tlslite readme摘要
python之TLS使用
版本
tlslite version 0.3.8
下载
安装
sudo python setup.py install
测试安装
cd test
tls.py servertest localhost:4443 .
tls.py clienttest localhost:4443 .
ubuntu/python2.7:
/usr/local/bin/tls.py
/usr/local/lib/python2.7/dist-packages/tlslite/TLSConnection.py
命令行
'tlsdb.py' 管理共享钥和验证用户-共享钥,SRP密码数据库
'tls.py' 测试其他TLS实现
运行SRP server:
tlsdb.py createsrp verifierDB
tlsdb.py add verifierDB alice abra123cadabra 1024
tlsdb.py add verifierDB bob swordfish 2048
sudo tls.py serversrp localhost:443 verifierDB
连接server:
tls.py clientsrp localhost:443 alice abra123cadabra
基本使用步骤
Step 1 - 创建socket
记得设置超时处理
from socket import *
sock = socket(AF_INET, SOCK_STREAM)
sock.connect( ("www.amazon.com", 443) )
sock.settimeout(10) #Only on python 2.3 or greater
Step 2 - 创建TLS连接
from tlslite.api import *
connection = TLSConnection(sock)
Step 3 - 调用握手函数(client)
可以根据验证方式,使用不同的握手实现:
connection.handshakeClientCert() #无需客户端验证(authentication)
connection.handshakeClientCert(certChain, privateKey)
connection.handshakeClientSRP("alice", "abra123cadabra")
connection.handshakeClientSharedKey("alice", "PaVBVZkYqAjCQCu6UBL2xgsnZhw")
connection.handshakeClientUnknown(srpCallback, certCallback)
ClientCert私钥获取:
#Load cryptoID certChain and privateKey. Requires cryptoIDlib.
from cryptoIDlib.CertChain import CertChain
s = open("./test/clientCryptoIDChain.xml").read()
certChain = CertChain()
certChain.parse(s)
s = open("./test/clientCryptoIDKey.xml").read()
privateKey = parseXMLKey(s, private=True)
#Load X.509 certChain and privateKey.
s = open("./test/clientX509Cert.pem").read()
x509 = X509()
x509.parse(s)
certChain = X509CertChain([x509])
s = open("./test/clientX509Key.pem").read()
privateKey = parsePEMKey(s, private=True)
SRP and SharedKey都需要手动验证用户名和密码.
不同的是,SRP较慢,但对低熵密码安全;shared keys快速,但只对高熵密码安全。
一般情况下,SRP用于人类可识别记忆的密码,在使用随机码作为密码时才使用shared keys
Unknown用于当无法知道server是否需要client authentication的时候
两个回调函数SRP callback和certificate callback 通常接受一个包含(username, password),(certChain,privateKey)或者的tuple
通过HandshakeSettings 更多地控制handshake:
settings = HandshakeSettings()
settings.minKeySize = 2048
settings.cipherNames = ["aes256"]
settings.minVersion = (3,1)
connection.handshakeClientSRP("alice", "abra123cadabra", settings=settings)
重用session:
connection.handshakeClientSRP("alice", "abra123cadabra")
……
oldSession = connection.session
connection2.handshakeClientSRP("alice", "abra123cadabra", session= oldSession)
Step 3 - 调用握手函数(server)
server只有一个handshake函数,但不同的验证方式参数不同
SRP authentication要通过VerifierDB来验证数据库的密码
verifierDB = VerifierDB("./test/verifierDB") #无参数代表内存数据库
#打开已存在的
verifierDB.open()
#创建新的
verifier = VerifierDB.makeVerifier("alice", "abra123cadabra", 2048)
verifierDB["alice"] = verifier
#执行握手
connection.handshakeServer(verifierDB=verifierDB)
shared key authentication
sharedKeyDB = SharedKeyDB("./test/sharedkeyDB")
sharedKeyDB.open()
sharedKeyDB["alice"] = "PaVBVZkYqAjCQCu6UBL2xgsnZhw"
connection.handshakeServer(sharedKeyDB=sharedKeyDB)
a certificate and private key authentication
connection.handshakeServer(certChain=certChain, privateKey=privateKey, reqCert=True)
通过SessionCache重用客户端session
sessionCache = SessionCache()
connection.handshakeServer(verifierDB=verifierDB, sessionCache=sessionCache)
Step 4 - 检查结果
如果握手结束没有出现异常,验证结果将被保存在connection's session object
如下variables是常用的:
connection.session.srpUsername #string
connection.session.sharedKeyUsername #string
connection.session.clientCertChain #X509CertChain or cryptoIDlib.CertChain.CertChain
connection.session.serverCertChain #X509CertChain or cryptoIDlib.CertChain.CertChain
Both types of certificate chain object support the getFingerprint() function,
X.509对象返回 the end-entity fingerprint并忽略其他证书
CryptoID fingerprints (也就是 "cryptoIDs") 是基于根证书(root cryptoID certificate)的, 所以必须在CertChain中调用validate()确保真的和cryptoID通话.
