/*
* 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 com.android.internal.telephony.GsmAlphabet.TextEncodingDetails;
import com.android.internal.telephony.SmsConstants;
import com.android.internal.telephony.SmsHeader;
import java.text.BreakIterator;
import java.util.Arrays;
import android.provider.Telephony;
import android.telephony.SmsMessage;
import android.text.Emoji;
/**
* Base class declaring the specific methods and members for SmsMessage.
* {@hide}
*/
public abstract class SmsMessageBase {
/** {@hide} The address of the SMSC. May be null */
protected String mScAddress;
/** {@hide} The address of the sender */
protected SmsAddress mOriginatingAddress;
/** {@hide} The message body as a string. May be null if the message isn't text */
protected String mMessageBody;
/** {@hide} */
protected String mPseudoSubject;
/** {@hide} Non-null if this is an email gateway message */
protected String mEmailFrom;
/** {@hide} Non-null if this is an email gateway message */
protected String mEmailBody;
/** {@hide} */
protected boolean mIsEmail;
/** {@hide} Time when SC (service centre) received the message */
protected long mScTimeMillis;
/** {@hide} The raw PDU of the message */
protected byte[] mPdu;
/** {@hide} The raw bytes for the user data section of the message */
protected byte[] mUserData;
/** {@hide} */
protected SmsHeader mUserDataHeader;
// "Message Waiting Indication Group"
// 23.038 Section 4
/** {@hide} */
protected boolean mIsMwi;
/** {@hide} */
protected boolean mMwiSense;
/** {@hide} */
protected boolean mMwiDontStore;
/**
* Indicates status for messages stored on the ICC.
*/
protected int mStatusOnIcc = -1;
/**
* Record index of message in the EF.
*/
protected int mIndexOnIcc = -1;
/** TP-Message-Reference - Message Reference of sent message. @hide */
public int mMessageRef;
// TODO(): This class is duplicated in SmsMessage.java. Refactor accordingly.
public static abstract class SubmitPduBase {
public byte[] encodedScAddress; // Null if not applicable.
public byte[] encodedMessage;
@Override
public String toString() {
return "SubmitPdu: encodedScAddress = "
+ Arrays.toString(encodedScAddress)
+ ", encodedMessage = "
+ Arrays.toString(encodedMessage);
}
}
/**
* Returns the address of the SMS service center that relayed this message
* or null if there is none.
*/
public String getServiceCenterAddress() {
return mScAddress;
}
/**
* Returns the originating address (sender) of this SMS message in String
* form or null if unavailable
*/
public String getOriginatingAddress() {
if (mOriginatingAddress == null) {
return null;
}
return mOriginatingAddress.getAddressString();
}
/**
* Returns the originating address, or email from address if this message
* was from an email gateway. Returns null if originating address
* unavailable.
*/
public String getDisplayOriginatingAddress() {
if (mIsEmail) {
return mEmailFrom;
} else {
return getOriginatingAddress();
}
}
/**
* Returns the message body as a String, if it exists and is text based.
* @return message body is there is one, otherwise null
*/
public String getMessageBody() {
return mMessageBody;
}
/**
* Returns the class of this message.
*/
public abstract SmsConstants.MessageClass getMessageClass();
/**
* Returns the message body, or email message body if this message was from
* an email gateway. Returns null if message body unavailable.
*/
public String getDisplayMessageBody() {
if (mIsEmail) {
return mEmailBody;
} else {
return getMessageBody();
}
}
/**
* Unofficial convention of a subject line enclosed in parens empty string
* if not present
*/
public String getPseudoSubject() {
return mPseudoSubject == null ? "" : mPseudoSubject;
}
/**
* Returns the service centre timestamp in currentTimeMillis() format
*/
public long getTimestampMillis() {
return mScTimeMillis;
}
/**
* Returns true if message is an email.
*
* @return true if this message came through an email gateway and email
* sender / subject / parsed body are available
*/
public boolean isEmail() {
return mIsEmail;
}
/**
* @return if isEmail() is true, body of the email sent through the gateway.
