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// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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//
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// Copyright (c) 2011 The LevelDB Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file. See the AUTHORS file for names of contributors.
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#include "rocksdb/write_buffer_manager.h"
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#include <mutex>
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#include "util/coding.h"
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namespace ROCKSDB_NAMESPACE {
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#ifndef ROCKSDB_LITE
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namespace {
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const size_t kSizeDummyEntry = 256 * 1024;
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// The key will be longer than keys for blocks in SST files so they won't
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// conflict.
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const size_t kCacheKeyPrefix = kMaxVarint64Length * 4 + 1;
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} // namespace
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struct WriteBufferManager::CacheRep {
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std::shared_ptr<Cache> cache_;
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std::mutex cache_mutex_;
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std::atomic<size_t> cache_allocated_size_;
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// The non-prefix part will be updated according to the ID to use.
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char cache_key_[kCacheKeyPrefix + kMaxVarint64Length];
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uint64_t next_cache_key_id_ = 0;
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std::vector<Cache::Handle*> dummy_handles_;
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explicit CacheRep(std::shared_ptr<Cache> cache)
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: cache_(cache), cache_allocated_size_(0) {
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memset(cache_key_, 0, kCacheKeyPrefix);
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size_t pointer_size = sizeof(const void*);
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assert(pointer_size <= kCacheKeyPrefix);
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memcpy(cache_key_, static_cast<const void*>(this), pointer_size);
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}
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Slice GetNextCacheKey() {
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memset(cache_key_ + kCacheKeyPrefix, 0, kMaxVarint64Length);
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char* end =
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EncodeVarint64(cache_key_ + kCacheKeyPrefix, next_cache_key_id_++);
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return Slice(cache_key_, static_cast<size_t>(end - cache_key_));
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}
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};
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#else
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struct WriteBufferManager::CacheRep {};
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#endif // ROCKSDB_LITE
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WriteBufferManager::WriteBufferManager(size_t _buffer_size,
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std::shared_ptr<Cache> cache)
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: buffer_size_(_buffer_size),
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mutable_limit_(buffer_size_ * 7 / 8),
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memory_used_(0),
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memory_active_(0),
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cache_rep_(nullptr) {
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#ifndef ROCKSDB_LITE
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if (cache) {
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// Construct the cache key using the pointer to this.
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cache_rep_.reset(new CacheRep(cache));
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}
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#else
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(void)cache;
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#endif // ROCKSDB_LITE
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}
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WriteBufferManager::~WriteBufferManager() {
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#ifndef ROCKSDB_LITE
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if (cache_rep_) {
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for (auto* handle : cache_rep_->dummy_handles_) {
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if (handle != nullptr) {
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cache_rep_->cache_->Release(handle, true);
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}
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}
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}
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#endif // ROCKSDB_LITE
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}
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// Should only be called from write thread
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void WriteBufferManager::ReserveMemWithCache(size_t mem) {
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#ifndef ROCKSDB_LITE
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assert(cache_rep_ != nullptr);
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// Use a mutex to protect various data structures. Can be optimized to a
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// lock-free solution if it ends up with a performance bottleneck.
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std::lock_guard<std::mutex> lock(cache_rep_->cache_mutex_);
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size_t new_mem_used = memory_used_.load(std::memory_order_relaxed) + mem;
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memory_used_.store(new_mem_used, std::memory_order_relaxed);
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while (new_mem_used > cache_rep_->cache_allocated_size_) {
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// Expand size by at least 256KB.
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// Add a dummy record to the cache
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Cache::Handle* handle = nullptr;
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Status s =
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cache_rep_->cache_->Insert(cache_rep_->GetNextCacheKey(), nullptr,
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kSizeDummyEntry, nullptr, &handle);
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s.PermitUncheckedError(); // TODO: What to do on error?
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// We keep the handle even if insertion fails and a null handle is
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// returned, so that when memory shrinks, we don't release extra
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// entries from cache.
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// Ideallly we should prevent this allocation from happening if
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// this insertion fails. However, the callers to this code path
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// are not able to handle failures properly. We'll need to improve
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// it in the future.
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cache_rep_->dummy_handles_.push_back(handle);
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cache_rep_->cache_allocated_size_ += kSizeDummyEntry;
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}
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#else
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(void)mem;
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#endif // ROCKSDB_LITE
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}
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void WriteBufferManager::FreeMemWithCache(size_t mem) {
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#ifndef ROCKSDB_LITE
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assert(cache_rep_ != nullptr);
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// Use a mutex to protect various data structures. Can be optimized to a
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// lock-free solution if it ends up with a performance bottleneck.
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std::lock_guard<std::mutex> lock(cache_rep_->cache_mutex_);
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size_t new_mem_used = memory_used_.load(std::memory_order_relaxed) - mem;
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memory_used_.store(new_mem_used, std::memory_order_relaxed);
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// Gradually shrink memory costed in the block cache if the actual
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// usage is less than 3/4 of what we reserve from the block cache.
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// We do this because:
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// 1. we don't pay the cost of the block cache immediately a memtable is
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// freed, as block cache insert is expensive;
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// 2. eventually, if we walk away from a temporary memtable size increase,
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// we make sure shrink the memory costed in block cache over time.
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// In this way, we only shrink costed memory showly even there is enough
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// margin.
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if (new_mem_used < cache_rep_->cache_allocated_size_ / 4 * 3 &&
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cache_rep_->cache_allocated_size_ - kSizeDummyEntry > new_mem_used) {
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assert(!cache_rep_->dummy_handles_.empty());
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auto* handle = cache_rep_->dummy_handles_.back();
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// If insert failed, handle is null so we should not release.
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if (handle != nullptr) {
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cache_rep_->cache_->Release(handle, true);
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}
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cache_rep_->dummy_handles_.pop_back();
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cache_rep_->cache_allocated_size_ -= kSizeDummyEntry;
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}
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#else
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(void)mem;
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#endif // ROCKSDB_LITE
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}
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} // namespace ROCKSDB_NAMESPACE
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