/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef StartupCache_h_ #define StartupCache_h_ #include #include "nsClassHashtable.h" #include "nsComponentManagerUtils.h" #include "nsTArray.h" #include "nsTHashSet.h" #include "nsTStringHasher.h" // mozilla::DefaultHasher #include "nsZipArchive.h" #include "nsITimer.h" #include "nsIMemoryReporter.h" #include "nsIObserverService.h" #include "nsIObserver.h" #include "nsIObjectOutputStream.h" #include "nsIFile.h" #include "mozilla/Attributes.h" #include "mozilla/AutoMemMap.h" #include "mozilla/Compression.h" #include "mozilla/MemoryReporting.h" #include "mozilla/Mutex.h" #include "mozilla/Result.h" #include "mozilla/UniquePtr.h" /** * The StartupCache is a persistent cache of simple key-value pairs, * where the keys are null-terminated c-strings and the values are * arbitrary data, passed as a (char*, size) tuple. * * Clients should use the GetSingleton() static method to access the cache. It * will be available from the end of XPCOM init (NS_InitXPCOM3 in * XPCOMInit.cpp), until XPCOM shutdown begins. The GetSingleton() method will * return null if the cache is unavailable. The cache is only provided for * libxul builds -- it will fail to link in non-libxul builds. The XPCOM * interface is provided only to allow compiled-code tests; clients should avoid * using it. * * The API provided is very simple: GetBuffer() returns a buffer that was * previously stored in the cache (if any), and PutBuffer() inserts a buffer * into the cache. GetBuffer returns a new buffer, and the caller must take * ownership of it. PutBuffer will assert if the client attempts to insert a * buffer with the same name as an existing entry. The cache makes a copy of the * passed-in buffer, so client retains ownership. * * InvalidateCache() may be called if a client suspects data corruption * or wishes to invalidate for any other reason. This will remove all existing * cache data. Additionally, the static method IgnoreDiskCache() can be called * if it is believed that the on-disk cache file is itself corrupt. This call * implicitly calls InvalidateCache (if the singleton has been initialized) to * ensure any data already read from disk is discarded. The cache will not load * data from the disk file until a successful write occurs. * * Finally, getDebugObjectOutputStream() allows debug code to wrap an * objectstream with a debug objectstream, to check for multiply-referenced * objects. These will generally fail to deserialize correctly, unless they are * stateless singletons or the client maintains their own object data map for * deserialization. * * Writes before the final-ui-startup notification are placed in an intermediate * cache in memory, then written out to disk at a later time, to get writes off * the startup path. In any case, clients should not rely on being able to * GetBuffer() data that is written to the cache, since it may not have been * written to disk or another client may have invalidated the cache. In other * words, it should be used as a cache only, and not a reliable persistent * store. * * Some utility functions are provided in StartupCacheUtils. These functions * wrap the buffers into object streams, which may be useful for serializing * objects. Note the above caution about multiply-referenced objects, though -- * the streams are just as 'dumb' as the underlying buffers about * multiply-referenced objects. They just provide some convenience in writing * out data. */ namespace mozilla { namespace scache { struct StartupCacheEntry { UniquePtr mData; uint32_t mOffset; uint32_t mCompressedSize; uint32_t mUncompressedSize; int32_t mHeaderOffsetInFile; int32_t mRequestedOrder; bool mRequested; MOZ_IMPLICIT StartupCacheEntry(uint32_t aOffset, uint32_t aCompressedSize, uint32_t aUncompressedSize) : mData(nullptr), mOffset(aOffset), mCompressedSize(aCompressedSize), mUncompressedSize(aUncompressedSize), mHeaderOffsetInFile(0), mRequestedOrder(0), mRequested(false) {} StartupCacheEntry(UniquePtr aData, size_t aLength, int32_t aRequestedOrder) : mData(std::move(aData)), mOffset(0), mCompressedSize(0), mUncompressedSize(aLength), mHeaderOffsetInFile(0), mRequestedOrder(0), mRequested(true) {} struct Comparator { using Value = std::pair; bool Equals(const Value& a, const Value& b) const { return a.second->mRequestedOrder == b.second->mRequestedOrder; } bool LessThan(const Value& a, const Value& b) const { return a.second->mRequestedOrder < b.second->mRequestedOrder; } }; }; // We