// Load the .so static { System.loadLibrary("SDL"); // System.loadLibrary("SDL_image"); // System.loadLibrary("SDL_mixer"); // System.loadLibrary("SDL_ttf"); System.loadLibrary("main"); }
// Load the .so static { System.loadLibrary("SDL2"); System.loadLibrary("SDL2_image"); // System.loadLibrary("SDL2_mixer"); // System.loadLibrary("SDL2_net"); System.loadLibrary("SDL2_ttf"); System.loadLibrary("main"); }
public void onDestroy() { running = false; if (scanThread != null) scanThread.interrupt(); if (myWLocate != null) myWLocate.doPause(); sensorManager.unregisterListener( this, sensorManager.getDefaultSensor(Sensor.TYPE_ACCELEROMETER)); if (scanData.getmView() != null) { ((WindowManager) getSystemService(WINDOW_SERVICE)).removeView(scanData.getmView()); scanData.setmView(null); } try { if (wl != null) wl.release(); } catch (RuntimeException re) { } wl = null; try { scanThread.join(1000); } catch (InterruptedException ie) { } System.exit(0); }
@Override public void onSensorChanged(SensorEvent event) { Sensor sensor = event.sensor; if (sensor.getType() == Sensor.TYPE_STEP_COUNTER) { if (first) { first = false; System.out.println("error first"); // Toast.makeText(this, "sensor result", Toast.LENGTH_LONG).show(); count1 = Float.parseFloat(String.valueOf(event.values[0])); } if (activityRunning) { System.out.println("error later"); // Toast.makeText(this, "sensor value 1", Toast.LENGTH_LONG).show(); drawView.invalidate(); count.setText((Float.parseFloat(String.valueOf(event.values[0])) - count1) + ""); } } if (event.sensor == mAccelerometer) { System.arraycopy(event.values, 0, mLastAccelerometer, 0, event.values.length); mLastAccelerometerSet = true; } else if (event.sensor == mMagnetometer) { System.arraycopy(event.values, 0, mLastMagnetometer, 0, event.values.length); mLastMagnetometerSet = true; } if (mLastAccelerometerSet && mLastMagnetometerSet) { Toast.makeText(this, "I am here", Toast.LENGTH_LONG).show(); SensorManager.getRotationMatrix(mR, null, mLastAccelerometer, mLastMagnetometer); SensorManager.getOrientation(mR, mOrientation); float azimuthInRadians = mOrientation[0]; float azimuthInDegress = (float) (Math.toDegrees(azimuthInRadians) + 360) % 360; angle.setText(azimuthInRadians + " radians and " + azimuthInDegress + " degrees"); float diff = Math.abs(azimuthInDegress - previousdegree); if (diff > 90) { previousdegree = azimuthInDegress; if (azimuthInDegress < 45 || azimuthInDegress > 315) { drawView.current = DrawView.Side.North; } else if (azimuthInDegress > 45 || azimuthInDegress < 135) { drawView.current = DrawView.Side.East; } else if (azimuthInDegress > 135 || azimuthInDegress < 225) { drawView.current = DrawView.Side.South; } else { drawView.current = DrawView.Side.West; } } } }
private void checkAndLaunchUpdate() { Log.i(LOG_FILE_NAME, "Checking for an update"); int statusCode = 8; // UNEXPECTED_ERROR File baseUpdateDir = null; if (Build.VERSION.SDK_INT >= 8) baseUpdateDir = getExternalFilesDir(Environment.DIRECTORY_DOWNLOADS); else baseUpdateDir = new File(Environment.getExternalStorageDirectory().getPath(), "download"); File updateDir = new File(new File(baseUpdateDir, "updates"), "0"); File updateFile = new File(updateDir, "update.apk"); File statusFile = new File(updateDir, "update.status"); if (!statusFile.exists() || !readUpdateStatus(statusFile).equals("pending")) return; if (!updateFile.exists()) return; Log.i(LOG_FILE_NAME, "Update is available!"); // Launch APK File updateFileToRun = new File(updateDir, getPackageName() + "-update.apk"); try { if (updateFile.renameTo(updateFileToRun)) { String amCmd = "/system/bin/am start -a android.intent.action.VIEW " + "-n com.android.packageinstaller/.PackageInstallerActivity -d file://" + updateFileToRun.getPath(); Log.i(LOG_FILE_NAME, amCmd); Runtime.getRuntime().exec(amCmd); statusCode = 0; // OK } else { Log.i(LOG_FILE_NAME, "Cannot rename the update file!"); statusCode = 7; // WRITE_ERROR } } catch (Exception e) { Log.i(LOG_FILE_NAME, "error launching installer to update", e); } // Update the status file String status = statusCode == 0 ? "succeeded\n" : "failed: " + statusCode + "\n"; OutputStream outStream; try { byte[] buf = status.getBytes("UTF-8"); outStream = new FileOutputStream(statusFile); outStream.write(buf, 0, buf.length); outStream.close(); } catch (Exception e) { Log.i(LOG_FILE_NAME, "error writing status file", e); } if (statusCode == 0) System.exit(0); }
public void addEnvToIntent(Intent intent) { Map<String, String> envMap = System.getenv(); Set<Map.Entry<String, String>> envSet = envMap.entrySet(); Iterator<Map.Entry<String, String>> envIter = envSet.iterator(); int c = 0; while (envIter.hasNext()) { Map.Entry<String, String> entry = envIter.next(); intent.putExtra("env" + c, entry.getKey() + "=" + entry.getValue()); c++; } }
