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android / platform / frameworks / opt / telephony / 59eaa2d / . / src / java / com / android / internal / telephony / IccSmsInterfaceManager.java
blob: 3af4d95e947cca35e2b902bc8eb86473c0eb5d59 [file] [log] [blame]
/*
* 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;
import android.Manifest;
import android.app.AppOpsManager;
import android.app.PendingIntent;
import android.content.ContentResolver;
import android.content.Context;
import android.database.Cursor;
import android.database.sqlite.SQLiteException;
import android.net.Uri;
import android.os.AsyncResult;
import android.os.Binder;
import android.os.Handler;
import android.os.Message;
import android.os.UserManager;
import android.provider.Telephony;
import android.telephony.Rlog;
import android.telephony.SmsManager;
import android.telephony.SmsMessage;
import android.util.Log;
import com.android.internal.telephony.gsm.SmsBroadcastConfigInfo;
import com.android.internal.telephony.cdma.CdmaSmsBroadcastConfigInfo;
import com.android.internal.telephony.uicc.IccConstants;
import com.android.internal.telephony.uicc.IccFileHandler;
import com.android.internal.telephony.uicc.UiccController;
import com.android.internal.telephony.SmsNumberUtils;
import com.android.internal.util.HexDump;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.List;
import static android.telephony.SmsManager.STATUS_ON_ICC_FREE;
import static android.telephony.SmsManager.STATUS_ON_ICC_READ;
import static android.telephony.SmsManager.STATUS_ON_ICC_UNREAD;
import android.telephony.TelephonyManager;
/**
* IccSmsInterfaceManager to provide an inter-process communication to
* access Sms in Icc.
*/
public class IccSmsInterfaceManager {
static final String LOG_TAG = "IccSmsInterfaceManager";
static final boolean DBG = true;
protected final Object mLock = new Object();
protected boolean mSuccess;
private List<SmsRawData> mSms;
private CellBroadcastRangeManager mCellBroadcastRangeManager =
new CellBroadcastRangeManager();
private CdmaBroadcastRangeManager mCdmaBroadcastRangeManager =
new CdmaBroadcastRangeManager();
private static final int EVENT_LOAD_DONE = 1;
private static final int EVENT_UPDATE_DONE = 2;
protected static final int EVENT_SET_BROADCAST_ACTIVATION_DONE = 3;
protected static final int EVENT_SET_BROADCAST_CONFIG_DONE = 4;
private static final int SMS_CB_CODE_SCHEME_MIN = 0;
private static final int SMS_CB_CODE_SCHEME_MAX = 255;
protected PhoneBase mPhone;
final protected Context mContext;
final protected AppOpsManager mAppOps;
final private UserManager mUserManager;
protected SMSDispatcher mDispatcher;
protected Handler mHandler = new Handler() {
@Override
public void handleMessage(Message msg) {
AsyncResult ar;
switch (msg.what) {
case EVENT_UPDATE_DONE:
ar = (AsyncResult) msg.obj;
synchronized (mLock) {
mSuccess = (ar.exception == null);
mLock.notifyAll();
}
break;
case EVENT_LOAD_DONE:
ar = (AsyncResult)msg.obj;
synchronized (mLock) {
if (ar.exception == null) {
mSms = buildValidRawData((ArrayList<byte[]>) ar.result);
//Mark SMS as read after importing it from card.
markMessagesAsRead((ArrayList<byte[]>) ar.result);
} else {
if (Rlog.isLoggable("SMS", Log.DEBUG)) {
log("Cannot load Sms records");
}
if (mSms != null)
mSms.clear();
}
mLock.notifyAll();
}
break;
case EVENT_SET_BROADCAST_ACTIVATION_DONE:
case EVENT_SET_BROADCAST_CONFIG_DONE:
ar = (AsyncResult) msg.obj;
synchronized (mLock) {
mSuccess = (ar.exception == null);
mLock.notifyAll();
}
break;
}
}
};
protected IccSmsInterfaceManager(PhoneBase phone) {
mPhone = phone;
mContext = phone.getContext();
mAppOps = (AppOpsManager) mContext.getSystemService(Context.APP_OPS_SERVICE);
mUserManager = (UserManager) mContext.getSystemService(Context.USER_SERVICE);
mDispatcher = new ImsSMSDispatcher(phone,
phone.mSmsStorageMonitor, phone.mSmsUsageMonitor);
}
protected void markMessagesAsRead(ArrayList<byte[]> messages) {
if (messages == null) {
return;
}
//IccFileHandler can be null, if icc card is absent.
