gecko/mobile/android/base/GeckoAppShell.java

2438 lines
98 KiB
Java

/* -*- Mode: Java; c-basic-offset: 4; tab-width: 4; indent-tabs-mode: nil; -*-
* 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/. */
package org.mozilla.gecko;
import org.mozilla.gecko.gfx.BitmapUtils;
import org.mozilla.gecko.gfx.IntSize;
import org.mozilla.gecko.gfx.GeckoLayerClient;
import org.mozilla.gecko.gfx.ImmutableViewportMetrics;
import org.mozilla.gecko.gfx.LayerController;
import org.mozilla.gecko.gfx.LayerView;
import org.mozilla.gecko.gfx.ScreenshotLayer;
import org.mozilla.gecko.FloatUtils;
import org.mozilla.gecko.gfx.ImmutableViewportMetrics;
import org.mozilla.gecko.gfx.ViewportMetrics;
import org.mozilla.gecko.gfx.RectUtils;
import java.io.*;
import java.lang.reflect.*;
import java.nio.*;
import java.text.*;
import java.util.*;
import java.util.zip.*;
import java.util.concurrent.*;
import android.os.*;
import android.app.*;
import android.text.*;
import android.view.*;
import android.view.inputmethod.*;
import android.content.*;
import android.content.res.*;
import android.content.pm.*;
import android.graphics.*;
import android.widget.*;
import android.hardware.*;
import android.location.*;
import android.webkit.MimeTypeMap;
import android.media.MediaScannerConnection;
import android.media.MediaScannerConnection.MediaScannerConnectionClient;
import android.provider.Settings;
import android.opengl.GLES20;
import android.util.*;
import android.net.Uri;
import android.net.ConnectivityManager;
import android.net.NetworkInfo;
import android.graphics.Bitmap;
import android.graphics.drawable.*;
import org.json.JSONArray;
import org.json.JSONObject;
public class GeckoAppShell
{
private static final String LOGTAG = "GeckoAppShell";
// static members only
private GeckoAppShell() { }
static private LinkedList<GeckoEvent> gPendingEvents =
new LinkedList<GeckoEvent>();
static private boolean gRestartScheduled = false;
static private GeckoInputConnection mInputConnection = null;
static private final HashMap<Integer, AlertNotification>
mAlertNotifications = new HashMap<Integer, AlertNotification>();
/* Keep in sync with constants found here:
http://mxr.mozilla.org/mozilla-central/source/uriloader/base/nsIWebProgressListener.idl
*/
static public final int WPL_STATE_START = 0x00000001;
static public final int WPL_STATE_STOP = 0x00000010;
static public final int WPL_STATE_IS_DOCUMENT = 0x00020000;
static public final int WPL_STATE_IS_NETWORK = 0x00040000;
public static final String SHORTCUT_TYPE_WEBAPP = "webapp";
public static final String SHORTCUT_TYPE_BOOKMARK = "bookmark";
static public final int SCREENSHOT_THUMBNAIL = 0;
static public final int SCREENSHOT_CHECKERBOARD = 1;
static public final int SCREENSHOT_CHECKERBOARD_AND_UPDATE = 2;
static public final int RESTORE_NONE = 0;
static public final int RESTORE_OOM = 1;
static public final int RESTORE_CRASH = 2;
static private File sCacheFile = null;
static private int sFreeSpace = -1;
static File sHomeDir = null;
static private int sDensityDpi = 0;
private static Boolean sSQLiteLibsLoaded = false;
private static Boolean sNSSLibsLoaded = false;
private static Boolean sLibsSetup = false;
private static File sGREDir = null;
private static Map<String, CopyOnWriteArrayList<GeckoEventListener>> mEventListeners
= new HashMap<String, CopyOnWriteArrayList<GeckoEventListener>>();
/* Is the value in sVibrationEndTime valid? */
private static boolean sVibrationMaybePlaying = false;
/* Time (in System.nanoTime() units) when the currently-playing vibration
* is scheduled to end. This value is valid only when
* sVibrationMaybePlaying is true. */
private static long sVibrationEndTime = 0;
/* Default value of how fast we should hint the Android sensors. */
private static int sDefaultSensorHint = 100;
private static Sensor gAccelerometerSensor = null;
private static Sensor gLinearAccelerometerSensor = null;
private static Sensor gGyroscopeSensor = null;
private static Sensor gOrientationSensor = null;
private static Sensor gProximitySensor = null;
private static Sensor gLightSensor = null;
private static boolean mLocationHighAccuracy = false;
private static Handler sGeckoHandler;
/* The Android-side API: API methods that Android calls */
// Initialization methods
public static native void nativeInit();
public static native void nativeRun(String args);
// helper methods
// public static native void setSurfaceView(GeckoSurfaceView sv);
public static native void setLayerClient(GeckoLayerClient client);
public static native void putenv(String map);
public static native void onResume();
public static native void onLowMemory();
public static native void callObserver(String observerKey, String topic, String data);
public static native void removeObserver(String observerKey);
public static native void loadGeckoLibsNative(String apkName);
public static native void loadSQLiteLibsNative(String apkName, boolean shouldExtract);
public static native void loadNSSLibsNative(String apkName, boolean shouldExtract);
public static native void onChangeNetworkLinkStatus(String status);
public static native Message getNextMessageFromQueue(MessageQueue queue);
public static void registerGlobalExceptionHandler() {
Thread.setDefaultUncaughtExceptionHandler(new Thread.UncaughtExceptionHandler() {
public void uncaughtException(Thread thread, Throwable e) {
Log.e(LOGTAG, ">>> REPORTING UNCAUGHT EXCEPTION FROM THREAD "
+ thread.getId() + " (\"" + thread.getName() + "\")", e);
// If the uncaught exception was rethrown, walk the exception `cause` chain to find
// the original exception so Socorro can correctly collate related crash reports.
Throwable cause;
while ((cause = e.getCause()) != null) {
e = cause;
}
reportJavaCrash(getStackTraceString(e));
}
});
}
private static String getStackTraceString(Throwable e) {
StringWriter sw = new StringWriter();
PrintWriter pw = new PrintWriter(sw);
e.printStackTrace(pw);
pw.flush();
return sw.toString();
}
private static native void reportJavaCrash(String stackTrace);
public static void notifyUriVisited(String uri) {
sendEventToGecko(GeckoEvent.createVisitedEvent(uri));
}
public static native void processNextNativeEvent();
public static native void notifyBatteryChange(double aLevel, boolean aCharging, double aRemainingTime);
public static native void notifySmsReceived(String aSender, String aBody, long aTimestamp);
public static native int saveMessageInSentbox(String aReceiver, String aBody, long aTimestamp);
public static native void notifySmsSent(int aId, String aReceiver, String aBody, long aTimestamp, int aRequestId, long aProcessId);
public static native void notifySmsDelivered(int aId, String aReceiver, String aBody, long aTimestamp);
public static native void notifySmsSendFailed(int aError, int aRequestId, long aProcessId);
public static native void notifyGetSms(int aId, String aReceiver, String aSender, String aBody, long aTimestamp, int aRequestId, long aProcessId);
public static native void notifyGetSmsFailed(int aError, int aRequestId, long aProcessId);
public static native void notifySmsDeleted(boolean aDeleted, int aRequestId, long aProcessId);
public static native void notifySmsDeleteFailed(int aError, int aRequestId, long aProcessId);
public static native void notifyNoMessageInList(int aRequestId, long aProcessId);
public static native void notifyListCreated(int aListId, int aMessageId, String aReceiver, String aSender, String aBody, long aTimestamp, int aRequestId, long aProcessId);
public static native void notifyGotNextMessage(int aMessageId, String aReceiver, String aSender, String aBody, long aTimestamp, int aRequestId, long aProcessId);
public static native void notifyReadingMessageListFailed(int aError, int aRequestId, long aProcessId);
public static native ByteBuffer allocateDirectBuffer(long size);
public static native void freeDirectBuffer(ByteBuffer buf);
public static native void scheduleComposite();
public static native void schedulePauseComposition();
public static native void scheduleResumeComposition(int width, int height);
public static native SurfaceBits getSurfaceBits(Surface surface);
public static native void onFullScreenPluginHidden(View view);
private static class GeckoMediaScannerClient implements MediaScannerConnectionClient {
private String mFile = "";
private String mMimeType = "";
private MediaScannerConnection mScanner = null;
public GeckoMediaScannerClient(Context aContext, String aFile, String aMimeType) {
mFile = aFile;
mMimeType = aMimeType;
mScanner = new MediaScannerConnection(aContext, this);
if (mScanner != null)
mScanner.connect();
}
public void onMediaScannerConnected() {
mScanner.scanFile(mFile, mMimeType);
}
public void onScanCompleted(String path, Uri uri) {
if(path.equals(mFile)) {
mScanner.disconnect();
mScanner = null;
}
}
}
// Get a Handler for the main java thread
public static Handler getMainHandler() {
return GeckoApp.mAppContext.mMainHandler;
}
public static Handler getGeckoHandler() {
return sGeckoHandler;
}
public static Handler getHandler() {
return GeckoBackgroundThread.getHandler();
}
public static File getCacheDir(Context context) {
if (sCacheFile == null)
sCacheFile = context.getCacheDir();
return sCacheFile;
}
public static long getFreeSpace(Context context) {
try {
if (sFreeSpace == -1) {
File cacheDir = getCacheDir(context);
if (cacheDir != null) {
StatFs cacheStats = new StatFs(cacheDir.getPath());
sFreeSpace = cacheStats.getFreeBlocks() *
cacheStats.getBlockSize();
} else {
Log.i(LOGTAG, "Unable to get cache dir");
}
}
} catch (Exception e) {
Log.e(LOGTAG, "exception while stating cache dir: ", e);
}
return sFreeSpace;
}
public static File getGREDir(Context context) {
if (sGREDir == null)
sGREDir = new File(context.getApplicationInfo().dataDir);
return sGREDir;
}
// java-side stuff
public static void loadLibsSetup(Context context) {
if (sLibsSetup)
return;
// The package data lib directory isn't placed in ld.so's
// search path, so we have to manually load libraries that
// libxul will depend on. Not ideal.
