/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: sw=2 ts=2 sts=2 expandtab * 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 "StorageBaseStatementInternal.h" #include "nsProxyRelease.h" #include "mozStorageBindingParamsArray.h" #include "mozStorageStatementData.h" #include "mozStorageAsyncStatementExecution.h" namespace mozilla { namespace storage { //////////////////////////////////////////////////////////////////////////////// //// Local Classes /** * Used to finalize an asynchronous statement on the background thread. */ class AsyncStatementFinalizer : public Runnable { public: /** * Constructor for the event. * * @param aStatement * We need the AsyncStatement to be able to get at the sqlite3_stmt; * we only access/create it on the async thread. * @param aConnection * We need the connection to know what thread to release the statement * on. We release the statement on that thread since releasing the * statement might end up releasing the connection too. */ AsyncStatementFinalizer(StorageBaseStatementInternal* aStatement, Connection* aConnection) : Runnable("storage::AsyncStatementFinalizer"), mStatement(aStatement), mConnection(aConnection) {} NS_IMETHOD Run() override { if (mStatement->mAsyncStatement) { sqlite3_finalize(mStatement->mAsyncStatement); mStatement->mAsyncStatement = nullptr; } nsCOMPtr targetThread(mConnection->threadOpenedOn); NS_ProxyRelease("AsyncStatementFinalizer::mStatement", targetThread, mStatement.forget()); return NS_OK; } private: RefPtr mStatement; RefPtr mConnection; }; /** * Finalize a sqlite3_stmt on the background thread for a statement whose * destructor was invoked and the statement was non-null. */ class LastDitchSqliteStatementFinalizer : public Runnable { public: /** * Event constructor. * * @param aConnection * Used to keep the connection alive. If we failed to do this, it * is possible that the statement going out of scope invoking us * might have the last reference to the connection and so trigger * an attempt to close the connection which is doomed to fail * (because the asynchronous execution thread must exist which will * trigger the failure case). * @param aStatement * The sqlite3_stmt to finalize. This object takes ownership / * responsibility for the instance and all other references to it * should be forgotten. */ LastDitchSqliteStatementFinalizer(RefPtr& aConnection, sqlite3_stmt* aStatement) : Runnable("storage::LastDitchSqliteStatementFinalizer"), mConnection(aConnection), mAsyncStatement(aStatement) { MOZ_ASSERT(aConnection, "You must provide a Connection"); } NS_IMETHOD Run() override { (void)::sqlite3_finalize(mAsyncStatement); mAsyncStatement = nullptr; nsCOMPtr target(mConnection->threadOpenedOn); (void)::NS_ProxyRelease("LastDitchSqliteStatementFinalizer::mConnection", target, mConnection.forget()); return NS_OK; } private: RefPtr mConnection; sqlite3_stmt* mAsyncStatement; }; //////////////////////////////////////////////////////////////////////////////// //// StorageBaseStatementInternal StorageBaseStatementInternal::StorageBaseStatementInternal() : mNativeConnection(nullptr), mAsyncStatement(nullptr) {} void StorageBaseStatementInternal::asyncFinalize() { nsIEventTarget* target = mDBConnection->getAsyncExecutionTarget(); if (target) { // Attempt to finalize asynchronously nsCOMPtr event = new AsyncStatementFinalizer(this, mDBConnection); // Dispatch. Note that dispatching can fail, typically if // we have a race condition with asyncClose(). It's ok, // let asyncClose() win. (void)target->Dispatch(event, NS_DISPATCH_NORMAL); } // If we cannot get the background thread, // mozStorageConnection::AsyncClose() has already been called and // the statement either has been or will be cleaned up by // internalClose(). } void StorageBaseStatementInternal::destructorAsyncFinalize() { if (!mAsyncStatement) return; bool isOwningThread = false; (void)mDBConnection->threadOpenedOn->IsOnCurrentThread(&isOwningThread); if (isOwningThread) { // If we are the owning thread (currently that means we're also the // main thread), then we can get the async target and just dispatch // to it. nsIEventTarget* target = mDBConnection->getAsyncExecutionTarget(); if (target) { nsCOMPtr event = new LastDitchSqliteStatementFinalizer(mDBConnection, mAsyncStatement); (void)target->Dispatch(event, NS_DISPATCH_NORMAL); } } else { // If we're not the owning thread, assume we're the async thread, and // just run the statement. nsCOMPtr event = new LastDitchSqliteStatementFinalizer(mDBConnection, mAsyncStatement); (void)event->Run(); } // We might not be able to dispatch to the background thread, // presumably because it is being shutdown. Since said shutdown will // finalize the statement, we just need to clean-up around here. mAsyncStatement = nullptr; } NS_IMETHODIMP StorageBaseStatementInternal::NewBindingParamsArray( mozIStorageBindingParamsArray** _array) { nsCOMPtr array = new BindingParamsArray(this); NS_ENSURE_TRUE(array, NS_ERROR_OUT_OF_MEMORY); array.forget(_array); return NS_OK; } NS_IMETHODIMP StorageBaseStatementInternal::ExecuteAsync( mozIStorageStatementCallback* aCallback, mozIStoragePendingStatement** _stmt) { // We used to call Connection::ExecuteAsync but it takes a // mozIStorageBaseStatement signature because it is also a public API. Since // our 'this' has no static concept of mozIStorageBaseStatement and Connection // would just QI it back across to a StorageBaseStatementInternal and the // actual logic is very simple, we now roll our own. nsTArray stmts(1); StatementData data; nsresult rv = getAsynchronousStatementData(data); NS_ENSURE_SUCCESS(rv, rv); stmts.AppendElement(data); // Dispatch to the background return AsyncExecuteStatements::execute(std::move(stmts), mDBConnection, mNativeConnection, aCallback, _stmt); } template void EscapeStringForLIKEInternal(const T& aValue, const typename T::char_type aEscapeChar, T& aResult) { const typename T::char_type MATCH_ALL('%'); const typename T::char_type MATCH_ONE('_'); aResult.Truncate(0); for (uint32_t i = 0; i < aValue.Length(); i++) { if (aValue[i] == aEscapeChar || aValue[i] == MATCH_ALL || aValue[i] == MATCH_ONE) { aResult += aEscapeChar; } aResult += aValue[i]; } } NS_IMETHODIMP StorageBaseStatementInternal::EscapeStringForLIKE(const nsAString& aValue, const char16_t aEscapeChar, nsAString& _escapedString) { EscapeStringForLIKEInternal(aValue, aEscapeChar, _escapedString); return NS_OK; } NS_IMETHODIMP StorageBaseStatementInternal::EscapeUTF8StringForLIKE( const nsACString& aValue, const char aEscapeChar, nsACString& _escapedString) { EscapeStringForLIKEInternal(aValue, aEscapeChar, _escapedString); return NS_OK; } } // namespace storage } // namespace mozilla