2000-01-21 17:50:27 +00:00
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=pod
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=head1 NAME
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rand - Psdeudo-random number generator
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=head1 SYNOPSIS
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#include <openssl/rand.h>
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int RAND_bytes(unsigned char *buf,int num);
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int RAND_pseudo_bytes(unsigned char *buf,int num);
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void RAND_seed(const void *buf,int num);
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void RAND_add(const void *buf,int num,int entropy);
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void RAND_screen(void);
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int RAND_load_file(const char *file,long max_bytes);
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int RAND_write_file(const char *file);
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char *RAND_file_name(char *file,int num);
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void RAND_set_rand_method(RAND_METHOD *meth);
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RAND_METHOD *RAND_get_rand_method(void);
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RAND_METHOD *RAND_SSLeay(void);
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void RAND_cleanup(void);
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=head1 DESCRIPTION
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These functions implement a cryptographically secure pseudo-random
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number generator (PRNG). It is used by other library functions for
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example to generate random keys, and applications can use it when they
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need randomness.
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A cryptographic PRNG must be seeded with unpredictable data such as
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mouse movements or keys pressed at random by the user. This is
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described in L<RAND_add(3)>. Its state can be saved in a seed file
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(see L<RAND_load_file(3)>) to avoid having to go through the seeding
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process whenever the application is started.
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L<RAND_bytes(3)> describes how to obtain random data from the PRNG.
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=head1 INTERNALS
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The RAND_SSLeay() method implements a PRNG based on a cryptographic
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hash function.
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The following description of its design is based on the SSLeay
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documentation:
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First up I will state the things I believe I need for a good RNG.
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=over 4
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=item 1
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A good hashing algorithm to mix things up and to convert the RNG 'state'
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to random numbers.
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=item 2
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An initial source of random 'state'.
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=item 3
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The state should be very large. If the RNG is being used to generate
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4096 bit RSA keys, 2 2048 bit random strings are required (at a minimum).
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If your RNG state only has 128 bits, you are obviously limiting the
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search space to 128 bits, not 2048. I'm probably getting a little
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carried away on this last point but it does indicate that it may not be
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a bad idea to keep quite a lot of RNG state. It should be easier to
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break a cipher than guess the RNG seed data.
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=item 4
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Any RNG seed data should influence all subsequent random numbers
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generated. This implies that any random seed data entered will have
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an influence on all subsequent random numbers generated.
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=item 5
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When using data to seed the RNG state, the data used should not be
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extractable from the RNG state. I believe this should be a
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requirement because one possible source of 'secret' semi random
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data would be a private key or a password. This data must
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not be disclosed by either subsequent random numbers or a
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'core' dump left by a program crash.
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=item 6
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Given the same initial 'state', 2 systems should deviate in their RNG state
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(and hence the random numbers generated) over time if at all possible.
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=item 7
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Given the random number output stream, it should not be possible to determine
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the RNG state or the next random number.
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=back
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The algorithm is as follows.
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There is global state made up of a 1023 byte buffer (the 'state'), a
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working hash function ('md') and a counter ('count').
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Whenever seed data is added, it is inserted into the 'state' as
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follows.
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2000-01-21 23:36:40 +00:00
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The input is chopped up into units of 16 bytes (or less for
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the last block). Each of these blocks is run through the hash
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function as follows: The data passed to the hash function
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is the current 'md', the same number of bytes from the 'state'
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(the location determined by in incremented looping index) as
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the current 'block', the new key data 'block', and 'count'
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(which is incremented after each use).
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The result of this is kept in 'md' and also xored into the
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'state' at the same locations that were used as input into the
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hash function. I
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2000-01-21 17:50:27 +00:00
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believe this system addresses points 1 (hash function; currently
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SHA-1), 3 (the 'state'), 4 (via the 'md'), 5 (by the use of a hash
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function and xor).
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When bytes are extracted from the RNG, the following process is used.
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For each group of 8 bytes (or less), we do the following,
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2000-01-21 23:39:15 +00:00
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Input into the hash function the top 8 bytes from 'md', the bytes that
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are to be overwritten by the random bytes, and bytes from the 'state'
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2000-01-21 17:50:27 +00:00
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(incrementing looping index). From this hash function output (which
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is kept in 'md'), the top (upto) 8 bytes are returned to the caller
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and the bottom (upto) 8 bytes are xored into the 'state'.
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2000-01-21 23:39:15 +00:00
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Finally, after we have finished 'num' random bytes for the caller,
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'count' (which is incremented) and the local and global 'md' are fed
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into the hash function and the results are kept in the global 'md'.
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I believe the above addressed points 1 (use of SHA-1), 6 (by hashing
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into the 'state' the 'old' data from the caller that is about to be
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overwritten) and 7 (by not using the 8 bytes given to the caller to
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update the 'state', but they are used to update 'md').
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2000-01-21 17:50:27 +00:00
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So of the points raised, only 2 is not addressed (but see
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L<RAND_add()>).
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=head1 SEE ALSO
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BN_rand(3), RAND_add(3), RAND_load_file(3), RAND_bytes(3),
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RAND_set_rand_method(3), RAND_cleanup(3)
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=cut
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