/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=2 et sw=2 tw=80: */ /* 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/. */ #include "QuotaManager.h" #include "mozIApplicationClearPrivateDataParams.h" #include "nsIBinaryInputStream.h" #include "nsIBinaryOutputStream.h" #include "nsIFile.h" #include "nsIObserverService.h" #include "nsIOfflineStorage.h" #include "nsIPrincipal.h" #include "nsIQuotaRequest.h" #include "nsIRunnable.h" #include "nsISimpleEnumerator.h" #include "nsIScriptObjectPrincipal.h" #include "nsIScriptSecurityManager.h" #include "nsITimer.h" #include "nsIURI.h" #include "nsIUsageCallback.h" #include #include "GeckoProfiler.h" #include "mozilla/Atomics.h" #include "mozilla/CondVar.h" #include "mozilla/dom/asmjscache/AsmJSCache.h" #include "mozilla/dom/file/FileService.h" #include "mozilla/dom/indexedDB/Client.h" #include "mozilla/Mutex.h" #include "mozilla/LazyIdleThread.h" #include "mozilla/Preferences.h" #include "mozilla/Services.h" #include "nsAppDirectoryServiceDefs.h" #include "nsComponentManagerUtils.h" #include "nsContentUtils.h" #include "nsCRTGlue.h" #include "nsDirectoryServiceUtils.h" #include "nsNetUtil.h" #include "nsScriptSecurityManager.h" #include "nsThreadUtils.h" #include "nsXULAppAPI.h" #include "xpcpublic.h" #include "AcquireListener.h" #include "CheckQuotaHelper.h" #include "OriginCollection.h" #include "OriginOrPatternString.h" #include "QuotaObject.h" #include "StorageMatcher.h" #include "UsageInfo.h" #include "Utilities.h" // The amount of time, in milliseconds, that our IO thread will stay alive // after the last event it processes. #define DEFAULT_THREAD_TIMEOUT_MS 30000 // The amount of time, in milliseconds, that we will wait for active storage // transactions on shutdown before aborting them. #define DEFAULT_SHUTDOWN_TIMER_MS 30000 // Preference that users can set to override DEFAULT_QUOTA_MB #define PREF_STORAGE_QUOTA "dom.indexedDB.warningQuota" // Preference that users can set to override temporary storage smart limit // calculation. #define PREF_FIXED_LIMIT "dom.quotaManager.temporaryStorage.fixedLimit" // Preferences that are used during temporary storage smart limit calculation #define PREF_SMART_LIMIT_PREFIX "dom.quotaManager.temporaryStorage.smartLimit." #define PREF_SMART_LIMIT_MIN PREF_SMART_LIMIT_PREFIX "min" #define PREF_SMART_LIMIT_MAX PREF_SMART_LIMIT_PREFIX "max" #define PREF_SMART_LIMIT_CHUNK PREF_SMART_LIMIT_PREFIX "chunk" #define PREF_SMART_LIMIT_RATIO PREF_SMART_LIMIT_PREFIX "ratio" // Preference that is used to enable testing features #define PREF_TESTING_FEATURES "dom.quotaManager.testing" // profile-before-change, when we need to shut down quota manager #define PROFILE_BEFORE_CHANGE_OBSERVER_ID "profile-before-change" // The name of the file that we use to load/save the last access time of an // origin. #define METADATA_FILE_NAME ".metadata" #define PERMISSION_DEFAUT_PERSISTENT_STORAGE "default-persistent-storage" USING_QUOTA_NAMESPACE using namespace mozilla::dom; using mozilla::dom::file::FileService; static_assert( static_cast(StorageType::Persistent) == static_cast(PERSISTENCE_TYPE_PERSISTENT), "Enum values should match."); static_assert( static_cast(StorageType::Temporary) == static_cast(PERSISTENCE_TYPE_TEMPORARY), "Enum values should match."); BEGIN_QUOTA_NAMESPACE // A struct that contains the information corresponding to a pending or // running operation that requires synchronization (e.g. opening a db, // clearing dbs for an origin, etc). struct SynchronizedOp { SynchronizedOp(const OriginOrPatternString& aOriginOrPattern, Nullable aPersistenceType, const nsACString& aId); ~SynchronizedOp(); // Test whether this SynchronizedOp needs to wait for the given op. bool MustWaitFor(const SynchronizedOp& aOp); void DelayRunnable(nsIRunnable* aRunnable); void DispatchDelayedRunnables(); const OriginOrPatternString mOriginOrPattern; Nullable mPersistenceType; nsCString mId; nsRefPtr mListener; nsTArray > mDelayedRunnables; ArrayCluster mStorages; }; class CollectOriginsHelper MOZ_FINAL : public nsRunnable { public: CollectOriginsHelper(mozilla::Mutex& aMutex, uint64_t aMinSizeToBeFreed); NS_IMETHOD Run(); // Blocks the current thread until origins are collected on the main thread. // The returned value contains an aggregate size of those origins. int64_t BlockAndReturnOriginsForEviction(nsTArray& aOriginInfos); private: ~CollectOriginsHelper() { } uint64_t mMinSizeToBeFreed; mozilla::Mutex& mMutex; mozilla::CondVar mCondVar; // The members below are protected by mMutex. nsTArray mOriginInfos; uint64_t mSizeToBeFreed; bool mWaiting; }; // Responsible for clearing the storage files for a particular origin on the // IO thread. Created when nsIQuotaManager::ClearStoragesForURI is called. // Runs three times, first on the main thread, next on the IO thread, and then // finally again on the main thread. While on the IO thread the runnable will // actually remove the origin's storage files and the directory that contains // them before dispatching itself back to the main thread. When back on the main // thread the runnable will notify the QuotaManager that the job has been // completed. class OriginClearRunnable MOZ_FINAL : public nsRunnable, public AcquireListener { enum CallbackState { // Not yet run. Pending = 0, // Running on the main thread in the callback for OpenAllowed. OpenAllowed, // Running on the IO thread. IO, // Running on the main thread after all work is done. Complete }; public: NS_DECL_ISUPPORTS_INHERITED OriginClearRunnable(const OriginOrPatternString& aOriginOrPattern) : mOriginOrPattern(aOriginOrPattern), mCallbackState(Pending) { } NS_IMETHOD Run(); // AcquireListener override virtual nsresult OnExclusiveAccessAcquired() MOZ_OVERRIDE; void AdvanceState() { switch (mCallbackState) { case Pending: mCallbackState = OpenAllowed; return; case OpenAllowed: mCallbackState = IO; return; case IO: mCallbackState = Complete; return; default: NS_NOTREACHED("Can't advance past Complete!"); } } static void InvalidateOpenedStorages(nsTArray >& aStorages, void* aClosure); void DeleteFiles(QuotaManager* aQuotaManager, PersistenceType aPersistenceType); private: OriginOrPatternString mOriginOrPattern; CallbackState mCallbackState; }; // Responsible for calculating the amount of space taken up by storages of a // certain origin. Created when nsIQuotaManager::GetUsageForURI is called. // May be canceled with nsIQuotaRequest::Cancel. Runs three times, first // on the main thread, next on the IO thread, and then finally again on the main // thread. While on the IO thread the runnable will calculate the size of all // files in the origin's directory before dispatching itself back to the main // thread. When on the main thread the runnable will call the callback and then // notify the QuotaManager that the job has been completed. class AsyncUsageRunnable MOZ_FINAL : public UsageInfo, public nsRunnable, public nsIQuotaRequest { enum CallbackState { // Not yet run. Pending = 0, // Running on the main thread in the callback for OpenAllowed. OpenAllowed, // Running on the IO thread. IO, // Running on the main thread after all work is done. Complete, // Running on the main thread after skipping the work Shortcut }; public: NS_DECL_ISUPPORTS_INHERITED NS_DECL_NSIQUOTAREQUEST AsyncUsageRunnable(uint32_t aAppId, bool aInMozBrowserOnly, const nsACString& aGroup, const OriginOrPatternString& aOrigin, nsIURI* aURI, nsIUsageCallback* aCallback); NS_IMETHOD Run(); void AdvanceState() { switch (mCallbackState) { case Pending: mCallbackState = OpenAllowed; return; case OpenAllowed: mCallbackState = IO; return; case IO: mCallbackState = Complete; return; default: NS_NOTREACHED("Can't advance past Complete!"); } } nsresult TakeShortcut(); private: // Run calls the RunInternal method and makes sure that we always dispatch // to the main thread in case of an error. inline nsresult RunInternal(); nsresult AddToUsage(QuotaManager* aQuotaManager, PersistenceType aPersistenceType); nsCOMPtr mURI; nsCOMPtr mCallback; uint32_t mAppId; nsCString mGroup; OriginOrPatternString mOrigin; CallbackState mCallbackState; bool mInMozBrowserOnly; }; class ResetOrClearRunnable MOZ_FINAL : public nsRunnable, public AcquireListener { enum CallbackState { // Not yet run. Pending = 0, // Running on the main thread in the callback for OpenAllowed. OpenAllowed, // Running on the IO thread. IO, // Running on the main thread after all work is done. Complete }; public: NS_DECL_ISUPPORTS_INHERITED ResetOrClearRunnable(bool aClear) : mCallbackState(Pending), mClear(aClear) { } NS_IMETHOD Run(); // AcquireListener override virtual nsresult OnExclusiveAccessAcquired() MOZ_OVERRIDE; void AdvanceState() { switch (mCallbackState) { case Pending: mCallbackState = OpenAllowed; return; case OpenAllowed: mCallbackState = IO; return; case IO: mCallbackState = Complete; return; default: NS_NOTREACHED("Can't advance past Complete!"); } } static void InvalidateOpenedStorages(nsTArray >& aStorages, void* aClosure); void DeleteFiles(QuotaManager* aQuotaManager, PersistenceType aPersistenceType); private: CallbackState mCallbackState; bool mClear; }; // Responsible for finalizing eviction of certian origins (storage files have // been already cleared, we just need to release IO thread only objects and // allow next synchronized ops for evicted origins). Created when // QuotaManager::FinalizeOriginEviction is called. Runs three times, first // on the main thread, next on the IO thread, and then finally again on the main // thread. While on the IO thread the runnable will release IO thread only // objects before dispatching itself back to the main thread. When back on the // main thread the runnable will call QuotaManager::AllowNextSynchronizedOp. // The runnable can also run in a shortened mode (runs only twice). class FinalizeOriginEvictionRunnable MOZ_FINAL : public nsRunnable { enum CallbackState { // Not yet run. Pending = 0, // Running on the main thread in the callback for OpenAllowed. OpenAllowed, // Running on the IO thread. IO, // Running on the main thread after IO work is done. Complete }; public: FinalizeOriginEvictionRunnable(nsTArray& aOrigins) : mCallbackState(Pending) { mOrigins.SwapElements(aOrigins); } NS_IMETHOD Run(); void AdvanceState() { switch (mCallbackState) { case Pending: mCallbackState = OpenAllowed; return; case OpenAllowed: mCallbackState = IO; return; case IO: mCallbackState = Complete; return; default: MOZ_ASSUME_UNREACHABLE("Can't advance past Complete!"); } } nsresult Dispatch(); nsresult RunImmediately(); private: CallbackState mCallbackState; nsTArray mOrigins; }; bool IsOnIOThread() { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "Must have a manager here!"); bool currentThread; return NS_SUCCEEDED(quotaManager->IOThread()-> IsOnCurrentThread(¤tThread)) && currentThread; } void AssertIsOnIOThread() { NS_ASSERTION(IsOnIOThread(), "Running on the wrong thread!"); } void AssertCurrentThreadOwnsQuotaMutex() { #ifdef DEBUG QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "Must have a manager here!"); quotaManager->AssertCurrentThreadOwnsQuotaMutex(); #endif } END_QUOTA_NAMESPACE namespace { // Amount of space that storages may use by default in megabytes. static const int32_t kDefaultQuotaMB = 50; // Constants for temporary storage limit computing. static const int32_t kDefaultFixedLimitKB = -1; #ifdef ANDROID // On Android, smaller/older devices may have very little storage and // device owners may be sensitive to storage footprint: Use a smaller // percentage of available space and a smaller minimum/maximum. static const uint32_t kDefaultSmartLimitMinKB = 10 * 1024; static const uint32_t kDefaultSmartLimitMaxKB = 200 * 1024; static const uint32_t kDefaultSmartLimitChunkKB = 2 * 1024; static const float kDefaultSmartLimitRatio = .2f; #else static const uint64_t kDefaultSmartLimitMinKB = 50 * 1024; static const uint64_t kDefaultSmartLimitMaxKB = 1024 * 1024; static const uint32_t kDefaultSmartLimitChunkKB = 10 * 1024; static const float kDefaultSmartLimitRatio = .4f; #endif QuotaManager* gInstance = nullptr; mozilla::Atomic gShutdown(false); int32_t gStorageQuotaMB = kDefaultQuotaMB; int32_t gFixedLimitKB = kDefaultFixedLimitKB; uint32_t gSmartLimitMinKB = kDefaultSmartLimitMinKB; uint32_t gSmartLimitMaxKB = kDefaultSmartLimitMaxKB; uint32_t gSmartLimitChunkKB = kDefaultSmartLimitChunkKB; float gSmartLimitRatio = kDefaultSmartLimitRatio; bool gTestingEnabled = false; // A callback runnable used by the TransactionPool when it's safe to proceed // with a SetVersion/DeleteDatabase/etc. class WaitForTransactionsToFinishRunnable MOZ_FINAL : public nsRunnable { public: WaitForTransactionsToFinishRunnable(SynchronizedOp* aOp) : mOp(aOp), mCountdown(1) { NS_ASSERTION(mOp, "Why don't we have a runnable?"); NS_ASSERTION(mOp->mStorages.IsEmpty(), "We're here too early!"); NS_ASSERTION(mOp->mListener, "What are we supposed to do when we're done?"); NS_ASSERTION(mCountdown, "Wrong countdown!"); } NS_IMETHOD Run(); void AddRun() { mCountdown++; } private: // The QuotaManager holds this alive. SynchronizedOp* mOp; uint32_t mCountdown; }; class WaitForLockedFilesToFinishRunnable MOZ_FINAL : public nsRunnable { public: WaitForLockedFilesToFinishRunnable() : mBusy(true) { } NS_IMETHOD Run(); bool IsBusy() const { return mBusy; } private: bool mBusy; }; class SaveOriginAccessTimeRunnable MOZ_FINAL : public nsRunnable { public: SaveOriginAccessTimeRunnable(const nsACString& aOrigin, int64_t aTimestamp) : mOrigin(aOrigin), mTimestamp(aTimestamp) { } NS_IMETHOD Run(); private: nsCString mOrigin; int64_t mTimestamp; }; struct MOZ_STACK_CLASS RemoveQuotaInfo { RemoveQuotaInfo(PersistenceType aPersistenceType, const nsACString& aPattern) : persistenceType(aPersistenceType), pattern(aPattern) { } PersistenceType persistenceType; nsCString pattern; }; struct MOZ_STACK_CLASS InactiveOriginsInfo { InactiveOriginsInfo(OriginCollection& aCollection, nsTArray& aOrigins) : collection(aCollection), origins(aOrigins) { } OriginCollection& collection; nsTArray& origins; }; bool IsMainProcess() { return XRE_GetProcessType() == GeckoProcessType_Default; } void SanitizeOriginString(nsCString& aOrigin) { // We want profiles to be platform-independent so we always need to replace // the same characters on every platform. Windows has the most extensive set // of illegal characters so we use its FILE_ILLEGAL_CHARACTERS and // FILE_PATH_SEPARATOR. static const char kReplaceChars[] = CONTROL_CHARACTERS "/:*?\"<>|\\"; #ifdef XP_WIN NS_ASSERTION(!strcmp(kReplaceChars, FILE_ILLEGAL_CHARACTERS FILE_PATH_SEPARATOR), "Illegal file characters have changed!"); #endif aOrigin.ReplaceChar(kReplaceChars, '+'); } nsresult EnsureDirectory(nsIFile* aDirectory, bool* aCreated) { AssertIsOnIOThread(); nsresult rv = aDirectory->Create(nsIFile::DIRECTORY_TYPE, 0755); if (rv == NS_ERROR_FILE_ALREADY_EXISTS) { bool isDirectory; rv = aDirectory->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS(rv, rv); NS_ENSURE_TRUE(isDirectory, NS_ERROR_UNEXPECTED); *aCreated = false; } else { NS_ENSURE_SUCCESS(rv, rv); *aCreated = true; } return NS_OK; } nsresult CreateDirectoryUpgradeStamp(nsIFile* aDirectory) { AssertIsOnIOThread(); nsCOMPtr metadataFile; nsresult rv = aDirectory->Clone(getter_AddRefs(metadataFile)); NS_ENSURE_SUCCESS(rv, rv); rv = metadataFile->Append(NS_LITERAL_STRING(METADATA_FILE_NAME)); NS_ENSURE_SUCCESS(rv, rv); rv = metadataFile->Create(nsIFile::NORMAL_FILE_TYPE, 0644); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } nsresult GetDirectoryMetadataStream(nsIFile* aDirectory, bool aUpdate, nsIBinaryOutputStream** aStream) { AssertIsOnIOThread(); nsCOMPtr metadataFile; nsresult rv = aDirectory->Clone(getter_AddRefs(metadataFile)); NS_ENSURE_SUCCESS(rv, rv); rv = metadataFile->Append(NS_LITERAL_STRING(METADATA_FILE_NAME)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr outputStream; if (aUpdate) { bool exists; rv = metadataFile->Exists(&exists); NS_ENSURE_SUCCESS(rv, rv); if (!exists) { *aStream = nullptr; return NS_OK; } nsCOMPtr stream; rv = NS_NewLocalFileStream(getter_AddRefs(stream), metadataFile); NS_ENSURE_SUCCESS(rv, rv); outputStream = do_QueryInterface(stream); NS_ENSURE_TRUE(outputStream, NS_ERROR_FAILURE); } else { rv = NS_NewLocalFileOutputStream(getter_AddRefs(outputStream), metadataFile); NS_ENSURE_SUCCESS(rv, rv); } nsCOMPtr binaryStream = do_CreateInstance("@mozilla.org/binaryoutputstream;1"); NS_ENSURE_TRUE(binaryStream, NS_ERROR_FAILURE); rv = binaryStream->SetOutputStream(outputStream); NS_ENSURE_SUCCESS(rv, rv); binaryStream.forget(aStream); return NS_OK; } nsresult CreateDirectoryMetadata(nsIFile* aDirectory, int64_t aTimestamp, const nsACString& aGroup, const nsACString& aOrigin) { AssertIsOnIOThread(); nsCOMPtr stream; nsresult rv = GetDirectoryMetadataStream(aDirectory, false, getter_AddRefs(stream)); NS_ENSURE_SUCCESS(rv, rv); NS_ASSERTION(stream, "This shouldn't be null!"); rv = stream->Write64(aTimestamp); NS_ENSURE_SUCCESS(rv, rv); rv = stream->WriteStringZ(PromiseFlatCString(aGroup).get()); NS_ENSURE_SUCCESS(rv, rv); rv = stream->WriteStringZ(PromiseFlatCString(aOrigin).get()); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } nsresult GetDirectoryMetadata(nsIFile* aDirectory, int64_t* aTimestamp, nsACString& aGroup, nsACString& aOrigin) { AssertIsOnIOThread(); nsCOMPtr metadataFile; nsresult rv = aDirectory->Clone(getter_AddRefs(metadataFile)); NS_ENSURE_SUCCESS(rv, rv); rv = metadataFile->Append(NS_LITERAL_STRING(METADATA_FILE_NAME)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr stream; rv = NS_NewLocalFileInputStream(getter_AddRefs(stream), metadataFile); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr bufferedStream; rv = NS_NewBufferedInputStream(getter_AddRefs(bufferedStream), stream, 512); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr binaryStream = do_CreateInstance("@mozilla.org/binaryinputstream;1"); NS_ENSURE_TRUE(binaryStream, NS_ERROR_FAILURE); rv = binaryStream->SetInputStream(bufferedStream); NS_ENSURE_SUCCESS(rv, rv); uint64_t timestamp; rv = binaryStream->Read64(×tamp); NS_ENSURE_SUCCESS(rv, rv); nsCString group; rv = binaryStream->ReadCString(group); NS_ENSURE_SUCCESS(rv, rv); nsCString origin; rv = binaryStream->ReadCString(origin); NS_ENSURE_SUCCESS(rv, rv); *aTimestamp = timestamp; aGroup = group; aOrigin = origin; return NS_OK; } nsresult MaybeUpgradeOriginDirectory(nsIFile* aDirectory) { AssertIsOnIOThread(); NS_ASSERTION(aDirectory, "Null pointer!"); nsCOMPtr metadataFile; nsresult rv = aDirectory->Clone(getter_AddRefs(metadataFile)); NS_ENSURE_SUCCESS(rv, rv); rv = metadataFile->Append(NS_LITERAL_STRING(METADATA_FILE_NAME)); NS_ENSURE_SUCCESS(rv, rv); bool exists; rv = metadataFile->Exists(&exists); NS_ENSURE_SUCCESS(rv, rv); if (!exists) { // Directory structure upgrade needed. // Move all files to IDB specific directory. nsString idbDirectoryName; rv = Client::TypeToText(Client::IDB, idbDirectoryName); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr idbDirectory; rv = aDirectory->Clone(getter_AddRefs(idbDirectory)); NS_ENSURE_SUCCESS(rv, rv); rv = idbDirectory->Append(idbDirectoryName); NS_ENSURE_SUCCESS(rv, rv); rv = idbDirectory->Create(nsIFile::DIRECTORY_TYPE, 0755); if (rv == NS_ERROR_FILE_ALREADY_EXISTS) { NS_WARNING("IDB directory already exists!"); bool isDirectory; rv = idbDirectory->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS(rv, rv); NS_ENSURE_TRUE(isDirectory, NS_ERROR_UNEXPECTED); } else { NS_ENSURE_SUCCESS(rv, rv); } nsCOMPtr entries; rv = aDirectory->GetDirectoryEntries(getter_AddRefs(entries)); NS_ENSURE_SUCCESS(rv, rv); bool hasMore; while (NS_SUCCEEDED((rv = entries->HasMoreElements(&hasMore))) && hasMore) { nsCOMPtr entry; rv = entries->GetNext(getter_AddRefs(entry)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr file = do_QueryInterface(entry); NS_ENSURE_TRUE(file, NS_NOINTERFACE); nsString leafName; rv = file->GetLeafName(leafName); NS_ENSURE_SUCCESS(rv, rv); if (!leafName.Equals(idbDirectoryName)) { rv = file->MoveTo(idbDirectory, EmptyString()); NS_ENSURE_SUCCESS(rv, rv); } } rv = metadataFile->Create(nsIFile::NORMAL_FILE_TYPE, 0644); NS_ENSURE_SUCCESS(rv, rv); } return NS_OK; } // This method computes and returns our best guess for the temporary storage // limit (in bytes), based on the amount of space users have free on their hard // drive and on given temporary storage usage (also in bytes). We use a tiered // scheme: the more space available, the larger the temporary storage will be. // However, we do not want to enable the temporary storage to grow to an // unbounded size, so the larger the user's available space is, the smaller of // a percentage we take. We set a lower bound of gTemporaryStorageLimitMinKB // and an upper bound of gTemporaryStorageLimitMaxKB. nsresult GetTemporaryStorageLimit(nsIFile* aDirectory, uint64_t aCurrentUsage, uint64_t* aLimit) { // Check for free space on device where temporary storage directory lives. int64_t bytesAvailable; nsresult rv = aDirectory->GetDiskSpaceAvailable(&bytesAvailable); NS_ENSURE_SUCCESS(rv, rv); NS_ASSERTION(bytesAvailable >= 0, "Negative bytes available?!"); uint64_t availableKB = static_cast((bytesAvailable + aCurrentUsage) / 1024); // Grow/shrink in gTemporaryStorageLimitChunkKB units, deliberately, so that // in the common case we don't shrink temporary storage and evict origin data // every time we initialize. availableKB = (availableKB / gSmartLimitChunkKB) * gSmartLimitChunkKB; // The tier scheme: // .5 % of space above 25 GB // 1 % of space between 7GB -> 25 GB // 5 % of space between 500 MB -> 7 GB // gTemporaryStorageLimitRatio of space up to 500 MB static const uint64_t _25GB = 25 * 1024 * 1024; static const uint64_t _7GB = 7 * 1024 * 1024; static const uint64_t _500MB = 500 * 1024; #define PERCENTAGE(a, b, c) ((a - b) * c) uint64_t resultKB; if (availableKB > _25GB) { resultKB = static_cast( PERCENTAGE(availableKB, _25GB, .005) + PERCENTAGE(_25GB, _7GB, .01) + PERCENTAGE(_7GB, _500MB, .05) + PERCENTAGE(_500MB, 0, gSmartLimitRatio) ); } else if (availableKB > _7GB) { resultKB = static_cast( PERCENTAGE(availableKB, _7GB, .01) + PERCENTAGE(_7GB, _500MB, .05) + PERCENTAGE(_500MB, 0, gSmartLimitRatio) ); } else if (availableKB > _500MB) { resultKB = static_cast( PERCENTAGE(availableKB, _500MB, .05) + PERCENTAGE(_500MB, 0, gSmartLimitRatio) ); } else { resultKB = static_cast( PERCENTAGE(availableKB, 0, gSmartLimitRatio) ); } #undef PERCENTAGE *aLimit = 1024 * mozilla::clamped(resultKB, gSmartLimitMinKB, gSmartLimitMaxKB); return NS_OK; } } // anonymous namespace QuotaManager::QuotaManager() : mCurrentWindowIndex(BAD_TLS_INDEX), mQuotaMutex("QuotaManager.mQuotaMutex"), mTemporaryStorageLimit(0), mTemporaryStorageUsage(0), mTemporaryStorageInitialized(false), mStorageAreaInitialized(false) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(!gInstance, "More than one instance!"); } QuotaManager::~QuotaManager() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(!gInstance || gInstance == this, "Different instances!"); gInstance = nullptr; } // static QuotaManager* QuotaManager::GetOrCreate() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); if (IsShuttingDown()) { NS_ERROR("Calling GetOrCreate() after shutdown!"); return nullptr; } if (!gInstance) { nsRefPtr instance(new QuotaManager()); nsresult rv = instance->Init(); NS_ENSURE_SUCCESS(rv, nullptr); nsCOMPtr obs = mozilla::services::GetObserverService(); NS_ENSURE_TRUE(obs, nullptr); // We need this callback to know when to shut down all our threads. rv = obs->AddObserver(instance, PROFILE_BEFORE_CHANGE_OBSERVER_ID, false); NS_ENSURE_SUCCESS(rv, nullptr); // The observer service will hold our last reference, don't AddRef here. gInstance = instance; } return gInstance; } // static QuotaManager* QuotaManager::Get() { // Does not return an owning reference. return gInstance; } // static QuotaManager* QuotaManager::FactoryCreate() { // Returns a raw pointer that carries an owning reference! Lame, but the // singleton factory macros force this. QuotaManager* quotaManager = GetOrCreate(); NS_IF_ADDREF(quotaManager); return quotaManager; } // static bool QuotaManager::IsShuttingDown() { return gShutdown; } nsresult QuotaManager::Init() { // We need a thread-local to hold the current