/* * Copyright (C) 2007-2008 Esmertec AG. * Copyright (C) 2007-2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.mms.transaction; import com.android.mms.R; import com.android.mms.LogTag; import com.android.mms.util.RateController; import com.google.android.mms.pdu.GenericPdu; import com.google.android.mms.pdu.NotificationInd; import com.google.android.mms.pdu.PduHeaders; import com.google.android.mms.pdu.PduParser; import com.google.android.mms.pdu.PduPersister; import com.android.internal.telephony.Phone; import com.android.internal.telephony.TelephonyIntents; import android.provider.Telephony.Mms; import android.provider.Telephony.MmsSms; import android.provider.Telephony.MmsSms.PendingMessages; import android.app.Service; import android.content.BroadcastReceiver; import android.content.ContentUris; import android.content.Context; import android.content.Intent; import android.content.IntentFilter; import android.database.Cursor; import android.database.sqlite.SqliteWrapper; import android.net.ConnectivityManager; import android.net.NetworkInfo; import android.net.Uri; import android.os.Handler; import android.os.HandlerThread; import android.os.IBinder; import android.os.Looper; import android.os.Message; import android.os.PowerManager; import android.text.TextUtils; import android.util.Log; import android.widget.Toast; import java.io.IOException; import java.util.ArrayList; /** * The TransactionService of the MMS Client is responsible for handling requests * to initiate client-transactions sent from: * * The TransactionService runs locally in the same process as the application. * It contains a HandlerThread to which messages are posted from the * intent-receivers of this application. *

* IMPORTANT: This is currently the only instance in the system in * which simultaneous connectivity to both the mobile data network and * a Wi-Fi network is allowed. This makes the code for handling network * connectivity somewhat different than it is in other applications. In * particular, we want to be able to send or receive MMS messages when * a Wi-Fi connection is active (which implies that there is no connection * to the mobile data network). This has two main consequences: *

*/ public class TransactionService extends Service implements Observer { private static final String TAG = "TransactionService"; /** * Used to identify notification intents broadcasted by the * TransactionService when a Transaction is completed. */ public static final String TRANSACTION_COMPLETED_ACTION = "android.intent.action.TRANSACTION_COMPLETED_ACTION"; /** * Action for the Intent which is sent by Alarm service to launch * TransactionService. */ public static final String ACTION_ONALARM = "android.intent.action.ACTION_ONALARM"; /** * Used as extra key in notification intents broadcasted by the TransactionService * when a Transaction is completed (TRANSACTION_COMPLETED_ACTION intents). * Allowed values for this key are: TransactionState.INITIALIZED, * TransactionState.SUCCESS, TransactionState.FAILED. */ public static final String STATE = "state"; /** * Used as extra key in notification intents broadcasted by the TransactionService * when a Transaction is completed (TRANSACTION_COMPLETED_ACTION intents). * Allowed values for this key are any valid content uri. */ public static final String STATE_URI = "uri"; private static final int EVENT_TRANSACTION_REQUEST = 1; private static final int EVENT_CONTINUE_MMS_CONNECTIVITY = 3; private static final int EVENT_HANDLE_NEXT_PENDING_TRANSACTION = 4; private static final int EVENT_NEW_INTENT = 5; private static final int EVENT_QUIT = 100; private static final int TOAST_MSG_QUEUED = 1; private static final int TOAST_DOWNLOAD_LATER = 2; private static final int TOAST_NONE = -1; // How often to extend the use of the MMS APN while a transaction // is still being processed. private static final int APN_EXTENSION_WAIT = 30 * 1000; private ServiceHandler mServiceHandler; private Looper mServiceLooper; private final ArrayList mProcessing = new ArrayList(); private final ArrayList mPending = new ArrayList(); private ConnectivityManager mConnMgr; private ConnectivityBroadcastReceiver mReceiver; private PowerManager.WakeLock mWakeLock; public Handler