GeckoProfile profile = GeckoProfile.get(context);
File cacheFile = getCacheDir(context);
putenv("GRE_HOME=" + getGREDir(context).getPath());
// setup the libs cache
String linkerCache = System.getenv("MOZ_LINKER_CACHE");
if (linkerCache == null) {
linkerCache = cacheFile.getPath();
GeckoAppShell.putenv("MOZ_LINKER_CACHE=" + linkerCache);
}
if (GeckoApp.mAppContext != null &&
GeckoApp.mAppContext.linkerExtract()) {
GeckoAppShell.putenv("MOZ_LINKER_EXTRACT=1");
// Ensure that the cache dir is world-writable
File cacheDir = new File(linkerCache);
if (cacheDir.isDirectory()) {
cacheDir.setWritable(true, false);
cacheDir.setExecutable(true, false);
cacheDir.setReadable(true, false);
}
}
sLibsSetup = true;
}
private static void setupPluginEnvironment(GeckoApp context) {
// setup plugin path directories
try {
String[] dirs = context.getPluginDirectories();
StringBuffer pluginSearchPath = new StringBuffer();
for (int i = 0; i < dirs.length; i++) {
Log.i(LOGTAG, "dir: " + dirs[i]);
pluginSearchPath.append(dirs[i]);
pluginSearchPath.append(":");
}
GeckoAppShell.putenv("MOZ_PLUGIN_PATH="+pluginSearchPath);
File pluginDataDir = context.getDir("plugins", 0);
GeckoAppShell.putenv("ANDROID_PLUGIN_DATADIR=" + pluginDataDir.getPath());
} catch (Exception ex) {
Log.i(LOGTAG, "exception getting plugin dirs", ex);
}
}
private static void setupDownloadEnvironment(GeckoApp context) {
try {
File downloadDir = null;
File updatesDir = null;
if (Build.VERSION.SDK_INT >= 8) {
downloadDir = Environment.getExternalStoragePublicDirectory(Environment.DIRECTORY_DOWNLOADS);
updatesDir = context.getExternalFilesDir(Environment.DIRECTORY_DOWNLOADS);
} else {
updatesDir = downloadDir = new File(Environment.getExternalStorageDirectory().getPath(), "download");
}
GeckoAppShell.putenv("DOWNLOADS_DIRECTORY=" + downloadDir.getPath());
GeckoAppShell.putenv("UPDATES_DIRECTORY=" + updatesDir.getPath());
}
catch (Exception e) {
Log.i(LOGTAG, "No download directory has been found: " + e);
}
}
public static void setupGeckoEnvironment(Context context) {
GeckoProfile profile = GeckoProfile.get(context);
setupPluginEnvironment((GeckoApp) context);
setupDownloadEnvironment((GeckoApp) context);
// profile home path
GeckoAppShell.putenv("HOME=" + profile.getFilesDir().getPath());
Intent i = null;
i = ((Activity)context).getIntent();
// if we have an intent (we're being launched by an activity)
// read in any environmental variables from it here
String env = i.getStringExtra("env0");
Log.i(LOGTAG, "env0: "+ env);
for (int c = 1; env != null; c++) {
GeckoAppShell.putenv(env);
env = i.getStringExtra("env" + c);
Log.i(LOGTAG, "env"+ c +": "+ env);
}
// setup the tmp path
File f = context.getDir("tmp", Context.MODE_WORLD_READABLE |
Context.MODE_WORLD_WRITEABLE );
if (!f.exists())
f.mkdirs();
GeckoAppShell.putenv("TMPDIR=" + f.getPath());
// setup the downloads path
f = Environment.getDownloadCacheDirectory();
GeckoAppShell.putenv("EXTERNAL_STORAGE=" + f.getPath());
// Enable fixed position layers
GeckoAppShell.putenv("MOZ_ENABLE_FIXED_POSITION_LAYERS=1");
// setup the app-specific cache path
f = context.getCacheDir();
GeckoAppShell.putenv("CACHE_DIRECTORY=" + f.getPath());
putLocaleEnv();
}
/* This method is referenced by Robocop via reflection. */
public static void loadSQLiteLibs(Context context, String apkName) {
if (sSQLiteLibsLoaded)
return;
synchronized(sSQLiteLibsLoaded) {
if (sSQLiteLibsLoaded)
return;
loadMozGlue();
// the extract libs parameter is being removed in bug 732069
loadLibsSetup(context);
loadSQLiteLibsNative(apkName, false);
sSQLiteLibsLoaded = true;
}
}
public static void loadNSSLibs(Context context, String apkName) {
if (sNSSLibsLoaded)
return;
synchronized(sNSSLibsLoaded) {
if (sNSSLibsLoaded)
return;
loadMozGlue();
loadLibsSetup(context);
loadNSSLibsNative(apkName, false);
sNSSLibsLoaded = true;
}
}
public static void loadMozGlue() {
System.loadLibrary("mozglue");
}
public static void loadGeckoLibs(String apkName) {
loadLibsSetup(GeckoApp.mAppContext);
loadGeckoLibsNative(apkName);
}
private static void putLocaleEnv() {
GeckoAppShell.putenv("LANG=" + Locale.getDefault().toString());
NumberFormat nf = NumberFormat.getInstance();
if (nf instanceof DecimalFormat) {
DecimalFormat df = (DecimalFormat)nf;
DecimalFormatSymbols dfs = df.getDecimalFormatSymbols();
GeckoAppShell.putenv("LOCALE_DECIMAL_POINT=" + dfs.getDecimalSeparator());
GeckoAppShell.putenv("LOCALE_THOUSANDS_SEP=" + dfs.getGroupingSeparator());
GeckoAppShell.putenv("LOCALE_GROUPING=" + (char)df.getGroupingSize());
}
}
public static void runGecko(String apkPath, String args, String url, String type, int restoreMode) {
WebAppAllocator.getInstance();
Looper.prepare();
sGeckoHandler = new Handler();
// run gecko -- it will spawn its own thread
GeckoAppShell.nativeInit();
Log.i(LOGTAG, "post native init");
// Tell Gecko where the target byte buffer is for rendering
GeckoAppShell.setLayerClient(GeckoApp.mAppContext.getLayerClient());
Log.i(LOGTAG, "setLayerClient called");
// First argument is the .apk path
String combinedArgs = apkPath + " -greomni " + apkPath;
if (args != null)
combinedArgs += " " + args;
if (url != null)
combinedArgs += " -url " + url;
if (type != null)
combinedArgs += " " + type;
if (restoreMode != RESTORE_NONE)
combinedArgs += " -restoremode " + restoreMode;
DisplayMetrics metrics = GeckoApp.mAppContext.getDisplayMetrics();
combinedArgs += " -width " + metrics.widthPixels + " -height " + metrics.heightPixels;
GeckoApp.mAppContext.runOnUiThread(new Runnable() {
public void run() {
geckoLoaded();
}
});
// and go
GeckoAppShell.nativeRun(combinedArgs);
}
// Called on the UI thread after Gecko loads.
private static void geckoLoaded() {
final LayerController layerController = GeckoApp.mAppContext.getLayerController();
LayerView v = layerController.getView();
mInputConnection = v.setInputConnectionHandler();
layerController.notifyLayerClientOfGeometryChange();
}
static void sendPendingEventsToGecko() {
try {
while (!gPendingEvents.isEmpty()) {
GeckoEvent e = gPendingEvents.removeFirst();
notifyGeckoOfEvent(e);
}
} catch (NoSuchElementException e) {}
}
/* This method is referenced by Robocop via reflection. */
public static void sendEventToGecko(GeckoEvent e) {
if (GeckoApp.checkLaunchState(GeckoApp.LaunchState.GeckoRunning)) {
notifyGeckoOfEvent(e);
} else {
gPendingEvents.addLast(e);
}
}
public static void sendEventToGeckoSync(GeckoEvent e) {
sendEventToGecko(e);
geckoEventSync();
}
// Tell the Gecko event loop that an event is available.
public static native void notifyGeckoOfEvent(GeckoEvent event);
/*
* The Gecko-side API: API methods that Gecko calls
*/
public static void notifyIME(int type, int state) {
if (mInputConnection != null)
mInputConnection.notifyIME(type, state);
}
public static void notifyIMEEnabled(int state, String typeHint,
String actionHint, boolean landscapeFS) {
// notifyIMEEnabled() still needs the landscapeFS parameter because it is called from JNI
// code that assumes it has the same signature as XUL Fennec's (which does use landscapeFS).
if (mInputConnection != null)
mInputConnection.notifyIMEEnabled(state, typeHint, actionHint);
}
public static void notifyIMEChange(String text, int start, int end, int newEnd) {
if (mInputConnection != null)
mInputConnection.notifyIMEChange(text, start, end, newEnd);
}
// Called by AndroidBridge using JNI
public static void notifyScreenShot(final ByteBuffer data, final int tabId,
final int left, final int top,
final int right, final int bottom,
final int bufferWidth, final int bufferHeight, final int token) {
ScreenshotHandler.notifyScreenShot(data, tabId, left, top, right, bottom, bufferWidth, bufferHeight, token);
}
private static CountDownLatch sGeckoPendingAcks = null;
// Block the current thread until the Gecko event loop is caught up
synchronized public static void geckoEventSync() {
sGeckoPendingAcks = new CountDownLatch(1);
GeckoAppShell.sendEventToGecko(GeckoEvent.createSyncEvent());
while (sGeckoPendingAcks.getCount() != 0) {
try {
sGeckoPendingAcks.await();
} catch(InterruptedException e) {}
}
sGeckoPendingAcks = null;
}
// Signal the Java thread that it's time to wake up
public static void acknowledgeEventSync() {
CountDownLatch tmp = sGeckoPendingAcks;
if (tmp != null)
tmp.countDown();
}
public static void enableLocation(final boolean enable) {
getMainHandler().post(new Runnable() {
public void run() {
LocationManager lm = (LocationManager)
GeckoApp.mAppContext.getSystemService(Context.LOCATION_SERVICE);
if (enable) {
Criteria criteria = new Criteria();
criteria.setSpeedRequired(false);
criteria.setBearingRequired(false);
criteria.setAltitudeRequired(false);
if (mLocationHighAccuracy) {
criteria.setAccuracy(Criteria.ACCURACY_FINE);
criteria.setCostAllowed(true);
criteria.setPowerRequirement(Criteria.POWER_HIGH);
} else {
criteria.setAccuracy(Criteria.ACCURACY_COARSE);
criteria.setCostAllowed(false);
criteria.setPowerRequirement(Criteria.POWER_LOW);
