/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: sw=2 ts=2 et lcs=trail\:.,tab\:>~ : * 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 "mozilla/Attributes.h" #include "mozilla/DebugOnly.h" #include "mozilla/SpinEventLoopUntil.h" #include "mozStorageService.h" #include "mozStorageConnection.h" #include "nsComponentManagerUtils.h" #include "nsEmbedCID.h" #include "nsExceptionHandler.h" #include "nsThreadUtils.h" #include "mozStoragePrivateHelpers.h" #include "nsIObserverService.h" #include "nsIPropertyBag2.h" #include "mozilla/Services.h" #include "mozilla/LateWriteChecks.h" #include "mozIStorageCompletionCallback.h" #include "mozIStoragePendingStatement.h" #include "mozilla/StaticPrefs_storage.h" #include "mozilla/intl/Collator.h" #include "mozilla/intl/LocaleService.h" #include "sqlite3.h" #include "mozilla/AutoSQLiteLifetime.h" #ifdef XP_WIN // "windows.h" was included and it can #define lots of things we care about... # undef CompareString #endif using mozilla::intl::Collator; namespace mozilla { namespace storage { //////////////////////////////////////////////////////////////////////////////// //// Memory Reporting #ifdef MOZ_DMD mozilla::Atomic gSqliteMemoryUsed; #endif static int64_t StorageSQLiteDistinguishedAmount() { return ::sqlite3_memory_used(); } /** * Passes a single SQLite memory statistic to a memory reporter callback. * * @param aHandleReport * The callback. * @param aData * The data for the callback. * @param aConn * The SQLite connection. * @param aPathHead * Head of the path for the memory report. * @param aKind * The memory report statistic kind, one of "stmt", "cache" or * "schema". * @param aDesc * The memory report description. * @param aOption * The SQLite constant for getting the measurement. * @param aTotal * The accumulator for the measurement. */ static void ReportConn(nsIHandleReportCallback* aHandleReport, nsISupports* aData, Connection* aConn, const nsACString& aPathHead, const nsACString& aKind, const nsACString& aDesc, int32_t aOption, size_t* aTotal) { nsCString path(aPathHead); path.Append(aKind); path.AppendLiteral("-used"); int32_t val = aConn->getSqliteRuntimeStatus(aOption); aHandleReport->Callback(""_ns, path, nsIMemoryReporter::KIND_HEAP, nsIMemoryReporter::UNITS_BYTES, int64_t(val), aDesc, aData); *aTotal += val; } // Warning: To get a Connection's measurements requires holding its lock. // There may be a delay getting the lock if another thread is accessing the // Connection. This isn't very nice if CollectReports is called from the main // thread! But at the time of writing this function is only called when // about:memory is loaded (not, for example, when telemetry pings occur) and // any delays in that case aren't so bad. NS_IMETHODIMP Service::CollectReports(nsIHandleReportCallback* aHandleReport, nsISupports* aData, bool aAnonymize) { size_t totalConnSize = 0; { nsTArray> connections; getConnections(connections); for (uint32_t i = 0; i < connections.Length(); i++) { RefPtr& conn = connections[i]; // Someone may have closed the Connection, in which case we skip it. // Note that we have consumers of the synchronous API that are off the // main-thread, like the DOM Cache and IndexedDB, and as such we must be // sure that we have a connection. MutexAutoLock lockedAsyncScope(conn->sharedAsyncExecutionMutex); if (!conn->connectionReady()) { continue; } nsCString pathHead("explicit/storage/sqlite/"); // This filename isn't privacy-sensitive, and so is never anonymized. pathHead.Append(conn->getFilename()); pathHead.Append('/'); SQLiteMutexAutoLock lockedScope(conn->sharedDBMutex); constexpr auto stmtDesc = "Memory (approximate) used by all prepared statements used by " "connections to this database."