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77 lines
3.2 KiB
Plaintext
77 lines
3.2 KiB
Plaintext
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.. _pbkdf:
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PBKDF Algorithms
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========================================
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There are various procedures for turning a passphrase into a arbitrary
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length key for use with a symmetric cipher. A general interface for
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such algorithms is presented in ``pbkdf.h``. The main function is
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``derive_key``, which takes a passphrase, a salt, an iteration count,
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and the desired length of the output key, and returns a key of that
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length, deterministically produced from the passphrase and salt. If an
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algorithm can't produce a key of that size, it will throw an exception
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(most notably, PKCS #5's PBKDF1 can only produce strings between 1 and
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$n$ bytes, where $n$ is the output size of the underlying hash
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function).
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The purpose of the iteration count is to make the algorithm take
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longer to compute the final key (reducing the speed of brute-force
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attacks of various kinds). Most standards recommend an iteration count
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of at least 10000. Currently defined PBKDF algorithms are
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"PBKDF1(digest)", "PBKDF2(digest)", and "OpenPGP-S2K(digest)"; you can
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retrieve any of these using the ``get_pbkdf``, found in
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``lookup.h``. As of this writing, "PBKDF2(SHA-256)" with 10000
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iterations and a 16 byte salt is recommend for new applications.
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.. cpp:function:: OctetString PBKDF::derive_key( \
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size_t output_len, const std::string& passphrase, \
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const byte* salt, size_t salt_len, \
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size_t iterations) const
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Computes a key from *passphrase* and the *salt* (of length
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*salt_len* bytes) using an algorithm-specific interpretation of
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*iterations*, producing a key of length *output_len*.
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Use an iteration count of at least 10000. The salt should be
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randomly chosen by a good random number generator (see
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:ref:`random_number_generators` for how), or at the very least
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unique to this usage of the passphrase.
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If you call this function again with the same parameters, you will
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get the same key.
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::
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PBKDF* pbkdf = get_pbkdf("PBKDF2(SHA-256)");
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AutoSeeded_RNG rng;
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SecureVector<byte> salt = rng.random_vec(16);
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OctetString aes256_key = pbkdf->derive_key(32, "password",
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&salt[0], salt.size(),
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10000);
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OpenPGP S2K
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----------------------------------------
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There are some oddities about OpenPGP's S2K algorithms that are
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documented here. For one thing, it uses the iteration count in a
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strange manner; instead of specifying how many times to iterate the
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hash, it tells how many *bytes* should be hashed in total
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(including the salt). So the exact iteration count will depend on the
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size of the salt (which is fixed at 8 bytes by the OpenPGP standard,
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though the implementation will allow any salt size) and the size of
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the passphrase.
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To get what OpenPGP calls "Simple S2K", set iterations to 0, and do
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not specify a salt. To get "Salted S2K", again leave the iteration
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count at 0, but give an 8-byte salt. "Salted and Iterated S2K"
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requires an 8-byte salt and some iteration count (this should be
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significantly larger than the size of the longest passphrase that
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might reasonably be used; somewhere from 1024 to 65536 would probably
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be about right). Using both a reasonably sized salt and a large
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iteration count is highly recommended to prevent password guessing
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attempts.
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