import errno import os import select import socket import sys import threading import time import traceback from typing import Optional # noqa from OpenSSL import SSL from seleniumwire.thirdparty.mitmproxy import certs, exceptions from seleniumwire.thirdparty.mitmproxy.coretypes import basethread from seleniumwire.thirdparty.mitmproxy.net import tls socket_fileobject = socket.SocketIO # workaround for https://bugs.python.org/issue29515 # Python 3.6 for Windows is missing a constant IPPROTO_IPV6 = getattr(socket, "IPPROTO_IPV6", 41) class _FileLike: BLOCKSIZE = 1024 * 32 def __init__(self, o): self.o = o self._log = None self.first_byte_timestamp = None def set_descriptor(self, o): self.o = o def __getattr__(self, attr): return getattr(self.o, attr) def start_log(self): """ Starts or resets the log. This will store all bytes read or written. """ self._log = [] def stop_log(self): """ Stops the log. """ self._log = None def is_logging(self): return self._log is not None def get_log(self): """ Returns the log as a string. """ if not self.is_logging(): raise ValueError("Not logging!") return b"".join(self._log) def add_log(self, v): if self.is_logging(): self._log.append(v) def reset_timestamps(self): self.first_byte_timestamp = None class Writer(_FileLike): def flush(self): """ May raise exceptions.TcpDisconnect """ if hasattr(self.o, "flush"): try: self.o.flush() except (socket.error, IOError) as v: raise exceptions.TcpDisconnect(str(v)) def write(self, v): """ May raise exceptions.TcpDisconnect """ if v: self.first_byte_timestamp = self.first_byte_timestamp or time.time() try: if hasattr(self.o, "sendall"): self.add_log(v) return self.o.sendall(v) else: r = self.o.write(v) self.add_log(v[:r]) return r except (SSL.Error, socket.error) as e: raise exceptions.TcpDisconnect(str(e)) class Reader(_FileLike): def read(self, length): """ If length is -1, we read until connection closes. """ result = b'' start = time.time() while length == -1 or length > 0: if length == -1 or length > self.BLOCKSIZE: rlen = self.BLOCKSIZE else: rlen = length try: data = self.o.read(rlen) except SSL.ZeroReturnError: # TLS connection was shut down cleanly break except (SSL.WantWriteError, SSL.WantReadError): # From the OpenSSL docs: # If the underlying BIO is non-blocking, SSL_read() will also return when the # underlying BIO could not satisfy the needs of SSL_read() to continue the # operation. In this case a call to SSL_get_error with the return value of # SSL_read() will yield SSL_ERROR_WANT_READ or SSL_ERROR_WANT_WRITE. # 300 is OpenSSL default timeout timeout = self.o.gettimeout() or 300 if (time.time() - start) < timeout: time.sleep(0.1) continue else: raise exceptions.TcpTimeout() except socket.timeout: raise exceptions.TcpTimeout() except socket.error as e: raise exceptions.TcpDisconnect(str(e)) except SSL.SysCallError as e: if e.args == (-1, 'Unexpected EOF'): break raise exceptions.TlsException(str(e)) except SSL.Error as e: raise exceptions.TlsException(str(e)) self.first_byte_timestamp = self.first_byte_timestamp or time.time() if not data: break result += data if length != -1: length -= len(data) self.add_log(result) return result def readline(self, size=None): result = b'' bytes_read = 0 while True: if size is not None and bytes_read >= size: break ch = self.read(1) bytes_read += 1 if not ch: break else: result += ch if ch == b'\n': break return result def safe_read(self, length): """ Like .read, but is guaranteed to either return length bytes, or raise an exception. """ result = self.read(length) if length != -1 and len(result) != length: if not result: raise exceptions.TcpDisconnect() else: raise exceptions.TcpReadIncomplete( "Expected %s bytes, got %s" % (length, len(result)) ) return result def peek(self, length): """ Tries to peek into the underlying file object. Returns: Up to the next N bytes if peeking is successful. Raises: exceptions.TcpException if there was an error with the socket TlsException if there was an error with pyOpenSSL. NotImplementedError if the underlying file object is not a [pyOpenSSL] socket """ if isinstance(self.o, socket_fileobject): try: return self.o._sock.recv(length, socket.MSG_PEEK) except socket.error as e: raise exceptions.TcpException(repr(e)) elif isinstance(self.o, SSL.Connection): try: return self.o.recv(length, socket.MSG_PEEK) except SSL.Error as e: raise exceptions.TlsException(str(e)) else: raise NotImplementedError("Can only peek into (pyOpenSSL) sockets") def ssl_read_select(rlist, timeout): """ This is a wrapper around