/* * Copyright (C) 2007-2008 Esmertec AG. * Copyright (C) 2007-2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package androidx.appcompat.mms.pdu; import android.util.Log; import java.io.ByteArrayInputStream; import java.io.ByteArrayOutputStream; import java.io.UnsupportedEncodingException; import java.util.Arrays; import java.util.HashMap; public class PduParser { /** * The next are WAP values defined in WSP specification. */ private static final int QUOTE = 127; private static final int LENGTH_QUOTE = 31; private static final int TEXT_MIN = 32; private static final int TEXT_MAX = 127; private static final int SHORT_INTEGER_MAX = 127; private static final int SHORT_LENGTH_MAX = 30; private static final int LONG_INTEGER_LENGTH_MAX = 8; private static final int QUOTED_STRING_FLAG = 34; private static final int END_STRING_FLAG = 0x00; //The next two are used by the interface "parseWapString" to //distinguish Text-String and Quoted-String. private static final int TYPE_TEXT_STRING = 0; private static final int TYPE_QUOTED_STRING = 1; private static final int TYPE_TOKEN_STRING = 2; /** * Specify the part position. */ private static final int THE_FIRST_PART = 0; private static final int THE_LAST_PART = 1; /** * The pdu data. */ private ByteArrayInputStream mPduDataStream = null; /** * Store pdu headers */ private PduHeaders mHeaders = null; /** * Store pdu parts. */ private PduBody mBody = null; /** * Store the "type" parameter in "Content-Type" header field. */ private static byte[] mTypeParam = null; /** * Store the "start" parameter in "Content-Type" header field. */ private static byte[] mStartParam = null; /** * The log tag. */ private static final String LOG_TAG = "PduParser"; private static final boolean DEBUG = false; private static final boolean LOCAL_LOGV = false; /** * Whether to parse content-disposition part header */ private final boolean mParseContentDisposition; /** * Constructor. * * @param pduDataStream pdu data to be parsed * @param parseContentDisposition whether to parse the Content-Disposition part header */ public PduParser(byte[] pduDataStream, boolean parseContentDisposition) { mPduDataStream = new ByteArrayInputStream(pduDataStream); mParseContentDisposition = parseContentDisposition; } /** * Parse the pdu. * * @return the pdu structure if parsing successfully. * null if parsing error happened or mandatory fields are not set. */ public GenericPdu parse(){ if (mPduDataStream == null) { return null; } /* parse headers */ mHeaders = parseHeaders(mPduDataStream); if (null == mHeaders) { // Parse headers failed. return null; } /* get the message type */ int messageType = mHeaders.getOctet(PduHeaders.MESSAGE_TYPE); /* check mandatory header fields */ if (false == checkMandatoryHeader(mHeaders)) { log("check mandatory headers failed!"); return null; } if ((PduHeaders.MESSAGE_TYPE_SEND_REQ == messageType) || (PduHeaders.MESSAGE_TYPE_RETRIEVE_CONF == messageType)) { /* need to parse the parts */ mBody = parseParts(mPduDataStream); if (null == mBody) { // Parse parts failed. return null; } } switch (messageType) { case PduHeaders.MESSAGE_TYPE_SEND_REQ: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_SEND_REQ"); } SendReq sendReq = new SendReq(mHeaders, mBody); return sendReq; case PduHeaders.MESSAGE_TYPE_SEND_CONF: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_SEND_CONF"); } SendConf sendConf = new SendConf(mHeaders); return sendConf; case PduHeaders.MESSAGE_TYPE_NOTIFICATION_IND: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_NOTIFICATION_IND"); } NotificationInd notificationInd = new NotificationInd(mHeaders); return notificationInd; case PduHeaders.MESSAGE_TYPE_NOTIFYRESP_IND: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_NOTIFYRESP_IND"); } NotifyRespInd notifyRespInd = new NotifyRespInd(mHeaders); return notifyRespInd; case PduHeaders.MESSAGE_TYPE_RETRIEVE_CONF: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_RETRIEVE_CONF"); } RetrieveConf retrieveConf = new RetrieveConf(mHeaders, mBody); byte[] contentType = retrieveConf.getContentType(); if (null == contentType) { return null; } String ctTypeStr = new String(contentType); if (ctTypeStr.equals(ContentType.MULTIPART_MIXED) || ctTypeStr.equals(ContentType.MULTIPART_RELATED) || ctTypeStr.equals(ContentType.MULTIPART_ALTERNATIVE)) { // The MMS content type must be "application/vnd.wap.multipart.mixed" // or "application/vnd.wap.multipart.related" // or "application/vnd.wap.multipart.alternative" return retrieveConf; } else if (ctTypeStr.equals(ContentType.MULTIPART_ALTERNATIVE)) { // "application/vnd.wap.multipart.alternative" // should take only the first part. PduPart firstPart = mBody.getPart(0); mBody.removeAll(); mBody.addPart(0, firstPart); return retrieveConf; } return null; case PduHeaders.MESSAGE_TYPE_DELIVERY_IND: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_DELIVERY_IND"); } DeliveryInd