mitmproxy/libmproxy/protocol/tls.py

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from __future__ import (absolute_import, print_function, division)
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import struct
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import sys
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from construct import ConstructError
import six
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from netlib.exceptions import InvalidCertificateException
from netlib.exceptions import TlsException
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from ..contrib.tls._constructs import ClientHello
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from ..exceptions import ProtocolException, TlsProtocolException, ClientHandshakeException
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from .base import Layer
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# taken from https://testssl.sh/openssl-rfc.mappping.html
CIPHER_ID_NAME_MAP = {
0x00: 'NULL-MD5',
0x01: 'NULL-MD5',
0x02: 'NULL-SHA',
0x03: 'EXP-RC4-MD5',
0x04: 'RC4-MD5',
0x05: 'RC4-SHA',
0x06: 'EXP-RC2-CBC-MD5',
0x07: 'IDEA-CBC-SHA',
0x08: 'EXP-DES-CBC-SHA',
0x09: 'DES-CBC-SHA',
0x0a: 'DES-CBC3-SHA',
0x0b: 'EXP-DH-DSS-DES-CBC-SHA',
0x0c: 'DH-DSS-DES-CBC-SHA',
0x0d: 'DH-DSS-DES-CBC3-SHA',
0x0e: 'EXP-DH-RSA-DES-CBC-SHA',
0x0f: 'DH-RSA-DES-CBC-SHA',
0x10: 'DH-RSA-DES-CBC3-SHA',
0x11: 'EXP-EDH-DSS-DES-CBC-SHA',
0x12: 'EDH-DSS-DES-CBC-SHA',
0x13: 'EDH-DSS-DES-CBC3-SHA',
0x14: 'EXP-EDH-RSA-DES-CBC-SHA',
0x15: 'EDH-RSA-DES-CBC-SHA',
0x16: 'EDH-RSA-DES-CBC3-SHA',
0x17: 'EXP-ADH-RC4-MD5',
0x18: 'ADH-RC4-MD5',
0x19: 'EXP-ADH-DES-CBC-SHA',
0x1a: 'ADH-DES-CBC-SHA',
0x1b: 'ADH-DES-CBC3-SHA',
# 0x1c: ,
# 0x1d: ,
0x1e: 'KRB5-DES-CBC-SHA',
0x1f: 'KRB5-DES-CBC3-SHA',
0x20: 'KRB5-RC4-SHA',
0x21: 'KRB5-IDEA-CBC-SHA',
0x22: 'KRB5-DES-CBC-MD5',
0x23: 'KRB5-DES-CBC3-MD5',
0x24: 'KRB5-RC4-MD5',
0x25: 'KRB5-IDEA-CBC-MD5',
0x26: 'EXP-KRB5-DES-CBC-SHA',
0x27: 'EXP-KRB5-RC2-CBC-SHA',
0x28: 'EXP-KRB5-RC4-SHA',
0x29: 'EXP-KRB5-DES-CBC-MD5',
0x2a: 'EXP-KRB5-RC2-CBC-MD5',
0x2b: 'EXP-KRB5-RC4-MD5',
0x2f: 'AES128-SHA',
0x30: 'DH-DSS-AES128-SHA',
