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54cb9c77d9
Summary: The following are risks associated with pointer-to-pointer reinterpret_cast: * Can produce the "wrong result" (crash or memory corruption). IIRC, in theory this can happen for any up-cast or down-cast for a non-standard-layout type, though in practice would only happen for multiple inheritance cases (where the base class pointer might be "inside" the derived object). We don't use multiple inheritance a lot, but we do. * Can mask useful compiler errors upon code change, including converting between unrelated pointer types that you are expecting to be related, and converting between pointer and scalar types unintentionally. I can only think of some obscure cases where static_cast could be troublesome when it compiles as a replacement: * Going through `void*` could plausibly cause unnecessary or broken pointer arithmetic. Suppose we have `struct Derived: public Base1, public Base2`. If we have `Derived*` -> `void*` -> `Base2*` -> `Derived*` through reinterpret casts, this could plausibly work (though technical UB) assuming the `Base2*` is not dereferenced. Changing to static cast could introduce breaking pointer arithmetic. * Unnecessary (but safe) pointer arithmetic could arise in a case like `Derived*` -> `Base2*` -> `Derived*` where before the Base2 pointer might not have been dereferenced. This could potentially affect performance. With some light scripting, I tried replacing pointer-to-pointer reinterpret_casts with static_cast and kept the cases that still compile. Most occurrences of reinterpret_cast have successfully been changed (except for java/ and third-party/). 294 changed, 257 remain. A couple of related interventions included here: * Previously Cache::Handle was not actually derived from in the implementations and just used as a `void*` stand-in with reinterpret_cast. Now there is a relationship to allow static_cast. In theory, this could introduce pointer arithmetic (as described above) but is unlikely without multiple inheritance AND non-empty Cache::Handle. * Remove some unnecessary casts to void* as this is allowed to be implicit (for better or worse). Most of the remaining reinterpret_casts are for converting to/from raw bytes of objects. We could consider better idioms for these patterns in follow-up work. I wish there were a way to implement a template variant of static_cast that would only compile if no pointer arithmetic is generated, but best I can tell, this is not possible. AFAIK the best you could do is a dynamic check that the void* conversion after the static cast is unchanged. Pull Request resolved: https://github.com/facebook/rocksdb/pull/12308 Test Plan: existing tests, CI Reviewed By: ltamasi Differential Revision: D53204947 Pulled By: pdillinger fbshipit-source-id: 9de23e618263b0d5b9820f4e15966876888a16e2
381 lines
14 KiB
C++
381 lines
14 KiB
C++
// Copyright (c) Meta Platforms, Inc. and affiliates.
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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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// APIs for accessing Cache in a type-safe and convenient way. Cache is kept
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// at a low, thin level of abstraction so that different implementations can
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// be plugged in, but these wrappers provide clean, convenient access to the
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// most common operations.
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//
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// A number of template classes are needed for sharing common structure. The
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// key classes are these:
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//
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// * PlaceholderCacheInterface - Used for making cache reservations, with
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// entries that have a charge but no value.
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// * BasicTypedCacheInterface<TValue> - Used for primary cache storage of
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// objects of type TValue.
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// * FullTypedCacheHelper<TValue, TCreateContext> - Used for secondary cache
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// compatible storage of objects of type TValue.
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// * For each of these, there's a "Shared" version
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// (e.g. FullTypedSharedCacheInterface) that holds a shared_ptr to the Cache,
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// rather than assuming external ownership by holding only a raw `Cache*`.
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#pragma once
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#include <algorithm>
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#include <cstdint>
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#include <memory>
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#include <type_traits>
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#include "cache/cache_helpers.h"
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#include "rocksdb/advanced_cache.h"
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#include "rocksdb/advanced_options.h"
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namespace ROCKSDB_NAMESPACE {
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// For future consideration:
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// * Pass in value to Insert with std::unique_ptr& to simplify ownership
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// transfer logic in callers
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// * Make key type a template parameter (e.g. useful for table cache)
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// * Closer integration with CacheHandleGuard (opt-in, so not always
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// paying the extra overhead)
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#define CACHE_TYPE_DEFS() \
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using Priority = Cache::Priority; \
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using Handle = Cache::Handle; \
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using ObjectPtr = Cache::ObjectPtr; \
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using CreateContext = Cache::CreateContext; \
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using CacheItemHelper = Cache::CacheItemHelper /* caller ; */
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template <typename CachePtr>
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class BaseCacheInterface {
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public:
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CACHE_TYPE_DEFS();
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/*implicit*/ BaseCacheInterface(CachePtr cache) : cache_(std::move(cache)) {}
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inline void Release(Handle* handle) { cache_->Release(handle); }
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inline void ReleaseAndEraseIfLastRef(Handle* handle) {
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cache_->Release(handle, /*erase_if_last_ref*/ true);
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}
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inline void RegisterReleaseAsCleanup(Handle* handle, Cleanable& cleanable) {
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cleanable.RegisterCleanup(&ReleaseCacheHandleCleanup, get(), handle);
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}
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inline Cache* get() const { return &*cache_; }
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explicit inline operator bool() const noexcept { return cache_ != nullptr; }
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protected:
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CachePtr cache_;
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};
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// PlaceholderCacheInterface - Used for making cache reservations, with
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// entries that have a charge but no value. CacheEntryRole is required as
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// a template parameter.
