/* * Copyright (C) 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.internal.telephony.cdma; import android.app.Activity; import android.app.PendingIntent; import android.content.ContentValues; import android.database.Cursor; import android.database.SQLException; import android.os.AsyncResult; import android.os.Message; import android.provider.Telephony.Sms.Intents; import android.util.Config; import android.util.Log; import com.android.internal.telephony.CommandsInterface; import com.android.internal.telephony.SmsHeader; import com.android.internal.telephony.SmsMessageBase; import com.android.internal.telephony.SMSDispatcher; import com.android.internal.telephony.cdma.SmsMessage; import com.android.internal.telephony.cdma.sms.SmsEnvelope; import com.android.internal.util.HexDump; import java.io.ByteArrayOutputStream; import java.util.ArrayList; import java.util.HashMap; final class CdmaSMSDispatcher extends SMSDispatcher { private static final String TAG = "CDMA"; private CDMAPhone mCdmaPhone; CdmaSMSDispatcher(CDMAPhone phone) { super(phone); mCdmaPhone = phone; } /** * Called when a status report is received. This should correspond to * a previously successful SEND. * Is a special GSM function, should never be called in CDMA!! * * @param ar AsyncResult passed into the message handler. ar.result should * be a String representing the status report PDU, as ASCII hex. */ protected void handleStatusReport(AsyncResult ar) { Log.d(TAG, "handleStatusReport is a special GSM function, should never be called in CDMA!"); } /** * Dispatches an incoming SMS messages. * * @param smsb the incoming message from the phone */ protected void dispatchMessage(SmsMessageBase smsb) { // If sms is null, means there was a parsing error. // TODO: Should NAK this. if (smsb == null) { return; } // Decode BD stream and set sms variables. SmsMessage sms = (SmsMessage) smsb; sms.parseSms(); int teleService = sms.getTeleService(); boolean handled = false; // Teleservices W(E)MT and VMN are handled together: if ((teleService == SmsEnvelope.TELESERVICE_WMT) || (teleService == SmsEnvelope.TELESERVICE_WEMT) || (teleService == SmsEnvelope.TELESERVICE_VMN)) { // From here on we need decoded BD. // Special case the message waiting indicator messages if (sms.isMWISetMessage()) { mCdmaPhone.updateMessageWaitingIndicator(true); handled |= sms.isMwiDontStore(); if (Config.LOGD) { Log.d(TAG, "Received voice mail indicator set SMS shouldStore=" + !handled); } } else if (sms.isMWIClearMessage()) { mCdmaPhone.updateMessageWaitingIndicator(false); handled |= sms.isMwiDontStore(); if (Config.LOGD) { Log.d(TAG, "Received voice mail indicator clear SMS shouldStore=" + !handled); } } } if (sms.getUserData() == null) { if (Config.LOGD) { Log.d(TAG, "Received SMS without user data"); } handled = true; } if (handled) return; if (SmsEnvelope.TELESERVICE_WAP == teleService){ processCdmaWapPdu(sms.getUserData(), sms.messageRef, sms.getOriginatingAddress()); return; } /** * TODO(cleanup): Why are we using a getter method for this * (and for so many other sms fields)? Trivial getters and * setters like this are direct violations of the style guide. * If the purpose is to protect agaist writes (by not * providing a setter) then any protection is illusory (and * hence bad) for cases where the values are not primitives, * such as this call for the header. Since this is an issue * with the public API it cannot be changed easily, but maybe * something can be done eventually. */ SmsHeader smsHeader = sms.getUserDataHeader(); /** * TODO(cleanup): Since both CDMA and GSM use the same header * format, this dispatch processing is naturally identical, * and code should probably not be replicated explicitly. */ // See if message is partial or port addressed. if ((smsHeader == null) || (smsHeader.concatRef == null)) { // Message is not partial (not part of concatenated sequence). byte[][] pdus = new byte[1][]; pdus[0] = sms.getPdu(); if (smsHeader != null && smsHeader.portAddrs != null) { if (smsHeader.portAddrs.destPort == SmsHeader.PORT_WAP_PUSH) { // GSM-style WAP indication mWapPush.dispatchWapPdu(sms.getUserData()); } // The message was sent to a port, so concoct a URI for it. dispatchPortAddressedPdus(pdus, smsHeader.portAddrs.destPort); } else { // Normal short and non-port-addressed message, dispatch it. dispatchPdus(pdus); } } else { // Process the message part. processMessagePart(sms, smsHeader.concatRef, smsHeader.portAddrs); } } /** * Processes inbound messages that are in the WAP-WDP PDU format. See * wap-259-wdp-20010614-a section 6.5 for details on the WAP-WDP PDU format. * WDP segments are gathered until a datagram completes and gets dispatched. * * @param pdu The WAP-WDP PDU segment */ protected void processCdmaWapPdu(byte[] pdu, int referenceNumber, String address) { int segment; int totalSegments; int index = 0; int msgType; int sourcePort; int destinationPort; msgType = pdu[index++]; if (msgType != 0){ Log.w(TAG, "Received a WAP SMS which is not WDP. Discard."); return; } totalSegments = pdu[index++]; // >=1 segment = pdu[index++]; // >=0 //process WDP segment sourcePort = (0xFF & pdu[index++]) << 8; sourcePort |= 0xFF & pdu[index++]; destinationPort = (0xFF & pdu[index++]) << 