mToastHandler = new Handler() { @Override public void handleMessage(Message msg) { String str = null; if (msg.what == TOAST_MSG_QUEUED) { str = getString(R.string.message_queued); } else if (msg.what == TOAST_DOWNLOAD_LATER) { str = getString(R.string.download_later); } if (str != null) { Toast.makeText(TransactionService.this, str, Toast.LENGTH_LONG).show(); } } }; @Override public void onCreate() { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Creating TransactionService"); } // Start up the thread running the service. Note that we create a // separate thread because the service normally runs in the process's // main thread, which we don't want to block. HandlerThread thread = new HandlerThread("TransactionService"); thread.start(); mServiceLooper = thread.getLooper(); mServiceHandler = new ServiceHandler(mServiceLooper); mReceiver = new ConnectivityBroadcastReceiver(); IntentFilter intentFilter = new IntentFilter(); intentFilter.addAction(ConnectivityManager.CONNECTIVITY_ACTION); registerReceiver(mReceiver, intentFilter); } @Override public int onStartCommand(Intent intent, int flags, int startId) { if (intent != null) { Message msg = mServiceHandler.obtainMessage(EVENT_NEW_INTENT); msg.arg1 = startId; msg.obj = intent; mServiceHandler.sendMessage(msg); } return Service.START_NOT_STICKY; } public void onNewIntent(Intent intent, int serviceId) { mConnMgr = (ConnectivityManager) getSystemService(Context.CONNECTIVITY_SERVICE); boolean noNetwork = !isNetworkAvailable(); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNewIntent: serviceId: " + serviceId + ": " + intent.getExtras() + " intent=" + intent); Log.v(TAG, " networkAvailable=" + !noNetwork); } if (ACTION_ONALARM.equals(intent.getAction()) || (intent.getExtras() == null)) { // Scan database to find all pending operations. Cursor cursor = PduPersister.getPduPersister(this).getPendingMessages( System.currentTimeMillis()); if (cursor != null) { try { int count = cursor.getCount(); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNewIntent: cursor.count=" + count); } if (count == 0) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNewIntent: no pending messages. Stopping service."); } RetryScheduler.setRetryAlarm(this); stopSelfIfIdle(serviceId); return; } int columnIndexOfMsgId = cursor.getColumnIndexOrThrow(PendingMessages.MSG_ID); int columnIndexOfMsgType = cursor.getColumnIndexOrThrow( PendingMessages.MSG_TYPE); if (noNetwork) { // Make sure we register for connection state changes. if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNewIntent: registerForConnectionStateChanges"); } MmsSystemEventReceiver.registerForConnectionStateChanges( getApplicationContext()); } while (cursor.moveToNext()) { int msgType = cursor.getInt(columnIndexOfMsgType); int transactionType = getTransactionType(msgType); if (noNetwork) { onNetworkUnavailable(serviceId, transactionType); return; } switch (transactionType) { case -1: break; case Transaction.RETRIEVE_TRANSACTION: // If it's a transiently failed transaction, // we should retry it in spite of current // downloading mode. int failureType = cursor.getInt( cursor.getColumnIndexOrThrow( PendingMessages.ERROR_TYPE)); if (!isTransientFailure(failureType)) { break; } // fall-through default: Uri uri = ContentUris.withAppendedId( Mms.CONTENT_URI, cursor.getLong(columnIndexOfMsgId)); TransactionBundle args = new TransactionBundle( transactionType, uri.toString()); // FIXME: We use the same startId for all MMs. launchTransaction(serviceId, args, false); break; } } } finally { cursor.close(); } } else { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNewIntent: no pending messages. Stopping service."); } RetryScheduler.setRetryAlarm(this); stopSelfIfIdle(serviceId); } } else { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNewIntent: launch transaction..."); } // For launching NotificationTransaction and test purpose. TransactionBundle args = new TransactionBundle(intent.getExtras()); launchTransaction(serviceId, args, noNetwork); } } private void stopSelfIfIdle(int startId) { synchronized (mProcessing) { if (mProcessing.isEmpty() && mPending.isEmpty()) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "stopSelfIfIdle: STOP!"); } // Make sure we're