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https://github.com/autc04/Retro68.git
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329 lines
12 KiB
C++
329 lines
12 KiB
C++
/* Copyright (C) 2008-2017 Free Software Foundation, Inc.
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Contributed by Richard Henderson <rth@redhat.com>.
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This file is part of the GNU Transactional Memory Library (libitm).
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Libitm is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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Libitm is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE. See the GNU General Public License for
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more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#include "libitm_i.h"
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namespace GTM HIDDEN {
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// Initialize a new RW lock.
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// ??? Move this back to the header file when constexpr is implemented.
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gtm_rwlock::gtm_rwlock()
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: summary (0),
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htm_fastpath (0),
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mutex (PTHREAD_MUTEX_INITIALIZER),
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c_readers (PTHREAD_COND_INITIALIZER),
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c_writers (PTHREAD_COND_INITIALIZER),
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c_confirmed_writers (PTHREAD_COND_INITIALIZER),
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a_readers (0),
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w_readers (0),
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w_writers (0)
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{ }
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gtm_rwlock::~gtm_rwlock()
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{
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pthread_mutex_destroy (&this->mutex);
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pthread_cond_destroy (&this->c_readers);
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pthread_cond_destroy (&this->c_writers);
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}
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// Acquire a RW lock for reading.
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void
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gtm_rwlock::read_lock (gtm_thread *tx)
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{
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// Fast path: first announce our intent to read, then check for conflicting
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// intents to write. The fence ensure that this happens in exactly this
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// order.
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tx->shared_state.store (0, memory_order_relaxed);
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atomic_thread_fence (memory_order_seq_cst);
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unsigned int sum = this->summary.load (memory_order_relaxed);
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if (likely(!(sum & (a_writer | w_writer))))
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return;
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// There seems to be an active, waiting, or confirmed writer, so enter the
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// mutex-based slow path. To try to keep the number of readers small that
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// the writer will see, we clear our read flag right away before entering
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// the critical section. Otherwise, the writer would have to wait for us to
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// get into the critical section. (Note that for correctness, this only has
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// to happen before we leave the slow path and before we wait for any
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// writer).
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// ??? Add a barrier to enforce early visibility of this?
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tx->shared_state.store(-1, memory_order_relaxed);
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pthread_mutex_lock (&this->mutex);
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// Read summary again after acquiring the mutex because it might have
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// changed during waiting for the mutex to become free.
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sum = this->summary.load (memory_order_relaxed);
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// If there is a writer waiting for readers, wake it up. Only do that if we
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// might be the last reader that could do the wake-up, otherwise skip the
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// wake-up but decrease a_readers to show that we have entered the slow path.
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// This has to happen before we wait for any writers or upgraders.
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// See write_lock_generic() for further explanations.
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if (this->a_readers > 0)
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{
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this->a_readers--;
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if (this->a_readers == 0)
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pthread_cond_signal(&this->c_confirmed_writers);
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}
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// If there is an active or waiting writer, we must wait.
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while (sum & (a_writer | w_writer))
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{
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this->summary.store (sum | w_reader, memory_order_relaxed);
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this->w_readers++;
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pthread_cond_wait (&this->c_readers, &this->mutex);
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sum = this->summary.load (memory_order_relaxed);
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if (--this->w_readers == 0)
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sum &= ~w_reader;
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}
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// Otherwise we can acquire the lock for read.
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tx->shared_state.store(0, memory_order_relaxed);
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pthread_mutex_unlock(&this->mutex);
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}
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// Acquire a RW lock for writing. Generic version that also works for
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// upgrades.
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// Note that an upgrade might fail (and thus waste previous work done during
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// this transaction) if there is another thread that tried to go into serial
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// mode earlier (i.e., upgrades do not have higher priority than pure writers).
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// However, this seems rare enough to not consider it further as we need both
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// a non-upgrade writer and a writer to happen to switch to serial mode
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// concurrently. If we'd want to handle this, a writer waiting for readers
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// would have to coordinate with later arriving upgrades and hand over the
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// lock to them, including the the reader-waiting state. We can try to support
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// this if this will actually happen often enough in real workloads.
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bool
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gtm_rwlock::write_lock_generic (gtm_thread *tx)
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{
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pthread_mutex_lock (&this->mutex);
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unsigned int sum = this->summary.load (memory_order_relaxed);
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// If there is an active writer, wait.
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while (sum & a_writer)
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{
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if (tx != 0)
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{
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// If this is an upgrade, we must not wait for other writers or
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// upgrades that already have gone in
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pthread_mutex_unlock (&this->mutex);
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return false;
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}
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this->summary.store (sum | w_writer, memory_order_relaxed);
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this->w_writers++;
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pthread_cond_wait (&this->c_writers, &this->mutex);
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sum = this->summary.load (memory_order_relaxed);
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if (--this->w_writers == 0)
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sum &= ~w_writer;
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}
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// Otherwise we can acquire the lock for write. As a writer, we have
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// priority, so we don't need to take this back.
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this->summary.store (sum | a_writer, memory_order_relaxed);
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// We still need to wait for active readers to finish. The barrier makes
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// sure that we first set our write intent and check for active readers
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// after that, in strictly this order (similar to the barrier in the fast
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// path of read_lock()).
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atomic_thread_fence(memory_order_seq_cst);
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// Count the number of active readers to be able to decrease the number of
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// wake-ups and wait calls that are necessary.