0x31: 'DH-RSA-AES128-SHA',
0x32: 'DHE-DSS-AES128-SHA',
0x33: 'DHE-RSA-AES128-SHA',
0x34: 'ADH-AES128-SHA',
0x35: 'AES256-SHA',
0x36: 'DH-DSS-AES256-SHA',
0x37: 'DH-RSA-AES256-SHA',
0x38: 'DHE-DSS-AES256-SHA',
0x39: 'DHE-RSA-AES256-SHA',
0x3a: 'ADH-AES256-SHA',
0x3b: 'NULL-SHA256',
0x3c: 'AES128-SHA256',
0x3d: 'AES256-SHA256',
0x3e: 'DH-DSS-AES128-SHA256',
0x3f: 'DH-RSA-AES128-SHA256',
0x40: 'DHE-DSS-AES128-SHA256',
0x41: 'CAMELLIA128-SHA',
0x42: 'DH-DSS-CAMELLIA128-SHA',
0x43: 'DH-RSA-CAMELLIA128-SHA',
0x44: 'DHE-DSS-CAMELLIA128-SHA',
0x45: 'DHE-RSA-CAMELLIA128-SHA',
0x46: 'ADH-CAMELLIA128-SHA',
0x62: 'EXP1024-DES-CBC-SHA',
0x63: 'EXP1024-DHE-DSS-DES-CBC-SHA',
0x64: 'EXP1024-RC4-SHA',
0x65: 'EXP1024-DHE-DSS-RC4-SHA',
0x66: 'DHE-DSS-RC4-SHA',
0x67: 'DHE-RSA-AES128-SHA256',
0x68: 'DH-DSS-AES256-SHA256',
0x69: 'DH-RSA-AES256-SHA256',
0x6a: 'DHE-DSS-AES256-SHA256',
0x6b: 'DHE-RSA-AES256-SHA256',
0x6c: 'ADH-AES128-SHA256',
0x6d: 'ADH-AES256-SHA256',
0x80: 'GOST94-GOST89-GOST89',
0x81: 'GOST2001-GOST89-GOST89',
0x82: 'GOST94-NULL-GOST94',
0x83: 'GOST2001-GOST89-GOST89',
0x84: 'CAMELLIA256-SHA',
0x85: 'DH-DSS-CAMELLIA256-SHA',
0x86: 'DH-RSA-CAMELLIA256-SHA',
0x87: 'DHE-DSS-CAMELLIA256-SHA',
0x88: 'DHE-RSA-CAMELLIA256-SHA',
0x89: 'ADH-CAMELLIA256-SHA',
0x8a: 'PSK-RC4-SHA',
0x8b: 'PSK-3DES-EDE-CBC-SHA',
0x8c: 'PSK-AES128-CBC-SHA',
0x8d: 'PSK-AES256-CBC-SHA',
# 0x8e: ,
# 0x8f: ,
# 0x90: ,
# 0x91: ,
# 0x92: ,
# 0x93: ,
# 0x94: ,
# 0x95: ,
0x96: 'SEED-SHA',
0x97: 'DH-DSS-SEED-SHA',
0x98: 'DH-RSA-SEED-SHA',
0x99: 'DHE-DSS-SEED-SHA',
0x9a: 'DHE-RSA-SEED-SHA',
0x9b: 'ADH-SEED-SHA',
0x9c: 'AES128-GCM-SHA256',
0x9d: 'AES256-GCM-SHA384',
0x9e: 'DHE-RSA-AES128-GCM-SHA256',
0x9f: 'DHE-RSA-AES256-GCM-SHA384',
0xa0: 'DH-RSA-AES128-GCM-SHA256',
0xa1: 'DH-RSA-AES256-GCM-SHA384',
0xa2: 'DHE-DSS-AES128-GCM-SHA256',
0xa3: 'DHE-DSS-AES256-GCM-SHA384',
0xa4: 'DH-DSS-AES128-GCM-SHA256',
0xa5: 'DH-DSS-AES256-GCM-SHA384',
0xa6: 'ADH-AES128-GCM-SHA256',
0xa7: 'ADH-AES256-GCM-SHA384',
0x5600: 'TLS_FALLBACK_SCSV',
0xc001: 'ECDH-ECDSA-NULL-SHA',
0xc002: 'ECDH-ECDSA-RC4-SHA',
0xc003: 'ECDH-ECDSA-DES-CBC3-SHA',
0xc004: 'ECDH-ECDSA-AES128-SHA',