window. NS_ASSERTION(mCurrentWindowIndex == BAD_TLS_INDEX, "Huh?"); if (PR_NewThreadPrivateIndex(&mCurrentWindowIndex, nullptr) != PR_SUCCESS) { NS_ERROR("PR_NewThreadPrivateIndex failed, QuotaManager disabled"); mCurrentWindowIndex = BAD_TLS_INDEX; return NS_ERROR_FAILURE; } nsresult rv; if (IsMainProcess()) { nsCOMPtr baseDir; rv = NS_GetSpecialDirectory(NS_APP_INDEXEDDB_PARENT_DIR, getter_AddRefs(baseDir)); if (NS_FAILED(rv)) { rv = NS_GetSpecialDirectory(NS_APP_USER_PROFILE_50_DIR, getter_AddRefs(baseDir)); } NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr indexedDBDir; rv = baseDir->Clone(getter_AddRefs(indexedDBDir)); NS_ENSURE_SUCCESS(rv, rv); rv = indexedDBDir->Append(NS_LITERAL_STRING("indexedDB")); NS_ENSURE_SUCCESS(rv, rv); rv = indexedDBDir->GetPath(mIndexedDBPath); NS_ENSURE_SUCCESS(rv, rv); rv = baseDir->Append(NS_LITERAL_STRING("storage")); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr persistentStorageDir; rv = baseDir->Clone(getter_AddRefs(persistentStorageDir)); NS_ENSURE_SUCCESS(rv, rv); rv = persistentStorageDir->Append(NS_LITERAL_STRING("persistent")); NS_ENSURE_SUCCESS(rv, rv); rv = persistentStorageDir->GetPath(mPersistentStoragePath); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr temporaryStorageDir; rv = baseDir->Clone(getter_AddRefs(temporaryStorageDir)); NS_ENSURE_SUCCESS(rv, rv); rv = temporaryStorageDir->Append(NS_LITERAL_STRING("temporary")); NS_ENSURE_SUCCESS(rv, rv); rv = temporaryStorageDir->GetPath(mTemporaryStoragePath); NS_ENSURE_SUCCESS(rv, rv); // Make a lazy thread for any IO we need (like clearing or enumerating the // contents of storage directories). mIOThread = new LazyIdleThread(DEFAULT_THREAD_TIMEOUT_MS, NS_LITERAL_CSTRING("Storage I/O"), LazyIdleThread::ManualShutdown); // Make a timer here to avoid potential failures later. We don't actually // initialize the timer until shutdown. mShutdownTimer = do_CreateInstance(NS_TIMER_CONTRACTID); NS_ENSURE_TRUE(mShutdownTimer, NS_ERROR_FAILURE); } if (NS_FAILED(Preferences::AddIntVarCache(&gStorageQuotaMB, PREF_STORAGE_QUOTA, kDefaultQuotaMB))) { NS_WARNING("Unable to respond to quota pref changes!"); } if (NS_FAILED(Preferences::AddIntVarCache(&gFixedLimitKB, PREF_FIXED_LIMIT, kDefaultFixedLimitKB)) || NS_FAILED(Preferences::AddUintVarCache(&gSmartLimitMinKB, PREF_SMART_LIMIT_MIN, kDefaultSmartLimitMinKB)) || NS_FAILED(Preferences::AddUintVarCache(&gSmartLimitMaxKB, PREF_SMART_LIMIT_MAX, kDefaultSmartLimitMaxKB)) || NS_FAILED(Preferences::AddUintVarCache(&gSmartLimitChunkKB, PREF_SMART_LIMIT_CHUNK, kDefaultSmartLimitChunkKB)) || NS_FAILED(Preferences::AddFloatVarCache(&gSmartLimitRatio, PREF_SMART_LIMIT_RATIO, kDefaultSmartLimitRatio))) { NS_WARNING("Unable to respond to temp storage pref changes!"); } if (NS_FAILED(Preferences::AddBoolVarCache(&gTestingEnabled, PREF_TESTING_FEATURES, false))) { NS_WARNING("Unable to respond to testing pref changes!"); } static_assert(Client::IDB == 0 && Client::ASMJS == 1 && Client::TYPE_MAX == 2, "Fix the registration!"); NS_ASSERTION(mClients.Capacity() == Client::TYPE_MAX, "Should be using an auto array with correct capacity!"); // Register IndexedDB mClients.AppendElement(new indexedDB::Client()); mClients.AppendElement(asmjscache::CreateClient()); return NS_OK; } void QuotaManager::InitQuotaForOrigin(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin, uint64_t aLimitBytes, uint64_t aUsageBytes, int64_t aAccessTime) { AssertIsOnIOThread(); MOZ_ASSERT(aLimitBytes > 0 || aPersistenceType == PERSISTENCE_TYPE_TEMPORARY); MOZ_ASSERT(aUsageBytes <= aLimitBytes || aPersistenceType == PERSISTENCE_TYPE_TEMPORARY); MutexAutoLock lock(mQuotaMutex); GroupInfoPair* pair; if (!mGroupInfoPairs.Get(aGroup, &pair)) { pair = new GroupInfoPair(); mGroupInfoPairs.Put(aGroup, pair); // The hashtable is now responsible to delete the GroupInfoPair. } nsRefPtr groupInfo = pair->LockedGetGroupInfo(aPersistenceType); if (!groupInfo) { groupInfo = new GroupInfo(aPersistenceType, aGroup); pair->LockedSetGroupInfo(groupInfo); } nsRefPtr originInfo = new OriginInfo(groupInfo, aOrigin, aLimitBytes, aUsageBytes, aAccessTime); groupInfo->LockedAddOriginInfo(originInfo); } void QuotaManager::DecreaseUsageForOrigin(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin, int64_t aSize) { AssertIsOnIOThread(); MutexAutoLock lock(mQuotaMutex); GroupInfoPair* pair; if (!mGroupInfoPairs.Get(aGroup, &pair)) { return; } nsRefPtr groupInfo = pair->LockedGetGroupInfo(aPersistenceType); if (!groupInfo) { return; } nsRefPtr originInfo = groupInfo->LockedGetOriginInfo(aOrigin); if (originInfo) { originInfo->LockedDecreaseUsage(aSize); } } void QuotaManager::UpdateOriginAccessTime(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); MutexAutoLock lock(mQuotaMutex); GroupInfoPair* pair; if (!mGroupInfoPairs.Get(aGroup, &pair)) { return; } nsRefPtr groupInfo = pair->LockedGetGroupInfo(PERSISTENCE_TYPE_TEMPORARY); if (!groupInfo) { return; } nsRefPtr originInfo = groupInfo->LockedGetOriginInfo(aOrigin); if (originInfo) { int64_t timestamp = PR_Now(); originInfo->LockedUpdateAccessTime(timestamp); if (!groupInfo->IsForTemporaryStorage()) { return; } MutexAutoUnlock autoUnlock(mQuotaMutex); SaveOriginAccessTime(aOrigin, timestamp); } } // static PLDHashOperator QuotaManager::RemoveQuotaCallback(const nsACString& aKey, nsAutoPtr& aValue, void* aUserArg) { NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); nsRefPtr groupInfo = aValue->LockedGetGroupInfo(PERSISTENCE_TYPE_TEMPORARY); if (groupInfo) { groupInfo->LockedRemoveOriginInfos(); } return PL_DHASH_REMOVE; } void QuotaManager::RemoveQuota() { MutexAutoLock lock(mQuotaMutex); mGroupInfoPairs.Enumerate(RemoveQuotaCallback, nullptr); NS_ASSERTION(mTemporaryStorageUsage == 0, "Should be zero!"); } // static PLDHashOperator QuotaManager::RemoveQuotaForPersistenceTypeCallback( const nsACString& aKey, nsAutoPtr& aValue, void* aUserArg) { NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); NS_ASSERTION(aUserArg, "Null pointer!"); PersistenceType& persistenceType = *static_cast(aUserArg); if (persistenceType == PERSISTENCE_TYPE_TEMPORARY) { nsRefPtr groupInfo = aValue->LockedGetGroupInfo(persistenceType); if (groupInfo) { groupInfo->LockedRemoveOriginInfos(); } } aValue->LockedClearGroupInfo(persistenceType); return aValue->LockedHasGroupInfos() ? PL_DHASH_NEXT : PL_DHASH_REMOVE; } void QuotaManager::RemoveQuotaForPersistenceType(PersistenceType aPersistenceType) { MutexAutoLock lock(mQuotaMutex); mGroupInfoPairs.Enumerate(RemoveQuotaForPersistenceTypeCallback, &aPersistenceType); NS_ASSERTION(aPersistenceType == PERSISTENCE_TYPE_PERSISTENT || mTemporaryStorageUsage == 0, "Should be zero!"); } // static PLDHashOperator QuotaManager::RemoveQuotaForPatternCallback(const nsACString& aKey, nsAutoPtr& aValue, void* aUserArg) { NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); NS_ASSERTION(aUserArg, "Null pointer!"); RemoveQuotaInfo* info = static_cast(aUserArg); nsRefPtr groupInfo = aValue->LockedGetGroupInfo(info->persistenceType); if (groupInfo) { groupInfo->LockedRemoveOriginInfosForPattern(info->pattern); if (!groupInfo->LockedHasOriginInfos()) { aValue->LockedClearGroupInfo(info->persistenceType); if (!aValue->LockedHasGroupInfos()) { return PL_DHASH_REMOVE; } } } return PL_DHASH_NEXT; } void QuotaManager::RemoveQuotaForPattern(PersistenceType aPersistenceType, const nsACString& aPattern) { NS_ASSERTION(!aPattern.IsEmpty(), "Empty pattern!"); RemoveQuotaInfo info(aPersistenceType, aPattern); MutexAutoLock lock(mQuotaMutex); mGroupInfoPairs.Enumerate(RemoveQuotaForPatternCallback, &info); } already_AddRefed QuotaManager::GetQuotaObject(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin, nsIFile* aFile) { NS_ASSERTION(!NS_IsMainThread(), "Wrong thread!"); nsString path; nsresult rv = aFile->GetPath(path); NS_ENSURE_SUCCESS(rv, nullptr); int64_t fileSize; bool exists; rv = aFile->Exists(&exists); NS_ENSURE_SUCCESS(rv, nullptr); if (exists) { rv = aFile->GetFileSize(&fileSize); NS_ENSURE_SUCCESS(rv, nullptr); } else { fileSize = 0; } nsRefPtr result; { MutexAutoLock lock(mQuotaMutex); GroupInfoPair* pair; if (!mGroupInfoPairs.Get(aGroup, &pair)) { return nullptr; } nsRefPtr groupInfo = pair->LockedGetGroupInfo(aPersistenceType); if (!groupInfo) { return nullptr; } nsRefPtr originInfo = groupInfo->LockedGetOriginInfo(aOrigin); if (!originInfo) { return nullptr; } // We need this extra raw pointer because we can't assign to the smart // pointer directly since QuotaObject::AddRef would try to acquire the same // mutex. QuotaObject* quotaObject; if (!originInfo->mQuotaObjects.Get(path, "aObject)) { // Create a new QuotaObject. quotaObject = new QuotaObject(originInfo, path, fileSize); // Put it to the hashtable. The hashtable is not responsible to delete // the QuotaObject. originInfo->mQuotaObjects.Put(path, quotaObject); } // Addref the QuotaObject and move the ownership to the result. This must // happen before we unlock! result = quotaObject->LockedAddRef(); } // The caller becomes the owner of the QuotaObject, that is, the caller is // is responsible to delete it when the last reference is removed. return result.forget(); } already_AddRefed QuotaManager::GetQuotaObject(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin, const nsAString& aPath) { nsresult rv; nsCOMPtr file = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, nullptr); rv = file->InitWithPath(aPath); NS_ENSURE_SUCCESS(rv, nullptr); return GetQuotaObject(aPersistenceType, aGroup, aOrigin, file); } bool QuotaManager::RegisterStorage(nsIOfflineStorage* aStorage) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aStorage, "Null pointer!"); // Don't allow any new storages to be created after shutdown. if (IsShuttingDown()) { return false; } // Add this storage to its origin info if it exists, create it otherwise. const nsACString& origin = aStorage->Origin(); ArrayCluster* cluster; if (!mLiveStorages.Get(origin, &cluster)) { cluster = new ArrayCluster(); mLiveStorages.Put(origin, cluster); UpdateOriginAccessTime(aStorage->Type(), aStorage->Group(), origin); } (*cluster)[aStorage->GetClient()->GetType()].AppendElement(aStorage); return true; } void QuotaManager::UnregisterStorage(nsIOfflineStorage* aStorage) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aStorage, "Null pointer!"); // Remove this storage from its origin array, maybe remove the array if it // is then empty. const nsACString& origin = aStorage->Origin(); ArrayCluster* cluster; if (mLiveStorages.Get(origin, &cluster) && (*cluster)[aStorage->GetClient()->GetType()].RemoveElement(aStorage)) { if (cluster->IsEmpty()) { mLiveStorages.Remove(origin); UpdateOriginAccessTime(aStorage->Type(), aStorage->Group(), origin); } return; } NS_ERROR("Didn't know anything about this storage!"); } void QuotaManager::OnStorageClosed(nsIOfflineStorage* aStorage) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aStorage, "Null pointer!"); // Check through the list of SynchronizedOps to see if any are waiting for // this storage to close before proceeding. SynchronizedOp* op = FindSynchronizedOp(aStorage->Origin(), Nullable(aStorage->Type()), aStorage->Id()); if (op) { Client::Type clientType = aStorage->GetClient()->GetType(); // This storage is in the scope of this SynchronizedOp. Remove it // from the list if necessary. if (op->mStorages[clientType].RemoveElement(aStorage)) { // Now set up the helper if there are no more live storages. NS_ASSERTION(op->mListener, "How did we get rid of the listener before removing the " "last storage?"); if (op->mStorages[clientType].IsEmpty()) { // At this point, all storages are closed, so no new transactions // can be started. There may, however, still be outstanding // transactions that have not completed. We need to wait for those // before we dispatch the helper. if (NS_FAILED(RunSynchronizedOp(aStorage, op))) { NS_WARNING("Failed to run synchronized op!"); } } } } } void QuotaManager::AbortCloseStoragesForWindow(nsPIDOMWindow* aWindow) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aWindow, "Null pointer!"); FileService* service = FileService::Get(); StorageMatcher > liveStorages; liveStorages.Find(mLiveStorages); for (uint32_t i = 0; i < Client::TYPE_MAX; i++) { nsRefPtr& client = mClients[i]; bool utilized = service && client->IsFileServiceUtilized(); bool activated = client->IsTransactionServiceActivated(); nsTArray& array = liveStorages[i]; for (uint32_t j = 0; j < array.Length(); j++) { nsIOfflineStorage*& storage = array[j]; if (storage->IsOwned(aWindow)) { if (NS_FAILED(storage->Close())) { NS_WARNING("Failed to close storage for dying window!"); } if (utilized) { service->AbortLockedFilesForStorage(storage); } if (activated) { client->AbortTransactionsForStorage(storage); } } } } } bool QuotaManager::HasOpenTransactions(nsPIDOMWindow* aWindow) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aWindow, "Null pointer!"); FileService* service = FileService::Get(); nsAutoPtr > > liveStorages; for (uint32_t i = 0; i < Client::TYPE_MAX; i++) { nsRefPtr& client = mClients[i]; bool utilized = service && client->IsFileServiceUtilized(); bool activated = client->IsTransactionServiceActivated(); if (utilized || activated) { if (!liveStorages) { liveStorages = new StorageMatcher >(); liveStorages->Find(mLiveStorages); } nsTArray& storages = liveStorages->ArrayAt(i); for (uint32_t j = 0; j < storages.Length(); j++) { nsIOfflineStorage*& storage = storages[j]; if (storage->IsOwned(aWindow) && ((utilized && service->HasLockedFilesForStorage(storage)) || (activated && client->HasTransactionsForStorage(storage)))) { return true; } } } } return false; } nsresult QuotaManager::WaitForOpenAllowed(const OriginOrPatternString& aOriginOrPattern, Nullable aPersistenceType, const nsACString& aId, nsIRunnable* aRunnable) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(!aOriginOrPattern.IsEmpty() || aOriginOrPattern.IsNull(), "Empty pattern!"); NS_ASSERTION(aRunnable, "Null pointer!"); nsAutoPtr op(new SynchronizedOp(aOriginOrPattern, aPersistenceType, aId)); // See if this runnable needs to wait. bool delayed = false; for (uint32_t index = mSynchronizedOps.Length(); index > 0; index--) { nsAutoPtr& existingOp = mSynchronizedOps[index - 1]; if (op->MustWaitFor(*existingOp)) { existingOp->DelayRunnable(aRunnable); delayed = true; break; } } // Otherwise, dispatch it immediately. if (!delayed) { nsresult rv = NS_DispatchToCurrentThread(aRunnable); NS_ENSURE_SUCCESS(rv, rv); } // Adding this to the synchronized ops list will block any additional // ops from proceeding until this one is done. mSynchronizedOps.AppendElement(op.forget()); return NS_OK; } void QuotaManager::AddSynchronizedOp(const OriginOrPatternString& aOriginOrPattern, Nullable aPersistenceType) { nsAutoPtr op(new SynchronizedOp(aOriginOrPattern, aPersistenceType, EmptyCString())); #ifdef DEBUG for (uint32_t index = mSynchronizedOps.Length(); index > 0; index--) { nsAutoPtr& existingOp = mSynchronizedOps[index - 1]; NS_ASSERTION(!op->MustWaitFor(*existingOp), "What?"); } #endif mSynchronizedOps.AppendElement(op.forget()); } void QuotaManager::AllowNextSynchronizedOp( const OriginOrPatternString& aOriginOrPattern, Nullable aPersistenceType, const nsACString& aId) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(!aOriginOrPattern.IsEmpty() || aOriginOrPattern.IsNull(), "Empty origin/pattern!"); uint32_t count = mSynchronizedOps.Length(); for (uint32_t index = 0; index < count; index++) { nsAutoPtr& op = mSynchronizedOps[index]; if (op->mOriginOrPattern.IsOrigin() == aOriginOrPattern.IsOrigin() && op->mOriginOrPattern == aOriginOrPattern && op->mPersistenceType == aPersistenceType) { if (op->mId == aId) { NS_ASSERTION(op->mStorages.IsEmpty(), "How did this happen?"); op->DispatchDelayedRunnables(); mSynchronizedOps.RemoveElementAt(index); return; } // If one or the other is for an origin clear, we should have matched // solely on origin. NS_ASSERTION(!op->mId.IsEmpty() && !aId.IsEmpty(), "Why didn't we match earlier?"); } } NS_NOTREACHED("Why didn't we find a SynchronizedOp?"); } nsresult QuotaManager::GetDirectoryForOrigin(PersistenceType aPersistenceType, const nsACString& aASCIIOrigin, nsIFile** aDirectory) const { nsresult rv; nsCOMPtr directory = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, rv); rv = directory->InitWithPath(GetStoragePath(aPersistenceType)); NS_ENSURE_SUCCESS(rv, rv); nsAutoCString originSanitized(aASCIIOrigin); SanitizeOriginString(originSanitized); rv = directory->Append(NS_ConvertASCIItoUTF16(originSanitized)); NS_ENSURE_SUCCESS(rv, rv); directory.forget(aDirectory); return NS_OK; } nsresult QuotaManager::InitializeOrigin(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin, bool aTrackQuota, int64_t aAccessTime, nsIFile* aDirectory) { AssertIsOnIOThread(); nsresult rv; bool temporaryStorage = aPersistenceType == PERSISTENCE_TYPE_TEMPORARY; if (!temporaryStorage) { rv = MaybeUpgradeOriginDirectory(aDirectory); NS_ENSURE_SUCCESS(rv, rv); } // We need to initialize directories of all clients if they exists and also // get the total usage to initialize the quota. nsAutoPtr usageInfo; if (aTrackQuota) { usageInfo = new UsageInfo(); } nsCOMPtr entries; rv = aDirectory->GetDirectoryEntries(getter_AddRefs(entries)); NS_ENSURE_SUCCESS(rv, rv); bool hasMore; while (NS_SUCCEEDED((rv = entries->HasMoreElements(&hasMore))) && hasMore) { nsCOMPtr entry; rv = entries->GetNext(getter_AddRefs(entry)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr file = do_QueryInterface(entry); NS_ENSURE_TRUE(file, NS_NOINTERFACE); nsString leafName; rv = file->GetLeafName(leafName); NS_ENSURE_SUCCESS(rv, rv); if (leafName.EqualsLiteral(METADATA_FILE_NAME) || leafName.EqualsLiteral(DSSTORE_FILE_NAME)) { continue; } bool isDirectory; rv = file->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS(rv, rv); if (!isDirectory) { NS_WARNING("Unknown file found!"); return NS_ERROR_UNEXPECTED; } Client::Type clientType; rv = Client::TypeFromText(leafName, clientType); if (NS_FAILED(rv)) { NS_WARNING("Unknown directory found!"); return NS_ERROR_UNEXPECTED; } rv = mClients[clientType]->InitOrigin(aPersistenceType, aGroup, aOrigin, usageInfo); NS_ENSURE_SUCCESS(rv, rv); } if (aTrackQuota) { uint64_t quotaMaxBytes; uint64_t totalUsageBytes = usageInfo->TotalUsage(); if (temporaryStorage) { // Temporary storage has no limit for origin usage (there's a group and // the global limit though). quotaMaxBytes = 0; } else { quotaMaxBytes = GetStorageQuotaMB() * 1024 * 1024; if (totalUsageBytes > quotaMaxBytes) { NS_WARNING("Origin is already using more storage than allowed!"); return NS_ERROR_UNEXPECTED; } } InitQuotaForOrigin(aPersistenceType, aGroup, aOrigin, quotaMaxBytes, totalUsageBytes, aAccessTime); } return NS_OK; } nsresult QuotaManager::MaybeUpgradeIndexedDBDirectory() { AssertIsOnIOThread(); if (mStorageAreaInitialized) { return NS_OK; } nsresult rv; nsCOMPtr indexedDBDir = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, rv); rv = indexedDBDir->InitWithPath(mIndexedDBPath); NS_ENSURE_SUCCESS(rv, rv); bool exists; rv = indexedDBDir->Exists(&exists); NS_ENSURE_SUCCESS(rv, rv); if (!exists) { // Nothing to upgrade. mStorageAreaInitialized = true; return NS_OK; } bool isDirectory; rv = indexedDBDir->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS(rv, rv); if (!isDirectory) { NS_WARNING("indexedDB entry is not a directory!"); return NS_OK; } nsCOMPtr persistentStorageDir = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); NS_ENSURE_SUCCESS(rv, rv); rv = persistentStorageDir->InitWithPath(mPersistentStoragePath); NS_ENSURE_SUCCESS(rv, rv); rv = persistentStorageDir->Exists(&exists); NS_ENSURE_SUCCESS(rv, rv); if (exists) { NS_WARNING("indexedDB directory shouldn't exist after the upgrade!"); return NS_OK; } nsCOMPtr storageDir; rv = persistentStorageDir->GetParent(getter_AddRefs(storageDir)); NS_ENSURE_SUCCESS(rv, rv); nsString persistentStorageName; rv = persistentStorageDir->GetLeafName(persistentStorageName); NS_ENSURE_SUCCESS(rv, rv); // MoveTo() is atomic if the move happens on the same volume which should // be our case, so even if we crash in the middle of the operation nothing // breaks next time we try to initialize. // However there's a theoretical possibility that the indexedDB directory // is on different volume, but it should be rare enough that we don't have // to worry about it. rv = indexedDBDir->MoveTo(storageDir, persistentStorageName); NS_ENSURE_SUCCESS(rv, rv); mStorageAreaInitialized = true; return NS_OK; } nsresult QuotaManager::EnsureOriginIsInitialized(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin, bool aTrackQuota, nsIFile** aDirectory) { AssertIsOnIOThread(); nsresult rv = MaybeUpgradeIndexedDBDirectory(); NS_ENSURE_SUCCESS(rv, rv); // Get directory for this origin and persistence type. nsCOMPtr directory; rv = GetDirectoryForOrigin(aPersistenceType, aOrigin, getter_AddRefs(directory)); NS_ENSURE_SUCCESS(rv, rv); if (aPersistenceType == PERSISTENCE_TYPE_PERSISTENT) { if (mInitializedOrigins.Contains(aOrigin)) { NS_ADDREF(*aDirectory = directory); return NS_OK; } bool created; rv = EnsureDirectory(directory, &created); NS_ENSURE_SUCCESS(rv, rv); if (created) { rv = CreateDirectoryUpgradeStamp(directory); NS_ENSURE_SUCCESS(rv, rv); } rv = InitializeOrigin(aPersistenceType, aGroup, aOrigin, aTrackQuota, 0, directory); NS_ENSURE_SUCCESS(rv, rv); mInitializedOrigins.AppendElement(aOrigin); directory.forget(aDirectory); return NS_OK; } NS_ASSERTION(aPersistenceType == PERSISTENCE_TYPE_TEMPORARY, "Huh?"); NS_ASSERTION(aTrackQuota, "Huh?"); if (!mTemporaryStorageInitialized) { nsCOMPtr parentDirectory; rv = directory->GetParent(getter_AddRefs(parentDirectory)); NS_ENSURE_SUCCESS(rv, rv); bool created; rv = EnsureDirectory(parentDirectory, &created); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr entries; rv = parentDirectory->GetDirectoryEntries(getter_AddRefs(entries)); NS_ENSURE_SUCCESS(rv, rv); bool hasMore; while (NS_SUCCEEDED((rv = entries->HasMoreElements(&hasMore))) && hasMore) { nsCOMPtr entry; rv = entries->GetNext(getter_AddRefs(entry)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr childDirectory = do_QueryInterface(entry); NS_ENSURE_TRUE(childDirectory, NS_NOINTERFACE); bool isDirectory; rv = childDirectory->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS(rv, rv); NS_ENSURE_TRUE(isDirectory, NS_ERROR_UNEXPECTED); int64_t timestamp; nsCString group; nsCString origin; rv = GetDirectoryMetadata(childDirectory, ×tamp, group, origin); NS_ENSURE_SUCCESS(rv, rv); rv = InitializeOrigin(aPersistenceType, group, origin, aTrackQuota, timestamp, childDirectory); if (NS_FAILED(rv)) { NS_WARNING("Failed to initialize origin!"); // We have to cleanup partially initialized quota for temporary storage. RemoveQuotaForPersistenceType(aPersistenceType); return rv; } } if (gFixedLimitKB >= 0) { mTemporaryStorageLimit = gFixedLimitKB * 1024; } else { rv = GetTemporaryStorageLimit(parentDirectory, mTemporaryStorageUsage, &mTemporaryStorageLimit); NS_ENSURE_SUCCESS(rv, rv); } CheckTemporaryStorageLimits(); mTemporaryStorageInitialized = true; } bool created; rv = EnsureDirectory(directory, &created); NS_ENSURE_SUCCESS(rv, rv); if (created) { int64_t timestamp = PR_Now(); rv = CreateDirectoryMetadata(directory, timestamp, aGroup, aOrigin); NS_ENSURE_SUCCESS(rv, rv); rv = InitializeOrigin(aPersistenceType, aGroup, aOrigin, aTrackQuota, timestamp, directory); NS_ENSURE_SUCCESS(rv, rv); } directory.forget(aDirectory); return NS_OK; } void QuotaManager::OriginClearCompleted( PersistenceType aPersistenceType, const OriginOrPatternString& aOriginOrPattern) { AssertIsOnIOThread(); if (aPersistenceType == PERSISTENCE_TYPE_PERSISTENT) { if (aOriginOrPattern.IsOrigin()) { mInitializedOrigins.RemoveElement(aOriginOrPattern); } else { for (uint32_t index = mInitializedOrigins.Length(); index > 0; index--) { if (PatternMatchesOrigin(aOriginOrPattern, mInitializedOrigins[index - 1])) { mInitializedOrigins.RemoveElementAt(index - 1); } } } } for (uint32_t index = 0; index < Client::TYPE_MAX; index++) { mClients[index]->OnOriginClearCompleted(aPersistenceType, aOriginOrPattern); } } void QuotaManager::ResetOrClearCompleted() { AssertIsOnIOThread(); mInitializedOrigins.Clear(); mTemporaryStorageInitialized = false; ReleaseIOThreadObjects(); } already_AddRefed QuotaManager::GetClient(Client::Type aClientType) { nsRefPtr client = mClients.SafeElementAt(aClientType); return client.forget(); } // static uint32_t QuotaManager::GetStorageQuotaMB() { return uint32_t(std::max(gStorageQuotaMB, 0)); } // static void QuotaManager::GetStorageId(PersistenceType aPersistenceType, const nsACString& aOrigin, Client::Type aClientType, const nsAString& aName, nsACString& aDatabaseId) { nsAutoCString str; str.AppendInt(aPersistenceType); str.Append('*'); str.Append(aOrigin); str.Append('*'); str.AppendInt(aClientType); str.Append('*'); str.Append(NS_ConvertUTF16toUTF8(aName)); aDatabaseId = str; } // static nsresult QuotaManager::GetInfoFromURI(nsIURI* aURI, uint32_t aAppId, bool aInMozBrowser, nsACString* aGroup, nsACString* aASCIIOrigin, StoragePrivilege* aPrivilege, PersistenceType* aDefaultPersistenceType) { NS_ASSERTION(aURI, "Null uri!"); nsIScriptSecurityManager* secMan = nsContentUtils::GetSecurityManager(); NS_ENSURE_TRUE(secMan, NS_ERROR_FAILURE); nsCOMPtr principal; nsresult rv = secMan->GetAppCodebasePrincipal(aURI, aAppId, aInMozBrowser, getter_AddRefs(principal)); NS_ENSURE_SUCCESS(rv, rv); rv = GetInfoFromPrincipal(principal, aGroup, aASCIIOrigin, aPrivilege, aDefaultPersistenceType); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } // static nsresult QuotaManager::GetInfoFromPrincipal(nsIPrincipal* aPrincipal, nsACString* aGroup, nsACString* aASCIIOrigin, StoragePrivilege* aPrivilege, PersistenceType* aDefaultPersistenceType) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aPrincipal, "Don't hand me a null principal!"); if (nsContentUtils::IsSystemPrincipal(aPrincipal)) { GetInfoForChrome(aGroup, aASCIIOrigin, aPrivilege, aDefaultPersistenceType); return NS_OK; } bool isNullPrincipal; nsresult rv = aPrincipal->GetIsNullPrincipal(&isNullPrincipal); NS_ENSURE_SUCCESS(rv, rv); if (isNullPrincipal) { NS_WARNING("IndexedDB not supported from this principal!"); return NS_ERROR_FAILURE; } nsCString origin; rv = aPrincipal->GetOrigin(getter_Copies(origin)); NS_ENSURE_SUCCESS(rv, rv); if (origin.EqualsLiteral("chrome")) { NS_WARNING("Non-chrome principal can't use chrome origin!"); return NS_ERROR_FAILURE; } nsCString jarPrefix; if (aGroup || aASCIIOrigin) { rv = aPrincipal->GetJarPrefix(jarPrefix); NS_ENSURE_SUCCESS(rv, rv); } if (aGroup) { nsCString baseDomain; rv = aPrincipal->GetBaseDomain(baseDomain); if (NS_FAILED(rv)) { // A hack for JetPack. nsCOMPtr uri; rv = aPrincipal->GetURI(getter_AddRefs(uri)); NS_ENSURE_SUCCESS(rv, rv); bool isIndexedDBURI = false; rv = uri->SchemeIs("indexedDB", &isIndexedDBURI); NS_ENSURE_SUCCESS(rv, rv); if (isIndexedDBURI) { rv = NS_OK; } } NS_ENSURE_SUCCESS(rv, rv); if (baseDomain.IsEmpty()) { aGroup->Assign(jarPrefix + origin); } else { aGroup->Assign(jarPrefix + baseDomain); } } if (aASCIIOrigin) { aASCIIOrigin->Assign(jarPrefix + origin); } if (aPrivilege) { *aPrivilege = Content; } if (aDefaultPersistenceType) { *aDefaultPersistenceType = PERSISTENCE_TYPE_PERSISTENT; } return NS_OK; } // static nsresult QuotaManager::GetInfoFromWindow(nsPIDOMWindow* aWindow, nsACString* aGroup, nsACString* aASCIIOrigin, StoragePrivilege* aPrivilege, PersistenceType* aDefaultPersistenceType) { NS_ASSERTION(NS_IsMainThread(), "We're about to touch a window off the main thread!"); NS_ASSERTION(aWindow, "Don't hand me a null window!"); nsCOMPtr sop = do_QueryInterface(aWindow); NS_ENSURE_TRUE(sop, NS_ERROR_FAILURE); nsCOMPtr principal = sop->GetPrincipal(); NS_ENSURE_TRUE(principal, NS_ERROR_FAILURE); nsresult rv = GetInfoFromPrincipal(principal, aGroup, aASCIIOrigin, aPrivilege, aDefaultPersistenceType); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } // static void QuotaManager::GetInfoForChrome(nsACString* aGroup, nsACString* aASCIIOrigin, StoragePrivilege* aPrivilege, PersistenceType* aDefaultPersistenceType) { NS_ASSERTION(nsContentUtils::IsCallerChrome(), "Only for chrome!"); static const char kChromeOrigin[] = "chrome"; if (aGroup) { aGroup->AssignLiteral(kChromeOrigin); } if (aASCIIOrigin) { aASCIIOrigin->AssignLiteral(kChromeOrigin); } if (aPrivilege) { *aPrivilege = Chrome; } if (aDefaultPersistenceType) { *aDefaultPersistenceType = PERSISTENCE_TYPE_PERSISTENT; } } NS_IMPL_ISUPPORTS2(QuotaManager, nsIQuotaManager, nsIObserver) NS_IMETHODIMP QuotaManager::GetUsageForURI(nsIURI* aURI, nsIUsageCallback* aCallback, uint32_t aAppId, bool aInMozBrowserOnly, uint8_t aOptionalArgCount, nsIQuotaRequest** _retval) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ENSURE_ARG_POINTER(aURI); NS_ENSURE_ARG_POINTER(aCallback); // This only works from the main process. NS_ENSURE_TRUE(IsMainProcess(), NS_ERROR_NOT_AVAILABLE); if (!aOptionalArgCount) { aAppId = nsIScriptSecurityManager::NO_APP_ID; } // Figure out which origin we're dealing with. nsCString group; nsCString origin; nsresult rv = GetInfoFromURI(aURI, aAppId, aInMozBrowserOnly, &group, &origin, nullptr, nullptr); NS_ENSURE_SUCCESS(rv, rv); OriginOrPatternString oops = OriginOrPatternString::FromOrigin(origin); nsRefPtr runnable = new AsyncUsageRunnable(aAppId, aInMozBrowserOnly, group, oops, aURI, aCallback); // Put the computation runnable in the queue. rv = WaitForOpenAllowed(oops, Nullable(), EmptyCString(), runnable); NS_ENSURE_SUCCESS(rv, rv); runnable->AdvanceState(); runnable.forget(_retval); return NS_OK; } NS_IMETHODIMP QuotaManager::Clear() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); if (!gTestingEnabled) { NS_WARNING("Testing features are not enabled!"); return NS_OK; } OriginOrPatternString oops = OriginOrPatternString::FromNull(); nsRefPtr runnable = new ResetOrClearRunnable(true); // Put the clear runnable in the queue. nsresult rv = WaitForOpenAllowed(oops, Nullable(), EmptyCString(), runnable); NS_ENSURE_SUCCESS(rv, rv); runnable->AdvanceState(); // Give the runnable some help by invalidating any storages in the way. StorageMatcher > matches; matches.Find(mLiveStorages); for (uint32_t index = 0; index < matches.Length(); index++) { // We need to grab references to any live storages here to prevent them // from dying while we invalidate them. nsCOMPtr storage = matches[index]; storage->Invalidate(); } // After everything has been invalidated the helper should be dispatched to // the end of the event queue. return NS_OK; } NS_IMETHODIMP QuotaManager::ClearStoragesForURI(nsIURI* aURI, uint32_t aAppId, bool aInMozBrowserOnly, uint8_t aOptionalArgCount) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ENSURE_ARG_POINTER(aURI); // This only works from the main process. NS_ENSURE_TRUE(IsMainProcess(), NS_ERROR_NOT_AVAILABLE); if (!aOptionalArgCount) { aAppId = nsIScriptSecurityManager::NO_APP_ID; } // Figure out which origin we're dealing with. nsCString origin; nsresult rv = GetInfoFromURI(aURI, aAppId, aInMozBrowserOnly, nullptr, &origin, nullptr, nullptr); NS_ENSURE_SUCCESS(rv, rv); nsAutoCString pattern; GetOriginPatternString(aAppId, aInMozBrowserOnly, origin, pattern); // If there is a pending or running clear operation for this origin, return // immediately. if (IsClearOriginPending(pattern)) { return NS_OK; } OriginOrPatternString oops = OriginOrPatternString::FromPattern(pattern); // Queue up the origin clear runnable. nsRefPtr runnable = new OriginClearRunnable(oops); rv = WaitForOpenAllowed(oops, Nullable(), EmptyCString(), runnable); NS_ENSURE_SUCCESS(rv, rv); runnable->AdvanceState(); // Give the runnable some help by invalidating any storages in the way. StorageMatcher > matches; matches.Find(mLiveStorages, pattern); for (uint32_t index = 0; index < matches.Length(); index++) { // We need to grab references to any live storages here to prevent them // from dying while we invalidate them. nsCOMPtr storage = matches[index]; storage->Invalidate(); } // After everything has been invalidated the helper should be dispatched to // the end of the event queue. return NS_OK; } NS_IMETHODIMP QuotaManager::Reset() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); if (!gTestingEnabled) { NS_WARNING("Testing features are not enabled!"); return NS_OK; } OriginOrPatternString oops = OriginOrPatternString::FromNull(); nsRefPtr runnable = new ResetOrClearRunnable(false); // Put the reset runnable in the queue. nsresult rv = WaitForOpenAllowed(oops, Nullable(), EmptyCString(), runnable); NS_ENSURE_SUCCESS(rv, rv); runnable->AdvanceState(); // Give the runnable some help by invalidating any storages in the way. StorageMatcher > matches; matches.Find(mLiveStorages); for (uint32_t index = 0; index < matches.Length(); index++) { // We need to grab references to any live storages here to prevent them // from dying while we invalidate them. nsCOMPtr storage = matches[index]; storage->Invalidate(); } // After everything has been invalidated the helper should be dispatched to // the end of the event queue. return NS_OK; } NS_IMETHODIMP QuotaManager::Observe(nsISupports* aSubject, const char* aTopic, const char16_t* aData) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); if (!strcmp(aTopic, PROFILE_BEFORE_CHANGE_OBSERVER_ID)) { // Setting this flag prevents the service from being recreated and prevents // further storagess from being created. if (gShutdown.exchange(true)) { NS_ERROR("Shutdown more than once?!"); } if (IsMainProcess()) { FileService* service = FileService::Get(); if (service) { // This should only wait for storages registered in this manager // to complete. Other storages may still have running locked files. // If the necko service (thread pool) gets the shutdown notification // first then the sync loop won't be processed at all, otherwise it will // lock the main thread until all storages registered in this manager // are finished. nsTArray indexes; for (uint32_t index = 0; index < Client::TYPE_MAX; index++) { if (mClients[index]->IsFileServiceUtilized()) { indexes.AppendElement(index); } } StorageMatcher > > liveStorages; liveStorages.Find(mLiveStorages, &indexes); if (!liveStorages.IsEmpty()) { nsRefPtr runnable = new WaitForLockedFilesToFinishRunnable(); service->WaitForStoragesToComplete(liveStorages, runnable); nsIThread* thread = NS_GetCurrentThread(); while (runnable->IsBusy()) { if (!NS_ProcessNextEvent(thread)) { NS_ERROR("Failed to process next event!"); break; } } } } // Kick off the shutdown timer. if (NS_FAILED(mShutdownTimer->Init(this, DEFAULT_SHUTDOWN_TIMER_MS, nsITimer::TYPE_ONE_SHOT))) { NS_WARNING("Failed to initialize shutdown timer!"); } // Each client will spin the event loop while we wait on all the threads // to close. Our timer may fire during that loop. for (uint32_t index = 0; index < Client::TYPE_MAX; index++) { mClients[index]->ShutdownTransactionService(); } // Cancel the timer regardless of whether it actually fired. if (NS_FAILED(mShutdownTimer->Cancel())) { NS_WARNING("Failed to cancel shutdown timer!"); } // Give clients a chance to cleanup IO thread only objects. nsCOMPtr runnable = NS_NewRunnableMethod(this, &QuotaManager::ReleaseIOThreadObjects); if (!runnable) { NS_WARNING("Failed to create runnable!"); } if (NS_FAILED(mIOThread->Dispatch(runnable, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch runnable!"); } // Make sure to join with our IO thread. if (NS_FAILED(mIOThread->Shutdown())) { NS_WARNING("Failed to shutdown IO thread!"); } } return NS_OK; } if (!strcmp(aTopic, NS_TIMER_CALLBACK_TOPIC)) { NS_ASSERTION(IsMainProcess(), "Should only happen in the main process!"); NS_WARNING("Some storage operations are taking longer than expected " "during shutdown and will be aborted!"); // Grab all live storages, for all origins. StorageMatcher > liveStorages; liveStorages.Find(mLiveStorages); // Invalidate them all. if (!liveStorages.IsEmpty()) { uint32_t count = liveStorages.Length(); for (uint32_t index = 0; index < count; index++) { liveStorages[index]->Invalidate(); } } return NS_OK; } if (!strcmp(aTopic, TOPIC_WEB_APP_CLEAR_DATA)) { nsCOMPtr params = do_QueryInterface(aSubject); NS_ENSURE_TRUE(params, NS_ERROR_UNEXPECTED); uint32_t appId; nsresult rv = params->GetAppId(&appId); NS_ENSURE_SUCCESS(rv, rv); bool browserOnly; rv = params->GetBrowserOnly(&browserOnly); NS_ENSURE_SUCCESS(rv, rv); rv = ClearStoragesForApp(appId, browserOnly); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } NS_NOTREACHED("Unknown topic!"); return NS_ERROR_UNEXPECTED; } void QuotaManager::SetCurrentWindowInternal(nsPIDOMWindow* aWindow) { NS_ASSERTION(mCurrentWindowIndex != BAD_TLS_INDEX, "Should have a valid TLS storage index!"); if (aWindow) { NS_ASSERTION(!PR_GetThreadPrivate(mCurrentWindowIndex), "Somebody forgot to clear the current window!"); PR_SetThreadPrivate(mCurrentWindowIndex, aWindow); } else { // We cannot assert PR_GetThreadPrivate(mCurrentWindowIndex) here because // there are some cases where we did not already have a window. PR_SetThreadPrivate(mCurrentWindowIndex, nullptr); } } void QuotaManager::CancelPromptsForWindowInternal(nsPIDOMWindow* aWindow) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); nsRefPtr helper; MutexAutoLock autoLock(mQuotaMutex); if (mCheckQuotaHelpers.Get(aWindow, getter_AddRefs(helper))) { helper->Cancel(); } } bool QuotaManager::LockedQuotaIsLifted() { mQuotaMutex.AssertCurrentThreadOwns(); NS_ASSERTION(mCurrentWindowIndex != BAD_TLS_INDEX, "Should have a valid TLS storage index!"); nsPIDOMWindow* window = static_cast(PR_GetThreadPrivate(mCurrentWindowIndex)); // Quota is not enforced in chrome contexts (e.g. for components and JSMs) // so we must have a window here. NS_ASSERTION(window, "Why don't we have a Window here?"); bool createdHelper = false; nsRefPtr helper; if (!mCheckQuotaHelpers.Get(window, getter_AddRefs(helper))) { helper = new CheckQuotaHelper(window, mQuotaMutex); createdHelper = true; mCheckQuotaHelpers.Put(window, helper); // Unlock while calling out to XPCOM (code behind the dispatch method needs // to acquire its own lock which can potentially lead to a deadlock and it // also calls an observer that can do various stuff like IO, so it's better // to not hold our mutex while that happens). { MutexAutoUnlock autoUnlock(mQuotaMutex); nsresult rv = NS_DispatchToMainThread(helper); NS_ENSURE_SUCCESS(rv, false); } // Relocked. If any other threads hit the quota limit on the same Window, // they are using the helper we created here and are now blocking in // PromptAndReturnQuotaDisabled. } bool result = helper->PromptAndReturnQuotaIsDisabled(); // If this thread created the helper and added it to the hash, this thread // must remove it. if (createdHelper) { mCheckQuotaHelpers.Remove(window); } return result; } uint64_t QuotaManager::LockedCollectOriginsForEviction( uint64_t aMinSizeToBeFreed, nsTArray& aOriginInfos) { mQuotaMutex.AssertCurrentThreadOwns(); nsRefPtr helper = new CollectOriginsHelper(mQuotaMutex, aMinSizeToBeFreed); // Unlock while calling out to XPCOM (see the detailed comment in // LockedQuotaIsLifted) { MutexAutoUnlock autoUnlock(mQuotaMutex); if (NS_FAILED(NS_DispatchToMainThread(helper))) { NS_WARNING("Failed to dispatch to the main thread!"); } } return helper->BlockAndReturnOriginsForEviction(aOriginInfos); } void QuotaManager::LockedRemoveQuotaForOrigin(PersistenceType aPersistenceType, const nsACString& aGroup, const nsACString& aOrigin) { mQuotaMutex.AssertCurrentThreadOwns(); GroupInfoPair* pair; mGroupInfoPairs.Get(aGroup, &pair); if (!pair) { return; } nsRefPtr groupInfo = pair->LockedGetGroupInfo(aPersistenceType); if (groupInfo) { groupInfo->LockedRemoveOriginInfo(aOrigin); if (!groupInfo->LockedHasOriginInfos()) { pair->LockedClearGroupInfo(aPersistenceType); if (!pair->LockedHasGroupInfos()) { mGroupInfoPairs.Remove(aGroup); } } } } nsresult QuotaManager::AcquireExclusiveAccess(const nsACString& aPattern, nsIOfflineStorage* aStorage, AcquireListener* aListener, WaitingOnStoragesCallback aCallback, void* aClosure) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aListener, "Need a listener!"); // Find the right SynchronizedOp. SynchronizedOp* op; if (aStorage) { op = FindSynchronizedOp(aPattern, Nullable(aStorage->Type()), aStorage->Id()); } else { op = FindSynchronizedOp(aPattern, Nullable(), EmptyCString()); } NS_ASSERTION(op, "We didn't find a SynchronizedOp?"); NS_ASSERTION(!op->mListener, "SynchronizedOp already has a listener?!?"); nsTArray > liveStorages; if (aStorage) { // We need to wait for the storages to go away. // Hold on to all storage objects that represent the same storage file // (except the one that is requesting this version change). Client::Type clientType = aStorage->GetClient()->GetType(); StorageMatcher > matches; matches.Find(mLiveStorages, aPattern, clientType); if (!matches.IsEmpty()) { // Grab all storages that are not yet closed but whose storage id match // the one we're looking for. for (uint32_t index = 0; index < matches.Length(); index++) { nsIOfflineStorage*& storage = matches[index]; if (!storage->IsClosed() && storage != aStorage && storage->Id() == aStorage->Id()) { liveStorages.AppendElement(storage); } } } if (!liveStorages.IsEmpty()) { NS_ASSERTION(op->mStorages[clientType].IsEmpty(), "How do we already have storages here?"); op->mStorages[clientType].AppendElements(liveStorages); } } else { StorageMatcher > matches; if (aPattern.IsVoid()) { matches.Find(mLiveStorages); } else { matches.Find(mLiveStorages, aPattern); } if (!matches.IsEmpty()) { // We want *all* storages, even those that are closed, when we're going to // clear the origin. matches.AppendElementsTo(liveStorages); NS_ASSERTION(op->mStorages.IsEmpty(), "How do we already have storages here?"); matches.SwapElements(op->mStorages); } } op->mListener = aListener; if (!liveStorages.IsEmpty()) { // Give our callback the storages so it can decide what to do with them. aCallback(liveStorages, aClosure); NS_ASSERTION(liveStorages.IsEmpty(), "Should have done something with the array!"); if (aStorage) { // Wait for those storages to close. return NS_OK; } } // If we're trying to open a storage and nothing blocks it, or if we're // clearing an origin, then go ahead and schedule the op. nsresult rv = RunSynchronizedOp(aStorage, op); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } nsresult QuotaManager::RunSynchronizedOp(nsIOfflineStorage* aStorage, SynchronizedOp* aOp) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aOp, "Null pointer!"); NS_ASSERTION(aOp->mListener, "No listener on this op!"); NS_ASSERTION(!aStorage || aOp->mStorages[aStorage->GetClient()->GetType()].IsEmpty(), "This op isn't ready to run!"); ArrayCluster storages; uint32_t startIndex; uint32_t endIndex; if (aStorage) { Client::Type clientType = aStorage->GetClient()->GetType(); storages[clientType].AppendElement(aStorage); startIndex = clientType; endIndex = clientType + 1; } else { aOp->mStorages.SwapElements(storages); startIndex = 0; endIndex = Client::TYPE_MAX; } nsRefPtr runnable = new WaitForTransactionsToFinishRunnable(aOp); // Ask the file service to call us back when it's done with this storage. FileService* service = FileService::Get(); if (service) { // Have to copy here in case a transaction service needs a list too. nsTArray > array; for (uint32_t index = startIndex; index < endIndex; index++) { if (!storages[index].IsEmpty() && mClients[index]->IsFileServiceUtilized()) { array.AppendElements(storages[index]); } } if (!array.IsEmpty()) { runnable->AddRun(); service->WaitForStoragesToComplete(array, runnable); } } // Ask each transaction service to call us back when they're done with this // storage. for (uint32_t index = startIndex; index < endIndex; index++) { nsRefPtr& client = mClients[index]; if (!storages[index].IsEmpty() && client->IsTransactionServiceActivated()) { runnable->AddRun(); client->WaitForStoragesToComplete(storages[index], runnable); } } nsresult rv = runnable->Run(); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } SynchronizedOp* QuotaManager::FindSynchronizedOp(const nsACString& aPattern, Nullable aPersistenceType, const nsACString& aId) { for (uint32_t index = 0; index < mSynchronizedOps.Length(); index++) { const nsAutoPtr& currentOp = mSynchronizedOps[index]; if (PatternMatchesOrigin(aPattern, currentOp->mOriginOrPattern) && (currentOp->mPersistenceType.IsNull() || currentOp->mPersistenceType == aPersistenceType) && (currentOp->mId.IsEmpty() || currentOp->mId == aId)) { return currentOp; } } return nullptr; } nsresult QuotaManager::ClearStoragesForApp(uint32_t aAppId, bool aBrowserOnly) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aAppId != nsIScriptSecurityManager::UNKNOWN_APP_ID, "Bad appId!"); // This only works from the main process. NS_ENSURE_TRUE(IsMainProcess(), NS_ERROR_NOT_AVAILABLE); nsAutoCString pattern; GetOriginPatternStringMaybeIgnoreBrowser(aAppId, aBrowserOnly, pattern); // If there is a pending or running clear operation for this app, return // immediately. if (IsClearOriginPending(pattern)) { return NS_OK; } OriginOrPatternString oops = OriginOrPatternString::FromPattern(pattern); // Queue up the origin clear runnable. nsRefPtr runnable = new OriginClearRunnable(oops); nsresult rv = WaitForOpenAllowed(oops, Nullable(), EmptyCString(), runnable); NS_ENSURE_SUCCESS(rv, rv); runnable->AdvanceState(); // Give the runnable some help by invalidating any storages in the way. StorageMatcher > matches; matches.Find(mLiveStorages, pattern); for (uint32_t index = 0; index < matches.Length(); index++) { // We need to grab references here to prevent the storage from dying while // we invalidate it. nsCOMPtr storage = matches[index]; storage->Invalidate(); } return NS_OK; } // static PLDHashOperator QuotaManager::GetOriginsExceedingGroupLimit(const nsACString& aKey, GroupInfoPair* aValue, void* aUserArg) { NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); nsRefPtr groupInfo = aValue->LockedGetGroupInfo(PERSISTENCE_TYPE_TEMPORARY); if (groupInfo) { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "Shouldn't be null!"); if (groupInfo->mUsage > quotaManager->GetGroupLimit()) { nsTArray* doomedOriginInfos = static_cast*>(aUserArg); nsTArray >& originInfos = groupInfo->mOriginInfos; originInfos.Sort(OriginInfoLRUComparator()); uint64_t usage = groupInfo->mUsage; for (uint32_t i = 0; i < originInfos.Length(); i++) { OriginInfo* originInfo = originInfos[i]; doomedOriginInfos->AppendElement(originInfo); usage -= originInfo->mUsage; if (usage <= quotaManager->GetGroupLimit()) { break; } } } } return PL_DHASH_NEXT; } // static PLDHashOperator QuotaManager::GetAllTemporaryStorageOrigins(const nsACString& aKey, GroupInfoPair* aValue, void* aUserArg) { NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); nsRefPtr groupInfo = aValue->LockedGetGroupInfo(PERSISTENCE_TYPE_TEMPORARY); if (groupInfo) { nsTArray* originInfos = static_cast*>(aUserArg); originInfos->AppendElements(groupInfo->mOriginInfos); } return PL_DHASH_NEXT; } void QuotaManager::CheckTemporaryStorageLimits() { AssertIsOnIOThread(); nsTArray doomedOriginInfos; { MutexAutoLock lock(mQuotaMutex); mGroupInfoPairs.EnumerateRead(GetOriginsExceedingGroupLimit, &doomedOriginInfos); uint64_t usage = 0; for (uint32_t index = 0; index < doomedOriginInfos.Length(); index++) { usage += doomedOriginInfos[index]->mUsage; } if (mTemporaryStorageUsage - usage > mTemporaryStorageLimit) { nsTArray originInfos; mGroupInfoPairs.EnumerateRead(GetAllTemporaryStorageOrigins, &originInfos); for (uint32_t index = originInfos.Length(); index > 0; index--) { if (doomedOriginInfos.Contains(originInfos[index - 1])) { originInfos.RemoveElementAt(index - 1); } } originInfos.Sort(OriginInfoLRUComparator()); for (uint32_t i = 0; i < originInfos.Length(); i++) { if (mTemporaryStorageUsage - usage <= mTemporaryStorageLimit) { originInfos.TruncateLength(i); break; } usage += originInfos[i]->mUsage; } doomedOriginInfos.AppendElements(originInfos); } } for (uint32_t index = 0; index < doomedOriginInfos.Length(); index++) { DeleteTemporaryFilesForOrigin(doomedOriginInfos[index]->mOrigin); } nsTArray doomedOrigins; { MutexAutoLock lock(mQuotaMutex); for (uint32_t index = 0; index < doomedOriginInfos.Length(); index++) { OriginInfo* doomedOriginInfo = doomedOriginInfos[index]; nsCString group = doomedOriginInfo->mGroupInfo->mGroup; nsCString origin = doomedOriginInfo->mOrigin; LockedRemoveQuotaForOrigin(PERSISTENCE_TYPE_TEMPORARY, group, origin); #ifdef DEBUG