#!/usr/bin/env python3 import math import socket import threading import asyncio import warnings from collections import namedtuple from XWBHash import encrypt0 as XWBHash_encrypt from typing import Any, Union, Sequence class RPCExc(Exception): pass class RPCExcFormat(ValueError, RPCExc): pass class RPCExcAuth(RPCExc): pass class RPCExcServerError(RPCExc): pass class RPCExcInvalidResult(RPCExc): pass class RPCType(object): LITERAL = b'0' REFERENCE = b'1' LIST = b'2' GLOBAL = b'3' EMPTY = b'4' STREAM = b'5' def __init__(self, value, magic=None): self.magic = magic self.value = value.value if isinstance(value, RPCType) else value RecordServerInfo = namedtuple('RecordServerInfo', ('server', 'volume', 'uci', 'device', 'attempts', 'skip_signon_screen', 'domain', 'production')) def s_pack(value: Any, encoding: str='latin-1'): encoded = value.encode(encoding) if len(encoded) <= 255: return bytes((len(encoded),)) + encoded raise ValueError('cannot s-pack string longer than 255 bytes: ' + repr(value)) def l_pack(value: Any, envelope: int=3, wrapped: bool=True, magic=None, encoding: str='latin-1'): if isinstance(value, dict): bare = b't'.join(l_pack(k, envelope=envelope, wrapped=False, encoding=encoding) + l_pack(v, envelope=envelope, wrapped=False, encoding=encoding) for k, v in value.items()) return ((magic or b'2') + bare + b'f') if wrapped else bare elif not isinstance(value, str) and hasattr(value, '__iter__'): bare = b't'.join(l_pack(k, envelope=envelope, wrapped=False, encoding=encoding) + l_pack(v, envelope=envelope, wrapped=False, encoding=encoding) for k, v in enumerate(value, start=1)) return ((magic or b'2') + bare + b'f') if wrapped else bare elif isinstance(value, RPCType): return l_pack(value.value, envelope=envelope, magic=value.magic, encoding=encoding) else: encoded = str(value).encode(encoding) if len(encoded) <= 10**envelope - 1: bare = str(len(encoded)).zfill(envelope).encode(encoding) + encoded return ((magic or b'0') + bare + b'f') if wrapped else bare raise ValueError(f'cannot l-pack string longer than {10**envelope - 1} bytes with an envelope of {envelope}: ' + repr(value)) def l_pack_maxlen(value: Any, encoding: str='latin-1'): if isinstance(value, dict): return max(max(l_pack_maxlen(k, encoding=encoding) for k in value.keys()), max(l_pack_maxlen(v, encoding=encoding) for v in value.values())) if len(value) > 0 else 0 elif not isinstance(value, str) and hasattr(value, '__iter__'): return max(len(str(len(value))), max(l_pack_maxlen(v, encoding=encoding) for v in value)) if len(value) > 0 else 0 else: return len(str(value).encode(encoding)) def rpc_pack(name: str, *args: Any, command: bool=False, envelope: int=0, broker_version: str='XWB*1.1*65', encoding: str='latin-1'): # protocol token [XWB]VTEX: [XWB] = NS broker [XWB], V = V 1, T = type 1, E = envelope size 3, X = XWBPRT 0 envelope = max(3, math.ceil(math.log10(max(1, max(l_pack_maxlen(arg, encoding=encoding) for arg in args)))) if envelope < 1 and len(args) else envelope) return b'[XWB]11' + str(envelope).encode(encoding) + b'0' + (b'4' if command else (b'2' + s_pack(broker_version, encoding=encoding))) + s_pack(name, encoding=encoding) + b'5' + (b''.join(l_pack(arg, envelope=envelope, encoding=encoding) for arg in args) if len(args) > 0 else b'4f') def rpc_unpack_result(data: str, encoding: str='latin-1'): if data[:2] == b'\x00\x00': if len(data) > 2 and data[2] == 0x18: # 0x18 is CAN raise RPCExcServerError(data[3:].decode(encoding)) elif data[-1] == 0x1f: # 0x1f is US return rpc_unpack_table(data[2:-1].decode(encoding).split('\x1e')) # 0x1e is RS elif data[-2:] == b'\r\n': return tuple(data[2:-2].decode(encoding).split('\r\n')) else: return data[2:].decode(encoding) raise RPCExcFormat(data) def rpc_unpack_table(rows: Sequence[str]): # table: ROW\x1eROW\x1eROW\x1eROW\x1eROW\x1e\x1f; row: COL^COL^COL^COL^COL; header field: [IT]\d{5}.