no longer listening for connection state changes. if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "stopSelfIfIdle: unRegisterForConnectionStateChanges"); } MmsSystemEventReceiver.unRegisterForConnectionStateChanges(getApplicationContext()); stopSelf(startId); } } } private static boolean isTransientFailure(int type) { return (type < MmsSms.ERR_TYPE_GENERIC_PERMANENT) && (type > MmsSms.NO_ERROR); } private boolean isNetworkAvailable() { NetworkInfo ni = mConnMgr.getNetworkInfo(ConnectivityManager.TYPE_MOBILE_MMS); return (ni == null ? false : ni.isAvailable()); } private int getTransactionType(int msgType) { switch (msgType) { case PduHeaders.MESSAGE_TYPE_NOTIFICATION_IND: return Transaction.RETRIEVE_TRANSACTION; case PduHeaders.MESSAGE_TYPE_READ_REC_IND: return Transaction.READREC_TRANSACTION; case PduHeaders.MESSAGE_TYPE_SEND_REQ: return Transaction.SEND_TRANSACTION; default: Log.w(TAG, "Unrecognized MESSAGE_TYPE: " + msgType); return -1; } } private void launchTransaction(int serviceId, TransactionBundle txnBundle, boolean noNetwork) { if (noNetwork) { Log.w(TAG, "launchTransaction: no network error!"); onNetworkUnavailable(serviceId, txnBundle.getTransactionType()); return; } Message msg = mServiceHandler.obtainMessage(EVENT_TRANSACTION_REQUEST); msg.arg1 = serviceId; msg.obj = txnBundle; if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "launchTransaction: sending message " + msg); } mServiceHandler.sendMessage(msg); } private void onNetworkUnavailable(int serviceId, int transactionType) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "onNetworkUnavailable: sid=" + serviceId + ", type=" + transactionType); } int toastType = TOAST_NONE; if (transactionType == Transaction.RETRIEVE_TRANSACTION) { toastType = TOAST_DOWNLOAD_LATER; } else if (transactionType == Transaction.SEND_TRANSACTION) { toastType = TOAST_MSG_QUEUED; } if (toastType != TOAST_NONE) { mToastHandler.sendEmptyMessage(toastType); } stopSelf(serviceId); } @Override public void onDestroy() { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Destroying TransactionService"); } if (!mPending.isEmpty()) { Log.w(TAG, "TransactionService exiting with transaction still pending"); } releaseWakeLock(); unregisterReceiver(mReceiver); mServiceHandler.sendEmptyMessage(EVENT_QUIT); } @Override public IBinder onBind(Intent intent) { return null; } /** * Handle status change of Transaction (The Observable). */ public void update(Observable observable) { Transaction transaction = (Transaction) observable; int serviceId = transaction.getServiceId(); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "update transaction " + serviceId); } try { synchronized (mProcessing) { mProcessing.remove(transaction); if (mPending.size() > 0) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "update: handle next pending transaction..."); } Message msg = mServiceHandler.obtainMessage( EVENT_HANDLE_NEXT_PENDING_TRANSACTION, transaction.getConnectionSettings()); mServiceHandler.sendMessage(msg); } else { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "update: endMmsConnectivity"); } endMmsConnectivity(); } } Intent intent = new Intent(TRANSACTION_COMPLETED_ACTION); TransactionState state = transaction.getState(); int result = state.getState(); intent.putExtra(STATE, result); switch (result) { case TransactionState.SUCCESS: if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Transaction complete: " + serviceId); } intent.putExtra(STATE_URI, state.getContentUri()); // Notify user in the system-wide notification area. switch (transaction.getType()) { case Transaction.NOTIFICATION_TRANSACTION: case Transaction.RETRIEVE_TRANSACTION: // We're already in a non-UI thread called from // NotificationTransacation.run(), so ok to block here. long threadId = MessagingNotification.getThreadId( this, state.getContentUri()); MessagingNotification.blockingUpdateNewMessageIndicator(this, threadId, false); MessagingNotification.updateDownloadFailedNotification(this); break; case Transaction.SEND_TRANSACTION: RateController.getInstance().update(); break; } break; case TransactionState.FAILED: if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Transaction failed: " + serviceId); } break; default: if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Transaction state unknown: " + serviceId + " " + result); } break; } if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "update: broadcast transaction result " + result); } // Broadcast the result of the transaction. sendBroadcast(intent); } finally { transaction.detach(this); MmsSystemEventReceiver.unRegisterForConnectionStateChanges(getApplicationContext()); stopSelf(serviceId); } } private synchronized void createWakeLock() { // Create a new wake lock if we haven't made one yet. if (mWakeLock == null) { PowerManager pm = (PowerManager)getSystemService(Context.POWER_SERVICE); mWakeLock = pm.newWakeLock(PowerManager.PARTIAL_WAKE_LOCK, "MMS Connectivity"); mWakeLock.setReferenceCounted(false); } } private void acquireWakeLock() { // It's okay to double-acquire this because we are not using it // in reference-counted mode. mWakeLock.acquire(); } private void releaseWakeLock() { // Don't release the wake lock if it hasn't been created and acquired. if (mWakeLock != null && mWakeLock.isHeld()) { mWakeLock.release(); } } protected int beginMmsConnectivity() throws IOException { // Take a wake lock so we don't fall asleep before the message is downloaded. createWakeLock(); int result = mConnMgr.startUsingNetworkFeature( ConnectivityManager.TYPE_MOBILE, Phone.FEATURE_ENABLE_MMS); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "beginMmsConnectivity: result=" + result); } switch (result) { case Phone.APN_ALREADY_ACTIVE: case Phone.APN_REQUEST_STARTED: acquireWakeLock(); return result; } throw new IOException("Cannot establish MMS connectivity"); } protected void endMmsConnectivity() { try { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "endMmsConnectivity"); } // cancel timer for renewal of lease mServiceHandler.removeMessages(EVENT_CONTINUE_MMS_CONNECTIVITY); if (mConnMgr != null) { mConnMgr.stopUsingNetworkFeature( ConnectivityManager.TYPE_MOBILE, Phone.FEATURE_ENABLE_MMS); } } finally { releaseWakeLock(); } } private final class ServiceHandler extends Handler { public ServiceHandler(Looper looper) { super(looper); } private String decodeMessage(Message msg) { if (msg.what == EVENT_QUIT) { return "EVENT_QUIT"; } else if (msg.what == EVENT_CONTINUE_MMS_CONNECTIVITY) { return "EVENT_CONTINUE_MMS_CONNECTIVITY"; } else if (msg.what == EVENT_TRANSACTION_REQUEST) { return "EVENT_TRANSACTION_REQUEST"; } else if (msg.what == EVENT_HANDLE_NEXT_PENDING_TRANSACTION) { return "EVENT_HANDLE_NEXT_PENDING_TRANSACTION"; } else if (msg.what == EVENT_NEW_INTENT) { return "EVENT_NEW_INTENT"; } return "unknown message.what"; } private String decodeTransactionType(int transactionType) { if (transactionType == Transaction.NOTIFICATION_TRANSACTION) { return "NOTIFICATION_TRANSACTION"; } else if (transactionType == Transaction.RETRIEVE_TRANSACTION) { return "RETRIEVE_TRANSACTION"; } else if (transactionType == Transaction.SEND_TRANSACTION) { return "SEND_TRANSACTION"; } else if (transactionType == Transaction.READREC_TRANSACTION) { return "READREC_TRANSACTION"; } return "invalid transaction type"; } /** * Handle incoming transaction requests. * The incoming requests are initiated by the MMSC Server or by the * MMS Client itself. */ @Override public void handleMessage(Message msg) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Handling incoming message: " + msg + " = " + decodeMessage(msg)); } Transaction transaction = null; switch (msg.what) { case EVENT_NEW_INTENT: onNewIntent((Intent)msg.obj, msg.arg1); break; case EVENT_QUIT: getLooper().quit(); return; case EVENT_CONTINUE_MMS_CONNECTIVITY: synchronized (mProcessing) { if (mProcessing.isEmpty()) { return; } } if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "handle EVENT_CONTINUE_MMS_CONNECTIVITY event..."); } try { int result = beginMmsConnectivity(); if (result != Phone.APN_ALREADY_ACTIVE) { Log.v(TAG, "Extending MMS connectivity returned " + result + " instead of APN_ALREADY_ACTIVE"); // Just wait for connectivity startup without // any new request of APN switch. return; } } catch (IOException e) { Log.w(TAG, "Attempt to extend use of MMS connectivity failed"); return; } // Restart timer renewMmsConnectivity(); return; case EVENT_TRANSACTION_REQUEST: int serviceId = msg.arg1; try { TransactionBundle args = (TransactionBundle) msg.obj; TransactionSettings transactionSettings; if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "EVENT_TRANSACTION_REQUEST MmscUrl=" + args.getMmscUrl() + " proxy port: " + args.getProxyAddress()); } // Set the connection settings for this transaction. // If these have not been set in args, load the default settings. String mmsc = args.getMmscUrl(); if (mmsc != null) { transactionSettings = new TransactionSettings( mmsc, args.getProxyAddress(), args.getProxyPort()); } else { transactionSettings = new TransactionSettings( TransactionService.this, null); } int transactionType = args.getTransactionType(); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "handle EVENT_TRANSACTION_REQUEST: transactionType=" + transactionType + " " + decodeTransactionType(transactionType)); } // Create appropriate transaction switch (transactionType) { case Transaction.NOTIFICATION_TRANSACTION: String uri = args.getUri(); if (uri != null) { transaction = new NotificationTransaction( TransactionService.this, serviceId, transactionSettings, uri); } else { // Now it's only used for test purpose. byte[] pushData = args.getPushData(); PduParser parser = new PduParser(pushData); GenericPdu ind = parser.parse(); int type = PduHeaders.MESSAGE_TYPE_NOTIFICATION_IND; if ((ind != null) && (ind.getMessageType() == type)) { transaction = new NotificationTransaction( TransactionService.this, serviceId, transactionSettings, (NotificationInd) ind); } else { Log.e(TAG, "Invalid PUSH data."); transaction = null; return; } } break; case Transaction.RETRIEVE_TRANSACTION: transaction = new RetrieveTransaction( TransactionService.this, serviceId, transactionSettings, args.getUri()); break; case Transaction.SEND_TRANSACTION: transaction = new SendTransaction( TransactionService.this, serviceId, transactionSettings, args.getUri()); break; case Transaction.READREC_TRANSACTION: transaction = new ReadRecTransaction( TransactionService.this, serviceId, transactionSettings, args.getUri()); break; default: Log.w(TAG, "Invalid transaction type: " + serviceId); transaction = null; return; } if (!processTransaction(transaction)) { transaction = null; return; } if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Started processing of incoming message: " + msg); } } catch (Exception ex) { Log.w(TAG, "Exception occurred while handling message: " + msg, ex); if (transaction != null) { try { transaction.detach(TransactionService.this); if (mProcessing.contains(transaction)) { synchronized (mProcessing) { mProcessing.remove(transaction); } } } catch (Throwable t) { Log.e(TAG, "Unexpected Throwable.", t); } finally { // Set transaction to null to allow stopping the // transaction service. transaction = null; } } } finally { if (transaction == null) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Transaction was null. Stopping self: " + serviceId); } endMmsConnectivity(); stopSelf(serviceId); } } return; case EVENT_HANDLE_NEXT_PENDING_TRANSACTION: processPendingTransaction(transaction, (TransactionSettings) msg.obj); return; default: Log.w(TAG, "what=" + msg.what); return; } } public void processPendingTransaction(Transaction transaction, TransactionSettings settings) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "processPendingTxn: transaction=" + transaction); } int numProcessTransaction = 0; synchronized (mProcessing) { if (mPending.size() != 0) { transaction = mPending.remove(0); } numProcessTransaction = mProcessing.size(); } if (transaction != null) { if (settings != null) { transaction.setConnectionSettings(settings); } /* * Process deferred transaction */ try { int serviceId = transaction.getServiceId(); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "processPendingTxn: process " + serviceId); } if (processTransaction(transaction)) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Started deferred processing of transaction " + transaction); } } else { transaction = null; stopSelf(serviceId); } } catch (IOException e) { Log.w(TAG, e.getMessage(), e); } } else { if (numProcessTransaction == 0) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "processPendingTxn: no more transaction, endMmsConnectivity"); } endMmsConnectivity(); } } } /** * Internal