}
String provider = lm.getBestProvider(criteria, true);
if (provider == null)
return;
Looper l = Looper.getMainLooper();
Location loc = lm.getLastKnownLocation(provider);
if (loc != null) {
GeckoApp.mAppContext.onLocationChanged(loc);
}
lm.requestLocationUpdates(provider, 100, (float).5, GeckoApp.mAppContext, l);
} else {
lm.removeUpdates(GeckoApp.mAppContext);
}
}
});
}
public static void enableLocationHighAccuracy(final boolean enable) {
Log.i(LOGTAG, "Location provider - high accuracy: " + enable);
mLocationHighAccuracy = enable;
}
public static void enableSensor(int aSensortype) {
SensorManager sm = (SensorManager)
GeckoApp.mAppContext.getSystemService(Context.SENSOR_SERVICE);
switch(aSensortype) {
case GeckoHalDefines.SENSOR_ORIENTATION:
Log.i(LOGTAG, "Enabling SENSOR_ORIENTATION");
if(gOrientationSensor == null)
gOrientationSensor = sm.getDefaultSensor(Sensor.TYPE_ORIENTATION);
if (gOrientationSensor != null)
sm.registerListener(GeckoApp.mAppContext, gOrientationSensor, sDefaultSensorHint);
break;
case GeckoHalDefines.SENSOR_ACCELERATION:
Log.i(LOGTAG, "Enabling SENSOR_ACCELERATION");
if(gAccelerometerSensor == null)
gAccelerometerSensor = sm.getDefaultSensor(Sensor.TYPE_ACCELEROMETER);
if (gAccelerometerSensor != null)
sm.registerListener(GeckoApp.mAppContext, gAccelerometerSensor, sDefaultSensorHint);
break;
case GeckoHalDefines.SENSOR_PROXIMITY:
Log.i(LOGTAG, "Enabling SENSOR_PROXIMITY");
if(gProximitySensor == null)
gProximitySensor = sm.getDefaultSensor(Sensor.TYPE_PROXIMITY);
if (gProximitySensor != null)
sm.registerListener(GeckoApp.mAppContext, gProximitySensor, SensorManager.SENSOR_DELAY_NORMAL);
break;
case GeckoHalDefines.SENSOR_LIGHT:
Log.i(LOGTAG, "Enabling SENSOR_LIGHT");
if(gLightSensor == null)
gLightSensor = sm.getDefaultSensor(Sensor.TYPE_LIGHT);
if (gLightSensor != null)
sm.registerListener(GeckoApp.mAppContext, gLightSensor, SensorManager.SENSOR_DELAY_NORMAL);
break;
case GeckoHalDefines.SENSOR_LINEAR_ACCELERATION:
Log.i(LOGTAG, "Enabling SENSOR_LINEAR_ACCELERATION");
if(gLinearAccelerometerSensor == null)
gLinearAccelerometerSensor = sm.getDefaultSensor(10 /* API Level 9 - TYPE_LINEAR_ACCELERATION */);
if (gLinearAccelerometerSensor != null)
sm.registerListener(GeckoApp.mAppContext, gLinearAccelerometerSensor, sDefaultSensorHint);
break;
case GeckoHalDefines.SENSOR_GYROSCOPE:
Log.i(LOGTAG, "Enabling SENSOR_GYROSCOPE");
if(gGyroscopeSensor == null)
gGyroscopeSensor = sm.getDefaultSensor(Sensor.TYPE_GYROSCOPE);
if (gGyroscopeSensor != null)
sm.registerListener(GeckoApp.mAppContext, gGyroscopeSensor, sDefaultSensorHint);
break;
default:
Log.e(LOGTAG, "Error! SENSOR type used " + aSensortype);
}
}
public static void disableSensor(int aSensortype) {
SensorManager sm = (SensorManager)
GeckoApp.mAppContext.getSystemService(Context.SENSOR_SERVICE);
switch (aSensortype) {
case GeckoHalDefines.SENSOR_ORIENTATION:
Log.i(LOGTAG, "Disabling SENSOR_ORIENTATION");
if (gOrientationSensor != null)
sm.unregisterListener(GeckoApp.mAppContext, gOrientationSensor);
break;
case GeckoHalDefines.SENSOR_ACCELERATION:
Log.i(LOGTAG, "Disabling SENSOR_ACCELERATION");
if (gAccelerometerSensor != null)
sm.unregisterListener(GeckoApp.mAppContext, gAccelerometerSensor);
break;
case GeckoHalDefines.SENSOR_PROXIMITY:
Log.i(LOGTAG, "Disabling SENSOR_PROXIMITY");
if (gProximitySensor != null)
sm.unregisterListener(GeckoApp.mAppContext, gProximitySensor);
break;
case GeckoHalDefines.SENSOR_LIGHT:
Log.i(LOGTAG, "Disabling SENSOR_LIGHT");
if (gLightSensor != null)
sm.unregisterListener(GeckoApp.mAppContext, gLightSensor);
break;
case GeckoHalDefines.SENSOR_LINEAR_ACCELERATION:
Log.i(LOGTAG, "Disabling SENSOR_LINEAR_ACCELERATION");
if (gLinearAccelerometerSensor != null)
sm.unregisterListener(GeckoApp.mAppContext, gLinearAccelerometerSensor);
break;
case GeckoHalDefines.SENSOR_GYROSCOPE:
Log.i(LOGTAG, "Disabling SENSOR_GYROSCOPE");
if (gGyroscopeSensor != null)
sm.unregisterListener(GeckoApp.mAppContext, gGyroscopeSensor);
break;
default:
Log.e(LOGTAG, "Error! SENSOR type used " + aSensortype);
}
}
public static void moveTaskToBack() {
GeckoApp.mAppContext.moveTaskToBack(true);
}
public static void returnIMEQueryResult(String result, int selectionStart, int selectionLength) {
// This method may be called from JNI to report Gecko's current selection indexes, but
// Native Fennec doesn't care because the Java code already knows the selection indexes.
}
static void onXreExit() {
// mLaunchState can only be Launched or GeckoRunning at this point
GeckoApp.setLaunchState(GeckoApp.LaunchState.GeckoExiting);
Log.i(LOGTAG, "XRE exited");
if (gRestartScheduled) {
GeckoApp.mAppContext.doRestart();
} else {
Log.i(LOGTAG, "we're done, good bye");
GeckoApp.mAppContext.finish();
}
Log.w(LOGTAG, "Killing via System.exit()");
System.exit(0);
}
static void scheduleRestart() {
Log.i(LOGTAG, "scheduling restart");
gRestartScheduled = true;
}
public static Intent getWebAppIntent(String aURI, String aUniqueURI, boolean forInstall) {
int index;
if (forInstall)
index = WebAppAllocator.getInstance(GeckoApp.mAppContext).findAndAllocateIndex(aUniqueURI);
else
index = WebAppAllocator.getInstance(GeckoApp.mAppContext).getIndexForApp(aUniqueURI);
if (index == -1)
return null;
Intent intent = new Intent();
intent.setAction(GeckoApp.ACTION_WEBAPP_PREFIX + index);
intent.setData(Uri.parse(aURI));
intent.setClassName(GeckoApp.mAppContext, GeckoApp.mAppContext.getPackageName() + ".WebApps$WebApp" + index);
return intent;
}
// "Installs" an application by creating a shortcut
// This is the entry point from AndroidBridge.h
static void createShortcut(String aTitle, String aURI, String aIconData, String aType) {
if ("webapp".equals(aType)) {
Log.e(LOGTAG, "createShortcut with no unique URI should not be used for aType = webapp!");
}
byte[] raw = Base64.decode(aIconData.substring(22), Base64.DEFAULT);
Bitmap bitmap = BitmapFactory.decodeByteArray(raw, 0, raw.length);
createShortcut(aTitle, aURI, aURI, bitmap, aType);
}
// internal, for non-webapps
static void createShortcut(String aTitle, String aURI, Bitmap aBitmap, String aType) {
createShortcut(aTitle, aURI, aURI, aBitmap, aType);
}
// internal, for webapps
static void createShortcut(String aTitle, String aURI, String aUniqueURI, String aIconData, String aType) {
byte[] raw = Base64.decode(aIconData.substring(22), Base64.DEFAULT);
Bitmap bitmap = BitmapFactory.decodeByteArray(raw, 0, raw.length);
createShortcut(aTitle, aURI, aUniqueURI, bitmap, aType);
}
public static void createShortcut(final String aTitle, final String aURI, final String aUniqueURI,
final Bitmap aIcon, final String aType)
{
getHandler().post(new Runnable() {
public void run() {
// the intent to be launched by the shortcut
Intent shortcutIntent;
if (aType.equalsIgnoreCase(SHORTCUT_TYPE_WEBAPP)) {
shortcutIntent = getWebAppIntent(aURI, aUniqueURI, true);
} else {
shortcutIntent = new Intent();
shortcutIntent.setAction(GeckoApp.ACTION_BOOKMARK);
shortcutIntent.setData(Uri.parse(aURI));
shortcutIntent.setClassName(GeckoApp.mAppContext,
GeckoApp.mAppContext.getPackageName() + ".App");
}
Intent intent = new Intent();
intent.putExtra(Intent.EXTRA_SHORTCUT_INTENT, shortcutIntent);
if (aTitle != null)
intent.putExtra(Intent.EXTRA_SHORTCUT_NAME, aTitle);
else
intent.putExtra(Intent.EXTRA_SHORTCUT_NAME, aURI);
intent.putExtra(Intent.EXTRA_SHORTCUT_ICON, getLauncherIcon(aIcon, aType));
// Do not allow duplicate items
intent.putExtra("duplicate", false);
intent.setAction("com.android.launcher.action.INSTALL_SHORTCUT");
GeckoApp.mAppContext.sendBroadcast(intent);
}
});
}
public static void removeShortcut(final String aTitle, final String aURI, final String aType) {
removeShortcut(aTitle, aURI, null, aType);
}
public static void removeShortcut(final String aTitle, final String aURI, final String aUniqueURI, final String aType) {
getHandler().post(new Runnable() {
public void run() {
// the intent to be launched by the shortcut
Intent shortcutIntent;
if (aType.equalsIgnoreCase(SHORTCUT_TYPE_WEBAPP)) {
int index = WebAppAllocator.getInstance(GeckoApp.mAppContext).findAndAllocateIndex(aUniqueURI);
shortcutIntent = getWebAppIntent(aURI, aUniqueURI, false);
if (shortcutIntent == null)
return;
} else {
shortcutIntent = new Intent();
shortcutIntent.setAction(GeckoApp.ACTION_BOOKMARK);
shortcutIntent.setClassName(GeckoApp.mAppContext,
GeckoApp.mAppContext.getPackageName() + ".App");
shortcutIntent.setData(Uri.parse(aURI));
}
Intent intent = new Intent();
intent.putExtra(Intent.EXTRA_SHORTCUT_INTENT, shortcutIntent);
if (aTitle != null)
intent.putExtra(Intent.EXTRA_SHORTCUT_NAME, aTitle);
else
intent.putExtra(Intent.EXTRA_SHORTCUT_NAME, aURI);
intent.setAction("com.android.launcher.action.UNINSTALL_SHORTCUT");
GeckoApp.mAppContext.sendBroadcast(intent);
}
});
}
public static void uninstallWebApp(final String uniqueURI) {
// On uninstall, we need to do a couple of things:
// 1. nuke the running app process.
