/* * Copyright (C) 2008, 2009 Apple Inc. All Rights Reserved. * Copyright (C) 2009 Torch Mobile, Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "Geolocation.h" #include "Chrome.h" #include "CurrentTime.h" #include "Document.h" #include "DOMWindow.h" #include "EventNames.h" #include "Frame.h" #include "Page.h" #include "SQLiteDatabase.h" #include "SQLiteStatement.h" #include "SQLiteTransaction.h" #include "SQLValue.h" namespace WebCore { static const char* permissionDeniedErrorMessage = "User denied Geolocation"; Geolocation::GeoNotifier::GeoNotifier(Geolocation* geolocation, PassRefPtr successCallback, PassRefPtr errorCallback, PassRefPtr options) : m_geolocation(geolocation) , m_successCallback(successCallback) , m_errorCallback(errorCallback) , m_options(options) , m_timer(this, &Geolocation::GeoNotifier::timerFired) , m_fatalError(0) { ASSERT(m_geolocation); ASSERT(m_successCallback); // If no options were supplied from JS, we should have created a default set // of options in JSGeolocationCustom.cpp. ASSERT(m_options); } void Geolocation::GeoNotifier::setFatalError(PassRefPtr error) { m_fatalError = error; m_timer.startOneShot(0); } void Geolocation::GeoNotifier::setCachedPosition(Geoposition* cachedPosition) { // We do not take owenership from the caller, but add our own ref count. m_cachedPosition = cachedPosition; m_timer.startOneShot(0); } void Geolocation::GeoNotifier::startTimerIfNeeded() { if (m_options->hasTimeout()) m_timer.startOneShot(m_options->timeout() / 1000.0); } void Geolocation::GeoNotifier::timerFired(Timer*) { m_timer.stop(); if (m_fatalError) { if (m_errorCallback) m_errorCallback->handleEvent(m_fatalError.get()); // This will cause this notifier to be deleted. m_geolocation->fatalErrorOccurred(this); return; } if (m_cachedPosition) { m_successCallback->handleEvent(m_cachedPosition.get()); m_geolocation->requestReturnedCachedPosition(this); return; } if (m_errorCallback) { RefPtr error = PositionError::create(PositionError::TIMEOUT, "Timed out"); m_errorCallback->handleEvent(error.get()); } m_geolocation->requestTimedOut(this); } static const char* databaseName = "/CachedPosition.db"; class CachedPositionManager { public: CachedPositionManager() { if (s_instances++ == 0) { s_cachedPosition = new RefPtr; *s_cachedPosition = readFromDB(); } } ~CachedPositionManager() { if (--s_instances == 0) { if (*s_cachedPosition) writeToDB(s_cachedPosition->get()); delete s_cachedPosition; } } void setCachedPosition(Geoposition* cachedPosition) { // We do not take owenership from the caller, but add our own ref count. *s_cachedPosition = cachedPosition; } Geoposition* cachedPosition() { return s_cachedPosition->get(); } static void setDatabasePath(String databasePath) { s_databaseFile = databasePath + databaseName; // If we don't have have a cached position, attempt to read one from the // DB at the new path. if (s_instances && *s_cachedPosition == 0) *s_cachedPosition = readFromDB(); } private: static PassRefPtr readFromDB() { SQLiteDatabase database; if (!database.open(s_databaseFile)) return 0; // Create the table here, such that even if we've just created the // DB, the commands below should succeed. if (!database.executeCommand("CREATE TABLE IF NOT EXISTS CachedPosition (" "latitude REAL NOT NULL, " "longitude REAL NOT NULL, " "altitude REAL, " "accuracy REAL NOT NULL, " "altitudeAccuracy REAL, " "heading REAL, " "speed REAL, " "timestamp INTEGER NOT NULL)")) return 0; SQLiteStatement statement(database, "SELECT * FROM CachedPosition"); if (statement.prepare() != SQLResultOk) return 0; if (statement.step() != SQLResultRow) return 0; bool providesAltitude = statement.getColumnValue(2).type() != SQLValue::NullValue; bool