_ns; ReportConn(aHandleReport, aData, conn, pathHead, "stmt"_ns, stmtDesc, SQLITE_DBSTATUS_STMT_USED, &totalConnSize); constexpr auto cacheDesc = "Memory (approximate) used by all pager caches used by connections " "to this database."_ns; ReportConn(aHandleReport, aData, conn, pathHead, "cache"_ns, cacheDesc, SQLITE_DBSTATUS_CACHE_USED_SHARED, &totalConnSize); constexpr auto schemaDesc = "Memory (approximate) used to store the schema for all databases " "associated with connections to this database."_ns; ReportConn(aHandleReport, aData, conn, pathHead, "schema"_ns, schemaDesc, SQLITE_DBSTATUS_SCHEMA_USED, &totalConnSize); } #ifdef MOZ_DMD if (::sqlite3_memory_used() != int64_t(gSqliteMemoryUsed)) { NS_WARNING( "memory consumption reported by SQLite doesn't match " "our measurements"); } #endif } int64_t other = ::sqlite3_memory_used() - totalConnSize; MOZ_COLLECT_REPORT("explicit/storage/sqlite/other", KIND_HEAP, UNITS_BYTES, other, "All unclassified sqlite memory."); return NS_OK; } //////////////////////////////////////////////////////////////////////////////// //// Service NS_IMPL_ISUPPORTS(Service, mozIStorageService, nsIObserver, nsIMemoryReporter) Service* Service::gService = nullptr; already_AddRefed Service::getSingleton() { if (gService) { return do_AddRef(gService); } // The first reference to the storage service must be obtained on the // main thread. NS_ENSURE_TRUE(NS_IsMainThread(), nullptr); RefPtr service = new Service(); if (NS_SUCCEEDED(service->initialize())) { // Note: This is cleared in the Service destructor. gService = service.get(); return service.forget(); } return nullptr; } int Service::AutoVFSRegistration::Init(UniquePtr aVFS) { MOZ_ASSERT(!mVFS); if (aVFS) { mVFS = std::move(aVFS); return sqlite3_vfs_register(mVFS.get(), 0); } NS_WARNING("Failed to register VFS"); return SQLITE_OK; } Service::AutoVFSRegistration::~AutoVFSRegistration() { if (mVFS) { int rc = sqlite3_vfs_unregister(mVFS.get()); if (rc != SQLITE_OK) { NS_WARNING("Failed to unregister sqlite vfs wrapper."); } } } Service::Service() : mMutex("Service::mMutex"), mRegistrationMutex("Service::mRegistrationMutex"), mConnections() {} Service::~Service() { mozilla::UnregisterWeakMemoryReporter(this); mozilla::UnregisterStorageSQLiteDistinguishedAmount(); gService = nullptr; } void Service::registerConnection(Connection* aConnection) { mRegistrationMutex.AssertNotCurrentThreadOwns(); MutexAutoLock mutex(mRegistrationMutex); (void)mConnections.AppendElement(aConnection); } void Service::unregisterConnection(Connection* aConnection) { // If this is the last Connection it might be the only thing keeping Service // alive. So ensure that Service is destroyed only after the Connection is // cleanly unregistered and destroyed. RefPtr kungFuDeathGrip(this); RefPtr forgettingRef; { mRegistrationMutex.AssertNotCurrentThreadOwns(); MutexAutoLock mutex(mRegistrationMutex); for (uint32_t i = 0; i < mConnections.Length(); ++i) { if (mConnections[i] == aConnection) { // Because dropping the final reference can potentially result in // spinning a nested event loop if the connection was not properly // shutdown, we want to do that outside this loop so that we can finish // mutating the array and drop our mutex. forgettingRef = std::move(mConnections[i]); mConnections.RemoveElementAt(i); break; } } } MOZ_ASSERT(forgettingRef, "Attempt to unregister unknown storage connection!"); // Do not proxy the release anywhere, just let this reference drop here. (We // previously did