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//
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// This number is an upper bound of the number of readers that actually
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// are still active and which we need to wait for:
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// - We set our write flag before checking the reader flags, and readers
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// check our write flag after clearing their read flags in read_unlock().
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// Therefore, they will enter the slow path whenever we have seen them.
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// - Readers will have cleared their read flags before leaving the slow
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// path in read_lock() (prevents lost wake-ups), and before waiting for
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// any writer (prevents deadlocks).
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//
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// However, this number is also just a lower bound of the number of readers
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// that will actually enter the slow path in read_unlock() or read_lock():
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// - Because the read flag is cleared outside of a critical section, writers
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// can see it as cleared while the reader still goes into the slow path.
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//
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// Therefore, readers can skip (lower bound - 1) wake-ups, but we do need
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// the following loop to check that the readers that we wanted to wait for
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// are actually those that entered the slow path so far (and either skipped
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// or sent a wake-up).
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//
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// ??? Do we need to optimize further? (The writer could publish a list of
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// readers that it suspects to be active. Readers could check this list and
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// only decrement a_readers if they are in this list.)
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for (;;)
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{
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// ??? Keep a list of active readers that we saw and update it on the
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// next retry instead? This might reduce the number of cache misses that
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// we get when checking reader flags.
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int readers = 0;
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for (gtm_thread *it = gtm_thread::list_of_threads; it != 0;
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it = it->next_thread)
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{
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// Don't count ourself if this is an upgrade.
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if (it == tx)
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continue;
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if (it->shared_state.load(memory_order_relaxed) != (gtm_word)-1)
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readers++;
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}
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// If we have not seen any readers, we will not wait.
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if (readers == 0)
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break;
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// If this is an upgrade, we have to break deadlocks with
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// privatization safety. This may fail on our side, in which
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// case we need to cancel our attempt to upgrade. Also, we do not
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// block using the convdar but just spin so that we never have to be
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// woken.
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// FIXME This is horribly inefficient -- but so is not being able
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// to use futexes in this case.
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if (tx != 0)
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{
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pthread_mutex_unlock (&this->mutex);
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if (!abi_disp ()->snapshot_most_recent ())
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{
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write_unlock ();
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return false;
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}
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pthread_mutex_lock (&this->mutex);
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continue;
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}
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// We've seen a number of readers, so we publish this number and wait.
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this->a_readers = readers;
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pthread_cond_wait (&this->c_confirmed_writers, &this->mutex);
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}
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pthread_mutex_unlock (&this->mutex);
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return true;
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}
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// Acquire a RW lock for writing.
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void
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gtm_rwlock::write_lock ()
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{
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write_lock_generic (0);
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}
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// Upgrade a RW lock that has been locked for reading to a writing lock.
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// Do this without possibility of another writer incoming. Return false
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// if this attempt fails (i.e. another thread also upgraded).
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bool
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gtm_rwlock::write_upgrade (gtm_thread *tx)
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{
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return write_lock_generic (tx);
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}
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// Has to be called iff the previous upgrade was successful and after it is
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// safe for the transaction to not be marked as a reader anymore.
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void
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gtm_rwlock::write_upgrade_finish (gtm_thread *tx)
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{
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// We are not a reader anymore. This is only safe to do after we have
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// acquired the writer lock.
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tx->shared_state.store (-1, memory_order_release);
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}
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// Release a RW lock from reading.
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void
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gtm_rwlock::read_unlock (gtm_thread *tx)
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{
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// We only need release memory order here because of privatization safety
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// (this ensures that marking the transaction as inactive happens after
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// any prior data accesses by this transaction, and that neither the
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// compiler nor the hardware order this store earlier).
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// ??? We might be able to avoid this release here if the compiler can't
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// merge the release fence with the subsequent seq_cst fence.
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tx->shared_state.store (-1, memory_order_release);
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// We need this seq_cst fence here to avoid lost wake-ups. Furthermore,
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// the privatization safety implementation in gtm_thread::try_commit()
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// relies on the existence of this seq_cst fence.
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atomic_thread_fence (memory_order_seq_cst);
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unsigned int sum = this->summary.load (memory_order_relaxed);
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if (likely(!(sum & (a_writer | w_writer))))
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return;
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// There is a writer, either active or waiting for other readers or writers.
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// Thus, enter the mutex-based slow path.
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pthread_mutex_lock (&this->mutex);
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// If there is a writer waiting for readers, wake it up. Only do that if we
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// might be the last reader that could do the wake-up, otherwise skip the
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// wake-up and decrease a_readers to publish that we have entered the slow
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// path but skipped the wake-up.
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if (this->a_readers > 0)
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{
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this->a_readers--;
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if (this->a_readers == 0)
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pthread_cond_signal(&this->c_confirmed_writers);
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}
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// We don't need to wake up any writers waiting for other writers. Active
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// writers will take care of that.
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pthread_mutex_unlock (&this->mutex);
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}
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// Release a RW lock from writing.
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void
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gtm_rwlock::write_unlock ()
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{
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pthread_mutex_lock (&this->mutex);
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unsigned int sum = this->summary.load (memory_order_relaxed);
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this->summary.store (sum & ~a_writer, memory_order_relaxed);
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// If there is a waiting writer, wake it.
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if (unlikely (sum & w_writer))
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pthread_cond_signal (&this->c_writers);
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// If there are waiting readers, wake them.
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else if (unlikely (sum & w_reader))
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pthread_cond_broadcast (&this->c_readers);
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pthread_mutex_unlock (&this->mutex);
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}
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} // namespace GTM
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