/* * Copyright (C) 2006 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.internal.telephony; import android.app.Activity; import android.app.AlertDialog; import android.app.PendingIntent; import android.app.PendingIntent.CanceledException; import android.content.BroadcastReceiver; import android.content.ContentResolver; import android.content.ContentValues; import android.content.Context; import android.content.DialogInterface; import android.content.Intent; import android.content.pm.ApplicationInfo; import android.content.pm.PackageInfo; import android.content.pm.PackageManager; import android.content.res.Resources; import android.database.ContentObserver; import android.database.sqlite.SqliteWrapper; import android.net.Uri; import android.os.AsyncResult; import android.os.Binder; import android.os.Bundle; import android.os.Handler; import android.os.Message; import android.os.SystemProperties; import android.provider.Settings; import android.provider.Telephony; import android.provider.Telephony.Sms; import android.provider.Telephony.Sms.Intents; import android.telephony.PhoneNumberUtils; import android.telephony.Rlog; import android.telephony.ServiceState; import android.telephony.SmsManager; import android.telephony.TelephonyManager; import android.text.Html; import android.text.Spanned; import android.text.TextUtils; import android.util.EventLog; import android.view.LayoutInflater; import android.view.View; import android.view.ViewGroup; import android.view.WindowManager; import android.widget.Button; import android.widget.CheckBox; import android.widget.CompoundButton; import android.widget.TextView; import com.android.internal.R; import com.android.internal.telephony.GsmAlphabet.TextEncodingDetails; import com.android.internal.telephony.uicc.UiccCard; import com.android.internal.telephony.uicc.UiccController; import java.util.ArrayList; import java.util.Collections; import java.util.HashMap; import java.util.List; import java.util.Random; import java.util.concurrent.atomic.AtomicBoolean; import java.util.concurrent.atomic.AtomicInteger; import static android.telephony.SmsManager.RESULT_ERROR_FDN_CHECK_FAILURE; import static android.telephony.SmsManager.RESULT_ERROR_GENERIC_FAILURE; import static android.telephony.SmsManager.RESULT_ERROR_LIMIT_EXCEEDED; import static android.telephony.SmsManager.RESULT_ERROR_NO_SERVICE; import static android.telephony.SmsManager.RESULT_ERROR_NULL_PDU; import static android.telephony.SmsManager.RESULT_ERROR_RADIO_OFF; public abstract class SMSDispatcher extends Handler { static final String TAG = "SMSDispatcher"; // accessed from inner class static final boolean DBG = false; private static final String SEND_NEXT_MSG_EXTRA = "SendNextMsg"; /** Permission required to send SMS to short codes without user confirmation. */ private static final String SEND_SMS_NO_CONFIRMATION_PERMISSION = "android.permission.SEND_SMS_NO_CONFIRMATION"; private static final int PREMIUM_RULE_USE_SIM = 1; private static final int PREMIUM_RULE_USE_NETWORK = 2; private static final int PREMIUM_RULE_USE_BOTH = 3; private final AtomicInteger mPremiumSmsRule = new AtomicInteger(PREMIUM_RULE_USE_SIM); private final SettingsObserver mSettingsObserver; /** SMS send complete. */ protected static final int EVENT_SEND_SMS_COMPLETE = 2; /** Retry sending a previously failed SMS message */ private static final int EVENT_SEND_RETRY = 3; /** Confirmation required for sending a large number of messages. */ private static final int EVENT_SEND_LIMIT_REACHED_CONFIRMATION = 4; /** Send the user confirmed SMS */ static final int EVENT_SEND_CONFIRMED_SMS = 5; // accessed from inner class /** Don't send SMS (user did not confirm). */ static final int EVENT_STOP_SENDING = 7; // accessed from inner class /** Confirmation required for third-party apps sending to an SMS short code. */ private static final int EVENT_CONFIRM_SEND_TO_POSSIBLE_PREMIUM_SHORT_CODE = 8; /** Confirmation required for third-party apps sending to an SMS short code. */ private static final int EVENT_CONFIRM_SEND_TO_PREMIUM_SHORT_CODE = 9; /** Handle status report from {@code CdmaInboundSmsHandler}. */ protected static final int EVENT_HANDLE_STATUS_REPORT = 10; /** Radio is ON */ protected static final int EVENT_RADIO_ON = 11; /** IMS registration/SMS format changed */ protected static final int EVENT_IMS_STATE_CHANGED = 12; /** Callback from RIL_REQUEST_IMS_REGISTRATION_STATE */ protected static final int EVENT_IMS_STATE_DONE = 13; // other protected static final int EVENT_NEW_ICC_SMS = 14; protected static final int EVENT_ICC_CHANGED = 15; protected PhoneBase mPhone; protected final Context mContext; protected final ContentResolver mResolver; protected final CommandsInterface mCi; protected final TelephonyManager mTelephonyManager; /** Maximum number of times to retry sending a failed SMS. */ private static final int MAX_SEND_RETRIES = 3; /** Delay before next send attempt on a failed SMS, in milliseconds. */ private static final int SEND_RETRY_DELAY = 2000; /** single part SMS */ private static final int SINGLE_PART_SMS = 1; /** Message sending queue limit */ private static final int MO_MSG_QUEUE_LIMIT = 5; /** * Message reference for a CONCATENATED_8_BIT_REFERENCE or * CONCATENATED_16_BIT_REFERENCE message set. Should be * incremented for each set of concatenated messages. * Static field shared by all dispatcher objects. */ private static int sConcatenatedRef = new Random().nextInt(256); /** Outgoing message counter. Shared by all dispatchers. */ private SmsUsageMonitor mUsageMonitor; private ImsSMSDispatcher mImsSMSDispatcher; /** Number of outgoing SmsTrackers waiting for user confirmation. */ private int mPendingTrackerCount; /* Flags indicating whether the current device allows sms service */ protected boolean mSmsCapable = true; protected boolean mSmsSendDisabled; protected static int getNextConcatenatedRef() { sConcatenatedRef += 1; return sConcatenatedRef; } /** * Create a new SMS dispatcher. * @param phone the Phone to use * @param usageMonitor the SmsUsageMonitor to use */ protected SMSDispatcher(PhoneBase phone, SmsUsageMonitor usageMonitor, ImsSMSDispatcher imsSMSDispatcher) { mPhone = phone; mImsSMSDispatcher = imsSMSDispatcher; mContext = phone.getContext(); mResolver = mContext.getContentResolver(); mCi = phone.mCi; mUsageMonitor = usageMonitor; mTelephonyManager = (TelephonyManager) mContext.getSystemService(Context.TELEPHONY_SERVICE); mSettingsObserver = new SettingsObserver(this, mPremiumSmsRule, mContext); mContext.getContentResolver().registerContentObserver(Settings.Global.getUriFor( Settings.Global.SMS_SHORT_CODE_RULE), false, mSettingsObserver); mSmsCapable = mContext.getResources().getBoolean( com.android.internal.R.bool.config_sms_capable); mSmsSendDisabled = !SystemProperties.getBoolean( TelephonyProperties.PROPERTY_SMS_SEND, mSmsCapable); Rlog.d(TAG, "SMSDispatcher: ctor mSmsCapable=" + mSmsCapable + " format=" + getFormat() + " mSmsSendDisabled=" + mSmsSendDisabled); } /** * Observe the secure setting for updated premium sms determination rules */ private static class SettingsObserver extends ContentObserver { private final AtomicInteger mPremiumSmsRule; private final Context mContext; SettingsObserver(Handler handler, AtomicInteger premiumSmsRule, Context context) { super(handler); mPremiumSmsRule = premiumSmsRule; mContext = context; onChange(false); // load initial value; } @Override public void onChange(boolean selfChange) { mPremiumSmsRule.set(Settings.Global.getInt(mContext.getContentResolver(), Settings.Global.SMS_SHORT_CODE_RULE, PREMIUM_RULE_USE_SIM)); } } protected void updatePhoneObject(PhoneBase phone) { mPhone = phone; mUsageMonitor = phone.mSmsUsageMonitor; Rlog.d(TAG, "Active phone changed to " + mPhone.getPhoneName() ); } /** Unregister for incoming SMS events. */ public void dispose() { mContext.getContentResolver().unregisterContentObserver(mSettingsObserver); } /** * The format of the message PDU in the associated broadcast intent. * This will be either "3gpp" for GSM/UMTS/LTE messages in 3GPP format * or "3gpp2" for CDMA/LTE messages in 3GPP2 format. * * Note: All applications which handle incoming SMS messages by processing the * SMS_RECEIVED_ACTION broadcast intent MUST pass the "format" extra from the intent * into the new methods in {@link android.telephony.SmsMessage} which take an * extra format parameter. This is required in order to correctly decode the PDU on * devices which require support for both 3GPP and 3GPP2 formats at the same time, * such as CDMA/LTE devices and GSM/CDMA world phones. * * @return the format of the message PDU */ protected abstract String getFormat(); /** * Pass the Message object to subclass to handle. Currently used to pass CDMA status reports * from {@link com.android.internal.telephony.cdma.CdmaInboundSmsHandler}. * @param o the SmsMessage containing the status report */ protected void handleStatusReport(Object o) { Rlog.d(TAG, "handleStatusReport() called with no subclass."); } /* TODO: Need to figure out how to keep track of status report routing in a * persistent manner. If the phone process restarts (reboot or crash), * we will lose this list and any status reports that come in after * will be dropped. */ /** Sent messages awaiting a delivery status report. */ protected final ArrayList deliveryPendingList = new ArrayList(); /** Outgoing messages being handled by the carrier app. */ protected final List sendPendingList = Collections.synchronizedList(new ArrayList()); /** * Handles events coming from the phone stack. Overridden from handler. * * @param msg the message to handle */ @Override public void handleMessage(Message msg) { switch (msg.what) { case EVENT_SEND_SMS_COMPLETE: // An outbound SMS has been successfully transferred, or failed. handleSendComplete((AsyncResult) msg.obj); break; case EVENT_SEND_RETRY: Rlog.d(TAG, "SMS retry.."); sendRetrySms((SmsTracker) msg.obj); break; case EVENT_SEND_LIMIT_REACHED_CONFIRMATION: handleReachSentLimit((SmsTracker)(msg.obj)); break; case EVENT_CONFIRM_SEND_TO_POSSIBLE_PREMIUM_SHORT_CODE: handleConfirmShortCode(false, (SmsTracker)(msg.obj)); break; case EVENT_CONFIRM_SEND_TO_PREMIUM_SHORT_CODE: handleConfirmShortCode(true, (SmsTracker)(msg.obj)); break; case EVENT_SEND_CONFIRMED_SMS: { SmsTracker tracker = (SmsTracker) msg.obj; if (tracker.isMultipart()) { sendMultipartSms(tracker); } else { if (mPendingTrackerCount > 1) { tracker.mExpectMore = true; } else { tracker.mExpectMore = false; } sendSms(tracker); } mPendingTrackerCount--; break; } case EVENT_STOP_SENDING: { SmsTracker tracker = (SmsTracker) msg.obj; tracker.onFailed(mContext, RESULT_ERROR_LIMIT_EXCEEDED, 0/*errorCode*/); mPendingTrackerCount--; break; } case EVENT_HANDLE_STATUS_REPORT: handleStatusReport(msg.obj); break; default: Rlog.e(TAG, "handleMessage() ignoring message of unexpected type " + msg.what); } } /** * Called when SMS send completes. Broadcasts a sentIntent on success. * On failure, either sets up retries or broadcasts a sentIntent with * the failure in the result code. * * @param ar AsyncResult passed into the message handler. ar.result should * an SmsResponse instance if send was successful. ar.userObj * should be an SmsTracker instance. */ protected void handleSendComplete(AsyncResult ar) { SmsTracker tracker = (SmsTracker) ar.userObj; PendingIntent sentIntent = tracker.mSentIntent; if (ar.result != null) { tracker.mMessageRef = ((SmsResponse)ar.result).mMessageRef; } else { Rlog.d(TAG, "SmsResponse was null"); } if (ar.exception == null) { if (DBG) Rlog.d(TAG, "SMS send complete. Broadcasting intent: " + sentIntent); if (tracker.mDeliveryIntent != null) { // Expecting a status report. Add it to the list. deliveryPendingList.add(tracker); } tracker.onSent(mContext); } else { if (DBG) Rlog.d(TAG, "SMS send failed"); int ss = mPhone.getServiceState().getState(); if ( tracker.mImsRetry > 0 && ss != ServiceState.STATE_IN_SERVICE) { // This is retry after failure over IMS but voice is not available. // Set retry to max allowed, so no retry is sent and // cause RESULT_ERROR_GENERIC_FAILURE to be returned to app. tracker.mRetryCount = MAX_SEND_RETRIES; Rlog.d(TAG, "handleSendComplete: Skipping retry: " +" isIms()="+isIms() +" mRetryCount="+tracker.mRetryCount +" mImsRetry="+tracker.mImsRetry +" mMessageRef="+tracker.mMessageRef +" SS= "+mPhone.getServiceState().getState()); } // if sms over IMS is not supported on data and voice is not available... if (!isIms() && ss != ServiceState.STATE_IN_SERVICE) { tracker.onFailed(mContext, getNotInServiceError(ss), 0/*errorCode*/); } else if ((((CommandException)(ar.exception)).getCommandError() == CommandException.Error.SMS_FAIL_RETRY) && tracker.mRetryCount < MAX_SEND_RETRIES) { // Retry after a delay if needed. // TODO: According to TS 23.040, 9.2.3.6, we should resend // with the same TP-MR as the failed message, and // TP-RD set to 1. However, we don't have a means of // knowing the MR for the failed message (EF_SMSstatus // may or may not have the MR corresponding to this // message, depending on the failure). Also, in some // implementations this retry is handled by the baseband. tracker.mRetryCount++; Message retryMsg = obtainMessage(EVENT_SEND_RETRY, tracker); sendMessageDelayed(retryMsg, SEND_RETRY_DELAY); } else { int errorCode = 0; if (ar.result != null) { errorCode = ((SmsResponse)ar.result).mErrorCode; } int error = RESULT_ERROR_GENERIC_FAILURE; if (((CommandException)(ar.exception)).getCommandError() == CommandException.Error.FDN_CHECK_FAILURE) { error = RESULT_ERROR_FDN_CHECK_FAILURE; } tracker.onFailed(mContext, error, errorCode); } } } /** * Handles outbound message when the phone is not in service. * * @param ss Current service state. Valid values are: * OUT_OF_SERVICE * EMERGENCY_ONLY * POWER_OFF * @param sentIntent the PendingIntent to send the error to */ protected static void handleNotInService(int ss, PendingIntent sentIntent) { if (sentIntent != null) { try { if (ss == ServiceState.STATE_POWER_OFF) { sentIntent.send(RESULT_ERROR_RADIO_OFF); } else { sentIntent.send(RESULT_ERROR_NO_SERVICE); } } catch (CanceledException ex) {} } } /** * @param ss service state * @return The result error based on input service state for not in service error */ protected static int getNotInServiceError(int ss) { if (ss == ServiceState.STATE_POWER_OFF) { return RESULT_ERROR_RADIO_OFF; } return RESULT_ERROR_NO_SERVICE; } /** * Send a data based SMS to a specific application port. * * @param destAddr the address to send the message to * @param scAddr is the service center address or null to use * the current default SMSC * @param destPort the port to deliver the message to * @param data the body of the message to send * @param sentIntent if not NULL this PendingIntent is * broadcast when the message is successfully sent, or failed. * The result code will be Activity.RESULT_OK for success, * or one of these errors:
* RESULT_ERROR_GENERIC_FAILURE
* RESULT_ERROR_RADIO_OFF
* RESULT_ERROR_NULL_PDU
* RESULT_ERROR_NO_SERVICE
. * For RESULT_ERROR_GENERIC_FAILURE the sentIntent may include * the extra "errorCode" containing a radio technology specific value, * generally only useful for troubleshooting.
* The per-application based SMS control checks sentIntent. If sentIntent * is NULL the caller will be checked against all unknown applications, * which cause smaller number of SMS to be sent in checking period. * @param deliveryIntent if not NULL this PendingIntent is * broadcast when the message is delivered to the recipient. The * raw pdu of the status report is in the extended data ("pdu"). */ protected abstract void sendData(String destAddr, String scAddr, int destPort, byte[] data, PendingIntent sentIntent, PendingIntent deliveryIntent); /** * Send a text based SMS. * @param destAddr the address to send the message to * @param scAddr is the service center address or null to use * the current default SMSC * @param text the body of the message to send * @param sentIntent if not NULL this PendingIntent is * broadcast when the message is successfully sent, or failed. * The result code will be Activity.RESULT_OK for success, * or one of these errors:
* RESULT_ERROR_GENERIC_FAILURE
* RESULT_ERROR_RADIO_OFF
* RESULT_ERROR_NULL_PDU
* RESULT_ERROR_NO_SERVICE
. * For RESULT_ERROR_GENERIC_FAILURE the sentIntent may include * the extra "errorCode" containing a radio technology specific value, * generally only useful for troubleshooting.
* The per-application based SMS control checks sentIntent. If sentIntent * is NULL the caller will be checked against all unknown applications, * which cause smaller number of SMS to be sent in checking period. * @param deliveryIntent if not NULL this PendingIntent is * broadcast when the message is delivered to the recipient. The * @param messageUri optional URI of the message if it is already stored in the system * @param callingPkg the calling package name */ protected abstract void sendText(String destAddr, String scAddr, String text, PendingIntent sentIntent, PendingIntent deliveryIntent, Uri messageUri, String callingPkg); /** * Inject an SMS PDU into the android platform. * * @param pdu is the byte array of pdu to be injected into android telephony layer * @param format is the format of SMS pdu (3gpp or 3gpp2) * @param receivedIntent if not NULL this PendingIntent is * broadcast when the message is successfully received by the * android telephony layer. This intent is broadcasted at * the same time an SMS received from radio is responded back. */ protected abstract void injectSmsPdu(byte[] pdu, String format, PendingIntent receivedIntent); /** * Calculate the number of septets needed to encode the message. * * @param messageBody the message to encode * @param use7bitOnly ignore (but still count) illegal characters if true * @return TextEncodingDetails */ protected abstract TextEncodingDetails calculateLength(CharSequence messageBody, boolean use7bitOnly); /** * Update the status of a pending (send-by-IP) SMS message and resend by PSTN if necessary. * This outbound message was handled by the carrier app. If the carrier app fails to send * this message, it would be resent by PSTN. * * @param messageRef the reference number of the SMS message. * @param success True if and only if the message was sent successfully. If its value is * false, this message should be resent via PSTN. */ protected abstract void updateSmsSendStatus(int messageRef, boolean success); /** * Handler for a {@link GsmSMSDispatcher} or {@link CdmaSMSDispatcher} broadcast. * If SMS sending is successfuly, sends EVENT_SEND_SMS_COMPLETE message. Otherwise, * send the message via the GSM/CDMA network. */ protected final class SMSDispatcherReceiver extends BroadcastReceiver { private final SmsTracker mTracker; public SMSDispatcherReceiver(SmsTracker tracker) { mTracker = tracker; } @Override public void onReceive(Context context, Intent intent) { String action = intent.getAction(); if (action.equals(Intents.SMS_SEND_ACTION)) { int rc = getResultCode(); if (rc == Activity.RESULT_OK) { Rlog.d(TAG, "Sending SMS by IP pending."); Bundle resultExtras = getResultExtras(false); if (resultExtras != null && resultExtras.containsKey("messageref")) { mTracker.mMessageRef = resultExtras.getInt("messageref"); Rlog.d(TAG, "messageref = " + mTracker.mMessageRef); } else { Rlog.e(TAG, "Can't find messageref in result extras."); } sendPendingList.add(mTracker); } else { Rlog.d(TAG, "Sending SMS by IP failed."); sendSmsByPstn(mTracker); } } else { Rlog.e(TAG, "unexpected BroadcastReceiver action: " + action); } } } /** * Send a multi-part text based SMS. * @param destAddr the address to send the message to * @param scAddr is the service center address or null to use * the current default SMSC * @param parts an ArrayList of strings that, in order, * comprise the original message * @param sentIntents if not null, an ArrayList of * PendingIntents (one for each message part) that is * broadcast when the corresponding message part has been sent. * The result code will be Activity.RESULT_OK for success, * or one of these errors: * RESULT_ERROR_GENERIC_FAILURE * RESULT_ERROR_RADIO_OFF * RESULT_ERROR_NULL_PDU * RESULT_ERROR_NO_SERVICE. * The per-application based SMS control checks sentIntent. If sentIntent * is NULL the caller will be checked against all unknown applications, * which cause smaller number of SMS to be sent in checking period. * @param deliveryIntents if not null, an ArrayList of * PendingIntents (one for each message part) that is * broadcast when the corresponding message part has been delivered * to the recipient. The raw pdu of the status report is in the * @param messageUri optional URI of the message if it is already stored in the system * @param callingPkg the calling package name */ protected void sendMultipartText(String destAddr, String scAddr, ArrayList parts, ArrayList sentIntents, ArrayList deliveryIntents, Uri messageUri, String callingPkg) { if (messageUri == null) { if (SmsApplication.shouldWriteMessageForPackage(callingPkg, mContext)) { messageUri = writeOutboxMessage( getSubId(), destAddr, getMultipartMessageText(parts), deliveryIntents != null && deliveryIntents.size() > 0, callingPkg); } } else { moveToOutbox(getSubId(), messageUri, callingPkg); } int refNumber = getNextConcatenatedRef() & 0x00FF; int msgCount = parts.size(); int encoding = SmsConstants.ENCODING_UNKNOWN; TextEncodingDetails[] encodingForParts = new TextEncodingDetails[msgCount]; for (int i = 0; i < msgCount; i++) { TextEncodingDetails details = calculateLength(parts.get(i), false); if (encoding != details.codeUnitSize && (encoding == SmsConstants.ENCODING_UNKNOWN || encoding == SmsConstants.ENCODING_7BIT)) { encoding = details.codeUnitSize; } encodingForParts[i] = details; } // States to track at the message level (for all parts) final AtomicInteger unsentPartCount = new AtomicInteger(msgCount); final AtomicBoolean anyPartFailed = new AtomicBoolean(false); for (int i = 0; i < msgCount; i++) { SmsHeader.ConcatRef concatRef = new SmsHeader.ConcatRef(); concatRef.refNumber = refNumber; concatRef.seqNumber = i + 1; // 1-based sequence concatRef.msgCount = msgCount; // TODO: We currently set this to true since our messaging app will never // send more than 255 parts (it converts the message to MMS well before that). // However, we should support 3rd party messaging apps that might need 16-bit // references // Note: It's not sufficient to just flip this bit to true; it will have // ripple effects (several calculations assume 8-bit ref). concatRef.isEightBits = true; SmsHeader smsHeader = new SmsHeader(); smsHeader.concatRef = concatRef; // Set the national language tables for 3GPP 7-bit encoding, if enabled. if (encoding == SmsConstants.ENCODING_7BIT) { smsHeader.languageTable = encodingForParts[i].languageTable; smsHeader.languageShiftTable = encodingForParts[i].languageShiftTable; } PendingIntent sentIntent = null; if (sentIntents != null && sentIntents.size() > i) { sentIntent = sentIntents.get(i); } PendingIntent deliveryIntent = null; if (deliveryIntents != null && deliveryIntents.size() > i) { deliveryIntent = deliveryIntents.get(i); } sendNewSubmitPdu(destAddr, scAddr, parts.get(i), smsHeader, encoding, sentIntent, deliveryIntent, (i == (msgCount - 1)), unsentPartCount, anyPartFailed, messageUri); } } /** * Create a new SubmitPdu and send it. */ protected abstract void sendNewSubmitPdu(String destinationAddress, String scAddress, String message, SmsHeader smsHeader, int encoding, PendingIntent sentIntent, PendingIntent deliveryIntent, boolean lastPart, AtomicInteger unsentPartCount, AtomicBoolean anyPartFailed, Uri messageUri); /** * Send a SMS * @param tracker will contain: * -smsc the SMSC to send the message through, or NULL for the * default SMSC * -pdu the raw PDU to send * -sentIntent if not NULL this Intent is * broadcast when the message is successfully sent, or failed. * The result code will be Activity.RESULT_OK for success, * or one of these errors: * RESULT_ERROR_GENERIC_FAILURE * RESULT_ERROR_RADIO_OFF * RESULT_ERROR_NULL_PDU * RESULT_ERROR_NO_SERVICE. * The per-application based SMS control checks sentIntent. If sentIntent * is NULL the caller will be checked against all unknown applications, * which cause smaller number of SMS to be sent in checking period. * -deliveryIntent if not NULL this Intent is * broadcast when the message is delivered to the recipient. The * raw pdu of the status report is in the extended data ("pdu"). * -param destAddr the destination phone number (for short code confirmation) */ protected void sendRawPdu(SmsTracker tracker) { HashMap map = tracker.mData; byte pdu[] = (byte[]) map.get("pdu"); if (mSmsSendDisabled) { Rlog.e(TAG, "Device does not support sending sms."); tracker.onFailed(mContext, RESULT_ERROR_NO_SERVICE, 0/*errorCode*/); return; } if (pdu == null) { Rlog.e(TAG, "Empty PDU"); tracker.onFailed(mContext, RESULT_ERROR_NULL_PDU, 0/*errorCode*/); return; } // Get calling app package name via UID from Binder call PackageManager pm = mContext.getPackageManager(); String[] packageNames = pm.getPackagesForUid(Binder.getCallingUid()); if (packageNames == null || packageNames.length == 0) { // Refuse to send SMS if we can't get the calling package name. Rlog.e(TAG, "Can't get