private void saveData(TelemetryData data) { PrintWriter out; boolean newFile = false; if (saveCnt > 25000) { File logFile; int i; logFile = new File(telemetryDir + 99 + ".log"); logFile.delete(); newFile = true; for (i = 99; i > 0; i--) { logFile = new File(telemetryDir + (i - 1) + ".log"); logFile.renameTo(new File(telemetryDir + i + ".log")); } saveCnt = 0; } try { String text = ""; SimpleDateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss", Locale.GERMAN); saveCnt++; out = new PrintWriter(new FileOutputStream(telemetryDir + "0.log", true)); if (newFile) { text = "Time\tLatitude\tLongitude\tSpeed\tAcceleration X\tAcceleration Y\tAcceleration Z\tCoG\tOrientation Y\tOrientation Z\n\n"; out.print(text); } text = dateFormat.format(new Date(System.currentTimeMillis())) + "\t"; if (posValid) text = text + lastLat + "\t" + lastLon + "\t" + m_lastSpeed + "\t"; else text = text + "-\t-\t-\t"; text = text + data.getAccelX() + "\t" + data.getAccelY() + "\t" + data.getAccelZ() + "\t" + data.CoG + "\t" + data.getOrientY() + "\t" + data.getOrientZ() + "\n\n"; out.print(text); out.close(); } catch (IOException ioe) { } }
public void onSensorChanged(SensorEvent event) { synchronized (this) { switch (event.sensor.getType()) { case Sensor.TYPE_ACCELEROMETER: scanData.getTelemetryData().addAccel(event.values[0], event.values[1], event.values[2]); break; case Sensor.TYPE_ORIENTATION: scanData.getTelemetryData().addOrient(event.values[0], event.values[1], event.values[2]); break; } if (lastTelemetryTime == 0) lastTelemetryTime = System.currentTimeMillis(); else if (System.currentTimeMillis() - lastTelemetryTime > 750) { TelemetryData submitData = new TelemetryData(); submitData.set(scanData.getTelemetryData()); if (scanData.isStoreTele()) saveData(submitData); scanData.getTelemetryData().reset(); OWMapAtAndroid.sendMessage(OWMapAtAndroid.ScannerHandler.MSG_TELEMETRY, 0, 0, submitData); lastTelemetryTime = System.currentTimeMillis(); } } }
@Override protected void onNewIntent(Intent intent) { if (checkLaunchState(LaunchState.GeckoExiting)) { // We're exiting and shouldn't try to do anything else just incase // we're hung for some reason we'll force the process to exit System.exit(0); return; } final String action = intent.getAction(); if (ACTION_DEBUG.equals(action) && checkAndSetLaunchState(LaunchState.Launching, LaunchState.WaitForDebugger)) { mMainHandler.postDelayed( new Runnable() { public void run() { Log.i(LOG_FILE_NAME, "Launching from debug intent after 5s wait"); setLaunchState(LaunchState.Launching); launch(null); } }, 1000 * 5 /* 5 seconds */); Log.i(LOG_FILE_NAME, "Intent : ACTION_DEBUG - waiting 5s before launching"); return; } if (checkLaunchState(LaunchState.WaitForDebugger) || launch(intent)) return; if (Intent.ACTION_MAIN.equals(action)) { Log.i(LOG_FILE_NAME, "Intent : ACTION_MAIN"); GeckoAppShell.sendEventToGecko(new GeckoEvent("")); } else if (Intent.ACTION_VIEW.equals(action)) { String uri = intent.getDataString(); GeckoAppShell.sendEventToGecko(new GeckoEvent(uri)); Log.i(LOG_FILE_NAME, "onNewIntent: " + uri); } else if (ACTION_WEBAPP.equals(action)) { String uri = intent.getStringExtra("args"); GeckoAppShell.sendEventToGecko(new GeckoEvent(uri)); Log.i(LOG_FILE_NAME, "Intent : WEBAPP - " + uri); } else if (ACTION_BOOKMARK.equals(action)) { String args = intent.getStringExtra("args"); GeckoAppShell.sendEventToGecko(new GeckoEvent(args)); Log.i(LOG_FILE_NAME, "Intent : BOOKMARK - " + args); } }
protected void wloc_return_position( int ret, double lat, double lon, float radius, short ccode) { posValid = false; if (ret == WLocate.WLOC_OK) { lastGPSTime = System.currentTimeMillis(); if (radius < OWMapAtAndroid.MAX_RADIUS) { if (GeoUtils.latlon2dist(lat, lon, lastLat, lastLon) < 10) { posValid = true; // use the position only when there is no too big jump in distance- elsewhere // it could be a GPS bug ScanService.getScanData().setLatLon(lastLat, lastLon); } lastLat = lat; lastLon = lon; } lastRadius = radius; } else { lastRadius = -1; } posState = 2; scanThread.interrupt(); }
// Load the .so public void loadLibraries() { for (String lib : getLibraries()) { System.loadLibrary(lib); } }
// Setup @Override protected void onCreate(Bundle savedInstanceState) { Log.v("SDL", "Device: " + android.os.Build.DEVICE); Log.v("SDL", "Model: " + android.os.Build.MODEL); Log.v("SDL", "onCreate():" + mSingleton); super.onCreate(savedInstanceState); SDLActivity.initialize(); // So we can call stuff from static callbacks mSingleton = this; // Load shared libraries String errorMsgBrokenLib = ""; try { loadLibraries(); } catch (UnsatisfiedLinkError e) { System.err.println(e.getMessage()); mBrokenLibraries = true; errorMsgBrokenLib = e.getMessage(); } catch (Exception e) { System.err.println(e.getMessage()); mBrokenLibraries = true; errorMsgBrokenLib = e.getMessage(); } if (mBrokenLibraries) { AlertDialog.Builder dlgAlert = new AlertDialog.Builder(this); dlgAlert.setMessage( "An error occurred while trying to start the application. Please try again and/or reinstall." + System.getProperty("line.separator") + System.getProperty("line.separator") + "Error: " + errorMsgBrokenLib); dlgAlert.setTitle("SDL Error"); dlgAlert.setPositiveButton( "Exit", new DialogInterface.OnClickListener() { @Override public void onClick(DialogInterface dialog, int id) { // if this button is clicked, close current activity SDLActivity.mSingleton.finish(); } }); dlgAlert.setCancelable(false); dlgAlert.create().show(); return; } // Set up the surface mSurface = new SDLSurface(getApplication()); if (Build.VERSION.SDK_INT >= 12) { mJoystickHandler = new SDLJoystickHandler_API12(); } else { mJoystickHandler = new SDLJoystickHandler(); } mLayout = new AbsoluteLayout(this); mLayout.addView(mSurface); setContentView(mLayout); }
