#!/usr/bin/env python3 import re RE_DEFAULT = re.compile(r"\[D=([TF])\] ") RE_TRANSITION = re.compile(r"([a-zA-Z0-9 \[\]=#_-]+) *->(.*)") RE_ASSERTION = re.compile( r"\[A S=([a-zA-Z01_]+) SS=([a-zA-Z01_]+) ES=([a-zA-Z01_]+) P=([a-zA-Z_]+) ESP=([a-zA-Z_]+)\]" ) RE_ASSERTION_SHORTHAND = re.compile(r"\[A#([0-9T]+)\]") # ====================================================================== # ====================================================================== testnum = 1 def start_test(line): global testnum output.write( """ def test_{0}(self): # {1}...\n""".format( testnum, line[0:80] ) ) testnum += 1 def set_default(d): output.write( """ if self.default_is is not {0}: return\n""".format( "True" if d == "T" else "False" ) ) def enroll(e): if e.endswith("-C"): e = e[:-2] output.write("\n # Re-set enrollment pref, like Normandy would do\n") output.write( " self.set_enrollment_status(ExperimentStatus.ENROLLED_{0})\n".format( e.upper() ) ) def set_pref(enabled): output.write( "\n self.marionette.set_pref(Prefs.WIN32K, {0})\n".format(str(enabled)) ) def set_e10s(enable): if enable: output.write( """ self.restart(env={ENV_DISABLE_E10S: "1"}) self.set_env(ENV_DISABLE_E10S, "null")\n""" ) else: raise Exception("Not implemented") def set_header(enable): if enable: output.write( """ self.restart(env={ENV_DISABLE_WIN32K: "1"})\n""" ) else: output.write( """ self.set_env(ENV_DISABLE_WIN32K, "")\n""" ) def set_bad_requirements(enabled): output.write( """ self.marionette.set_pref(Prefs.WEBGL, {0})\n""".format( "False" if enabled else "True" ) ) def restart(): output.write("\n self.restart()\n") def print_assertion(assertion): if not assertion: return output.write( """ self.check_win32k_status( status=ContentWin32kLockdownState.{0}, sessionStatus=ContentWin32kLockdownState.{1}, experimentStatus=ExperimentStatus.{2}, pref={3}, enrollmentStatusPref=ExperimentStatus.{4}, )\n""".format( *assertion ) ) # ====================================================================== # ====================================================================== TESTS = open("win32k_tests.txt", "r").readlines() output = open("test_win32k_enrollment.py", "w", newline="\n") header = open("test_win32k_enrollment.template.py", "r") for l in header: output.write(l) mappings = {} for line in TESTS: line = line.strip() if not line: continue if line.startswith("#"): continue elif line.startswith("> "): line = line[2:] key, value = line.split(":") mappings[key.strip()] = value.strip() continue elif line.startswith("-"): line = line[1:].strip() elif line.startswith("+"): line = line[1:].strip() import pdb pdb.set_trace() else: raise Exception("unknown line type: " + line) # We can't handle Safe Mode right now if "Safe Mode" in line: continue # If we have no assertions defined, skip the test entirely if "[A" not in line: continue if not RE_DEFAULT.match(line): raise Exception("'{0}' does not match the default regex".format(line)) default = RE_DEFAULT.search(line).groups(1)[0] start_test(line) set_default(default) line = line[6:] while line: # this is a horrible hack for the line ending to avoid making the # regex more complicated and having to fix it if not line.endswith(" ->"): line += " ->" groups = RE_TRANSITION.search(line).groups() start = groups[0].strip() end = groups[1].strip() if RE_ASSERTION.search(start): assertion = RE_ASSERTION.search(start).groups() start = start[0 : start.index("[")].strip() elif RE_ASSERTION_SHORTHAND.search(start): key = RE_ASSERTION_SHORTHAND.search(start).groups()[0] assertion = RE_ASSERTION.search(mappings[key]).groups() start = start[0 : start.index("[")].strip() else: assertion = "" if start == "Nothing": pass elif start.startswith("Enrolled "): enroll(start[9:]) elif start == "E10S": set_e10s(True) elif start == "Header-On": set_header(True) elif start == "Header-Off": set_header(False) elif start == "Bad Requirements": set_bad_requirements(True) elif start == "Restart": restart() elif start == "On": set_pref(True) elif start == "Off": set_pref(False) else: raise Exception("Unknown Action: " + start) print_assertion(assertion) line = end.strip() if RE_ASSERTION.match(line): print_assertion(RE_ASSERTION.search(line).groups()) elif RE_ASSERTION_SHORTHAND.search(line): key = RE_ASSERTION_SHORTHAND.search(line).groups()[0] print_assertion(RE_ASSERTION.search(mappings[key]).groups())