select.select() which also works for SSL.Connections by taking ssl_connection.pending() into account. Caveats: If .pending() > 0 for any of the connections in rlist, we avoid the select syscall and **will not include any other connections which may or may not be ready**. Args: rlist: wait until ready for reading Returns: subset of rlist which is ready for reading. """ return [ conn for conn in rlist if isinstance(conn, SSL.Connection) and conn.pending() > 0 ] or select.select(rlist, (), (), timeout)[0] def close_socket(sock): """ Does a hard close of a socket, without emitting a RST. """ try: # We already indicate that we close our end. # may raise "Transport endpoint is not connected" on Linux sock.shutdown(socket.SHUT_WR) # Section 4.2.2.13 of RFC 1122 tells us that a close() with any pending # readable data could lead to an immediate RST being sent (which is the # case on Windows). # http://ia600609.us.archive.org/22/items/TheUltimateSo_lingerPageOrWhyIsMyTcpNotReliable/the-ultimate-so_linger-page-or-why-is-my-tcp-not-reliable.html # # This in turn results in the following issue: If we send an error page # to the client and then close the socket, the RST may be received by # the client before the error page and the users sees a connection # error rather than the error page. Thus, we try to empty the read # buffer on Windows first. (see # https://github.com/mitmproxy/mitmproxy/issues/527#issuecomment-93782988) # if os.name == "nt": # pragma: no cover # We cannot rely on the shutdown()-followed-by-read()-eof technique # proposed by the page above: Some remote machines just don't send # a TCP FIN, which would leave us in the unfortunate situation that # recv() would block infinitely. As a workaround, we set a timeout # here even if we are in blocking mode. sock.settimeout(sock.gettimeout() or 20) # limit at a megabyte so that we don't read infinitely for _ in range(1024 ** 3 // 4096): # may raise a timeout/disconnect exception. if not sock.recv(4096): break # Now we can close the other half as well. sock.shutdown(socket.SHUT_RD) except socket.error: pass sock.close() class _Connection: rbufsize = -1 wbufsize = -1 def _makefile(self): """ Set up .rfile and .wfile attributes from .connection """ # Ideally, we would use the Buffered IO in Python 3 by default. # Unfortunately, the implementation of .peek() is broken for n>1 bytes, # as it may just return what's left in the buffer and not all the bytes we want. # As a workaround, we just use unbuffered sockets directly. # https://mail.python.org/pipermail/python-dev/2009-June/089986.html self.rfile = Reader(socket.SocketIO(self.connection, "rb")) self.wfile = Writer(socket.SocketIO(self.connection, "wb")) def __init__(self, connection): if connection: self.connection = connection self.ip_address = connection.getpeername() self._makefile() else: self.connection = None self.ip_address = None self.rfile = None self.wfile = None self.tls_established = False self.finished = False def get_current_cipher(self): if not self.tls_established: return None name = self.connection.get_cipher_name() bits = self.connection.get_cipher_bits() version = self.connection.get_cipher_version() return name, bits, version def finish(self): self.finished = True # If we have an SSL connection, wfile.close == connection.close # (We call _FileLike.set_descriptor(conn)) # Closing the socket is not our task, therefore we don't call close # then. if not isinstance(self.connection, SSL.Connection): if not getattr(self.wfile, "closed", False): try: self.wfile.flush() self.wfile.close() except exceptions.TcpDisconnect: pass self.rfile.close() else: try: self.connection.shutdown() except SSL.Error: pass class ConnectionCloser: def __init__(self, conn): self.conn = conn self._canceled = False def pop(self): """ Cancel the current closer, and return a fresh one. """ self._canceled = True return ConnectionCloser(self.conn) def __enter__(self): return self def __exit__(self, *args): if not self._canceled: self.conn.close() class TCPClient(_Connection): def __init__(self, address, source_address=None, spoof_source_address=None): super().__init__(None) self.address = address self.source_address = source_address self.cert = None self.server_certs = [] self.sni = None self.spoof_source_address = spoof_source_address @property def ssl_verification_error(self) -> Optional[exceptions.InvalidCertificateException]: return getattr(self.connection, "cert_error", None) def close(self): # Make sure to close the real socket, not the SSL mitmproxy. # OpenSSL is really good at screwing up, i.e. when trying to recv from a failed connection, # it tries to renegotiate... if self.connection: if isinstance(self.connection, SSL.Connection): close_socket(self.connection._socket) else: close_socket(self.connection) def convert_to_tls(self, sni=None, alpn_protos=None, **sslctx_kwargs): context = tls.create_client_context( alpn_protos=alpn_protos, sni=sni, **sslctx_kwargs ) sock = self.connection self.connection = SSL.Connection(context, self.connection) if sni: self.sni = sni self.connection.set_tlsext_host_name(sni.encode("idna")) self.connection.set_connect_state() do_ssl_handshake(sock, self.connection) self.cert = certs.Cert(self.connection.get_peer_certificate()) # Keep all server certificates in a list for i in self.connection.get_peer_cert_chain(): self.server_certs.append(certs.Cert(i)) self.tls_established = True self.rfile.set_descriptor(self.connection) self.wfile.set_descriptor(self.connection) def makesocket(self, family, type, proto): # some parties (cuckoo sandbox) need to hook this return socket.socket(family, type, proto) def getaddrinfo(self, *args, **kwargs): return socket.getaddrinfo(*args, **kwargs) def create_connection(self, timeout=None): # Based on the official socket.create_connection implementation of Python 3.6. # https://github.com/python/cpython/blob/3cc5817cfaf5663645f4ee447eaed603d2ad290a/Lib/socket.py err = None for res in self.getaddrinfo(self.address[0], self.address[1], 0, socket.SOCK_STREAM): af, socktype, proto, canonname, sa = res sock = None try: sock = self.makesocket(af, socktype, proto) if timeout: sock.settimeout(timeout) if self.source_address: sock.bind(self.source_address) if self.spoof_source_address: try: if not sock.getsockopt(socket.SOL_IP, socket.IP_TRANSPARENT): sock.setsockopt(socket.SOL_IP, socket.IP_TRANSPARENT, 1) # pragma: windows no cover pragma: osx no cover except Exception as e: # socket.IP_TRANSPARENT might not be available on every OS and Python version if sock is not None: sock.close() raise exceptions.TcpException( "Failed to spoof the source address: " + str(e) ) sock.connect(sa) return sock except socket.error as _: err = _ if sock is not None: sock.close() if err is not None: raise err else: raise socket.error("getaddrinfo returns an empty list") # pragma: no cover def connect(self): try: connection = self.create_connection() except (socket.error, IOError) as err: raise exceptions.TcpException( 'Error connecting to "%s": %s' % (self.address[0], err) ) self.connection = connection self.source_address = connection.getsockname() self.ip_address = connection.getpeername() self._makefile() return ConnectionCloser(self) def settimeout(self, n): self.connection.settimeout(n) def gettimeout(self): return self.connection.gettimeout() def get_alpn_proto_negotiated(self): if self.tls_established: return self.connection.get_alpn_proto_negotiated() else: return b"" def do_ssl_handshake(sock, ssl_connection): """Peform the SSL handshake. If a timeout has been set on the socket externally, it causes OpenSSL to raise EWOULDBLOCK which breaks the handshake. This function will catch that condition and will retry the operation until it succeeds or some other error occurs. See https://github.com/pyca/pyopenssl/issues/168 for more information. Args: sock: The underlying socket. ssl_connection: The OpenSSL Connection object. """ while True: try: ssl_connection.do_handshake() except SSL.WantReadError: rd, _, _ = select.select([sock], [], [], sock.gettimeout()) if not rd: raise exceptions.TcpTimeout("Select timed out") continue except SSL.Error as e: verification_error = getattr(ssl_connection, "cert_error", None) if verification_error: raise verification_error else: raise exceptions.TlsException("SSL handshake error: %s" % repr(e)) break class BaseHandler(_Connection): """ The instantiator is expected to call the handle() and finish() methods. """ def __init__(self, connection, address, server): super().