deliveryInd = new DeliveryInd(mHeaders); return deliveryInd; case PduHeaders.MESSAGE_TYPE_ACKNOWLEDGE_IND: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_ACKNOWLEDGE_IND"); } AcknowledgeInd acknowledgeInd = new AcknowledgeInd(mHeaders); return acknowledgeInd; case PduHeaders.MESSAGE_TYPE_READ_ORIG_IND: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_READ_ORIG_IND"); } ReadOrigInd readOrigInd = new ReadOrigInd(mHeaders); return readOrigInd; case PduHeaders.MESSAGE_TYPE_READ_REC_IND: if (LOCAL_LOGV) { Log.v(LOG_TAG, "parse: MESSAGE_TYPE_READ_REC_IND"); } ReadRecInd readRecInd = new ReadRecInd(mHeaders); return readRecInd; default: log("Parser doesn't support this message type in this version!"); return null; } } /** * Parse pdu headers. * * @param pduDataStream pdu data input stream * @return headers in PduHeaders structure, null when parse fail */ protected PduHeaders parseHeaders(ByteArrayInputStream pduDataStream){ if (pduDataStream == null) { return null; } boolean keepParsing = true; PduHeaders headers = new PduHeaders(); while (keepParsing && (pduDataStream.available() > 0)) { pduDataStream.mark(1); int headerField = extractByteValue(pduDataStream); /* parse custom text header */ if ((headerField >= TEXT_MIN) && (headerField <= TEXT_MAX)) { pduDataStream.reset(); byte [] bVal = parseWapString(pduDataStream, TYPE_TEXT_STRING); if (LOCAL_LOGV) { Log.v(LOG_TAG, "TextHeader: " + new String(bVal)); } /* we should ignore it at the moment */ continue; } switch (headerField) { case PduHeaders.MESSAGE_TYPE: { int messageType = extractByteValue(pduDataStream); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: messageType: " + messageType); } switch (messageType) { // We don't support these kind of messages now. case PduHeaders.MESSAGE_TYPE_FORWARD_REQ: case PduHeaders.MESSAGE_TYPE_FORWARD_CONF: case PduHeaders.MESSAGE_TYPE_MBOX_STORE_REQ: case PduHeaders.MESSAGE_TYPE_MBOX_STORE_CONF: case PduHeaders.MESSAGE_TYPE_MBOX_VIEW_REQ: case PduHeaders.MESSAGE_TYPE_MBOX_VIEW_CONF: case PduHeaders.MESSAGE_TYPE_MBOX_UPLOAD_REQ: case PduHeaders.MESSAGE_TYPE_MBOX_UPLOAD_CONF: case PduHeaders.MESSAGE_TYPE_MBOX_DELETE_REQ: case PduHeaders.MESSAGE_TYPE_MBOX_DELETE_CONF: case PduHeaders.MESSAGE_TYPE_MBOX_DESCR: case PduHeaders.MESSAGE_TYPE_DELETE_REQ: case PduHeaders.MESSAGE_TYPE_DELETE_CONF: case PduHeaders.MESSAGE_TYPE_CANCEL_REQ: case PduHeaders.MESSAGE_TYPE_CANCEL_CONF: return null; } try { headers.setOctet(messageType, headerField); } catch(InvalidHeaderValueException e) { log("Set invalid Octet value: " + messageType + " into the header filed: " + headerField); return null; } catch(RuntimeException e) { log(headerField + "is not Octet header field!"); return null; } break; } /* Octect value */ case PduHeaders.REPORT_ALLOWED: case PduHeaders.ADAPTATION_ALLOWED: case PduHeaders.DELIVERY_REPORT: case PduHeaders.DRM_CONTENT: case PduHeaders.DISTRIBUTION_INDICATOR: case PduHeaders.QUOTAS: case PduHeaders.READ_REPORT: case PduHeaders.STORE: case PduHeaders.STORED: case PduHeaders.TOTALS: case PduHeaders.SENDER_VISIBILITY: case PduHeaders.READ_STATUS: case PduHeaders.CANCEL_STATUS: case PduHeaders.PRIORITY: case PduHeaders.STATUS: case PduHeaders.REPLY_CHARGING: case PduHeaders.MM_STATE: case PduHeaders.RECOMMENDED_RETRIEVAL_MODE: case PduHeaders.CONTENT_CLASS: case PduHeaders.RETRIEVE_STATUS: case PduHeaders.STORE_STATUS: /** * The following field has a different value when * used in the M-Mbox-Delete.conf and M-Delete.conf PDU. * For now we ignore this fact, since we do not support these PDUs */ case PduHeaders.RESPONSE_STATUS: { int value = extractByteValue(pduDataStream); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: byte: " + headerField + " value: " + value); } try { headers.setOctet(value, headerField); } catch(InvalidHeaderValueException e) { log("Set invalid Octet value: " + value + " into the header filed: " + headerField); return null; } catch(RuntimeException e) { log(headerField + "is not Octet header field!"); return null; } break; } /* Long-Integer */ case PduHeaders.DATE: case PduHeaders.REPLY_CHARGING_SIZE: case PduHeaders.MESSAGE_SIZE: { try { long value = parseLongInteger(pduDataStream); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: longint: " + headerField + " value: " + value); } headers.setLongInteger(value, headerField); } catch(RuntimeException e) { log(headerField + "is not Long-Integer header field!"); return null; } break; } /* Integer-Value */ case PduHeaders.MESSAGE_COUNT: case PduHeaders.START: case PduHeaders.LIMIT: { try { long value = parseIntegerValue(pduDataStream); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: int: " + headerField + " value: " + value); } headers.setLongInteger(value, headerField); } catch(RuntimeException e) { log(headerField + "is not Long-Integer header field!"); return