""" _http.py websocket - WebSocket client library for Python Copyright 2023 engn33r Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. """ import errno import os import socket from base64 import encodebytes as base64encode from ._exceptions import * from ._logging import * from ._socket import * from ._ssl_compat import * from ._url import * __all__ = ["proxy_info", "connect", "read_headers"] try: from python_socks._errors import * from python_socks._types import ProxyType from python_socks.sync import Proxy HAVE_PYTHON_SOCKS = True except: HAVE_PYTHON_SOCKS = False class ProxyError(Exception): pass class ProxyTimeoutError(Exception): pass class ProxyConnectionError(Exception): pass class proxy_info: def __init__(self, **options): self.proxy_host = options.get("http_proxy_host", None) if self.proxy_host: self.proxy_port = options.get("http_proxy_port", 0) self.auth = options.get("http_proxy_auth", None) self.no_proxy = options.get("http_no_proxy", None) self.proxy_protocol = options.get("proxy_type", "http") # Note: If timeout not specified, default python-socks timeout is 60 seconds self.proxy_timeout = options.get("http_proxy_timeout", None) if self.proxy_protocol not in [ "http", "socks4", "socks4a", "socks5", "socks5h", ]: raise ProxyError( "Only http, socks4, socks5 proxy protocols are supported" ) else: self.proxy_port = 0 self.auth = None self.no_proxy = None self.proxy_protocol = "http" def _start_proxied_socket(url: str, options, proxy) -> tuple: if not HAVE_PYTHON_SOCKS: raise WebSocketException( "Python Socks is needed for SOCKS proxying but is not available" ) hostname, port, resource, is_secure = parse_url(url) if proxy.proxy_protocol == "socks4": rdns = False proxy_type = ProxyType.SOCKS4 # socks4a sends DNS through proxy elif proxy.proxy_protocol == "socks4a": rdns = True proxy_type = ProxyType.SOCKS4 elif proxy.proxy_protocol == "socks5": rdns = False proxy_type = ProxyType.SOCKS5 # socks5h sends DNS through proxy elif proxy.proxy_protocol == "socks5h": rdns = True proxy_type = ProxyType.SOCKS5 ws_proxy = Proxy.create( proxy_type=proxy_type, host=proxy.proxy_host, port=int(proxy.proxy_port), username=proxy.auth[0] if proxy.auth else None, password=proxy.auth[1] if proxy.auth else None, rdns=rdns, ) sock = ws_proxy.connect(hostname, port, timeout=proxy.proxy_timeout) if is_secure: if HAVE_SSL: sock = _ssl_socket(sock, options.sslopt, hostname) else: raise WebSocketException("SSL not available.") return sock, (hostname, port, resource) def connect(url: str, options, proxy, socket): # Use _start_proxied_socket() only for socks4 or socks5 proxy # Use _tunnel() for http proxy # TODO: Use python-socks for http protocol also, to standardize flow if proxy.proxy_host and not socket and proxy.proxy_protocol != "http": return _start_proxied_socket(url, options, proxy) hostname, port_from_url, resource, is_secure = parse_url(url) if socket: return socket, (hostname, port_from_url, resource) addrinfo_list, need_tunnel, auth = _get_addrinfo_list( hostname, port_from_url, is_secure, proxy ) if not addrinfo_list: raise WebSocketException(f"Host not found.: {hostname}:{port_from_url}") sock = None try: sock = _open_socket(addrinfo_list, options.sockopt, options.timeout) if need_tunnel: sock = _tunnel(sock, hostname, port_from_url, auth) if is_secure: if HAVE_SSL: sock = _ssl_socket(sock, options.sslopt, hostname) else: raise WebSocketException("SSL not available.") return sock, (hostname, port_from_url, resource) except: if sock: sock.close() raise def _get_addrinfo_list(hostname, port: int, is_secure: bool, proxy) -> tuple: phost, pport, pauth = get_proxy_info( hostname, is_secure, proxy.proxy_host, proxy.proxy_port, proxy.auth, proxy.no_proxy, ) try: # when running on windows 10, getaddrinfo without socktype returns a socktype 0. # This generates an error exception: `_on_error: exception Socket type must be stream or datagram, not 0` # or `OSError: [Errno 22] Invalid argument` when creating socket. Force the socket type to SOCK_STREAM. if not phost: addrinfo_list = socket.getaddrinfo( hostname, port, 0, socket.SOCK_STREAM, socket.SOL_TCP ) return addrinfo_list, False, None else: pport = pport and pport or 80 # when running on windows 10, the getaddrinfo used above # returns a socktype 0. This generates an error exception: # _on_error: exception Socket type must be stream or datagram, not 0 # Force the socket type to SOCK_STREAM addrinfo_list = socket.getaddrinfo( phost, pport, 0, socket.SOCK_STREAM, socket.SOL_TCP ) return addrinfo_list, True, pauth except socket.gaierror as e: raise WebSocketAddressException(e) def _open_socket(addrinfo_list, sockopt, timeout): err = None for addrinfo in addrinfo_list: family, socktype, proto = addrinfo[:3] sock = socket.socket(family, socktype, proto) sock.settimeout(timeout) for opts in