proxy the release, but that was because we invoked Close() // in the destructor and Close() likes to complain if it's not invoked on the // opener event target, so it was essential that the last reference be dropped // on the opener event target. We now enqueue Close() inside our caller, // Release(), so it doesn't actually matter what thread our reference drops // on.) } void Service::getConnections( /* inout */ nsTArray>& aConnections) { mRegistrationMutex.AssertNotCurrentThreadOwns(); MutexAutoLock mutex(mRegistrationMutex); aConnections.Clear(); aConnections.AppendElements(mConnections); } void Service::minimizeMemory() { nsTArray> connections; getConnections(connections); for (uint32_t i = 0; i < connections.Length(); i++) { RefPtr conn = connections[i]; // For non-main-thread owning/opening threads, we may be racing against them // closing their connection or their thread. That's okay, see below. if (!conn->connectionReady()) { continue; } constexpr auto shrinkPragma = "PRAGMA shrink_memory"_ns; if (!conn->operationSupported(Connection::SYNCHRONOUS)) { // This is a mozIStorageAsyncConnection, it can only be used on the main // thread, so we can do a straight API call. nsCOMPtr ps; DebugOnly rv = conn->ExecuteSimpleSQLAsync( shrinkPragma, nullptr, getter_AddRefs(ps)); MOZ_ASSERT(NS_SUCCEEDED(rv), "Should have purged sqlite caches"); } else if (IsOnCurrentSerialEventTarget(conn->eventTargetOpenedOn)) { if (conn->isAsyncExecutionThreadAvailable()) { nsCOMPtr ps; DebugOnly rv = conn->ExecuteSimpleSQLAsync( shrinkPragma, nullptr, getter_AddRefs(ps)); MOZ_ASSERT(NS_SUCCEEDED(rv), "Should have purged sqlite caches"); } else { conn->ExecuteSimpleSQL(shrinkPragma); } } else { // We are on the wrong event target, the query should be executed on the // opener event target, so we must dispatch to it. // It's possible the connection is already closed or will be closed by the // time our runnable runs. ExecuteSimpleSQL will safely return with a // failure in that case. If the event target is shutting down or shut // down, the dispatch will fail and that's okay. nsCOMPtr event = NewRunnableMethod( "Connection::ExecuteSimpleSQL", conn, &Connection::ExecuteSimpleSQL, shrinkPragma); Unused << conn->eventTargetOpenedOn->Dispatch(event, NS_DISPATCH_NORMAL); } } } UniquePtr ConstructBaseVFS(bool); const char* GetBaseVFSName(bool); UniquePtr ConstructQuotaVFS(const char* aBaseVFSName); const char* GetQuotaVFSName(); UniquePtr ConstructObfuscatingVFS(const char* aBaseVFSName); UniquePtr ConstructReadOnlyNoLockVFS(); static const char* sObserverTopics[] = {"memory-pressure", "xpcom-shutdown-threads"}; nsresult Service::initialize() { MOZ_ASSERT(NS_IsMainThread(), "Must be initialized on the main thread"); int rc = AutoSQLiteLifetime::getInitResult(); if (rc != SQLITE_OK) { return convertResultCode(rc); } /** * The virtual file system hierarchy * * obfsvfs * | * | * | * quotavfs * / \ * / \ * / \ * / \ * / \ * base-vfs-excl base-vfs * / \ / \ * / \ / \ * / \ / \ * unix-excl win32 unix win32 */ rc = mBaseSqliteVFS.Init(ConstructBaseVFS(false)); if (rc != SQLITE_OK) { return convertResultCode(rc); } rc = mBaseExclSqliteVFS.Init(ConstructBaseVFS(true)); if (rc != SQLITE_OK) { return convertResultCode(rc); } rc = mQuotaSqliteVFS.Init(ConstructQuotaVFS( GetBaseVFSName(StaticPrefs::storage_sqlite_exclusiveLock_enabled()))); if (rc != SQLITE_OK) { return convertResultCode(rc); } rc = mObfuscatingSqliteVFS.Init(ConstructObfuscatingVFS(GetQuotaVFSName())); if (rc != SQLITE_OK) { return convertResultCode(rc); } rc = mReadOnlyNoLockSqliteVFS.Init(ConstructReadOnlyNoLockVFS()); if (rc != SQLITE_OK) { return convertResultCode(rc); } nsCOMPtr os = mozilla::services::GetObserverService(); NS_ENSURE_TRUE(os, NS_ERROR_FAILURE); for (size_t i = 0; i < ArrayLength(sObserverTopics); ++i) { nsresult rv = os->AddObserver(this, sObserverTopics[i], false); if (NS_WARN_IF(NS_FAILED(rv))) { return rv; } } mozilla::RegisterWeakMemoryReporter(this); mozilla::RegisterStorageSQLiteDistinguishedAmount( StorageSQLiteDistinguishedAmount); return NS_OK; } int Service::localeCompareStrings(const nsAString& aStr1, const nsAString& aStr2, Collator::Sensitivity aSensitivity) { // The mozilla::intl::Collator is not thread safe, since the Collator::Options // can be changed. MutexAutoLock mutex(mMutex); Collator* collator = getCollator(); if (!collator) { NS_ERROR("Storage service has no collation"); return 0; } if (aSensitivity != mLastSensitivity) { Collator::Options options{}; options.sensitivity = aSensitivity; auto result = mCollator->SetOptions(options); if (result.isErr()) { NS_WARNING("Could not configure the mozilla::intl::Collation."); return 0; } mLastSensitivity = aSensitivity; } return collator->CompareStrings(aStr1, aStr2); } Collator* Service::getCollator() { mMutex.AssertCurrentThreadOwns(); if (mCollator) { return mCollator.get(); } auto result = mozilla::intl::LocaleService::TryCreateComponent(); if (result.isErr()) { NS_WARNING("Could not create mozilla::intl::Collation."); return nullptr; } mCollator = result.unwrap(); // Sort in a case-insensitive way, where "base" letters are considered // equal, e.g: a = á, a = A, a ≠ b. Collator::Options options{}; options.sensitivity = Collator::Sensitivity::Base; auto optResult = mCollator->SetOptions(options); if (optResult.isErr()) { NS_WARNING("Could not configure the mozilla::intl::Collation."); mCollator = nullptr; return nullptr; } return mCollator.get(); } //////////////////////////////////////////////////////////////////////////////// //// mozIStorageService NS_IMETHODIMP Service::OpenSpecialDatabase(const nsACString& aStorageKey, const nsACString& aName, uint32_t aConnectionFlags, mozIStorageConnection** _connection) { if (!aStorageKey.Equals(kMozStorageMemoryStorageKey)) { return NS_ERROR_INVALID_ARG; } const bool interruptible = aConnectionFlags & mozIStorageService::CONNECTION_INTERRUPTIBLE; int flags = SQLITE_OPEN_READWRITE; if (!aName.IsEmpty()) { flags |= SQLITE_OPEN_URI; } RefPtr msc = new Connection(this, flags, Connection::SYNCHRONOUS, interruptible); const nsresult rv = msc->initialize(aStorageKey, aName); NS_ENSURE_SUCCESS(rv, rv); msc.forget(_connection); return NS_OK; } namespace { class AsyncInitDatabase final : public Runnable { public: AsyncInitDatabase(Connection* aConnection, nsIFile* aStorageFile, int32_t aGrowthIncrement, mozIStorageCompletionCallback* aCallback) : Runnable("storage::AsyncInitDatabase"), mConnection(aConnection), mStorageFile(aStorageFile), mGrowthIncrement(aGrowthIncrement), mCallback(aCallback) { MOZ_ASSERT(NS_IsMainThread()); } NS_IMETHOD Run() override { MOZ_ASSERT(!NS_IsMainThread()); nsresult rv = mConnection->initializeOnAsyncThread(mStorageFile); if (NS_FAILED(rv)) { return DispatchResult(rv, nullptr); } if (mGrowthIncrement >= 0) { // Ignore errors. In the future, we might wish to log them. (void)mConnection->SetGrowthIncrement(mGrowthIncrement, ""_ns); } return DispatchResult( NS_OK, NS_ISUPPORTS_CAST(mozIStorageAsyncConnection*, mConnection)); } private: nsresult DispatchResult(nsresult aStatus, nsISupports* aValue) { RefPtr event = new CallbackComplete(aStatus, aValue, mCallback.forget()); return