// 2. nuke the profile that was assigned to that webapp
getHandler().post(new Runnable() {
public void run() {
int index = WebAppAllocator.getInstance(GeckoApp.mAppContext).releaseIndexForApp(uniqueURI);
// if -1, nothing to do; we didn't think it was installed anyway
if (index == -1)
return;
// kill the app if it's running
String targetProcessName = GeckoApp.mAppContext.getPackageName();
targetProcessName = targetProcessName + ":" + targetProcessName + ".WebApp" + index;
ActivityManager am = (ActivityManager) GeckoApp.mAppContext.getSystemService(Context.ACTIVITY_SERVICE);
List<ActivityManager.RunningAppProcessInfo> procs = am.getRunningAppProcesses();
if (procs != null) {
for (ActivityManager.RunningAppProcessInfo proc : procs) {
if (proc.processName.equals(targetProcessName)) {
android.os.Process.killProcess(proc.pid);
break;
}
}
}
// then nuke the profile
GeckoProfile.removeProfile(GeckoApp.mAppContext, "webapp" + index);
}
});
}
static private Bitmap getLauncherIcon(Bitmap aSource, String aType) {
final int kOffset = 6;
final int kRadius = 5;
int kIconSize;
int kOverlaySize;
switch (getDpi()) {
case DisplayMetrics.DENSITY_MEDIUM:
kIconSize = 48;
kOverlaySize = 32;
break;
case DisplayMetrics.DENSITY_XHIGH:
kIconSize = 96;
kOverlaySize = 48;
break;
case DisplayMetrics.DENSITY_HIGH:
default:
kIconSize = 72;
kOverlaySize = 32;
}
Bitmap bitmap = Bitmap.createBitmap(kIconSize, kIconSize, Bitmap.Config.ARGB_8888);
Canvas canvas = new Canvas(bitmap);
if (aType.equalsIgnoreCase(SHORTCUT_TYPE_WEBAPP)) {
Rect iconBounds = new Rect(0, 0, bitmap.getWidth(), bitmap.getHeight());
canvas.drawBitmap(aSource, null, iconBounds, null);
return bitmap;
}
// draw a base color
Paint paint = new Paint();
if (aSource == null) {
float[] hsv = new float[3];
hsv[0] = 32.0f;
hsv[1] = 1.0f;
hsv[2] = 1.0f;
paint.setColor(Color.HSVToColor(hsv));
canvas.drawRoundRect(new RectF(kOffset, kOffset, kIconSize - kOffset, kIconSize - kOffset), kRadius, kRadius, paint);
} else {
int color = BitmapUtils.getDominantColor(aSource);
paint.setColor(color);
canvas.drawRoundRect(new RectF(kOffset, kOffset, kIconSize - kOffset, kIconSize - kOffset), kRadius, kRadius, paint);
paint.setColor(Color.argb(100, 255, 255, 255));
canvas.drawRoundRect(new RectF(kOffset, kOffset, kIconSize - kOffset, kIconSize - kOffset), kRadius, kRadius, paint);
}
// draw the overlay
Bitmap overlay = BitmapFactory.decodeResource(GeckoApp.mAppContext.getResources(), R.drawable.home_bg);
canvas.drawBitmap(overlay, null, new Rect(0, 0, kIconSize, kIconSize), null);
// draw the bitmap
if (aSource == null)
aSource = BitmapFactory.decodeResource(GeckoApp.mAppContext.getResources(), R.drawable.home_star);
if (aSource.getWidth() < kOverlaySize || aSource.getHeight() < kOverlaySize) {
canvas.drawBitmap(aSource,
null,
new Rect(kIconSize/2 - kOverlaySize/2,
kIconSize/2 - kOverlaySize/2,
kIconSize/2 + kOverlaySize/2,
kIconSize/2 + kOverlaySize/2),
null);
} else {
canvas.drawBitmap(aSource,
null,
new Rect(kIconSize/2 - aSource.getWidth()/2,
kIconSize/2 - aSource.getHeight()/2,
kIconSize/2 + aSource.getWidth()/2,
kIconSize/2 + aSource.getHeight()/2),
null);
}
return bitmap;
}
static String[] getHandlersForMimeType(String aMimeType, String aAction) {
Intent intent = getIntentForActionString(aAction);
if (aMimeType != null && aMimeType.length() > 0)
intent.setType(aMimeType);
return getHandlersForIntent(intent);
}
static String[] getHandlersForURL(String aURL, String aAction) {
// aURL may contain the whole URL or just the protocol
Uri uri = aURL.indexOf(':') >= 0 ? Uri.parse(aURL) : new Uri.Builder().scheme(aURL).build();
Intent intent = getIntentForActionString(aAction);
intent.setData(uri);
return getHandlersForIntent(intent);
}
static String[] getHandlersForIntent(Intent intent) {
PackageManager pm = GeckoApp.mAppContext.getPackageManager();
List<ResolveInfo> list = pm.queryIntentActivities(intent, 0);
int numAttr = 4;
String[] ret = new String[list.size() * numAttr];
for (int i = 0; i < list.size(); i++) {
ResolveInfo resolveInfo = list.get(i);
ret[i * numAttr] = resolveInfo.loadLabel(pm).toString();
if (resolveInfo.isDefault)
ret[i * numAttr + 1] = "default";
else
ret[i * numAttr + 1] = "";
ret[i * numAttr + 2] = resolveInfo.activityInfo.applicationInfo.packageName;
ret[i * numAttr + 3] = resolveInfo.activityInfo.name;
}
return ret;
}
static Intent getIntentForActionString(String aAction) {
// Default to the view action if no other action as been specified.
if (aAction != null && aAction.length() > 0)
return new Intent(aAction);
else
return new Intent(Intent.ACTION_VIEW);
}
static String getExtensionFromMimeType(String aMimeType) {
return MimeTypeMap.getSingleton().getExtensionFromMimeType(aMimeType);
}
static String getMimeTypeFromExtensions(String aFileExt) {
MimeTypeMap mtm = MimeTypeMap.getSingleton();
StringTokenizer st = new StringTokenizer(aFileExt, "., ");
String type = null;
String subType = null;
while (st.hasMoreElements()) {
String ext = st.nextToken();
String mt = mtm.getMimeTypeFromExtension(ext);
if (mt == null)
continue;
int slash = mt.indexOf('/');
String tmpType = mt.substring(0, slash);
if (!tmpType.equalsIgnoreCase(type))
type = type == null ? tmpType : "*";
String tmpSubType = mt.substring(slash + 1);
if (!tmpSubType.equalsIgnoreCase(subType))
subType = subType == null ? tmpSubType : "*";
}
if (type == null)
type = "*";
if (subType == null)
subType = "*";
return type + "/" + subType;
}
static boolean openUriExternal(String aUriSpec, String aMimeType, String aPackageName,
String aClassName, String aAction, String aTitle) {
Intent intent = getIntentForActionString(aAction);
if (aAction.equalsIgnoreCase(Intent.ACTION_SEND)) {
Intent shareIntent = getIntentForActionString(aAction);
shareIntent.putExtra(Intent.EXTRA_TEXT, aUriSpec);
shareIntent.putExtra(Intent.EXTRA_SUBJECT, aTitle);
if (aMimeType != null && aMimeType.length() > 0)
shareIntent.setType(aMimeType);
intent = Intent.createChooser(shareIntent, GeckoApp.mAppContext.getResources().getString(R.string.share_title));
} else if (aMimeType.length() > 0) {
intent.setDataAndType(Uri.parse(aUriSpec), aMimeType);
} else {
Uri uri = Uri.parse(aUriSpec);
if ("sms".equals(uri.getScheme())) {
// Have a apecial handling for the SMS, as the message body
// is not extracted from the URI automatically
final String query = uri.getEncodedQuery();
if (query != null && query.length() > 0) {
final String[] fields = query.split("&");
boolean foundBody = false;
String resultQuery = "";
for (int i = 0; i < fields.length; i++) {
final String field = fields[i];
if (field.length() > 5 && "body=".equals(field.substring(0, 5))) {
final String body = Uri.decode(field.substring(5));
intent.putExtra("sms_body", body);
foundBody = true;
}
else {
resultQuery = resultQuery.concat(resultQuery.length() > 0 ? "&" + field : field);
}
}
if (foundBody) {
// Put the query without the body field back into the URI
final String prefix = aUriSpec.substring(0, aUriSpec.indexOf('?'));
uri = Uri.parse(resultQuery.length() > 0 ? prefix + "?" + resultQuery : prefix);
}
}
}
intent.setData(uri);
}
if (aPackageName.length() > 0 && aClassName.length() > 0)
intent.setClassName(aPackageName, aClassName);
intent.setFlags(Intent.FLAG_ACTIVITY_CLEAR_TOP);
try {
GeckoApp.mAppContext.startActivity(intent);
return true;
} catch(ActivityNotFoundException e) {
return false;
}
}
static SynchronousQueue<String> sClipboardQueue =
new SynchronousQueue<String>();
private static String EMPTY_STRING = new String();
// On some devices, access to the clipboard service needs to happen
// on a thread with a looper, so dispatch this to our looper thread
// Note: the main looper won't work because it may be blocked on the
// gecko thread, which is most likely this thread
static String getClipboardText() {
getHandler().post(new Runnable() {
@SuppressWarnings("deprecation")
public void run() {
Context context = GeckoApp.mAppContext;
String text = null;
if (android.os.Build.VERSION.SDK_INT >= 11) {
android.content.ClipboardManager cm = (android.content.ClipboardManager)
context.getSystemService(Context.CLIPBOARD_SERVICE);
if (cm.hasPrimaryClip()) {
ClipData clip = cm.getPrimaryClip();
if (clip != null) {
ClipData.Item item = clip.getItemAt(0);
text = item.coerceToText(context).toString();
}
}
} else {
android.text.ClipboardManager cm = (android.text.ClipboardManager)
context.getSystemService(Context.CLIPBOARD_SERVICE);
if (cm.hasText())
text = cm.getText().toString();
}
try {
sClipboardQueue.put(text != null ? text : EMPTY_STRING);
} catch (InterruptedException ie) {}
}});
try {
String ret = sClipboardQueue.take();
return (EMPTY_STRING.equals(ret) ? null : ret);
} catch (InterruptedException ie) {}
return null;
}
static void setClipboardText(final String text) {
getHandler().post(new Runnable() {
@SuppressWarnings("deprecation")
public void run() {
Context context = GeckoApp.mAppContext;
if (android.os.Build.VERSION.SDK_INT >= 11) {
android.content.ClipboardManager cm = (android.content.ClipboardManager)
context.getSystemService(Context.CLIPBOARD_SERVICE);
cm.setPrimaryClip(ClipData.newPlainText("Text", text));
} else {
android.text.ClipboardManager cm = (android.text.ClipboardManager)
context.getSystemService(Context.CLIPBOARD_SERVICE);
cm.setText(text);
}
}});
}
public static void showAlertNotification(String aImageUrl, String aAlertTitle, String aAlertText,
String aAlertCookie, String aAlertName) {
Log.i(LOGTAG, "GeckoAppShell.showAlertNotification\n" +
"- image = '" + aImageUrl + "'\n" +
"- title = '" + aAlertTitle + "'\n" +
"- text = '" + aAlertText +"'\n" +
"- cookie = '" + aAlertCookie +"'\n" +
"- name = '" + aAlertName + "'");
int icon = R.drawable.icon; // Just use the app icon by default
Uri imageUri = Uri.parse(aImageUrl);
String scheme = imageUri.getScheme();
if ("drawable".equals(scheme)) {
String resource = imageUri.getSchemeSpecificPart();
resource = resource.substring(resource.lastIndexOf('/') + 1);
try {
Class<R.drawable> drawableClass = R.drawable.class;
Field f = drawableClass.getField(resource);
icon = f.getInt(null);
} catch (Exception e) {} // just means the resource doesn't exist
imageUri = null;
}
int notificationID = aAlertName.hashCode();
// Remove the old notification with the same ID, if any
removeNotification(notificationID);