null; } break; } /* Text-String */ case PduHeaders.TRANSACTION_ID: case PduHeaders.REPLY_CHARGING_ID: case PduHeaders.AUX_APPLIC_ID: case PduHeaders.APPLIC_ID: case PduHeaders.REPLY_APPLIC_ID: /** * The next three header fields are email addresses * as defined in RFC2822, * not including the characters "<" and ">" */ case PduHeaders.MESSAGE_ID: case PduHeaders.REPLACE_ID: case PduHeaders.CANCEL_ID: /** * The following field has a different value when * used in the M-Mbox-Delete.conf and M-Delete.conf PDU. * For now we ignore this fact, since we do not support these PDUs */ case PduHeaders.CONTENT_LOCATION: { byte[] value = parseWapString(pduDataStream, TYPE_TEXT_STRING); if (null != value) { try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: string: " + headerField + " value: " + new String(value)); } headers.setTextString(value, headerField); } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Text-String header field!"); return null; } } break; } /* Encoded-string-value */ case PduHeaders.SUBJECT: case PduHeaders.RECOMMENDED_RETRIEVAL_MODE_TEXT: case PduHeaders.RETRIEVE_TEXT: case PduHeaders.STATUS_TEXT: case PduHeaders.STORE_STATUS_TEXT: /* the next one is not support * M-Mbox-Delete.conf and M-Delete.conf now */ case PduHeaders.RESPONSE_TEXT: { EncodedStringValue value = parseEncodedStringValue(pduDataStream); if (null != value) { try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: encoded string: " + headerField + " value: " + value.getString()); } headers.setEncodedStringValue(value, headerField); } catch(NullPointerException e) { log("null pointer error!"); } catch (RuntimeException e) { log(headerField + "is not Encoded-String-Value header field!"); return null; } } break; } /* Addressing model */ case PduHeaders.BCC: case PduHeaders.CC: case PduHeaders.TO: { EncodedStringValue value = parseEncodedStringValue(pduDataStream); if (null != value) { byte[] address = value.getTextString(); if (null != address) { String str = new String(address); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: (to/cc/bcc) address: " + headerField + " value: " + str); } int endIndex = str.indexOf("/"); if (endIndex > 0) { str = str.substring(0, endIndex); } try { value.setTextString(str.getBytes()); } catch(NullPointerException e) { log("null pointer error!"); return null; } } try { headers.appendEncodedStringValue(value, headerField); } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Encoded-String-Value header field!"); return null; } } break; } /* Value-length * (Absolute-token Date-value | Relative-token Delta-seconds-value) */ case PduHeaders.DELIVERY_TIME: case PduHeaders.EXPIRY: case PduHeaders.REPLY_CHARGING_DEADLINE: { /* parse Value-length */ parseValueLength(pduDataStream); /* Absolute-token or Relative-token */ int token = extractByteValue(pduDataStream); /* Date-value or Delta-seconds-value */ long timeValue; try { timeValue = parseLongInteger(pduDataStream); } catch(RuntimeException e) { log(headerField + "is not Long-Integer header field!"); return null; } if (PduHeaders.VALUE_RELATIVE_TOKEN == token) { /* need to convert the Delta-seconds-value * into Date-value */ timeValue = System.currentTimeMillis()/1000 + timeValue; } try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: time value: " + headerField + " value: " + timeValue); } headers.setLongInteger(timeValue, headerField); } catch(RuntimeException e) { log(headerField + "is not Long-Integer header field!"); return null; } break; } case PduHeaders.FROM: { /* From-value = * Value-length * (Address-present-token Encoded-string-value | Insert-address-token) */ EncodedStringValue from = null; parseValueLength(pduDataStream); /* parse value-length */ /* Address-present-token or Insert-address-token */ int fromToken = extractByteValue(pduDataStream); /* Address-present-token or Insert-address-token */ if (PduHeaders.FROM_ADDRESS_PRESENT_TOKEN == fromToken) { /* Encoded-string-value */ from = parseEncodedStringValue(pduDataStream); if (null != from) { byte[] address = from.getTextString(); if (null != address) { String str = new String(address); int endIndex = str.indexOf("/"); if (endIndex > 0) { str = str.substring(0, endIndex); } try { from.setTextString(str.getBytes()); } catch(NullPointerException e) { log("null pointer error!"); return null; } } } } else { try { from = new EncodedStringValue( PduHeaders.FROM_INSERT_ADDRESS_TOKEN_STR.getBytes()); } catch(NullPointerException e) { log(headerField + "is not Encoded-String-Value header field!"); return null; } } try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: from address: " + headerField + " value: " + from.getString()); } headers.setEncodedStringValue(from, PduHeaders.FROM); } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Encoded-String-Value header field!"); return null; } break; } case PduHeaders.MESSAGE_CLASS: { /* Message-class-value = Class-identifier | Token-text */ pduDataStream.mark(1); int messageClass = extractByteValue(pduDataStream); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: MESSAGE_CLASS: " + headerField + " value: " + messageClass); } if (messageClass >= PduHeaders.MESSAGE_CLASS_PERSONAL) { /* Class-identifier */ try { if (PduHeaders.MESSAGE_CLASS_PERSONAL == messageClass) { headers.setTextString( PduHeaders.MESSAGE_CLASS_PERSONAL_STR.getBytes(), PduHeaders.MESSAGE_CLASS); } else if (PduHeaders.MESSAGE_CLASS_ADVERTISEMENT == messageClass) { headers.setTextString( PduHeaders.MESSAGE_CLASS_ADVERTISEMENT_STR.getBytes(), PduHeaders.MESSAGE_CLASS); } else if (PduHeaders.MESSAGE_CLASS_INFORMATIONAL == messageClass) { headers.setTextString( PduHeaders.MESSAGE_CLASS_INFORMATIONAL_STR.getBytes(), PduHeaders.MESSAGE_CLASS); } else if (PduHeaders.MESSAGE_CLASS_AUTO == messageClass) { headers.setTextString( PduHeaders.MESSAGE_CLASS_AUTO_STR.getBytes(), PduHeaders.MESSAGE_CLASS); } } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Text-String header field!"); return null; } } else { /* Token-text */ pduDataStream.reset(); byte[] messageClassString = parseWapString(pduDataStream, TYPE_TEXT_STRING); if (null != messageClassString) { try { headers.setTextString(messageClassString, PduHeaders.MESSAGE_CLASS); } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Text-String header field!"); return null; } } } break; } case PduHeaders.MMS_VERSION: { int version = parseShortInteger(pduDataStream); try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: MMS_VERSION: " + headerField + " value: " + version); } headers.setOctet(version, PduHeaders.MMS_VERSION); } catch(InvalidHeaderValueException e) { log("Set invalid Octet value: " + version + " into the header filed: " + headerField); return null; } catch(RuntimeException e) { log(headerField + "is not Octet header field!"); return null; } break; } case PduHeaders.PREVIOUSLY_SENT_BY: { /* Previously-sent-by-value = * Value-length Forwarded-count-value Encoded-string-value */ /* parse value-length */ parseValueLength(pduDataStream); /* parse Forwarded-count-value */ try { parseIntegerValue(pduDataStream); } catch(RuntimeException e) { log(headerField + " is not Integer-Value"); return null; } /* parse Encoded-string-value */ EncodedStringValue previouslySentBy = parseEncodedStringValue(pduDataStream); if (null != previouslySentBy) { try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: PREVIOUSLY_SENT_BY: " + headerField + " value: " + previouslySentBy.getString()); } headers.setEncodedStringValue(previouslySentBy, PduHeaders.PREVIOUSLY_SENT_BY); } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Encoded-String-Value header field!"); return null; } } break; } case PduHeaders.PREVIOUSLY_SENT_DATE: { /* Previously-sent-date-value = * Value-length Forwarded-count-value Date-value */ /* parse value-length */ parseValueLength(pduDataStream); /* parse Forwarded-count-value */ try { parseIntegerValue(pduDataStream); } catch(RuntimeException e) { log(headerField + " is not Integer-Value"); return null; } /* Date-value */ try { long perviouslySentDate = parseLongInteger(pduDataStream); if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: PREVIOUSLY_SENT_DATE: " + headerField + " value: " + perviouslySentDate); } headers.setLongInteger(perviouslySentDate, PduHeaders.PREVIOUSLY_SENT_DATE); } catch(RuntimeException e) { log(headerField + "is not Long-Integer header field!"); return null; } break; } case PduHeaders.MM_FLAGS: { /* MM-flags-value = * Value-length * ( Add-token | Remove-token | Filter-token ) * Encoded-string-value */ if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: MM_FLAGS: " + headerField + " NOT REALLY SUPPORTED"); } /* parse Value-length */ parseValueLength(pduDataStream); /* Add-token | Remove-token | Filter-token */ extractByteValue(pduDataStream); /* Encoded-string-value */ parseEncodedStringValue(pduDataStream); /* not store this header filed in "headers", * because now PduHeaders doesn't support it */ break; } /* Value-length * (Message-total-token | Size-total-token) Integer-Value */ case PduHeaders.MBOX_TOTALS: case PduHeaders.MBOX_QUOTAS: { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: MBOX_TOTALS: " + headerField); } /* Value-length */ parseValueLength(pduDataStream); /* Message-total-token | Size-total-token */ extractByteValue(pduDataStream); /*Integer-Value*/ try { parseIntegerValue(pduDataStream); } catch(RuntimeException e) { log(headerField + " is not Integer-Value"); return null; } /* not store these headers filed in "headers", because now PduHeaders doesn't support them */ break; } case PduHeaders.ELEMENT_DESCRIPTOR: { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: ELEMENT_DESCRIPTOR: " + headerField); } parseContentType(pduDataStream, null); /* not store this