import argparse import re # this must match the equivalent function in qstr.c def compute_hash(qstr): hash = 0 for char in qstr: hash += ord(char) return hash & 0xffff def do_work(infiles): # read the qstrs in from the input files qstrs = [] for infile in infiles: with open(infile, 'rt') as f: line_number = 0 for line in f: line_number += 1 line = line.strip() # ignore blank lines and comments if len(line) == 0 or line.startswith('//'): continue # verify line is of the correct form match = re.match(r'Q\(([0-9A-Za-z_]+)\)$', line) if not match: print('({}:{}) bad qstr format, got {}'.format(infile, line_number, line)) return False # get the qstr value qstr = match.group(1) # don't add duplicates if qstr in qstrs: continue # add the qstr to the list qstrs.append(qstr) # process the qstrs, printing out the generated C header file print('// This file was automatically generated by makeqstrdata.py') print('') for qstr in qstrs: qhash = compute_hash(qstr) qlen = len(qstr) print('Q({}, (const byte*)"\\x{:02x}\\x{:02x}\\x{:02x}\\x{:02x}" "{}")'.format(qstr, qhash & 0xff, (qhash >> 8) & 0xff, qlen & 0xff, (qlen >> 8) & 0xff, qstr)) return True def main(): arg_parser = argparse.ArgumentParser(description='Process raw qstr file and output qstr data with length, hash and data bytes') arg_parser.add_argument('files', nargs='+', help='input file(s)') args = arg_parser.parse_args() result = do_work(args.files) if not result: print('exiting with error code') exit(1) if __name__ == "__main__": main()