// Copyright (c) Meta Platforms, Inc. and affiliates. // 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). // APIs for accessing Cache in a type-safe and convenient way. Cache is kept // at a low, thin level of abstraction so that different implementations can // be plugged in, but these wrappers provide clean, convenient access to the // most common operations. // // A number of template classes are needed for sharing common structure. The // key classes are these: // // * PlaceholderCacheInterface - Used for making cache reservations, with // entries that have a charge but no value. // * BasicTypedCacheInterface - Used for primary cache storage of // objects of type TValue. // * FullTypedCacheHelper - Used for secondary cache // compatible storage of objects of type TValue. // * For each of these, there's a "Shared" version // (e.g. FullTypedSharedCacheInterface) that holds a shared_ptr to the Cache, // rather than assuming external ownership by holding only a raw `Cache*`. #pragma once #include #include #include #include #include "cache/cache_helpers.h" #include "rocksdb/advanced_cache.h" #include "rocksdb/advanced_options.h" namespace ROCKSDB_NAMESPACE { // For future consideration: // * Pass in value to Insert with std::unique_ptr& to simplify ownership // transfer logic in callers // * Make key type a template parameter (e.g. useful for table cache) // * Closer integration with CacheHandleGuard (opt-in, so not always // paying the extra overhead) #define CACHE_TYPE_DEFS() \ using Priority = Cache::Priority; \ using Handle = Cache::Handle; \ using ObjectPtr = Cache::ObjectPtr; \ using CreateContext = Cache::CreateContext; \ using CacheItemHelper = Cache::CacheItemHelper /* caller ; */ template class BaseCacheInterface { public: CACHE_TYPE_DEFS(); /*implicit*/ BaseCacheInterface(CachePtr cache) : cache_(std::move(cache)) {} inline void Release(Handle* handle) { cache_->Release(handle); } inline void ReleaseAndEraseIfLastRef(Handle* handle) { cache_->Release(handle, /*erase_if_last_ref*/ true); } inline void RegisterReleaseAsCleanup(Handle* handle, Cleanable& cleanable) { cleanable.RegisterCleanup(&ReleaseCacheHandleCleanup, get(), handle); } inline Cache* get() const { return &*cache_; } explicit inline operator bool() const noexcept { return cache_ != nullptr; } protected: CachePtr cache_; }; // PlaceholderCacheInterface - Used for making cache reservations, with // entries that have a charge but no value. CacheEntryRole is required as // a template parameter. template class PlaceholderCacheInterface : public BaseCacheInterface { public: CACHE_TYPE_DEFS(); using BaseCacheInterface::BaseCacheInterface; inline Status Insert(const Slice& key, size_t charge, Handle** handle) { return this->cache_->Insert(key, /*value=*/nullptr, GetHelper(), charge, handle); } static const Cache::CacheItemHelper* GetHelper() { static const Cache::CacheItemHelper kHelper{kRole}; return &kHelper; } }; template using PlaceholderSharedCacheInterface = PlaceholderCacheInterface>; template class BasicTypedCacheHelperFns { public: CACHE_TYPE_DEFS(); // E.g. char* for char[] using TValuePtr = std::remove_extent_t*; protected: inline static ObjectPtr UpCastValue(TValuePtr value) { return value; } inline static TValuePtr DownCastValue(ObjectPtr value) { return static_cast(value); } static void Delete(ObjectPtr value, MemoryAllocator* allocator) { // FIXME: Currently, no callers actually allocate the ObjectPtr objects // using the custom allocator, just subobjects that keep a reference to // the allocator themselves (with CacheAllocationPtr). if (/*DISABLED*/ false && allocator) { if constexpr (std::is_destructible_v) { DownCastValue(value)->~TValue(); } allocator->Deallocate(value); } else { // Like delete but properly handles TValue=char[] etc. std::default_delete{}(DownCastValue(value)); } } }; // In its own class to try to minimize the number of distinct CacheItemHelper // instances (e.g. don't vary by CachePtr) template class BasicTypedCacheHelper : public BasicTypedCacheHelperFns { public: static const Cache::CacheItemHelper* GetBasicHelper() { static const Cache::CacheItemHelper kHelper{kRole, &BasicTypedCacheHelper::Delete}; return &kHelper; } }; // BasicTypedCacheInterface - Used for primary cache storage of objects of // type TValue, which can be cleaned up with std::default_delete. The // role is provided by TValue::kCacheEntryRole or given in an optional // template parameter. template class BasicTypedCacheInterface : public BaseCacheInterface, public BasicTypedCacheHelper { public: CACHE_TYPE_DEFS(); using typename BasicTypedCacheHelperFns::TValuePtr; struct TypedHandle : public Handle {}; using BasicTypedCacheHelper::GetBasicHelper; // ctor using BaseCacheInterface::BaseCacheInterface; struct TypedAsyncLookupHandle : public Cache::AsyncLookupHandle { TypedHandle* Result() { return static_cast(Cache::AsyncLookupHandle::Result()); } }; inline Status Insert(const Slice& key, TValuePtr value, size_t charge, TypedHandle** handle = nullptr, Priority priority = Priority::LOW) { auto untyped_handle = reinterpret_cast(handle); return this->cache_->Insert( key, BasicTypedCacheHelperFns::UpCastValue(value), GetBasicHelper(), charge, untyped_handle, priority); } inline TypedHandle* Lookup(const Slice& key, Statistics* stats = nullptr) { return static_cast(this->cache_->BasicLookup(key, stats)); } inline void StartAsyncLookup(TypedAsyncLookupHandle& async_handle) { assert(async_handle.helper == nullptr); this->cache_->StartAsyncLookup(async_handle); } inline CacheHandleGuard Guard(TypedHandle* handle) { if (handle) { return CacheHandleGuard(&*this->cache_, handle); } else { return {}; } } inline std::shared_ptr SharedGuard(TypedHandle* handle) { if (handle) { return MakeSharedCacheHandleGuard(&*this->cache_, handle); } else { return {}; } } inline TValuePtr Value(TypedHandle* handle) { return BasicTypedCacheHelperFns::DownCastValue( this->cache_->Value(handle)); } }; // BasicTypedSharedCacheInterface - Like BasicTypedCacheInterface but with a // shared_ptr for keeping Cache alive. template using BasicTypedSharedCacheInterface = BasicTypedCacheInterface>; // TValue must implement ContentSlice() and ~TValue // TCreateContext must implement Create(std::unique_ptr*, ...) template class FullTypedCacheHelperFns : public BasicTypedCacheHelperFns { public: CACHE_TYPE_DEFS(); protected: using typename BasicTypedCacheHelperFns::TValuePtr; using BasicTypedCacheHelperFns::DownCastValue; using BasicTypedCacheHelperFns::UpCastValue; static size_t Size(ObjectPtr v) { TValuePtr value = DownCastValue(v); auto slice = value->ContentSlice(); return slice.size(); } static Status SaveTo(ObjectPtr v, size_t from_offset, size_t length, char* out) { TValuePtr value = DownCastValue(v); auto slice = value->ContentSlice(); assert(from_offset < slice.size()); assert(from_offset + length <= slice.size()); std::copy_n(slice.data() + from_offset, length, out); return Status::OK(); } static Status Create(const Slice& data, CompressionType type, CacheTier source, CreateContext* context, MemoryAllocator* allocator, ObjectPtr* out_obj, size_t* out_charge) { std::unique_ptr value = nullptr; if (source != CacheTier::kVolatileTier) { return Status::InvalidArgument(); } if constexpr (sizeof(TCreateContext) > 0) { TCreateContext* tcontext = static_cast(context); tcontext->Create(&value, out_charge, data, type, allocator); } else { TCreateContext::Create(&value, out_charge, data, type, allocator); } *out_obj = UpCastValue(value.release()); return Status::OK(); } }; // In its own class to try to minimize the number of distinct CacheItemHelper // instances (e.g. don't vary by CachePtr) template class FullTypedCacheHelper : public FullTypedCacheHelperFns { public: static const Cache::CacheItemHelper* GetFullHelper() { static const Cache::CacheItemHelper