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3187791ed3
[skip ci] Reviewed-by: Matt Caswell <matt@openssl.org> (Merged from https://github.com/openssl/openssl/pull/7831)
302 lines
11 KiB
Plaintext
302 lines
11 KiB
Plaintext
=pod
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=head1 NAME
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RAND_DRBG - the deterministic random bit generator
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=head1 SYNOPSIS
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#include <openssl/rand_drbg.h>
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=head1 DESCRIPTION
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The default OpenSSL RAND method is based on the RAND_DRBG class,
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which implements a deterministic random bit generator (DRBG).
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A DRBG is a certain type of cryptographically-secure pseudo-random
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number generator (CSPRNG), which is described in
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[NIST SP 800-90A Rev. 1].
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While the RAND API is the 'frontend' which is intended to be used by
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application developers for obtaining random bytes, the RAND_DRBG API
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serves as the 'backend', connecting the former with the operating
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systems's entropy sources and providing access to the DRBG's
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configuration parameters.
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=head2 Disclaimer
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Unless you have very specific requirements for your random generator,
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it is in general not necessary to utilize the RAND_DRBG API directly.
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The usual way to obtain random bytes is to use L<RAND_bytes(3)> or
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L<RAND_priv_bytes(3)>, see also L<RAND(7)>.
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=head2 Typical Use Cases
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Typical examples for such special use cases are the following:
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=over 2
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=item *
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You want to use your own private DRBG instances.
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Multiple DRBG instances which are accessed only by a single thread provide
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additional security (because their internal states are independent) and
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better scalability in multithreaded applications (because they don't need
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to be locked).
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=item *
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You need to integrate a previously unsupported entropy source.
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=item *
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You need to change the default settings of the standard OpenSSL RAND
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implementation to meet specific requirements.
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=back
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=head1 CHAINING
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A DRBG instance can be used as the entropy source of another DRBG instance,
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provided it has itself access to a valid entropy source.
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The DRBG instance which acts as entropy source is called the I<parent> DRBG,
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the other instance the I<child> DRBG.
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This is called chaining. A chained DRBG instance is created by passing
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a pointer to the parent DRBG as argument to the RAND_DRBG_new() call.
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It is possible to create chains of more than two DRBG in a row.
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=head1 THE THREE SHARED DRBG INSTANCES
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Currently, there are three shared DRBG instances,
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the <master>, <public>, and <private> DRBG.
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While the <master> DRBG is a single global instance, the <public> and <private>
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DRBG are created per thread and accessed through thread-local storage.
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By default, the functions L<RAND_bytes(3)> and L<RAND_priv_bytes(3)> use
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the thread-local <public> and <private> DRBG instance, respectively.
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=head2 The <master> DRBG instance
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The <master> DRBG is not used directly by the application, only for reseeding
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the two other two DRBG instances. It reseeds itself by obtaining randomness
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either from os entropy sources or by consuming randomness which was added
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previously by L<RAND_add(3)>.
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=head2 The <public> DRBG instance
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This instance is used per default by L<RAND_bytes(3)>.
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=head2 The <private> DRBG instance
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This instance is used per default by L<RAND_priv_bytes(3)>
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=head1 LOCKING
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The <master> DRBG is intended to be accessed concurrently for reseeding
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by its child DRBG instances. The necessary locking is done internally.
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It is I<not> thread-safe to access the <master> DRBG directly via the
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RAND_DRBG interface.
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The <public> and <private> DRBG are thread-local, i.e. there is an
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instance of each per thread. So they can safely be accessed without
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locking via the RAND_DRBG interface.
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Pointers to these DRBG instances can be obtained using
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RAND_DRBG_get0_master(),
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RAND_DRBG_get0_public(), and
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RAND_DRBG_get0_private(), respectively.
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Note that it is not allowed to store a pointer to one of the thread-local
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DRBG instances in a variable or other memory location where it will be
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accessed and used by multiple threads.
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All other DRBG instances created by an application don't support locking,
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because they are intended to be used by a single thread.
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Instead of accessing a single DRBG instance concurrently from different
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threads, it is recommended to instantiate a separate DRBG instance per
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thread. Using the <master> DRBG as entropy source for multiple DRBG
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instances on different threads is thread-safe, because the DRBG instance
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will lock the <master> DRBG automatically for obtaining random input.
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=head1 THE OVERALL PICTURE
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The following picture gives an overview over how the DRBG instances work
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together and are being used.
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+--------------------+
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| os entropy sources |
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+--------------------+
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v +-----------------------------+
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RAND_add() ==> <master> <-| shared DRBG (with locking) |
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/ \ +-----------------------------+
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/ \ +---------------------------+
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<public> <private> <- | per-thread DRBG instances |
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| | +---------------------------+
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v v
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RAND_bytes() RAND_priv_bytes()
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| ^
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+------------------+ +------------------------------------+
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| general purpose | | used for secrets like session keys |
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| random generator | | and private keys for certificates |
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+------------------+ +------------------------------------+
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The usual way to obtain random bytes is to call RAND_bytes(...) or
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RAND_priv_bytes(...). These calls are roughly equivalent to calling
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RAND_DRBG_bytes(<public>, ...) and RAND_DRBG_bytes(<private>, ...),
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respectively. The method L<RAND_DRBG_bytes(3)> is a convenience method
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wrapping the L<RAND_DRBG_generate(3)> function, which serves the actual
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request for random data.
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=head1 RESEEDING
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A DRBG instance seeds itself automatically, pulling random input from
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its entropy source. The entropy source can be either a trusted operating
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system entropy source, or another DRBG with access to such a source.
