python-hkdf 0.0.3-3 / usr / lib / python2.7 / dist-packages / hkdf-0.0.3.egg-info / PKG-INFO

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Metadata-Version: 1.1
Name: hkdf
Version: 0.0.3
Summary: HMAC-based Extract-and-Expand Key Derivation Function (HKDF)
Home-page: https://github.com/casebeer/python-hkdf
Author: Christopher H. Casebeer
Author-email: UNKNOWN
License: UNKNOWN
Description: HKDF - HMAC Key Derivation Function
        ===================================
        
        This module implements the HMAC Key Derivation function, defined at
        
            http://tools.ietf.org/html/draft-krawczyk-hkdf-01
        
        There are two interfaces: a functional interface, with separate extract
        and expand functions as defined in the draft RFC, and a wrapper class for
        these functions.
        
        Functional interface
        --------------------
        
        To use the functional interface, pass the pseudorandom key generated
        by hmac_extract([salt], [input key material]) to hmac_expand(...).
        ``salt`` should be a random, non-secret, site-specific string, but may be
        set to None. See section 3.1 of the HKDF draft for more details.
        
        In addition to the PRK output by hmac_extract, hmac_expand takes an
        ``info`` argument, which permits generating multiple keys based on the
        same PRK, and a ``length`` argument, which defines the number of bytes
        of output key material to generate. ``length`` must be less than or equal
        to 255 time the block size, in bytes, of the hash function being used.
        See section 3.2 of the HKDF draft for more information on using the ``info``
        argument.
        
        The hash function to use can be specified for both hmac_extract and
        hmac_expand as the ``hash`` kw argument, and defaults to SHA-256 as implemented
        by the hashlib module. It must be the same for both extracting and expanding.
        
        Example::
        
            prk = hkdf_extract("8e94ef805b93e683ff18".decode("hex"), "asecretpassword")
            key = hkdf_expand(prk, "context1", 16)
        
        ``Hkdf`` wrapper class
        ----------------------
        
        To use the wrapper class, instantiate the Hkdf() class with a salt, input
        key material, and optionally, a hash function. You may then call
        expand([info], [length]) on the Hkdf instance to generate output key
        material::
        
            kdf = Hkdf("8e94ef805b93e683ff18".decode("hex"), "asecretpassword")
            key = kdf.expand("context1", 16)
        
        HKDF-Extract and HKDF-Expand definitions from the draft RFC
        -----------------------------------------------------------
        
        > Step 1: Extract
        >
        > PRK = HKDF-Extract(salt, IKM)
        >
        > Options:
        > 	Hash     a hash function; HashLen denotes the length of the
        > 				hash function output in octets
        > Inputs:
        > 	salt     optional salt value (a non-secret random value);
        > 				if not provided, it is set to a string of HashLen zeros.
        > 	IKM      input keying material
        > Output:
        > 	PRK      a pseudo-random key (of HashLen octets)
        >
        > The output PRK is calculated as follows:
        >
        > PRK = HMAC-Hash(salt, IKM)
        >
        > Step 2: Expand
        >
        > OKM = HKDF-Expand(PRK, info, L)
        >
        > Options:
        > 	Hash     a hash function; HashLen denotes the length of the
        > 				hash function output in octets
        > Inputs:
        > 	PRK      a pseudo-random key of at least HashLen octets
        > 				(usually, the output from the Extract step)
        > 	info     optional context and application specific information
        > 				(can be a zero-length string)
        > 	L        length of output keying material in octets
        > 				(<= 255*HashLen)
        > Output:
        > 	OKM      output keying material (of L octets)
        >
        > The output OKM is calculated as follows:
        >
        > N = ceil(L/HashLen)
        > T = T(1) | T(2) | T(3) | ... | T(N)
        > OKM = first L octets of T
        >
        > where:
        > T(0) = empty string (zero length)
        > T(1) = HMAC-Hash(PRK, T(0) | info | 0x01)
        > T(2) = HMAC-Hash(PRK, T(1) | info | 0x02)
        > T(3) = HMAC-Hash(PRK, T(2) | info | 0x03)
        > ...
        >
        > (where the constant concatenated to the end of each T(n) is a
        > single octet.)
        
        Changelog
        ---------
        
        - 0.0.3 – Move documentation from module docstring to README.rst
        - 0.0.2 – Python 3.3, 3.4 support
        - 0.0.1 – Initial release
        
        Please report any bugs at
        
            https://www.github.com/casebeer/python-hkdf
        
        
        
Platform: UNKNOWN
Classifier: License :: OSI Approved :: BSD License
Classifier: Intended Audience :: Developers
Classifier: Programming Language :: Python :: 2.6
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3.3
Classifier: Programming Language :: Python :: 3.4

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