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c7b453b99a
The startup cache essentially leaks memory here for the old startup cache data. My assumption here is that there can be dangling pointers into this data so it's not safe to delete these old tables. Live language switching is a relatively rare event, so this leak should be acceptable compared to adding locking mechanisms to the underlying data. Differential Revision: https://phabricator.services.mozilla.com/D140968
278 lines
10 KiB
C++
278 lines
10 KiB
C++
/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef StartupCache_h_
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#define StartupCache_h_
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#include <utility>
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#include "nsClassHashtable.h"
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#include "nsComponentManagerUtils.h"
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#include "nsTArray.h"
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#include "nsTHashSet.h"
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#include "nsTStringHasher.h" // mozilla::DefaultHasher<nsCString>
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#include "nsZipArchive.h"
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#include "nsITimer.h"
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#include "nsIMemoryReporter.h"
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#include "nsIObserverService.h"
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#include "nsIObserver.h"
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#include "nsIObjectOutputStream.h"
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#include "nsIFile.h"
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#include "mozilla/Attributes.h"
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#include "mozilla/AutoMemMap.h"
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#include "mozilla/Compression.h"
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#include "mozilla/MemoryReporting.h"
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#include "mozilla/Mutex.h"
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#include "mozilla/Result.h"
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#include "mozilla/UniquePtr.h"
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/**
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* The StartupCache is a persistent cache of simple key-value pairs,
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* where the keys are null-terminated c-strings and the values are
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* arbitrary data, passed as a (char*, size) tuple.
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*
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* Clients should use the GetSingleton() static method to access the cache. It
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* will be available from the end of XPCOM init (NS_InitXPCOM3 in
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* XPCOMInit.cpp), until XPCOM shutdown begins. The GetSingleton() method will
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* return null if the cache is unavailable. The cache is only provided for
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* libxul builds -- it will fail to link in non-libxul builds. The XPCOM
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* interface is provided only to allow compiled-code tests; clients should avoid
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* using it.
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*
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* The API provided is very simple: GetBuffer() returns a buffer that was
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* previously stored in the cache (if any), and PutBuffer() inserts a buffer
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* into the cache. GetBuffer returns a new buffer, and the caller must take
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* ownership of it. PutBuffer will assert if the client attempts to insert a
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* buffer with the same name as an existing entry. The cache makes a copy of the
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* passed-in buffer, so client retains ownership.
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*
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* InvalidateCache() may be called if a client suspects data corruption
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* or wishes to invalidate for any other reason. This will remove all existing
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* cache data. Additionally, the static method IgnoreDiskCache() can be called
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* if it is believed that the on-disk cache file is itself corrupt. This call
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* implicitly calls InvalidateCache (if the singleton has been initialized) to
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* ensure any data already read from disk is discarded. The cache will not load
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* data from the disk file until a successful write occurs.
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*
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* Finally, getDebugObjectOutputStream() allows debug code to wrap an
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* objectstream with a debug objectstream, to check for multiply-referenced
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* objects. These will generally fail to deserialize correctly, unless they are
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* stateless singletons or the client maintains their own object data map for
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* deserialization.
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*
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* Writes before the final-ui-startup notification are placed in an intermediate
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* cache in memory, then written out to disk at a later time, to get writes off
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* the startup path. In any case, clients should not rely on being able to
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* GetBuffer() data that is written to the cache, since it may not have been
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* written to disk or another client may have invalidated the cache. In other
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* words, it should be used as a cache only, and not a reliable persistent
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* store.
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*
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* Some utility functions are provided in StartupCacheUtils. These functions
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* wrap the buffers into object streams, which may be useful for serializing
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* objects. Note the above caution about multiply-referenced objects, though --
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* the streams are just as 'dumb' as the underlying buffers about
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* multiply-referenced objects. They just provide some convenience in writing
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* out data.
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*/
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namespace mozilla {
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namespace scache {
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struct StartupCacheEntry {
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UniquePtr<char[]> mData;
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uint32_t mOffset;
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uint32_t mCompressedSize;
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uint32_t mUncompressedSize;
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int32_t mHeaderOffsetInFile;
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int32_t mRequestedOrder;
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bool mRequested;
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MOZ_IMPLICIT StartupCacheEntry(uint32_t aOffset, uint32_t aCompressedSize,
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uint32_t aUncompressedSize)
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: mData(nullptr),
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mOffset(aOffset),
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mCompressedSize(aCompressedSize),
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mUncompressedSize(aUncompressedSize),
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mHeaderOffsetInFile(0),
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mRequestedOrder(0),
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mRequested(false) {}
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StartupCacheEntry(UniquePtr<char[]> aData, size_t aLength,
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int32_t aRequestedOrder)
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: mData(std::move(aData)),
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mOffset(0),
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mCompressedSize(0),
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mUncompressedSize(aLength),
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mHeaderOffsetInFile(0),
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mRequestedOrder(0),
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mRequested(true) {}
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struct Comparator {
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using Value = std::pair<const nsCString*, StartupCacheEntry*>;
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bool Equals(const Value& a, const Value& b) const {
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return a.second->mRequestedOrder == b.second->mRequestedOrder;
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}
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bool LessThan(const Value& a, const Value& b) const {
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return a.second->mRequestedOrder < b.second->mRequestedOrder;
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}
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};
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};
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// We don't want to refcount StartupCache, and ObserverService wants to
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// refcount its listeners, so we'll let it refcount this instead.