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Automatic reseeding occurs after a predefined number of generate requests.
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The selection of the trusted entropy sources is configured at build
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time using the --with-rand-seed option. The following sections explain
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the reseeding process in more detail.
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=head2 Automatic Reseeding
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Before satisfying a generate request (L<RAND_DRBG_generate(3)>), the DRBG
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reseeds itself automatically, if one of the following conditions holds:
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- the DRBG was not instantiated (=seeded) yet or has been uninstantiated.
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- the number of generate requests since the last reseeding exceeds a
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certain threshold, the so called I<reseed_interval>.
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This behaviour can be disabled by setting the I<reseed_interval> to 0.
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- the time elapsed since the last reseeding exceeds a certain time
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interval, the so called I<reseed_time_interval>.
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This can be disabled by setting the I<reseed_time_interval> to 0.
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- the DRBG is in an error state.
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B<Note>: An error state is entered if the entropy source fails while
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the DRBG is seeding or reseeding.
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The last case ensures that the DRBG automatically recovers
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from the error as soon as the entropy source is available again.
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=head2 Manual Reseeding
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In addition to automatic reseeding, the caller can request an immediate
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reseeding of the DRBG with fresh entropy by setting the
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I<prediction resistance> parameter to 1 when calling L<RAND_DRBG_generate(3)>.
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The document [NIST SP 800-90C] describes prediction resistance requests
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in detail and imposes strict conditions on the entropy sources that are
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approved for providing prediction resistance.
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Since the default DRBG implementation does not have access to such an approved
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entropy source, a request for prediction resistance will currently always fail.
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In other words, prediction resistance is currently not supported yet by the DRBG.
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For the three shared DRBGs (and only for these) there is another way to
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reseed them manually:
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If L<RAND_add(3)> is called with a positive I<randomness> argument
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(or L<RAND_seed(3)>), then this will immediately reseed the <master> DRBG.
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The <public> and <private> DRBG will detect this on their next generate
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call and reseed, pulling randomness from <master>.
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The last feature has been added to support the common practice used with
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previous OpenSSL versions to call RAND_add() before calling RAND_bytes().
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=head2 Entropy Input vs. Additional Data
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The DRBG distinguishes two different types of random input: I<entropy>,
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which comes from a trusted source, and I<additional input>',
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which can optionally be added by the user and is considered untrusted.
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It is possible to add I<additional input> not only during reseeding,
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but also for every generate request.
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This is in fact done automatically by L<RAND_DRBG_bytes(3)>.
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=head2 Configuring the Random Seed Source
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In most cases OpenSSL will automatically choose a suitable seed source
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for automatically seeding and reseeding its <master> DRBG. In some cases
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however, it will be necessary to explicitly specify a seed source during
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configuration, using the --with-rand-seed option. For more information,
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see the INSTALL instructions. There are also operating systems where no
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seed source is available and automatic reseeding is disabled by default.
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The following two sections describe the reseeding process of the master
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DRBG, depending on whether automatic reseeding is available or not.
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=head2 Reseeding the master DRBG with automatic seeding enabled
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Calling RAND_poll() or RAND_add() is not necessary, because the DRBG
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pulls the necessary entropy from its source automatically.
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However, both calls are permitted, and do reseed the RNG.
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RAND_add() can be used to add both kinds of random input, depending on the
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value of the B<randomness> argument:
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=over 4
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=item randomness == 0:
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The random bytes are mixed as additional input into the current state of
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the DRBG.
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Mixing in additional input is not considered a full reseeding, hence the
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reseed counter is not reset.
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=item randomness > 0:
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The random bytes are used as entropy input for a full reseeding
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(resp. reinstantiation) if the DRBG is instantiated
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(resp. uninstantiated or in an error state).
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The number of random bits required for reseeding is determined by the
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security strength of the DRBG. Currently it defaults to 256 bits (32 bytes).
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It is possible to provide less randomness than required.
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In this case the missing randomness will be obtained by pulling random input
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from the trusted entropy sources.
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=back
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=head2 Reseeding the master DRBG with automatic seeding disabled
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Calling RAND_poll() will always fail.
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RAND_add() needs to be called for initial seeding and periodic reseeding.
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At least 48 bytes (384 bits) of randomness have to be provided, otherwise
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the (re-)seeding of the DRBG will fail. This corresponds to one and a half
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times the security strength of the DRBG. The extra half is used for the
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nonce during instantiation.
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More precisely, the number of bytes needed for seeding depend on the
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I<security strength> of the DRBG, which is set to 256 by default.
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=head1 SEE ALSO
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L<RAND_DRBG_bytes(3)>,
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L<RAND_DRBG_generate(3)>,
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L<RAND_DRBG_reseed(3)>,
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L<RAND_DRBG_get0_master(3)>,
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L<RAND_DRBG_get0_public(3)>,
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L<RAND_DRBG_get0_private(3)>,
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L<RAND_DRBG_set_reseed_interval(3)>,
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L<RAND_DRBG_set_reseed_time_interval(3)>,
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L<RAND_DRBG_set_reseed_defaults(3)>,
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L<RAND(7)>,
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=head1 COPYRIGHT
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Copyright 2017-2018 The OpenSSL Project Authors. All Rights Reserved.
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Licensed under the Apache License 2.0 (the "License"). You may not use
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this file except in compliance with the License. You can obtain a copy
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in the file LICENSE in the source distribution or at
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L<https://www.openssl.org/source/license.html>.
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=cut
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