// Copyright (c) 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef NET_DISK_CACHE_SIMPLE_SIMPLE_INDEX_H_ #define NET_DISK_CACHE_SIMPLE_SIMPLE_INDEX_H_ #include #include #include #include #include #include #include "base/callback.h" #include "base/feature_list.h" #include "base/files/file_path.h" #include "base/gtest_prod_util.h" #include "base/memory/ref_counted.h" #include "base/memory/weak_ptr.h" #include "base/numerics/safe_conversions.h" #include "base/single_thread_task_runner.h" #include "base/threading/thread_checker.h" #include "base/time/time.h" #include "base/timer/timer.h" #include "net/base/cache_type.h" #include "net/base/completion_callback.h" #include "net/base/net_export.h" #if defined(OS_ANDROID) #include "base/android/application_status_listener.h" #endif namespace base { class Pickle; class PickleIterator; } namespace disk_cache { class BackendCleanupTracker; class SimpleIndexDelegate; class SimpleIndexFile; struct SimpleIndexLoadResult; NET_EXPORT_PRIVATE extern const base::Feature kSimpleCacheEvictionWithSize; class NET_EXPORT_PRIVATE EntryMetadata { public: EntryMetadata(); EntryMetadata(base::Time last_used_time, base::StrictNumeric entry_size); base::Time GetLastUsedTime() const; void SetLastUsedTime(const base::Time& last_used_time); uint32_t RawTimeForSorting() const { return last_used_time_seconds_since_epoch_; } uint32_t GetEntrySize() const; void SetEntrySize(base::StrictNumeric entry_size); uint8_t GetInMemoryData() const { return in_memory_data_; } void SetInMemoryData(uint8_t val) { in_memory_data_ = val; } // Serialize the data into the provided pickle. void Serialize(base::Pickle* pickle) const; bool Deserialize(base::PickleIterator* it, bool has_entry_in_memory_data); static base::TimeDelta GetLowerEpsilonForTimeComparisons() { return base::TimeDelta::FromSeconds(1); } static base::TimeDelta GetUpperEpsilonForTimeComparisons() { return base::TimeDelta(); } static const int kOnDiskSizeBytes = 16; private: friend class SimpleIndexFileTest; // There are tens of thousands of instances of EntryMetadata in memory, so the // size of each entry matters. Even when the values used to set these members // are originally calculated as >32-bit types, the actual necessary size for // each shouldn't exceed 32 bits, so we use 32-bit types here. uint32_t last_used_time_seconds_since_epoch_; uint32_t entry_size_256b_chunks_ : 24; // in 256-byte blocks, rounded up. uint32_t in_memory_data_ : 8; }; static_assert(sizeof(EntryMetadata) == 8, "incorrect metadata size"); // This class is not Thread-safe. class NET_EXPORT_PRIVATE SimpleIndex : public base::SupportsWeakPtr { public: // Used in histograms. Please only add entries at the end. enum IndexInitMethod { INITIALIZE_METHOD_RECOVERED = 0, INITIALIZE_METHOD_LOADED = 1, INITIALIZE_METHOD_NEWCACHE = 2, INITIALIZE_METHOD_MAX = 3, }; // Used in histograms. Please only add entries at the end. enum IndexWriteToDiskReason { INDEX_WRITE_REASON_SHUTDOWN = 0, INDEX_WRITE_REASON_STARTUP_MERGE = 1, INDEX_WRITE_REASON_IDLE = 2, INDEX_WRITE_REASON_ANDROID_STOPPED = 3, INDEX_WRITE_REASON_MAX = 4, }; typedef std::vector HashList; SimpleIndex(const scoped_refptr& io_thread, scoped_refptr cleanup_tracker, SimpleIndexDelegate* delegate, net::CacheType cache_type, std::unique_ptr simple_index_file); virtual ~SimpleIndex(); void Initialize(base::Time cache_mtime); void SetMaxSize(uint64_t max_bytes); uint64_t max_size() const { return max_size_; } void Insert(uint64_t entry_hash); void Remove(uint64_t entry_hash); // Check whether the index has the entry given the hash of its key. bool Has(uint64_t entry_hash) const; // Update the last used time of the entry with the given key and return true // iff the entry exist in the index. bool UseIfExists(uint64_t entry_hash); uint8_t GetEntryInMemoryData(uint64_t entry_hash) const; void SetEntryInMemoryData(uint64_t entry_hash, uint8_t value); void WriteToDisk(IndexWriteToDiskReason reason); // Update the size (in bytes) of an entry, in the