0xc005: 'ECDH-ECDSA-AES256-SHA',
0xc006: 'ECDHE-ECDSA-NULL-SHA',
0xc007: 'ECDHE-ECDSA-RC4-SHA',
0xc008: 'ECDHE-ECDSA-DES-CBC3-SHA',
0xc009: 'ECDHE-ECDSA-AES128-SHA',
0xc00a: 'ECDHE-ECDSA-AES256-SHA',
0xc00b: 'ECDH-RSA-NULL-SHA',
0xc00c: 'ECDH-RSA-RC4-SHA',
0xc00d: 'ECDH-RSA-DES-CBC3-SHA',
0xc00e: 'ECDH-RSA-AES128-SHA',
0xc00f: 'ECDH-RSA-AES256-SHA',
0xc010: 'ECDHE-RSA-NULL-SHA',
0xc011: 'ECDHE-RSA-RC4-SHA',
0xc012: 'ECDHE-RSA-DES-CBC3-SHA',
0xc013: 'ECDHE-RSA-AES128-SHA',
0xc014: 'ECDHE-RSA-AES256-SHA',
0xc015: 'AECDH-NULL-SHA',
0xc016: 'AECDH-RC4-SHA',
0xc017: 'AECDH-DES-CBC3-SHA',
0xc018: 'AECDH-AES128-SHA',
0xc019: 'AECDH-AES256-SHA',
0xc01a: 'SRP-3DES-EDE-CBC-SHA',
0xc01b: 'SRP-RSA-3DES-EDE-CBC-SHA',
0xc01c: 'SRP-DSS-3DES-EDE-CBC-SHA',
0xc01d: 'SRP-AES-128-CBC-SHA',
0xc01e: 'SRP-RSA-AES-128-CBC-SHA',
0xc01f: 'SRP-DSS-AES-128-CBC-SHA',
0xc020: 'SRP-AES-256-CBC-SHA',
0xc021: 'SRP-RSA-AES-256-CBC-SHA',
0xc022: 'SRP-DSS-AES-256-CBC-SHA',
0xc023: 'ECDHE-ECDSA-AES128-SHA256',
0xc024: 'ECDHE-ECDSA-AES256-SHA384',
0xc025: 'ECDH-ECDSA-AES128-SHA256',
0xc026: 'ECDH-ECDSA-AES256-SHA384',
0xc027: 'ECDHE-RSA-AES128-SHA256',
0xc028: 'ECDHE-RSA-AES256-SHA384',
0xc029: 'ECDH-RSA-AES128-SHA256',
0xc02a: 'ECDH-RSA-AES256-SHA384',
0xc02b: 'ECDHE-ECDSA-AES128-GCM-SHA256',
0xc02c: 'ECDHE-ECDSA-AES256-GCM-SHA384',
0xc02d: 'ECDH-ECDSA-AES128-GCM-SHA256',
0xc02e: 'ECDH-ECDSA-AES256-GCM-SHA384',
0xc02f: 'ECDHE-RSA-AES128-GCM-SHA256',
0xc030: 'ECDHE-RSA-AES256-GCM-SHA384',
0xc031: 'ECDH-RSA-AES128-GCM-SHA256',
0xc032: 'ECDH-RSA-AES256-GCM-SHA384',
0xcc13: 'ECDHE-RSA-CHACHA20-POLY1305',
0xcc14: 'ECDHE-ECDSA-CHACHA20-POLY1305',
0xcc15: 'DHE-RSA-CHACHA20-POLY1305',
0xff00: 'GOST-MD5',
0xff01: 'GOST-GOST94',
0xff02: 'GOST-GOST89MAC',
0xff03: 'GOST-GOST89STREAM',
0x010080: 'RC4-MD5',
0x020080: 'EXP-RC4-MD5',
0x030080: 'RC2-CBC-MD5',
0x040080: 'EXP-RC2-CBC-MD5',
0x050080: 'IDEA-CBC-MD5',
0x060040: 'DES-CBC-MD5',
0x0700c0: 'DES-CBC3-MD5',
0x080080: 'RC4-64-MD5',
}
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def is_tls_record_magic(d):
"""
Returns:
True, if the passed bytes start with the TLS record magic bytes.