header filed in "headers", because now PduHeaders doesn't support it */ break; } case PduHeaders.CONTENT_TYPE: { HashMap map = new HashMap(); byte[] contentType = parseContentType(pduDataStream, map); if (null != contentType) { try { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: CONTENT_TYPE: " + headerField + Arrays.toString(contentType)); } headers.setTextString(contentType, PduHeaders.CONTENT_TYPE); } catch(NullPointerException e) { log("null pointer error!"); } catch(RuntimeException e) { log(headerField + "is not Text-String header field!"); return null; } } /* get start parameter */ mStartParam = (byte[]) map.get(PduPart.P_START); /* get charset parameter */ mTypeParam= (byte[]) map.get(PduPart.P_TYPE); keepParsing = false; break; } case PduHeaders.CONTENT: case PduHeaders.ADDITIONAL_HEADERS: case PduHeaders.ATTRIBUTES: default: { if (LOCAL_LOGV) { Log.v(LOG_TAG, "parseHeaders: Unknown header: " + headerField); } log("Unknown header"); } } } return headers; } /** * Parse pdu parts. * * @param pduDataStream pdu data input stream * @return parts in PduBody structure */ protected PduBody parseParts(ByteArrayInputStream pduDataStream) { if (pduDataStream == null) { return null; } int count = parseUnsignedInt(pduDataStream); // get the number of parts PduBody body = new PduBody(); for (int i = 0 ; i < count ; i++) { int headerLength = parseUnsignedInt(pduDataStream); int dataLength = parseUnsignedInt(pduDataStream); PduPart part = new PduPart(); int startPos = pduDataStream.available(); if (startPos <= 0) { // Invalid part. return null; } /* parse part's content-type */ HashMap map = new HashMap(); byte[] contentType = parseContentType(pduDataStream, map); if (null != contentType) { part.setContentType(contentType); } else { part.setContentType((PduContentTypes.contentTypes[0]).getBytes()); //"*/*" } /* get name parameter */ byte[] name = (byte[]) map.get(PduPart.P_NAME); if (null != name) { part.setName(name); } /* get charset parameter */ Integer charset = (Integer) map.get(PduPart.P_CHARSET); if (null != charset) { part.setCharset(charset); } /* parse part's headers */ int endPos = pduDataStream.available(); int partHeaderLen = headerLength - (startPos - endPos); if (partHeaderLen > 0) { if (false == parsePartHeaders(pduDataStream, part, partHeaderLen)) { // Parse part header faild. return null; } } else if (partHeaderLen < 0) { // Invalid length of content-type. return null; } /* FIXME: check content-id, name, filename and content location, * if not set anyone of them, generate a default content-location */ if ((null == part.getContentLocation()) && (null == part.getName()) && (null == part.getFilename()) && (null == part.getContentId())) { part.setContentLocation(Long.toOctalString( System.currentTimeMillis()).getBytes()); } /* get part's data */ if (dataLength > 0) { byte[] partData = new byte[dataLength]; String partContentType = new String(part.getContentType()); pduDataStream.read(partData, 0, dataLength); if (partContentType.equalsIgnoreCase(ContentType.MULTIPART_ALTERNATIVE)) { // parse "multipart/vnd.wap.multipart.alternative". PduBody childBody = parseParts(new ByteArrayInputStream(partData)); // take the first part of children. part = childBody.getPart(0); } else { // Check Content-Transfer-Encoding. byte[] partDataEncoding = part.getContentTransferEncoding(); if (null != partDataEncoding) { String encoding = new String(partDataEncoding); if (encoding.equalsIgnoreCase(PduPart.P_BASE64)) { // Decode "base64" into "binary". partData = Base64.decodeBase64(partData); } else if (encoding.equalsIgnoreCase(PduPart.P_QUOTED_PRINTABLE)) { // Decode "quoted-printable" into "binary". partData = QuotedPrintable.decodeQuotedPrintable(partData); } else { // "binary" is the default encoding. } } if (null == partData) { log("Decode part data error!"); return null; } part.setData(partData); } } /* add this part to body */ if (THE_FIRST_PART == checkPartPosition(part)) { /* this is the first part */ body.addPart(0, part); } else { /* add the part to the end */ body.addPart(part); } } return body; } /** * Log status. * * @param text log information */ private static void log(String text) { if (LOCAL_LOGV) { Log.v(LOG_TAG, text); } } /** * Parse unsigned integer. * * @param pduDataStream pdu data input stream * @return the integer, -1 when failed */ protected static int parseUnsignedInt(ByteArrayInputStream pduDataStream) { /** * From wap-230-wsp-20010705-a.pdf * The maximum size of a uintvar is 32 bits. * So it will be encoded in no more than 5 octets. */ assert(null != pduDataStream); int result = 0; int temp = pduDataStream.read(); if (temp == -1) { return temp; } while((temp & 0x80) != 0) { result = result << 7; result |= temp & 0x7F; temp = pduDataStream.read(); if (temp == -1) { return temp; } } result = result << 7; result |= temp & 0x7F; return result; } /** * Parse