rocksdb/table/block_based/cachable_entry.h
Levi Tamasi 3bde41b5a3 Move the filter readers out of the block cache (#5504)
Summary:
Currently, when the block cache is used for the filter block, it is not
really the block itself that is stored in the cache but a FilterBlockReader
object. Since this object is not pure data (it has, for instance, pointers that
might dangle, including in one case a back pointer to the TableReader), it's not
really sharable. To avoid the issues around this, the current code erases the
cache entries when the TableReader is closed (which, BTW, is not sufficient
since a concurrent TableReader might have picked up the object in the meantime).
Instead of doing this, the patch moves the FilterBlockReader out of the cache
altogether, and decouples the filter reader object from the filter block.
In particular, instead of the TableReader owning, or caching/pinning the
FilterBlockReader (based on the customer's settings), with the change the
TableReader unconditionally owns the FilterBlockReader, which in turn
owns/caches/pins the filter block. This change also enables us to reuse the code
paths historically used for data blocks for filters as well.

Note:
Eviction statistics for filter blocks are temporarily broken. We plan to fix this in a
separate phase.
Pull Request resolved: https://github.com/facebook/rocksdb/pull/5504

Test Plan: make asan_check

Differential Revision: D16036974

Pulled By: ltamasi

fbshipit-source-id: 770f543c5fb4ed126fd1e04bfd3809cf4ff9c091
2019-07-16 13:14:58 -07:00

221 lines
6 KiB
C++

// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
//
// Copyright (c) 2012 The LevelDB Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file. See the AUTHORS file for names of contributors.
#pragma once
#include <cassert>
#include "port/likely.h"
#include "rocksdb/cache.h"
#include "rocksdb/cleanable.h"
namespace rocksdb {
// CachableEntry is a handle to an object that may or may not be in the block
// cache. It is used in a variety of ways:
//
// 1) It may refer to an object in the block cache. In this case, cache_ and
// cache_handle_ are not nullptr, and the cache handle has to be released when
// the CachableEntry is destroyed (the lifecycle of the cached object, on the
// other hand, is managed by the cache itself).
// 2) It may uniquely own the (non-cached) object it refers to (examples include
// a block read directly from file, or uncompressed blocks when there is a
// compressed block cache but no uncompressed block cache). In such cases, the
// object has to be destroyed when the CachableEntry is destroyed.
// 3) It may point to an object (cached or not) without owning it. In this case,
// no action is needed when the CachableEntry is destroyed.
// 4) Sometimes, management of a cached or owned object (see #1 and #2 above)
// is transferred to some other object. This is used for instance with iterators
// (where cleanup is performed using a chain of cleanup functions,
// see Cleanable).
//
// Because of #1 and #2 above, copying a CachableEntry is not safe (and thus not
// allowed); hence, this is a move-only type, where a move transfers the
// management responsibilities, and leaves the source object in an empty state.
template <class T>
class CachableEntry {
public:
CachableEntry() = default;
CachableEntry(T* value, Cache* cache, Cache::Handle* cache_handle,
bool own_value)
: value_(value)
, cache_(cache)
, cache_handle_(cache_handle)
, own_value_(own_value)
{
assert(value_ != nullptr ||
(cache_ == nullptr && cache_handle_ == nullptr && !own_value_));
assert(!!cache_ == !!cache_handle_);
assert(!cache_handle_ || !own_value_);
}
CachableEntry(const CachableEntry&) = delete;
CachableEntry& operator=(const CachableEntry&) = delete;
CachableEntry(CachableEntry&& rhs)
: value_(rhs.value_)
, cache_(rhs.cache_)
, cache_handle_(rhs.cache_handle_)
, own_value_(rhs.own_value_)
{
assert(value_ != nullptr ||
(cache_ == nullptr && cache_handle_ == nullptr && !own_value_));
assert(!!cache_ == !!cache_handle_);
assert(!cache_handle_ || !own_value_);
rhs.ResetFields();
}
CachableEntry& operator=(CachableEntry&& rhs) {
if (UNLIKELY(this == &rhs)) {
return *this;
}
ReleaseResource();
value_ = rhs.value_;
cache_ = rhs.cache_;
cache_handle_ = rhs.cache_handle_;
own_value_ = rhs.own_value_;
assert(value_ != nullptr ||
(cache_ == nullptr && cache_handle_ == nullptr && !own_value_));
assert(!!cache_ == !!cache_handle_);
assert(!cache_handle_ || !own_value_);
rhs.ResetFields();
return *this;
}
~CachableEntry() {
ReleaseResource();
}
bool IsEmpty() const {
return value_ == nullptr && cache_ == nullptr && cache_handle_ == nullptr &&
!own_value_;
}
bool IsCached() const {
assert(!!cache_ == !!cache_handle_);
return cache_handle_ != nullptr;
}
T* GetValue() const { return value_; }
Cache* GetCache() const { return cache_; }
Cache::Handle* GetCacheHandle() const { return cache_handle_; }
bool GetOwnValue() const { return own_value_; }
void Reset() {
ReleaseResource();
ResetFields();
}
void TransferTo(Cleanable* cleanable) {
if (cleanable) {
if (cache_handle_ != nullptr) {
assert(cache_ != nullptr);
cleanable->RegisterCleanup(&ReleaseCacheHandle, cache_, cache_handle_);
} else if (own_value_) {
cleanable->RegisterCleanup(&DeleteValue, value_, nullptr);
}
}
ResetFields();
}
void SetOwnedValue(T* value) {
assert(value != nullptr);
if (UNLIKELY(value_ == value && own_value_)) {
assert(cache_ == nullptr && cache_handle_ == nullptr);
return;
}
Reset();
value_ = value;
own_value_ = true;
}
void SetUnownedValue(T* value) {
assert(value != nullptr);
if (UNLIKELY(value_ == value && cache_ == nullptr &&
cache_handle_ == nullptr && !own_value_)) {
return;
}
Reset();
value_ = value;
assert(!own_value_);
}
void SetCachedValue(T* value, Cache* cache, Cache::Handle* cache_handle) {
assert(value != nullptr);
assert(cache != nullptr);
assert(cache_handle != nullptr);
if (UNLIKELY(value_ == value && cache_ == cache &&
cache_handle_ == cache_handle && !own_value_)) {
return;
}
Reset();
value_ = value;
cache_ = cache;
cache_handle_ = cache_handle;
assert(!own_value_);
}
private:
void ReleaseResource() {
if (LIKELY(cache_handle_ != nullptr)) {
assert(cache_ != nullptr);
cache_->Release(cache_handle_);
} else if (own_value_) {
delete value_;
}
}
void ResetFields() {
value_ = nullptr;
cache_ = nullptr;
cache_handle_ = nullptr;
own_value_ = false;
}
static void ReleaseCacheHandle(void* arg1, void* arg2) {
Cache* const cache = static_cast<Cache*>(arg1);
assert(cache);
Cache::Handle* const cache_handle = static_cast<Cache::Handle*>(arg2);
assert(cache_handle);
cache->Release(cache_handle);
}
static void DeleteValue(void* arg1, void* /* arg2 */) {
delete static_cast<T*>(arg1);
}
private:
T* value_ = nullptr;
Cache* cache_ = nullptr;
Cache::Handle* cache_handle_ = nullptr;
bool own_value_ = false;
};
} // namespace rocksdb