '/', 'qcom,pmic-id'] + list(map(str, pmic_iter))
 			print('  {}'.format(' '.join(cmd)))
 			subprocess.run(cmd, check=True)

 		return DeviceTree(out_file)

 	def get_name(self):
 		ext = os.path.splitext(os.path.basename(self.base))[1]
 		base_parts = self.filename_to_parts(self.base)
 		return '-'.join(chain.from_iterable([base_parts] + [self.filename_to_parts(tp.filename, ignored_parts=base_parts) for tp in self.techpacks])) + ext

 	@staticmethod
 	def filename_to_parts(name, ignored_parts=[]):
 		# Extract just the basename, with no suffix
 		filename = os.path.splitext(os.path.basename(name))[0]
 		parts = filename.split('-')
 		return [part for part in parts if part not in ignored_parts]

 	def __str__(self):
 		return "{} [{} + {{{}}}]".format(super().__str__(), self.base, " ".join(t.filename for t in self.techpacks))

 class MergedDeviceTree(object):
 	def __init__(self, other):
 		self.merged_devicetrees = {InnerMergedDeviceTree(other.filename, other.plat_id, other.board_id, other.pmic_id)}

 	def try_add(self, techpack):
 		did_add = False
 		for mdt in self.merged_devicetrees.copy():
 			# techpack and kernel devicetree need only to overlap in order to merge,
 			# and not match exactly. Think: venn diagram.
 			# Need 2 things: The devicetree part that applies to
 			# both kernel and techpack intersection = (techpack & mdt)
 			# and the part that applies only to kernel difference = (mdt - intersection)
 			# Note that because devicetrees are "multi-dimensional", doing (mdt - intersection)
 			# may result in *multiple* devicetrees

 			# techpack may apply to a superset of devices the mdt applies to
 			# reduce the techpack to just the things mdt has:
 			intersection = techpack & mdt
 			if intersection not in mdt:
 				continue
 			# mdt may apply to a superset of devices the techpack DT applies to
 			# (mdt - intersection) splits mdt into appropriate number of devicetrees
 			# such that we can apply techpack onto one of the resulting DTs in the
 			# difference
 			difference = mdt - intersection
 			if len(difference) > 1:
 				print('Splitting {}'.format(mdt))
 				print(' because  {}'.format(techpack))
 				self.merged_devicetrees.remove(mdt)
 				self.merged_devicetrees.update(difference)

 		for mdt in self.merged_devicetrees:
 			if mdt.try_add(techpack):
 				did_add = True
 		return did_add


 	def save(self, out_dir):
 		assert len(self.merged_devicetrees) > 0
 		if len(self.merged_devicetrees) == 1:
 			name = os.path.basename(next(iter(self.merged_devicetrees)).base)
 		else:
 			name = None
 		for mdt in self.merged_devicetrees:
 			print()
 			yield mdt.save(name, out_dir)

 def parse_dt_files(dt_folder):
 	for root, dirs, files in os.walk(dt_folder):
 		for filename in files:
 			if os.path.splitext(filename)[1] not in ['.dtb', '.dtbo']:
 				continue
 			filepath = os.path.join(root, filename)
 			yield DeviceTree(filepath)

 def main():
 	if len(sys.argv) != 4:
 		print("Usage: {} <base dtb folder> <techpack dtb folder> <output folder>"
 		      .format(sys.argv[0]))
 		sys.exit(1)

 	# 1. Parse the devicetrees -- extract the device info (msm-id, board-id, pmic-id)
 	bases = parse_dt_files(sys.argv[1])
 	techpacks = parse_dt_files(sys.argv[2])

 	# 2.1: Create an intermediate representation of the merged devicetrees, starting with the base
 	merged_devicetrees = list(map(lambda dt: MergedDeviceTree(dt), bases))
 	# 2.2: Try to add techpack devicetree to each base DT
 	for techpack in techpacks:
 		did_add = False
 		for dt in merged_devicetrees:
 			if dt.try_add(techpack):
 				did_add = True
 		if not did_add:
 			print('WARNING! Could not apply {} to any devicetrees'.format(techpack))

 	print()
 	print('==================================')
 	created = []
 	# 3. Save the deviectrees to real files
 	for dt in merged_devicetrees:
 		created.extend(dt.save(sys.argv[3]))

