import asyncio import base64 import hmac import re import secrets from discord.ext.commands import Cog from robocop_ng import config class YubicoOTP(Cog): def __init__(self, bot): self.bot = bot self.otp_re = re.compile("((cc|vv)[cbdefghijklnrtuv]{42})$") self.api_servers = [ "https://api.yubico.com", "https://api2.yubico.com", "https://api3.yubico.com", "https://api4.yubico.com", "https://api5.yubico.com", ] self.reuse_responses = ["BAD_OTP", "REPLAYED_OTP"] self.bad_responses = [ "MISSING_PARAMETER", "NO_SUCH_CLIENT", "OPERATION_NOT_ALLOWED", ] self.modhex_to_hex_conversion_map = { "c": "0", "b": "1", "d": "2", "e": "3", "f": "4", "g": "5", "h": "6", "i": "7", "j": "8", "k": "9", "l": "a", "n": "b", "r": "c", "t": "d", "u": "e", "v": "f", } def get_serial(self, otp): """Get OTP from serial, based on code by linuxgemini""" if otp[:2] != "cc": return False hexconv = [] for modhexletter in otp[0:12]: hexconv.append(self.modhex_to_hex_conversion_map[modhexletter]) return int("".join(hexconv), 16) def calc_signature(self, text): key = base64.b64decode(config.yubico_otp_secret) signature_bytes = hmac.digest(key, text.encode(), "SHA1") return base64.b64encode(signature_bytes).decode() def validate_response_signature(self, response_dict): yubico_signature = response_dict["h"] to_sign = "" for key in sorted(response_dict.keys()): if key == "h": continue to_sign += f"{key}={response_dict[key]}&" our_signature = self.calc_signature(to_sign.strip("&")) return our_signature == yubico_signature async def validate_yubico_otp(self, otp): nonce = secrets.token_hex(15) # Random number in the valid range params = f"id={config.yubico_otp_client_id}&nonce={nonce}&otp={otp}" # If secret is supplied, sign our request if config.yubico_otp_secret: params += "&h=" + self.calc_signature(params) for api_server in self.api_servers: url = f"{api_server}/wsapi/2.0/verify?{params}" try: resp = await self.bot.aiosession.get(url) assert resp.status == 200 except Exception as ex: self.bot.log.warning(f"Got {repr(ex)} on {api_server} with otp {otp}.") continue resptext = await resp.text() # Turn the fields to a python dict for easier parsing datafields = resptext.strip().split("\r\n") datafields = { line[: line.index("=")]: line[line.index("=") + 1 :] for line in datafields } # Verify nonce assert datafields["nonce"] == nonce # Verify signature if secret is present if config.yubico_otp_secret: assert self.validate_response_signature(datafields) # If we got a success, then return True if datafields["status"] == "OK": return True elif datafields["status"] in self.reuse_responses: return False # If status isn't an expected one, log it self.bot.log.warning( f"Got {repr(datafields)} on {api_server} with otp {otp} and nonce {nonce}" ) # If we fucked up in a way we can't recover from, just return None if datafields["status"] in self.bad_responses: return None # Return None if we fail to get responses from any server return None @Cog.listener() async def on_message(self, message): await self.bot.wait_until_ready() otps = self.otp_re.findall(message.content.strip()) if otps: otp = otps[0][0] # Validate OTP validation_result = await self.validate_yubico_otp(otp) if validation_result is not True: return # Derive serial and a string to use it serial = self.get_serial(otp) serial_str = f" (serial: `{serial}`)" if serial else "" # If the message content is _just_ the OTP code, delete it toos if message.content.strip() == otp: await message.delete() # If OTP is valid, tell user that it was revoked msg = await message.channel.send( f"{message.author.mention}: Ate Yubico OTP `{otp}`{serial_str}" ". This message will self destruct in 5 seconds." ) # and delete message after 5s to help SNR await asyncio.sleep(5) await msg.delete() async def setup(bot): await bot.add_cog(YubicoOTP(bot))