// Load the .so static { // Urho3D: everything resides in urho3d.so System.loadLibrary("Urho3D"); }
public void run() { int i, j, storedValues, sleepTime = 3000, timeoutCtr = 0, lastFlags = -1, trackCnt = 0, lastLocMethod = -5; String bssid; WMapEntry currEntry; DataOutputStream out; FileInputStream in; while (running) { try { if (scanData.getNoGPSExitInterval() > 0) { if (System.currentTimeMillis() > lastGPSTime + scanData.getNoGPSExitInterval()) { break; } } if (ScanService.scanData.getThreadMode() == OWMapAtAndroid.THREAD_MODE_UPLOAD) { if ((m_uploadThread != null) && (m_uploadThread.isUploading())) OWMapAtAndroid.sendMessage( ScannerHandler.MSG_SIMPLE_ALERT, 0, 0, getResources().getText(R.string.upload_in_progress)); else m_uploadThread = new UploadThread(scanData, this, SP, false, notification, null); ScanService.scanData.setThreadMode(OWMapAtAndroid.THREAD_MODE_SCAN); } else { if ((posState == 0) && (scanData != null) && (scanData.isScanningEnabled())) { posState = 1; timeoutCtr = 0; if (scanData.getFlags() != lastFlags) { if ((scanData.getFlags() & OWMapAtAndroid.FLAG_NO_NET_ACCESS) == 0) scanData.getWifiManager().createWifiLock(WifiManager.WIFI_MODE_FULL, "OpenWLANMap"); else scanData .getWifiManager() .createWifiLock(WifiManager.WIFI_MODE_SCAN_ONLY, "OpenWLANMap"); lastFlags = scanData.getFlags(); } if ((scanData.getFlags() & OWMapAtAndroid.FLAG_NO_NET_ACCESS) == 0) myWLocate.wloc_request_position(WLocate.FLAG_NO_IP_LOCATION); else { myWLocate.wloc_request_position( WLocate.FLAG_NO_NET_ACCESS | WLocate.FLAG_NO_IP_LOCATION); // stopGoogleLocation(); } } else if (!scanData.isScanningEnabled()) { try { trackCnt += 1500; Thread.sleep(1500); } catch (InterruptedException ie) { } } if (posState == 1) { // sleep while waiting for result try { trackCnt += 2500; java.lang.Thread.sleep(2500); // is interrupted from result handler timeoutCtr++; if (timeoutCtr > 3) { timeoutCtr = 0; posState = 0; } } catch (InterruptedException ie) { } } if ((posState == 2) || (posState == 100)) { loc_info locationInfo; NetworkInfo mWifi = connManager.getNetworkInfo(ConnectivityManager.TYPE_WIFI); locationInfo = myWLocate.last_location_info(); if (lastLocMethod != locationInfo.lastLocMethod) { scanData.getmView().setMode(locationInfo.lastLocMethod); scanData.getmView().postInvalidate(); lastLocMethod = locationInfo.lastLocMethod; } if (posState == 100) locationInfo.lastLocMethod = -1; OWMapAtAndroid.sendMessage( OWMapAtAndroid.ScannerHandler.MSG_UPD_LOC_STATE, (int) (lastRadius * 1000), locationInfo.lastLocMethod, locationInfo); if (SP.getBoolean("autoConnect", false)) { if (!mWifi.isConnected()) { for (i = 0; i < locationInfo.wifiScanResult.size(); i++) { ScanResult result; result = locationInfo.wifiScanResult.get(i); result.capabilities = result.capabilities.toUpperCase(Locale.US); if ((isFreeHotspot(result) & WMapEntry.FLAG_IS_FREIFUNK) != 0) { // auto-connect to this open network WifiConfiguration wifiConfig = new WifiConfiguration(); wifiConfig.BSSID = result.BSSID; wifiConfig.priority = 1; wifiConfig.allowedKeyManagement.set(KeyMgmt.NONE); wifiConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.TKIP); wifiConfig.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.OPEN); wifiConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.NONE); wifiConfig.status = WifiConfiguration.Status.ENABLED; int netId = scanData.getWifiManager().addNetwork(wifiConfig); scanData.getWifiManager().enableNetwork(netId, true); } } } } if ((posValid) && (locationInfo.wifiScanResult != null) && (locationInfo.wifiScanResult.size() > 0)) { boolean foundExisting; for (i = 0; i < locationInfo.wifiScanResult.size(); i++) { ScanResult result; result = locationInfo.wifiScanResult.get(i); bssid = result.BSSID.replace(":", "").replace(".", "").toUpperCase(Locale.US); if (bssid.equalsIgnoreCase("000000000000")) break; foundExisting = false; scanData.getLock().lock(); for (j = 0; j < scanData.getWmapList().size(); j++) { currEntry = scanData.getWmapList().elementAt(j); if (currEntry.getBSSID().equalsIgnoreCase(bssid)) { currEntry.setPos(lastLat, lastLon); foundExisting = true; break; } } if (!foundExisting) { String lowerSSID; storedValues = scanData.incStoredValues(); scanData.getmView().setValue(storedValues); scanData.getmView().postInvalidate(); currEntry = new