NS_DispatchToMainThread(event); } ~AsyncInitDatabase() { NS_ReleaseOnMainThread("AsyncInitDatabase::mStorageFile", mStorageFile.forget()); NS_ReleaseOnMainThread("AsyncInitDatabase::mConnection", mConnection.forget()); // Generally, the callback will be released by CallbackComplete. // However, if for some reason Run() is not executed, we still // need to ensure that it is released here. NS_ReleaseOnMainThread("AsyncInitDatabase::mCallback", mCallback.forget()); } RefPtr mConnection; nsCOMPtr mStorageFile; int32_t mGrowthIncrement; RefPtr mCallback; }; } // namespace NS_IMETHODIMP Service::OpenAsyncDatabase(nsIVariant* aDatabaseStore, uint32_t aOpenFlags, uint32_t /* aConnectionFlags */, mozIStorageCompletionCallback* aCallback) { if (!NS_IsMainThread()) { return NS_ERROR_NOT_SAME_THREAD; } NS_ENSURE_ARG(aDatabaseStore); NS_ENSURE_ARG(aCallback); const bool shared = aOpenFlags & mozIStorageService::OPEN_SHARED; const bool ignoreLockingMode = aOpenFlags & mozIStorageService::OPEN_IGNORE_LOCKING_MODE; // Specifying ignoreLockingMode will force use of the readOnly flag: const bool readOnly = ignoreLockingMode || (aOpenFlags & mozIStorageService::OPEN_READONLY); int flags = readOnly ? SQLITE_OPEN_READONLY : SQLITE_OPEN_READWRITE; nsCOMPtr storageFile; nsCOMPtr dbStore; nsresult rv = aDatabaseStore->GetAsISupports(getter_AddRefs(dbStore)); if (NS_SUCCEEDED(rv)) { // Generally, aDatabaseStore holds the database nsIFile. storageFile = do_QueryInterface(dbStore, &rv); if (NS_FAILED(rv)) { return NS_ERROR_INVALID_ARG; } nsCOMPtr cloned; rv = storageFile->Clone(getter_AddRefs(cloned)); MOZ_ASSERT(NS_SUCCEEDED(rv)); storageFile = std::move(cloned); if (!readOnly) { // Ensure that SQLITE_OPEN_CREATE is passed in for compatibility reasons. flags |= SQLITE_OPEN_CREATE; } // Apply the shared-cache option. flags |= shared ? SQLITE_OPEN_SHAREDCACHE : SQLITE_OPEN_PRIVATECACHE; } else { // Sometimes, however, it's a special database name. nsAutoCString keyString; rv = aDatabaseStore->GetAsACString(keyString); if (NS_FAILED(rv) || !keyString.Equals(kMozStorageMemoryStorageKey)) { return NS_ERROR_INVALID_ARG; } // Just fall through with nullptr storageFile, this will cause the storage // connection to use a memory DB. } // Create connection on this thread, but initialize it on its helper thread. RefPtr msc = new Connection(this, flags, Connection::ASYNCHRONOUS, /* interruptible */ true, ignoreLockingMode); nsCOMPtr target = msc->getAsyncExecutionTarget(); MOZ_ASSERT(target, "Cannot initialize a connection that has been closed already"); RefPtr asyncInit = new AsyncInitDatabase( msc, storageFile, /* growthIncrement */ -1, aCallback); return target->Dispatch(asyncInit, nsIEventTarget::DISPATCH_NORMAL); } NS_IMETHODIMP Service::OpenDatabase(nsIFile* aDatabaseFile, uint32_t aConnectionFlags, mozIStorageConnection** _connection) { NS_ENSURE_ARG(aDatabaseFile); const bool interruptible = aConnectionFlags & mozIStorageService::CONNECTION_INTERRUPTIBLE; // Always ensure that SQLITE_OPEN_CREATE is passed in for compatibility // reasons. const int flags = SQLITE_OPEN_READWRITE | SQLITE_OPEN_SHAREDCACHE | SQLITE_OPEN_CREATE; RefPtr msc = new Connection(this, flags, Connection::SYNCHRONOUS, interruptible); const nsresult rv = msc->initialize(aDatabaseFile); NS_ENSURE_SUCCESS(rv, rv); msc.forget(_connection); return NS_OK; } NS_IMETHODIMP Service::OpenUnsharedDatabase(nsIFile* aDatabaseFile, uint32_t aConnectionFlags, mozIStorageConnection** _connection) { NS_ENSURE_ARG(aDatabaseFile); const bool interruptible = aConnectionFlags & mozIStorageService::CONNECTION_INTERRUPTIBLE; // Always ensure that SQLITE_OPEN_CREATE