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

 #!/usr/bin/python
 #
 # Copyright (c) 2017 Intel Corporation
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #    http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #

 import sys
 import pprint

 def read_until(line, fd, end):
   out = [line]
   while True:
     idx = line.find(end)
     if idx < 0:
       line = clean_line(fd.readline(), fd)
       out.append(line)
     else:
       out.append(line[idx + len(end):])
       return out

 def remove_comment(line, fd):
   out = []
   while True:
     idx = line.find('/*')
     if idx < 0:
       idx = line.find('//')
       if idx < 0:
         out.append(line)
       else:
         out.append(line[:idx])
       return ' '.join(out)

     out.append(line[:idx])
     line = read_until(line[idx:], fd, '*/')[-1]

 def clean_line(line, fd):
   return remove_comment(line, fd).strip()

 def parse_node_name(line):
   line = line[:-1]

   if '@' in line:
     line, addr = line.split('@')
   else:
     addr = None

   if ':' in line:
     label, name = line.split(':')
   else:
     name = line
     label = None

   if addr is None:
     return label, name.strip(), None

   return label, name.strip(), int(addr, 16)

 def parse_values_internal(value, start, end, separator):
   out = []

   inside = False
   accum = []
   for ch in value:
     if not inside:
       if ch == start:
         inside = True
         accum = []
     else:
       if ch == end:
         inside = False
         out.append(''.join(accum))
         accum = []
       else:
         accum.append(ch)

   if separator == ' ':
     out = [v.split() for v in out]

   if len(out) == 1:
     return parse_value(out[0])

   return [parse_value(v) for v in out]

 def parse_values(value, start, end, separator):
   out = parse_values_internal(value, start, end, separator)
   if isinstance(out, list) and all(isinstance(v, str) and len(v) == 1 and not v.isalpha() for v in out):
     return bytearray(out)
   return out

 def parse_value(value):
   if value == '':
     return value

   if isinstance(value, list):
     out = [parse_value(v) for v in value]
     return out[0] if len(out) == 1 else out

   if value[0] == '<':
     return parse_values(value, '<', '>', ' ')
   if value[0] == '"':
     return parse_values(value, '"', '"', ',')
   if value[0] == '[':
     return parse_values(value, '[', ']', ' ')

   if value[0] == '&':
     return {'ref': value[1:]}

   if value[0].isdigit():
     if value.startswith("0x"):
       return int(value, 16)
     if value[0] == '0':
       return int(value, 8)
     return int(value, 10)

   return value

 def parse_property(property, fd):
   if '=' in property:
     key, value = property.split('=', 1)
     value = ' '.join(read_until(value, fd, ';')).strip()
     if not value.endswith(';'):
       raise SyntaxError("parse_property: missing semicolon: %s" % value)
     return key.strip(), parse_value(value[:-1])

   property = property.strip()
   if not property.endswith(';'):
     raise SyntaxError("parse_property: missing semicolon: %s" % property)

   return property[:-1].strip(), True

 def build_node_name(name, addr):
   if addr is None:
     return name
   return '%s@%x' % (name, addr)

 def parse_node(line, fd):
   label, name, addr = parse_node_name(line)

   node = {
     'label': label,
     'type': type,
     'addr': addr,
     'children': {},
     'props': {},
     'name': build_node_name(name, addr)
   }
   while True:
     line = fd.readline()
     if not line:
       raise SyntaxError("parse_node: Missing } while parsing node")

     line = clean_line(line, fd)
     if not line:
       continue

     if line == "};":
       break

     if line.endswith('{'):
       new_node = parse_node(line, fd)
       node['children'][new_node['name']] = new_node
     else:
       key, value = parse_property(line, fd)
       node['props'][key] = value

   return node

 def parse_file(fd, ignore_dts_version=False):
   nodes = {}
   has_v1_tag = False
   while True:
     line = fd.readline()
     if not line:
       break

     line = clean_line(line, fd)
     if not line:
       continue

     if line.startswith('/include/ '):
       tag, filename = line.split()
       with open(filename.strip()[1:-1], "r") as new_fd:
         nodes.update(parse_file(new_fd, True))
     elif line == '/dts-v1/;':
       has_v1_tag = True
     elif line.startswith('/memreserve/ ') and line.endswith(';'):
       tag, start, end = line.split()
       start = int(start, 16)
       end = int(end[:-1], 16)
       label = "reserved_memory_0x%x_0x%x" % (start, end)
       nodes[label] = {
         'type': 'memory',
         'reg': [start, end],
         'label': label,
         'addr': start,
         'name': build_node_name(name, start)
       }
     elif line.endswith('{'):
       if not has_v1_tag and not ignore_dts_version:
         raise SyntaxError("parse_file: Missing /dts-v1/ tag")