WMapEntry(bssid, result.SSID, lastLat, lastLon, storedValues); lowerSSID = result.SSID.toLowerCase(Locale.US); if ((lowerSSID.endsWith("_nomap")) || // Google unsubscibe option (lowerSSID.contains("iphone")) || // mobile AP (lowerSSID.contains("android")) || // mobile AP (lowerSSID.contains("motorola")) || // mobile AP (lowerSSID.contains("deinbus.de")) || // WLAN network on board of German bus (lowerSSID.contains("fernbus")) || // WLAN network on board of German bus (lowerSSID.contains("flixbus")) || // WLAN network on board of German bus (lowerSSID.contains("ecolines")) || // WLAN network on board of German bus (lowerSSID.contains("eurolines_wifi")) || // WLAN network on board of German bus (lowerSSID.contains("contiki-wifi")) || // WLAN network on board of bus (lowerSSID.contains("guest@ms ")) || // WLAN network on Hurtigruten ships (lowerSSID.contains("admin@ms ")) || // WLAN network on Hurtigruten ships (lowerSSID.contains("nsb_interakti")) || // WLAN network in NSB trains (lowerSSID.equals("southwestwifi"))) // WLAN network on Southwest flights currEntry.setFlags(currEntry.getFlags() | WMapEntry.FLAG_IS_NOMAP); else currEntry.setFlags(currEntry.getFlags() | isFreeHotspot(result)); if (isFreeHotspot(currEntry.getFlags())) scanData.incFreeHotspotWLANs(); scanData.getWmapList().add(currEntry); if ((scanData.getUploadThres() > 0) && (storedValues > scanData.getUploadThres())) { if ((m_uploadThread == null) || (!m_uploadThread.isUploading())) { if (mWifi.isConnected()) { m_uploadThread = new UploadThread(scanData, this, SP, true, notification, mWifi); } } } } result.capabilities = result.capabilities.toUpperCase(Locale.US); scanData.getLock().unlock(); } } scanData.getLock().lock(); for (j = 0; j < scanData.getWmapList().size(); j++) { currEntry = scanData.getWmapList().elementAt(j); if ((currEntry.getLastUpdate() + OWMapAtAndroid.RECV_TIMEOUT < System.currentTimeMillis()) && ((currEntry.getFlags() & WMapEntry.FLAG_IS_VISIBLE) == 0)) { scanData.getWmapList().remove(j); if (currEntry.posIsValid()) { int padBytes = 0, k; try { in = scanData.getCtx().openFileInput(OWMapAtAndroid.WSCAN_FILE); padBytes = in.available() % 28; in.close(); if (padBytes > 0) padBytes = 28 - padBytes; } catch (IOException ioe) { ioe.printStackTrace(); } try { out = new DataOutputStream( scanData .getCtx() .openFileOutput( OWMapAtAndroid.WSCAN_FILE, Context.MODE_PRIVATE | Context.MODE_APPEND)); if (padBytes > 0) for (k = 0; k < padBytes; k++) out.writeByte(0); out.write(currEntry.getBSSID().getBytes(), 0, 12); if ((currEntry.getFlags() & WMapEntry.FLAG_IS_NOMAP) != 0) { out.writeDouble(0.0); out.writeDouble(0.0); } else { out.writeDouble(currEntry.getLat()); out.writeDouble(currEntry.getLon()); } out.close(); } catch (IOException ioe) { ioe.printStackTrace(); } if ((currEntry.getFlags() & (WMapEntry.FLAG_IS_FREIFUNK | WMapEntry.FLAG_IS_NOMAP)) == WMapEntry.FLAG_IS_FREIFUNK) { padBytes = 0; try { in = scanData.getCtx().openFileInput(OWMapAtAndroid.WFREI_FILE); padBytes = in.available() % 12; in.close(); if (padBytes > 0) padBytes = 12 - padBytes; } catch (IOException ioe) { ioe.printStackTrace(); } try { out = new DataOutputStream( scanData .getCtx() .openFileOutput( OWMapAtAndroid.WFREI_FILE, Context.MODE_PRIVATE | Context.MODE_APPEND)); if (padBytes > 0) for (k = 0; k < padBytes; k++) out.writeByte(0); out.write(currEntry.getBSSID().getBytes(), 0, 12); out.close(); } catch (IOException ioe) { ioe.printStackTrace(); } } } } // flushData(false); } scanData.getLock().unlock(); m_lastSpeed = locationInfo.lastSpeed; if (!SP.getBoolean("adaptiveScanning", true)) sleepTime = 500; else if (locationInfo.lastSpeed > 90) sleepTime = 350; else if (locationInfo.lastSpeed < 0) sleepTime = 1300; // no speed information, may be because of WLAN localisation else if (locationInfo.lastSpeed < 6) sleepTime = 2500; // user seems to walk else { double f; f = 1.0 - (locationInfo.lastSpeed / 90.0); sleepTime = (int) ((1000.0 * f) + 350); } try { trackCnt += sleepTime; java.lang.Thread.sleep(sleepTime); // sleep between scans } catch (InterruptedException ie) { } posState = 0; } } } catch (NullPointerException npe) // in case the parent activity dies too fast { npe.printStackTrace(); } if ((trackCnt > 500000) && (lastLat != 0) && (lastLon != 0)) { if (SP.getBoolean("track", false)) new UploadPositionTask().execute(null, null, null); trackCnt = 0; } } onDestroy(); // remove all resources (in case the thread was stopped due to some other reason }