is passed in for compatibility // reasons. const int flags = SQLITE_OPEN_READWRITE | SQLITE_OPEN_PRIVATECACHE | SQLITE_OPEN_CREATE; RefPtr msc = new Connection(this, flags, Connection::SYNCHRONOUS, interruptible); const nsresult rv = msc->initialize(aDatabaseFile); NS_ENSURE_SUCCESS(rv, rv); msc.forget(_connection); return NS_OK; } NS_IMETHODIMP Service::OpenDatabaseWithFileURL(nsIFileURL* aFileURL, const nsACString& aTelemetryFilename, uint32_t aConnectionFlags, mozIStorageConnection** _connection) { NS_ENSURE_ARG(aFileURL); const bool interruptible = aConnectionFlags & mozIStorageService::CONNECTION_INTERRUPTIBLE; // Always ensure that SQLITE_OPEN_CREATE is passed in for compatibility // reasons. const int flags = SQLITE_OPEN_READWRITE | SQLITE_OPEN_SHAREDCACHE | SQLITE_OPEN_CREATE | SQLITE_OPEN_URI; RefPtr msc = new Connection(this, flags, Connection::SYNCHRONOUS, interruptible); const nsresult rv = msc->initialize(aFileURL, aTelemetryFilename); NS_ENSURE_SUCCESS(rv, rv); msc.forget(_connection); return NS_OK; } NS_IMETHODIMP Service::BackupDatabaseFile(nsIFile* aDBFile, const nsAString& aBackupFileName, nsIFile* aBackupParentDirectory, nsIFile** backup) { nsresult rv; nsCOMPtr parentDir = aBackupParentDirectory; if (!parentDir) { // This argument is optional, and defaults to the same parent directory // as the current file. rv = aDBFile->GetParent(getter_AddRefs(parentDir)); NS_ENSURE_SUCCESS(rv, rv); } nsCOMPtr backupDB; rv = parentDir->Clone(getter_AddRefs(backupDB)); NS_ENSURE_SUCCESS(rv, rv); rv = backupDB->Append(aBackupFileName); NS_ENSURE_SUCCESS(rv, rv); rv = backupDB->CreateUnique(nsIFile::NORMAL_FILE_TYPE, 0600); NS_ENSURE_SUCCESS(rv, rv); nsAutoString fileName; rv = backupDB->GetLeafName(fileName); NS_ENSURE_SUCCESS(rv, rv); rv = backupDB->Remove(false); NS_ENSURE_SUCCESS(rv, rv); backupDB.forget(backup); return aDBFile->CopyTo(parentDir, fileName); } //////////////////////////////////////////////////////////////////////////////// //// nsIObserver NS_IMETHODIMP Service::Observe(nsISupports*, const char* aTopic, const char16_t*) { if (strcmp(aTopic, "memory-pressure") == 0) { minimizeMemory(); } else if (strcmp(aTopic, "xpcom-shutdown-threads") == 0) { // The Service is kept alive by our strong observer references and // references held by Connection instances. Since we're about to remove the // former and then wait for the latter ones to go away, it behooves us to // hold a strong reference to ourselves so our calls to getConnections() do // not happen on a deleted object. RefPtr kungFuDeathGrip = this; nsCOMPtr os = mozilla::services::GetObserverService(); for (size_t i = 0; i < ArrayLength(sObserverTopics); ++i) { (void)os->RemoveObserver(this, sObserverTopics[i]); } SpinEventLoopUntil("storage::Service::Observe(xpcom-shutdown-threads)"_ns, [&]() -> bool { // We must wait until all the closing connections are // closed. nsTArray> connections; getConnections(connections); for (auto& conn : connections) { if (conn->isClosing()) { return false; } } return true; }); #ifdef DEBUG nsTArray> connections; getConnections(connections); for (uint32_t i = 0, n = connections.Length(); i < n; i++) { if (!connections[i]->isClosed()) { // getFilename is only the leaf name for the database file, // so it shouldn't contain privacy-sensitive information. CrashReporter::AnnotateCrashReport( CrashReporter::Annotation::StorageConnectionNotClosed, connections[i]->getFilename()); printf_stderr("Storage connection not closed: %s", connections[i]->getFilename().get()); MOZ_CRASH(); } } #endif } return NS_OK; } } // namespace storage } // namespace mozilla