AlertNotification notification =
new AlertNotification(GeckoApp.mAppContext,notificationID, icon,
aAlertTitle, aAlertText,
System.currentTimeMillis());
// The intent to launch when the user clicks the expanded notification
Intent notificationIntent = new Intent(GeckoApp.ACTION_ALERT_CLICK);
notificationIntent.setClassName(GeckoApp.mAppContext,
GeckoApp.mAppContext.getPackageName() + ".NotificationHandler");
// Put the strings into the intent as an URI "alert:<name>#<cookie>"
Uri dataUri = Uri.fromParts("alert", aAlertName, aAlertCookie);
notificationIntent.setData(dataUri);
PendingIntent contentIntent = PendingIntent.getBroadcast(GeckoApp.mAppContext, 0, notificationIntent, 0);
notification.setLatestEventInfo(GeckoApp.mAppContext, aAlertTitle, aAlertText, contentIntent);
notification.setCustomIcon(imageUri);
// The intent to execute when the status entry is deleted by the user with the "Clear All Notifications" button
Intent clearNotificationIntent = new Intent(GeckoApp.ACTION_ALERT_CLEAR);
clearNotificationIntent.setClassName(GeckoApp.mAppContext,
GeckoApp.mAppContext.getPackageName() + ".NotificationHandler");
clearNotificationIntent.setData(dataUri);
notification.deleteIntent = PendingIntent.getBroadcast(GeckoApp.mAppContext, 0, clearNotificationIntent, 0);
mAlertNotifications.put(notificationID, notification);
notification.show();
Log.i(LOGTAG, "Created notification ID " + notificationID);
}
public static void alertsProgressListener_OnProgress(String aAlertName, long aProgress, long aProgressMax, String aAlertText) {
Log.i(LOGTAG, "GeckoAppShell.alertsProgressListener_OnProgress\n" +
"- name = '" + aAlertName +"', " +
"progress = " + aProgress +" / " + aProgressMax + ", text = '" + aAlertText + "'");
int notificationID = aAlertName.hashCode();
AlertNotification notification = mAlertNotifications.get(notificationID);
if (notification != null)
notification.updateProgress(aAlertText, aProgress, aProgressMax);
if (aProgress == aProgressMax) {
// Hide the notification at 100%
removeObserver(aAlertName);
removeNotification(notificationID);
}
}
public static void alertsProgressListener_OnCancel(String aAlertName) {
Log.i(LOGTAG, "GeckoAppShell.alertsProgressListener_OnCancel('" + aAlertName + "')");
removeObserver(aAlertName);
int notificationID = aAlertName.hashCode();
removeNotification(notificationID);
}
public static void handleNotification(String aAction, String aAlertName, String aAlertCookie) {
int notificationID = aAlertName.hashCode();
if (GeckoApp.ACTION_ALERT_CLICK.equals(aAction)) {
Log.i(LOGTAG, "GeckoAppShell.handleNotification: callObserver(alertclickcallback)");
callObserver(aAlertName, "alertclickcallback", aAlertCookie);
AlertNotification notification = mAlertNotifications.get(notificationID);
if (notification != null && notification.isProgressStyle()) {
// When clicked, keep the notification, if it displays a progress
return;
}
}
callObserver(aAlertName, "alertfinished", aAlertCookie);
removeObserver(aAlertName);
removeNotification(notificationID);
}
private static void removeNotification(int notificationID) {
mAlertNotifications.remove(notificationID);
NotificationManager notificationManager = (NotificationManager)
GeckoApp.mAppContext.getSystemService(Context.NOTIFICATION_SERVICE);
notificationManager.cancel(notificationID);
}
public static int getDpi() {
if (sDensityDpi == 0) {
sDensityDpi = GeckoApp.mAppContext.getDisplayMetrics().densityDpi;
}
return sDensityDpi;
}
public static void setFullScreen(boolean fullscreen) {
GeckoApp.mAppContext.setFullScreen(fullscreen);
}
public static String showFilePickerForExtensions(String aExtensions) {
return GeckoApp.mAppContext.
showFilePicker(getMimeTypeFromExtensions(aExtensions));
}
public static String showFilePickerForMimeType(String aMimeType) {
return GeckoApp.mAppContext.showFilePicker(aMimeType);
}
public static void performHapticFeedback(boolean aIsLongPress) {
// Don't perform haptic feedback if a vibration is currently playing,
// because the haptic feedback will nuke the vibration.
if (!sVibrationMaybePlaying || System.nanoTime() >= sVibrationEndTime) {
LayerController layerController = GeckoApp.mAppContext.getLayerController();
LayerView layerView = layerController.getView();
layerView.performHapticFeedback(aIsLongPress ?
HapticFeedbackConstants.LONG_PRESS :
HapticFeedbackConstants.VIRTUAL_KEY);
}
}
private static Vibrator vibrator() {
LayerController layerController = GeckoApp.mAppContext.getLayerController();
LayerView layerView = layerController.getView();
return (Vibrator) layerView.getContext().getSystemService(Context.VIBRATOR_SERVICE);
}
public static void vibrate(long milliseconds) {
sVibrationEndTime = System.nanoTime() + milliseconds * 1000000;
sVibrationMaybePlaying = true;
vibrator().vibrate(milliseconds);
}
public static void vibrate(long[] pattern, int repeat) {
// If pattern.length is even, the last element in the pattern is a
// meaningless delay, so don't include it in vibrationDuration.
long vibrationDuration = 0;
int iterLen = pattern.length - (pattern.length % 2 == 0 ? 1 : 0);
for (int i = 0; i < iterLen; i++) {
vibrationDuration += pattern[i];
}
sVibrationEndTime = System.nanoTime() + vibrationDuration * 1000000;
sVibrationMaybePlaying = true;
vibrator().vibrate(pattern, repeat);
}
public static void cancelVibrate() {
sVibrationMaybePlaying = false;
sVibrationEndTime = 0;
vibrator().cancel();
}
public static void showInputMethodPicker() {
InputMethodManager imm = (InputMethodManager)
GeckoApp.mAppContext.getSystemService(Context.INPUT_METHOD_SERVICE);
imm.showInputMethodPicker();
}
public static void setKeepScreenOn(final boolean on) {
GeckoApp.mAppContext.runOnUiThread(new Runnable() {
public void run() {
// TODO
}
});
}
public static void notifyDefaultPrevented(final boolean defaultPrevented) {
getMainHandler().post(new Runnable() {
public void run() {
LayerView view = GeckoApp.mAppContext.getLayerController().getView();
view.getTouchEventHandler().handleEventListenerAction(!defaultPrevented);
}
});
}
public static boolean isNetworkLinkUp() {
ConnectivityManager cm = (ConnectivityManager)
GeckoApp.mAppContext.getSystemService(Context.CONNECTIVITY_SERVICE);
NetworkInfo info = cm.getActiveNetworkInfo();
if (info == null || !info.isConnected())
return false;
return true;
}
public static boolean isNetworkLinkKnown() {
ConnectivityManager cm = (ConnectivityManager)
GeckoApp.mAppContext.getSystemService(Context.CONNECTIVITY_SERVICE);
if (cm.getActiveNetworkInfo() == null)
return false;
return true;
}
public static void setSelectedLocale(String localeCode) {
/* Bug 713464: This method is still called from Gecko side.
Earlier we had an option to run Firefox in a language other than system's language.
However, this is not supported as of now.
Gecko resets the locale to en-US by calling this function with an empty string.
This affects GeckoPreferences activity in multi-locale builds.
//We're not using this, not need to save it (see bug 635342)
SharedPreferences settings =
GeckoApp.mAppContext.getPreferences(Activity.MODE_PRIVATE);
settings.edit().putString(GeckoApp.mAppContext.getPackageName() + ".locale",
localeCode).commit();
Locale locale;
int index;
if ((index = localeCode.indexOf('-')) != -1 ||
(index = localeCode.indexOf('_')) != -1) {
String langCode = localeCode.substring(0, index);
String countryCode = localeCode.substring(index + 1);
locale = new Locale(langCode, countryCode);
} else {
locale = new Locale(localeCode);
}
Locale.setDefault(locale);
Resources res = GeckoApp.mAppContext.getBaseContext().getResources();
Configuration config = res.getConfiguration();
config.locale = locale;
res.updateConfiguration(config, res.getDisplayMetrics());
*/
}
public static int[] getSystemColors() {
// attrsAppearance[] must correspond to AndroidSystemColors structure in android/AndroidBridge.h
final int[] attrsAppearance = {
android.R.attr.textColor,
android.R.attr.textColorPrimary,
android.R.attr.textColorPrimaryInverse,
android.R.attr.textColorSecondary,
android.R.attr.textColorSecondaryInverse,
android.R.attr.textColorTertiary,
android.R.attr.textColorTertiaryInverse,
android.R.attr.textColorHighlight,
android.R.attr.colorForeground,
android.R.attr.colorBackground,
android.R.attr.panelColorForeground,
android.R.attr.panelColorBackground
};
int[] result = new int[attrsAppearance.length];
final ContextThemeWrapper contextThemeWrapper =
new ContextThemeWrapper(GeckoApp.mAppContext, android.R.style.TextAppearance);
final TypedArray appearance = contextThemeWrapper.getTheme().obtainStyledAttributes(attrsAppearance);
if (appearance != null) {
for (int i = 0; i < appearance.getIndexCount(); i++) {
int idx = appearance.getIndex(i);
int color = appearance.getColor(idx, 0);
result[idx] = color;
}
appearance.recycle();
}
return result;
}
public static void killAnyZombies() {
GeckoProcessesVisitor visitor = new GeckoProcessesVisitor() {
public boolean callback(int pid) {
if (pid != android.os.Process.myPid())
android.os.Process.killProcess(pid);
return true;
}
};
EnumerateGeckoProcesses(visitor);
}
public static boolean checkForGeckoProcs() {
class GeckoPidCallback implements GeckoProcessesVisitor {
public boolean otherPidExist = false;
public boolean callback(int pid) {
if (pid != android.os.Process.myPid()) {
otherPidExist = true;
return false;
}
return true;
}
}
GeckoPidCallback visitor = new GeckoPidCallback();
EnumerateGeckoProcesses(visitor);
return visitor.otherPidExist;
}
interface GeckoProcessesVisitor{
boolean callback(int pid);
}
static int sPidColumn = -1;
static int sUserColumn = -1;
private static void EnumerateGeckoProcesses(GeckoProcessesVisitor visiter) {
try {
// run ps and parse its output
java.lang.Process ps = Runtime.getRuntime().exec("ps");
BufferedReader in = new BufferedReader(new InputStreamReader(ps.getInputStream()),
2048);
String headerOutput = in.readLine();
// figure out the column offsets. We only care about the pid and user fields
if (sPidColumn == -1 || sUserColumn == -1) {
StringTokenizer st = new StringTokenizer(headerOutput);
int tokenSoFar = 0;
while(st.hasMoreTokens()) {
String next = st.nextToken();
if (next.equalsIgnoreCase("PID"))
sPidColumn = tokenSoFar;
else if (next.equalsIgnoreCase("USER"))
sUserColumn = tokenSoFar;
tokenSoFar++;
}
}
// alright, the rest are process entries.