calling app package name: refusing to send SMS"); tracker.onFailed(mContext, RESULT_ERROR_GENERIC_FAILURE, 0/*errorCode*/); return; } // Get package info via packagemanager PackageInfo appInfo; try { // XXX this is lossy- apps can share a UID appInfo = pm.getPackageInfo(packageNames[0], PackageManager.GET_SIGNATURES); } catch (PackageManager.NameNotFoundException e) { Rlog.e(TAG, "Can't get calling app package info: refusing to send SMS"); tracker.onFailed(mContext, RESULT_ERROR_GENERIC_FAILURE, 0/*errorCode*/); return; } // checkDestination() returns true if the destination is not a premium short code or the // sending app is approved to send to short codes. Otherwise, a message is sent to our // handler with the SmsTracker to request user confirmation before sending. if (checkDestination(tracker)) { // check for excessive outgoing SMS usage by this app if (!mUsageMonitor.check(appInfo.packageName, SINGLE_PART_SMS)) { sendMessage(obtainMessage(EVENT_SEND_LIMIT_REACHED_CONFIRMATION, tracker)); return; } sendSms(tracker); } } /** * Check if destination is a potential premium short code and sender is not pre-approved to * send to short codes. * * @param tracker the tracker for the SMS to send * @return true if the destination is approved; false if user confirmation event was sent */ boolean checkDestination(SmsTracker tracker) { if (mContext.checkCallingOrSelfPermission(SEND_SMS_NO_CONFIRMATION_PERMISSION) == PackageManager.PERMISSION_GRANTED) { return true; // app is pre-approved to send to short codes } else { int rule = mPremiumSmsRule.get(); int smsCategory = SmsUsageMonitor.CATEGORY_NOT_SHORT_CODE; if (rule == PREMIUM_RULE_USE_SIM || rule == PREMIUM_RULE_USE_BOTH) { String simCountryIso = mTelephonyManager.getSimCountryIso(); if (simCountryIso == null || simCountryIso.length() != 2) { Rlog.e(TAG, "Can't get SIM country Iso: trying network country Iso"); simCountryIso = mTelephonyManager.getNetworkCountryIso(); } smsCategory = mUsageMonitor.checkDestination(tracker.mDestAddress, simCountryIso); } if (rule == PREMIUM_RULE_USE_NETWORK || rule == PREMIUM_RULE_USE_BOTH) { String networkCountryIso = mTelephonyManager.getNetworkCountryIso(); if (networkCountryIso == null || networkCountryIso.length() != 2) { Rlog.e(TAG, "Can't get Network country Iso: trying SIM country Iso"); networkCountryIso = mTelephonyManager.getSimCountryIso(); } smsCategory = SmsUsageMonitor.mergeShortCodeCategories(smsCategory, mUsageMonitor.checkDestination(tracker.mDestAddress, networkCountryIso)); } if (smsCategory == SmsUsageMonitor.CATEGORY_NOT_SHORT_CODE || smsCategory == SmsUsageMonitor.CATEGORY_FREE_SHORT_CODE || smsCategory == SmsUsageMonitor.CATEGORY_STANDARD_SHORT_CODE) { return true; // not a premium short code } // Wait for user confirmation unless the user has set permission to always allow/deny int premiumSmsPermission = mUsageMonitor.getPremiumSmsPermission( tracker.mAppInfo.packageName); if (premiumSmsPermission == SmsUsageMonitor.PREMIUM_SMS_PERMISSION_UNKNOWN) { // First time trying to send to premium SMS. premiumSmsPermission = SmsUsageMonitor.PREMIUM_SMS_PERMISSION_ASK_USER; } switch (premiumSmsPermission) { case SmsUsageMonitor.PREMIUM_SMS_PERMISSION_ALWAYS_ALLOW: Rlog.d(TAG, "User approved this app to send to premium SMS"); return true; case SmsUsageMonitor.PREMIUM_SMS_PERMISSION_NEVER_ALLOW: Rlog.w(TAG, "User denied this app from sending to premium SMS"); sendMessage(obtainMessage(EVENT_STOP_SENDING, tracker)); return false; // reject this message case SmsUsageMonitor.PREMIUM_SMS_PERMISSION_ASK_USER: default: int event; if (smsCategory == SmsUsageMonitor.CATEGORY_POSSIBLE_PREMIUM_SHORT_CODE) { event = EVENT_CONFIRM_SEND_TO_POSSIBLE_PREMIUM_SHORT_CODE; } else { event = EVENT_CONFIRM_SEND_TO_PREMIUM_SHORT_CODE; } sendMessage(obtainMessage(event, tracker)); return false; // wait for user confirmation } } } /** * Deny sending an SMS if the outgoing queue limit is reached. Used when the message * must be confirmed by the user due to excessive usage or potential premium SMS detected. * @param tracker the SmsTracker for the message to send * @return true if the message was denied; false to continue with send confirmation */ private boolean denyIfQueueLimitReached(SmsTracker tracker) { if (mPendingTrackerCount >= MO_MSG_QUEUE_LIMIT) { // Deny sending message when the queue limit is reached. Rlog.e(TAG, "Denied because queue limit reached"); tracker.onFailed(mContext, RESULT_ERROR_LIMIT_EXCEEDED, 0/*errorCode*/); return true; } mPendingTrackerCount++; return false; } /** * Returns the label for the specified app package name. * @param appPackage the package name of the app requesting to send an SMS * @return the label for the specified app, or the package name if getApplicationInfo() fails */ private CharSequence getAppLabel(String appPackage) { PackageManager pm = mContext.getPackageManager(); try { ApplicationInfo appInfo = pm.getApplicationInfo(appPackage, 0); return appInfo.loadLabel(pm); } catch (PackageManager.NameNotFoundException e) { Rlog.e(TAG, "PackageManager Name Not Found for package " + appPackage); return appPackage; // fall back to package name if we can't get app label } } /** * Post an alert when SMS needs confirmation due to excessive usage. * @param tracker an SmsTracker for the current message. */ protected void handleReachSentLimit(SmsTracker tracker) { if (denyIfQueueLimitReached(tracker)) { return; // queue limit reached; error was returned to caller } CharSequence appLabel = getAppLabel(tracker.mAppInfo.packageName); Resources r = Resources.getSystem(); Spanned messageText = Html.fromHtml(r.getString(R.string.sms_control_message, appLabel)); ConfirmDialogListener listener = new ConfirmDialogListener(tracker, null); AlertDialog d = new AlertDialog.Builder(mContext) .setTitle(R.string.sms_control_title) .setIcon(R.drawable.stat_sys_warning) .setMessage(messageText) .setPositiveButton(r.getString(R.string.sms_control_yes), listener) .setNegativeButton(r.getString(R.string.sms_control_no), listener) .setOnCancelListener(listener) .create(); d.getWindow().setType(WindowManager.LayoutParams.TYPE_SYSTEM_ALERT); d.show(); } /** * Post an alert for user confirmation when sending to a potential short code. * @param isPremium true if the destination is known to be a premium short code * @param tracker