def _setup_(self):
if self.ocra != None and self.bkey != None:
return
key_len = 20
if self.ocrasuite.find('-SHA256'):
key_len = 32
elif self.ocrasuite.find('-SHA512'):
key_len = 64
self.bkey = kdf2(self.sharedsecret, self.nonce, self.activationkey, len=key_len)
self.ocra = OcraSuite(self.ocrasuite)
self.counter = 0
return
def _setup_(self):
if self.ocra != None and self.bkey != None:
return
key_len = 20
if self.ocrasuite.find('-SHA256'):
key_len = 32
elif self.ocrasuite.find('-SHA512'):
key_len = 64
self.bkey = kdf2(self.sharedsecret, self.nonce, self.activationkey, len=key_len)
self.ocra = OcraSuite(self.ocrasuite)
self.counter = 0
return
def _rollout_2(self, params):
'''
2.
https://linotpserver/admin/init?
type=ocra&
genkey=1&
activationcode=AKTIVIERUNGSCODE&
user=BENUTZERNAME&
message=MESSAGE&
session=SESSIONKEY
=>> "serial" : SERIENNUMMER, "nonce" : DATAOBJECT, "transactionid" : "TRANSAKTIONSID, "app_import" : IMPORTURL
- nonce - von HSM oder random ?
- pkcs5 - kdf2
- es darf zur einer Zeit nur eine QR Token inaktiv (== im Ausrollzustand) sein !!!!!
der Token wird über den User gefunden
- seed = pdkdf2(nonce + activcode + shared secret)
- challenge generiern - von urandom oder HSM
'''
log.debug('[_rollout_2] %r ' % (params))
activationcode = params.get('activationcode', None)
if activationcode is not None:
## genkey might have created a new key, so we have to rely on
encSharedSecret = self.getFromTokenInfo('sharedSecret', None)
if encSharedSecret is None:
raise Exception ('missing shared secret of initialition for token %r' % (self.getSerial()))
sharedSecret = decryptPin(encSharedSecret)
## we generate a nonce, which in the end is a challenge
nonce = createNonce()
self.addToTokenInfo('nonce', nonce)
## create a new key from the ocrasuite
key_len = 20
if self.ocraSuite.find('-SHA256'):
key_len = 32
elif self.ocraSuite.find('-SHA512'):
key_len = 64
newkey = kdf2(sharedSecret, nonce, activationcode, key_len)
self.setOtpKey(binascii.hexlify(newkey))
## generate challenge, which is part of the app_import
message = params.get('message', None)
#(transid, challenge, _ret, url) = self.challenge(message)
#self.createChallenge()
(res, opt) = create_challenge(self, options=params)
challenge = opt.get('challenge')
url = opt.get('url')
transid = opt.get('transactionid')
## generate response
info = {}
uInfo = {}
info['serial'] = self.getSerial()
uInfo['se'] = self.getSerial()
info['nonce'] = nonce
uInfo['no'] = nonce
info['transactionid'] = transid
uInfo['tr'] = transid
info['challenge'] = challenge
uInfo['ch'] = challenge
if message is not None:
uInfo['me'] = str(message.encode("utf-8"))
ustr = urllib.urlencode({'u':str(url.encode("utf-8"))})
uInfo['u'] = ustr[2:]
info['url'] = str(url.encode("utf-8"))
app_import = 'lseqr://nonce?%s' % (urllib.urlencode(uInfo))
## add a signature of the url
signature = {'si': self.signData(app_import) }
info['signature'] = signature.get('si')