String psOutput = null;
while ((psOutput = in.readLine()) != null) {
String[] split = psOutput.split("\\s+");
if (split.length <= sPidColumn || split.length <= sUserColumn)
continue;
int uid = android.os.Process.getUidForName(split[sUserColumn]);
if (uid == android.os.Process.myUid() &&
!split[split.length - 1].equalsIgnoreCase("ps")) {
int pid = Integer.parseInt(split[sPidColumn]);
boolean keepGoing = visiter.callback(pid);
if (keepGoing == false)
break;
}
}
in.close();
}
catch (Exception e) {
Log.i(LOGTAG, "finding procs throws ", e);
}
}
public static void waitForAnotherGeckoProc(){
int countdown = 40;
while (!checkForGeckoProcs() && --countdown > 0) {
try {
Thread.sleep(100);
} catch (InterruptedException ie) {}
}
}
public static void scanMedia(String aFile, String aMimeType) {
Context context = GeckoApp.mAppContext;
GeckoMediaScannerClient client = new GeckoMediaScannerClient(context, aFile, aMimeType);
}
public static byte[] getIconForExtension(String aExt, int iconSize) {
try {
if (iconSize <= 0)
iconSize = 16;
if (aExt != null && aExt.length() > 1 && aExt.charAt(0) == '.')
aExt = aExt.substring(1);
PackageManager pm = GeckoApp.mAppContext.getPackageManager();
Drawable icon = getDrawableForExtension(pm, aExt);
if (icon == null) {
// Use a generic icon
icon = pm.getDefaultActivityIcon();
}
Bitmap bitmap = ((BitmapDrawable)icon).getBitmap();
if (bitmap.getWidth() != iconSize || bitmap.getHeight() != iconSize)
bitmap = Bitmap.createScaledBitmap(bitmap, iconSize, iconSize, true);
ByteBuffer buf = ByteBuffer.allocate(iconSize * iconSize * 4);
bitmap.copyPixelsToBuffer(buf);
return buf.array();
}
catch (Exception e) {
Log.i(LOGTAG, "getIconForExtension error: ", e);
return null;
}
}
private static Drawable getDrawableForExtension(PackageManager pm, String aExt) {
Intent intent = new Intent(Intent.ACTION_VIEW);
MimeTypeMap mtm = MimeTypeMap.getSingleton();
String mimeType = mtm.getMimeTypeFromExtension(aExt);
if (mimeType != null && mimeType.length() > 0)
intent.setType(mimeType);
else
return null;
List<ResolveInfo> list = pm.queryIntentActivities(intent, 0);
if (list.size() == 0)
return null;
ResolveInfo resolveInfo = list.get(0);
if (resolveInfo == null)
return null;
ActivityInfo activityInfo = resolveInfo.activityInfo;
return activityInfo.loadIcon(pm);
}
public static boolean getShowPasswordSetting() {
try {
int showPassword =
Settings.System.getInt(GeckoApp.mAppContext.getContentResolver(),
Settings.System.TEXT_SHOW_PASSWORD, 1);
return (showPassword > 0);
}
catch (Exception e) {
return true;
}
}
public static void addPluginView(View view,
int x, int y,
int w, int h,
boolean isFullScreen)
{
ImmutableViewportMetrics pluginViewport;
Log.i(LOGTAG, "addPluginView:" + view + " @ x:" + x + " y:" + y + " w:" + w + " h:" + h + " fullscreen: " + isFullScreen);
GeckoApp.mAppContext.addPluginView(view, new Rect(x, y, x + w, y + h), isFullScreen);
}
public static void removePluginView(View view, boolean isFullScreen) {
Log.i(LOGTAG, "removePluginView:" + view + " fullscreen: " + isFullScreen);
GeckoApp.mAppContext.removePluginView(view, isFullScreen);
}
public static Surface createSurface() {
Log.i(LOGTAG, "createSurface");
return GeckoApp.mAppContext.createSurface();
}
public static void showSurface(Surface surface,
int x, int y,
int w, int h,
boolean inverted,
boolean blend)
{
Log.i(LOGTAG, "showSurface:" + surface + " @ x:" + x + " y:" + y + " w:" + w + " h:" + h + " inverted: " + inverted + " blend: " + blend);
try {
GeckoApp.mAppContext.showSurface(surface, x, y, w, h, inverted, blend);
} catch (Exception e) {
Log.i(LOGTAG, "Error in showSurface:", e);
}
}
public static void hideSurface(Surface surface) {
Log.i(LOGTAG, "hideSurface:" + surface);
GeckoApp.mAppContext.hideSurface(surface);
}
public static void destroySurface(Surface surface) {
Log.i(LOGTAG, "destroySurface:" + surface);
GeckoApp.mAppContext.destroySurface(surface);
}
public static Class<?> loadPluginClass(String className, String libName) {
Log.i(LOGTAG, "in loadPluginClass... attempting to access className, then libName.....");
Log.i(LOGTAG, "className: " + className);
Log.i(LOGTAG, "libName: " + libName);
try {
String packageName = GeckoApp.mAppContext.getPluginPackage(libName);
Log.i(LOGTAG, "load \"" + className + "\" from \"" + packageName +
"\" for \"" + libName + "\"");
Context pluginContext =
GeckoApp.mAppContext.createPackageContext(packageName,
Context.CONTEXT_INCLUDE_CODE |
Context.CONTEXT_IGNORE_SECURITY);
ClassLoader pluginCL = pluginContext.getClassLoader();
return pluginCL.loadClass(className);
} catch (java.lang.ClassNotFoundException cnfe) {
Log.i(LOGTAG, "class not found", cnfe);
} catch (android.content.pm.PackageManager.NameNotFoundException nnfe) {
Log.i(LOGTAG, "package not found", nnfe);
}
Log.e(LOGTAG, "couldn't find class");
return null;
}
static native void executeNextRunnable();
static class GeckoRunnableCallback implements Runnable {
public void run() {
Log.i(LOGTAG, "run GeckoRunnableCallback");
GeckoAppShell.executeNextRunnable();
}
}
public static void postToJavaThread(boolean mainThread) {
Log.i(LOGTAG, "post to " + (mainThread ? "main " : "") + "java thread");
getMainHandler().post(new GeckoRunnableCallback());
}
public static android.hardware.Camera sCamera = null;
static native void cameraCallbackBridge(byte[] data);
static int kPreferedFps = 25;
static byte[] sCameraBuffer = null;
static int[] initCamera(String aContentType, int aCamera, int aWidth, int aHeight) {
Log.i(LOGTAG, "initCamera(" + aContentType + ", " + aWidth + "x" + aHeight + ") on thread " + Thread.currentThread().getId());
getMainHandler().post(new Runnable() {
public void run() {
try {
GeckoApp.mAppContext.enableCameraView();
} catch (Exception e) {}
}
});
// [0] = 0|1 (failure/success)
// [1] = width
// [2] = height
// [3] = fps
int[] result = new int[4];
result[0] = 0;
if (Build.VERSION.SDK_INT >= 9) {
if (android.hardware.Camera.getNumberOfCameras() == 0)
return result;
}
try {
// no front/back camera before API level 9
if (Build.VERSION.SDK_INT >= 9)
sCamera = android.hardware.Camera.open(aCamera);
else
sCamera = android.hardware.Camera.open();
android.hardware.Camera.Parameters params = sCamera.getParameters();
params.setPreviewFormat(ImageFormat.NV21);
// use the preview fps closest to 25 fps.
int fpsDelta = 1000;
try {
Iterator<Integer> it = params.getSupportedPreviewFrameRates().iterator();
while (it.hasNext()) {
int nFps = it.next();
if (Math.abs(nFps - kPreferedFps) < fpsDelta) {
fpsDelta = Math.abs(nFps - kPreferedFps);
params.setPreviewFrameRate(nFps);
}
}
} catch(Exception e) {
params.setPreviewFrameRate(kPreferedFps);
}
// set up the closest preview size available
Iterator<android.hardware.Camera.Size> sit = params.getSupportedPreviewSizes().iterator();
int sizeDelta = 10000000;
int bufferSize = 0;
while (sit.hasNext()) {
android.hardware.Camera.Size size = sit.next();
if (Math.abs(size.width * size.height - aWidth * aHeight) < sizeDelta) {
sizeDelta = Math.abs(size.width * size.height - aWidth * aHeight);
params.setPreviewSize(size.width, size.height);
bufferSize = size.width * size.height;
}
}
try {
sCamera.setPreviewDisplay(GeckoApp.cameraView.getHolder());
} catch(IOException e) {
Log.e(LOGTAG, "Error setPreviewDisplay:", e);
} catch(RuntimeException e) {
Log.e(LOGTAG, "Error setPreviewDisplay:", e);
}
sCamera.setParameters(params);
sCameraBuffer = new byte[(bufferSize * 12) / 8];
sCamera.addCallbackBuffer(sCameraBuffer);
sCamera.setPreviewCallbackWithBuffer(new android.hardware.Camera.PreviewCallback() {
public void onPreviewFrame(byte[] data, android.hardware.Camera camera) {
cameraCallbackBridge(data);
if (sCamera != null)
sCamera.addCallbackBuffer(sCameraBuffer);
}
});
sCamera.startPreview();
params = sCamera.getParameters();
Log.i(LOGTAG, "Camera: " + params.getPreviewSize().width + "x" + params.getPreviewSize().height +
" @ " + params.getPreviewFrameRate() + "fps. format is " + params.getPreviewFormat());
result[0] = 1;
result[1] = params.getPreviewSize().width;
result[2] = params.getPreviewSize().height;
result[3] = params.getPreviewFrameRate();
Log.i(LOGTAG, "Camera preview started");
} catch(RuntimeException e) {
Log.e(LOGTAG, "initCamera RuntimeException : ", e);
result[0] = result[1] = result[2] = result[3] = 0;
}
return result;
}
static synchronized void closeCamera() {
Log.i(LOGTAG, "closeCamera() on thread " + Thread.currentThread().getId());
getMainHandler().post(new Runnable() {
public void run() {
try {
GeckoApp.mAppContext.disableCameraView();
} catch (Exception e) {}
}
});
if (sCamera != null) {
sCamera.stopPreview();
sCamera.release();
sCamera = null;
sCameraBuffer = null;
}
}
/**
* Adds a listener for a gecko event.
* This method is thread-safe and may be called at any time. In particular, calling it
* with an event that is currently being processed has the properly-defined behaviour that
* any added listeners will not be invoked on the event currently being processed, but
* will be invoked on future events of that type.
*
* This method is referenced by Robocop via reflection.
*/
public static void registerGeckoEventListener(String event, GeckoEventListener listener) {
synchronized (mEventListeners) {
CopyOnWriteArrayList<GeckoEventListener> listeners = mEventListeners.get(event);
if (listeners == null) {
// create a CopyOnWriteArrayList so that we can modify it
// concurrently with iterating through it in handleGeckoMessage.
// Otherwise we could end up throwing a ConcurrentModificationException.
listeners = new CopyOnWriteArrayList<GeckoEventListener>();
}
listeners.add(listener);
mEventListeners.put(event, listeners);
}
}
static SynchronousQueue<Date> sTracerQueue = new SynchronousQueue<Date>();
public static void fireAndWaitForTracerEvent() {
getMainHandler().post(new Runnable() {
public void run() {
try {
sTracerQueue.put(new Date());
} catch(InterruptedException ie) {
Log.w(LOGTAG, "exception firing tracer", ie);
}
}
});
try {
sTracerQueue.take();
} catch(InterruptedException ie) {
Log.w(LOGTAG, "exception firing tracer", ie);
}
}
/**
* Remove a previously-registered listener for a gecko event.
* This method is thread-safe and may be called at any time. In particular, calling it
* with an event that is currently being processed has the properly-defined behaviour that
* any removed listeners will still be invoked on the event currently being processed, but
* will not be invoked on future events of that type.
*
* This method is referenced by Robocop via reflection.
*/
public static void unregisterGeckoEventListener(String event, GeckoEventListener listener) {
synchronized (mEventListeners) {
CopyOnWriteArrayList<GeckoEventListener> listeners = mEventListeners.get(event);
if (listeners == null) {
return;
}
listeners.remove(listener);
if (listeners.size() == 0) {
mEventListeners.remove(event);
}
}
}
/*
* Battery API related methods.
*/
public static void enableBatteryNotifications() {
GeckoBatteryManager.enableNotifications();
}
public static String handleGeckoMessage(String message) {
//
// {"gecko": {
// "type": "value",
// "event_specific": "value",
// ....
try {
JSONObject json = new JSONObject(message);
final JSONObject geckoObject = json.getJSONObject("gecko");
String type = geckoObject.getString("type");
CopyOnWriteArrayList<GeckoEventListener> listeners;
synchronized (mEventListeners) {
listeners = mEventListeners.get(type);
}
if (listeners == null)
return "";
String response = null;
for (GeckoEventListener listener : listeners) {
listener.handleMessage(type, geckoObject);
if (listener instanceof GeckoEventResponder) {
String newResponse = ((GeckoEventResponder)listener).getResponse();
if (response != null && newResponse != null) {
Log.e(LOGTAG, "Received two responses for message of type " + type);
}
response = newResponse;
}
}
if (response != null)
return response;
} catch (Exception e) {
Log.e(LOGTAG, "handleGeckoMessage throws " + e, e);
}
return "";
}
public static void disableBatteryNotifications() {
GeckoBatteryManager.disableNotifications();
}
public static double[] getCurrentBatteryInformation() {
return GeckoBatteryManager.getCurrentInformation();
}
static void checkUriVisited(String uri) { // invoked from native JNI code
GlobalHistory.getInstance().checkUriVisited(uri);
}
static void markUriVisited(final String uri) { // invoked from native JNI code
getHandler().post(new Runnable() {
public void run() {
GlobalHistory.getInstance().add(uri);
}
});
}
static void hideProgressDialog() {
// unused stub
}
/*
* WebSMS related methods.
*/
public static int getNumberOfMessagesForText(String aText) {
if (SmsManager.getInstance() == null) {
return 0;
}
return SmsManager.getInstance().getNumberOfMessagesForText(aText);
}
public static void sendMessage(String aNumber, String aMessage, int aRequestId, long aProcessId) {
if (SmsManager.getInstance() == null) {
return;
}
SmsManager.getInstance().send(aNumber, aMessage, aRequestId, aProcessId);
}
public static int saveSentMessage(String aRecipient, String aBody, long aDate) {
if (SmsManager.getInstance() == null) {
return -1;
}
return SmsManager.getInstance().saveSentMessage(aRecipient, aBody, aDate);
}
public static void getMessage(int aMessageId, int aRequestId, long aProcessId) {
if (SmsManager.getInstance() == null) {
return;
}
SmsManager.getInstance().getMessage(aMessageId, aRequestId, aProcessId);
}
public static void deleteMessage(int aMessageId, int aRequestId, long aProcessId) {
if (SmsManager.getInstance() == null) {
return;
}
SmsManager.getInstance().deleteMessage(aMessageId, aRequestId, aProcessId);
}
public static void createMessageList(long aStartDate, long aEndDate, String[] aNumbers, int aNumbersCount, int aDeliveryState, boolean aReverse, int aRequestId, long aProcessId) {
if (SmsManager.getInstance() == null) {
return;
}
SmsManager.getInstance().createMessageList(aStartDate, aEndDate, aNumbers, aNumbersCount, aDeliveryState, aReverse, aRequestId, aProcessId);
}
public static void getNextMessageInList(int aListId, int aRequestId, long aProcessId) {
if (SmsManager.getInstance() == null) {
return;
}
SmsManager.getInstance().getNextMessageInList(aListId, aRequestId, aProcessId);
}
public static void clearMessageList(int aListId) {
if (SmsManager.getInstance() == null) {
return;
}
SmsManager.getInstance().clearMessageList(aListId);
}
public static boolean isTablet() {
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.GINGERBREAD) {
Configuration config = GeckoApp.mAppContext.getResources().getConfiguration();
// xlarge is defined by android as screens larger than 960dp x 720dp
// and should include most devices ~7in and up.
// http://developer.android.com/guide/practices/screens_support.html
if ((config.screenLayout & Configuration.SCREENLAYOUT_SIZE_MASK) >= Configuration.SCREENLAYOUT_SIZE_XLARGE) {
return true;
}
}
return false;
}
public static void viewSizeChanged() {
if (mInputConnection != null && mInputConnection.isIMEEnabled()) {
sendEventToGecko(GeckoEvent.createBroadcastEvent("ScrollTo:FocusedInput", ""));
}
}
public static double[] getCurrentNetworkInformation() {
return GeckoNetworkManager.getInstance().getCurrentInformation();
}
public static void enableNetworkNotifications() {
GeckoNetworkManager.getInstance().enableNotifications();
}
public static void disableNetworkNotifications() {
GeckoNetworkManager.getInstance().disableNotifications();
}
// values taken from android's Base64
public static final int BASE64_DEFAULT = 0;
public static final int BASE64_URL_SAFE = 8;
/**
* taken from http://www.source-code.biz/base64coder/java/Base64Coder.java.txt and modified (MIT License)
*/
// Mapping table from 6-bit nibbles to Base64 characters.
private static final byte[] map1 = new byte[64];
private static final byte[] map1_urlsafe;
static {
int i=0;
for (byte c='A'; c<='Z'; c++) map1[i++] = c;
for (byte c='a'; c<='z'; c++) map1[i++] = c;
for (byte c='0'; c<='9'; c++) map1[i++] = c;
map1[i++] = '+'; map1[i++] = '/';
map1_urlsafe = map1.clone();
map1_urlsafe[62] = '-'; map1_urlsafe[63] = '_';
}
// Mapping table from Base64 characters to 6-bit nibbles.
private static final byte[] map2 = new byte[128];
static {
for (int i=0; i<map2.length; i++) map2[i] = -1;
for (int i=0; i<64; i++) map2[map1[i]] = (byte)i;
map2['-'] = (byte)62; map2['_'] = (byte)63;
}
final static byte EQUALS_ASCII = (byte) '=';
/**
* Encodes a byte array into Base64 format.
* No blanks or line breaks are inserted in the output.
* @param in An array containing the data bytes to be encoded.
* @return A character array containing the Base64 encoded data.
*/
public static byte[] encodeBase64(byte[] in, int flags) {
if (Build.VERSION.SDK_INT >=Build.VERSION_CODES.FROYO)
return Base64.encode(in, flags | Base64.NO_WRAP);
int oDataLen = (in.length*4+2)/3; // output length without padding
int oLen = ((in.length+2)/3)*4; // output length including padding
byte[] out = new byte[oLen];
int ip = 0;
int iEnd = in.length;
int op = 0;
byte[] toMap = ((flags & BASE64_URL_SAFE) == 0 ? map1 : map1_urlsafe);
while (ip < iEnd) {
int i0 = in[ip++] & 0xff;
int i1 = ip < iEnd ? in[ip++] & 0xff : 0;
int i2 = ip < iEnd ? in[ip++] & 0xff : 0;
int o0 = i0 >>> 2;
int o1 = ((i0 & 3) << 4) | (i1 >>> 4);
int o2 = ((i1 & 0xf) << 2) | (i2 >>> 6);
int o3 = i2 & 0x3F;
out[op++] = toMap[o0];
out[op++] = toMap[o1];
out[op] = op < oDataLen ? toMap[o2] : EQUALS_ASCII; op++;
out[op] = op < oDataLen ? toMap[o3] : EQUALS_ASCII; op++;
}
return out;
}
/**
* Decodes a byte array from Base64 format.
* No blanks or line breaks are allowed within the Base64 encoded input data.
* @param in A character array containing the Base64 encoded data.
* @param iOff Offset of the first character in <code>in</code> to be processed.
* @param iLen Number of characters to process in <code>in</code>, starting at <code>iOff</code>.
* @return An array containing the decoded data bytes.
* @throws IllegalArgumentException If the input is not valid Base64 encoded data.