doomedOriginInfos[index] = nullptr; #endif doomedOrigins.AppendElement(origin); } } for (uint32_t index = 0; index < doomedOrigins.Length(); index++) { OriginClearCompleted( PERSISTENCE_TYPE_TEMPORARY, OriginOrPatternString::FromOrigin(doomedOrigins[index])); } } // static PLDHashOperator QuotaManager::AddTemporaryStorageOrigins( const nsACString& aKey, ArrayCluster* aValue, void* aUserArg) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); NS_ASSERTION(aUserArg, "Null pointer!"); OriginCollection& collection = *static_cast(aUserArg); if (collection.ContainsOrigin(aKey)) { return PL_DHASH_NEXT; } for (uint32_t i = 0; i < Client::TYPE_MAX; i++) { nsTArray& array = (*aValue)[i]; for (uint32_t j = 0; j < array.Length(); j++) { nsIOfflineStorage*& storage = array[j]; if (storage->Type() == PERSISTENCE_TYPE_TEMPORARY) { collection.AddOrigin(aKey); return PL_DHASH_NEXT; } } } return PL_DHASH_NEXT; } // static PLDHashOperator QuotaManager::GetInactiveTemporaryStorageOrigins(const nsACString& aKey, GroupInfoPair* aValue, void* aUserArg) { NS_ASSERTION(!aKey.IsEmpty(), "Empty key!"); NS_ASSERTION(aValue, "Null pointer!"); NS_ASSERTION(aUserArg, "Null pointer!"); nsRefPtr groupInfo = aValue->LockedGetGroupInfo(PERSISTENCE_TYPE_TEMPORARY); if (groupInfo) { InactiveOriginsInfo* info = static_cast(aUserArg); nsTArray >& originInfos = groupInfo->mOriginInfos; for (uint32_t i = 0; i < originInfos.Length(); i++) { OriginInfo* originInfo = originInfos[i]; if (!info->collection.ContainsOrigin(originInfo->mOrigin)) { NS_ASSERTION(!originInfo->mQuotaObjects.Count(), "Inactive origin shouldn't have open files!"); info->origins.AppendElement(originInfo); } } } return PL_DHASH_NEXT; } uint64_t QuotaManager::CollectOriginsForEviction(uint64_t aMinSizeToBeFreed, nsTArray& aOriginInfos) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); // Collect active origins first. OriginCollection originCollection; // Add patterns and origins that have running or pending synchronized ops. // (add patterns first to reduce redundancy in the origin collection). uint32_t index; for (index = 0; index < mSynchronizedOps.Length(); index++) { nsAutoPtr& op = mSynchronizedOps[index]; if (op->mPersistenceType.IsNull() || op->mPersistenceType.Value() == PERSISTENCE_TYPE_TEMPORARY) { if (op->mOriginOrPattern.IsPattern() && !originCollection.ContainsPattern(op->mOriginOrPattern)) { originCollection.AddPattern(op->mOriginOrPattern); } } } for (index = 0; index < mSynchronizedOps.Length(); index++) { nsAutoPtr& op = mSynchronizedOps[index]; if (op->mPersistenceType.IsNull() || op->mPersistenceType.Value() == PERSISTENCE_TYPE_TEMPORARY) { if (op->mOriginOrPattern.IsOrigin() && !originCollection.ContainsOrigin(op->mOriginOrPattern)) { originCollection.AddOrigin(op->mOriginOrPattern); } } } // Add origins that have live temporary storages. mLiveStorages.EnumerateRead(AddTemporaryStorageOrigins, &originCollection); // Enumerate inactive origins. This must be protected by the mutex. nsTArray inactiveOrigins; { InactiveOriginsInfo info(originCollection, inactiveOrigins); MutexAutoLock lock(mQuotaMutex); mGroupInfoPairs.EnumerateRead(GetInactiveTemporaryStorageOrigins, &info); } // We now have a list of all inactive origins. So it's safe to sort the list // and calculate available size without holding the lock. // Sort by the origin access time. inactiveOrigins.Sort(OriginInfoLRUComparator()); // Create a list of inactive and the least recently used origins // whose aggregate size is greater or equals the minimal size to be freed. uint64_t sizeToBeFreed = 0; for(index = 0; index < inactiveOrigins.Length(); index++) { if (sizeToBeFreed >= aMinSizeToBeFreed) { inactiveOrigins.TruncateLength(index); break; } sizeToBeFreed += inactiveOrigins[index]->mUsage; } if (sizeToBeFreed >= aMinSizeToBeFreed) { // Success, add synchronized ops for these origins, so any other // operations for them will be delayed (until origin eviction is finalized). for(index = 0; index < inactiveOrigins.Length(); index++) { OriginOrPatternString oops = OriginOrPatternString::FromOrigin(inactiveOrigins[index]->mOrigin); AddSynchronizedOp(oops, Nullable(PERSISTENCE_TYPE_TEMPORARY)); } inactiveOrigins.SwapElements(aOriginInfos); return sizeToBeFreed; } return 0; } void QuotaManager::DeleteTemporaryFilesForOrigin(const nsACString& aOrigin) { nsCOMPtr directory; nsresult rv = GetDirectoryForOrigin(PERSISTENCE_TYPE_TEMPORARY, aOrigin, getter_AddRefs(directory)); NS_ENSURE_SUCCESS_VOID(rv); rv = directory->Remove(true); if (rv != NS_ERROR_FILE_TARGET_DOES_NOT_EXIST && rv != NS_ERROR_FILE_NOT_FOUND && NS_FAILED(rv)) { // This should never fail if we've closed all storage connections // correctly... NS_ERROR("Failed to remove directory!"); } } void QuotaManager::FinalizeOriginEviction(nsTArray& aOrigins) { NS_ASSERTION(!NS_IsMainThread(), "Wrong thread!"); nsRefPtr runnable = new FinalizeOriginEvictionRunnable(aOrigins); nsresult rv = IsOnIOThread() ? runnable->RunImmediately() : runnable->Dispatch(); NS_ENSURE_SUCCESS_VOID(rv); } void QuotaManager::SaveOriginAccessTime(const nsACString& aOrigin, int64_t aTimestamp) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); if (QuotaManager::IsShuttingDown()) { return; } nsRefPtr runnable = new SaveOriginAccessTimeRunnable(aOrigin, aTimestamp); if (NS_FAILED(mIOThread->Dispatch(runnable, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch runnable!"); } } void QuotaManager::GetOriginPatternString(uint32_t aAppId, MozBrowserPatternFlag aBrowserFlag, const nsACString& aOrigin, nsAutoCString& _retval) { NS_ASSERTION(aAppId != nsIScriptSecurityManager::UNKNOWN_APP_ID, "Bad appId!"); NS_ASSERTION(aOrigin.IsEmpty() || aBrowserFlag != IgnoreMozBrowser, "Bad args!"); if (aOrigin.IsEmpty()) { _retval.Truncate(); _retval.AppendInt(aAppId); _retval.Append('+'); if (aBrowserFlag != IgnoreMozBrowser) { if (aBrowserFlag == MozBrowser) { _retval.Append('t'); } else { _retval.Append('f'); } _retval.Append('+'); } return; } #ifdef DEBUG if (aAppId != nsIScriptSecurityManager::NO_APP_ID || aBrowserFlag == MozBrowser) { nsAutoCString pattern; GetOriginPatternString(aAppId, aBrowserFlag, EmptyCString(), pattern); NS_ASSERTION(PatternMatchesOrigin(pattern, aOrigin), "Origin doesn't match parameters!"); } #endif _retval = aOrigin; } SynchronizedOp::SynchronizedOp(const OriginOrPatternString& aOriginOrPattern, Nullable aPersistenceType, const nsACString& aId) : mOriginOrPattern(aOriginOrPattern), mPersistenceType(aPersistenceType), mId(aId) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); MOZ_COUNT_CTOR(SynchronizedOp); } SynchronizedOp::~SynchronizedOp() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); MOZ_COUNT_DTOR(SynchronizedOp); } bool SynchronizedOp::MustWaitFor(const SynchronizedOp& aExistingOp) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); if (aExistingOp.mOriginOrPattern.IsNull() || mOriginOrPattern.IsNull()) { return true; } bool match; if (aExistingOp.mOriginOrPattern.IsOrigin()) { if (mOriginOrPattern.IsOrigin()) { match = aExistingOp.mOriginOrPattern.Equals(mOriginOrPattern); } else { match = PatternMatchesOrigin(mOriginOrPattern, aExistingOp.mOriginOrPattern); } } else if (mOriginOrPattern.IsOrigin()) { match = PatternMatchesOrigin(aExistingOp.mOriginOrPattern, mOriginOrPattern); } else { match = PatternMatchesOrigin(mOriginOrPattern, aExistingOp.mOriginOrPattern) || PatternMatchesOrigin(aExistingOp.mOriginOrPattern, mOriginOrPattern); } // If the origins don't match, the second can proceed. if (!match) { return false; } // If the origins match but the persistence types are different, the second // can proceed. if (!aExistingOp.mPersistenceType.IsNull() && !mPersistenceType.IsNull() && aExistingOp.mPersistenceType.Value() != mPersistenceType.Value()) { return false; } // If the origins and the ids match, the second must wait. if (aExistingOp.mId == mId) { return true; } // Waiting is required if either one corresponds to an origin clearing // (an empty Id). if (aExistingOp.mId.IsEmpty() || mId.IsEmpty()) { return true; } // Otherwise, things for the same origin but different storages can proceed // independently. return false; } void SynchronizedOp::DelayRunnable(nsIRunnable* aRunnable) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(mDelayedRunnables.IsEmpty() || mId.IsEmpty(), "Only ClearOrigin operations can delay multiple runnables!"); mDelayedRunnables.AppendElement(aRunnable); } void SynchronizedOp::DispatchDelayedRunnables() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(!mListener, "Any listener should be gone by now!"); uint32_t count = mDelayedRunnables.Length(); for (uint32_t index = 0; index < count; index++) { NS_DispatchToCurrentThread(mDelayedRunnables[index]); } mDelayedRunnables.Clear(); } CollectOriginsHelper::CollectOriginsHelper(mozilla::Mutex& aMutex, uint64_t aMinSizeToBeFreed) : mMinSizeToBeFreed(aMinSizeToBeFreed), mMutex(aMutex), mCondVar(aMutex, "CollectOriginsHelper::mCondVar"), mSizeToBeFreed(0), mWaiting(true) { MOZ_ASSERT(!NS_IsMainThread(), "Wrong thread!"); mMutex.AssertCurrentThreadOwns(); } int64_t CollectOriginsHelper::BlockAndReturnOriginsForEviction( nsTArray& aOriginInfos) { MOZ_ASSERT(!NS_IsMainThread(), "Wrong thread!"); mMutex.AssertCurrentThreadOwns(); while (mWaiting) { mCondVar.Wait(); } mOriginInfos.SwapElements(aOriginInfos); return mSizeToBeFreed; } NS_IMETHODIMP CollectOriginsHelper::Run() { MOZ_ASSERT(NS_IsMainThread(), "Wrong thread!"); QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "Shouldn't be null!"); // We use extra stack vars here to avoid race detector warnings (the same // memory accessed with and without the lock held). nsTArray originInfos; uint64_t sizeToBeFreed = quotaManager->CollectOriginsForEviction(mMinSizeToBeFreed, originInfos); MutexAutoLock lock(mMutex); NS_ASSERTION(mWaiting, "Huh?!"); mOriginInfos.SwapElements(originInfos); mSizeToBeFreed = sizeToBeFreed; mWaiting = false; mCondVar.Notify(); return NS_OK; } nsresult OriginClearRunnable::OnExclusiveAccessAcquired() { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); nsresult rv = quotaManager->IOThread()->Dispatch(this, NS_DISPATCH_NORMAL); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } // static void OriginClearRunnable::InvalidateOpenedStorages( nsTArray >& aStorages, void* aClosure) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); nsTArray > storages; storages.SwapElements(aStorages); for (uint32_t index = 0; index < storages.Length(); index++) { storages[index]->Invalidate(); } } void OriginClearRunnable::DeleteFiles(QuotaManager* aQuotaManager, PersistenceType aPersistenceType) { AssertIsOnIOThread(); NS_ASSERTION(aQuotaManager, "Don't pass me null!"); nsresult rv; nsCOMPtr directory = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); NS_ENSURE_SUCCESS_VOID(rv); rv = directory->InitWithPath(aQuotaManager->GetStoragePath(aPersistenceType)); NS_ENSURE_SUCCESS_VOID(rv); nsCOMPtr entries; if (NS_FAILED(directory->GetDirectoryEntries(getter_AddRefs(entries))) || !entries) { return; } nsCString originSanitized(mOriginOrPattern); SanitizeOriginString(originSanitized); bool hasMore; while (NS_SUCCEEDED((rv = entries->HasMoreElements(&hasMore))) && hasMore) { nsCOMPtr entry; rv = entries->GetNext(getter_AddRefs(entry)); NS_ENSURE_SUCCESS_VOID(rv); nsCOMPtr file = do_QueryInterface(entry); NS_ASSERTION(file, "Don't know what this is!"); bool isDirectory; rv = file->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS_VOID(rv); if (!isDirectory) { NS_WARNING("Something in the IndexedDB directory that doesn't belong!"); continue; } nsString leafName; rv = file->GetLeafName(leafName); NS_ENSURE_SUCCESS_VOID(rv); // Skip storages for other apps. if (!PatternMatchesOrigin(originSanitized, NS_ConvertUTF16toUTF8(leafName))) { continue; } if (NS_FAILED(file->Remove(true))) { // This should never fail if we've closed all storage connections // correctly... NS_ERROR("Failed to remove directory!"); } } aQuotaManager->RemoveQuotaForPattern(aPersistenceType, mOriginOrPattern); aQuotaManager->OriginClearCompleted(aPersistenceType, mOriginOrPattern); } NS_IMPL_ISUPPORTS_INHERITED0(OriginClearRunnable, nsRunnable) NS_IMETHODIMP