+ if len(rows) > 0 and len(hdr := rows[0]) > 0 and hdr[0] in ('I', 'T') and hdr[1:6].isdecimal(): header = [field[6:] for field in rows[0].split('^')] return tuple(dict(zip(header, row.split('^'))) for row in rows[1:] if len(row) > 0) else: return tuple(tuple(row.split('^')) for row in rows if len(row) > 0) def send_rpc_msg(sock: socket.socket, msg: bytes, end: bytes=b'\x04'): sock.send(msg + end) def recv_rpc_msg(sock: socket.socket, end: bytes=b'\x04', minsz: int=1024, maxsz: int=32768): # 0x04 is EOT buf = b'' bufsz = minsz while True: if len(data := sock.recv(bufsz)) > 0: buf += data while (idx := buf.find(end)) >= 0: if idx > 0: yield buf[:idx] bufsz = minsz elif bufsz < maxsz: bufsz = _x if (_x := bufsz << 1) < maxsz else maxsz buf = buf[idx + 1:] class ClientSync(object): def __init__(self, host: str, port: int, TCPConnect: bool=True): self.sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.sock.connect((host, port)) self.recv_rpc_msg = recv_rpc_msg(self.sock) self.lock = threading.Lock() self._server = { 'host': host, 'port': port } self._user = None self.context = 'XUS SIGNON' if TCPConnect and (res := self.TCPConnect(self.sock.getsockname()[0], '0', socket.gethostname())) != 'accept': raise RPCExcInvalidResult('TCPConnect', self.sock.getsockname()[0], '0', socket.gethostname(), res) def __call__(self, name: str, *args: Any, command: bool=False, envelope: int=0, context: Union[Sequence, None]=None, encoding='latin-1'): name = name.replace('_', ' ') with self.lock: if name != 'XWB CREATE CONTEXT' and context and len(context) > 0 and self.context not in context: send_rpc_msg(self.sock, rpc_pack('XWB CREATE CONTEXT', XWBHash_encrypt(context[0]), envelope=envelope, encoding=encoding)) if (res := rpc_unpack_result(next(self.recv_rpc_msg), encoding=encoding)) != '1': raise RPCExcInvalidResult('XWB CREATE CONTEXT', context[0], res) self.context = context[0] send_rpc_msg(self.sock, rpc_pack(name, *args, command=command, envelope=envelope, encoding=encoding)) return rpc_unpack_result(next(self.recv_rpc_msg), encoding=encoding) def __getattr__(self, key: str, commands: set={'TCPConnect'}): command = key in commands setattr(self, key, (thunk := lambda *args, **kw: self(key, *args, **kw, command=command))) return thunk def __del__(self): if isinstance(getattr(self, 'sock'), socket.socket): self('#BYE#', command=True) self.sock.close() def close(self): if (res := self('#BYE#', command=True)) != '#BYE#': warnings.warn(f'RPC #BYE# returned {repr(res)} instead of \'#BYE#\'') self.sock.shutdown(socket.SHUT_RDWR) self.sock.close() self.sock = self.recv_rpc_msg = None return res def authenticate(self, identity: str, *, context=('XUS SIGNON',)): self._server.update(RecordServerInfo(*self('XUS SIGNON SETUP', '', '1', context=context))._asdict()) if identity.startswith(''): res = self('XUS ESSO VALIDATE', RPCType(tuple(identity[i:i+200] for i in range(0, len(identity), 200)), RPCType.GLOBAL)) else: res = self('XUS AV CODE', XWBHash_encrypt(identity)) if res[0] == '0' or res[2] != '0': raise RPCExcAuth(res[3], res) self._user = res return res def keepalive(self, interval=None, *, context=('XUS SIGNON',)): import time interval = interval or 0.45*float(self.XWB_GET_BROKER_INFO(context=context)[0]) while True: time.sleep(interval) self.XWB_IM_HERE() async def asend_rpc_msg(writer: asyncio.StreamWriter, msg: bytes, end: bytes=b'\x04'): writer.write(msg + end) await writer.drain() async def arecv_rpc_msg(reader: asyncio.StreamReader, end: bytes=b'\x04', minsz: int=1024, maxsz: int=32768): # \x04 is EOT buf = b'' bufsz = minsz while True: if len(data := await reader.read(bufsz)) > 0: buf += data while (idx := buf.find(end)) >= 0: if idx > 0: yield buf[:idx] bufsz = minsz elif bufsz < maxsz: bufsz = _x if (_x := bufsz << 1) < maxsz else maxsz buf = buf[idx + 1:] else: raise ConnectionAbortedError class ClientAsync(object): async def __new__(cls, *args, **kw): await (self := super(ClientAsync, cls).