* null otherwise
*/
public String getEmailBody() {
return mEmailBody;
}
/**
* @return if isEmail() is true, email from address of email sent through
* the gateway. null otherwise
*/
public String getEmailFrom() {
return mEmailFrom;
}
/**
* Get protocol identifier.
*/
public abstract int getProtocolIdentifier();
/**
* See TS 23.040 9.2.3.9 returns true if this is a "replace short message"
* SMS
*/
public abstract boolean isReplace();
/**
* Returns true for CPHS MWI toggle message.
*
* @return true if this is a CPHS MWI toggle message See CPHS 4.2 section
* B.4.2
*/
public abstract boolean isCphsMwiMessage();
/**
* returns true if this message is a CPHS voicemail / message waiting
* indicator (MWI) clear message
*/
public abstract boolean isMWIClearMessage();
/**
* returns true if this message is a CPHS voicemail / message waiting
* indicator (MWI) set message
*/
public abstract boolean isMWISetMessage();
/**
* returns true if this message is a "Message Waiting Indication Group:
* Discard Message" notification and should not be stored.
*/
public abstract boolean isMwiDontStore();
/**
* returns the user data section minus the user data header if one was
* present.
*/
public byte[] getUserData() {
return mUserData;
}
/**
* Returns an object representing the user data header
*
* {@hide}
*/
public SmsHeader getUserDataHeader() {
return mUserDataHeader;
}
/**
* TODO(cleanup): The term PDU is used in a seemingly non-unique
* manner -- for example, what is the difference between this byte
* array and the contents of SubmitPdu objects. Maybe a more
* illustrative term would be appropriate.
*/
/**
* Returns the raw PDU for the message.
*/
public byte[] getPdu() {
return mPdu;
}
/**
* For an SMS-STATUS-REPORT message, this returns the status field from
* the status report. This field indicates the status of a previously
* submitted SMS, if requested. See TS 23.040, 9.2.3.15 TP-Status for a
* description of values.
*
* @return 0 indicates the previously sent message was received.
* See TS 23.040, 9.9.2.3.15 for a description of other possible
* values.
*/
public abstract int getStatus();
/**
* Return true iff the message is a SMS-STATUS-REPORT message.
*/
public abstract boolean isStatusReportMessage();
/**
* Returns true iff the TP-Reply-Path
bit is set in
* this message.
*/
public abstract boolean isReplyPathPresent();
/**
* Returns the status of the message on the ICC (read, unread, sent, unsent).
*
* @return the status of the message on the ICC. These are:
* SmsManager.STATUS_ON_ICC_FREE
* SmsManager.STATUS_ON_ICC_READ
* SmsManager.STATUS_ON_ICC_UNREAD
* SmsManager.STATUS_ON_ICC_SEND
* SmsManager.STATUS_ON_ICC_UNSENT
*/
public int getStatusOnIcc() {
return mStatusOnIcc;
}
/**
* Returns the record index of the message on the ICC (1-based index).
* @return the record index of the message on the ICC, or -1 if this
* SmsMessage was not created from a ICC SMS EF record.
*/
public int getIndexOnIcc() {
return mIndexOnIcc;
}
protected void parseMessageBody() {
// originatingAddress could be null if this message is from a status
// report.