IccFileHandler fh = mPhone.getIccFileHandler();
if (fh == null) {
//shouldn't really happen, as messages are marked as read, only
//after importing it from icc.
if (Rlog.isLoggable("SMS", Log.DEBUG)) {
log("markMessagesAsRead - aborting, no icc card present.");
}
return;
}
int count = messages.size();
for (int i = 0; i < count; i++) {
byte[] ba = messages.get(i);
if (ba[0] == STATUS_ON_ICC_UNREAD) {
int n = ba.length;
byte[] nba = new byte[n - 1];
System.arraycopy(ba, 1, nba, 0, n - 1);
byte[] record = makeSmsRecordData(STATUS_ON_ICC_READ, nba);
fh.updateEFLinearFixed(IccConstants.EF_SMS, i + 1, record, null, null);
if (Rlog.isLoggable("SMS", Log.DEBUG)) {
log("SMS " + (i + 1) + " marked as read");
}
}
}
}
protected void updatePhoneObject(PhoneBase phone) {
mPhone = phone;
mDispatcher.updatePhoneObject(phone);
}
protected void enforceReceiveAndSend(String message) {
mContext.enforceCallingPermission(
Manifest.permission.RECEIVE_SMS, message);
mContext.enforceCallingPermission(
Manifest.permission.SEND_SMS, message);
}
/**
* Update the specified message on the Icc.
*
* @param index record index of message to update
* @param status new message status (STATUS_ON_ICC_READ,
* STATUS_ON_ICC_UNREAD, STATUS_ON_ICC_SENT,
* STATUS_ON_ICC_UNSENT, STATUS_ON_ICC_FREE)
* @param pdu the raw PDU to store
* @return success or not
*
*/
public boolean
updateMessageOnIccEf(String callingPackage, int index, int status, byte[] pdu) {
if (DBG) log("updateMessageOnIccEf: index=" + index +
" status=" + status + " ==> " +
"("+ Arrays.toString(pdu) + ")");
enforceReceiveAndSend("Updating message on Icc");
if (mAppOps.noteOp(AppOpsManager.OP_WRITE_ICC_SMS, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return false;
}
synchronized(mLock) {
mSuccess = false;
Message response = mHandler.obtainMessage(EVENT_UPDATE_DONE);
if (status == STATUS_ON_ICC_FREE) {
// RIL_REQUEST_DELETE_SMS_ON_SIM vs RIL_REQUEST_CDMA_DELETE_SMS_ON_RUIM
// Special case FREE: call deleteSmsOnSim/Ruim instead of
// manipulating the record
// Will eventually fail if icc card is not present.
if (PhoneConstants.PHONE_TYPE_GSM == mPhone.getPhoneType()) {
mPhone.mCi.deleteSmsOnSim(index, response);
} else {
mPhone.mCi.deleteSmsOnRuim(index, response);
}
} else {
//IccFilehandler can be null if ICC card is not present.
IccFileHandler fh = mPhone.getIccFileHandler();
if (fh == null) {
response.recycle();
return mSuccess; /* is false */
}
byte[] record = makeSmsRecordData(status, pdu);
fh.updateEFLinearFixed(
IccConstants.EF_SMS,
index, record, null, response);
}
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to update by index");
}
}
return mSuccess;
}
/**
* Copy a raw SMS PDU to the Icc.
*
* @param pdu the raw PDU to store
* @param status message status (STATUS_ON_ICC_READ, STATUS_ON_ICC_UNREAD,
* STATUS_ON_ICC_SENT, STATUS_ON_ICC_UNSENT)
* @return success or not
*
*/
public boolean copyMessageToIccEf(String callingPackage, int status, byte[] pdu, byte[] smsc) {
//NOTE smsc not used in RUIM
if (DBG) log("copyMessageToIccEf: status=" + status + " ==> " +
"pdu=("+ Arrays.toString(pdu) +
"), smsc=(" + Arrays.toString(smsc) +")");
enforceReceiveAndSend("Copying message to Icc");
if (mAppOps.noteOp(AppOpsManager.OP_WRITE_ICC_SMS, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return false;
}
synchronized(mLock) {
mSuccess = false;
Message response = mHandler.obtainMessage(EVENT_UPDATE_DONE);
//RIL_REQUEST_WRITE_SMS_TO_SIM vs RIL_REQUEST_CDMA_WRITE_SMS_TO_RUIM
if (PhoneConstants.PHONE_TYPE_GSM == mPhone.getPhoneType()) {
mPhone.mCi.writeSmsToSim(status, IccUtils.bytesToHexString(smsc),
IccUtils.bytesToHexString(pdu), response);
} else {
mPhone.mCi.writeSmsToRuim(status, IccUtils.bytesToHexString(pdu),
response);
}
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to update by index");
}
}
return mSuccess;
}
/**
* Retrieves all messages currently stored on Icc.