the SmsTracker for the current message. */ protected void handleConfirmShortCode(boolean isPremium, SmsTracker tracker) { if (denyIfQueueLimitReached(tracker)) { return; // queue limit reached; error was returned to caller } int detailsId; if (isPremium) { detailsId = R.string.sms_premium_short_code_details; } else { detailsId = R.string.sms_short_code_details; } CharSequence appLabel = getAppLabel(tracker.mAppInfo.packageName); Resources r = Resources.getSystem(); Spanned messageText = Html.fromHtml(r.getString(R.string.sms_short_code_confirm_message, appLabel, tracker.mDestAddress)); LayoutInflater inflater = (LayoutInflater) mContext.getSystemService( Context.LAYOUT_INFLATER_SERVICE); View layout = inflater.inflate(R.layout.sms_short_code_confirmation_dialog, null); ConfirmDialogListener listener = new ConfirmDialogListener(tracker, (TextView)layout.findViewById(R.id.sms_short_code_remember_undo_instruction)); TextView messageView = (TextView) layout.findViewById(R.id.sms_short_code_confirm_message); messageView.setText(messageText); ViewGroup detailsLayout = (ViewGroup) layout.findViewById( R.id.sms_short_code_detail_layout); TextView detailsView = (TextView) detailsLayout.findViewById( R.id.sms_short_code_detail_message); detailsView.setText(detailsId); CheckBox rememberChoice = (CheckBox) layout.findViewById( R.id.sms_short_code_remember_choice_checkbox); rememberChoice.setOnCheckedChangeListener(listener); AlertDialog d = new AlertDialog.Builder(mContext) .setView(layout) .setPositiveButton(r.getString(R.string.sms_short_code_confirm_allow), listener) .setNegativeButton(r.getString(R.string.sms_short_code_confirm_deny), listener) .setOnCancelListener(listener) .create(); d.getWindow().setType(WindowManager.LayoutParams.TYPE_SYSTEM_ALERT); d.show(); listener.setPositiveButton(d.getButton(DialogInterface.BUTTON_POSITIVE)); listener.setNegativeButton(d.getButton(DialogInterface.BUTTON_NEGATIVE)); } /** * Returns the premium SMS permission for the specified package. If the package has never * been seen before, the default {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_ASK_USER} * will be returned. * @param packageName the name of the package to query permission * @return one of {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_UNKNOWN}, * {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_ASK_USER}, * {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_NEVER_ALLOW}, or * {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_ALWAYS_ALLOW} */ public int getPremiumSmsPermission(String packageName) { return mUsageMonitor.getPremiumSmsPermission(packageName); } /** * Sets the premium SMS permission for the specified package and save the value asynchronously * to persistent storage. * @param packageName the name of the package to set permission * @param permission one of {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_ASK_USER}, * {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_NEVER_ALLOW}, or * {@link SmsUsageMonitor#PREMIUM_SMS_PERMISSION_ALWAYS_ALLOW} */ public void setPremiumSmsPermission(String packageName, int permission) { mUsageMonitor.setPremiumSmsPermission(packageName, permission); } /** * Send the message along to the radio. * * @param tracker holds the SMS message to send */ protected abstract void sendSms(SmsTracker tracker); /** * Send the SMS via the PSTN network. * * @param tracker holds the Sms tracker ready to be sent */ protected abstract void sendSmsByPstn(SmsTracker tracker); /** * Retry the message along to the radio. * * @param tracker holds the SMS message to send */ public void sendRetrySms(SmsTracker tracker) { // re-routing to ImsSMSDispatcher if (mImsSMSDispatcher != null) { mImsSMSDispatcher.sendRetrySms(tracker); } else { Rlog.e(TAG, mImsSMSDispatcher + " is null. Retry failed"); } } /** * Send the multi-part SMS based on multipart Sms tracker * * @param tracker holds the multipart Sms tracker ready to be sent */ private void sendMultipartSms(SmsTracker tracker) { ArrayList parts; ArrayList sentIntents; ArrayList deliveryIntents; HashMap map = tracker.mData; String destinationAddress = (String) map.get("destination"); String scAddress = (String) map.get("scaddress"); parts = (ArrayList) map.get("parts"); sentIntents = (ArrayList) map.get("sentIntents"); deliveryIntents = (ArrayList) map.get("deliveryIntents"); // check if in service int ss = mPhone.getServiceState().getState(); // if sms over IMS is not supported on data and voice is not available... if (!isIms() && ss != ServiceState.STATE_IN_SERVICE) { for (int i = 0, count = parts.size(); i < count; i++) { PendingIntent sentIntent = null; if (sentIntents != null && sentIntents.size() > i) { sentIntent = sentIntents.get(i); } handleNotInService(ss, sentIntent); } return; } sendMultipartText(destinationAddress, scAddress, parts, sentIntents, deliveryIntents, null/*messageUri*/, null/*callingPkg*/); } /** * Keeps track of an SMS that has been sent to the RIL, until it has * successfully been sent, or we're done trying. */ protected static final class SmsTracker { // fields need to be public for derived SmsDispatchers public final HashMap mData; public int mRetryCount; public int mImsRetry; // nonzero indicates initial message was sent over Ims public int mMessageRef; public boolean mExpectMore; String mFormat; public final PendingIntent mSentIntent; public final PendingIntent mDeliveryIntent; public final PackageInfo mAppInfo; public final String mDestAddress; public final SmsHeader mSmsHeader; private long mTimestamp = System.currentTimeMillis(); public Uri mMessageUri; // Uri of persisted message if we wrote one // Reference to states of a multipart message that this part belongs to private AtomicInteger mUnsentPartCount; private AtomicBoolean mAnyPartFailed; private SmsTracker(HashMap data, PendingIntent sentIntent, PendingIntent deliveryIntent, PackageInfo appInfo, String destAddr, String format, AtomicInteger unsentPartCount, AtomicBoolean anyPartFailed, Uri messageUri, SmsHeader smsHeader, boolean isExpectMore) { mData = data; mSentIntent = sentIntent; mDeliveryIntent = deliveryIntent; mRetryCount = 0; mAppInfo = appInfo; mDestAddress = destAddr; mFormat = format; mExpectMore = isExpectMore; mImsRetry = 0; mMessageRef = 0; mUnsentPartCount = unsentPartCount; mAnyPartFailed = anyPartFailed; mMessageUri = messageUri; mSmsHeader = smsHeader; } /** * Returns whether this tracker holds a multi-part SMS. * @return true if the tracker holds a multi-part SMS; false otherwise */ boolean isMultipart() { return mData.containsKey("parts"); } /** * Persist this as a sent message */ void writeSentMessage(Context context) { String text = (String)mData.get("text"); if (text != null) { boolean deliveryReport = (mDeliveryIntent != null); // Using invalid threadId 0 here. When the message is inserted into the db, the // provider looks up the threadId based on the recipient(s). mMessageUri = Sms.addMessageToUri(context.getContentResolver(), Telephony.Sms.Sent.CONTENT_URI, mDestAddress, text /*body*/, null /*subject*/, mTimestamp /*date*/, true /*read*/, deliveryReport /*deliveryReport*/, 0 /*threadId*/); } } /** * Update the status of this message if we persisted it */ public void updateSentMessageStatus(Context context, int status) { if (mMessageUri != null) { // If we wrote this message in writeSentMessage, update it now ContentValues values = new ContentValues(1); values.put(Sms.STATUS, status); SqliteWrapper.update(context, context.getContentResolver(), mMessageUri, values, null, null); } } /** * Update the error_code column of a message * * @param context The Context * @param errorCode The error code */ private void updateMessageErrorCode(Context context, int errorCode) { if (mMessageUri == null) { return; } final ContentValues values = new ContentValues(1); values.put(Sms.ERROR_CODE, errorCode); final long identity = Binder.clearCallingIdentity(); try { if (SqliteWrapper.update(context, context.getContentResolver(), mMessageUri, values, null/*where*/, null/*selectionArgs*/) != 1) { Rlog.e(TAG, "Failed to update message error code"); } } finally { Binder.restoreCallingIdentity(identity); } } /** * Set the final state of a message: FAILED or SENT * * @param context The Context * @param messageType The final message type */ private void setMessageFinalState(Context context, int messageType) { if (mMessageUri == null) { return; } final ContentValues values = new ContentValues(1); values.put(Sms.TYPE, messageType); final long identity = Binder.clearCallingIdentity(); try { if (SqliteWrapper.update(context, context.getContentResolver(), mMessageUri, values, null/*where*/, null/*selectionArgs*/) != 1) { Rlog.e(TAG, "Failed to move message to " + messageType); } } finally { Binder.restoreCallingIdentity(identity); } } /** * Handle a failure of a single part message or a part of a multipart message * * @param context The Context * @param error The error to send back with * @param errorCode */ public void onFailed(Context context, int error, int errorCode) { if (mAnyPartFailed != null) { mAnyPartFailed.set(true); } // is single part or last part of multipart message boolean isSinglePartOrLastPart = true; if (mUnsentPartCount != null) { isSinglePartOrLastPart = mUnsentPartCount.decrementAndGet() == 0; } if (errorCode != 0) { updateMessageErrorCode(context, errorCode); } if (isSinglePartOrLastPart) { setMessageFinalState(context, Sms.MESSAGE_TYPE_FAILED); } if (mSentIntent != null) { try { // Extra information to send with the sent intent Intent fillIn = new Intent(); if (mMessageUri != null) { // Pass this to SMS apps so that they know where it is stored fillIn.putExtra("uri", mMessageUri.toString()); } if (errorCode != 0) { fillIn.putExtra("errorCode", errorCode); } if (mUnsentPartCount != null && isSinglePartOrLastPart) { // Is multipart and last part fillIn.putExtra(SEND_NEXT_MSG_EXTRA, true); } mSentIntent.send(context, error, fillIn); } catch (CanceledException ex) { Rlog.e(TAG, "Failed to send result"); } } } /** * Handle the sent of a single part message or a part of a multipart message * * @param context The Context */ public void onSent(Context context) { // is single part or last part of multipart message boolean isSinglePartOrLastPart = true; if (mUnsentPartCount != null) { isSinglePartOrLastPart = mUnsentPartCount.decrementAndGet() == 0; } if (isSinglePartOrLastPart) { boolean success = true; if (mAnyPartFailed != null && mAnyPartFailed.get()) { success = false; } if (success) { setMessageFinalState(context, Sms.MESSAGE_TYPE_SENT); } else { setMessageFinalState(context, Sms.MESSAGE_TYPE_FAILED); } } if (mSentIntent != null) { try { // Extra information to send with the sent intent Intent fillIn = new Intent(); if (mMessageUri != null) { // Pass this to SMS apps so that they know where it is stored fillIn.putExtra("uri", mMessageUri.toString()); } if (mUnsentPartCount != null && isSinglePartOrLastPart) { // Is multipart and last part fillIn.putExtra(SEND_NEXT_MSG_EXTRA, true); } mSentIntent.send(context, Activity.RESULT_OK, fillIn); } catch (CanceledException ex) { Rlog.e(TAG, "Failed to send result"); } } } } protected SmsTracker getSmsTracker(HashMap data, PendingIntent sentIntent, PendingIntent deliveryIntent, String format, AtomicInteger unsentPartCount, AtomicBoolean anyPartFailed, Uri messageUri, SmsHeader smsHeader, boolean isExpectMore) { // Get calling app package name via UID from Binder call PackageManager pm = mContext.getPackageManager(); String[] packageNames = pm.getPackagesForUid(Binder.getCallingUid()); // Get package info via packagemanager PackageInfo appInfo = null; if (packageNames != null && packageNames.length > 0) { try { // XXX this is lossy- apps can share a UID appInfo = pm.getPackageInfo(packageNames[0], PackageManager.GET_SIGNATURES); } catch (PackageManager.NameNotFoundException e) { // error will be logged in sendRawPdu } } // Strip non-digits from destination phone number before checking for short codes // and before displaying the number to the user if confirmation is required. String destAddr = PhoneNumberUtils.extractNetworkPortion((String) data.get("destAddr")); return new SmsTracker(data, sentIntent, deliveryIntent, appInfo, destAddr, format, unsentPartCount, anyPartFailed, messageUri, smsHeader, isExpectMore); } protected SmsTracker getSmsTracker(HashMap data, PendingIntent sentIntent, PendingIntent deliveryIntent, String format, Uri messageUri, boolean isExpectMore) { return getSmsTracker(data, sentIntent, deliveryIntent, format, null/*unsentPartCount*/, null/*anyPartFailed*/, messageUri, null/*smsHeader*/, isExpectMore); } protected HashMap getSmsTrackerMap(String