providesAltitudeAccuracy = statement.getColumnValue(4).type() != SQLValue::NullValue; bool providesHeading = statement.getColumnValue(5).type() != SQLValue::NullValue; bool providesSpeed = statement.getColumnValue(6).type() != SQLValue::NullValue; RefPtr coordinates = Coordinates::create(statement.getColumnDouble(0), // latitude statement.getColumnDouble(1), // longitude providesAltitude, statement.getColumnDouble(2), // altitude statement.getColumnDouble(3), // accuracy providesAltitudeAccuracy, statement.getColumnDouble(4), // altitudeAccuracy providesHeading, statement.getColumnDouble(5), // heading providesSpeed, statement.getColumnDouble(6)); // speed return Geoposition::create(coordinates.release(), statement.getColumnInt64(7)); // timestamp } static void writeToDB(Geoposition* position) { ASSERT(position); SQLiteDatabase database; if (!database.open(s_databaseFile)) return; SQLiteTransaction transaction(database); if (!database.executeCommand("DELETE FROM CachedPosition")) return; SQLiteStatement statement(database, "INSERT INTO CachedPosition (" "latitude, " "longitude, " "altitude, " "accuracy, " "altitudeAccuracy, " "heading, " "speed, " "timestamp) " "VALUES (?, ?, ?, ?, ?, ?, ?, ?)"); if (statement.prepare() != SQLResultOk) return; statement.bindDouble(1, position->coords()->latitude()); statement.bindDouble(2, position->coords()->longitude()); if (position->coords()->canProvideAltitude()) statement.bindDouble(3, position->coords()->altitude()); else statement.bindNull(3); statement.bindDouble(4, position->coords()->accuracy()); if (position->coords()->canProvideAltitudeAccuracy()) statement.bindDouble(5, position->coords()->altitudeAccuracy()); else statement.bindNull(5); if (position->coords()->canProvideHeading()) statement.bindDouble(6, position->coords()->heading()); else statement.bindNull(6); if (position->coords()->canProvideSpeed()) statement.bindDouble(7, position->coords()->speed()); else statement.bindNull(7); statement.bindInt64(8, position->timestamp()); if (!statement.executeCommand()) return; transaction.commit(); } static int s_instances; static RefPtr* s_cachedPosition; static String s_databaseFile; }; int CachedPositionManager::s_instances = 0; RefPtr* CachedPositionManager::s_cachedPosition; String CachedPositionManager::s_databaseFile; Geolocation::Geolocation(Frame* frame) : m_frame(frame) , m_service(GeolocationService::create(this)) , m_allowGeolocation(Unknown) , m_shouldClearCache(false) , m_cachedPositionManager(new CachedPositionManager) { if (!m_frame) return; ASSERT(m_frame->document()); m_frame->document()->setUsingGeolocation(true); if (m_frame->domWindow()) m_frame->domWindow()->addEventListener(eventNames().unloadEvent, this, false); } Geolocation::~Geolocation() { if (m_frame && m_frame->domWindow()) m_frame->domWindow()->removeEventListener(eventNames().unloadEvent, this, false); } void Geolocation::disconnectFrame() { m_service->stopUpdating(); if (m_frame && m_frame->document()) m_frame->document()->setUsingGeolocation(false); m_frame = 0; delete m_cachedPositionManager; } void Geolocation::getCurrentPosition(PassRefPtr successCallback, PassRefPtr errorCallback, PassRefPtr options) { RefPtr notifier = makeRequest(successCallback, errorCallback, options); ASSERT(notifier); m_oneShots.add(notifier); } int Geolocation::watchPosition(PassRefPtr successCallback, PassRefPtr errorCallback, PassRefPtr options) { RefPtr notifier = makeRequest(successCallback, errorCallback, options); ASSERT(notifier); static int sIdentifier = 0; m_watchers.set(++sIdentifier, notifier); return sIdentifier; } PassRefPtr Geolocation::makeRequest(PassRefPtr