import re import fileinput import glob import pprint import os import xml.etree.ElementTree as ET files_to_visit = {} struct_files = glob.glob("apidoc/xml/structmbedtls*.xml") + glob.glob("apidoc/xml/structpsa*.xml") for struct_file in struct_files: struct_file_tree = ET.parse(struct_file) all_struct_members_definitions = struct_file_tree.getroot().findall(".//memberdef[@kind='variable']") # Create dictionary with following structre # "filepath" : { "variable_name1": (1, 2, 40, 61), # line numbers # "variable_name2": (60, 64), # } for struct_member_def in all_struct_members_definitions: # find file path for this variable member_id = struct_member_def.attrib["id"] location = struct_member_def.find("location") file_path = location.attrib["file"] variable_name = struct_member_def.find("name").text # if path not yet in dictionary, create empty record to initialize if file_path not in files_to_visit: files_to_visit[file_path] = {} # if variable is not yet in this file's dictionary, create empty set to initialize if variable_name not in files_to_visit[file_path]: files_to_visit[file_path][variable_name] = set() # add variable definition files_to_visit[file_path][variable_name].add(int(location.attrib["line"])) # check where the variable was referenced references = struct_member_def.findall("referencedby") for reference in references: refid = reference.attrib["refid"] # assuming that compound name is related to header's xml file header_file = "apidoc/xml/" + reference.attrib["compoundref"] + ".xml" header_file_tree = ET.parse(header_file) # check if this reference is created by static inline function static_inline_function_definition = header_file_tree.getroot().find(f".//memberdef[@id='{refid}'][@kind='function'][@static='yes'][@inline='yes']") if static_inline_function_definition: static_inline_function_file_path = static_inline_function_definition.find("location").attrib["file"] # if path not yet in dictionary, create empty record to initialize. # This could happen if reference is inside header file which was not yet processed in search for variable definitions if static_inline_function_file_path not in files_to_visit: files_to_visit[static_inline_function_file_path] = {} # if variable is not yet in this file's dictionary, create empty set to initialize if variable_name not in files_to_visit[static_inline_function_file_path]: files_to_visit[static_inline_function_file_path][variable_name] = set() # function block scope function_lines_from = int(reference.attrib["startline"]) function_lines_to = int(reference.attrib["endline"]) # find codelines referencing struct's variable codelines_xml = header_file_tree.getroot().findall(f".//ref[@refid='{member_id}']/../..") # filter by function's scope codelines = [int(line.attrib["lineno"]) for line in codelines_xml if int(line.attrib["lineno"]) >= function_lines_from and int(line.attrib["lineno"]) <= function_lines_to] # add variable reference files_to_visit[static_inline_function_file_path][variable_name].update(codelines) pp = pprint.PrettyPrinter(indent=4) pp.pprint(files_to_visit) for file_path, variables in files_to_visit.items(): with fileinput.FileInput(file_path, inplace=True) as file: output_line_number = 1 re_include_guard = re.compile(r"^#define.*{name}$".format(name=os.path.basename(file_path).replace('.','_').upper())) for line in file: insert_allow_private_include = False if re_include_guard.match(line): insert_allow_private_include = True for variable, var_lines in variables.items(): for var_line in var_lines: if output_line_number == var_line: line = re.sub(r"(^.*?\W+)({var})(\W+.*$)".format(var=variable), r"\1MBEDTLS_PRIVATE(\2)\3", line) output_line_number += 1 print(line, end='') # fileinput redirects stdout to the target file if insert_allow_private_include: insert_allow_private_include = False print("#include \"mbedtls/private_access.h\"")