method to begin processing a transaction. * @param transaction the transaction. Must not be {@code null}. * @return {@code true} if process has begun or will begin. {@code false} * if the transaction should be discarded. * @throws IOException if connectivity for MMS traffic could not be * established. */ private boolean processTransaction(Transaction transaction) throws IOException { // Check if transaction already processing synchronized (mProcessing) { for (Transaction t : mPending) { if (t.isEquivalent(transaction)) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Transaction already pending: " + transaction.getServiceId()); } return true; } } for (Transaction t : mProcessing) { if (t.isEquivalent(transaction)) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Duplicated transaction: " + transaction.getServiceId()); } return true; } } /* * Make sure that the network connectivity necessary * for MMS traffic is enabled. If it is not, we need * to defer processing the transaction until * connectivity is established. */ if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "processTransaction: call beginMmsConnectivity..."); } int connectivityResult = beginMmsConnectivity(); if (connectivityResult == Phone.APN_REQUEST_STARTED) { mPending.add(transaction); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "processTransaction: connResult=APN_REQUEST_STARTED, " + "defer transaction pending MMS connectivity"); } return true; } if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Adding transaction to 'mProcessing' list: " + transaction); } mProcessing.add(transaction); } // Set a timer to keep renewing our "lease" on the MMS connection sendMessageDelayed(obtainMessage(EVENT_CONTINUE_MMS_CONNECTIVITY), APN_EXTENSION_WAIT); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "processTransaction: starting transaction " + transaction); } // Attach to transaction and process it transaction.attach(TransactionService.this); transaction.process(); return true; } } private void renewMmsConnectivity() { // Set a timer to keep renewing our "lease" on the MMS connection mServiceHandler.sendMessageDelayed( mServiceHandler.obtainMessage(EVENT_CONTINUE_MMS_CONNECTIVITY), APN_EXTENSION_WAIT); } private class ConnectivityBroadcastReceiver extends BroadcastReceiver { @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.w(TAG, "ConnectivityBroadcastReceiver.onReceive() action: " + action); } if (!action.equals(ConnectivityManager.CONNECTIVITY_ACTION)) { return; } boolean noConnectivity = intent.getBooleanExtra(ConnectivityManager.EXTRA_NO_CONNECTIVITY, false); NetworkInfo networkInfo = (NetworkInfo) intent.getParcelableExtra(ConnectivityManager.EXTRA_NETWORK_INFO); /* * If we are being informed that connectivity has been established * to allow MMS traffic, then proceed with processing the pending * transaction, if any. */ if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, "Handle ConnectivityBroadcastReceiver.onReceive(): " + networkInfo); } // Check availability of the mobile network. if ((networkInfo == null) || (networkInfo.getType() != ConnectivityManager.TYPE_MOBILE_MMS)) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, " type is not TYPE_MOBILE_MMS, bail"); } // This is a very specific fix to handle the case where the phone receives an // incoming call during the time we're trying to setup the mms connection. // When the call ends, restart the process of mms connectivity. if (networkInfo != null && Phone.REASON_VOICE_CALL_ENDED.equals(networkInfo.getReason())) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, " reason is " + Phone.REASON_VOICE_CALL_ENDED + ", retrying mms connectivity"); } renewMmsConnectivity(); } return; } if (!networkInfo.isConnected()) { if (Log.isLoggable(LogTag.TRANSACTION, Log.VERBOSE)) { Log.v(TAG, " TYPE_MOBILE_MMS not connected, bail"); } return; } TransactionSettings settings = new TransactionSettings( TransactionService.this, networkInfo.getExtraInfo()); // If this APN doesn't have an MMSC, wait for one that does. if (TextUtils.isEmpty(settings.getMmscUrl())) { Log.v(TAG, " empty MMSC url, bail"); return; } renewMmsConnectivity(); mServiceHandler.processPendingTransaction(null, settings); } }; }