try:
checker = Checker(\x509Fingerprint='e049ff930af76d43ff4c658b268786f4df1296f2')
connection.handshakeClientCert(checker=checker)
except TLSAuthenticationError:
print "Authentication failure"
错误类型略
Step 5 - 交换数据
创建连接后,使用socket.SSL对象的read() and write()
或者使用socket对象的send(), sendall(), recv(), 和makefile()
会导致的异常:TLSLocalAlert,TLSRemoteAlert, socket.error, or TLSAbruptCloseError
Step 6 - 关闭连接
调用close()
HTTPTLSConnection对httplib的扩展
#没有验证
h = HTTPTLSConnection("www.amazon.com", 443)
h.request("GET", "")
r = h.getresponse()
……
#基于服务器X.509 fingerprint的验证
h = HTTPTLSConnection("www.amazon.com", 443, x509Fingerprint="e049ff930af76d43ff4c658b268786f4df1296f2")
……
#基于服务器 X.509 chain (需要cryptlib_py)的验证
h = HTTPTLSConnection("www.amazon.com", 443, x509TrustList=[verisignCert], x509CommonName="www.amazon.com")
……
#基于服务器cryptoID的验证
h = HTTPTLSConnection("localhost", 443, cryptoID="dmqb6.fq345.cxk6g.5fha3")
……
#使用SRP手动验证
h = HTTPTLSConnection("localhost", 443, username="alice", password="abra123cadabra")
……
#使用shared key手动验证
h = HTTPTLSConnection("localhost", 443, username="alice", sharedKey="PaVBVZkYqAjCQCu6UBL2xgsnZhw")
……
#基于服务器cryptoID 使用SRP, *AND*手动验证
h = HTTPTLSConnection("localhost", 443, username="alice", password="abra123cadabra", cryptoID="dmqb6.fq345.cxk6g.5fha3")
……
XMLRPCTransport对xmlrpclib的扩展
from tlslite.api import XMLRPCTransport
from xmlrpclib import ServerProxy
#No authentication whatsoever
transport = XMLRPCTransport()
server = ServerProxy("https://localhost", transport)
server.someFunc(2, 3)
……
#Authenticate server based on its X.509 fingerprint
transport = XMLRPCTransport(\
x509Fingerprint="e049ff930af76d43ff4c658b268786f4df1296f2")
……
POP3_TLS对poplib的扩展
IMAP4_TLS对imaplib的扩展
#To connect to a POP3 server over SSL and display its fingerprint:
from tlslite.api import *
p = POP3_TLS("---------.net")
print p.sock.session.serverCertChain.getFingerprint()
……
#To connect to an IMAP server once you know its fingerprint:
from tlslite.api import *
i = IMAP4_TLS("cyrus.andrew.cmu.edu", x509Fingerprint="00c14371227b3b677ddb9c4901e6f2aee18d3e45")
……
SMTP_TLS对smtplib的扩展
#To connect to an SMTP server once you know its fingerprint:
from tlslite.api import *
s = SMTP_TLS("----------.net")
s.starttls(x509Fingerprint="7e39be84a2e3a7ad071752e3001d931bf82c32dc")
……
SocketServer的使用
from SocketServer import *
from BaseHTTPServer import *
from SimpleHTTPServer import *
from tlslite.api import *
s = open("./serverX509Cert.pem").read()
x509 = X509()
x509.parse(s)
certChain = X509CertChain([x509])
s = open("./serverX509Key.pem").read()
privateKey = parsePEMKey(s, private=True)
sessionCache = SessionCache()
class MyHTTPServer(ThreadingMixIn, TLSSocketServerMixIn, HTTPServer):
def handshake(self, tlsConnection):
try:
tlsConnection.handshakeServer(certChain=certChain,
privateKey=privateKey,
sessionCache=sessionCache)
tlsConnection.ignoreAbruptClose = True
return True
except TLSError, error:
print "Handshake failure:", str(error)
return False
httpd = MyHTTPServer(('localhost', 443), SimpleHTTPRequestHandler)
httpd.serve_forever()
TLSAsyncDispatcherMixIn.py
class http_tls_channel(TLSAsyncDispatcherMixIn, http_server.http_channel):
ac_in_buffer_size = 16384
def __init__ (self, server, conn, addr):
http_server.http_channel.__init__(self, server, conn, addr)
TLSAsyncDispatcherMixIn.__init__(self, conn)
self.tlsConnection.ignoreAbruptClose = True
self.setServerHandshakeOp(certChain=certChain, privateKey=privateKey)
Twisted协议
from twisted.internet.protocol import Protocol, Factory
from twisted.internet import reactor
from twisted.protocols.policies import WrappingFactory
from twisted.protocols.basic import LineReceiver
from twisted.python import log
from twisted.python.failure import Failure
import sys
from tlslite.api import *
s = open("./serverX509Cert.pem").read()
x509 = X509()
x509.parse(s)
certChain = X509CertChain([x509])
s = open("./serverX509Key.pem").read()
privateKey = parsePEMKey(s, private=True)
verifierDB = VerifierDB("verifierDB")
verifierDB.open()
class Echo(LineReceiver):
def connectionMade(self):
self.transport.write("Welcome to the echo server!\r\n")
def lineReceived(self, line):
self.transport.write(line + "\r\n")
class Echo1(Echo):
def connectionMade(self):
if not self.transport.tlsStarted:
self.transport.setServerHandshakeOp(certChain=certChain,
privateKey=privateKey,
verifierDB=verifierDB)
else:
Echo.connectionMade(self)
def connectionLost(self, reason):
pass #Handle any TLS exceptions here
class Echo2(Echo):
def lineReceived(self, data):
if data == "STARTTLS":
self.transport.setServerHandshakeOp(certChain=certChain,
privateKey=privateKey,
verifierDB=verifierDB)
else:
Echo.lineReceived(self, data)
def connectionLost(self, reason):
pass #Handle any TLS exceptions here
factory = Factory()
factory.protocol = Echo1
#factory.protocol = Echo2
wrappingFactory = WrappingFactory(factory)
wrappingFactory.protocol = TLSTwistedProtocolWrapper
log.startLogging(sys.stdout)
reactor.listenTCP(1079, wrappingFactory)
reactor.run()
安全考虑
TLS Lite 是beta-quality code,尚未经过安全分析,风险自保