if (mOriginatingAddress != null && mOriginatingAddress.couldBeEmailGateway()) {
extractEmailAddressFromMessageBody();
}
}
/**
* Try to parse this message as an email gateway message
* There are two ways specified in TS 23.040 Section 3.8 :
* - SMS message "may have its TP-PID set for Internet electronic mail - MT
* SMS format: [] - "Depending on the
* nature of the gateway, the destination/origination address is either
* derived from the content of the SMS TP-OA or TP-DA field, or the
* TP-OA/TP-DA field contains a generic gateway address and the to/from
* address is added at the beginning as shown above." (which is supported here)
* - Multiple addresses separated by commas, no spaces, Subject field delimited
* by '()' or '##' and '#' Section 9.2.3.24.11 (which are NOT supported here)
*/
protected void extractEmailAddressFromMessageBody() {
/* Some carriers may use " /" delimiter as below
*
* 1. [x@y][ ]/[subject][ ]/[body]
* -or-
* 2. [x@y][ ]/[body]
*/
String[] parts = mMessageBody.split("( /)|( )", 2);
if (parts.length < 2) return;
mEmailFrom = parts[0];
mEmailBody = parts[1];
mIsEmail = Telephony.Mms.isEmailAddress(mEmailFrom);
}
/**
* Find the next position to start a new fragment of a multipart SMS.
*
* @param currentPosition current start position of the fragment
* @param byteLimit maximum number of bytes in the fragment
* @param msgBody text of the SMS in UTF-16 encoding
* @return the position to start the next fragment
*/
public static int findNextUnicodePosition(
int currentPosition, int byteLimit, CharSequence msgBody) {
int nextPos = Math.min(currentPosition + byteLimit / 2, msgBody.length());
// Check whether the fragment ends in a character boundary. Some characters take 4-bytes
// in UTF-16 encoding. Many carriers cannot handle
// a fragment correctly if it does not end at a character boundary.
if (nextPos < msgBody.length()) {
BreakIterator breakIterator = BreakIterator.getCharacterInstance();
breakIterator.setText(msgBody.toString());
if (!breakIterator.isBoundary(nextPos)) {
int breakPos = breakIterator.preceding(nextPos);
while (breakPos + 4 <= nextPos
&& Emoji.isRegionalIndicatorSymbol(
Character.codePointAt(msgBody, breakPos))
&& Emoji.isRegionalIndicatorSymbol(
Character.codePointAt(msgBody, breakPos + 2))) {
// skip forward over flags (pairs of Regional Indicator Symbol)
breakPos += 4;
}
if (breakPos > currentPosition) {
nextPos = breakPos;
} else if (Character.isHighSurrogate(msgBody.charAt(nextPos - 1))) {
// no character boundary in this fragment, try to at least land on a code point
nextPos -= 1;
}
}
}
return nextPos;
}
/**
* Calculate the TextEncodingDetails of a message encoded in Unicode.
*/
public static TextEncodingDetails calcUnicodeEncodingDetails(CharSequence msgBody) {
TextEncodingDetails ted = new TextEncodingDetails();
int octets = msgBody.length() * 2;
ted.codeUnitSize = SmsConstants.ENCODING_16BIT;
ted.codeUnitCount = msgBody.length();
if (octets > SmsConstants.MAX_USER_DATA_BYTES) {
// If EMS is not supported, break down EMS into single segment SMS
// and add page info " x/y".
// In the case of UCS2 encoding type, we need 8 bytes for this
// but we only have 6 bytes from UDH, so truncate the limit for
// each segment by 2 bytes (1 char).
int maxUserDataBytesWithHeader = SmsConstants.MAX_USER_DATA_BYTES_WITH_HEADER;
if (!SmsMessage.hasEmsSupport()) {
// make sure total number of segments is less than 10
if (octets <= 9 * (maxUserDataBytesWithHeader - 2)) {
maxUserDataBytesWithHeader -= 2;
}
}
int pos = 0; // Index in code units.
int msgCount = 0;
while (pos < msgBody.length()) {
int nextPos = findNextUnicodePosition(pos, maxUserDataBytesWithHeader,
msgBody);
if (nextPos == msgBody.length()) {
ted.codeUnitsRemaining = pos + maxUserDataBytesWithHeader / 2 -
msgBody.length();
}
pos = nextPos;
msgCount++;
}
ted.msgCount = msgCount;
} else {
ted.msgCount = 1;
ted.codeUnitsRemaining = (SmsConstants.MAX_USER_DATA_BYTES - octets) / 2;
}
return ted;
}
}