*
* @return list of SmsRawData of all sms on Icc
*/
public List<SmsRawData> getAllMessagesFromIccEf(String callingPackage) {
if (DBG) log("getAllMessagesFromEF");
mContext.enforceCallingOrSelfPermission(
Manifest.permission.RECEIVE_SMS,
"Reading messages from Icc");
if (mAppOps.noteOp(AppOpsManager.OP_READ_ICC_SMS, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return new ArrayList<SmsRawData>();
}
synchronized(mLock) {
IccFileHandler fh = mPhone.getIccFileHandler();
if (fh == null) {
Rlog.e(LOG_TAG, "Cannot load Sms records. No icc card?");
if (mSms != null) {
mSms.clear();
return mSms;
}
}
Message response = mHandler.obtainMessage(EVENT_LOAD_DONE);
fh.loadEFLinearFixedAll(IccConstants.EF_SMS, response);
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to load from the Icc");
}
}
return mSms;
}
/**
* 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 <code>PendingIntent</code> is
* broadcast when the message is successfully sent, or failed.
* The result code will be <code>Activity.RESULT_OK<code> for success,
* or one of these errors:<br>
* <code>RESULT_ERROR_GENERIC_FAILURE</code><br>
* <code>RESULT_ERROR_RADIO_OFF</code><br>
* <code>RESULT_ERROR_NULL_PDU</code><br>
* For <code>RESULT_ERROR_GENERIC_FAILURE</code> the sentIntent may include
* the extra "errorCode" containing a radio technology specific value,
* generally only useful for troubleshooting.<br>
* 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 <code>PendingIntent</code> is
* broadcast when the message is delivered to the recipient. The
* raw pdu of the status report is in the extended data ("pdu").
*/
public void sendData(String callingPackage, String destAddr, String scAddr, int destPort,
byte[] data, PendingIntent sentIntent, PendingIntent deliveryIntent) {
mPhone.getContext().enforceCallingPermission(
Manifest.permission.SEND_SMS,
"Sending SMS message");
if (Rlog.isLoggable("SMS", Log.VERBOSE)) {
log("sendData: destAddr=" + destAddr + " scAddr=" + scAddr + " destPort=" +
destPort + " data='"+ HexDump.toHexString(data) + "' sentIntent=" +
sentIntent + " deliveryIntent=" + deliveryIntent);
}
if (mAppOps.noteOp(AppOpsManager.OP_SEND_SMS, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return;
}
destAddr = filterDestAddress(destAddr);
mDispatcher.sendData(destAddr, scAddr, destPort, data, sentIntent, 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 <code>PendingIntent</code> is
* broadcast when the message is successfully sent, or failed.
* The result code will be <code>Activity.RESULT_OK<code> for success,
* or one of these errors:<br>
* <code>RESULT_ERROR_GENERIC_FAILURE</code><br>
* <code>RESULT_ERROR_RADIO_OFF</code><br>
* <code>RESULT_ERROR_NULL_PDU</code><br>
* For <code>RESULT_ERROR_GENERIC_FAILURE</code> the sentIntent may include
* the extra "errorCode" containing a radio technology specific value,
* generally only useful for troubleshooting.<br>
* 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 <code>PendingIntent</code> is
* broadcast when the message is delivered to the recipient. The
* raw pdu of the status report is in the extended data ("pdu").