       new_node = parse_node(line, fd)
       nodes[new_node['name']] = new_node
     else:
       raise SyntaxError("parse_file: Couldn't understand the line: %s" % line)
   return nodes

 def dump_refs(name, value, indent=0):
   spaces = '  ' * indent

   out = []
   if isinstance(value, dict) and 'ref' in value:
     out.append('%s\"%s\" -> \"%s\";' % (spaces, name, value['ref']))
   elif isinstance(value, list):
     for elem in value:
       out.extend(dump_refs(name, elem, indent))

   return out

 def dump_all_refs(name, props, indent=0):
   out = []
   for key, value in props.items():
     out.extend(dump_refs(name, value, indent))
   return out

 def next_subgraph(count=[0]):
   count[0] += 1
   return 'subgraph cluster_%d' % count[0]

 def get_dot_node_name(node):
   name = node['name']
   return name[1:] if name[0] == '&' else name

 def dump_to_dot(nodes, indent=0, start_string='digraph devicetree', name=None):
   spaces = '  ' * indent

   print("%s%s {" % (spaces, start_string))

   if name is not None:
     print("%slabel = \"%s\";" % (spaces, name))
     print("%s\"%s\";" % (spaces, name))

   ref_list = []
   for key, value in nodes.items():
     if value.get('children'):
       refs = dump_to_dot(value['children'], indent + 1, next_subgraph(), get_dot_node_name(value))
       ref_list.extend(refs)
     else:
       print("%s\"%s\";" % (spaces, get_dot_node_name(value)))

   for key, value in nodes.items():
     refs = dump_all_refs(get_dot_node_name(value), value.get('props', {}), indent)
     ref_list.extend(refs)

   if start_string.startswith("digraph"):
     print("%s%s" % (spaces, '\n'.join(ref_list)))

   print("%s}" % spaces)

   return ref_list

 def main(args):
   if len(args) == 1:
     print('Usage: %s filename.dts' % args[0])
     return 1

   if '--dot' in args:
     formatter = dump_to_dot
     args.remove('--dot')
   else:
     formatter = lambda nodes: pprint.pprint(nodes, indent=2)

   with open(args[1], "r") as fd:
     formatter(parse_file(fd))

   return 0

 if __name__ == '__main__':
   sys.exit(main(sys.argv))
	#!/usr/bin/python
	#
	# Copyright (c) 2017 Intel Corporation
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#

	import sys
	import pprint

	def read_until(line, fd, end):
	out = [line]
	while True:
	idx = line.find(end)
	if idx < 0:
	line = clean_line(fd.readline(), fd)
	out.append(line)
	else:
	out.append(line[idx + len(end):])
	return out

	def remove_comment(line, fd):
	out = []
	while True:
	idx = line.find('/*')
	if idx < 0:
	idx = line.find('//')
	if idx < 0:
	out.append(line)
	else:
	out.append(line[:idx])
	return ' '.join(out)

	out.append(line[:idx])
	line = read_until(line[idx:], fd, '*/')[-1]

	def clean_line(line, fd):
	return remove_comment(line, fd).strip()

	def parse_node_name(line):
	line = line[:-1]

	if '@' in line:
	line, addr = line.split('@')
	else:
	addr = None

	if ':' in line:
	label, name = line.split(':')
	else:
	name = line
	label = None

	if addr is None:
	return label, name.strip(), None

	return label, name.strip(), int(addr, 16)

	def parse_values_internal(value, start, end, separator):
	out = []

	inside = False
	accum = []
	for ch in value:
	if not inside:
	if ch == start:
	inside = True
	accum = []
	else:
	if ch == end:
	inside = False
	out.append(''.join(accum))
	accum = []
	else:
	accum.append(ch)

	if separator == ' ':
	out = [v.split() for v in out]

	if len(out) == 1:
	return parse_value(out[0])

	return [parse_value(v) for v in out]

	def parse_values(value, start, end, separator):
	out = parse_values_internal(value, start, end, separator)
	if isinstance(out, list) and all(isinstance(v, str) and len(v) == 1 and not v.isalpha() for v in out):
	return bytearray(out)
	return out

	def parse_value(value):
	if value == '':
	return value

	if isinstance(value, list):
	out = [parse_value(v) for v in value]
	return out[0] if len(out) == 1 else out

	if value[0] == '<':
	return parse_values(value, '<', '>', ' ')
	if value[0] == '"':
	return parse_values(value, '"', '"', ',')
	if value[0] == '[':
	return parse_values(value, '[', ']', ' ')