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template <CacheEntryRole kRole, typename CachePtr = Cache*>
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class PlaceholderCacheInterface : public BaseCacheInterface<CachePtr> {
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public:
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CACHE_TYPE_DEFS();
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using BaseCacheInterface<CachePtr>::BaseCacheInterface;
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inline Status Insert(const Slice& key, size_t charge, Handle** handle) {
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return this->cache_->Insert(key, /*value=*/nullptr, GetHelper(), charge,
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handle);
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}
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static const Cache::CacheItemHelper* GetHelper() {
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static const Cache::CacheItemHelper kHelper{kRole};
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return &kHelper;
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}
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};
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template <CacheEntryRole kRole>
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using PlaceholderSharedCacheInterface =
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PlaceholderCacheInterface<kRole, std::shared_ptr<Cache>>;
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template <class TValue>
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class BasicTypedCacheHelperFns {
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public:
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CACHE_TYPE_DEFS();
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// E.g. char* for char[]
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using TValuePtr = std::remove_extent_t<TValue>*;
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protected:
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inline static ObjectPtr UpCastValue(TValuePtr value) { return value; }
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inline static TValuePtr DownCastValue(ObjectPtr value) {
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return static_cast<TValuePtr>(value);
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}
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static void Delete(ObjectPtr value, MemoryAllocator* allocator) {
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// FIXME: Currently, no callers actually allocate the ObjectPtr objects
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// using the custom allocator, just subobjects that keep a reference to
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// the allocator themselves (with CacheAllocationPtr).
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if (/*DISABLED*/ false && allocator) {
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if constexpr (std::is_destructible_v<TValue>) {
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DownCastValue(value)->~TValue();
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}
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allocator->Deallocate(value);
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} else {
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// Like delete but properly handles TValue=char[] etc.
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std::default_delete<TValue>{}(DownCastValue(value));
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}
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}
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};
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// In its own class to try to minimize the number of distinct CacheItemHelper
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// instances (e.g. don't vary by CachePtr)
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template <class TValue, CacheEntryRole kRole>
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class BasicTypedCacheHelper : public BasicTypedCacheHelperFns<TValue> {
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public:
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static const Cache::CacheItemHelper* GetBasicHelper() {
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static const Cache::CacheItemHelper kHelper{kRole,
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&BasicTypedCacheHelper::Delete};
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return &kHelper;
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}
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};
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// BasicTypedCacheInterface - Used for primary cache storage of objects of
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// type TValue, which can be cleaned up with std::default_delete<TValue>. The
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// role is provided by TValue::kCacheEntryRole or given in an optional
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// template parameter.