*/
public static byte[] decodeBase64(byte[] in, int flags) {
if (Build.VERSION.SDK_INT >=Build.VERSION_CODES.FROYO)
return Base64.decode(in, flags);
int iOff = 0;
int iLen = in.length;
if (iLen%4 != 0) throw new IllegalArgumentException ("Length of Base64 encoded input string is not a multiple of 4.");
while (iLen > 0 && in[iOff+iLen-1] == '=') iLen--;
int oLen = (iLen*3) / 4;
byte[] out = new byte[oLen];
int ip = iOff;
int iEnd = iOff + iLen;
int op = 0;
while (ip < iEnd) {
int i0 = in[ip++];
int i1 = in[ip++];
int i2 = ip < iEnd ? in[ip++] : 'A';
int i3 = ip < iEnd ? in[ip++] : 'A';
if (i0 > 127 || i1 > 127 || i2 > 127 || i3 > 127)
throw new IllegalArgumentException ("Illegal character in Base64 encoded data.");
int b0 = map2[i0];
int b1 = map2[i1];
int b2 = map2[i2];
int b3 = map2[i3];
if (b0 < 0 || b1 < 0 || b2 < 0 || b3 < 0)
throw new IllegalArgumentException ("Illegal character in Base64 encoded data.");
int o0 = ( b0 <<2) | (b1>>>4);
int o1 = ((b1 & 0xf)<<4) | (b2>>>2);
int o2 = ((b2 & 3)<<6) | b3;
out[op++] = (byte)o0;
if (op<oLen) out[op++] = (byte)o1;
if (op<oLen) out[op++] = (byte)o2; }
return out;
}
public static byte[] decodeBase64(String s, int flags) {
return decodeBase64(s.getBytes(), flags);
}
public static short getScreenOrientation() {
return GeckoScreenOrientationListener.getInstance().getScreenOrientation();
}
public static void enableScreenOrientationNotifications() {
GeckoScreenOrientationListener.getInstance().enableNotifications();
}
public static void disableScreenOrientationNotifications() {
GeckoScreenOrientationListener.getInstance().disableNotifications();
}
public static void lockScreenOrientation(int aOrientation) {
GeckoScreenOrientationListener.getInstance().lockScreenOrientation(aOrientation);
}
public static void unlockScreenOrientation() {
GeckoScreenOrientationListener.getInstance().unlockScreenOrientation();
}
public static void pumpMessageLoop() {
MessageQueue mq = Looper.myQueue();
Message msg = getNextMessageFromQueue(mq);
if (msg == null)
return;
if (msg.getTarget() == null)
Looper.myLooper().quit();
else
msg.getTarget().dispatchMessage(msg);
msg.recycle();
}
static class AsyncResultHandler extends GeckoApp.FilePickerResultHandler {
private long mId;
AsyncResultHandler(long id) {
mId = id;
}
public void onActivityResult(int resultCode, Intent data) {
GeckoAppShell.notifyFilePickerResult(handleActivityResult(resultCode, data), mId);
}
}
static native void notifyFilePickerResult(String filePath, long id);
/* Called by JNI from AndroidBridge */
public static void showFilePickerAsync(String aMimeType, long id) {
if (!GeckoApp.mAppContext.showFilePicker(aMimeType, new AsyncResultHandler(id)))
GeckoAppShell.notifyFilePickerResult("", id);
}
public static void screenshotWholePage(Tab tab) {
ScreenshotHandler.screenshotWholePage(tab);
}
// Called by AndroidBridge using JNI
public static void notifyPaintedRect(float top, float left, float bottom, float right) {
ScreenshotHandler.notifyPaintedRect(top, left, bottom, right);
}
public static void notifyWakeLockChanged(String topic, String state) {
GeckoApp.mAppContext.notifyWakeLockChanged(topic, state);
}
}
class ScreenshotHandler {
private static Queue<PendingScreenshot> sPendingScreenshots = new LinkedList<PendingScreenshot>();
private static RectF sCheckerboardPageRect;
private static float sLastCheckerboardWidthRatio, sLastCheckerboardHeightRatio;
private static RepaintRunnable sRepaintRunnable = new RepaintRunnable();
private static int sMaxTextureSize = 0;
private static final String LOGTAG = "GeckoScreenshot";
private static boolean sDisableScreenshot = false;
private static ByteBuffer sWholePageScreenshotBuffer;
private static int sCheckerboardBufferWidth, sCheckerboardBufferHeight;
private static Rect sAcumulatedRect = new Rect();
static class RepaintRunnable implements Runnable {
private boolean mIsRepaintRunnablePosted = false;
private float mDirtyTop = Float.POSITIVE_INFINITY, mDirtyLeft = Float.POSITIVE_INFINITY;
private float mDirtyBottom = Float.NEGATIVE_INFINITY, mDirtyRight = Float.NEGATIVE_INFINITY;
public void run() {
float top, left, bottom, right;
// synchronize so we don't try to accumulate more rects while painting the ones we have
synchronized(this) {
top = mDirtyTop;
left = mDirtyLeft;
right = mDirtyRight;
bottom = mDirtyBottom;
// reset these to infinity to start accumulating again
mDirtyTop = Float.POSITIVE_INFINITY;
mDirtyLeft = Float.POSITIVE_INFINITY;
mDirtyBottom = Float.NEGATIVE_INFINITY;
mDirtyRight = Float.NEGATIVE_INFINITY;
mIsRepaintRunnablePosted = false;
}
Tab tab = Tabs.getInstance().getSelectedTab();
ImmutableViewportMetrics viewport = GeckoApp.mAppContext.getLayerController().getViewportMetrics();
if (RectUtils.fuzzyEquals(sCheckerboardPageRect, viewport.getCssPageRect())) {
float width = right - left;
float height = bottom - top;
scheduleCheckerboardScreenshotEvent(tab.getId(),
(int)left, (int)top, (int)width, (int)height,
(int)(sLastCheckerboardWidthRatio * left),
(int)(sLastCheckerboardHeightRatio * top),
(int)(sLastCheckerboardWidthRatio * width),
(int)(sLastCheckerboardHeightRatio * height),
sCheckerboardBufferWidth, sCheckerboardBufferHeight);
} else {
GeckoAppShell.screenshotWholePage(tab);
}
}
void addRectToRepaint(float top, float left, float bottom, float right) {
synchronized(this) {
ImmutableViewportMetrics viewport = GeckoApp.mAppContext.getLayerController().getViewportMetrics();
mDirtyTop = Math.max(sCheckerboardPageRect.top, Math.min(top, mDirtyTop));
mDirtyLeft = Math.max(sCheckerboardPageRect.left, Math.min(left, mDirtyLeft));
mDirtyBottom = Math.min(sCheckerboardPageRect.bottom, Math.max(bottom, mDirtyBottom));
mDirtyRight = Math.min(sCheckerboardPageRect.right, Math.max(right, mDirtyRight));
if (!mIsRepaintRunnablePosted) {
GeckoAppShell.getHandler().postDelayed(this, 5000);
mIsRepaintRunnablePosted = true;
}
}
}
}
public static void notifyPaintedRect(float top, float left, float bottom, float right) {
sRepaintRunnable.addRectToRepaint(top, left, bottom, right);
}
private static int clamp(int min, int val, int max) {
return Math.max(Math.min(max, val), min);
}
// Invoked via reflection from robocop test
public static void disableScreenshot() {
sDisableScreenshot = true;
}
public static void screenshotWholePage(Tab tab) {
if (sDisableScreenshot) {
return;
}
if (GeckoApp.mAppContext.isApplicationInBackground())
return;
if (sMaxTextureSize == 0) {
int[] maxTextureSize = new int[1];
GLES20.glGetIntegerv(GLES20.GL_MAX_TEXTURE_SIZE, maxTextureSize, 0);
sMaxTextureSize = maxTextureSize[0];
if (sMaxTextureSize == 0)
return;
sWholePageScreenshotBuffer = GeckoAppShell.allocateDirectBuffer(ScreenshotLayer.getMaxNumPixels() * 2 /* 16 bpp */);
}
ImmutableViewportMetrics viewport = GeckoApp.mAppContext.getLayerController().getViewportMetrics();
Log.i(LOGTAG, "Taking whole-screen screenshot, viewport: " + viewport);
// source width and height to screenshot
float sx = viewport.cssPageRectLeft;
float sy = viewport.cssPageRectTop;
float sw = viewport.cssPageRectRight - viewport.cssPageRectLeft;
float sh = viewport.cssPageRectBottom - viewport.cssPageRectTop;
if (sw == 0 || sh == 0)
return;
int maxPixels = Math.min(ScreenshotLayer.getMaxNumPixels(), sMaxTextureSize * sMaxTextureSize);
// 2Mb of 16bit image data
// may be bumped by up to 4x for power of 2 alignment
float idealZoomFactor = (float)Math.sqrt((sw * sh) / (maxPixels / 4));
// calc destination width and hight
int idealDstWidth = IntSize.nextPowerOfTwo(sw / idealZoomFactor);
// min texture size such that the other dimention doesn't excede the max
int minTextureSize = maxPixels / sMaxTextureSize;
int dx = 0;
int dy = 0;
int dw = clamp(minTextureSize, idealDstWidth, sMaxTextureSize);
int dh = maxPixels / dw;
sCheckerboardBufferWidth = dw;
sCheckerboardBufferHeight = dh;
sLastCheckerboardWidthRatio = dw / sw;
sLastCheckerboardHeightRatio = dh / sh;
sCheckerboardPageRect = viewport.getCssPageRect();
scheduleCheckerboardScreenshotEvent(tab.getId(), (int)sx, (int)sy, (int)sw, (int)sh, dx, dy, dw, dh, dw, dh);
}
static void scheduleCheckerboardScreenshotEvent(int tabId, int sx, int sy, int sw, int sh, int dx, int dy, int dw, int dh, int bw, int bh) {
float totalSize = sw * sh;
int numSlices = (int) Math.ceil(totalSize / 100000);
if (numSlices == 0)
return;
int srcSliceSize = (int) Math.ceil(sh / numSlices);
int dstSliceSize = (int) Math.ceil(dh / numSlices);
for (int i = 0; i < numSlices; i++) {
GeckoEvent event =
GeckoEvent.createScreenshotEvent(tabId,
sx, sy + srcSliceSize * i, sw, srcSliceSize,
dx, dy + dstSliceSize * i, dw, dstSliceSize, bw, bh,
i < numSlices - 1 ?
GeckoAppShell.SCREENSHOT_CHECKERBOARD
: GeckoAppShell.SCREENSHOT_CHECKERBOARD_AND_UPDATE,
sWholePageScreenshotBuffer);
synchronized(sPendingScreenshots) {
sPendingScreenshots.add(new PendingScreenshot(tabId, event));
if (sPendingScreenshots.size() == 1)
sendNextEventToGecko();
}
}
}
static void sendNextEventToGecko() {
synchronized(sPendingScreenshots) {
if (sPendingScreenshots.isEmpty())
return;
GeckoAppShell.sendEventToGecko(sPendingScreenshots.element().getEvent());
}
}
static class PendingScreenshot {
private final GeckoEvent mEvent;
private final int mTabId;
PendingScreenshot(int tabId, GeckoEvent event) {
mTabId = tabId;
mEvent = event;
}
GeckoEvent getEvent() {
return mEvent;
}
}
public static void notifyScreenShot(final ByteBuffer data, final int tabId,
final int left, final int top,
final int right, final int bottom,
final int bufferWidth, final int bufferHeight, final int token) {
GeckoAppShell.getHandler().post(new Runnable() {
public void run() {
final Tab tab = Tabs.getInstance().getTab(tabId);
if (tab == null) {
if (token == GeckoAppShell.SCREENSHOT_CHECKERBOARD ||
token == GeckoAppShell.SCREENSHOT_CHECKERBOARD_AND_UPDATE) {
synchronized(sPendingScreenshots) {
sPendingScreenshots.remove();
sendNextEventToGecko();
}
}
return;
}
switch (token) {
case GeckoAppShell.SCREENSHOT_CHECKERBOARD:
{
// screenshots are always processed sequentially, with the last one
// marked with the SCREENSHOT_CHECKERBOARD_AND_UPDATE token
synchronized (sAcumulatedRect) {
sAcumulatedRect.union(left, top, right, bottom);
}
synchronized(sPendingScreenshots) {
sPendingScreenshots.remove();
sendNextEventToGecko();
}
break;
}
case GeckoAppShell.SCREENSHOT_CHECKERBOARD_AND_UPDATE:
{
final Rect rect;
synchronized (sAcumulatedRect) {
sAcumulatedRect.union(left, top, right, bottom);
rect = new Rect(sAcumulatedRect);
sAcumulatedRect.setEmpty();
}
GeckoApp.mAppContext.getLayerController()
.getView().getRenderer()
.setCheckerboardBitmap(data, bufferWidth, bufferHeight, sCheckerboardPageRect, rect);
synchronized(sPendingScreenshots) {
sPendingScreenshots.remove();
sendNextEventToGecko();
}
break;
}
case GeckoAppShell.SCREENSHOT_THUMBNAIL:
{
if (Tabs.getInstance().isSelectedTab(tab)) {
Bitmap b = tab.getThumbnailBitmap();
b.copyPixelsFromBuffer(data);
GeckoApp.mAppContext.processThumbnail(tab, b, null);
}
break;
}
}
}
});
}
}