blob: a951f4589429f554e5925f8bbb658a6e660e48e2 [file] [log] [blame]
"""Class representing a TLS session."""
from utils.compat import *
from mathtls import *
from constants import *
class Session:
This class represents a TLS session.
TLS distinguishes between connections and sessions. A new
handshake creates both a connection and a session. Data is
transmitted over the connection.
The session contains a more permanent record of the handshake. The
session can be inspected to determine handshake results. The
session can also be used to create a new connection through
"session resumption". If the client and server both support this,
they can create a new connection based on an old session without
the overhead of a full handshake.
The session for a L{tlslite.TLSConnection.TLSConnection} can be
retrieved from the connection's 'session' attribute.
@type srpUsername: str
@ivar srpUsername: The client's SRP username (or None).
@type sharedKeyUsername: str
@ivar sharedKeyUsername: The client's shared-key username (or
@type clientCertChain: L{tlslite.X509CertChain.X509CertChain} or
@ivar clientCertChain: The client's certificate chain (or None).
@type serverCertChain: L{tlslite.X509CertChain.X509CertChain} or
@ivar serverCertChain: The server's certificate chain (or None).
def __init__(self):
self.masterSecret = createByteArraySequence([])
self.sessionID = createByteArraySequence([])
self.cipherSuite = 0
self.srpUsername = None
self.sharedKeyUsername = None
self.clientCertChain = None
self.serverCertChain = None
self.resumable = False
self.sharedKey = False
def _clone(self):
other = Session()
other.masterSecret = self.masterSecret
other.sessionID = self.sessionID
other.cipherSuite = self.cipherSuite
other.srpUsername = self.srpUsername
other.sharedKeyUsername = self.sharedKeyUsername
other.clientCertChain = self.clientCertChain
other.serverCertChain = self.serverCertChain
other.resumable = self.resumable
other.sharedKey = self.sharedKey
return other
def _calcMasterSecret(self, version, premasterSecret, clientRandom,
if version == (3,0):
self.masterSecret = PRF_SSL(premasterSecret,
concatArrays(clientRandom, serverRandom), 48)
elif version in ((3,1), (3,2)):
self.masterSecret = PRF(premasterSecret, "master secret",
concatArrays(clientRandom, serverRandom), 48)
raise AssertionError()
def valid(self):
"""If this session can be used for session resumption.
@rtype: bool
@return: If this session can be used for session resumption.
return self.resumable or self.sharedKey
def _setResumable(self, boolean):
#Only let it be set if this isn't a shared key
if not self.sharedKey:
#Only let it be set to True if the sessionID is non-null
if (not boolean) or (boolean and self.sessionID):
self.resumable = boolean
def getCipherName(self):
"""Get the name of the cipher used with this connection.
@rtype: str
@return: The name of the cipher used with this connection.
Either 'aes128', 'aes256', 'rc4', or '3des'.
if self.cipherSuite in CipherSuite.aes128Suites:
return "aes128"
elif self.cipherSuite in CipherSuite.aes256Suites:
return "aes256"
elif self.cipherSuite in CipherSuite.rc4Suites:
return "rc4"
elif self.cipherSuite in CipherSuite.tripleDESSuites:
return "3des"
return None
def _createSharedKey(self, sharedKeyUsername, sharedKey):
if len(sharedKeyUsername)>16:
raise ValueError()
if len(sharedKey)>47:
raise ValueError()
self.sharedKeyUsername = sharedKeyUsername
self.sessionID = createByteArrayZeros(16)
for x in range(len(sharedKeyUsername)):
self.sessionID[x] = ord(sharedKeyUsername[x])
premasterSecret = createByteArrayZeros(48)
sharedKey = chr(len(sharedKey)) + sharedKey
for x in range(48):
premasterSecret[x] = ord(sharedKey[x % len(sharedKey)])
self.masterSecret = PRF(premasterSecret, "shared secret",
createByteArraySequence([]), 48)
self.sharedKey = True
return self