value length. * * @param pduDataStream pdu data input stream * @return the integer */ protected static int parseValueLength(ByteArrayInputStream pduDataStream) { /** * From wap-230-wsp-20010705-a.pdf * Value-length = Short-length | (Length-quote Length) * Short-length = * Length-quote = * Length = Uintvar-integer * Uintvar-integer = 1*5 OCTET */ assert(null != pduDataStream); int temp = pduDataStream.read(); assert(-1 != temp); int first = temp & 0xFF; if (first <= SHORT_LENGTH_MAX) { return first; } else if (first == LENGTH_QUOTE) { return parseUnsignedInt(pduDataStream); } throw new RuntimeException("Value length > LENGTH_QUOTE!"); } /** * Parse encoded string value. * * @param pduDataStream pdu data input stream * @return the EncodedStringValue */ protected static EncodedStringValue parseEncodedStringValue(ByteArrayInputStream pduDataStream){ /** * From OMA-TS-MMS-ENC-V1_3-20050927-C.pdf * Encoded-string-value = Text-string | Value-length Char-set Text-string */ assert(null != pduDataStream); pduDataStream.mark(1); EncodedStringValue returnValue = null; int charset = 0; int temp = pduDataStream.read(); assert(-1 != temp); int first = temp & 0xFF; if (first == 0) { return new EncodedStringValue(""); } pduDataStream.reset(); if (first < TEXT_MIN) { parseValueLength(pduDataStream); charset = parseShortInteger(pduDataStream); //get the "Charset" } byte[] textString = parseWapString(pduDataStream, TYPE_TEXT_STRING); try { if (0 != charset) { returnValue = new EncodedStringValue(charset, textString); } else { returnValue = new EncodedStringValue(textString); } } catch(Exception e) { return null; } return returnValue; } /** * Parse Text-String or Quoted-String. * * @param pduDataStream pdu data input stream * @param stringType TYPE_TEXT_STRING or TYPE_QUOTED_STRING * @return the string without End-of-string in byte array */ protected static byte[] parseWapString(ByteArrayInputStream pduDataStream, int stringType) { assert(null != pduDataStream); /** * From wap-230-wsp-20010705-a.pdf * Text-string = [Quote] *TEXT End-of-string * If the first character in the TEXT is in the range of 128-255, * a Quote character must precede it. * Otherwise the Quote character must be omitted. * The Quote is not part of the contents. * Quote = * End-of-string = * * Quoted-string = *TEXT End-of-string * * Token-text = Token End-of-string */ // Mark supposed beginning of Text-string // We will have to mark again if first char is QUOTE or QUOTED_STRING_FLAG pduDataStream.mark(1); // Check first char int temp = pduDataStream.read(); assert(-1 != temp); if ((TYPE_QUOTED_STRING == stringType) && (QUOTED_STRING_FLAG == temp)) { // Mark again if QUOTED_STRING_FLAG and ignore it pduDataStream.mark(1); } else if ((TYPE_TEXT_STRING == stringType) && (QUOTE == temp)) { // Mark again if QUOTE and ignore it pduDataStream.mark(1); } else { // Otherwise go back to origin pduDataStream.reset(); } // We are now definitely at the beginning of string /** * Return *TOKEN or *TEXT (Text-String without QUOTE, * Quoted-String without QUOTED_STRING_FLAG and without End-of-string) */ return getWapString(pduDataStream, stringType); } /** * Check TOKEN data defined in RFC2616. * @param ch checking data * @return true when ch is TOKEN, false when ch is not TOKEN */ protected static boolean isTokenCharacter(int ch) { /** * Token = 1* * separators = "("(40) | ")"(41) | "<"(60) | ">"(62) | "@"(64) * | ","(44) | ";"(59) | ":"(58) | "\"(92) | <">(34) * | "/"(47) | "["(91) | "]"(93) | "?"(63) | "="(61) * | "{"(123) | "}"(125) | SP(32) | HT(9) * CHAR = * CTL = * SP = * HT = */ if((ch < 33) || (ch > 126)) { return false; } switch(ch) { case '"': /* '"' */ case '(': /* '(' */ case ')': /* ')' */ case ',': /* ',' */ case '/': /* '/' */ case ':': /* ':' */ case ';': /* ';' */ case '<': /* '<' */ case '=': /* '=' */ case '>': /* '>' */ case '?': /* '?' */ case '@': /* '@' */ case '[': /* '[' */ case '\\': /* '\' */ case ']': /* ']' */ case '{': /* '{' */ case '}': /* '}' */ return false; } return true; } /** * Check TEXT data defined in RFC2616. * @param ch checking data * @return true when ch is TEXT, false when ch is not TEXT */ protected static boolean isText(int ch) { /** * TEXT = * CTL = * LWS = [CRLF] 1*( SP | HT ) * CRLF = CR LF * CR = * LF = */ if(((ch >= 32) && (ch <= 126)) || ((ch >= 128) && (ch <= 255))) { return true; } switch(ch) { case '\t': /* '\t' */ case '\n': /* '\n' */ case '\r': /* '\r' */ return true; } return false; } protected static byte[] getWapString(ByteArrayInputStream pduDataStream, int stringType) { assert(null != pduDataStream); ByteArrayOutputStream out = new ByteArrayOutputStream(); int temp = pduDataStream.read(); assert(-1 != temp); while((-1 != temp) && ('\0' != temp)) { // check each of the character if (stringType == TYPE_TOKEN_STRING) { if (isTokenCharacter(temp)) { out.write(temp); } } else { if (isText(temp)) { out.write(temp); } } temp = pduDataStream.read(); assert(-1 != temp); } if (out.size() > 0) { return out.toByteArray(); } return null; } /** * Extract a byte value from the input stream. * * @param pduDataStream pdu data input stream * @return the byte */ protected static int extractByteValue(ByteArrayInputStream pduDataStream) { assert(null != pduDataStream); int temp = pduDataStream.read(); assert(-1 != temp); return temp & 0xFF; } /** * Parse Short-Integer. * * @param pduDataStream pdu data input stream * @return the byte */ protected static int parseShortInteger(ByteArrayInputStream pduDataStream) { /** * From wap-230-wsp-20010705-a.pdf * Short-integer = OCTET * Integers in range 0-127 shall be encoded as a one * octet value with the most significant bit set to one (1xxx xxxx) * and with the value in the remaining least significant bits. */ assert(null != pduDataStream); int temp = pduDataStream.read(); assert(-1 != temp); return temp & 0x7F; } /** * Parse Long-Integer. * * @param pduDataStream pdu data input stream * @return long integer */ protected static long parseLongInteger(ByteArrayInputStream pduDataStream) { /** * From wap-230-wsp-20010705-a.pdf * Long-integer = Short-length Multi-octet-integer * The Short-length indicates the length of the Multi-octet-integer * Multi-octet-integer = 1*30 OCTET * The content octets shall be an unsigned integer value * with the most significant octet encoded first (big-endian representation). * The minimum number of octets must be used to encode the value. * Short-length = */ assert(null != pduDataStream); int temp = pduDataStream.read(); assert(-1 != temp); int count = temp & 0xFF; if (count > LONG_INTEGER_LENGTH_MAX) { throw new RuntimeException("Octet count greater than 8 and I can't represent that!"); } long result = 0; for (int i = 0 ; i < count ; i++) { temp = pduDataStream.read(); assert(-1 != temp); result <<= 8; result += (temp & 0xFF); } return result; } /** * Parse Integer-Value. * * @param pduDataStream pdu data input stream * @return long integer */ protected static long parseIntegerValue(ByteArrayInputStream pduDataStream) { /** * From wap-230-wsp-20010705-a.pdf * Integer-Value = Short-integer | Long-integer */ assert(null != pduDataStream); pduDataStream.mark(1); int temp = pduDataStream.read(); assert(-1 != temp); pduDataStream.reset(); if (temp > SHORT_INTEGER_MAX) { return parseShortInteger(pduDataStream); } else { return parseLongInteger(pduDataStream); } } /** * To skip length of the wap value. * * @param pduDataStream pdu data input stream * @param length area size * @return the values in this area */ protected static int skipWapValue(ByteArrayInputStream pduDataStream, int length) { assert(null != pduDataStream); byte[] area = new byte[length]; int readLen = pduDataStream.read(area, 0, length); if (readLen < length) { //The actually read length is lower than the length return -1; } else { return readLen; } } /** * Parse content type parameters. For now we just support * four parameters used in mms: "type", "start", "name", "charset". * * @param pduDataStream pdu data input stream * @param map to store parameters of Content-Type field * @param length length of all the parameters */ protected static void parseContentTypeParams(ByteArrayInputStream pduDataStream, HashMap map, Integer length) { /** * From wap-230-wsp-20010705-a.pdf * Parameter = Typed-parameter | Untyped-parameter * Typed-parameter = Well-known-parameter-token Typed-value * the actual expected type of the value is implied by the well-known parameter * Well-known-parameter-token = Integer-value * the code values used for parameters are specified in the Assigned Numbers appendix * Typed-value = Compact-value | Text-value * In addition to the expected type, there may be no value. * If the value cannot be encoded using the expected type, it shall be encoded as text. * Compact-value = Integer-value | * Date-value | Delta-seconds-value | Q-value | Version-value | * Uri-value * Untyped-parameter = Token-text Untyped-value * the type of the value is unknown, but it shall be encoded as an integer, * if that is possible. * Untyped-value = Integer-value | Text-value */ assert(null != pduDataStream); assert(length > 0); int startPos = pduDataStream.available(); int tempPos = 0; int lastLen = length; while(0 < lastLen) { int param = pduDataStream.read(); assert(-1 != param); lastLen--; switch (param) { /** * From rfc2387, chapter 3.1 * The type parameter must be specified and its value is the MIME media * type of the "root" body part. It permits a MIME user agent to * determine the content-type without reference to the enclosed body * part. If the value of the type parameter and the root body part's * content-type differ then the User Agent's behavior is undefined. * * From wap-230-wsp-20010705-a.pdf * type = Constrained-encoding * Constrained-encoding = Extension-Media | Short-integer * Extension-media = *TEXT End-of-string */ case PduPart.P_TYPE: case PduPart.P_CT_MR_TYPE: pduDataStream.mark(1); int first = extractByteValue(pduDataStream); pduDataStream.reset(); if (first > TEXT_MAX) { // Short-integer (well-known type) int index = parseShortInteger(pduDataStream); if (index < PduContentTypes.contentTypes.length) { byte[] type = (PduContentTypes.contentTypes[index]).getBytes(); map.put(PduPart.P_TYPE, type); } else { //not support this type, ignore it. } } else { // Text-String (extension-media) byte[] type = parseWapString(pduDataStream, TYPE_TEXT_STRING); if ((null != type) && (null != map)) { map.put(PduPart.P_TYPE, type); } } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); break; /** * From oma-ts-mms-conf-v1_3.pdf, chapter 10.2.3. * Start Parameter Referring to Presentation * * From rfc2387, chapter 3.2 * The start parameter, if given, is the content-ID of the compound * object's "root". If not present the "root" is the first body part in * the Multipart/Related entity. The "root" is the element the * applications processes first. * * From wap-230-wsp-20010705-a.pdf * start = Text-String */ case PduPart.P_START: case PduPart.P_DEP_START: byte[] start = parseWapString(pduDataStream, TYPE_TEXT_STRING); if ((null != start) && (null != map)) { map.put(PduPart.P_START, start); } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); break; /** * From oma-ts-mms-conf-v1_3.pdf * In creation, the character set SHALL be either us-ascii * (IANA MIBenum 3) or utf-8 (IANA MIBenum 106)[Unicode]. * In retrieval, both us-ascii and utf-8 SHALL be supported. * * From wap-230-wsp-20010705-a.pdf * charset = Well-known-charset|Text-String * Well-known-charset = Any-charset | Integer-value * Both are encoded using values from Character Set * Assignments table in Assigned Numbers * Any-charset = * Equivalent to the special RFC2616 charset value "*" */ case PduPart.P_CHARSET: pduDataStream.mark(1); int firstValue = extractByteValue(pduDataStream); pduDataStream.reset(); //Check first char if (((firstValue > TEXT_MIN) && (firstValue < TEXT_MAX)) || (END_STRING_FLAG == firstValue)) { //Text-String (extension-charset) byte[] charsetStr = parseWapString(pduDataStream, TYPE_TEXT_STRING); try { int charsetInt = CharacterSets.getMibEnumValue( new String(charsetStr)); map.put(PduPart.P_CHARSET, charsetInt); } catch (UnsupportedEncodingException e) { // Not a well-known charset, use "*". Log.e(LOG_TAG, Arrays.toString(charsetStr), e); map.put(PduPart.P_CHARSET, CharacterSets.ANY_CHARSET); } } else { //Well-known-charset int charset = (int) parseIntegerValue(pduDataStream); if (map != null) { map.put(PduPart.P_CHARSET, charset); } } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); break; /** * From oma-ts-mms-conf-v1_3.pdf * A name for multipart object SHALL be encoded using name-parameter * for Content-Type header in WSP multipart headers. * * From wap-230-wsp-20010705-a.pdf * name = Text-String */ case PduPart.P_DEP_NAME: case PduPart.P_NAME: byte[] name = parseWapString(pduDataStream, TYPE_TEXT_STRING); if ((null != name) && (null != map)) { map.put(PduPart.P_NAME, name); } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); break; default: if (LOCAL_LOGV) { Log.v(LOG_TAG, "Not supported Content-Type parameter"); } if (-1 == skipWapValue(pduDataStream, lastLen)) { Log.e(LOG_TAG, "Corrupt Content-Type"); } else { lastLen = 0; } break; } } if (0 != lastLen) { Log.e(LOG_TAG, "Corrupt Content-Type"); } } /** * Parse content type. * * @param pduDataStream pdu data input stream * @param map to store parameters in Content-Type header field * @return Content-Type value */ protected static byte[] parseContentType(ByteArrayInputStream pduDataStream, HashMap map) { /** * From wap-230-wsp-20010705-a.pdf * Content-type-value = Constrained-media | Content-general-form * Content-general-form = Value-length Media-type * Media-type = (Well-known-media | Extension-Media) *(Parameter) */ assert(null != pduDataStream); byte[] contentType = null; pduDataStream.mark(1); int temp = pduDataStream.read(); assert(-1 != temp); pduDataStream.reset(); int cur = (temp & 0xFF); if (cur < TEXT_MIN) { int length = parseValueLength(pduDataStream); int startPos = pduDataStream.available(); pduDataStream.mark(1); temp = pduDataStream.read(); assert(-1 != temp); pduDataStream.reset(); int first = (temp & 0xFF); if ((first >= TEXT_MIN) && (first <= TEXT_MAX)) { contentType = parseWapString(pduDataStream, TYPE_TEXT_STRING); } else if (first > TEXT_MAX) { int index = parseShortInteger(pduDataStream); if (index < PduContentTypes.contentTypes.length) { //well-known type contentType = (PduContentTypes.contentTypes[index]).getBytes(); } else { pduDataStream.reset(); contentType = parseWapString(pduDataStream, TYPE_TEXT_STRING); } } else { