mitmproxy/netlib/tcp.py

from __future__ import (absolute_import, print_function, division)
import os
import select
import socket
import sys
import threading
import time
import traceback

import OpenSSL
from OpenSSL import SSL

from . import certutils


EINTR = 4

SSLv2_METHOD = SSL.SSLv2_METHOD
SSLv3_METHOD = SSL.SSLv3_METHOD
SSLv23_METHOD = SSL.SSLv23_METHOD
TLSv1_METHOD = SSL.TLSv1_METHOD
TLSv1_1_METHOD = SSL.TLSv1_1_METHOD
TLSv1_2_METHOD = SSL.TLSv1_2_METHOD

class NetLibError(Exception):
    pass


class NetLibDisconnect(NetLibError):
    pass


class NetLibIncomplete(NetLibError):
    pass


class NetLibTimeout(NetLibError):
    pass


class NetLibSSLError(NetLibError):
    pass


class SSLKeyLogger(object):

    def __init__(self, filename):
        self.filename = filename
        self.f = None
        self.lock = threading.Lock()

    # required for functools.wraps, which pyOpenSSL uses.
    __name__ = "SSLKeyLogger"

    def __call__(self, connection, where, ret):
        if where == SSL.SSL_CB_HANDSHAKE_DONE and ret == 1:
            with self.lock:
                if not self.f:
                    d = os.path.dirname(self.filename)
                    if not os.path.isdir(d):
                        os.makedirs(d)
                    self.f = open(self.filename, "ab")
                    self.f.write("\r\n")
                client_random = connection.client_random().encode("hex")
                masterkey = connection.master_key().encode("hex")
                self.f.write(
                    "CLIENT_RANDOM {} {}\r\n".format(
                        client_random,
                        masterkey))
                self.f.flush()

    def close(self):
        with self.lock:
            if self.f:
                self.f.close()

    @staticmethod
    def create_logfun(filename):
        if filename:
            return SSLKeyLogger(filename)
        return False

log_ssl_key = SSLKeyLogger.create_logfun(
    os.getenv("MITMPROXY_SSLKEYLOGFILE") or os.getenv("SSLKEYLOGFILE"))


class _FileLike(object):
    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 "".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 NetLibDisconnect
        """
        if hasattr(self.o, "flush"):
            try:
                self.o.flush()
            except (socket.error, IOError) as v:
                raise NetLibDisconnect(str(v))

    def write(self, v):
        """
            May raise NetLibDisconnect
        """
        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 NetLibDisconnect(str(e))


class Reader(_FileLike):

    def read(self, length):
        """
            If length is -1, we read until connection closes.
        """
        result = ''
        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:
                break
            except SSL.WantReadError:
                if (time.time() - start) < self.o.gettimeout():
                    time.sleep(0.1)
                    continue
                else:
                    raise NetLibTimeout
            except socket.timeout:
                raise NetLibTimeout
            except socket.error:
                raise NetLibDisconnect
            except SSL.SysCallError as e:
                if e.args == (-1, 'Unexpected EOF'):
                    break
                raise NetLibSSLError(e.message)
            except SSL.Error as e:
                raise NetLibSSLError(e.message)
            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 = ''
        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 == '\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 NetLibDisconnect()
            else:
                raise NetLibIncomplete(
                    "Expected %s bytes, got %s" % (length, len(result))
                )
        return result


class Address(object):

    """
        This class wraps an IPv4/IPv6 tuple to provide named attributes and
        ipv6 information.
    """

    def __init__(self, address, use_ipv6=False):
        self.address = tuple(address)
        self.use_ipv6 = use_ipv6

    @classmethod
    def wrap(cls, t):
        if isinstance(t, cls):
            return t
        else:
            return cls(t)

    def __call__(self):
        return self.address

    @property
    def host(self):
        return self.address[0]

    @property
    def port(self):
        return self.address[1]

    @property
    def use_ipv6(self):
        return self.family == socket.AF_INET6

    @use_ipv6.setter
    def use_ipv6(self, b):
        self.family = socket.AF_INET6 if b else socket.AF_INET

    def __repr__(self):
        return "{}:{}".format(self.host, self.port)

    def __str__(self):
        return str(self.address)

    def __eq__(self, other):
        other = Address.wrap(other)
        return (self.address, self.family) == (other.address, other.family)

    def __ne__(self, other):
        return not self.__eq__(other)


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 xrange(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(object):

    def get_current_cipher(self):
        if not self.ssl_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 NetLibDisconnect:
                    pass

            self.rfile.close()
        else:
            try:
                self.connection.shutdown()
            except SSL.Error:
                pass