8; destinationPort |= 0xFF & pdu[index++]; // Lookup all other related parts StringBuilder where = new StringBuilder("reference_number ="); where.append(referenceNumber); where.append(" AND address = ?"); String[] whereArgs = new String[] {address}; Log.i(TAG, "Received WAP PDU. Type = " + msgType + ", originator = " + address + ", src-port = " + sourcePort + ", dst-port = " + destinationPort + ", ID = " + referenceNumber + ", segment# = " + segment + "/" + totalSegments); byte[][] pdus = null; Cursor cursor = null; try { cursor = mResolver.query(mRawUri, RAW_PROJECTION, where.toString(), whereArgs, null); int cursorCount = cursor.getCount(); if (cursorCount != totalSegments - 1) { // We don't have all the parts yet, store this one away ContentValues values = new ContentValues(); values.put("date", new Long(0)); values.put("pdu", HexDump.toHexString(pdu, index, pdu.length - index)); values.put("address", address); values.put("reference_number", referenceNumber); values.put("count", totalSegments); values.put("sequence", segment); values.put("destination_port", destinationPort); mResolver.insert(mRawUri, values); return; } // All the parts are in place, deal with them int pduColumn = cursor.getColumnIndex("pdu"); int sequenceColumn = cursor.getColumnIndex("sequence"); pdus = new byte[totalSegments][]; for (int i = 0; i < cursorCount; i++) { cursor.moveToNext(); int cursorSequence = (int)cursor.getLong(sequenceColumn); pdus[cursorSequence] = HexDump.hexStringToByteArray( cursor.getString(pduColumn)); } // The last part will be added later // Remove the parts from the database mResolver.delete(mRawUri, where.toString(), whereArgs); } catch (SQLException e) { Log.e(TAG, "Can't access multipart SMS database", e); return; // TODO: NACK the message or something, don't just discard. } finally { if (cursor != null) cursor.close(); } // Build up the data stream ByteArrayOutputStream output = new ByteArrayOutputStream(); for (int i = 0; i < totalSegments-1; i++) { // reassemble the (WSP-)pdu output.write(pdus[i], 0, pdus[i].length); } // This one isn't in the DB, so add it output.write(pdu, index, pdu.length - index); byte[] datagram = output.toByteArray(); // Dispatch the PDU to applications switch (destinationPort) { case SmsHeader.PORT_WAP_PUSH: // Handle the PUSH mWapPush.dispatchWapPdu(datagram); break; default:{ pdus = new byte[1][]; pdus[0] = datagram; // The messages were sent to any other WAP port dispatchPortAddressedPdus(pdus, destinationPort); break; } } } /** {@inheritDoc} */ protected void sendMultipartText(String destAddr, String scAddr, ArrayList parts, ArrayList sentIntents, ArrayList deliveryIntents) { /** * TODO(cleanup): There is no real code difference between * this and the GSM version, and hence it should be moved to * the base class or consolidated somehow, provided calling * the proper submitpdu stuff can be arranged. */ int refNumber = getNextConcatenatedRef() & 0x00FF; for (int i = 0, msgCount = parts.size(); i < msgCount; i++) { SmsHeader.ConcatRef concatRef = new SmsHeader.ConcatRef(); concatRef.refNumber = refNumber; concatRef.seqNumber = i + 1; // 1-based sequence concatRef.msgCount = msgCount; concatRef.isEightBits = true; SmsHeader smsHeader = new SmsHeader(); smsHeader.concatRef = concatRef; 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); } SmsMessage.SubmitPdu submitPdu = SmsMessage.getSubmitPdu(scAddr, destAddr, parts.get(i), deliveryIntent != null, smsHeader); sendSubmitPdu(submitPdu, sentIntent, deliveryIntent); } } protected void sendSubmitPdu(SmsMessage.SubmitPdu submitPdu, PendingIntent sentIntent, PendingIntent deliveryIntent) { sendRawPdu(submitPdu.encodedScAddress, submitPdu.encodedMessage, sentIntent, deliveryIntent); } /** {@inheritDoc} */ protected void sendSms(SmsTracker tracker) { HashMap map = tracker.mData; byte smsc[] = (byte[]) map.get("smsc"); byte pdu[] = (byte[]) map.get("pdu"); Message reply = obtainMessage(EVENT_SEND_SMS_COMPLETE, tracker); mCm.sendCdmaSms(pdu, reply); } /** {@inheritDoc} */ protected void sendMultipartSms (SmsTracker tracker) { Log.d(TAG, "TODO: CdmaSMSDispatcher.sendMultipartSms not implemented"); } /** {@inheritDoc} */ protected void acknowledgeLastIncomingSms(boolean success, int result, Message response){ // FIXME unit test leaves cm == null. this should change if (mCm != null) { mCm.acknowledgeLastIncomingCdmaSms(success, resultToCause(result), response); } } /** {@inheritDoc} */ protected void activateCellBroadcastSms(int activate, Message response) { mCm.activateCdmaBroadcastSms(activate, response); } /** {@inheritDoc} */ protected void getCellBroadcastSmsConfig(Message response) { mCm.getCdmaBroadcastConfig(response); } /** {@inheritDoc} */ protected void setCellBroadcastConfig(int[] configValuesArray, Message response) { mCm.setCdmaBroadcastConfig(configValuesArray, response); } private int resultToCause(int rc) { switch (rc) { case Activity.RESULT_OK: case Intents.RESULT_SMS_HANDLED: // Cause code is ignored on success. return 0; case Intents.RESULT_SMS_OUT_OF_MEMORY: return CommandsInterface.CDMA_SMS_FAIL_CAUSE_RESOURCE_SHORTAGE; case Intents.RESULT_SMS_GENERIC_ERROR: default: return CommandsInterface.CDMA_SMS_FAIL_CAUSE_OTHER_TERMINAL_PROBLEM; } } }