*/
public void sendText(String callingPackage, String destAddr, String scAddr,
String text, PendingIntent sentIntent, PendingIntent deliveryIntent) {
mPhone.getContext().enforceCallingPermission(
Manifest.permission.SEND_SMS,
"Sending SMS message");
if (Rlog.isLoggable("SMS", Log.VERBOSE)) {
log("sendText: destAddr=" + destAddr + " scAddr=" + scAddr +
" text='"+ text + "' sentIntent=" +
sentIntent + " deliveryIntent=" + deliveryIntent);
}
if (mAppOps.noteOp(AppOpsManager.OP_SEND_SMS, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return;
}
destAddr = filterDestAddress(destAddr);
mDispatcher.sendText(destAddr, scAddr, text, sentIntent, deliveryIntent,
null/*messageUri*/, callingPackage);
}
/**
* Inject an SMS PDU into the android application framework.
*
* @param pdu is the byte array of pdu to be injected into android application framework
* @param format is the format of SMS pdu (3gpp or 3gpp2)
* @param receivedIntent if not NULL this <code>PendingIntent</code> is
* broadcast when the message is successfully received by the
* android application framework. This intent is broadcasted at
* the same time an SMS received from radio is acknowledged back.
*/
public void injectSmsPdu(byte[] pdu, String format, PendingIntent receivedIntent) {
enforceCarrierPrivilege();
if (Rlog.isLoggable("SMS", Log.VERBOSE)) {
log("pdu: " + pdu +
"\n format=" + format +
"\n receivedIntent=" + receivedIntent);
}
mDispatcher.injectSmsPdu(pdu, format, receivedIntent);
}
/**
* 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 <code>ArrayList</code> of strings that, in order,
* comprise the original message
* @param sentIntents if not null, an <code>ArrayList</code> of
* <code>PendingIntent</code>s (one for each message part) that is
* broadcast when the corresponding message part has been sent.
* The result code will be <code>Activity.RESULT_OK<code> for success,
* or one of these errors:
* <code>RESULT_ERROR_GENERIC_FAILURE</code>
* <code>RESULT_ERROR_RADIO_OFF</code>
* <code>RESULT_ERROR_NULL_PDU</code>.
* 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 <code>ArrayList</code> of
* <code>PendingIntent</code>s (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
* extended data ("pdu").
*/
public void sendMultipartText(String callingPackage, String destAddr, String scAddr,
List<String> parts, List<PendingIntent> sentIntents,
List<PendingIntent> deliveryIntents) {
mPhone.getContext().enforceCallingPermission(
Manifest.permission.SEND_SMS,
"Sending SMS message");
if (Rlog.isLoggable("SMS", Log.VERBOSE)) {
int i = 0;
for (String part : parts) {
log("sendMultipartText: destAddr=" + destAddr + ", srAddr=" + scAddr +
", part[" + (i++) + "]=" + part);
}
}
if (mAppOps.noteOp(AppOpsManager.OP_SEND_SMS, Binder.getCallingUid(),
callingPackage) != AppOpsManager.MODE_ALLOWED) {
return;
}
if (parts.size() > 1 && parts.size() < 10 && !SmsMessage.hasEmsSupport()) {
for (int i = 0; i < parts.size(); i++) {
// If EMS is not supported, we have to break down EMS into single segment SMS
// and add page info " x/y".
String singlePart = parts.get(i);
if (SmsMessage.shouldAppendPageNumberAsPrefix()) {
singlePart = String.valueOf(i + 1) + '/' + parts.size() + ' ' + singlePart;
} else {
singlePart = singlePart.concat(' ' + String.valueOf(i + 1) + '/' + parts.size());
}
PendingIntent singleSentIntent = null;
if (sentIntents != null && sentIntents.size() > i) {
singleSentIntent = sentIntents.get(i);
}
PendingIntent singleDeliveryIntent = null;
if (deliveryIntents != null && deliveryIntents.size() > i) {
singleDeliveryIntent = deliveryIntents.get(i);
}
mDispatcher.sendText(destAddr, scAddr, singlePart,
singleSentIntent, singleDeliveryIntent,
null/*messageUri*/, callingPackage);
}
return;
}
mDispatcher.sendMultipartText(destAddr, scAddr, (ArrayList<String>) parts,
(ArrayList<PendingIntent>) sentIntents, (ArrayList<PendingIntent>) deliveryIntents,
null/*messageUri*/, callingPackage);
}
public int getPremiumSmsPermission(String packageName) {
return mDispatcher.getPremiumSmsPermission(packageName);
}
public void setPremiumSmsPermission(String packageName, int permission) {
mDispatcher.setPremiumSmsPermission(packageName, permission);
}
/**
* create SmsRawData lists from all sms record byte[]
* Use null to indicate "free" record
*
* @param messages List of message records from EF_SMS.