False, otherwise.
"""
d = d[:3]
# TLS ClientHello magic, works for SSLv3, TLSv1.0, TLSv1.1, TLSv1.2
# http://www.moserware.com/2009/06/first-few-milliseconds-of-https.html#client-hello
return (
len(d) == 3 and
d[0] == '\x16' and
d[1] == '\x03' and
d[2] in ('\x00', '\x01', '\x02', '\x03')
)
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def get_client_hello(client_conn):
"""
Peek into the socket and read all records that contain the initial client hello message.
client_conn:
The :py:class:`client connection <libmproxy.models.ClientConnection>`.
Returns:
The raw handshake packet bytes, without TLS record header(s).
"""
client_hello = ""
client_hello_size = 1
offset = 0
while len(client_hello) < client_hello_size:
record_header = client_conn.rfile.peek(offset + 5)[offset:]
if not is_tls_record_magic(record_header) or len(record_header) != 5:
raise TlsProtocolException('Expected TLS record, got "%s" instead.' % record_header)
record_size = struct.unpack("!H", record_header[3:])[0] + 5
record_body = client_conn.rfile.peek(offset + record_size)[offset + 5:]
if len(record_body) != record_size - 5:
raise TlsProtocolException("Unexpected EOF in TLS handshake: %s" % record_body)
client_hello += record_body
offset += record_size
client_hello_size = struct.unpack("!I", '\x00' + client_hello[1:4])[0] + 4
return client_hello
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class TlsClientHello(object):
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def __init__(self, raw_client_hello):
self._client_hello = ClientHello.parse(raw_client_hello)
def raw(self):
return self._client_hello
@property
def client_cipher_suites(self):
return self._client_hello.cipher_suites.cipher_suites
@property
def client_sni(self):
for extension in self._client_hello.extensions:
if (extension.type == 0x00 and len(extension.server_names) == 1
and extension.server_names[0].type == 0):
return extension.server_names[0].name
@property
def client_alpn_protocols(self):
for extension in self._client_hello.extensions:
if extension.type == 0x10:
return list(extension.alpn_protocols)
@classmethod
def from_client_conn(cls, client_conn):
"""
Peek into the connection, read the initial client hello and parse it to obtain ALPN values.
client_conn:
The :py:class:`client connection <libmproxy.models.ClientConnection>`.
Returns:
:py:class:`client hello <libmproxy.protocol.tls.TlsClientHello>`.
"""
try:
raw_client_hello = get_client_hello(client_conn)[4:] # exclude handshake header.
except ProtocolException as e:
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raise TlsProtocolException('Cannot read raw Client Hello: %s' % repr(e))
try:
return cls(raw_client_hello)
except ConstructError as e:
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raise TlsProtocolException('Cannot parse Client Hello: %s, Raw Client Hello: %s' %
(repr(e), raw_client_hello.encode("hex")))
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def __repr__(self):
return "TlsClientHello( sni: %s alpn_protocols: %s, cipher_suites: %s)" % \
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(self.client_sni, self.client_alpn_protocols, self.client_cipher_suites)
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class TlsLayer(Layer):
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def __init__(self, ctx, client_tls, server_tls):
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self.client_sni = None
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self.client_alpn_protocols = None
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self.client_ciphers = []
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super(TlsLayer, self).__init__(ctx)
self._client_tls = client_tls
self._server_tls = server_tls
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self._sni_from_server_change = None
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def __call__(self):
"""
The strategy for establishing SSL is as follows:
First, we determine whether we need the server cert to establish ssl with the client.
If so, we first connect to the server and then to the client.
If not, we only connect to the client and do the server_ssl lazily on a Connect message.
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An additional complexity is that establish ssl with the server may require a SNI value from
the client. In an ideal world, we'd do the following:
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1. Start the SSL handshake with the client
2. Check if the client sends a SNI.
3. Pause the client handshake, establish SSL with the server.
4. Finish the client handshake with the certificate from the server.
There's just one issue: We cannot get a callback from OpenSSL if the client doesn't send a SNI. :(
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Thus, we manually peek into the connection and parse the ClientHello message to obtain both SNI and ALPN values.