 	print()
 	print('==================================')
 	# 4. Try to apply merged DTBOs onto merged DTBs, when appropriate
 	#    This checks that DTBOs and DTBs generated by merge_dtbs.py can be merged by bootloader
 	#    at runtime.
 	for base, dtbo in product(created, created):
 		if os.path.splitext(base.filename)[1] != '.dtb' or os.path.splitext(dtbo.filename)[1] != '.dtbo':
 			continue
 		# See DeviceTreeInfo.__gt__; this checks whether dtbo is more specific than the base
 		if dtbo > base:
 			cmd = ['ufdt_apply_overlay', base.filename, dtbo.filename, '/dev/null']
 			print(' '.join(cmd))
 			subprocess.run(cmd, check=True)


 if __name__ == "__main__":
 	main()
	#! /usr/bin/env python3

	# Copyright (c) 2020-2021, The Linux Foundation. All rights reserved.
	#
	# Redistribution and use in source and binary forms, with or without
	# modification, are permitted provided that the following conditions are
	# met:
	# * Redistributions of source code must retain the above copyright
	# notice, this list of conditions and the following disclaimer.
	# * Redistributions in binary form must reproduce the above
	# copyright notice, this list of conditions and the following
	# disclaimer in the documentation and/or other materials provided
	# with the distribution.
	# * Neither the name of The Linux Foundation nor the names of its
	# contributors may be used to endorse or promote products derived
	# from this software without specific prior written permission.
	#
	# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
	# WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
	# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
	# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
	# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
	# BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
	# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
	# OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
	# IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	import copy
	import os
	import sys
	import subprocess
	import shutil
	from itertools import product, combinations_with_replacement, chain

	def split_array(array, cells):
	"""
	Helper function for parsing fdtget output
	"""
	if array is None:
	return None
	assert (len(array) % cells) == 0
	return frozenset(tuple(array[icells:(icells)+cells]) for i in range(len(array) // cells))

	class DeviceTreeInfo(object):
	def __init__(self, plat, board, pmic):
	self.plat_id = plat
	self.board_id = board
	self.pmic_id = pmic

	def __str__(self):
	s = ""
	if self.plat_id is not None:
	s += " msm-id = <{}>;".format(" ".join(map(str, self.plat_id)))
	if self.board_id is not None:
	s += " board-id = <{}>;".format(" ".join(map(str, self.board_id)))
	if self.pmic_id is not None:
	s += " pmic-id = <{}>;".format(" ".join(map(str, self.pmic_id)))
	return s.strip()

	def __repr__(self):
	return "<{} {}>".format(self.__class__.__name__, str(self))

	def has_any_properties(self):
	return self.plat_id is not None or self.board_id is not None or self.pmic_id is not None

	def __sub__(self, other):
	"""
	This devicetree has plat, board, and pmic id described like this:
	msm-id = <A>, <B>
	board-id = <c>, <d>
	pmic-id = <0, 1>

	Other has plat, board, pmic are:
	msm-id = <A>, <B>
	board-id = <c>
	pmic-id = <0>

	(self - other) will split self into a set of devicetrees with different identifers
	and meets the following requirements:
	- One of the devicetrees matches the IDs supported by other
	- The devices which self matches are still supported (through 1 or more extra devicetrees)
	by creating new devicetrees with different plat/board/pmic IDs
	"""
	assert self.plat_id is None or isinstance(self.plat_id, (set, frozenset))
	assert self.board_id is None or isinstance(self.board_id, (set, frozenset))
	assert self.pmic_id is None or isinstance(self.pmic_id, (set, frozenset))
	assert other in self

	new_plat = other.plat_id is not None and self.plat_id != other.plat_id
	new_board = other.board_id is not None and self.board_id != other.board_id
	new_pmic = other.pmic_id is not None and self.pmic_id != other.pmic_id

	res = set()
	# Create the devicetree that matches other exactly
	s = copy.deepcopy(self)
	if new_plat:
	s.plat_id = other.plat_id
	if new_board:
	s.board_id = other.board_id
	if new_pmic:
	s.pmic_id = other.pmic_id
	res.add(s)

