0a35513e4e
From-SVN: r181154
304 lines
11 KiB
C++
304 lines
11 KiB
C++
/* Copyright (C) 2011 Free Software Foundation, Inc.
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Contributed by Torvald Riegel <triegel@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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using namespace GTM;
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namespace {
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// This group consists of all TM methods that synchronize via just a single
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// global lock (or ownership record).
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struct gl_mg : public method_group
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{
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static const gtm_word LOCK_BIT = (~(gtm_word)0 >> 1) + 1;
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// We can't use the full bitrange because ~0 in gtm_thread::shared_state has
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// special meaning.
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static const gtm_word VERSION_MAX = (~(gtm_word)0 >> 1) - 1;
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static bool is_locked(gtm_word l) { return l & LOCK_BIT; }
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static gtm_word set_locked(gtm_word l) { return l | LOCK_BIT; }
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static gtm_word clear_locked(gtm_word l) { return l & ~LOCK_BIT; }
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// The global ownership record.
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gtm_word orec;
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virtual void init()
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{
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orec = 0;
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}
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virtual void fini() { }
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};
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static gl_mg o_gl_mg;
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// The global lock, write-through TM method.
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// Acquires the orec eagerly before the first write, and then writes through.
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// Reads abort if the global orec's version number changed or if it is locked.
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// Currently, writes require undo-logging to prevent deadlock between the
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// serial lock and the global orec (writer txn acquires orec, reader txn
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// upgrades to serial and waits for all other txns, writer tries to upgrade to
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// serial too but cannot, writer cannot abort either, deadlock). We could
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// avoid this if the serial lock would allow us to prevent other threads from
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// going to serial mode, but this probably is too much additional complexity
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// just to optimize this TM method.
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// gtm_thread::shared_state is used to store a transaction's current
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// snapshot time (or commit time). The serial lock uses ~0 for inactive
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// transactions and 0 for active ones. Thus, we always have a meaningful
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// timestamp in shared_state that can be used to implement quiescence-based
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// privatization safety. This even holds if a writing transaction has the
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// lock bit set in its shared_state because this is fine for both the serial
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// lock (the value will be smaller than ~0) and privatization safety (we
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// validate that no other update transaction comitted before we acquired the
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// orec, so we have the most recent timestamp and no other transaction can
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// commit until we have committed).
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// However, we therefore cannot use this method for a serial transaction
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// (because shared_state needs to remain at ~0) and we have to be careful
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// when switching to serial mode (see the special handling in trycommit() and
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// rollback()).
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// ??? This sharing adds some complexity wrt. serial mode. Just use a separate
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// state variable?
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class gl_wt_dispatch : public abi_dispatch
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{
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protected:
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static void pre_write(const void *addr, size_t len)
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{
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gtm_thread *tx = gtm_thr();
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if (unlikely(!gl_mg::is_locked(tx->shared_state)))
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{
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// Check for and handle version number overflow.
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if (unlikely(tx->shared_state >= gl_mg::VERSION_MAX))
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tx->restart(RESTART_INIT_METHOD_GROUP);
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// CAS global orec from our snapshot time to the locked state.
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// This validates that we have a consistent snapshot, which is also
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// for making privatization safety work (see the class' comments).
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gtm_word now = o_gl_mg.orec;
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if (now != tx->shared_state)
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tx->restart(RESTART_VALIDATE_WRITE);
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if (__sync_val_compare_and_swap(&o_gl_mg.orec, now,
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gl_mg::set_locked(now)) != now)
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tx->restart(RESTART_LOCKED_WRITE);
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// Set shared_state to new value. The CAS is a full barrier, so the
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// acquisition of the global orec is visible before this store here,
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// and the store will not be visible before earlier data loads, which
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// is required to correctly ensure privatization safety (see
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// begin_and_restart() and release_orec() for further comments).
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tx->shared_state = gl_mg::set_locked(now);
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}
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// TODO Ensure that this gets inlined: Use internal log interface and LTO.
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GTM_LB(addr, len);
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}
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static void validate()
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{
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// Check that snapshot is consistent. The barrier ensures that this
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// happens after previous data loads.
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atomic_read_barrier();
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gtm_thread *tx = gtm_thr();
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gtm_word l = o_gl_mg.orec;
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if (l != tx->shared_state)
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tx->restart(RESTART_VALIDATE_READ);
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}
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template <typename V> static V load(const V* addr, ls_modifier mod)
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{
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// Read-for-write should be unlikely, but we need to handle it or will
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// break later WaW optimizations.
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if (unlikely(mod == RfW))
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{
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pre_write(addr, sizeof(V));
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return *addr;
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}
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V v = *addr;
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if (likely(mod != RaW))
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validate();
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return v;
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}
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template <typename V> static void store(V* addr, const V value,
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ls_modifier mod)
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{
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if (unlikely(mod != WaW))
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pre_write(addr, sizeof(V));
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*addr = value;
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}
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public:
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static void memtransfer_static(void *dst, const void* src, size_t size,
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bool may_overlap, ls_modifier dst_mod, ls_modifier src_mod)
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{
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if ((dst_mod != WaW && src_mod != RaW)
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&& (dst_mod != NONTXNAL || src_mod == RfW))
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pre_write(dst, size);
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if (!may_overlap)
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::memcpy(dst, src, size);
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else
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::memmove(dst, src, size);
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if (src_mod != RfW && src_mod != RaW && src_mod != NONTXNAL
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&& dst_mod != WaW)
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validate();
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}
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static void memset_static(void *dst, int c, size_t size, ls_modifier mod)
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{
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if (mod != WaW)
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pre_write(dst, size);
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::memset(dst, c, size);
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}
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virtual gtm_restart_reason begin_or_restart()
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{
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// We don't need to do anything for nested transactions.