* @return SmsRawData list of all in-used records
*/
protected ArrayList<SmsRawData> buildValidRawData(ArrayList<byte[]> messages) {
int count = messages.size();
ArrayList<SmsRawData> ret;
ret = new ArrayList<SmsRawData>(count);
for (int i = 0; i < count; i++) {
byte[] ba = messages.get(i);
if (ba[0] == STATUS_ON_ICC_FREE) {
ret.add(null);
} else {
ret.add(new SmsRawData(messages.get(i)));
}
}
return ret;
}
/**
* Generates an EF_SMS record from status and raw PDU.
*
* @param status Message status. See TS 51.011 10.5.3.
* @param pdu Raw message PDU.
* @return byte array for the record.
*/
protected byte[] makeSmsRecordData(int status, byte[] pdu) {
byte[] data;
if (PhoneConstants.PHONE_TYPE_GSM == mPhone.getPhoneType()) {
data = new byte[IccConstants.SMS_RECORD_LENGTH];
} else {
data = new byte[IccConstants.CDMA_SMS_RECORD_LENGTH];
}
// Status bits for this record. See TS 51.011 10.5.3
data[0] = (byte)(status & 7);
System.arraycopy(pdu, 0, data, 1, pdu.length);
// Pad out with 0xFF's.
for (int j = pdu.length+1; j < data.length; j++) {
data[j] = -1;
}
return data;
}
public boolean enableCellBroadcast(int messageIdentifier, int ranType) {
return enableCellBroadcastRange(messageIdentifier, messageIdentifier, ranType);
}
public boolean disableCellBroadcast(int messageIdentifier, int ranType) {
return disableCellBroadcastRange(messageIdentifier, messageIdentifier, ranType);
}
public boolean enableCellBroadcastRange(int startMessageId, int endMessageId, int ranType) {
if (ranType == SmsManager.CELL_BROADCAST_RAN_TYPE_GSM) {
return enableGsmBroadcastRange(startMessageId, endMessageId);
} else if (ranType == SmsManager.CELL_BROADCAST_RAN_TYPE_CDMA) {
return enableCdmaBroadcastRange(startMessageId, endMessageId);
} else {
throw new IllegalArgumentException("Not a supportted RAN Type");
}
}
public boolean disableCellBroadcastRange(int startMessageId, int endMessageId, int ranType) {
if (ranType == SmsManager.CELL_BROADCAST_RAN_TYPE_GSM ) {
return disableGsmBroadcastRange(startMessageId, endMessageId);
} else if (ranType == SmsManager.CELL_BROADCAST_RAN_TYPE_CDMA) {
return disableCdmaBroadcastRange(startMessageId, endMessageId);
} else {
throw new IllegalArgumentException("Not a supportted RAN Type");
}
}
synchronized public boolean enableGsmBroadcastRange(int startMessageId, int endMessageId) {
if (DBG) log("enableGsmBroadcastRange");
Context context = mPhone.getContext();
context.enforceCallingPermission(
"android.permission.RECEIVE_SMS",
"Enabling cell broadcast SMS");
String client = context.getPackageManager().getNameForUid(
Binder.getCallingUid());
if (!mCellBroadcastRangeManager.enableRange(startMessageId, endMessageId, client)) {
log("Failed to add GSM cell broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
return false;
}
if (DBG)
log("Added GSM cell broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
setCellBroadcastActivation(!mCellBroadcastRangeManager.isEmpty());
return true;
}
synchronized public boolean disableGsmBroadcastRange(int startMessageId, int endMessageId) {
if (DBG) log("disableGsmBroadcastRange");
Context context = mPhone.getContext();
context.enforceCallingPermission(
"android.permission.RECEIVE_SMS",
"Disabling cell broadcast SMS");
String client = context.getPackageManager().getNameForUid(
Binder.getCallingUid());
if (!mCellBroadcastRangeManager.disableRange(startMessageId, endMessageId, client)) {
log("Failed to remove GSM cell broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
return false;
}
if (DBG)
log("Removed GSM cell broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