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template <class TValue, CacheEntryRole kRole = TValue::kCacheEntryRole,
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typename CachePtr = Cache*>
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class BasicTypedCacheInterface : public BaseCacheInterface<CachePtr>,
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public BasicTypedCacheHelper<TValue, kRole> {
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public:
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CACHE_TYPE_DEFS();
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using typename BasicTypedCacheHelperFns<TValue>::TValuePtr;
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struct TypedHandle : public Handle {};
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using BasicTypedCacheHelper<TValue, kRole>::GetBasicHelper;
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// ctor
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using BaseCacheInterface<CachePtr>::BaseCacheInterface;
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struct TypedAsyncLookupHandle : public Cache::AsyncLookupHandle {
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TypedHandle* Result() {
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return static_cast<TypedHandle*>(Cache::AsyncLookupHandle::Result());
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}
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};
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inline Status Insert(const Slice& key, TValuePtr value, size_t charge,
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TypedHandle** handle = nullptr,
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Priority priority = Priority::LOW) {
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auto untyped_handle = reinterpret_cast<Handle**>(handle);
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return this->cache_->Insert(
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key, BasicTypedCacheHelperFns<TValue>::UpCastValue(value),
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GetBasicHelper(), charge, untyped_handle, priority);
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}
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inline TypedHandle* Lookup(const Slice& key, Statistics* stats = nullptr) {
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return static_cast<TypedHandle*>(this->cache_->BasicLookup(key, stats));
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}
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inline void StartAsyncLookup(TypedAsyncLookupHandle& async_handle) {
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assert(async_handle.helper == nullptr);
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this->cache_->StartAsyncLookup(async_handle);
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}
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inline CacheHandleGuard<TValue> Guard(TypedHandle* handle) {
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if (handle) {
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return CacheHandleGuard<TValue>(&*this->cache_, handle);
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} else {
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return {};
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}
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}
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inline std::shared_ptr<TValue> SharedGuard(TypedHandle* handle) {
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if (handle) {
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return MakeSharedCacheHandleGuard<TValue>(&*this->cache_, handle);
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} else {
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return {};
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}
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}
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inline TValuePtr Value(TypedHandle* handle) {
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return BasicTypedCacheHelperFns<TValue>::DownCastValue(
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this->cache_->Value(handle));
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}
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};
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// BasicTypedSharedCacheInterface - Like BasicTypedCacheInterface but with a
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// shared_ptr<Cache> for keeping Cache alive.
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template <class TValue, CacheEntryRole kRole = TValue::kCacheEntryRole>
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using BasicTypedSharedCacheInterface =
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BasicTypedCacheInterface<TValue, kRole, std::shared_ptr<Cache>>;
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// TValue must implement ContentSlice() and ~TValue
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// TCreateContext must implement Create(std::unique_ptr<TValue>*, ...)
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template <class TValue, class TCreateContext>
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class FullTypedCacheHelperFns : public BasicTypedCacheHelperFns<TValue> {
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public:
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CACHE_TYPE_DEFS();
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protected:
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using typename BasicTypedCacheHelperFns<TValue>::TValuePtr;
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using BasicTypedCacheHelperFns<TValue>::DownCastValue;
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using BasicTypedCacheHelperFns<TValue>::UpCastValue;
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static size_t Size(ObjectPtr v) {
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TValuePtr value = DownCastValue(v);
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auto slice = value->ContentSlice();
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return slice.size();
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}
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static Status SaveTo(ObjectPtr v, size_t from_offset, size_t length,
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char* out) {
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TValuePtr value = DownCastValue(v);
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auto slice = value->ContentSlice();
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assert(from_offset < slice.size());
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assert(from_offset + length <= slice.size());
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std::copy_n(slice.data() + from_offset, length, out);
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return Status::OK();
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}
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static Status Create(const Slice& data, CompressionType type,
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CacheTier source, CreateContext* context,
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MemoryAllocator* allocator, ObjectPtr* out_obj,
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size_t* out_charge) {
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std::unique_ptr<TValue> value = nullptr;
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if (source != CacheTier::kVolatileTier) {
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return Status::InvalidArgument();
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}
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if constexpr (sizeof(TCreateContext) > 0) {
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TCreateContext* tcontext = static_cast<TCreateContext*>(context);
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tcontext->Create(&value, out_charge, data, type, allocator);
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} else {
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TCreateContext::Create(&value, out_charge, data, type, allocator);
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}
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*out_obj = UpCastValue(value.release());
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return Status::OK();
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}
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};
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// In its own class to try to minimize the number of distinct CacheItemHelper
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// instances (e.g. don't vary by CachePtr)
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template <class TValue, class TCreateContext, CacheEntryRole kRole>
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class FullTypedCacheHelper
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: public FullTypedCacheHelperFns<TValue, TCreateContext> {
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public:
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static const Cache::CacheItemHelper* GetFullHelper() {
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static const Cache::CacheItemHelper kHelper{
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kRole,
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&FullTypedCacheHelper::Delete,
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&FullTypedCacheHelper::Size,
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&FullTypedCacheHelper::SaveTo,
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&FullTypedCacheHelper::Create,
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BasicTypedCacheHelper<TValue, kRole>::GetBasicHelper()};
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return &kHelper;
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}
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};
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// FullTypedCacheHelper - Used for secondary cache compatible storage of
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// objects of type TValue. In addition to BasicTypedCacheInterface constraints,
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// we require TValue::ContentSlice() to return persistable data. This
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// simplifies usage for the normal case of simple secondary cache compatibility
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// (can give you a Slice to the data already in memory). In addition to
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// TCreateContext performing the role of Cache::CreateContext, it is also
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// expected to provide a function Create(std::unique_ptr<TValue>* value,
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// size_t* out_charge, const Slice& data, MemoryAllocator* allocator) for
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// creating new TValue.