public class ScanService extends Service implements Runnable, SensorEventListener { static boolean running = true; private MyWLocate myWLocate = null; private boolean posValid; private int posState = 0, saveCnt = 1000000; private double lastLat = 0.0, lastLon = 0.0, lastRadius; private Thread scanThread; private PowerManager.WakeLock wl = null; private ConnectivityManager connManager; private SharedPreferences SP; private static ScanData scanData = new ScanData(); private SensorManager sensorManager; private long lastTelemetryTime; private long lastGPSTime = System.currentTimeMillis(); private String telemetryDir; private float m_lastSpeed; private UploadThread m_uploadThread; private Notification notification; public static ScanData getScanData() { return scanData; } @Override public IBinder onBind(Intent arg) { return null; } public void onCreate() { int flags, screenLightVal = 1; Sensor mSensor; List<Sensor> sensors; if (scanData == null) return; // no ScanData, not possible to run correctly... PowerManager pm = (PowerManager) getSystemService(POWER_SERVICE); SP = PreferenceManager.getDefaultSharedPreferences(getBaseContext()); try { screenLightVal = Integer.parseInt(SP.getString("screenLight", "2")); } catch (NumberFormatException nfe) { } if (screenLightVal == 1) flags = PowerManager.PARTIAL_WAKE_LOCK; else if (screenLightVal == 3) flags = PowerManager.FULL_WAKE_LOCK; else flags = PowerManager.SCREEN_DIM_WAKE_LOCK; wl = pm.newWakeLock(flags, "OpenWLANMap"); wl.acquire(); while (myWLocate == null) { try { myWLocate = new MyWLocate(this); break; } catch (IllegalArgumentException iae) { myWLocate = null; } try { Thread.sleep(100); } catch (InterruptedException ie) { } } try { scanData.setUploadThres(Integer.parseInt(SP.getString("autoUpload", "0"))); } catch (NumberFormatException nfe) { } try { scanData.setNoGPSExitInterval( Integer.parseInt(SP.getString("noGPSExitInterval", "0")) * 60 * 1000); } catch (NumberFormatException nfe) { } Intent intent = new Intent(this, OWMapAtAndroid.class); intent.setFlags(Intent.FLAG_ACTIVITY_CLEAR_TOP | Intent.FLAG_ACTIVITY_SINGLE_TOP); PendingIntent pendIntent = PendingIntent.getActivity(this, 0, intent, 0); notification = new NotificationCompat.Builder(this) .setSmallIcon(R.drawable.icon) .setContentTitle(getResources().getText(R.string.app_name)) .setContentText("") .setContentIntent(pendIntent) .build(); notification.flags |= Notification.FLAG_NO_CLEAR; notification.flags |= Notification.FLAG_ONGOING_EVENT; startForeground(1703, notification); getScanData().setService(this); getScanData().setmView(new HUDView(this)); getScanData().getmView().setValue(getScanData().incStoredValues()); WindowManager.LayoutParams params = new WindowManager.LayoutParams( WindowManager.LayoutParams.TYPE_SYSTEM_OVERLAY, WindowManager.LayoutParams.FLAG_NOT_TOUCHABLE | WindowManager.LayoutParams.FLAG_NOT_FOCUSABLE, PixelFormat.TRANSLUCENT); params.gravity = Gravity.LEFT | Gravity.BOTTOM; params.setTitle("Load Average"); WindowManager wm = (WindowManager) getSystemService(WINDOW_SERVICE); wm.addView(getScanData().getmView(), params); sensorManager = (SensorManager) getSystemService(SENSOR_SERVICE); sensorManager.registerListener( this, sensorManager.getDefaultSensor(Sensor.TYPE_ACCELEROMETER), SensorManager.SENSOR_DELAY_GAME); sensorManager.registerListener( this, sensorManager.getDefaultSensor(Sensor.TYPE_ORIENTATION), SensorManager.SENSOR_DELAY_GAME); sensors = sensorManager.getSensorList(Sensor.TYPE_ACCELEROMETER); mSensor = sensors.get(0); getScanData().getTelemetryData().setAccelMax(mSensor.getMaximumRange()); telemetryDir = Environment.getExternalStorageDirectory().getPath() + "/telemetry/"; File dir = new File(telemetryDir); dir.mkdir(); connManager = (ConnectivityManager) getSystemService(CONNECTIVITY_SERVICE); } public void onDestroy() { running = false; if (scanThread != null) scanThread.interrupt(); if (myWLocate != null) myWLocate.doPause(); sensorManager.unregisterListener( this, sensorManager.getDefaultSensor(Sensor.TYPE_ACCELEROMETER)); if (scanData.getmView() != null) { ((WindowManager) getSystemService(WINDOW_SERVICE)).removeView(scanData.getmView()); scanData.setmView(null); } try { if (wl != null) wl.release(); } catch (RuntimeException re) { } wl = null; try { scanThread.join(1000); } catch (InterruptedException ie) { } System.exit(0); } private void saveData(TelemetryData data) { PrintWriter out; boolean newFile = false; if (saveCnt > 25000) { File logFile; int i; logFile = new File(telemetryDir + 99 + ".log"); logFile.delete(); newFile = true; for (i = 99; i > 0; i--) { logFile = new File(telemetryDir + (i - 1) + ".log"); logFile.renameTo(new File(telemetryDir + i + ".log")); } saveCnt = 0; } try { String text = ""; SimpleDateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss", Locale.GERMAN); saveCnt++; out = new PrintWriter(new FileOutputStream(telemetryDir + "0.log", true)); if (newFile) { text = "Time\tLatitude\tLongitude\tSpeed\tAcceleration X\tAcceleration Y\tAcceleration Z\tCoG\tOrientation Y\tOrientation Z\n\n"; out.print(text); } text = dateFormat.format(new Date(System.currentTimeMillis())) + "\t"; if (posValid) text = text + lastLat + "\t" + lastLon + "\t" + m_lastSpeed + "\t"; else text = text + "-\t-\t-\t"; text = text + data.getAccelX() + "\t" + data.getAccelY() + "\t" + data.getAccelZ() + "\t" + data.CoG + "\t" + data.getOrientY() + "\t" + data.getOrientZ() + "\n\n"; out.print(text); out.close(); } catch (IOException