    """
    Creates an SSL Context.
    """

    def _create_ssl_context(self,
                            method=SSLv23_METHOD,
                            options=(SSL.OP_NO_SSLv2 | SSL.OP_NO_SSLv3 | SSL.OP_CIPHER_SERVER_PREFERENCE | SSL.OP_NO_COMPRESSION),
                            verify_options=SSL.VERIFY_NONE,
                            ca_path=None,
                            ca_pemfile=None,
                            cipher_list=None,
                            alpn_protos=None,
                            alpn_select=None,
                            ):
        """
        :param method: One of SSLv2_METHOD, SSLv3_METHOD, SSLv23_METHOD, TLSv1_METHOD, TLSv1_1_METHOD, or TLSv1_2_METHOD
        :param options: A bit field consisting of OpenSSL.SSL.OP_* values
        :param verify_options: A bit field consisting of OpenSSL.SSL.VERIFY_* values
        :param ca_path: Path to a directory of trusted CA certificates prepared using the c_rehash tool
        :param ca_pemfile: Path to a PEM formatted trusted CA certificate
        :param cipher_list: A textual OpenSSL cipher list, see https://www.openssl.org/docs/apps/ciphers.html
        :rtype : SSL.Context
        """
        context = SSL.Context(method)
        # Options (NO_SSLv2/3)
        if options is not None:
            context.set_options(options)

        # Verify Options (NONE/PEER/PEER|FAIL_IF_... and trusted CAs)
        if verify_options is not None and verify_options is not SSL.VERIFY_NONE:
            def verify_cert(conn, cert, errno, err_depth, is_cert_verified):
                if is_cert_verified:
                    return True
                raise NetLibError(
                    "Upstream certificate validation failed at depth: %s with error number: %s" %
                    (err_depth, errno))

            context.set_verify(verify_options, verify_cert)
            if ca_path is not None or ca_pemfile is not None:
                context.load_verify_locations(ca_pemfile, ca_path)

        # Workaround for
        # https://github.com/pyca/pyopenssl/issues/190
        # https://github.com/mitmproxy/mitmproxy/issues/472
        # Options already set before are not cleared.
        context.set_mode(SSL._lib.SSL_MODE_AUTO_RETRY)

        # Cipher List
        if cipher_list:
            try:
                context.set_cipher_list(cipher_list)
            except SSL.Error as v:
                raise NetLibError("SSL cipher specification error: %s" % str(v))

        # SSLKEYLOGFILE
        if log_ssl_key:
            context.set_info_callback(log_ssl_key)

        context.set_tmp_ecdh(OpenSSL.crypto.get_elliptic_curve('prime256v1'))

        if OpenSSL._util.lib.Cryptography_HAS_ALPN:
            if alpn_protos is not None:
                # advertise application layer protocols
                context.set_alpn_protos(alpn_protos)
            elif alpn_select is not None:
                # select application layer protocol
                def alpn_select_callback(conn, options):
                    if alpn_select in options:
                        return bytes(alpn_select)
                    else:  # pragma no cover
                        return options[0]
                context.set_alpn_select_callback(alpn_select_callback)

        return context


class TCPClient(_Connection):
    rbufsize = -1
    wbufsize = -1

    def close(self):
        # Make sure to close the real socket, not the SSL proxy.
        # OpenSSL is really good at screwing up, i.e. when trying to recv from a failed connection,
        # it tries to renegotiate...
        if isinstance(self.connection, SSL.Connection):
            close_socket(self.connection._socket)
        else:
            close_socket(self.connection)

    def __init__(self, address, source_address=None):
        self.address = Address.wrap(address)
        self.source_address = Address.wrap(
            source_address) if source_address else None
        self.connection, self.rfile, self.wfile = None, None, None
        self.cert = None
        self.ssl_established = False
        self.sni = None

    def create_ssl_context(self, cert=None, alpn_protos=None, **sslctx_kwargs):
        context = self._create_ssl_context(
            alpn_protos=alpn_protos,
            **sslctx_kwargs)
        # Client Certs
        if cert:
            try:
                context.use_privatekey_file(cert)
                context.use_certificate_file(cert)
            except SSL.Error as v:
                raise NetLibError("SSL client certificate error: %s" % str(v))
        return context

    def convert_to_ssl(self, sni=None, alpn_protos=None, **sslctx_kwargs):
        """
            cert: Path to a file containing both client cert and private key.

            options: A bit field consisting of OpenSSL.SSL.OP_* values
            verify_options: A bit field consisting of OpenSSL.SSL.VERIFY_* values
            ca_path: Path to a directory of trusted CA certificates prepared using the c_rehash tool
            ca_pemfile: Path to a PEM formatted trusted CA certificate
        """
        context = self.create_ssl_context(
            alpn_protos=alpn_protos,
            **sslctx_kwargs)
        self.connection = SSL.Connection(context, self.connection)
        if sni:
            self.sni = sni
            self.connection.set_tlsext_host_name(sni)
        self.connection.set_connect_state()
        try:
            self.connection.do_handshake()
        except SSL.Error as v:
            raise NetLibError("SSL handshake error: %s" % repr(v))
        self.ssl_established = True
        self.cert = certutils.SSLCert(self.connection.get_peer_certificate())
        self.rfile.set_descriptor(self.connection)
        self.wfile.set_descriptor(self.connection)

    def connect(self):
        try:
            connection = socket.socket(self.address.family, socket.SOCK_STREAM)
            if self.source_address:
                connection.bind(self.source_address())
            connection.connect(self.address())
            if not self.source_address:
                self.source_address = Address(connection.getsockname())
            self.rfile = Reader(connection.makefile('rb', self.rbufsize))
            self.wfile = Writer(connection.makefile('wb', self.wbufsize))
        except (socket.error, IOError) as err:
            raise NetLibError(
                'Error connecting to "%s": %s' %
                (self.address.host, err))
        self.connection = connection

    def settimeout(self, n):
        self.connection.settimeout(n)

    def gettimeout(self):
        return self.connection.gettimeout()

    def get_alpn_proto_negotiated(self):
        if OpenSSL._util.lib.Cryptography_HAS_ALPN and self.ssl_established:
            return self.connection.get_alpn_proto_negotiated()
        else:
            return None


class BaseHandler(_Connection):