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template <class TValue, class TCreateContext,
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CacheEntryRole kRole = TValue::kCacheEntryRole,
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typename CachePtr = Cache*>
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class FullTypedCacheInterface
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: public BasicTypedCacheInterface<TValue, kRole, CachePtr>,
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public FullTypedCacheHelper<TValue, TCreateContext, kRole> {
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public:
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CACHE_TYPE_DEFS();
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using typename BasicTypedCacheInterface<TValue, kRole, CachePtr>::TypedHandle;
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using typename BasicTypedCacheInterface<TValue, kRole,
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CachePtr>::TypedAsyncLookupHandle;
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using typename BasicTypedCacheHelperFns<TValue>::TValuePtr;
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using BasicTypedCacheHelper<TValue, kRole>::GetBasicHelper;
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using FullTypedCacheHelper<TValue, TCreateContext, kRole>::GetFullHelper;
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using BasicTypedCacheHelperFns<TValue>::UpCastValue;
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using BasicTypedCacheHelperFns<TValue>::DownCastValue;
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// ctor
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using BasicTypedCacheInterface<TValue, kRole,
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CachePtr>::BasicTypedCacheInterface;
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// Insert with SecondaryCache compatibility (subject to CacheTier).
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// (Basic Insert() also inherited.)
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inline Status InsertFull(
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const Slice& key, TValuePtr value, size_t charge,
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TypedHandle** handle = nullptr, Priority priority = Priority::LOW,
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CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier,
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const Slice& compressed = Slice(),
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CompressionType type = CompressionType::kNoCompression) {
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auto untyped_handle = reinterpret_cast<Handle**>(handle);
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auto helper = lowest_used_cache_tier > CacheTier::kVolatileTier
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? GetFullHelper()
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: GetBasicHelper();
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return this->cache_->Insert(key, UpCastValue(value), helper, charge,
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untyped_handle, priority, compressed, type);
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}
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// Like SecondaryCache::InsertSaved, with SecondaryCache compatibility
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// (subject to CacheTier).
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inline Status InsertSaved(
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const Slice& key, const Slice& data, TCreateContext* create_context,
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Priority priority = Priority::LOW,
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CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier,
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size_t* out_charge = nullptr) {
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ObjectPtr value;
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size_t charge;
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Status st = GetFullHelper()->create_cb(
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data, kNoCompression, CacheTier::kVolatileTier, create_context,
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this->cache_->memory_allocator(), &value, &charge);
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if (out_charge) {
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*out_charge = charge;
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}
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if (st.ok()) {
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st = InsertFull(key, DownCastValue(value), charge, nullptr /*handle*/,
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priority, lowest_used_cache_tier);
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} else {
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GetFullHelper()->del_cb(value, this->cache_->memory_allocator());
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}
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return st;
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}
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// Lookup with SecondaryCache support (subject to CacheTier).
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// (Basic Lookup() also inherited.)
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inline TypedHandle* LookupFull(
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const Slice& key, TCreateContext* create_context = nullptr,
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Priority priority = Priority::LOW, Statistics* stats = nullptr,
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CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier) {
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if (lowest_used_cache_tier > CacheTier::kVolatileTier) {
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return static_cast<TypedHandle*>(this->cache_->Lookup(
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key, GetFullHelper(), create_context, priority, stats));
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} else {
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return BasicTypedCacheInterface<TValue, kRole, CachePtr>::Lookup(key,
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stats);
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}
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}
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inline void StartAsyncLookupFull(
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TypedAsyncLookupHandle& async_handle,
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CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier) {
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if (lowest_used_cache_tier > CacheTier::kVolatileTier) {
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async_handle.helper = GetFullHelper();
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this->cache_->StartAsyncLookup(async_handle);
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} else {
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BasicTypedCacheInterface<TValue, kRole, CachePtr>::StartAsyncLookup(
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async_handle);
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}
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}
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};
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// FullTypedSharedCacheInterface - Like FullTypedCacheInterface but with a
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// shared_ptr<Cache> for keeping Cache alive.
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template <class TValue, class TCreateContext,
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CacheEntryRole kRole = TValue::kCacheEntryRole>
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using FullTypedSharedCacheInterface =
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FullTypedCacheInterface<TValue, TCreateContext, kRole,
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std::shared_ptr<Cache>>;
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#undef CACHE_TYPE_DEFS
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} // namespace ROCKSDB_NAMESPACE
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