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ytmanager / gdata / tlslite / integration / XMLRPCTransport.py

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"""TLS Lite + xmlrpclib."""

import xmlrpclib
import httplib
from gdata.tlslite.integration.HTTPTLSConnection import HTTPTLSConnection
from gdata.tlslite.integration.ClientHelper import ClientHelper


class XMLRPCTransport(xmlrpclib.Transport, ClientHelper):
    """Handles an HTTPS transaction to an XML-RPC server."""

    def __init__(self,
                 username=None, password=None, sharedKey=None,
                 certChain=None, privateKey=None,
                 cryptoID=None, protocol=None,
                 x509Fingerprint=None,
                 x509TrustList=None, x509CommonName=None,
                 settings=None):
        """Create a new XMLRPCTransport.

        An instance of this class can be passed to L{xmlrpclib.ServerProxy}
        to use TLS with XML-RPC calls::

            from tlslite.api import XMLRPCTransport
            from xmlrpclib import ServerProxy

            transport = XMLRPCTransport(user="alice", password="abra123")
            server = ServerProxy("https://localhost", transport)

        For client authentication, use one of these argument
        combinations:
         - username, password (SRP)
         - username, sharedKey (shared-key)
         - certChain, privateKey (certificate)

        For server authentication, you can either rely on the
        implicit mutual authentication performed by SRP or
        shared-keys, or you can do certificate-based server
        authentication with one of these argument combinations:
         - cryptoID[, protocol] (requires cryptoIDlib)
         - x509Fingerprint
         - x509TrustList[, x509CommonName] (requires cryptlib_py)

        Certificate-based server authentication is compatible with
        SRP or certificate-based client authentication.  It is
        not compatible with shared-keys.

        The constructor does not perform the TLS handshake itself, but
        simply stores these arguments for later.  The handshake is
        performed only when this class needs to connect with the
        server.  Thus you should be prepared to handle TLS-specific
        exceptions when calling methods of L{xmlrpclib.ServerProxy}.  See the
        client handshake functions in
        L{tlslite.TLSConnection.TLSConnection} for details on which
        exceptions might be raised.

        @type username: str
        @param username: SRP or shared-key username.  Requires the
        'password' or 'sharedKey' argument.

        @type password: str
        @param password: SRP password for mutual authentication.
        Requires the 'username' argument.

        @type sharedKey: str
        @param sharedKey: Shared key for mutual authentication.
        Requires the 'username' argument.

        @type certChain: L{tlslite.X509CertChain.X509CertChain} or
        L{cryptoIDlib.CertChain.CertChain}
        @param certChain: Certificate chain for client authentication.
        Requires the 'privateKey' argument.  Excludes the SRP or
        shared-key related arguments.

        @type privateKey: L{tlslite.utils.RSAKey.RSAKey}
        @param privateKey: Private key for client authentication.
        Requires the 'certChain' argument.  Excludes the SRP or
        shared-key related arguments.

        @type cryptoID: str
        @param cryptoID: cryptoID for server authentication.  Mutually
        exclusive with the 'x509...' arguments.

        @type protocol: str
        @param protocol: cryptoID protocol URI for server
        authentication.  Requires the 'cryptoID' argument.

        @type x509Fingerprint: str
        @param x509Fingerprint: Hex-encoded X.509 fingerprint for
        server authentication.  Mutually exclusive with the 'cryptoID'
        and 'x509TrustList' arguments.

        @type x509TrustList: list of L{tlslite.X509.X509}
        @param x509TrustList: A list of trusted root certificates.  The
        other party must present a certificate chain which extends to
        one of these root certificates.  The cryptlib_py module must be
        installed to use this parameter.  Mutually exclusive with the
        'cryptoID' and 'x509Fingerprint' arguments.

        @type x509CommonName: str
        @param x509CommonName: The end-entity certificate's 'CN' field
        must match this value.  For a web server, this is typically a
        server name such as 'www.amazon.com'.  Mutually exclusive with
        the 'cryptoID' and 'x509Fingerprint' arguments.  Requires the
        'x509TrustList' argument.

        @type settings: L{tlslite.HandshakeSettings.HandshakeSettings}
        @param settings: Various settings which can be used to control
        the ciphersuites, certificate types, and SSL/TLS versions
        offered by the client.
        """

        ClientHelper.__init__(self,
                 username, password, sharedKey,
                 certChain, privateKey,
                 cryptoID, protocol,
                 x509Fingerprint,
                 x509TrustList, x509CommonName,
                 settings)


    def make_connection(self, host):
        # create a HTTPS connection object from a host descriptor
        host, extra_headers, x509 = self.get_host_info(host)
        http = HTTPTLSConnection(host, None,
                                 self.username, self.password,
                                 self.sharedKey,
                                 self.certChain, self.privateKey,
                                 self.checker.cryptoID,
                                 self.checker.protocol,
                                 self.checker.x509Fingerprint,
                                 self.checker.x509TrustList,
                                 self.checker.x509CommonName,
                                 self.settings)
        http2 = httplib.HTTP()
        http2._setup(http)
        return http2