setCellBroadcastActivation(!mCellBroadcastRangeManager.isEmpty());
return true;
}
synchronized public boolean enableCdmaBroadcastRange(int startMessageId, int endMessageId) {
if (DBG) log("enableCdmaBroadcastRange");
Context context = mPhone.getContext();
context.enforceCallingPermission(
"android.permission.RECEIVE_SMS",
"Enabling cdma broadcast SMS");
String client = context.getPackageManager().getNameForUid(
Binder.getCallingUid());
if (!mCdmaBroadcastRangeManager.enableRange(startMessageId, endMessageId, client)) {
log("Failed to add cdma broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
return false;
}
if (DBG)
log("Added cdma broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
setCdmaBroadcastActivation(!mCdmaBroadcastRangeManager.isEmpty());
return true;
}
synchronized public boolean disableCdmaBroadcastRange(int startMessageId, int endMessageId) {
if (DBG) log("disableCdmaBroadcastRange");
Context context = mPhone.getContext();
context.enforceCallingPermission(
"android.permission.RECEIVE_SMS",
"Disabling cell broadcast SMS");
String client = context.getPackageManager().getNameForUid(
Binder.getCallingUid());
if (!mCdmaBroadcastRangeManager.disableRange(startMessageId, endMessageId, client)) {
log("Failed to remove cdma broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
return false;
}
if (DBG)
log("Removed cdma broadcast subscription for MID range " + startMessageId
+ " to " + endMessageId + " from client " + client);
setCdmaBroadcastActivation(!mCdmaBroadcastRangeManager.isEmpty());
return true;
}
class CellBroadcastRangeManager extends IntRangeManager {
private ArrayList<SmsBroadcastConfigInfo> mConfigList =
new ArrayList<SmsBroadcastConfigInfo>();
/**
* Called when the list of enabled ranges has changed. This will be
* followed by zero or more calls to {@link #addRange} followed by
* a call to {@link #finishUpdate}.
*/
protected void startUpdate() {
mConfigList.clear();
}
/**
* Called after {@link #startUpdate} to indicate a range of enabled
* values.
* @param startId the first id included in the range
* @param endId the last id included in the range
*/
protected void addRange(int startId, int endId, boolean selected) {
mConfigList.add(new SmsBroadcastConfigInfo(startId, endId,
SMS_CB_CODE_SCHEME_MIN, SMS_CB_CODE_SCHEME_MAX, selected));
}
/**
* Called to indicate the end of a range update started by the
* previous call to {@link #startUpdate}.
* @return true if successful, false otherwise
*/
protected boolean finishUpdate() {
if (mConfigList.isEmpty()) {
return true;
} else {
SmsBroadcastConfigInfo[] configs =
mConfigList.toArray(new SmsBroadcastConfigInfo[mConfigList.size()]);
return setCellBroadcastConfig(configs);
}
}
}
class CdmaBroadcastRangeManager extends IntRangeManager {
private ArrayList<CdmaSmsBroadcastConfigInfo> mConfigList =
new ArrayList<CdmaSmsBroadcastConfigInfo>();
/**
* Called when the list of enabled ranges has changed. This will be
* followed by zero or more calls to {@link #addRange} followed by a
* call to {@link #finishUpdate}.
*/
protected void startUpdate() {
mConfigList.clear();
}
/**
* Called after {@link #startUpdate} to indicate a range of enabled
* values.
* @param startId the first id included in the range
* @param endId the last id included in the range
*/
protected void addRange(int startId, int endId, boolean selected) {
mConfigList.add(new CdmaSmsBroadcastConfigInfo(startId, endId,
1, selected));
}
/**
* Called to indicate the end of a range update started by the previous
* call to {@link #startUpdate}.
