// 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). #pragma once #include "trace_replay/block_cache_tracer.h" namespace rocksdb { // A cache configuration provided by user. struct CacheConfiguration { std::string cache_name; // LRU. uint32_t num_shard_bits; uint64_t ghost_cache_capacity; // ghost cache capacity in bytes. std::vector cache_capacities; // simulate cache capacities in bytes. bool operator==(const CacheConfiguration& o) const { return cache_name == o.cache_name && num_shard_bits == o.num_shard_bits && ghost_cache_capacity == o.ghost_cache_capacity; } bool operator<(const CacheConfiguration& o) const { return cache_name < o.cache_name || (cache_name == o.cache_name && num_shard_bits < o.num_shard_bits) || (cache_name == o.cache_name && num_shard_bits == o.num_shard_bits && ghost_cache_capacity < o.ghost_cache_capacity); } }; // A ghost cache admits an entry on its second access. class GhostCache { public: explicit GhostCache(std::shared_ptr sim_cache); ~GhostCache() = default; // No copy and move. GhostCache(const GhostCache&) = delete; GhostCache& operator=(const GhostCache&) = delete; GhostCache(GhostCache&&) = delete; GhostCache& operator=(GhostCache&&) = delete; // Returns true if the lookup_key is in the ghost cache. // Returns false otherwise. bool Admit(const Slice& lookup_key); private: std::shared_ptr sim_cache_; }; // A cache simulator that runs against a block cache trace. class CacheSimulator { public: CacheSimulator(std::unique_ptr&& ghost_cache, std::shared_ptr sim_cache); virtual ~CacheSimulator() = default; // No copy and move. CacheSimulator(const CacheSimulator&) = delete; CacheSimulator& operator=(const CacheSimulator&) = delete; CacheSimulator(CacheSimulator&&) = delete; CacheSimulator& operator=(CacheSimulator&&) = delete; virtual void Access(const BlockCacheTraceRecord& access); void reset_counter() { num_misses_ = 0; num_accesses_ = 0; user_accesses_ = 0; user_misses_ = 0; } double miss_ratio() const { if (num_accesses_ == 0) { return -1; } return static_cast(num_misses_ * 100.0 / num_accesses_); } uint64_t total_accesses() const { return num_accesses_; } double user_miss_ratio() const { if (user_accesses_ == 0) { return -1; } return static_cast(user_misses_ * 100.0 / user_accesses_); } uint64_t user_accesses() const { return user_accesses_; } protected: void UpdateMetrics(bool is_user_access, bool is_cache_miss); std::unique_ptr ghost_cache_; std::shared_ptr sim_cache_; uint64_t num_accesses_ = 0; uint64_t num_misses_ = 0; uint64_t user_accesses_ = 0; uint64_t user_misses_ = 0; }; // A prioritized cache simulator that runs against a block cache trace. // It inserts missing index/filter/uncompression-dictionary blocks with high // priority in the cache. class PrioritizedCacheSimulator : public CacheSimulator { public: PrioritizedCacheSimulator(std::unique_ptr&& ghost_cache, std::shared_ptr sim_cache) : CacheSimulator(std::move(ghost_cache), sim_cache) {} void Access(const BlockCacheTraceRecord& access) override; protected: // Access the key-value pair and returns true upon a cache miss. void AccessKVPair(const Slice& key, uint64_t value_size, Cache::Priority priority, bool no_insert, bool is_user_access, bool* is_cache_miss, bool* admitted, bool update_metrics); Cache::Priority ComputeBlockPriority( const BlockCacheTraceRecord& access) const; }; // A hybrid row and block cache simulator. It looks up/inserts key-value pairs // referenced by Get/MultiGet requests, and not their accessed index/filter/data // blocks. // // Upon a Get/MultiGet request, it looks up the referenced key first. // If it observes a cache hit, future block accesses on this key-value pair is // skipped since the request is served already. Otherwise, it continues to look // up/insert its index/filter/data blocks. It also inserts the referenced // key-value pair in the cache for future lookups. class HybridRowBlockCacheSimulator : public PrioritizedCacheSimulator { public: HybridRowBlockCacheSimulator(std::unique_ptr&& ghost_cache, std::shared_ptr sim_cache, bool insert_blocks_upon_row_kvpair_miss) : PrioritizedCacheSimulator(std::move(ghost_cache), sim_cache), insert_blocks_upon_row_kvpair_miss_( insert_blocks_upon_row_kvpair_miss) {} void Access(const BlockCacheTraceRecord& access) override; private: // Row key is a concatenation of the access's fd_number and the referenced // user key. std::string ComputeRowKey(const BlockCacheTraceRecord& access); enum InsertResult : char { INSERTED, ADMITTED, NO_INSERT, }; // A map stores get_id to a map of row keys. For each row key, it stores a // boolean and an enum. The first bool is true when we observe a miss upon the // first time we encounter the row key. The second arg is INSERTED when the // kv-pair has been inserted into the cache, ADMITTED if it should be inserted // but haven't been, NO_INSERT if it should not be inserted. // // A kv-pair is in ADMITTED state when we encounter this kv-pair but do not // know its size. This may happen if the first access on the referenced key is // an index/filter block. std::map>> getid_getkeys_map_; bool insert_blocks_upon_row_kvpair_miss_; }; // A block cache simulator that reports miss ratio curves given a set of cache // configurations. class BlockCacheTraceSimulator { public: // warmup_seconds: The number of seconds to warmup simulated caches. The // hit/miss counters are reset after the warmup completes. BlockCacheTraceSimulator( uint64_t warmup_seconds, uint32_t downsample_ratio, const std::vector& cache_configurations); ~BlockCacheTraceSimulator() = default; // No copy and move. BlockCacheTraceSimulator(const BlockCacheTraceSimulator&) = delete; BlockCacheTraceSimulator& operator=(const BlockCacheTraceSimulator&) = delete; BlockCacheTraceSimulator(BlockCacheTraceSimulator&&) = delete; BlockCacheTraceSimulator& operator=(BlockCacheTraceSimulator&&) = delete; Status InitializeCaches(); void Access(const BlockCacheTraceRecord& access); const std::map>>& sim_caches() const { return sim_caches_; } private: const uint64_t warmup_seconds_; const uint32_t downsample_ratio_; const std::vector cache_configurations_; bool warmup_complete_ = false; std::map>> sim_caches_; uint64_t trace_start_time_ = 0; }; } // namespace rocksdb