188 lines
7.5 KiB
C
188 lines
7.5 KiB
C
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//
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// Copyright 2020 The Abseil Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// https://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef ABSL_FLAGS_INTERNAL_SEQUENCE_LOCK_H_
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#define ABSL_FLAGS_INTERNAL_SEQUENCE_LOCK_H_
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#include <stddef.h>
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#include <stdint.h>
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#include <atomic>
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#include <cassert>
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#include <cstring>
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#include "absl/base/optimization.h"
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namespace absl {
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ABSL_NAMESPACE_BEGIN
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namespace flags_internal {
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// Align 'x' up to the nearest 'align' bytes.
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inline constexpr size_t AlignUp(size_t x, size_t align) {
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return align * ((x + align - 1) / align);
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}
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// A SequenceLock implements lock-free reads. A sequence counter is incremented
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// before and after each write, and readers access the counter before and after
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// accessing the protected data. If the counter is verified to not change during
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// the access, and the sequence counter value was even, then the reader knows
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// that the read was race-free and valid. Otherwise, the reader must fall back
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// to a Mutex-based code path.
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//
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// This particular SequenceLock starts in an "uninitialized" state in which
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// TryRead() returns false. It must be enabled by calling MarkInitialized().
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// This serves as a marker that the associated flag value has not yet been
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// initialized and a slow path needs to be taken.
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//
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// The memory reads and writes protected by this lock must use the provided
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// `TryRead()` and `Write()` functions. These functions behave similarly to
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// `memcpy()`, with one oddity: the protected data must be an array of
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// `std::atomic<uint64>`. This is to comply with the C++ standard, which
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// considers data races on non-atomic objects to be undefined behavior. See "Can
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// Seqlocks Get Along With Programming Language Memory Models?"[1] by Hans J.
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// Boehm for more details.
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//
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// [1] https://www.hpl.hp.com/techreports/2012/HPL-2012-68.pdf
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class SequenceLock {
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public:
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constexpr SequenceLock() : lock_(kUninitialized) {}
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// Mark that this lock is ready for use.
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void MarkInitialized() {
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assert(lock_.load(std::memory_order_relaxed) == kUninitialized);
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lock_.store(0, std::memory_order_release);
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}
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// Copy "size" bytes of data from "src" to "dst", protected as a read-side
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// critical section of the sequence lock.
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//
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// Unlike traditional sequence lock implementations which loop until getting a
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// clean read, this implementation returns false in the case of concurrent
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// calls to `Write`. In such a case, the caller should fall back to a
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// locking-based slow path.
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//
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// Returns false if the sequence lock was not yet marked as initialized.
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//
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// NOTE: If this returns false, "dst" may be overwritten with undefined
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// (potentially uninitialized) data.
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bool TryRead(void* dst, const std::atomic<uint64_t>* src, size_t size) const {
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// Acquire barrier ensures that no loads done by f() are reordered
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// above the first load of the sequence counter.
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int64_t seq_before = lock_.load(std::memory_order_acquire);
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if (ABSL_PREDICT_FALSE(seq_before & 1) == 1) return false;
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RelaxedCopyFromAtomic(dst, src, size);
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// Another acquire fence ensures that the load of 'lock_' below is
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// strictly ordered after the RelaxedCopyToAtomic call above.
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std::atomic_thread_fence(std::memory_order_acquire);
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int64_t seq_after = lock_.load(std::memory_order_relaxed);
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return ABSL_PREDICT_TRUE(seq_before == seq_after);
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}
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// Copy "size" bytes from "src" to "dst" as a write-side critical section
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// of the sequence lock. Any concurrent readers will be forced to retry
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// until they get a read that does not conflict with this write.
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//
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// This call must be externally synchronized against other calls to Write,
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// but may proceed concurrently with reads.
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void Write(std::atomic<uint64_t>* dst, const void* src, size_t size) {
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// We can use relaxed instructions to increment the counter since we
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// are extenally synchronized. The std::atomic_thread_fence below
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// ensures that the counter updates don't get interleaved with the
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// copy to the data.
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int64_t orig_seq = lock_.load(std::memory_order_relaxed);
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assert((orig_seq & 1) == 0); // Must be initially unlocked.
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lock_.store(orig_seq + 1, std::memory_order_relaxed);
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// We put a release fence between update to lock_ and writes to shared data.
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// Thus all stores to shared data are effectively release operations and
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// update to lock_ above cannot be re-ordered past any of them. Note that
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// this barrier is not for the fetch_add above. A release barrier for the
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// fetch_add would be before it, not after.
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std::atomic_thread_fence(std::memory_order_release);
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RelaxedCopyToAtomic(dst, src, size);
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// "Release" semantics ensure that none of the writes done by
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// RelaxedCopyToAtomic() can be reordered after the following modification.
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lock_.store(orig_seq + 2, std::memory_order_release);
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}
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// Return the number of times that Write() has been called.
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//
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// REQUIRES: This must be externally synchronized against concurrent calls to
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// `Write()` or `IncrementModificationCount()`.
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// REQUIRES: `MarkInitialized()` must have been previously called.
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int64_t ModificationCount() const {
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int64_t val = lock_.load(std::memory_order_relaxed);
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assert(val != kUninitialized && (val & 1) == 0);
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return val / 2;
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}
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// REQUIRES: This must be externally synchronized against concurrent calls to
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// `Write()` or `ModificationCount()`.
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// REQUIRES: `MarkInitialized()` must have been previously called.
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void IncrementModificationCount() {
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int64_t val = lock_.load(std::memory_order_relaxed);
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assert(val != kUninitialized);
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lock_.store(val + 2, std::memory_order_relaxed);
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}
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private:
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// Perform the equivalent of "memcpy(dst, src, size)", but using relaxed
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// atomics.
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static void RelaxedCopyFromAtomic(void* dst, const std::atomic<uint64_t>* src,
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size_t size) {
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char* dst_byte = static_cast<char*>(dst);
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while (size >= sizeof(uint64_t)) {
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uint64_t word = src->load(std::memory_order_relaxed);
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std::memcpy(dst_byte, &word, sizeof(word));
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dst_byte += sizeof(word);
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src++;
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size -= sizeof(word);
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}
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if (size > 0) {
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uint64_t word = src->load(std::memory_order_relaxed);
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std::memcpy(dst_byte, &word, size);
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}
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}
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// Perform the equivalent of "memcpy(dst, src, size)", but using relaxed
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// atomics.
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static void RelaxedCopyToAtomic(std::atomic<uint64_t>* dst, const void* src,
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size_t size) {
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const char* src_byte = static_cast<const char*>(src);
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while (size >= sizeof(uint64_t)) {
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uint64_t word;
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std::memcpy(&word, src_byte, sizeof(word));
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dst->store(word, std::memory_order_relaxed);
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src_byte += sizeof(word);
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dst++;
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size -= sizeof(word);
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}
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if (size > 0) {
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uint64_t word = 0;
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std::memcpy(&word, src_byte, size);
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dst->store(word, std::memory_order_relaxed);
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}
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}
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static constexpr int64_t kUninitialized = -1;
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std::atomic<int64_t> lock_;
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};
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} // namespace flags_internal
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ABSL_NAMESPACE_END
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} // namespace absl
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#endif // ABSL_FLAGS_INTERNAL_SEQUENCE_LOCK_H_
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