__new__(cls)).__init__(*args, **kw) return self async def __init__(self, host: str, port: int, TCPConnect: bool=True): self.reader, self.writer = await asyncio.open_connection(host, port) self.arecv_rpc_msg = arecv_rpc_msg(self.reader) self.lock = asyncio.Lock() self._server = { 'host': host, 'port': port, 'info': None } self._user = None self.context = 'XUS SIGNON' if TCPConnect and (res := await self.TCPConnect(self.writer.get_extra_info('sockname')[0], '0', socket.gethostname())) != 'accept': raise RPCExcInvalidResult('TCPConnect', self.writer.get_extra_info('sockname')[0], '0', socket.gethostname(), res) async def __call__(self, name: str, *args: Any, command: bool=False, envelope: int=0, context: Union[Sequence, None]=None, encoding='latin-1'): name = name.replace('_', ' ') async with self.lock: if name != 'XWB CREATE CONTEXT' and context and len(context) > 0 and self.context not in context: await asend_rpc_msg(self.writer, rpc_pack('XWB CREATE CONTEXT', XWBHash_encrypt(context[0]), envelope=envelope, encoding=encoding)) if (res := rpc_unpack_result(await self.arecv_rpc_msg.__anext__(), encoding=encoding)) != '1': raise RPCExcInvalidResult('XWB CREATE CONTEXT', context[0], res) self.context = context[0] await asend_rpc_msg(self.writer, rpc_pack(name, *args, command=command, envelope=envelope, encoding=encoding)) return rpc_unpack_result(await self.arecv_rpc_msg.__anext__(), encoding=encoding) def __getattr__(self, key: str, commands: set={'TCPConnect'}): command = key in commands async def thunk(*args, **kw): return await self(key, *args, **kw, command=command) setattr(self, key, thunk) return thunk def __del__(self): if isinstance(getattr(self, 'writer'), asyncio.StreamWriter): try: self.writer.close() except RuntimeError: pass self.reader = self.writer = None async def close(self): if (res := await self('#BYE#', command=True)) != '#BYE#': warnings.warn(f'RPC #BYE# returned {repr(res)} instead of \'#BYE#\'') self.writer.close() await self.writer.wait_closed() self.reader = self.writer = None return res async def authenticate(self, identity: str, *, context=('XUS SIGNON',)): self._server.update(RecordServerInfo(*await self('XUS SIGNON SETUP', '', '1', context=context))._asdict()) if identity.startswith(''): res = await self('XUS ESSO VALIDATE', RPCType(tuple(identity[i:i+200] for i in range(0, len(identity), 200)), RPCType.GLOBAL)) else: res = await self('XUS AV CODE', XWBHash_encrypt(identity)) if res[0] == '0' or res[2] != '0': raise RPCExcAuth(res[3], res) self._user = res return res async def keepalive(self, interval=None, *, context=('XUS SIGNON',)): interval = interval or 0.45*float((await self.XWB_GET_BROKER_INFO(context=context))[0]) while True: await asyncio.sleep(interval) await self.XWB_IM_HERE() if __name__ == '__main__': import getpass, code from auth import XUIAMSSOi_MySsoTokenVBA client = ClientSync(host='test.northport.med.va.gov', port=19009) #client = ClientSync(host='vista.northport.med.va.gov', port=19209) threading.Thread(target=client.keepalive, daemon=True).start() print('\r\n'.join(client.XUS_INTRO_MSG())) if token := XUIAMSSOi_MySsoTokenVBA(): print('authenticate', repr(client.authenticate(token))) else: print('authenticate', repr(client.authenticate(f"{getpass.getpass('ACCESS CODE: ')};{getpass.getpass('VERIFY CODE: ')}"))) code.interact(local=globals())