metadata stored in the // index. This should be the total disk-file size including all streams of the // entry. bool UpdateEntrySize(uint64_t entry_hash, base::StrictNumeric entry_size); using EntrySet = std::unordered_map; static void InsertInEntrySet(uint64_t entry_hash, const EntryMetadata& entry_metadata, EntrySet* entry_set); // For use in tests only. Updates cache_size_, but will not start evictions // or adjust index writing time. Requires entry to not already be in the set. void InsertEntryForTesting(uint64_t entry_hash, const EntryMetadata& entry_metadata); // Executes the |callback| when the index is ready. Allows multiple callbacks. int ExecuteWhenReady(const net::CompletionCallback& callback); // Returns entries from the index that have last accessed time matching the // range between |initial_time| and |end_time| where open intervals are // possible according to the definition given in |DoomEntriesBetween()| in the // disk cache backend interface. std::unique_ptr GetEntriesBetween(const base::Time initial_time, const base::Time end_time); // Returns the list of all entries key hash. std::unique_ptr GetAllHashes(); // Returns number of indexed entries. int32_t GetEntryCount() const; // Returns the size of the entire cache in bytes. Can only be called after the // index has been initialized. uint64_t GetCacheSize() const; // Returns the size of the cache entries accessed between |initial_time| and // |end_time| in bytes. Can only be called after the index has been // initialized. uint64_t GetCacheSizeBetween(const base::Time initial_time, const base::Time end_time) const; // Returns whether the index has been initialized yet. bool initialized() const { return initialized_; } IndexInitMethod init_method() const { return init_method_; } // Returns the estimate of dynamically allocated memory in bytes. size_t EstimateMemoryUsage() const; private: friend class SimpleIndexTest; FRIEND_TEST_ALL_PREFIXES(SimpleIndexTest, IndexSizeCorrectOnMerge); FRIEND_TEST_ALL_PREFIXES(SimpleIndexTest, DiskWriteQueued); FRIEND_TEST_ALL_PREFIXES(SimpleIndexTest, DiskWriteExecuted); FRIEND_TEST_ALL_PREFIXES(SimpleIndexTest, DiskWritePostponed); void StartEvictionIfNeeded(); void EvictionDone(int result); void PostponeWritingToDisk(); void UpdateEntryIteratorSize(EntrySet::iterator* it, base::StrictNumeric entry_size); // Must run on IO Thread. void MergeInitializingSet(std::unique_ptr load_result); #if defined(OS_ANDROID) void OnApplicationStateChange(base::android::ApplicationState state); std::unique_ptr app_status_listener_; #endif scoped_refptr cleanup_tracker_; // The owner of |this| must ensure the |delegate_| outlives |this|. SimpleIndexDelegate* delegate_; EntrySet entries_set_; const net::CacheType cache_type_; uint64_t cache_size_; // Total cache storage size in bytes. uint64_t max_size_; uint64_t high_watermark_; uint64_t low_watermark_; bool eviction_in_progress_; base::TimeTicks eviction_start_time_; // This stores all the entry_hash of entries that are removed during // initialization. std::unordered_set removed_entries_; bool initialized_; IndexInitMethod init_method_; std::unique_ptr index_file_; scoped_refptr io_thread_; // All nonstatic SimpleEntryImpl methods should always be called on the IO // thread, in all cases. |io_thread_checker_| documents and enforces this. base::ThreadChecker io_thread_checker_; // Timestamp of the last time we wrote the index to disk. // PostponeWritingToDisk() may give up postponing and allow the write if it // has been a while since last time we wrote. base::TimeTicks last_write_to_disk_; base::OneShotTimer write_to_disk_timer_; base::Closure write_to_disk_cb_; typedef std::list CallbackList; CallbackList to_run_when_initialized_; // Set to true when the app is on the background. When the app is in the // background we can write the index much more frequently, to insure fresh // index on next startup. bool app_on_background_; }; } // namespace disk_cache #endif // NET_DISK_CACHE_SIMPLE_SIMPLE_INDEX_H_