ioe) { } } public void onSensorChanged(SensorEvent event) { synchronized (this) { switch (event.sensor.getType()) { case Sensor.TYPE_ACCELEROMETER: scanData.getTelemetryData().addAccel(event.values[0], event.values[1], event.values[2]); break; case Sensor.TYPE_ORIENTATION: scanData.getTelemetryData().addOrient(event.values[0], event.values[1], event.values[2]); break; } if (lastTelemetryTime == 0) lastTelemetryTime = System.currentTimeMillis(); else if (System.currentTimeMillis() - lastTelemetryTime > 750) { TelemetryData submitData = new TelemetryData(); submitData.set(scanData.getTelemetryData()); if (scanData.isStoreTele()) saveData(submitData); scanData.getTelemetryData().reset(); OWMapAtAndroid.sendMessage(OWMapAtAndroid.ScannerHandler.MSG_TELEMETRY, 0, 0, submitData); lastTelemetryTime = System.currentTimeMillis(); } } } public void onAccuracyChanged(Sensor sensor, int accuracy) {} public int onStartCommand(Intent intent, int flags, int startId) { scanThread = new Thread(this); scanThread.start(); return START_STICKY; } class MyWLocate extends WLocate { public MyWLocate(Context ctx) { super(ctx); } protected void wloc_return_position( int ret, double lat, double lon, float radius, short ccode) { posValid = false; if (ret == WLocate.WLOC_OK) { lastGPSTime = System.currentTimeMillis(); if (radius < OWMapAtAndroid.MAX_RADIUS) { if (GeoUtils.latlon2dist(lat, lon, lastLat, lastLon) < 10) { posValid = true; // use the position only when there is no too big jump in distance- elsewhere // it could be a GPS bug ScanService.getScanData().setLatLon(lastLat, lastLon); } lastLat = lat; lastLon = lon; } lastRadius = radius; } else { lastRadius = -1; } posState = 2; scanThread.interrupt(); } } /* private class GoogleLocationListener implements LocationListener { public void onLocationChanged(Location location) { if (location == null) return; lastLocationMillis = SystemClock.elapsedRealtime(); m_lat=location.getLatitude(); m_lon=location.getLongitude(); if (location.hasSpeed()) m_speed=location.getSpeed(); //m/sec else m_speed=-1; if (location.hasAccuracy()) m_radius=location.getAccuracy(); else m_radius=-1; } public void onStatusChanged(String provider, int status, Bundle extras) { int i=0; } public void onProviderEnabled(String provider) { int i=0; } public void onProviderDisabled(String provider) { int i=0; } }; private void startGoogleLocation() { if (locationListener!=null) return; Looper.prepare(); locationListener = new GoogleLocationListener(); location.requestLocationUpdates(LocationManager.NETWORK_PROVIDER,250,0,(LocationListener)locationListener); } private void stopGoogleLocation() { if (locationListener==null) return; location.removeUpdates(locationListener); locationListener=null; } */ private static final String HEXES = "0123456789ABCDEF"; public static String getHex(byte[] raw) { if (raw == null) return null; final StringBuilder hex = new StringBuilder(2 * raw.length); for (final byte b : raw) hex.append(HEXES.charAt((b & 0xF0) >> 4)).append(HEXES.charAt((b & 0x0F))); return hex.toString(); } private boolean isOpenWLAN(ScanResult result) { if ((!result.capabilities.contains("WEP")) && (!result.capabilities.contains("WPA")) && (!result.capabilities.contains("TKIP")) && (!result.capabilities.contains("CCMP")) && (!result.capabilities.contains("PSK"))) return true; return false; } private int isFreeHotspot(ScanResult result) { if (isOpenWLAN(result)) { if (result.SSID.toLowerCase(Locale.US).contains("freifunk")) return WMapEntry.FLAG_IS_FREIFUNK; if (result.SSID.toLowerCase(Locale.US).compareTo("mesh") == 0) return WMapEntry.FLAG_IS_FREIFUNK; if (result.SSID.toLowerCase(Locale.US).compareTo("free-hotspot.com") == 0) return WMapEntry.FLAG_IS_FREEHOTSPOT; if (result.SSID.toLowerCase(Locale.US).contains("the cloud")) return WMapEntry.FLAG_IS_THECLOUD; return WMapEntry.FLAG_IS_OPEN; } return 0; } private boolean isFreeHotspot(int flags) { return (((flags & WMapEntry.FLAG_IS_FREIFUNK) == WMapEntry.FLAG_IS_FREIFUNK) || ((flags & WMapEntry.FLAG_IS_FREEHOTSPOT) == WMapEntry.FLAG_IS_FREEHOTSPOT) || ((flags & WMapEntry.FLAG_IS_THECLOUD) == WMapEntry.FLAG_IS_THECLOUD)); } void storeConfig() { DataOutputStream out; try { out = new DataOutputStream(openFileOutput("wscnprefs", Context.MODE_PRIVATE)); out.writeByte(1); // version out.writeInt(ScanService.scanData.getFlags()); // operation flags; out.writeInt(ScanService.scanData.getStoredValues()); // number of currently stored values out.writeInt(ScanService.scanData.getUploadedCount()); out.writeInt(ScanService.scanData.getUploadedRank()); out.writeInt(0); // Open WLANs, no longer used out.writeInt(ScanService.scanData.getFreeHotspotWLANs()); out.writeFloat(ScanService.scanData.getTelemetryData().getCorrAccelX()); out.writeFloat(ScanService.scanData.getTelemetryData().getCorrAccelY()); out.writeFloat(ScanService.scanData.getTelemetryData().getCorrAccelZ()); out.writeFloat(ScanService.scanData.getTelemetryData().getCorrCoG()); out.writeFloat(ScanService.scanData.getTelemetryData().getCorrOrientY()); out.writeFloat(ScanService.scanData.getTelemetryData().getCorrOrientZ()); out.close(); } catch (IOException ioe) { ioe.printStackTrace(); } } public void run() { int i, j, storedValues, sleepTime = 3000, timeoutCtr = 0, lastFlags = -1, trackCnt = 0, lastLocMethod = -5; String bssid; WMapEntry currEntry; DataOutputStream out; FileInputStream in; while (running) { try { if (scanData.getNoGPSExitInterval() > 0) { if (System.currentTimeMillis() > lastGPSTime + scanData.getNoGPSExitInterval()) { break; } } if (ScanService.scanData.getThreadMode() == OWMapAtAndroid.THREAD_MODE_UPLOAD) { if ((m_uploadThread != null) && (m_uploadThread.isUploading())) OWMapAtAndroid.sendMessage( ScannerHandler.MSG_SIMPLE_ALERT, 0, 0, getResources().getText(R.string.upload_in_progress)); else m_uploadThread = new UploadThread(scanData, this, SP, false, notification, null); ScanService.scanData.setThreadMode(OWMapAtAndroid.THREAD_MODE_SCAN); } else { if ((posState == 0) && (scanData != null) && (scanData.isScanningEnabled())) { posState = 1; timeoutCtr = 0; if (scanData.getFlags() != lastFlags) { if ((scanData.getFlags() & OWMapAtAndroid.FLAG_NO_NET_ACCESS) == 0) scanData.getWifiManager().createWifiLock(WifiManager.WIFI_MODE_FULL, "OpenWLANMap"); else scanData .getWifiManager() .createWifiLock(WifiManager.WIFI_MODE_SCAN_ONLY, "OpenWLANMap"); lastFlags = scanData.getFlags(); } if ((scanData.getFlags() & OWMapAtAndroid.FLAG_NO_NET_ACCESS) == 0) myWLocate.wloc_request_position(WLocate.FLAG_NO_IP_LOCATION); else { myWLocate.wloc_request_position( WLocate.FLAG_NO_NET_ACCESS | WLocate.FLAG_NO_IP_LOCATION); // stopGoogleLocation(); } } else if (!scanData.isScanningEnabled()) { try { trackCnt += 1500; Thread.sleep(1500); } catch (InterruptedException ie) { } } if (posState == 1) { // sleep while waiting for result try { trackCnt += 2500; java.lang.Thread.sleep(2500); // is interrupted from result handler timeoutCtr++; if (timeoutCtr > 3) { timeoutCtr = 0; posState = 0; } } catch (InterruptedException ie) { } } if ((posState == 2) || (posState == 100)) { loc_info locationInfo; NetworkInfo mWifi = connManager.getNetworkInfo(ConnectivityManager.TYPE_WIFI); locationInfo = myWLocate.last_location_info(); if (lastLocMethod != locationInfo.lastLocMethod) { scanData.getmView().setMode(locationInfo.lastLocMethod); scanData.getmView().postInvalidate(); lastLocMethod = locationInfo.lastLocMethod; } if (posState == 100) locationInfo.lastLocMethod = -1; OWMapAtAndroid.sendMessage( OWMapAtAndroid.ScannerHandler.MSG_UPD_LOC_STATE, (int) (lastRadius * 1000), locationInfo.lastLocMethod, locationInfo); if (SP.getBoolean("autoConnect", false)) { if (!mWifi.isConnected()) { for (i = 0; i < locationInfo.wifiScanResult.size(); i++) { ScanResult result; result = locationInfo.wifiScanResult.get(i); result.capabilities = result.capabilities.toUpperCase(Locale.US); if ((isFreeHotspot(result) & WMapEntry.FLAG_IS_FREIFUNK) != 0) { // auto-connect to this open network WifiConfiguration wifiConfig = new WifiConfiguration(); wifiConfig.BSSID = result.BSSID; wifiConfig.priority = 1; wifiConfig.allowedKeyManagement.set(KeyMgmt.NONE); wifiConfig.allowedGroupCiphers.set(WifiConfiguration.GroupCipher.TKIP); wifiConfig.allowedAuthAlgorithms.set(WifiConfiguration.AuthAlgorithm.OPEN); wifiConfig.allowedKeyManagement.set(WifiConfiguration.KeyMgmt.NONE); wifiConfig.status = WifiConfiguration.Status.ENABLED; int netId = scanData.getWifiManager().addNetwork(wifiConfig); scanData.getWifiManager().enableNetwork(netId, true); } } } } if ((posValid) && (locationInfo.wifiScanResult != null) && (locationInfo.wifiScanResult.size() > 0)) { boolean foundExisting; for (i = 0; i < locationInfo.wifiScanResult.size(); i++) { ScanResult result; result = locationInfo.wifiScanResult.get(i); bssid = result.BSSID.replace(":", "").replace(".", "").toUpperCase(Locale.US); if (bssid.equalsIgnoreCase("000000000000")) break; foundExisting = false; scanData.getLock().lock(); for (j = 0; j < scanData.getWmapList().size(); j++) { currEntry = scanData.getWmapList().elementAt(j); if (currEntry.getBSSID().equalsIgnoreCase(bssid)) { currEntry.setPos(lastLat, lastLon); foundExisting = true; break; } } if (!foundExisting) { String lowerSSID; storedValues = scanData.incStoredValues(); scanData.getmView().setValue(storedValues); scanData.getmView().postInvalidate(); currEntry = new WMapEntry(bssid, result.SSID, lastLat, lastLon, storedValues); lowerSSID = result.SSID.toLowerCase(Locale.US); if ((lowerSSID.endsWith("_nomap")) || // Google unsubscibe option (lowerSSID.contains("iphone")) || // mobile AP (lowerSSID.contains("android")) || // mobile AP (lowerSSID.contains("motorola")) || // mobile AP (lowerSSID.contains("deinbus.de")) || // WLAN network on board of German bus (lowerSSID.contains("fernbus")) || // WLAN network on board of German bus (lowerSSID.contains("flixbus")) || // WLAN network on board of German bus (lowerSSID.contains("ecolines")) || // WLAN network on board of German bus (lowerSSID.contains("eurolines_wifi")) || // WLAN network on board of German bus (lowerSSID.contains("contiki-wifi")) || // WLAN network on board of bus (lowerSSID.contains("guest@ms ")) || // WLAN network on Hurtigruten ships (lowerSSID.contains("admin@ms ")) || // WLAN network on Hurtigruten ships (lowerSSID.contains("nsb_interakti")) || // WLAN network in NSB trains (lowerSSID.equals("southwestwifi"))) // WLAN network on Southwest flights currEntry.setFlags(currEntry.getFlags() | WMapEntry.FLAG_IS_NOMAP); else currEntry.setFlags(currEntry.getFlags() | isFreeHotspot(result)); if (isFreeHotspot(currEntry.getFlags())) scanData.incFreeHotspotWLANs(); scanData.getWmapList().add(currEntry); if ((scanData.getUploadThres() > 0) && (storedValues > scanData.getUploadThres())) { if ((m_uploadThread == null) || (!m_uploadThread.isUploading())) { if (mWifi.isConnected()) { m_uploadThread = new UploadThread(scanData, this, SP, true, notification, mWifi); } } } } result.capabilities = result.capabilities.toUpperCase(Locale.US); scanData.getLock().unlock(); } } scanData.getLock().lock(); for (j = 0; j < scanData.getWmapList().size(); j++) { currEntry = scanData.getWmapList().elementAt(j); if ((currEntry.getLastUpdate() + OWMapAtAndroid.RECV_TIMEOUT < System.currentTimeMillis()) && ((currEntry.getFlags() & WMapEntry.FLAG_IS_VISIBLE) == 0)) { scanData.getWmapList().remove(j); if (currEntry.posIsValid()) { int padBytes = 0, k; try { in = scanData.getCtx().openFileInput(OWMapAtAndroid.WSCAN_FILE); padBytes = in.available() % 28; in.close(); if (padBytes > 0) padBytes = 28 - padBytes; } catch (IOException ioe) { ioe.printStackTrace(); } try { out = new DataOutputStream( scanData .getCtx() .openFileOutput( OWMapAtAndroid.WSCAN_FILE, Context.MODE_PRIVATE | Context.MODE_APPEND)); if (padBytes > 0) for (k = 0; k < padBytes; k++) out.writeByte(0); out.write(currEntry.getBSSID().getBytes(), 0, 12); if ((currEntry.getFlags() & WMapEntry.FLAG_IS_NOMAP) != 0) { out.writeDouble(0.0); out.writeDouble(0.0); } else { out.writeDouble(currEntry.getLat()); out.writeDouble(currEntry.getLon()); } out.close(); } catch (IOException ioe) { ioe.printStackTrace(); } if ((currEntry.getFlags() & (WMapEntry.FLAG_IS_FREIFUNK | WMapEntry.FLAG_IS_NOMAP)) == WMapEntry.FLAG_IS_FREIFUNK) { padBytes = 0; try { in = scanData.getCtx().openFileInput(OWMapAtAndroid.WFREI_FILE); padBytes = in.available() % 12; in.close(); if (padBytes > 0) padBytes = 12 - padBytes; } catch (IOException ioe) { ioe.printStackTrace(); } try { out = new DataOutputStream( scanData .getCtx() .openFileOutput( OWMapAtAndroid.WFREI_FILE, Context.MODE_PRIVATE | Context.MODE_APPEND)); if (padBytes > 0) for (k = 0; k < padBytes; k++) out.writeByte(0); out.write(currEntry.getBSSID().getBytes(), 0, 12); out.close(); } catch (IOException ioe) { ioe.printStackTrace(); } } } } // flushData(false); } scanData.getLock().unlock(); m_lastSpeed = locationInfo.lastSpeed; if (!SP.getBoolean("adaptiveScanning", true)) sleepTime = 500; else if (locationInfo.lastSpeed > 90) sleepTime = 350; else if (locationInfo.lastSpeed < 0) sleepTime = 1300; // no speed information, may be because of WLAN localisation else if (locationInfo.lastSpeed < 6) sleepTime = 2500; // user seems to walk else { double f; f = 1.0 - (locationInfo.lastSpeed / 90.0); sleepTime = (int) ((1000.0 * f) + 350); } try { trackCnt += sleepTime; java.lang.Thread.sleep(sleepTime); // sleep between scans } catch (InterruptedException ie) { } posState = 0; } } } catch (NullPointerException npe) // in case the parent activity dies too fast { npe.printStackTrace(); } if ((trackCnt > 500000) && (lastLat != 0) && (lastLon != 0)) { if (SP.getBoolean("track", false)) new UploadPositionTask().execute(null, null, null); trackCnt = 0; } } onDestroy(); // remove all resources (in case the thread was stopped due to some other reason } private class UploadPositionTask extends AsyncTask<Void, Void, Void> { protected Void doInBackground(Void... params) { String outString; HttpURLConnection c = null; DataOutputStream os = null; outString = scanData.getOwnBSSID(); outString = outString + "\nL\tX\t" + lastLat + "\t" + lastLon + "\n"; try { URL connectURL = new URL("http://www.openwlanmap.org/android/upload.php"); c = (HttpURLConnection) connectURL.openConnection(); if (c == null) { return null; } c.setDoOutput(true); // enable POST c.setRequestMethod("POST"); c.addRequestProperty("Content-Type", "application/x-www-form-urlencoded, *.*"); c.addRequestProperty("Content-Length", "" + outString.length()); os = new DataOutputStream(c.getOutputStream()); os.write(outString.getBytes()); os.flush(); c.getResponseCode(); os.close(); outString = null; os = null; } catch (IOException ioe) { } finally { try { if (os != null) os.close(); if (c != null) c.disconnect(); } catch (IOException ioe) { ioe.printStackTrace(); } } return null; } } }
public void forceQuit() { System.exit(0); }