don't want to refcount StartupCache, and ObserverService wants to // refcount its listeners, so we'll let it refcount this instead. class StartupCacheListener final : public nsIObserver { ~StartupCacheListener() = default; NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIOBSERVER }; class StartupCache : public nsIMemoryReporter { friend class StartupCacheListener; public: NS_DECL_THREADSAFE_ISUPPORTS NS_DECL_NSIMEMORYREPORTER // StartupCache methods. See above comments for a more detailed description. // true if the archive has an entry for the buffer or not. bool HasEntry(const char* id); // Returns a buffer that was previously stored, caller does not take ownership nsresult GetBuffer(const char* id, const char** outbuf, uint32_t* length); // Stores a buffer. Caller yields ownership. nsresult PutBuffer(const char* id, UniquePtr&& inbuf, uint32_t length); // Removes the cache file. void InvalidateCache(bool memoryOnly = false); // If some event knowingly re-generates the startup cache (like live language // switching) count these events in order to allow them. void CountAllowedInvalidation(); // For use during shutdown - this will write the startupcache's data // to disk if the timer hasn't already gone off. void MaybeInitShutdownWrite(); // For use during shutdown - ensure we complete the shutdown write // before shutdown, even in the FastShutdown case. void EnsureShutdownWriteComplete(); // Signal that data should not be loaded from the cache file static void IgnoreDiskCache(); // In DEBUG builds, returns a stream that will attempt to check for // and disallow multiple writes of the same object. nsresult GetDebugObjectOutputStream(nsIObjectOutputStream* aStream, nsIObjectOutputStream** outStream); static StartupCache* GetSingletonNoInit(); static StartupCache* GetSingleton(); static void DeleteSingleton(); // This measures all the heap memory used by the StartupCache, i.e. it // excludes the mapping. size_t HeapSizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf) const; bool ShouldCompactCache(); nsresult ResetStartupWriteTimerCheckingReadCount(); nsresult ResetStartupWriteTimer(); bool StartupWriteComplete(); private: StartupCache(); virtual ~StartupCache(); friend class StartupCacheInfo; Result LoadArchive(); nsresult Init(); // Returns a file pointer for the cache file with the given name in the // current profile. Result, nsresult> GetCacheFile(const nsAString& suffix); // Opens the cache file for reading. Result OpenCache(); // Writes the cache to disk Result WriteToDisk(); void WaitOnPrefetchThread(); void StartPrefetchMemoryThread(); static nsresult InitSingleton(); static void WriteTimeout(nsITimer* aTimer, void* aClosure); void MaybeWriteOffMainThread(); static void ThreadedPrefetch(void* aClosure); HashMap mTable; // This owns references to the contents of tables which have been invalidated. // In theory it grows forever if the cache is continually filled and then // invalidated, but this should not happen in practice. Deleting old tables // could create dangling pointers. RefPtrs could be introduced, but it would // be a large amount of error-prone work to change. nsTArray mOldTables; size_t mAllowedInvalidationsCount; nsCOMPtr mFile; loader::AutoMemMap mCacheData; Mutex mTableLock MOZ_UNANNOTATED; nsCOMPtr mObserverService; RefPtr mListener; nsCOMPtr mTimer; Atomic mDirty; Atomic mWrittenOnce; bool mCurTableReferenced; uint32_t mRequestedCount; size_t mCacheEntriesBaseOffset; static StaticRefPtr gStartupCache; static bool gShutdownInitiated; static bool gIgnoreDiskCache; static bool gFoundDiskCacheOnInit; PRThread* mPrefetchThread; UniquePtr mDecompressionContext; #ifdef DEBUG nsTHashSet> mWriteObjectMap; #endif }; // This debug outputstream attempts to detect if clients are writing multiple // references to the same object. We only support that if that object // is a singleton. #ifdef DEBUG class StartupCacheDebugOutputStream final : public nsIObjectOutputStream { ~StartupCacheDebugOutputStream() = default; NS_DECL_ISUPPORTS NS_DECL_NSIOBJECTOUTPUTSTREAM StartupCacheDebugOutputStream(nsIObjectOutputStream* binaryStream, nsTHashSet>* objectMap) : mBinaryStream(binaryStream), mObjectMap(objectMap) {} NS_FORWARD_SAFE_NSIBINARYOUTPUTSTREAM(mBinaryStream) NS_FORWARD_SAFE_NSIOUTPUTSTREAM(mBinaryStream) bool CheckReferences(nsISupports* aObject); nsCOMPtr mBinaryStream; nsTHashSet>* mObjectMap; }; #endif // DEBUG } // namespace scache } // namespace mozilla #endif // StartupCache_h_