	# now create the other possibilities by removing any combination of
	# other's plat, board, and/or pmic. Set logic (unique elemnts) handles
	# duplicate devicetrees IDs spit out by this loop
	for combo in combinations_with_replacement([True, False], 3):
	if not any((c and n) for (c, n) in zip(combo, (new_plat, new_board, new_pmic))):
	continue
	s = copy.deepcopy(self)
	if combo[0] and new_plat:
	s.plat_id -= other.plat_id
	if combo[1] and new_board:
	s.board_id -= other.board_id
	if combo[2] and new_pmic:
	s.pmic_id -= other.pmic_id
	res.add(s)
	return res

	def __hash__(self):
	# Hash should only consider msm-id/board-id/pmic-id
	return hash((self.plat_id, self.board_id, self.pmic_id))

	def __and__(self, other):
	s = copy.deepcopy(self)
	for prop in ['plat_id', 'board_id', 'pmic_id']:
	if getattr(self, prop) is None or getattr(other, prop) is None:
	setattr(s, prop, None)
	else:
	setattr(s, prop, getattr(self, prop) & getattr(other, prop))
	return s

	def _do_equivalent(self, other, property):
	other_prop = getattr(other, property)
	self_prop = getattr(self, property)
	if other_prop is None:
	return True
	return self_prop == other_prop

	def __eq__(self, other):
	"""
	Checks whether other plat_id, board_id, pmic_id matches either identically
	or because the property is none
	"""
	if not isinstance(other, DeviceTreeInfo):
	return False
	if not other.has_any_properties():
	return False
	return all(map(lambda p: self._do_equivalent(other, p), ['plat_id', 'board_id', 'pmic_id']))


	def _do_gt(self, other, property):
	other_prop = getattr(other, property)
	self_prop = getattr(self, property)
	# if either property doesn't exist, it could merge in ABL
	if self_prop is None or other_prop is None:
	return True
	# convert to iterable for convenience of below check
	if isinstance(other_prop, tuple):
	# if this property is all 0s, ABL coud match with anything on other
	other_prop = [other_prop]
	assert hasattr(other_prop, '__iter__')
	if len(other_prop) == 1 and all(p == 0 for p in next(iter(other_prop))):
	return True
	# Test if this property intersects with other property
	if hasattr(self_prop, '__contains__') and not isinstance(self_prop, tuple):
	return any(p in self_prop for p in other_prop)
	else:
	return self_prop in other_prop

	def __gt__(self, other):
	"""
	Test if other is a more specific devicetree for self

	This is used to test whether other devicetree applies to self by ABL matching rules
	"""
	if not isinstance(other, DeviceTreeInfo):
	return False
	if not other.has_any_properties():
	return False
	return all(map(lambda p: self._do_gt(other, p), ['plat_id', 'board_id', 'pmic_id']))


	def _do_contains(self, other, property):
	other_prop = getattr(other, property)
	self_prop = getattr(self, property)
	# if other property doesn't exist, it can apply here
	if other_prop is None:
	return True
	# if self and other are sets, use "issubset". Handle special case where other set is
	# empty, in which case they aren't compatible because other_prop should be None
	if isinstance(self_prop, (set, frozenset)) and isinstance(other_prop, (set, frozenset)):
	return len(other_prop) > 0 and other_prop.issubset(self_prop)
	# unpack to one item for convience of below check
	if hasattr(other_prop, '__len__') and not isinstance(other_prop, tuple):
	if len(other_prop) == 1:
	other_prop = next(iter(other_prop))
	# if this is a single value (tuple), not a list of them, other needs to match exactly
	if isinstance(self_prop, tuple):
	return self_prop == other_prop
	# otherwise, use contains if possible (e.g. list or set of tuples)
	if hasattr(self_prop, '__contains__'):
	return other_prop in self_prop
	return False

	def __contains__(self, other):
	"""
	Test if other devicetree covers this devicetree. That is, the devices other devicetree
	matches is a subset of the devices this devicetree matches
	"""
	if not isinstance(other, DeviceTreeInfo):
	return False
	if not other.has_any_properties():
	return False
	return all(map(lambda p: self._do_contains(other, p), ['plat_id', 'board_id', 'pmic_id']))