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Further notes:
- OpenSSL 1.0.2 introduces a callback that would help here:
https://www.openssl.org/docs/ssl/SSL_CTX_set_cert_cb.html
- The original mitmproxy issue is https://github.com/mitmproxy/mitmproxy/issues/427
"""
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client_tls_requires_server_cert = (
self._client_tls and self._server_tls and not self.config.no_upstream_cert
)
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if self._client_tls:
self._parse_client_hello()
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if client_tls_requires_server_cert:
self._establish_tls_with_client_and_server()
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elif self._client_tls:
self._establish_tls_with_client()
layer = self.ctx.next_layer(self)
layer()
def __repr__(self):
if self._client_tls and self._server_tls:
return "TlsLayer(client and server)"
elif self._client_tls:
return "TlsLayer(client)"
elif self._server_tls:
return "TlsLayer(server)"
else:
return "TlsLayer(inactive)"
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def _parse_client_hello(self):
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"""
Peek into the connection, read the initial client hello and parse it to obtain ALPN values.
"""
try:
parsed = TlsClientHello.from_client_conn(self.client_conn)
self.client_sni = parsed.client_sni
self.client_alpn_protocols = parsed.client_alpn_protocols
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self.client_ciphers = parsed.client_cipher_suites
except TlsProtocolException as e:
self.log("Cannot parse Client Hello: %s" % repr(e), "error")
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def connect(self):
if not self.server_conn:
self.ctx.connect()
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if self._server_tls and not self.server_conn.tls_established:
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self._establish_tls_with_server()
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def set_server(self, address, server_tls=None, sni=None):
if server_tls is not None:
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self._sni_from_server_change = sni
self._server_tls = server_tls
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self.ctx.set_server(address, None, None)
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@property
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def sni_for_server_connection(self):
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if self._sni_from_server_change is False:
return None
else:
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return self._sni_from_server_change or self.client_sni
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@property
def alpn_for_client_connection(self):
return self.server_conn.get_alpn_proto_negotiated()
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def __alpn_select_callback(self, conn_, options):
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"""
Once the client signals the alternate protocols it supports,
we reconnect upstream with the same list and pass the server's choice down to the client.
"""
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# This gets triggered if we haven't established an upstream connection yet.
default_alpn = b'http/1.1'
# alpn_preference = b'h2'
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if self.alpn_for_client_connection in options:
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choice = bytes(self.alpn_for_client_connection)
elif default_alpn in options:
choice = bytes(default_alpn)
else:
choice = options[0]
self.log("ALPN for client: %s" % choice, "debug")
return choice
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def _establish_tls_with_client_and_server(self):
# If establishing TLS with the server fails, we try to establish TLS with the client nonetheless
# to send an error message over TLS.
try:
self.ctx.connect()
self._establish_tls_with_server()
except Exception as e:
try:
self._establish_tls_with_client()
except:
pass
six.reraise(*sys.exc_info())
self._establish_tls_with_client()
def _establish_tls_with_client(self):
self.log("Establish TLS with client", "debug")
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cert, key, chain_file = self._find_cert()
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try:
self.client_conn.convert_to_ssl(
cert, key,
method=self.config.openssl_method_client,
options=self.config.openssl_options_client,
cipher_list=self.config.ciphers_client,
dhparams=self.config.certstore.dhparams,
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chain_file=chain_file,
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alpn_select_callback=self.__alpn_select_callback,
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)
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# Some TLS clients will not fail the handshake,
# but will immediately throw an "unexpected eof" error on the first read.
# The reason for this might be difficult to find, so we try to peek here to see if it
# raises ann error.
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self.client_conn.rfile.peek(1)
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except TlsException as e:
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six.reraise(
ClientHandshakeException,
ClientHandshakeException(
"Cannot establish TLS with client (sni: {sni}): {e}".format(
sni=self.client_sni, e=repr(e)
),
self.client_sni or repr(self.server_conn.address)
),
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sys.exc_info()[2]
)
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def _establish_tls_with_server(self):
self.log("Establish TLS with server", "debug")
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try:
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# We only support http/1.1 and h2.