* @return true if successful, false otherwise
*/
protected boolean finishUpdate() {
if (mConfigList.isEmpty()) {
return true;
} else {
CdmaSmsBroadcastConfigInfo[] configs =
mConfigList.toArray(new CdmaSmsBroadcastConfigInfo[mConfigList.size()]);
return setCdmaBroadcastConfig(configs);
}
}
}
private boolean setCellBroadcastConfig(SmsBroadcastConfigInfo[] configs) {
if (DBG)
log("Calling setGsmBroadcastConfig with " + configs.length + " configurations");
synchronized (mLock) {
Message response = mHandler.obtainMessage(EVENT_SET_BROADCAST_CONFIG_DONE);
mSuccess = false;
mPhone.mCi.setGsmBroadcastConfig(configs, response);
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to set cell broadcast config");
}
}
return mSuccess;
}
private boolean setCellBroadcastActivation(boolean activate) {
if (DBG)
log("Calling setCellBroadcastActivation(" + activate + ')');
synchronized (mLock) {
Message response = mHandler.obtainMessage(EVENT_SET_BROADCAST_ACTIVATION_DONE);
mSuccess = false;
mPhone.mCi.setGsmBroadcastActivation(activate, response);
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to set cell broadcast activation");
}
}
return mSuccess;
}
private boolean setCdmaBroadcastConfig(CdmaSmsBroadcastConfigInfo[] configs) {
if (DBG)
log("Calling setCdmaBroadcastConfig with " + configs.length + " configurations");
synchronized (mLock) {
Message response = mHandler.obtainMessage(EVENT_SET_BROADCAST_CONFIG_DONE);
mSuccess = false;
mPhone.mCi.setCdmaBroadcastConfig(configs, response);
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to set cdma broadcast config");
}
}
return mSuccess;
}
private boolean setCdmaBroadcastActivation(boolean activate) {
if (DBG)
log("Calling setCdmaBroadcastActivation(" + activate + ")");
synchronized (mLock) {
Message response = mHandler.obtainMessage(EVENT_SET_BROADCAST_ACTIVATION_DONE);
mSuccess = false;
mPhone.mCi.setCdmaBroadcastActivation(activate, response);
try {
mLock.wait();
} catch (InterruptedException e) {
log("interrupted while trying to set cdma broadcast activation");
}
}
return mSuccess;
}
protected void log(String msg) {
Log.d(LOG_TAG, "[IccSmsInterfaceManager] " + msg);
}
public boolean isImsSmsSupported() {
return mDispatcher.isIms();
}
public String getImsSmsFormat() {
return mDispatcher.getImsSmsFormat();
}
public void sendStoredText(String callingPkg, Uri messageUri, String scAddress,
PendingIntent sentIntent, PendingIntent deliveryIntent) {
mPhone.getContext().enforceCallingPermission(Manifest.permission.SEND_SMS,
"Sending SMS message");
if (Rlog.isLoggable("SMS", Log.VERBOSE)) {
log("sendStoredText: scAddr=" + scAddress + " messageUri=" + messageUri
+ " sentIntent=" + sentIntent + " deliveryIntent=" + deliveryIntent);
}
if (mAppOps.noteOp(AppOpsManager.OP_SEND_SMS, Binder.getCallingUid(), callingPkg)
!= AppOpsManager.MODE_ALLOWED) {
return;
}
final ContentResolver resolver = mPhone.getContext().getContentResolver();
if (!isFailedOrDraft(resolver, messageUri)) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]sendStoredText: not FAILED or DRAFT message");
returnUnspecifiedFailure(sentIntent);
return;
}
final String[] textAndAddress = loadTextAndAddress(resolver, messageUri);
if (textAndAddress == null) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]sendStoredText: can not load text");
returnUnspecifiedFailure(sentIntent);
return;
}
textAndAddress[1] = filterDestAddress(textAndAddress[1]);
mDispatcher.sendText(textAndAddress[1], scAddress, textAndAddress[0],
sentIntent, deliveryIntent, messageUri, callingPkg);
}
public void sendStoredMultipartText(String callingPkg, Uri messageUri, String scAddress,
List<PendingIntent> sentIntents, List<PendingIntent> deliveryIntents) {
mPhone.getContext().enforceCallingPermission(Manifest.permission.SEND_SMS,
"Sending SMS message");
if (mAppOps.noteOp(AppOpsManager.OP_SEND_SMS, Binder.getCallingUid(), callingPkg)
!= AppOpsManager.MODE_ALLOWED) {
return;
}
final ContentResolver resolver = mPhone.getContext().getContentResolver();
if (!isFailedOrDraft(resolver, messageUri)) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]sendStoredMultipartText: "
+ "not FAILED or DRAFT message");
returnUnspecifiedFailure(sentIntents);
return;
}
final String[] textAndAddress = loadTextAndAddress(resolver, messageUri);
if (textAndAddress == null) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]sendStoredMultipartText: can not load text");
returnUnspecifiedFailure(sentIntents);
return;
}
final ArrayList<String> parts = SmsManager.getDefault().divideMessage(textAndAddress[0]);
if (parts == null || parts.size() < 1) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]sendStoredMultipartText: can not divide text");
returnUnspecifiedFailure(sentIntents);
return;
}
if (parts.size() > 1 && parts.size() < 10 && !SmsMessage.hasEmsSupport()) {
for (int i = 0; i < parts.size(); i++) {
// If EMS is not supported, we have to break down EMS into single segment SMS
// and add page info " x/y".