	class DeviceTree(DeviceTreeInfo):
	def __init__(self, filename):
	self.filename = filename
	msm_id = split_array(self.get_prop('/', 'qcom,msm-id', check_output=False), 2)
	board_id = split_array(self.get_prop('/', 'qcom,board-id', check_output=False), 2)
	# default pmic-id-size is 4
	pmic_id_size = self.get_prop('/', 'qcom,pmic-id-size', check_output=False) or 4
	pmic_id = split_array(self.get_prop('/', 'qcom,pmic-id', check_output=False), pmic_id_size)
	super().__init__(msm_id, board_id, pmic_id)

	if not self.has_any_properties():
	print('WARNING! {} has no properties and may match with any other devicetree'.format(self.filename))

	def get_prop(self, node, property, prop_type='i', check_output=True):
	r = subprocess.run(["fdtget", "-t", prop_type, self.filename, node, property],
	check=check_output, stdout=subprocess.PIPE,
	stderr=None if check_output else subprocess.DEVNULL)
	if r.returncode != 0:
	return None
	out = r.stdout.decode("utf-8").strip()

	out_array = None
	if prop_type[-1] == 'i' or prop_type[-1] == 'u':
	out_array = [int(e) for e in out.split(' ')]
	if prop_type[-1] == 'x':
	out_array = [int(e, 16) for e in out.split(' ')]
	if out_array is not None:
	if len(out_array) == 0:
	return None
	if len(out_array) == 1:
	return out_array[0]
	return out_array

	return out

	def __str__(self):
	return "{} [{}]".format(super().__str__(), self.filename)

	class InnerMergedDeviceTree(DeviceTreeInfo):
	"""
	InnerMergedDeviceTree is an actual representation of a merged devicetree.
	It has a platform, board, and pmic ID, the "base" devicetree, and some set of add-on
	devicetrees
	"""
	def __init__(self, filename, plat_id, board_id, pmic_id, techpacks=None):
	self.base = filename
	self.techpacks = techpacks or []
	super().__init__(plat_id, board_id, pmic_id)

	def try_add(self, techpack):
	if not isinstance(techpack, DeviceTree):
	raise TypeError("{} is not a DeviceTree object".format(repr(techpack)))
	intersection = techpack & self
	if intersection in self:
	self.techpacks.append(intersection)
	return True
	return False

	def save(self, name=None, out_dir='.'):
	if name is None:
	name = self.get_name()

	out_file = os.path.join(out_dir, name)
	ext = os.path.splitext(os.path.basename(self.base))[1]

	# This check might fail in future if we get into an edge case
	# when splitting the base devicetree into multiple merged DTs
	assert not os.path.exists(out_file)

	if len(self.techpacks) == 0:
	cmd = ['cp', self.base, out_file]
	else:
	if ext == '.dtb':
	cmd = ['fdtoverlay']
	else:
	cmd = ['fdtoverlaymerge']
	cmd.extend(['-i', self.base])
	cmd.extend([tp.filename for tp in self.techpacks])
	cmd.extend(['-o', out_file])

	print(' {}'.format(' '.join(cmd)))
	subprocess.run(cmd, check=True)

	if self.plat_id:
	plat_iter = self.plat_id if isinstance(self.plat_id, tuple) else chain.from_iterable(self.plat_id)
	cmd = ['fdtput', '-t', 'i', out_file, '/', 'qcom,msm-id'] + list(map(str, plat_iter))
	print(' {}'.format(' '.join(cmd)))
	subprocess.run(cmd, check=True)

	if self.board_id:
	board_iter = self.board_id if isinstance(self.board_id, tuple) else chain.from_iterable(self.board_id)
	cmd = ['fdtput', '-t', 'i', out_file, '/', 'qcom,board-id'] + list(map(str, board_iter))
	print(' {}'.format(' '.join(cmd)))
	subprocess.run(cmd, check=True)

	if self.pmic_id:
	pmic_iter = self.pmic_id if isinstance(self.pmic_id, tuple) else chain.from_iterable(self.pmic_id)
	cmd = ['fdtput', '-t', 'i', out_file, '/', 'qcom,pmic-id'] + list(map(str, pmic_iter))
	print(' {}'.format(' '.join(cmd)))
	subprocess.run(cmd, check=True)

	return DeviceTree(out_file)

	def get_name(self):
	ext = os.path.splitext(os.path.basename(self.base))[1]
	base_parts = self.filename_to_parts(self.base)
	return '-'.join(chain.from_iterable([base_parts] + [self.filename_to_parts(tp.filename, ignored_parts=base_parts) for tp in self.techpacks])) + ext