kHelper{ kRole, &FullTypedCacheHelper::Delete, &FullTypedCacheHelper::Size, &FullTypedCacheHelper::SaveTo, &FullTypedCacheHelper::Create, BasicTypedCacheHelper::GetBasicHelper()}; return &kHelper; } }; // FullTypedCacheHelper - Used for secondary cache compatible storage of // objects of type TValue. In addition to BasicTypedCacheInterface constraints, // we require TValue::ContentSlice() to return persistable data. This // simplifies usage for the normal case of simple secondary cache compatibility // (can give you a Slice to the data already in memory). In addition to // TCreateContext performing the role of Cache::CreateContext, it is also // expected to provide a function Create(std::unique_ptr* value, // size_t* out_charge, const Slice& data, MemoryAllocator* allocator) for // creating new TValue. template class FullTypedCacheInterface : public BasicTypedCacheInterface, public FullTypedCacheHelper { public: CACHE_TYPE_DEFS(); using typename BasicTypedCacheInterface::TypedHandle; using typename BasicTypedCacheInterface::TypedAsyncLookupHandle; using typename BasicTypedCacheHelperFns::TValuePtr; using BasicTypedCacheHelper::GetBasicHelper; using FullTypedCacheHelper::GetFullHelper; using BasicTypedCacheHelperFns::UpCastValue; using BasicTypedCacheHelperFns::DownCastValue; // ctor using BasicTypedCacheInterface::BasicTypedCacheInterface; // Insert with SecondaryCache compatibility (subject to CacheTier). // (Basic Insert() also inherited.) inline Status InsertFull( const Slice& key, TValuePtr value, size_t charge, TypedHandle** handle = nullptr, Priority priority = Priority::LOW, CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier, const Slice& compressed = Slice(), CompressionType type = CompressionType::kNoCompression) { auto untyped_handle = reinterpret_cast(handle); auto helper = lowest_used_cache_tier > CacheTier::kVolatileTier ? GetFullHelper() : GetBasicHelper(); return this->cache_->Insert(key, UpCastValue(value), helper, charge, untyped_handle, priority, compressed, type); } // Like SecondaryCache::InsertSaved, with SecondaryCache compatibility // (subject to CacheTier). inline Status InsertSaved( const Slice& key, const Slice& data, TCreateContext* create_context, Priority priority = Priority::LOW, CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier, size_t* out_charge = nullptr) { ObjectPtr value; size_t charge; Status st = GetFullHelper()->create_cb( data, kNoCompression, CacheTier::kVolatileTier, create_context, this->cache_->memory_allocator(), &value, &charge); if (out_charge) { *out_charge = charge; } if (st.ok()) { st = InsertFull(key, DownCastValue(value), charge, nullptr /*handle*/, priority, lowest_used_cache_tier); } else { GetFullHelper()->del_cb(value, this->cache_->memory_allocator()); } return st; } // Lookup with SecondaryCache support (subject to CacheTier). // (Basic Lookup() also inherited.) inline TypedHandle* LookupFull( const Slice& key, TCreateContext* create_context = nullptr, Priority priority = Priority::LOW, Statistics* stats = nullptr, CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier) { if (lowest_used_cache_tier > CacheTier::kVolatileTier) { return static_cast(this->cache_->Lookup( key, GetFullHelper(), create_context, priority, stats)); } else { return BasicTypedCacheInterface::Lookup(key, stats); } } inline void StartAsyncLookupFull( TypedAsyncLookupHandle& async_handle, CacheTier lowest_used_cache_tier = CacheTier::kNonVolatileBlockTier) { if (lowest_used_cache_tier > CacheTier::kVolatileTier) { async_handle.helper = GetFullHelper(); this->cache_->StartAsyncLookup(async_handle); } else { BasicTypedCacheInterface::StartAsyncLookup( async_handle); } } }; // FullTypedSharedCacheInterface - Like FullTypedCacheInterface but with a // shared_ptr for keeping Cache alive. template using FullTypedSharedCacheInterface = FullTypedCacheInterface>; #undef CACHE_TYPE_DEFS } // namespace ROCKSDB_NAMESPACE