destAddr, String scAddr, String text, SmsMessageBase.SubmitPduBase pdu) { HashMap map = new HashMap(); map.put("destAddr", destAddr); map.put("scAddr", scAddr); map.put("text", text); map.put("smsc", pdu.encodedScAddress); map.put("pdu", pdu.encodedMessage); return map; } protected HashMap getSmsTrackerMap(String destAddr, String scAddr, int destPort, byte[] data, SmsMessageBase.SubmitPduBase pdu) { HashMap map = new HashMap(); map.put("destAddr", destAddr); map.put("scAddr", scAddr); map.put("destPort", destPort); map.put("data", data); map.put("smsc", pdu.encodedScAddress); map.put("pdu", pdu.encodedMessage); return map; } /** * Dialog listener for SMS confirmation dialog. */ private final class ConfirmDialogListener implements DialogInterface.OnClickListener, DialogInterface.OnCancelListener, CompoundButton.OnCheckedChangeListener { private final SmsTracker mTracker; private Button mPositiveButton; private Button mNegativeButton; private boolean mRememberChoice; // default is unchecked private final TextView mRememberUndoInstruction; ConfirmDialogListener(SmsTracker tracker, TextView textView) { mTracker = tracker; mRememberUndoInstruction = textView; } void setPositiveButton(Button button) { mPositiveButton = button; } void setNegativeButton(Button button) { mNegativeButton = button; } @Override public void onClick(DialogInterface dialog, int which) { // Always set the SMS permission so that Settings will show a permission setting // for the app (it won't be shown until after the app tries to send to a short code). int newSmsPermission = SmsUsageMonitor.PREMIUM_SMS_PERMISSION_ASK_USER; if (which == DialogInterface.BUTTON_POSITIVE) { Rlog.d(TAG, "CONFIRM sending SMS"); // XXX this is lossy- apps can have more than one signature EventLog.writeEvent(EventLogTags.EXP_DET_SMS_SENT_BY_USER, mTracker.mAppInfo.applicationInfo == null ? -1 : mTracker.mAppInfo.applicationInfo.uid); sendMessage(obtainMessage(EVENT_SEND_CONFIRMED_SMS, mTracker)); if (mRememberChoice) { newSmsPermission = SmsUsageMonitor.PREMIUM_SMS_PERMISSION_ALWAYS_ALLOW; } } else if (which == DialogInterface.BUTTON_NEGATIVE) { Rlog.d(TAG, "DENY sending SMS"); // XXX this is lossy- apps can have more than one signature EventLog.writeEvent(EventLogTags.EXP_DET_SMS_DENIED_BY_USER, mTracker.mAppInfo.applicationInfo == null ? -1 : mTracker.mAppInfo.applicationInfo.uid); sendMessage(obtainMessage(EVENT_STOP_SENDING, mTracker)); if (mRememberChoice) { newSmsPermission = SmsUsageMonitor.PREMIUM_SMS_PERMISSION_NEVER_ALLOW; } } setPremiumSmsPermission(mTracker.mAppInfo.packageName, newSmsPermission); } @Override public void onCancel(DialogInterface dialog) { Rlog.d(TAG, "dialog dismissed: don't send SMS"); sendMessage(obtainMessage(EVENT_STOP_SENDING, mTracker)); } @Override public void onCheckedChanged(CompoundButton buttonView, boolean isChecked) { Rlog.d(TAG, "remember this choice: " + isChecked); mRememberChoice = isChecked; if (isChecked) { mPositiveButton.setText(R.string.sms_short_code_confirm_always_allow); mNegativeButton.setText(R.string.sms_short_code_confirm_never_allow); if (mRememberUndoInstruction != null) { mRememberUndoInstruction. setText(R.string.sms_short_code_remember_undo_instruction); mRememberUndoInstruction.setPadding(0,0,0,32); } } else { mPositiveButton.setText(R.string.sms_short_code_confirm_allow); mNegativeButton.setText(R.string.sms_short_code_confirm_deny); if (mRememberUndoInstruction != null) { mRememberUndoInstruction.setText(""); mRememberUndoInstruction.setPadding(0,0,0,0); } } } } public boolean isIms() { if (mImsSMSDispatcher != null) { return mImsSMSDispatcher.isIms(); } else { Rlog.e(TAG, mImsSMSDispatcher + " is null"); return false; } } public String getImsSmsFormat() { if (mImsSMSDispatcher != null) { return mImsSMSDispatcher.getImsSmsFormat(); } else { Rlog.e(TAG, mImsSMSDispatcher + " is null"); return null; } } protected Uri writeOutboxMessage(long subId, String address, String text, boolean requireDeliveryReport, String creator) { final ContentValues values = new ContentValues(8); values.put(Telephony.Sms.SUB_ID, subId); values.put(Telephony.Sms.ADDRESS, address); values.put(Telephony.Sms.BODY, text); values.put(Telephony.Sms.DATE, System.currentTimeMillis()); // milliseconds values.put(Telephony.Sms.SEEN, 1); values.put(Telephony.Sms.READ, 1); if (!TextUtils.isEmpty(creator)) { values.put(Telephony.Sms.CREATOR, creator); } if (requireDeliveryReport) { values.put(Telephony.Sms.STATUS, Telephony.Sms.STATUS_PENDING); } final long identity = Binder.clearCallingIdentity(); try { final Uri uri = mContext.getContentResolver().insert( Telephony.Sms.Outbox.CONTENT_URI, values); return uri; } catch (Exception e) { Rlog.e(TAG, "writeOutboxMessage: Failed to persist outbox message", e); return null; } finally { Binder.restoreCallingIdentity(identity); } } protected void moveToOutbox(long subId, Uri messageUri, String creator) { final ContentValues values = new ContentValues(4); values.put(Telephony.Sms.SUB_ID, subId); if (!TextUtils.isEmpty(creator)) { // Reset creator/sender values.put(Telephony.Sms.CREATOR, creator); } // Reset the timestamp values.put(Telephony.Sms.DATE, System.currentTimeMillis()); // milliseconds values.put(Telephony.Sms.TYPE, Telephony.Sms.MESSAGE_TYPE_OUTBOX); final long identity = Binder.clearCallingIdentity(); try { if (mContext.getContentResolver().update(messageUri, values, null/*where*/, null/*selectionArgs*/) != 1) { Rlog.e(TAG, "moveToOutbox: failed to update message " + messageUri); } } catch (Exception e) { Rlog.e(TAG, "moveToOutbox: Failed to update message", e); } finally { Binder.restoreCallingIdentity(identity); } } private String getMultipartMessageText(ArrayList parts) { final StringBuilder sb = new StringBuilder(); for (String part : parts) { if (part != null) { sb.append(part); } } return sb.toString(); } protected String getCarrierAppPackageName(Intent intent) { UiccCard card = UiccController.getInstance().getUiccCard(); if (card == null) { return null; } List carrierPackages = card.getCarrierPackageNamesForIntent( mContext.getPackageManager(), intent); return (carrierPackages != null && carrierPackages.size() == 1) ? carrierPackages.get(0) : null; } protected long getSubId() { return SubscriptionController.getInstance().getSubIdUsingPhoneId(mPhone.mPhoneId); } }