DEFAULT_SOCKET_OPTION: sock.setsockopt(*opts) for opts in sockopt: sock.setsockopt(*opts) address = addrinfo[4] err = None while not err: try: sock.connect(address) except socket.error as error: sock.close() error.remote_ip = str(address[0]) try: eConnRefused = ( errno.ECONNREFUSED, errno.WSAECONNREFUSED, errno.ENETUNREACH, ) except AttributeError: eConnRefused = (errno.ECONNREFUSED, errno.ENETUNREACH) if error.errno not in eConnRefused: raise error err = error continue else: break else: continue break else: if err: raise err return sock def _wrap_sni_socket(sock: socket.socket, sslopt: dict, hostname, check_hostname): context = sslopt.get("context", None) if not context: context = ssl.SSLContext(sslopt.get("ssl_version", ssl.PROTOCOL_TLS_CLIENT)) # Non default context need to manually enable SSLKEYLOGFILE support by setting the keylog_filename attribute. # For more details see also: # * https://docs.python.org/3.8/library/ssl.html?highlight=sslkeylogfile#context-creation # * https://docs.python.org/3.8/library/ssl.html?highlight=sslkeylogfile#ssl.SSLContext.keylog_filename context.keylog_filename = os.environ.get("SSLKEYLOGFILE", None) if sslopt.get("cert_reqs", ssl.CERT_NONE) != ssl.CERT_NONE: cafile = sslopt.get("ca_certs", None) capath = sslopt.get("ca_cert_path", None) if cafile or capath: context.load_verify_locations(cafile=cafile, capath=capath) elif hasattr(context, "load_default_certs"): context.load_default_certs(ssl.Purpose.SERVER_AUTH) if sslopt.get("certfile", None): context.load_cert_chain( sslopt["certfile"], sslopt.get("keyfile", None), sslopt.get("password", None), ) # Python 3.10 switch to PROTOCOL_TLS_CLIENT defaults to "cert_reqs = ssl.CERT_REQUIRED" and "check_hostname = True" # If both disabled, set check_hostname before verify_mode # see https://github.com/liris/websocket-client/commit/b96a2e8fa765753e82eea531adb19716b52ca3ca#commitcomment-10803153 if sslopt.get("cert_reqs", ssl.CERT_NONE) == ssl.CERT_NONE and not sslopt.get( "check_hostname", False ): context.check_hostname = False context.verify_mode = ssl.CERT_NONE else: context.check_hostname = sslopt.get("check_hostname", True) context.verify_mode = sslopt.get("cert_reqs", ssl.CERT_REQUIRED) if "ciphers" in sslopt: context.set_ciphers(sslopt["ciphers"]) if "cert_chain" in sslopt: certfile, keyfile, password = sslopt["cert_chain"] context.load_cert_chain(certfile, keyfile, password) if "ecdh_curve" in sslopt: context.set_ecdh_curve(sslopt["ecdh_curve"]) return context.wrap_socket( sock, do_handshake_on_connect=sslopt.get("do_handshake_on_connect", True), suppress_ragged_eofs=sslopt.get("suppress_ragged_eofs", True), server_hostname=hostname, ) def _ssl_socket(sock: socket.socket, user_sslopt: dict, hostname): sslopt: dict = dict(cert_reqs=ssl.CERT_REQUIRED) sslopt.update(user_sslopt) certPath = os.environ.get("WEBSOCKET_CLIENT_CA_BUNDLE") if ( certPath and os.path.isfile(certPath) and user_sslopt.get("ca_certs", None) is None ): sslopt["ca_certs"] = certPath elif ( certPath and os.path.isdir(certPath) and user_sslopt.get("ca_cert_path", None) is None ): sslopt["ca_cert_path"] = certPath if sslopt.get("server_hostname", None): hostname = sslopt["server_hostname"] check_hostname = sslopt.get("check_hostname", True) sock = _wrap_sni_socket(sock, sslopt, hostname, check_hostname) return sock def _tunnel(sock: socket.socket, host, port: int, auth) -> socket.socket: debug("Connecting proxy...") connect_header = f"CONNECT {host}:{port} HTTP/1.1\r\n" connect_header += f"Host: {host}:{port}\r\n" # TODO: support digest auth. if auth and auth[0]: auth_str = auth[0] if auth[1]: auth_str += f":{auth[1]}" encoded_str = base64encode(auth_str.encode()).strip().decode().replace("\n", "") connect_header += f"Proxy-Authorization: Basic {encoded_str}\r\n" connect_header += "\r\n" dump("request header", connect_header) send(sock, connect_header) try: status, resp_headers, status_message = read_headers(sock) except Exception as e: raise WebSocketProxyException(str(e)) if status != 200: raise WebSocketProxyException(f"failed CONNECT via proxy status: {status}") return sock def read_headers(sock: socket.socket) -> tuple: status = None status_message = None headers: dict = {} trace("--- response header ---") while True: line = recv_line(sock) line = line.decode("utf-8").strip() if not line: break trace(line) if not status: status_info = line.split(" ", 2) status = int(status_info[1]) if len(status_info) > 2: status_message = status_info[2] else: kv = line.split(":", 1) if len(kv) != 2: raise WebSocketException("Invalid header") key, value = kv if key.lower() == "set-cookie" and headers.get("set-cookie"): headers["set-cookie"] = headers.get("set-cookie") + "; " + value.strip() else: headers[key.lower()] = value.strip() trace("-----------------------") return status, headers, status_message