String singlePart = parts.get(i);
if (SmsMessage.shouldAppendPageNumberAsPrefix()) {
singlePart = String.valueOf(i + 1) + '/' + parts.size() + ' ' + singlePart;
} else {
singlePart = singlePart.concat(' ' + String.valueOf(i + 1) + '/' + parts.size());
}
PendingIntent singleSentIntent = null;
if (sentIntents != null && sentIntents.size() > i) {
singleSentIntent = sentIntents.get(i);
}
PendingIntent singleDeliveryIntent = null;
if (deliveryIntents != null && deliveryIntents.size() > i) {
singleDeliveryIntent = deliveryIntents.get(i);
}
mDispatcher.sendText(textAndAddress[1], scAddress, singlePart,
singleSentIntent, singleDeliveryIntent, messageUri, callingPkg);
}
return;
}
textAndAddress[1] = filterDestAddress(textAndAddress[1]);
mDispatcher.sendMultipartText(
textAndAddress[1], // destAddress
scAddress,
parts,
(ArrayList<PendingIntent>) sentIntents,
(ArrayList<PendingIntent>) deliveryIntents,
messageUri,
callingPkg);
}
private boolean isFailedOrDraft(ContentResolver resolver, Uri messageUri) {
// Clear the calling identity and query the database using the phone user id
// Otherwise the AppOps check in TelephonyProvider would complain about mismatch
// between the calling uid and the package uid
final long identity = Binder.clearCallingIdentity();
Cursor cursor = null;
try {
cursor = resolver.query(
messageUri,
new String[]{ Telephony.Sms.TYPE },
null/*selection*/,
null/*selectionArgs*/,
null/*sortOrder*/);
if (cursor != null && cursor.moveToFirst()) {
final int type = cursor.getInt(0);
return type == Telephony.Sms.MESSAGE_TYPE_DRAFT
|| type == Telephony.Sms.MESSAGE_TYPE_FAILED;
}
} catch (SQLiteException e) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]isFailedOrDraft: query message type failed", e);
} finally {
if (cursor != null) {
cursor.close();
}
Binder.restoreCallingIdentity(identity);
}
return false;
}
// Return an array including both the SMS text (0) and address (1)
private String[] loadTextAndAddress(ContentResolver resolver, Uri messageUri) {
// Clear the calling identity and query the database using the phone user id
// Otherwise the AppOps check in TelephonyProvider would complain about mismatch
// between the calling uid and the package uid
final long identity = Binder.clearCallingIdentity();
Cursor cursor = null;
try {
cursor = resolver.query(
messageUri,
new String[]{
Telephony.Sms.BODY,
Telephony.Sms.ADDRESS
},
null/*selection*/,
null/*selectionArgs*/,
null/*sortOrder*/);
if (cursor != null && cursor.moveToFirst()) {
return new String[]{ cursor.getString(0), cursor.getString(1) };
}
} catch (SQLiteException e) {
Log.e(LOG_TAG, "[IccSmsInterfaceManager]loadText: query message text failed", e);
} finally {
if (cursor != null) {
cursor.close();
}
Binder.restoreCallingIdentity(identity);
}
return null;
}
private void returnUnspecifiedFailure(PendingIntent pi) {
if (pi != null) {
try {
pi.send(SmsManager.RESULT_ERROR_GENERIC_FAILURE);
} catch (PendingIntent.CanceledException e) {
// ignore
}
}
}
private void returnUnspecifiedFailure(List<PendingIntent> pis) {
if (pis == null) {
return;
}
for (PendingIntent pi : pis) {
returnUnspecifiedFailure(pi);
}
}
private void enforceCarrierPrivilege() {
UiccController controller = UiccController.getInstance();
if (controller == null || controller.getUiccCard() == null) {
throw new SecurityException("No Carrier Privilege: No UICC");
}
if (controller.getUiccCard().getCarrierPrivilegeStatusForCurrentTransaction(
mContext.getPackageManager()) !=
TelephonyManager.CARRIER_PRIVILEGE_STATUS_HAS_ACCESS) {
throw new SecurityException("No Carrier Privilege.");
}
}
private String filterDestAddress(String destAddr) {
String result = null;
result = SmsNumberUtils.filterDestAddr(mPhone, destAddr);
return result != null ? result : destAddr;
}
}