	@staticmethod
	def filename_to_parts(name, ignored_parts=[]):
	# Extract just the basename, with no suffix
	filename = os.path.splitext(os.path.basename(name))[0]
	parts = filename.split('-')
	return [part for part in parts if part not in ignored_parts]

	def __str__(self):
	return "{} [{} + {{{}}}]".format(super().__str__(), self.base, " ".join(t.filename for t in self.techpacks))

	class MergedDeviceTree(object):
	def __init__(self, other):
	self.merged_devicetrees = {InnerMergedDeviceTree(other.filename, other.plat_id, other.board_id, other.pmic_id)}

	def try_add(self, techpack):
	did_add = False
	for mdt in self.merged_devicetrees.copy():
	# techpack and kernel devicetree need only to overlap in order to merge,
	# and not match exactly. Think: venn diagram.
	# Need 2 things: The devicetree part that applies to
	# both kernel and techpack intersection = (techpack & mdt)
	# and the part that applies only to kernel difference = (mdt - intersection)
	# Note that because devicetrees are "multi-dimensional", doing (mdt - intersection)
	# may result in multiple devicetrees

	# techpack may apply to a superset of devices the mdt applies to
	# reduce the techpack to just the things mdt has:
	intersection = techpack & mdt
	if intersection not in mdt:
	continue
	# mdt may apply to a superset of devices the techpack DT applies to
	# (mdt - intersection) splits mdt into appropriate number of devicetrees
	# such that we can apply techpack onto one of the resulting DTs in the
	# difference
	difference = mdt - intersection
	if len(difference) > 1:
	print('Splitting {}'.format(mdt))
	print(' because {}'.format(techpack))
	self.merged_devicetrees.remove(mdt)
	self.merged_devicetrees.update(difference)

	for mdt in self.merged_devicetrees:
	if mdt.try_add(techpack):
	did_add = True
	return did_add


	def save(self, out_dir):
	assert len(self.merged_devicetrees) > 0
	if len(self.merged_devicetrees) == 1:
	name = os.path.basename(next(iter(self.merged_devicetrees)).base)
	else:
	name = None
	for mdt in self.merged_devicetrees:
	print()
	yield mdt.save(name, out_dir)

	def parse_dt_files(dt_folder):
	for root, dirs, files in os.walk(dt_folder):
	for filename in files:
	if os.path.splitext(filename)[1] not in ['.dtb', '.dtbo']:
	continue
	filepath = os.path.join(root, filename)
	yield DeviceTree(filepath)

	def main():
	if len(sys.argv) != 4:
	print("Usage: {} <base dtb folder> <techpack dtb folder> <output folder>"
	.format(sys.argv[0]))
	sys.exit(1)

	# 1. Parse the devicetrees -- extract the device info (msm-id, board-id, pmic-id)
	bases = parse_dt_files(sys.argv[1])
	techpacks = parse_dt_files(sys.argv[2])

	# 2.1: Create an intermediate representation of the merged devicetrees, starting with the base
	merged_devicetrees = list(map(lambda dt: MergedDeviceTree(dt), bases))
	# 2.2: Try to add techpack devicetree to each base DT
	for techpack in techpacks:
	did_add = False
	for dt in merged_devicetrees:
	if dt.try_add(techpack):
	did_add = True
	if not did_add:
	print('WARNING! Could not apply {} to any devicetrees'.format(techpack))

	print()
	print('==================================')
	created = []
	# 3. Save the deviectrees to real files
	for dt in merged_devicetrees:
	created.extend(dt.save(sys.argv[3]))

	print()
	print('==================================')
	# 4. Try to apply merged DTBOs onto merged DTBs, when appropriate
	# This checks that DTBOs and DTBs generated by merge_dtbs.py can be merged by bootloader
	# at runtime.
	for base, dtbo in product(created, created):
	if os.path.splitext(base.filename)[1] != '.dtb' or os.path.splitext(dtbo.filename)[1] != '.dtbo':
	continue
	# See DeviceTreeInfo.__gt__; this checks whether dtbo is more specific than the base
	if dtbo > base:
	cmd = ['ufdt_apply_overlay', base.filename, dtbo.filename, '/dev/null']
	print(' '.join(cmd))
	subprocess.run(cmd, check=True)


	if __name__ == "__main__":
	main()