OriginClearRunnable::Run() { PROFILER_LABEL("Quota", "OriginClearRunnable::Run"); QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); switch (mCallbackState) { case Pending: { NS_NOTREACHED("Should never get here without being dispatched!"); return NS_ERROR_UNEXPECTED; } case OpenAllowed: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); AdvanceState(); // Now we have to wait until the thread pool is done with all of the // storages we care about. nsresult rv = quotaManager->AcquireExclusiveAccess(mOriginOrPattern, this, InvalidateOpenedStorages, nullptr); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } case IO: { AssertIsOnIOThread(); AdvanceState(); DeleteFiles(quotaManager, PERSISTENCE_TYPE_PERSISTENT); DeleteFiles(quotaManager, PERSISTENCE_TYPE_TEMPORARY); // Now dispatch back to the main thread. if (NS_FAILED(NS_DispatchToMainThread(this, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch to main thread!"); return NS_ERROR_FAILURE; } return NS_OK; } case Complete: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); // Tell the QuotaManager that we're done. quotaManager->AllowNextSynchronizedOp(mOriginOrPattern, Nullable(), EmptyCString()); return NS_OK; } default: NS_ERROR("Unknown state value!"); return NS_ERROR_UNEXPECTED; } NS_NOTREACHED("Should never get here!"); return NS_ERROR_UNEXPECTED; } AsyncUsageRunnable::AsyncUsageRunnable(uint32_t aAppId, bool aInMozBrowserOnly, const nsACString& aGroup, const OriginOrPatternString& aOrigin, nsIURI* aURI, nsIUsageCallback* aCallback) : mURI(aURI), mCallback(aCallback), mAppId(aAppId), mGroup(aGroup), mOrigin(aOrigin), mCallbackState(Pending), mInMozBrowserOnly(aInMozBrowserOnly) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(aURI, "Null pointer!"); NS_ASSERTION(!aGroup.IsEmpty(), "Empty group!"); NS_ASSERTION(aOrigin.IsOrigin(), "Expect origin only here!"); NS_ASSERTION(!aOrigin.IsEmpty(), "Empty origin!"); NS_ASSERTION(aCallback, "Null pointer!"); } nsresult AsyncUsageRunnable::TakeShortcut() { NS_ASSERTION(mCallbackState == Pending, "Huh?"); nsresult rv = NS_DispatchToCurrentThread(this); NS_ENSURE_SUCCESS(rv, rv); mCallbackState = Shortcut; return NS_OK; } nsresult AsyncUsageRunnable::RunInternal() { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); nsresult rv; switch (mCallbackState) { case Pending: { NS_NOTREACHED("Should never get here without being dispatched!"); return NS_ERROR_UNEXPECTED; } case OpenAllowed: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); AdvanceState(); rv = quotaManager->IOThread()->Dispatch(this, NS_DISPATCH_NORMAL); if (NS_FAILED(rv)) { NS_WARNING("Failed to dispatch to the IO thread!"); } return NS_OK; } case IO: { AssertIsOnIOThread(); AdvanceState(); // Add all the persistent storage files we care about. rv = AddToUsage(quotaManager, PERSISTENCE_TYPE_PERSISTENT); NS_ENSURE_SUCCESS(rv, rv); // Add all the temporary storage files we care about. rv = AddToUsage(quotaManager, PERSISTENCE_TYPE_TEMPORARY); NS_ENSURE_SUCCESS(rv, rv); // Run dispatches us back to the main thread. return NS_OK; } case Complete: // Fall through case Shortcut: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); // Call the callback unless we were canceled. if (!mCanceled) { mCallback->OnUsageResult(mURI, TotalUsage(), FileUsage(), mAppId, mInMozBrowserOnly); } // Clean up. mURI = nullptr; mCallback = nullptr; // And tell the QuotaManager that we're done. if (mCallbackState == Complete) { quotaManager->AllowNextSynchronizedOp(mOrigin, Nullable(), EmptyCString()); } return NS_OK; } default: NS_ERROR("Unknown state value!"); return NS_ERROR_UNEXPECTED; } NS_NOTREACHED("Should never get here!"); return NS_ERROR_UNEXPECTED; } nsresult AsyncUsageRunnable::AddToUsage(QuotaManager* aQuotaManager, PersistenceType aPersistenceType) { AssertIsOnIOThread(); nsCOMPtr directory; nsresult rv = aQuotaManager->GetDirectoryForOrigin(aPersistenceType, mOrigin, getter_AddRefs(directory)); NS_ENSURE_SUCCESS(rv, rv); bool exists; rv = directory->Exists(&exists); NS_ENSURE_SUCCESS(rv, rv); // If the directory exists then enumerate all the files inside, adding up // the sizes to get the final usage statistic. if (exists && !mCanceled) { bool initialized; if (aPersistenceType == PERSISTENCE_TYPE_PERSISTENT) { initialized = aQuotaManager->mInitializedOrigins.Contains(mOrigin); if (!initialized) { rv = MaybeUpgradeOriginDirectory(directory); NS_ENSURE_SUCCESS(rv, rv); } } else { NS_ASSERTION(aPersistenceType == PERSISTENCE_TYPE_TEMPORARY, "Huh?"); initialized = aQuotaManager->mTemporaryStorageInitialized; } nsCOMPtr entries; rv = directory->GetDirectoryEntries(getter_AddRefs(entries)); NS_ENSURE_SUCCESS(rv, rv); bool hasMore; while (NS_SUCCEEDED((rv = entries->HasMoreElements(&hasMore))) && hasMore && !mCanceled) { nsCOMPtr entry; rv = entries->GetNext(getter_AddRefs(entry)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr file = do_QueryInterface(entry); NS_ENSURE_TRUE(file, NS_NOINTERFACE); nsString leafName; rv = file->GetLeafName(leafName); NS_ENSURE_SUCCESS(rv, rv); if (leafName.EqualsLiteral(METADATA_FILE_NAME) || leafName.EqualsLiteral(DSSTORE_FILE_NAME)) { continue; } if (!initialized) { bool isDirectory; rv = file->IsDirectory(&isDirectory); NS_ENSURE_SUCCESS(rv, rv); if (!isDirectory) { NS_WARNING("Unknown file found!"); return NS_ERROR_UNEXPECTED; } } Client::Type clientType; rv = Client::TypeFromText(leafName, clientType); if (NS_FAILED(rv)) { NS_WARNING("Unknown directory found!"); if (!initialized) { return NS_ERROR_UNEXPECTED; } continue; } nsRefPtr& client = aQuotaManager->mClients[clientType]; if (initialized) { rv = client->GetUsageForOrigin(aPersistenceType, mGroup, mOrigin, this); } else { rv = client->InitOrigin(aPersistenceType, mGroup, mOrigin, this); } NS_ENSURE_SUCCESS(rv, rv); } } return NS_OK; } NS_IMPL_ISUPPORTS_INHERITED1(AsyncUsageRunnable, nsRunnable, nsIQuotaRequest) NS_IMETHODIMP AsyncUsageRunnable::Run() { PROFILER_LABEL("Quota", "AsyncUsageRunnable::Run"); nsresult rv = RunInternal(); if (!NS_IsMainThread()) { if (NS_FAILED(rv)) { ResetUsage(); } if (NS_FAILED(NS_DispatchToMainThread(this, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch to main thread!"); } } return NS_OK; } NS_IMETHODIMP AsyncUsageRunnable::Cancel() { if (mCanceled.exchange(true)) { NS_WARNING("Canceled more than once?!"); return NS_ERROR_UNEXPECTED; } return NS_OK; } nsresult ResetOrClearRunnable::OnExclusiveAccessAcquired() { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); nsresult rv = quotaManager->IOThread()->Dispatch(this, NS_DISPATCH_NORMAL); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } // static void ResetOrClearRunnable::InvalidateOpenedStorages( nsTArray >& aStorages, void* aClosure) { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); nsTArray > storages; storages.SwapElements(aStorages); for (uint32_t index = 0; index < storages.Length(); index++) { storages[index]->Invalidate(); } } void ResetOrClearRunnable::DeleteFiles(QuotaManager* aQuotaManager, PersistenceType aPersistenceType) { AssertIsOnIOThread(); NS_ASSERTION(aQuotaManager, "Don't pass me null!"); nsresult rv; nsCOMPtr directory = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); NS_ENSURE_SUCCESS_VOID(rv); rv = directory->InitWithPath(aQuotaManager->GetStoragePath(aPersistenceType)); NS_ENSURE_SUCCESS_VOID(rv); rv = directory->Remove(true); if (rv != NS_ERROR_FILE_TARGET_DOES_NOT_EXIST && rv != NS_ERROR_FILE_NOT_FOUND && NS_FAILED(rv)) { // This should never fail if we've closed all storage connections // correctly... NS_ERROR("Failed to remove directory!"); } } NS_IMPL_ISUPPORTS_INHERITED0(ResetOrClearRunnable, nsRunnable) NS_IMETHODIMP ResetOrClearRunnable::Run() { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); switch (mCallbackState) { case Pending: { NS_NOTREACHED("Should never get here without being dispatched!"); return NS_ERROR_UNEXPECTED; } case OpenAllowed: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); AdvanceState(); // Now we have to wait until the thread pool is done with all of the // storages we care about. nsresult rv = quotaManager->AcquireExclusiveAccess(NullCString(), this, InvalidateOpenedStorages, nullptr); NS_ENSURE_SUCCESS(rv, rv); return NS_OK; } case IO: { AssertIsOnIOThread(); AdvanceState(); if (mClear) { DeleteFiles(quotaManager, PERSISTENCE_TYPE_PERSISTENT); DeleteFiles(quotaManager, PERSISTENCE_TYPE_TEMPORARY); } quotaManager->RemoveQuota(); quotaManager->ResetOrClearCompleted(); // Now dispatch back to the main thread. if (NS_FAILED(NS_DispatchToMainThread(this, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch to main thread!"); return NS_ERROR_FAILURE; } return NS_OK; } case Complete: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); // Tell the QuotaManager that we're done. quotaManager->AllowNextSynchronizedOp(OriginOrPatternString::FromNull(), Nullable(), EmptyCString()); return NS_OK; } default: NS_ERROR("Unknown state value!"); return NS_ERROR_UNEXPECTED; } NS_NOTREACHED("Should never get here!"); return NS_ERROR_UNEXPECTED; } NS_IMETHODIMP FinalizeOriginEvictionRunnable::Run() { QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); nsresult rv; switch (mCallbackState) { case Pending: { NS_NOTREACHED("Should never get here without being dispatched!"); return NS_ERROR_UNEXPECTED; } case OpenAllowed: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); AdvanceState(); rv = quotaManager->IOThread()->Dispatch(this, NS_DISPATCH_NORMAL); if (NS_FAILED(rv)) { NS_WARNING("Failed to dispatch to the IO thread!"); } return NS_OK; } case IO: { AssertIsOnIOThread(); AdvanceState(); for (uint32_t index = 0; index < mOrigins.Length(); index++) { quotaManager->OriginClearCompleted( PERSISTENCE_TYPE_TEMPORARY, OriginOrPatternString::FromOrigin(mOrigins[index])); } if (NS_FAILED(NS_DispatchToMainThread(this, NS_DISPATCH_NORMAL))) { NS_WARNING("Failed to dispatch to main thread!"); return NS_ERROR_FAILURE; } return NS_OK; } case Complete: { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); for (uint32_t index = 0; index < mOrigins.Length(); index++) { quotaManager->AllowNextSynchronizedOp( OriginOrPatternString::FromOrigin(mOrigins[index]), Nullable(PERSISTENCE_TYPE_TEMPORARY), EmptyCString()); } return NS_OK; } default: NS_ERROR("Unknown state value!"); return NS_ERROR_UNEXPECTED; } NS_NOTREACHED("Should never get here!"); return NS_ERROR_UNEXPECTED; } nsresult FinalizeOriginEvictionRunnable::Dispatch() { NS_ASSERTION(!NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(mCallbackState == Pending, "Huh?"); mCallbackState = OpenAllowed; return NS_DispatchToMainThread(this); } nsresult FinalizeOriginEvictionRunnable::RunImmediately() { AssertIsOnIOThread(); NS_ASSERTION(mCallbackState == Pending, "Huh?"); mCallbackState = IO; return this->Run(); } NS_IMETHODIMP WaitForTransactionsToFinishRunnable::Run() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); NS_ASSERTION(mOp, "Null op!"); NS_ASSERTION(mOp->mListener, "Nothing to run!"); NS_ASSERTION(mCountdown, "Wrong countdown!"); if (--mCountdown) { return NS_OK; } // Don't hold the listener alive longer than necessary. nsRefPtr listener; listener.swap(mOp->mListener); mOp = nullptr; nsresult rv = listener->OnExclusiveAccessAcquired(); NS_ENSURE_SUCCESS(rv, rv); // The listener is responsible for calling // QuotaManager::AllowNextSynchronizedOp. return NS_OK; } NS_IMETHODIMP WaitForLockedFilesToFinishRunnable::Run() { NS_ASSERTION(NS_IsMainThread(), "Wrong thread!"); mBusy = false; return NS_OK; } NS_IMETHODIMP SaveOriginAccessTimeRunnable::Run() { AssertIsOnIOThread(); QuotaManager* quotaManager = QuotaManager::Get(); NS_ASSERTION(quotaManager, "This should never fail!"); nsCOMPtr directory; nsresult rv = quotaManager->GetDirectoryForOrigin(PERSISTENCE_TYPE_TEMPORARY, mOrigin, getter_AddRefs(directory)); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr stream; rv = GetDirectoryMetadataStream(directory, true, getter_AddRefs(stream)); NS_ENSURE_SUCCESS(rv, rv); // The origin directory may not exist anymore. if (stream) { rv = stream->Write64(mTimestamp); NS_ENSURE_SUCCESS(rv, rv); } return NS_OK; }