successCallback, PassRefPtr errorCallback, PassRefPtr options) { RefPtr notifier = GeoNotifier::create(this, successCallback, errorCallback, options); // Check whether permissions have already been denied. Note that if this is the case, // the permission state can not change again in the lifetime of this page. if (isDenied()) { notifier->setFatalError(PositionError::create(PositionError::PERMISSION_DENIED, permissionDeniedErrorMessage)); } else { if (haveSuitableCachedPosition(notifier->m_options.get())) { ASSERT(m_cachedPositionManager->cachedPosition()); if (isAllowed()) notifier->setCachedPosition(m_cachedPositionManager->cachedPosition()); else { m_requestsAwaitingCachedPosition.add(notifier); requestPermission(); } } else { if (m_service->startUpdating(notifier->m_options.get())) notifier->startTimerIfNeeded(); else notifier->setFatalError(PositionError::create(PositionError::UNKNOWN_ERROR, "Failed to start Geolocation service")); } } return notifier.release(); } void Geolocation::fatalErrorOccurred(Geolocation::GeoNotifier* notifier) { // This request has failed fatally. Remove it from our lists. m_oneShots.remove(notifier); for (GeoNotifierMap::iterator iter = m_watchers.begin(); iter != m_watchers.end(); ++iter) { if (iter->second == notifier) { m_watchers.remove(iter); break; } } if (!hasListeners()) m_service->stopUpdating(); } void Geolocation::requestTimedOut(GeoNotifier* notifier) { // If this is a one-shot request, stop it. m_oneShots.remove(notifier); if (!hasListeners()) m_service->stopUpdating(); } void Geolocation::requestReturnedCachedPosition(GeoNotifier* notifier) { // If this is a one-shot request, stop it. if (m_oneShots.contains(notifier)) { m_oneShots.remove(notifier); if (!hasListeners()) m_service->stopUpdating(); return; } // Otherwise, start the service to get updates. if (m_service->startUpdating(notifier->m_options.get())) notifier->startTimerIfNeeded(); else notifier->setFatalError(PositionError::create(PositionError::UNKNOWN_ERROR, "Failed to start Geolocation service")); } bool Geolocation::haveSuitableCachedPosition(PositionOptions* options) { if (m_cachedPositionManager->cachedPosition() == 0) return false; if (!options->hasMaximumAge()) return true; if (options->maximumAge() == 0) return false; DOMTimeStamp currentTimeMillis = currentTime() * 1000.0; return m_cachedPositionManager->cachedPosition()->timestamp() > currentTimeMillis - options->maximumAge(); } void Geolocation::clearWatch(int watchId) { m_watchers.remove(watchId); if (!hasListeners()) m_service->stopUpdating(); } void Geolocation::suspend() { if (hasListeners()) m_service->suspend(); } void Geolocation::resume() { if (hasListeners()) m_service->resume(); } void Geolocation::setIsAllowed(bool allowed) { // This may be due to either a new position from the service, or a cached // position. m_allowGeolocation = allowed ? Yes : No; if (!isAllowed()) { RefPtr error = PositionError::create(PositionError::PERMISSION_DENIED, permissionDeniedErrorMessage); error->setIsFatal(true); handleError(error.get()); return; } // If the service has a last position, use it to call back for all requests. // If any of the requests are waiting for permission for a cached position, // the position from the service will be at least as fresh. if (m_service->lastPosition()) makeSuccessCallbacks(); else { GeoNotifierSet::const_iterator end = m_requestsAwaitingCachedPosition.end(); for (GeoNotifierSet::const_iterator iter = m_requestsAwaitingCachedPosition.begin(); iter != end; ++iter) (*iter)->setCachedPosition(m_cachedPositionManager->cachedPosition()); } m_requestsAwaitingCachedPosition.clear(); } void Geolocation::sendError(Vector >& notifiers, PositionError* error) { Vector >::const_iterator end = notifiers.end(); for (Vector >::const_iterator it = notifiers.begin(); it != end; ++it) { RefPtr notifier = *it; if (notifier->m_errorCallback) notifier->m_errorCallback->handleEvent(error); } } void Geolocation::sendPosition(Vector >& notifiers, Geoposition* position) { Vector >::const_iterator end = notifiers.end(); for (Vector >::const_iterator it = notifiers.begin(); it != end; ++it) { RefPtr notifier = *it; ASSERT(notifier->m_successCallback); notifier->m_timer.stop(); notifier->m_successCallback->handleEvent(position); } } void Geolocation::stopTimer(Vector >& notifiers) { Vector >::const_iterator end = notifiers.end(); for (Vector >::const_iterator it = notifiers.begin(); it != end; ++it) { RefPtr notifier = *it; notifier->m_timer.stop(); } } void Geolocation::stopTimersForOneShots() { Vector > copy; copyToVector(m_oneShots, copy); stopTimer(copy); } void Geolocation::stopTimersForWatchers() { Vector > copy; copyValuesToVector(m_watchers, copy); stopTimer(copy); } void Geolocation::stopTimers() { stopTimersForOneShots(); stopTimersForWatchers(); } void Geolocation::handleError(PositionError* error) { ASSERT(error); Vector > oneShotsCopy; copyToVector(m_oneShots, oneShotsCopy); Vector > watchersCopy; copyValuesToVector(m_watchers, watchersCopy); // Clear the lists before we make the callbacks, to avoid clearing notifiers // added by calls to Geolocation methods from the callbacks. m_oneShots.clear(); if (error->isFatal()) m_watchers.clear(); sendError(oneShotsCopy, error); sendError(watchersCopy, error); if (!hasListeners()) m_service->stopUpdating(); } void Geolocation::requestPermission() { if (m_allowGeolocation > Unknown) return; if (!m_frame) return; Page* page = m_frame->page(); if (!page) return; m_allowGeolocation = InProgress; // Ask the chrome: it maintains the geolocation challenge policy itself. page->chrome()->requestGeolocationPermissionForFrame(m_frame, this); } void Geolocation::geolocationServicePositionChanged(GeolocationService*) { ASSERT(m_service->lastPosition()); m_cachedPositionManager->setCachedPosition(m_service->lastPosition()); // Stop all currently running timers. stopTimers(); if (!isAllowed()) { // requestPermission() will ask the chrome for permission. This may be // implemented synchronously or asynchronously. In both cases, // makeSucessCallbacks() will be called if permission is granted, so // there's nothing more to do here. requestPermission(); return; } makeSuccessCallbacks(); } void Geolocation::makeSuccessCallbacks() { ASSERT(m_service->lastPosition()); ASSERT(isAllowed()); Vector > oneShotsCopy; copyToVector(m_oneShots, oneShotsCopy); Vector > watchersCopy; copyValuesToVector(m_watchers, watchersCopy); // Clear the lists before we make the callbacks, to avoid clearing notifiers // added by calls to Geolocation methods from the callbacks. m_oneShots.clear(); sendPosition(oneShotsCopy, m_service->lastPosition()); sendPosition(watchersCopy, m_service->lastPosition()); if (!hasListeners()) m_service->stopUpdating(); } void Geolocation::geolocationServiceErrorOccurred(GeolocationService* service) { ASSERT(service->lastError()); handleError(service->lastError()); } void Geolocation::handleEvent(Event* event, bool) { ASSERT_UNUSED(event, event->type() == eventTypes().unloadEvent); // Cancel any ongoing requests on page unload. This is required to release // references to JS callbacks in the page, to allow the frame to be cleaned up // by WebKit. m_oneShots.clear(); m_watchers.clear(); } void Geolocation::setDatabasePath(String databasePath) { CachedPositionManager::setDatabasePath(databasePath); } } // namespace WebCore