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128 lines
5.7 KiB
C
128 lines
5.7 KiB
C
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/* Monotonically increasing wide counters (at least 62 bits).
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Copyright (C) 2016-2021 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<https://www.gnu.org/licenses/>. */
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#include <atomic_wide_counter.h>
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#if !__HAVE_64B_ATOMICS
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/* Values we add or xor are less than or equal to 1<<31, so we only
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have to make overflow-and-addition atomic wrt. to concurrent load
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operations and xor operations. To do that, we split each counter
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into two 32b values of which we reserve the MSB of each to
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represent an overflow from the lower-order half to the higher-order
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half.
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In the common case, the state is (higher-order / lower-order half, and . is
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basically concatenation of the bits):
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0.h / 0.l = h.l
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When we add a value of x that overflows (i.e., 0.l + x == 1.L), we run the
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following steps S1-S4 (the values these represent are on the right-hand
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side):
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S1: 0.h / 1.L == (h+1).L
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S2: 1.(h+1) / 1.L == (h+1).L
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S3: 1.(h+1) / 0.L == (h+1).L
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S4: 0.(h+1) / 0.L == (h+1).L
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If the LSB of the higher-order half is set, readers will ignore the
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overflow bit in the lower-order half.
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To get an atomic snapshot in load operations, we exploit that the
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higher-order half is monotonically increasing; if we load a value V from
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it, then read the lower-order half, and then read the higher-order half
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again and see the same value V, we know that both halves have existed in
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the sequence of values the full counter had. This is similar to the
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validated reads in the time-based STMs in GCC's libitm (e.g.,
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method_ml_wt).
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One benefit of this scheme is that this makes load operations
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obstruction-free because unlike if we would just lock the counter, readers
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can almost always interpret a snapshot of each halves. Readers can be
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forced to read a new snapshot when the read is concurrent with an overflow.
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However, overflows will happen infrequently, so load operations are
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practically lock-free. */
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uint64_t
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__atomic_wide_counter_fetch_add_relaxed (__atomic_wide_counter *c,
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unsigned int op)
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{
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/* S1. Note that this is an atomic read-modify-write so it extends the
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release sequence of release MO store at S3. */
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unsigned int l = atomic_fetch_add_relaxed (&c->__value32.__low, op);
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unsigned int h = atomic_load_relaxed (&c->__value32.__high);
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uint64_t result = ((uint64_t) h << 31) | l;
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l += op;
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if ((l >> 31) > 0)
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{
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/* Overflow. Need to increment higher-order half. Note that all
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add operations are ordered in happens-before. */
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h++;
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/* S2. Release MO to synchronize with the loads of the higher-order half
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in the load operation. See __condvar_load_64_relaxed. */
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atomic_store_release (&c->__value32.__high,
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h | ((unsigned int) 1 << 31));
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l ^= (unsigned int) 1 << 31;
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/* S3. See __condvar_load_64_relaxed. */
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atomic_store_release (&c->__value32.__low, l);
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/* S4. Likewise. */
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atomic_store_release (&c->__value32.__high, h);
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}
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return result;
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}
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uint64_t
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__atomic_wide_counter_load_relaxed (__atomic_wide_counter *c)
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{
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unsigned int h, l, h2;
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do
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{
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/* This load and the second one below to the same location read from the
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stores in the overflow handling of the add operation or the
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initializing stores (which is a simple special case because
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initialization always completely happens before further use).
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Because no two stores to the higher-order half write the same value,
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the loop ensures that if we continue to use the snapshot, this load
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and the second one read from the same store operation. All candidate
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store operations have release MO.
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If we read from S2 in the first load, then we will see the value of
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S1 on the next load (because we synchronize with S2), or a value
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later in modification order. We correctly ignore the lower-half's
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overflow bit in this case. If we read from S4, then we will see the
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value of S3 in the next load (or a later value), which does not have
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the overflow bit set anymore.
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*/
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h = atomic_load_acquire (&c->__value32.__high);
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/* This will read from the release sequence of S3 (i.e, either the S3
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store or the read-modify-writes at S1 following S3 in modification
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order). Thus, the read synchronizes with S3, and the following load
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of the higher-order half will read from the matching S2 (or a later
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value).
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Thus, if we read a lower-half value here that already overflowed and
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belongs to an increased higher-order half value, we will see the
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latter and h and h2 will not be equal. */
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l = atomic_load_acquire (&c->__value32.__low);
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/* See above. */
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h2 = atomic_load_relaxed (&c->__value32.__high);
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}
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while (h != h2);
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if (((l >> 31) > 0) && ((h >> 31) > 0))
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l ^= (unsigned int) 1 << 31;
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return ((uint64_t) (h & ~((unsigned int) 1 << 31)) << 31) + l;
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}
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#endif /* !__HAVE_64B_ATOMICS */
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