tlslite/integration/POP3_TLS.py - chromium/src/third_party/tlslite - Git at Google

 """TLS Lite + poplib."""

 import socket
 from poplib import POP3
 from tlslite.TLSConnection import TLSConnection
 from tlslite.integration.ClientHelper import ClientHelper

 # POP TLS PORT
 POP3_TLS_PORT = 995

 class POP3_TLS(POP3, ClientHelper):
     """This class extends L{poplib.POP3} with TLS support."""

     def __init__(self, host, port = POP3_TLS_PORT,
                  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 POP3_TLS.

         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 caller should be prepared to handle TLS-specific
         exceptions.  See the client handshake functions in
         L{tlslite.TLSConnection.TLSConnection} for details on which
         exceptions might be raised.

         @type host: str
         @param host: Server to connect to.

         @type port: int
         @param port: Port to connect to.

         @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.
         """

         self.host = host
         self.port = port
         msg = "getaddrinfo returns an empty list"
         self.sock = None
         for res in socket.getaddrinfo(self.host, self.port, 0, socket.SOCK_STREAM):
             af, socktype, proto, canonname, sa = res
             try:
                 self.sock = socket.socket(af, socktype, proto)
                 self.sock.connect(sa)
             except socket.error, msg:
                 if self.sock:
                     self.sock.close()
                 self.sock = None
                 continue
             break
         if not self.sock:
             raise socket.error, msg

         ### New code below (all else copied from poplib)
         ClientHelper.__init__(self,
                  username, password, sharedKey,
                  certChain, privateKey,
                  cryptoID, protocol,
                  x509Fingerprint,
                  x509TrustList, x509CommonName,
                  settings)

         self.sock = TLSConnection(self.sock)
         self.sock.closeSocket = True
         ClientHelper._handshake(self, self.sock)
         ###

         self.file = self.sock.makefile('rb')
         self._debugging = 0
         self.welcome = self._getresp()
	"""TLS Lite + poplib."""

	import socket
	from poplib import POP3
	from tlslite.TLSConnection import TLSConnection
	from tlslite.integration.ClientHelper import ClientHelper

	# POP TLS PORT
	POP3_TLS_PORT = 995

	class POP3_TLS(POP3, ClientHelper):
	"""This class extends L{poplib.POP3} with TLS support."""

	def __init__(self, host, port = POP3_TLS_PORT,
	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 POP3_TLS.

	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 caller should be prepared to handle TLS-specific
	exceptions. See the client handshake functions in
	L{tlslite.TLSConnection.TLSConnection} for details on which
	exceptions might be raised.

	@type host: str
	@param host: Server to connect to.

	@type port: int
	@param port: Port to connect to.

	@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.
	"""

	self.host = host
	self.port = port
	msg = "getaddrinfo returns an empty list"
	self.sock = None
	for res in socket.getaddrinfo(self.host, self.port, 0, socket.SOCK_STREAM):
	af, socktype, proto, canonname, sa = res
	try:
	self.sock = socket.socket(af, socktype, proto)
	self.sock.connect(sa)
	except socket.error, msg:
	if self.sock:
	self.sock.close()
	self.sock = None
	continue
	break
	if not self.sock:
	raise socket.error, msg

	### New code below (all else copied from poplib)
	ClientHelper.__init__(self,
	username, password, sharedKey,
	certChain, privateKey,
	cryptoID, protocol,
	x509Fingerprint,
	x509TrustList, x509CommonName,
	settings)

	self.sock = TLSConnection(self.sock)
	self.sock.closeSocket = True
	ClientHelper._handshake(self, self.sock)
	###

	self.file = self.sock.makefile('rb')
	self._debugging = 0
	self.welcome = self._getresp()