__init__(connection) self.address = address self.server = server self.clientcert = None def convert_to_tls(self, cert, key, **sslctx_kwargs): """ Convert connection to SSL. For a list of parameters, see tls.create_server_context(...) """ context = tls.create_server_context( cert=cert, key=key, **sslctx_kwargs) sock = self.connection self.connection = SSL.Connection(context, self.connection) self.connection.set_accept_state() try: do_ssl_handshake(sock, self.connection) except SSL.Error as v: raise exceptions.TlsException("SSL handshake error: %s" % repr(v)) self.tls_established = True cert = self.connection.get_peer_certificate() if cert: self.clientcert = certs.Cert(cert) self.rfile.set_descriptor(self.connection) self.wfile.set_descriptor(self.connection) def handle(self): # pragma: no cover raise NotImplementedError def settimeout(self, n): self.connection.settimeout(n) def get_alpn_proto_negotiated(self): if self.tls_established: return self.connection.get_alpn_proto_negotiated() else: return b"" class Counter: def __init__(self): self._count = 0 self._lock = threading.Lock() @property def count(self): with self._lock: return self._count def __enter__(self): with self._lock: self._count += 1 def __exit__(self, *args): with self._lock: self._count -= 1 class TCPServer: def __init__(self, address): self.address = address self.__is_shut_down = threading.Event() self.__is_shut_down.set() self.__shutdown_request = False if self.address[0] == 'localhost': raise socket.error("Binding to 'localhost' is prohibited. Please use '::1' or '127.0.0.1' directly.") self.socket = None try: # First try to bind an IPv6 socket, attempting to enable IPv4 support if the OS supports it. # This allows us to accept connections for ::1 and 127.0.0.1 on the same socket. # Only works if self.address == "" self.socket = socket.socket(socket.AF_INET6, socket.SOCK_STREAM) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1) self.socket.setsockopt(IPPROTO_IPV6, socket.IPV6_V6ONLY, 0) self.socket.bind(self.address) except socket.error as e: if self.socket: self.socket.close() self.socket = None if e.errno == 98: # Address already in use raise e if not self.socket: try: # Binding to an IPv6 + IPv4 socket failed, lets fall back to IPv4 only. self.socket = socket.socket(socket.AF_INET, socket.SOCK_STREAM) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1) self.socket.bind(self.address) except socket.error as e: if self.socket: self.socket.close() self.socket = None if e.errno == 98: # Address already in use raise e if not self.socket: # Binding to an IPv4 only socket failed, lets fall back to IPv6 only. self.socket = socket.socket(socket.AF_INET6, socket.SOCK_STREAM) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1) self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_KEEPALIVE, 1) self.socket.bind(self.address) self.address = self.socket.getsockname() self.socket.listen() self.handler_counter = Counter() def connection_thread(self, connection, client_address): with self.handler_counter: try: self.handle_client_connection(connection, client_address) except OSError as e: # pragma: no cover # This catches situations where the underlying connection is # closed beneath us. Syscalls on the connection object at this # point returns EINVAL. If this happens, we close the socket and # move on. if not e.errno == errno.EINVAL: raise except: self.handle_error(connection, client_address) finally: close_socket(connection) def serve_forever(self, poll_interval=0.1): self.__is_shut_down.clear() try: while not self.__shutdown_request: r, w_, e_ = select.select([self.socket], [], [], poll_interval) if self.socket in r: connection, client_address = self.socket.accept() t = basethread.BaseThread( "TCPConnectionHandler (%s: %s:%s -> %s:%s)" % ( self.__class__.__name__, client_address[0], client_address[1], self.address[0], self.address[1], ), target=self.connection_thread, args=(connection, client_address), ) t.daemon = True try: t.start() except threading.ThreadError: self.handle_error(connection, client_address) connection.close() finally: self.__shutdown_request = False self.__is_shut_down.set() def shutdown(self): self.__shutdown_request = True self.__is_shut_down.wait() self.socket.close() self.handle_shutdown() def handle_error(self, connection_, client_address, fp=sys.stderr): """ Called when handle_client_connection raises an exception. """ # If a thread has persisted after interpreter exit, the module might be # none. if traceback: exc = str(traceback.format_exc()) print(u'-' * 40, file=fp) print( u"Error in processing of request from %s" % repr(client_address), file=fp) print(exc, file=fp) print(u'-' * 40, file=fp) def handle_client_connection(self, conn, client_address): # pragma: no cover """ Called after client connection. """ raise NotImplementedError def handle_shutdown(self): """ Called after server shutdown. """ def wait_for_silence(self, timeout=5): start = time.time() while 1: if time.time() - start >= timeout: raise exceptions.Timeout( "%s service threads still alive" % self.handler_counter.count ) if self.handler_counter.count == 0: return