info['app_import'] = "%s&%s" % (app_import, urllib.urlencode(signature))
self.info = info
## setup new state
self.addToTokenInfo('rollout', '2')
self.enable(True)
log.debug('[_rollout_2]:')
return
def calculateOtp(self):
'''
'''
from linotp.lib.crypt import kdf2
from linotp.lib.ocra import OcraSuite
from datetime import datetime
from urlparse import urlparse
from urlparse import parse_qs
res = {}
#description = 'ocra/calculateOtp: calculate the first otp from the given init2 response '
try:
params = getLowerParams(request.params)
log.debug("[calculateOtp]: %r" % params)
checkPolicyPre('ocra', "calcOTP")
sharedsecret = params.get('sharedsecret')
activationcode = params.get('activationcode')
nonce = params.get('nonce')
ocrasuite = params.get('ocrasuite')
challenge = params.get('challenge')
counter = params.get('counter')
ocrapin = params.get('ocrapin')
nonce3 = params.get('no')
ocrasuite3 = params.get('os')
#serial3 = params.get('se')
challenge = params.get('challenge')
counter = params.get('counter')
ocrapin = params.get('ocrapin')
init1 = params.get('init1')
init2 = params.get('init2')
## parse init1 '''
if init1 is not None:
## now parse the appurl for the ocrasuite '''
uri = urlparse(init1.replace('lseqr://', 'http://'))
qs = uri.query
qdict = parse_qs(qs)
ocrasuite2 = qdict.get('os', None)
if ocrasuite2 is not None and len(ocrasuite2) > 0:
ocrasuite2 = ocrasuite2[0]
if ocrasuite is None:
ocrasuite = ocrasuite2
sharedsecret2 = qdict.get('sh', None)
if sharedsecret2 is not None and len(sharedsecret2) > 0:
sharedsecret2 = sharedsecret2[0]
if sharedsecret is None:
sharedsecret = sharedsecret2
## parse init1
if init2 is not None:
## now parse the appurl for the ocrasuite
uri = urlparse(init2.replace('lseqr://', 'http://'))
qs = uri.query
qdict = parse_qs(qs)
challenge2 = qdict.get('ch', None)
if challenge2 is not None and len(challenge2) > 0:
challenge2 = challenge2[0]
if challenge is None:
challenge = challenge2
nonce2 = qdict.get('no', None)
if nonce2 is not None and len(nonce2) > 0:
nonce2 = nonce2[0]
if nonce is None:
nonce = nonce2
if ocrapin is None:
ocrapin = ''
if counter is None:
counter = 0
if nonce3 is not None:
nonce = unicode(nonce3)
if ocrasuite3 is not None:
ocrasuite = unicode(ocrasuite3)
## now we have all in place for the key derivation to create the new key
## sharedsecret, activationcode and nonce
key_len = 20
if ocrasuite.find('-SHA256'):
key_len = 32
elif ocrasuite.find('-SHA512'):
key_len = 64
if sharedsecret is not None:
sharedsecret = unicode(sharedsecret)
if nonce is not None:
nonce = unicode(nonce)
if activationcode is not None:
activationcode = unicode(activationcode)
newkey = kdf2(sharedsecret, nonce, activationcode, len=key_len)
## hnewkey = binascii.hexlify(newkey)
ocra = OcraSuite(ocrasuite)
param = {}
param['C'] = int(counter)
param['Q'] = unicode(challenge)
param['P'] = unicode(ocrapin)
param['S'] = ''
if ocra.T is not None:
## Default value for G is 1M, i.e., time-step size is one minute and the
## T represents the number of minutes since epoch time [UT].
now = datetime.now()
stime = now.strftime("%s")
itime = int(stime)
param['T'] = itime
data = ocra.combineData(**param)
otp = ocra.compute(data, newkey)
res = {'otp':otp}
Session.commit()
return sendResult(response, res, 1)
except PolicyException as pe:
log.exception("[ocra/calculateOtp] policy failed: %r" % pe)
Session.rollback()
return sendError(response, pe)
except Exception as e:
log.exception("[ocra/calculateOtp] failed: %r" % e)
Session.rollback()
return sendError(response, unicode(e), 0)
finally:
Session.close()
log.debug('[ocra/calculateOtp] done')
def calculateOtp(self):
'''
'''
from linotp.lib.crypt import kdf2
from linotp.lib.ocra import OcraSuite
from datetime import datetime
from urlparse import urlparse
from urlparse import parse_qs
res = {}
#description = 'ocra/calculateOtp: calculate the first otp from the given init2 response '
try:
params = getLowerParams(request.params)
log.debug("[calculateOtp]: %r" % params)
checkPolicyPre('ocra', "calcOTP")
sharedsecret = params.get('sharedsecret')
activationcode = params.get('activationcode')
nonce = params.get('nonce')
ocrasuite = params.get('ocrasuite')
challenge = params.get('challenge')
counter = params.get('counter')
ocrapin = params.get('ocrapin')
nonce3 = params.get('no')
ocrasuite3 = params.get('os')
#serial3 = params.get('se')
challenge = params.get('challenge')
counter = params.get('counter')
ocrapin = params.get('ocrapin')
init1 = params.get('init1')
init2 = params.get('init2')
## parse init1 '''
if init1 is not None:
## now parse the appurl for the ocrasuite '''
uri = urlparse(init1.replace('lseqr://', 'http://'))
qs = uri.query
qdict = parse_qs(qs)
ocrasuite2 = qdict.get('os', None)
if ocrasuite2 is not None and len(ocrasuite2) > 0:
ocrasuite2 = ocrasuite2[0]
if ocrasuite is None:
ocrasuite = ocrasuite2
sharedsecret2 = qdict.get('sh', None)
if sharedsecret2 is not None and len(sharedsecret2) > 0:
sharedsecret2 = sharedsecret2[0]
if sharedsecret is None:
sharedsecret = sharedsecret2
## parse init1
if init2 is not None:
## now parse the appurl for the ocrasuite
uri = urlparse(init2.replace('lseqr://', 'http://'))
qs = uri.query
qdict = parse_qs(qs)
challenge2 = qdict.get('ch', None)
if challenge2 is not None and len(challenge2) > 0:
challenge2 = challenge2[0]
if challenge is None:
challenge = challenge2
nonce2 = qdict.get('no', None)
if nonce2 is not None and len(nonce2) > 0:
nonce2 = nonce2[0]
if nonce is None:
nonce = nonce2
if ocrapin is None:
ocrapin = ''
if counter is None:
counter = 0
if nonce3 is not None:
nonce = unicode(nonce3)
if ocrasuite3 is not None:
ocrasuite = unicode(ocrasuite3)
## now we have all in place for the key derivation to create the new key
## sharedsecret, activationcode and nonce
key_len = 20
if ocrasuite.find('-SHA256'):
key_len = 32
elif ocrasuite.find('-SHA512'):
key_len = 64
if sharedsecret is not None:
sharedsecret = unicode(sharedsecret)
if nonce is not None:
nonce = unicode(nonce)
if activationcode is not None:
activationcode = unicode(activationcode)
newkey = kdf2(sharedsecret, nonce, activationcode, len=key_len)
## hnewkey = binascii.hexlify(newkey)
ocra = OcraSuite(ocrasuite)
param = {}
param['C'] = int(counter)
param['Q'] = unicode(challenge)
param['P'] = unicode(ocrapin)
param['S'] = ''
if ocra.T is not None:
## Default value for G is 1M, i.e., time-step size is one minute and the
## T represents the number of minutes since epoch time [UT].
now = datetime.now()
stime = now.strftime("%s")
itime = int(stime)
param['T'] = itime
data = ocra.combineData(**param)
otp = ocra.compute(data, newkey)
res = {'otp': otp}
Session.commit()
return sendResult(response, res, 1)
except PolicyException as pe:
log.exception("[ocra/calculateOtp] policy failed: %r" % pe)
Session.rollback()
return sendError(response, pe)
except Exception as e:
log.exception("[ocra/calculateOtp] failed: %r" % e)
Session.rollback()
return sendError(response, unicode(e), 0)
finally:
Session.close()
log.debug('[ocra/calculateOtp] done')