# If the server only supports spdy (next to http/1.1), it may select that
# and mitmproxy would enter TCP passthrough mode, which we want to avoid.
deprecated_http2_variant = lambda x: x.startswith("h2-") or x.startswith("spdy")
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if self.client_alpn_protocols:
alpn = [x for x in self.client_alpn_protocols if not deprecated_http2_variant(x)]
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else:
alpn = None
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if alpn and "h2" in alpn and not self.config.http2:
alpn.remove("h2")
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ciphers_server = self.config.ciphers_server
if not ciphers_server:
ciphers_server = []
for id in self.client_ciphers:
if id in CIPHER_ID_NAME_MAP.keys():
ciphers_server.append(CIPHER_ID_NAME_MAP[id])
ciphers_server = ':'.join(ciphers_server)
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self.server_conn.establish_ssl(
self.config.clientcerts,
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self.sni_for_server_connection,
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method=self.config.openssl_method_server,
options=self.config.openssl_options_server,
verify_options=self.config.openssl_verification_mode_server,
ca_path=self.config.openssl_trusted_cadir_server,
ca_pemfile=self.config.openssl_trusted_ca_server,
cipher_list=ciphers_server,
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alpn_protos=alpn,
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)
tls_cert_err = self.server_conn.ssl_verification_error
if tls_cert_err is not None:
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self.log(
"TLS verification failed for upstream server at depth %s with error: %s" %
(tls_cert_err['depth'], tls_cert_err['errno']),
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"error")
self.log("Ignoring server verification error, continuing with connection", "error")
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except InvalidCertificateException as e:
tls_cert_err = self.server_conn.ssl_verification_error
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self.log(
"TLS verification failed for upstream server at depth %s with error: %s" %
(tls_cert_err['depth'], tls_cert_err['errno']),
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"error")
self.log("Aborting connection attempt", "error")
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six.reraise(
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TlsProtocolException,
TlsProtocolException("Cannot establish TLS with {address} (sni: {sni}): {e}".format(
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address=repr(self.server_conn.address),
sni=self.sni_for_server_connection,
e=repr(e),
)),
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sys.exc_info()[2]
)
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except TlsException as e:
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six.reraise(
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TlsProtocolException,
TlsProtocolException("Cannot establish TLS with {address} (sni: {sni}): {e}".format(
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address=repr(self.server_conn.address),
sni=self.sni_for_server_connection,
e=repr(e),
)),
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sys.exc_info()[2]
)
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self.log("ALPN selected by server: %s" % self.alpn_for_client_connection, "debug")
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def _find_cert(self):
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"""
This function determines the Common Name (CN) and Subject Alternative Names (SANs)
our certificate should have and then fetches a matching cert from the certstore.
"""
host = None
sans = set()
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# In normal operation, the server address should always be known at this point.
# However, we may just want to establish TLS so that we can send an error message to the client,
# in which case the address can be None.
if self.server_conn.address:
host = self.server_conn.address.host
# Should we incorporate information from the server certificate?
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use_upstream_cert = (
self.server_conn and
self.server_conn.tls_established and
(not self.config.no_upstream_cert)
)
if use_upstream_cert:
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upstream_cert = self.server_conn.cert
sans.update(upstream_cert.altnames)
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if upstream_cert.cn:
sans.add(host)
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host = upstream_cert.cn.decode("utf8").encode("idna")
# Also add SNI values.
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if self.client_sni:
sans.add(self.client_sni)
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if self._sni_from_server_change:
sans.add(self._sni_from_server_change)
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sans.discard(host)
return self.config.certstore.get_cert(host, list(sans))