	if value[0] == '&':
	return {'ref': value[1:]}

	if value[0].isdigit():
	if value.startswith("0x"):
	return int(value, 16)
	if value[0] == '0':
	return int(value, 8)
	return int(value, 10)

	return value

	def parse_property(property, fd):
	if '=' in property:
	key, value = property.split('=', 1)
	value = ' '.join(read_until(value, fd, ';')).strip()
	if not value.endswith(';'):
	raise SyntaxError("parse_property: missing semicolon: %s" % value)
	return key.strip(), parse_value(value[:-1])

	property = property.strip()
	if not property.endswith(';'):
	raise SyntaxError("parse_property: missing semicolon: %s" % property)

	return property[:-1].strip(), True

	def build_node_name(name, addr):
	if addr is None:
	return name
	return '%s@%x' % (name, addr)

	def parse_node(line, fd):
	label, name, addr = parse_node_name(line)

	node = {
	'label': label,
	'type': type,
	'addr': addr,
	'children': {},
	'props': {},
	'name': build_node_name(name, addr)
	}
	while True:
	line = fd.readline()
	if not line:
	raise SyntaxError("parse_node: Missing } while parsing node")

	line = clean_line(line, fd)
	if not line:
	continue

	if line == "};":
	break

	if line.endswith('{'):
	new_node = parse_node(line, fd)
	node['children'][new_node['name']] = new_node
	else:
	key, value = parse_property(line, fd)
	node['props'][key] = value

	return node

	def parse_file(fd, ignore_dts_version=False):
	nodes = {}
	has_v1_tag = False
	while True:
	line = fd.readline()
	if not line:
	break

	line = clean_line(line, fd)
	if not line:
	continue

	if line.startswith('/include/ '):
	tag, filename = line.split()
	with open(filename.strip()[1:-1], "r") as new_fd:
	nodes.update(parse_file(new_fd, True))
	elif line == '/dts-v1/;':
	has_v1_tag = True
	elif line.startswith('/memreserve/ ') and line.endswith(';'):
	tag, start, end = line.split()
	start = int(start, 16)
	end = int(end[:-1], 16)
	label = "reserved_memory_0x%x_0x%x" % (start, end)
	nodes[label] = {
	'type': 'memory',
	'reg': [start, end],
	'label': label,
	'addr': start,
	'name': build_node_name(name, start)
	}
	elif line.endswith('{'):
	if not has_v1_tag and not ignore_dts_version:
	raise SyntaxError("parse_file: Missing /dts-v1/ tag")

	new_node = parse_node(line, fd)
	nodes[new_node['name']] = new_node
	else:
	raise SyntaxError("parse_file: Couldn't understand the line: %s" % line)
	return nodes

	def dump_refs(name, value, indent=0):
	spaces = ' ' * indent

	out = []
	if isinstance(value, dict) and 'ref' in value:
	out.append('%s\"%s\" -> \"%s\";' % (spaces, name, value['ref']))
	elif isinstance(value, list):
	for elem in value:
	out.extend(dump_refs(name, elem, indent))

	return out

	def dump_all_refs(name, props, indent=0):
	out = []
	for key, value in props.items():
	out.extend(dump_refs(name, value, indent))
	return out

	def next_subgraph(count=[0]):
	count[0] += 1
	return 'subgraph cluster_%d' % count[0]

	def get_dot_node_name(node):
	name = node['name']
	return name[1:] if name[0] == '&' else name

	def dump_to_dot(nodes, indent=0, start_string='digraph devicetree', name=None):
	spaces = ' ' * indent

	print("%s%s {" % (spaces, start_string))

	if name is not None:
	print("%slabel = \"%s\";" % (spaces, name))
	print("%s\"%s\";" % (spaces, name))

	ref_list = []
	for key, value in nodes.items():
	if value.get('children'):
	refs = dump_to_dot(value['children'], indent + 1, next_subgraph(), get_dot_node_name(value))
	ref_list.extend(refs)
	else:
	print("%s\"%s\";" % (spaces, get_dot_node_name(value)))

	for key, value in nodes.items():
	refs = dump_all_refs(get_dot_node_name(value), value.get('props', {}), indent)
	ref_list.extend(refs)

	if start_string.startswith("digraph"):
	print("%s%s" % (spaces, '\n'.join(ref_list)))

	print("%s}" % spaces)

	return ref_list

	def main(args):
	if len(args) == 1:
	print('Usage: %s filename.dts' % args[0])
	return 1

	if '--dot' in args:
	formatter = dump_to_dot
	args.remove('--dot')
	else:
	formatter = lambda nodes: pprint.pprint(nodes, indent=2)

	with open(args[1], "r") as fd:
	formatter(parse_file(fd))

	return 0

	if __name__ == '__main__':
	sys.exit(main(sys.argv))