path: root/tests/test_rfc6030.doctest

test_rfc6030.doctest - test for examples from RFC6030

Copyright (C) 2014 Arthur de Jong

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02110-1301 USA


>>> from pskc import PSKC


This tests Figure 2 from RFC6030. It is a basic key container example with
a simple plain text secret key.

>>> pskc = PSKC('tests/rfc6030-figure2.pskcxml')
>>> [key.secret for key in pskc.keys]
['1234']
>>> key = pskc.keys[0]
>>> key.id
'12345678'
>>> key.algorithm
'urn:ietf:params:xml:ns:keyprov:pskc:hotp'
>>> key.issuer
'Issuer-A'
>>> key.secret
'1234'


This tests Figure 3 from RFC6030. Relative to Figure 2 this includes
device, cryptographic module and user identification as well as some more
parameters.

>>> pskc = PSKC('tests/rfc6030-figure3.pskcxml')
>>> pskc.id
'exampleID1'
>>> key = pskc.keys[0]
>>> key.manufacturer
'Manufacturer'
>>> key.serial
'987654321'
>>> key.device_userid
'DC=example-bank,DC=net'
>>> key.crypto_module
'CM_ID_001'
>>> key.id
'12345678'
>>> key.algorithm
'urn:ietf:params:xml:ns:keyprov:pskc:hotp'
>>> key.issuer
'Issuer'
>>> key.response_encoding
'DECIMAL'
>>> key.response_length
8
>>> key.secret
'12345678901234567890'
>>> key.counter
0
>>> key.key_userid
'UID=jsmith,DC=example-bank,DC=net'


This tests Figure 4 from RFC6030. In this case the key value itself is not
contained but can be derived using the serial and out-of-band agreements
on the meanings of key_profile and key_reference.

>>> pskc = PSKC('tests/rfc6030-figure4.pskcxml')
>>> key = pskc.keys[0]
>>> key.serial
'987654321'
>>> key.key_profile
'keyProfile1'
>>> key.key_reference
'MasterKeyLabel'
>>> key.counter
0


This tests the key policy properties as illustrated in Figure 5 from RFC6030.

>>> pskc = PSKC('tests/rfc6030-figure5.pskcxml')
>>> len(pskc.keys)
2
>>> key1, key2 = pskc.keys
>>> key1.serial
'987654321'
>>> key.algorithm
'urn:ietf:params:xml:ns:keyprov:pskc:hotp'
>>> key.response_length
8
>>> key.response_encoding
'DECIMAL'
>>> key1.secret
'12345678901234567890'
>>> key1.counter
0
>>> key1.policy.pin_min_length
4
>>> key1.policy.pin_max_length
4
>>> key1.policy.pin_key_id
'123456781'
>>> key1.policy.pin_encoding
'DECIMAL'
>>> key1.policy.pin_usage
'Local'
>>> key1.policy.key_usage
['OTP']
>>> key1.policy.may_use('OTP')
True
>>> key1.policy.may_use('Encrypt')
False
>>> key1.policy.unknown_policy_elements
False
>>> key2.id
'123456781'
>>> key2.serial
'987654321'
>>> key2.algorithm
'urn:ietf:params:xml:ns:keyprov:pskc:pin'
>>> key2.response_length
4
>>> key2.response_encoding
'DECIMAL'
>>> key2.secret
'1234'
>>> key1.policy.pin
'1234'


This tests key encryption based on pre-shared keys as illustrated in
Figure 6 from RFC6030. The first attempt at extracting the key will fail
due to the encryption.

>>> pskc = PSKC('tests/rfc6030-figure6.pskcxml')
>>> key = pskc.keys[0]
>>> key.id
'12345678'
>>> key.secret is None
True
>>> pskc.encryption.key_name
'Pre-shared-key'
>>> pskc.encryption.key = '12345678901234567890123456789012'.decode('hex')
>>> pskc.mac.key.encode('hex')
'1122334455667788990011223344556677889900'
>>> key.secret.encode('hex')
'3132333435363738393031323334353637383930'
>>> key.check()
True


This tests a derived master key using PBKDF2 as seen in Figure 7 from
RFC6030.

>>> pskc = PSKC('tests/rfc6030-figure7.pskcxml')
>>> pskc.encryption.key_name
'My Password 1'
>>> pskc.encryption.derive_key('qwerty')
>>> pskc.encryption.key.encode('hex')
'651e63cd57008476af1ff6422cd02e41'
>>> pskc.mac.key.encode('hex')
'bdaab8d648e850d25a3289364f7d7eaaf53ce581'
>>> key = pskc.keys[0]
>>> key.secret
'12345678901234567890'
>>> key.check()
True


This tests bulk provisioning as shown in Figure 10 From RFC6030.

>>> pskc = PSKC('tests/rfc6030-figure10.pskcxml')
>>> all(key.manufacturer == 'TokenVendorAcme' for key in pskc.keys)
True
>>> [key.serial for key in pskc.keys]
['654321', '123456', '9999999', '9999999']
>>> all(key.algorithm == 'urn:ietf:params:xml:ns:keyprov:pskc:hotp' for key in pskc.keys)
True
>>> all(key.issuer == 'Issuer' for key in pskc.keys)
True
>>> all(key.response_length == 8 for key in pskc.keys)
True
>>> all(key.response_encoding == 'DECIMAL' for key in pskc.keys)
True
>>> all(key.secret == '12345678901234567890' for key in pskc.keys)
True
>>> all(key.counter == 0 for key in pskc.keys)
True
>>> pskc.keys[0].policy.start_date
datetime.datetime(2006, 5, 1, 0, 0, tzinfo=tzutc())
>>> pskc.keys[0].policy.expiry_date
datetime.datetime(2006, 5, 31, 0, 0, tzinfo=tzutc())
>>> pskc.keys[1].policy.start_date
datetime.datetime(2006, 5, 1, 0, 0, tzinfo=tzutc())
>>> pskc.keys[1].policy.expiry_date
datetime.datetime(2006, 5, 31, 0, 0, tzinfo=tzutc())
>>> pskc.keys[2].policy.start_date
datetime.datetime(2006, 3, 1, 0, 0, tzinfo=tzutc())
>>> pskc.keys[2].policy.expiry_date
datetime.datetime(2006, 3, 31, 0, 0, tzinfo=tzutc())
>>> pskc.keys[3].policy.start_date
datetime.datetime(2006, 4, 1, 0, 0, tzinfo=tzutc())
>>> pskc.keys[3].policy.expiry_date
datetime.datetime(2006, 4, 30, 0, 0, tzinfo=tzutc())