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class StartupCacheListener final : public nsIObserver {
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~StartupCacheListener() = default;
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NS_DECL_THREADSAFE_ISUPPORTS
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NS_DECL_NSIOBSERVER
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};
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class StartupCache : public nsIMemoryReporter {
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friend class StartupCacheListener;
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public:
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NS_DECL_THREADSAFE_ISUPPORTS
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NS_DECL_NSIMEMORYREPORTER
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// StartupCache methods. See above comments for a more detailed description.
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// true if the archive has an entry for the buffer or not.
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bool HasEntry(const char* id);
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// Returns a buffer that was previously stored, caller does not take ownership
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nsresult GetBuffer(const char* id, const char** outbuf, uint32_t* length);
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// Stores a buffer. Caller yields ownership.
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nsresult PutBuffer(const char* id, UniquePtr<char[]>&& inbuf,
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uint32_t length);
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// Removes the cache file.
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void InvalidateCache(bool memoryOnly = false);
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// If some event knowingly re-generates the startup cache (like live language
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// switching) count these events in order to allow them.
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void CountAllowedInvalidation();
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// For use during shutdown - this will write the startupcache's data
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// to disk if the timer hasn't already gone off.
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void MaybeInitShutdownWrite();
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// For use during shutdown - ensure we complete the shutdown write
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// before shutdown, even in the FastShutdown case.
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void EnsureShutdownWriteComplete();
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// Signal that data should not be loaded from the cache file
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static void IgnoreDiskCache();
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// In DEBUG builds, returns a stream that will attempt to check for
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// and disallow multiple writes of the same object.
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nsresult GetDebugObjectOutputStream(nsIObjectOutputStream* aStream,
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nsIObjectOutputStream** outStream);
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static StartupCache* GetSingletonNoInit();
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static StartupCache* GetSingleton();
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static void DeleteSingleton();
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// This measures all the heap memory used by the StartupCache, i.e. it
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// excludes the mapping.
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size_t HeapSizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf) const;
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bool ShouldCompactCache();
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nsresult ResetStartupWriteTimerCheckingReadCount();
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nsresult ResetStartupWriteTimer();
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bool StartupWriteComplete();
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private:
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StartupCache();
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virtual ~StartupCache();
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friend class StartupCacheInfo;
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Result<Ok, nsresult> LoadArchive();
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nsresult Init();
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// Returns a file pointer for the cache file with the given name in the
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// current profile.
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Result<nsCOMPtr<nsIFile>, nsresult> GetCacheFile(const nsAString& suffix);
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// Opens the cache file for reading.
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Result<Ok, nsresult> OpenCache();
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// Writes the cache to disk
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Result<Ok, nsresult> WriteToDisk();
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void WaitOnPrefetchThread();
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void StartPrefetchMemoryThread();
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static nsresult InitSingleton();
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static void WriteTimeout(nsITimer* aTimer, void* aClosure);
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void MaybeWriteOffMainThread();
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static void ThreadedPrefetch(void* aClosure);
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HashMap<nsCString, StartupCacheEntry> mTable;
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// This owns references to the contents of tables which have been invalidated.
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// In theory it grows forever if the cache is continually filled and then
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// invalidated, but this should not happen in practice. Deleting old tables
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// could create dangling pointers. RefPtrs could be introduced, but it would
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// be a large amount of error-prone work to change.
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nsTArray<decltype(mTable)> mOldTables;
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size_t mAllowedInvalidationsCount;
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nsCOMPtr<nsIFile> mFile;
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loader::AutoMemMap mCacheData;
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Mutex mTableLock MOZ_UNANNOTATED;
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nsCOMPtr<nsIObserverService> mObserverService;
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RefPtr<StartupCacheListener> mListener;
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nsCOMPtr<nsITimer> mTimer;
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Atomic<bool> mDirty;
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Atomic<bool> mWrittenOnce;
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bool mCurTableReferenced;
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uint32_t mRequestedCount;
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size_t mCacheEntriesBaseOffset;
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static StaticRefPtr<StartupCache> gStartupCache;
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static bool gShutdownInitiated;
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static bool gIgnoreDiskCache;
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static bool gFoundDiskCacheOnInit;
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PRThread* mPrefetchThread;
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UniquePtr<Compression::LZ4FrameDecompressionContext> mDecompressionContext;
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#ifdef DEBUG
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nsTHashSet<nsCOMPtr<nsISupports>> mWriteObjectMap;
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#endif
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};
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// This debug outputstream attempts to detect if clients are writing multiple
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// references to the same object. We only support that if that object
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// is a singleton.
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#ifdef DEBUG
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class StartupCacheDebugOutputStream final : public nsIObjectOutputStream {
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~StartupCacheDebugOutputStream() = default;
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NS_DECL_ISUPPORTS
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NS_DECL_NSIOBJECTOUTPUTSTREAM
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StartupCacheDebugOutputStream(nsIObjectOutputStream* binaryStream,
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nsTHashSet<nsCOMPtr<nsISupports>>* objectMap)
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: mBinaryStream(binaryStream), mObjectMap(objectMap) {}
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NS_FORWARD_SAFE_NSIBINARYOUTPUTSTREAM(mBinaryStream)
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NS_FORWARD_SAFE_NSIOUTPUTSTREAM(mBinaryStream)
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bool CheckReferences(nsISupports* aObject);
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nsCOMPtr<nsIObjectOutputStream> mBinaryStream;
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nsTHashSet<nsCOMPtr<nsISupports>>* mObjectMap;
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};
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#endif // DEBUG
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} // namespace scache
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} // namespace mozilla
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#endif // StartupCache_h_
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