from __future__ import print_function import collections import os import subprocess import sys import errno # The BINARY_INFO tuple describes a binary as dump_syms identifies it. BINARY_INFO = collections.namedtuple('BINARY_INFO', ['platform', 'arch', 'hash', 'name']) def get_module_info(header_info): # header info is of the form "MODULE $PLATFORM $ARCH $HASH $BINARY" info_split = header_info.strip().split(' ', 4) if len(info_split) != 5 or info_split[0] != 'MODULE': return None return BINARY_INFO(*info_split[1:]) def get_symbol_path(symbol_data): module_info = get_module_info(symbol_data[:symbol_data.index('\n')]) if not module_info: raise Exception("Couldn't get module info for binary '{}'".format(binary)) exe_name = module_info.name.replace('.pdb', '') return os.path.join(module_info.name, module_info.hash, exe_name + ".sym") def mkdir_p(path): """Simulates mkdir -p.""" try: os.makedirs(path) except OSError as e: if e.errno == errno.EEXIST and os.path.isdir(path): pass else: raise def main(dump_syms, binary, out_dir, stamp_file, dsym_file=None): args = [dump_syms] if dsym_file: args += ["-g", dsym_file] args += [binary] symbol_data = subprocess.check_output(args) symbol_path = os.path.join(out_dir, get_symbol_path(symbol_data)) mkdir_p(os.path.dirname(symbol_path)) with open(symbol_path, 'w') as out: out.write(symbol_data) with open(stamp_file, 'w'): pass if __name__ == '__main__': main(*sys.argv[1:])