mirror of
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b646179229
Reviewed-by: Neil Horman <nhorman@openssl.org>
Release: yes
(cherry picked from commit 0ce7d1f355
)
Reviewed-by: Hugo Landau <hlandau@openssl.org>
Reviewed-by: Tomas Mraz <tomas@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/24034)
200 lines
8.1 KiB
C
200 lines
8.1 KiB
C
/*
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* Copyright 2022-2024 The OpenSSL Project Authors. All Rights Reserved.
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*
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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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* https://www.openssl.org/source/license.html
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*/
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#ifndef OSSL_QUIC_REACTOR_H
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# define OSSL_QUIC_REACTOR_H
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# include "internal/time.h"
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# include "internal/sockets.h"
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# include "internal/quic_predef.h"
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# include "internal/thread_arch.h"
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# include <openssl/bio.h>
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# ifndef OPENSSL_NO_QUIC
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/*
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* Core I/O Reactor Framework
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* ==========================
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*
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* Manages use of async network I/O which the QUIC stack is built on. The core
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* mechanic looks like this:
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*
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* - There is a pollable FD for both the read and write side respectively.
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* Readability and writeability of these FDs respectively determines when
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* network I/O is available.
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*
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* - The reactor can export these FDs to the user, as well as flags indicating
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* whether the user should listen for readability, writeability, or neither.
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*
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* - The reactor can export a timeout indication to the user, indicating when
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* the reactor should be called (via libssl APIs) regardless of whether
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* the network socket has become ready.
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*
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* The reactor is based around a tick callback which is essentially the mutator
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* function. The mutator attempts to do whatever it can, attempting to perform
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* network I/O to the extent currently feasible. When done, the mutator returns
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* information to the reactor indicating when it should be woken up again:
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*
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* - Should it be woken up when network RX is possible?
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* - Should it be woken up when network TX is possible?
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* - Should it be woken up no later than some deadline X?
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*
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* The intention is that ALL I/O-related SSL_* functions with side effects (e.g.
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* SSL_read/SSL_write) consist of three phases:
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*
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* - Optionally mutate the QUIC machine's state.
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* - Optionally tick the QUIC reactor.
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* - Optionally mutate the QUIC machine's state.
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*
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* For example, SSL_write is a mutation (appending to a stream buffer) followed
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* by an optional tick (generally expected as we may want to send the data
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* immediately, though not strictly needed if transmission is being deferred due
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* to Nagle's algorithm, etc.).
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*
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* SSL_read is also a mutation and in principle does not need to tick the
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* reactor, but it generally will anyway to ensure that the reactor is regularly
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* ticked by an application which is only reading and not writing.
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*
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* If the SSL object is being used in blocking mode, SSL_read may need to block
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* if no data is available yet, and SSL_write may need to block if buffers
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* are full.
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*
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* The internals of the QUIC I/O engine always use asynchronous I/O. If the
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* application desires blocking semantics, we handle this by adding a blocking
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* adaptation layer on top of our internal asynchronous I/O API as exposed by
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* the reactor interface.
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*/
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struct quic_tick_result_st {
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char net_read_desired;
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char net_write_desired;
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OSSL_TIME tick_deadline;
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};
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static ossl_inline ossl_unused void
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ossl_quic_tick_result_merge_into(QUIC_TICK_RESULT *r,
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const QUIC_TICK_RESULT *src)
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{
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r->net_read_desired = r->net_read_desired || src->net_read_desired;
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r->net_write_desired = r->net_write_desired || src->net_write_desired;
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r->tick_deadline = ossl_time_min(r->tick_deadline, src->tick_deadline);
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}
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struct quic_reactor_st {
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/*
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* BIO poll descriptors which can be polled. poll_r is a poll descriptor
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* which becomes readable when the QUIC state machine can potentially do
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* work, and poll_w is a poll descriptor which becomes writable when the
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* QUIC state machine can potentially do work. Generally, either of these
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* conditions means that SSL_tick() should be called, or another SSL
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* function which implicitly calls SSL_tick() (e.g. SSL_read/SSL_write()).
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*/
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BIO_POLL_DESCRIPTOR poll_r, poll_w;
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OSSL_TIME tick_deadline; /* ossl_time_infinite() if none currently applicable */
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void (*tick_cb)(QUIC_TICK_RESULT *res, void *arg, uint32_t flags);
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void *tick_cb_arg;
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/*
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* These are true if we would like to know when we can read or write from
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* the network respectively.
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*/
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unsigned int net_read_desired : 1;
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unsigned int net_write_desired : 1;
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/*
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* Are the read and write poll descriptors we are currently configured with
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* things we can actually poll?
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*/
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unsigned int can_poll_r : 1;
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unsigned int can_poll_w : 1;
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};
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void ossl_quic_reactor_init(QUIC_REACTOR *rtor,
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void (*tick_cb)(QUIC_TICK_RESULT *res, void *arg,
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uint32_t flags),
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void *tick_cb_arg,
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OSSL_TIME initial_tick_deadline);
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void ossl_quic_reactor_set_poll_r(QUIC_REACTOR *rtor,
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const BIO_POLL_DESCRIPTOR *r);
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void ossl_quic_reactor_set_poll_w(QUIC_REACTOR *rtor,
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const BIO_POLL_DESCRIPTOR *w);
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const BIO_POLL_DESCRIPTOR *ossl_quic_reactor_get_poll_r(const QUIC_REACTOR *rtor);
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const BIO_POLL_DESCRIPTOR *ossl_quic_reactor_get_poll_w(const QUIC_REACTOR *rtor);
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int ossl_quic_reactor_can_poll_r(const QUIC_REACTOR *rtor);
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int ossl_quic_reactor_can_poll_w(const QUIC_REACTOR *rtor);
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int ossl_quic_reactor_can_support_poll_descriptor(const QUIC_REACTOR *rtor,
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const BIO_POLL_DESCRIPTOR *d);
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int ossl_quic_reactor_net_read_desired(QUIC_REACTOR *rtor);
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int ossl_quic_reactor_net_write_desired(QUIC_REACTOR *rtor);
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OSSL_TIME ossl_quic_reactor_get_tick_deadline(QUIC_REACTOR *rtor);
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/*
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* Do whatever work can be done, and as much work as can be done. This involves
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* e.g. seeing if we can read anything from the network (if we want to), seeing
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* if we can write anything to the network (if we want to), etc.
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*
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* If the CHANNEL_ONLY flag is set, this indicates that we should only
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* touch state which is synchronised by the channel mutex.
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*/
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#define QUIC_REACTOR_TICK_FLAG_CHANNEL_ONLY (1U << 0)
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int ossl_quic_reactor_tick(QUIC_REACTOR *rtor, uint32_t flags);
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/*
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* Blocking I/O Adaptation Layer
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* =============================
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*
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* The blocking I/O adaptation layer implements blocking I/O on top of our
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* asynchronous core.
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*
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* The core mechanism is block_until_pred(), which does not return until pred()
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* returns a value other than 0. The blocker uses OS I/O synchronisation
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* primitives (e.g. poll(2)) and ticks the reactor until the predicate is
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* satisfied. The blocker is not required to call pred() more than once between
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* tick calls.
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*
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* When pred returns a non-zero value, that value is returned by this function.
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* This can be used to allow pred() to indicate error conditions and short
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* circuit the blocking process.
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*
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* A return value of -1 is reserved for network polling errors. Therefore this
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* return value should not be used by pred() if ambiguity is not desired. Note
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* that the predicate function can always arrange its own output mechanism, for
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* example by passing a structure of its own as the argument.
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*
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* If the SKIP_FIRST_TICK flag is set, the first call to reactor_tick() before
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* the first call to pred() is skipped. This is useful if it is known that
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* ticking the reactor again will not be useful (e.g. because it has already
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* been done).
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*
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* This function assumes a write lock is held for the entire QUIC_CHANNEL. If
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* mutex is non-NULL, it must be a lock currently held for write; it will be
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* unlocked during any sleep, and then relocked for write afterwards.
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*
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* Precondition: mutex is NULL or is held for write (unchecked)
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* Postcondition: mutex is NULL or is held for write (unless
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* CRYPTO_THREAD_write_lock fails)
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*/
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#define SKIP_FIRST_TICK (1U << 0)
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int ossl_quic_reactor_block_until_pred(QUIC_REACTOR *rtor,
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int (*pred)(void *arg), void *pred_arg,
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uint32_t flags,
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CRYPTO_MUTEX *mutex);
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# endif
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#endif
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