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gtm_thread *tx = gtm_thr();
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if (tx->parent_txns.size() > 0)
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return NO_RESTART;
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// Spin until global orec is not locked.
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// TODO This is not necessary if there are no pure loads (check txn props).
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gtm_word v;
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unsigned i = 0;
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while (gl_mg::is_locked(v = o_gl_mg.orec))
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{
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// TODO need method-specific max spin count
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if (++i > gtm_spin_count_var) return RESTART_VALIDATE_READ;
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cpu_relax();
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}
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// This barrier ensures that we have read the global orec before later
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// data loads.
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atomic_read_barrier();
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// Everything is okay, we have a snapshot time.
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// We don't need to enforce any ordering for the following store. There
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// are no earlier data loads in this transaction, so the store cannot
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// become visible before those (which could lead to the violation of
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// privatization safety). The store can become visible after later loads
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// but this does not matter because the previous value will have been
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// smaller or equal (the serial lock will set shared_state to zero when
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// marking the transaction as active, and restarts enforce immediate
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// visibility of a smaller or equal value with a barrier (see
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// release_orec()).
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tx->shared_state = v;
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return NO_RESTART;
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}
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virtual bool trycommit(gtm_word& priv_time)
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{
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gtm_thread* tx = gtm_thr();
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gtm_word v = tx->shared_state;
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// Special case: If shared_state is ~0, then we have acquired the
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// serial lock (tx->state is not updated yet). In this case, the previous
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// value isn't available anymore, so grab it from the global lock, which
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// must have a meaningful value because no other transactions are active
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// anymore. In particular, if it is locked, then we are an update
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// transaction, which is all we care about for commit.
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if (v == ~(typeof v)0)
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v = o_gl_mg.orec;
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// Release the orec but do not reset shared_state, which will be modified
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// by the serial lock right after our commit anyway. Also, resetting
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// shared state here would interfere with the serial lock's use of this
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// location.
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if (gl_mg::is_locked(v))
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{
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// Release the global orec, increasing its version number / timestamp.
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// TODO replace with C++0x-style atomics (a release in this case)
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atomic_write_barrier();
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v = gl_mg::clear_locked(v) + 1;
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o_gl_mg.orec = v;
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// Need to ensure privatization safety. Every other transaction must
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// have a snapshot time that is at least as high as our commit time
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// (i.e., our commit must be visible to them).
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priv_time = v;
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}
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return true;
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}
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virtual void rollback(gtm_transaction_cp *cp)
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{
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// We don't do anything for rollbacks of nested transactions.
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if (cp != 0)
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return;
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gtm_thread *tx = gtm_thr();
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gtm_word v = tx->shared_state;
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// Special case: If shared_state is ~0, then we have acquired the
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// serial lock (tx->state is not updated yet). In this case, the previous
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// value isn't available anymore, so grab it from the global lock, which
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// must have a meaningful value because no other transactions are active
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// anymore. In particular, if it is locked, then we are an update
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// transaction, which is all we care about for rollback.
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if (v == ~(typeof v)0)
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v = o_gl_mg.orec;
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// Release lock and increment version number to prevent dirty reads.
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// Also reset shared state here, so that begin_or_restart() can expect a
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// value that is correct wrt. privatization safety.
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if (gl_mg::is_locked(v))
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{
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// Release the global orec, increasing its version number / timestamp.
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// TODO replace with C++0x-style atomics (a release in this case)
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atomic_write_barrier();
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v = gl_mg::clear_locked(v) + 1;
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o_gl_mg.orec = v;
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// Also reset the timestamp published via shared_state.
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// Special case: Only do this if we are not a serial transaction
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// because otherwise, we would interfere with the serial lock.
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if (tx->shared_state != ~(typeof tx->shared_state)0)
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tx->shared_state = v;
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// We need a store-load barrier after this store to prevent it
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// from becoming visible after later data loads because the
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// previous value of shared_state has been higher than the actual
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// snapshot time (the lock bit had been set), which could break
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// privatization safety. We do not need a barrier before this
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// store (see pre_write() for an explanation).
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__sync_synchronize();
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}
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}
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CREATE_DISPATCH_METHODS(virtual, )
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CREATE_DISPATCH_METHODS_MEM()
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gl_wt_dispatch() : abi_dispatch(false, true, false, false, &o_gl_mg)
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{ }
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};
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} // anon namespace
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static const gl_wt_dispatch o_gl_wt_dispatch;
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abi_dispatch *
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GTM::dispatch_gl_wt ()
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{
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return const_cast<gl_wt_dispatch *>(&o_gl_wt_dispatch);
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}
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