    """
        The instantiator is expected to call the handle() and finish() methods.

    """
    rbufsize = -1
    wbufsize = -1

    def __init__(self, connection, address, server):
        self.connection = connection
        self.address = Address.wrap(address)
        self.server = server
        self.rfile = Reader(self.connection.makefile('rb', self.rbufsize))
        self.wfile = Writer(self.connection.makefile('wb', self.wbufsize))

        self.finished = False
        self.ssl_established = False
        self.clientcert = None

    def create_ssl_context(self,
                           cert, key,
                           handle_sni=None,
                           request_client_cert=None,
                           chain_file=None,
                           dhparams=None,
                           **sslctx_kwargs):
        """
            cert: A certutils.SSLCert object.

            handle_sni: SNI handler, should take a connection object. Server
            name can be retrieved like this:

                    connection.get_servername()

            And you can specify the connection keys as follows:

                    new_context = Context(TLSv1_METHOD)
                    new_context.use_privatekey(key)
                    new_context.use_certificate(cert)
                    connection.set_context(new_context)

            The request_client_cert argument requires some explanation. We're
            supposed to be able to do this with no negative effects - if the
            client has no cert to present, we're notified and proceed as usual.
            Unfortunately, Android seems to have a bug (tested on 4.2.2) - when
            an Android client is asked to present a certificate it does not
            have, it hangs up, which is frankly bogus. Some time down the track
            we may be able to make the proper behaviour the default again, but
            until then we're conservative.
        """

        context = self._create_ssl_context(**sslctx_kwargs)

        context.use_privatekey(key)
        context.use_certificate(cert.x509)

        if handle_sni:
            # SNI callback happens during do_handshake()
            context.set_tlsext_servername_callback(handle_sni)

        if request_client_cert:
            def save_cert(conn, cert, errno, depth, preverify_ok):
                self.clientcert = certutils.SSLCert(cert)
                # Return true to prevent cert verification error
                return True
            context.set_verify(SSL.VERIFY_PEER, save_cert)

        # Cert Verify
        if chain_file:
            context.load_verify_locations(chain_file)

        if dhparams:
            SSL._lib.SSL_CTX_set_tmp_dh(context._context, dhparams)

        return context

    def convert_to_ssl(self, cert, key, **sslctx_kwargs):
        """
        Convert connection to SSL.
        For a list of parameters, see BaseHandler._create_ssl_context(...)
        """

        context = self.create_ssl_context(
            cert,
            key,
            **sslctx_kwargs)
        self.connection = SSL.Connection(context, self.connection)
        self.connection.set_accept_state()
        try:
            self.connection.do_handshake()
        except SSL.Error as v:
            raise NetLibError("SSL handshake error: %s" % repr(v))
        self.ssl_established = True
        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 OpenSSL._util.lib.Cryptography_HAS_ALPN and self.ssl_established:
            return self.connection.get_alpn_proto_negotiated()
        else:
            return None


class TCPServer(object):
    request_queue_size = 20

    def __init__(self, address):
        self.address = Address.wrap(address)
        self.__is_shut_down = threading.Event()
        self.__shutdown_request = False
        self.socket = socket.socket(self.address.family, socket.SOCK_STREAM)
        self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
        self.socket.bind(self.address())
        self.address = Address.wrap(self.socket.getsockname())
        self.socket.listen(self.request_queue_size)

    def connection_thread(self, connection, client_address):
        client_address = Address(client_address)
        try:
            self.handle_client_connection(connection, client_address)
        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:
                try:
                    r, w, e = select.select(
                        [self.socket], [], [], poll_interval)
                except select.error as ex:  # pragma: no cover
                    if ex[0] == EINTR:
                        continue
                    else:
                        raise
                if self.socket in r:
                    connection, client_address = self.socket.accept()
                    t = threading.Thread(
                        target=self.connection_thread,
                        args=(connection, client_address),
                        name="ConnectionThread (%s:%s -> %s:%s)" %
                             (client_address[0], client_address[1],
                              self.address.host, self.address.port)
                    )
                    t.setDaemon(1)
                    try:
                        t.start()
                    except threading.ThreadError:
                        self.handle_error(connection, Address(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 = traceback.format_exc()
            print('-' * 40, file=fp)
            print(
                "Error in processing of request from %s:%s" % (
                    client_address.host, client_address.port
                ), file=fp)
            print(exc, file=fp)
            print('-' * 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.
        """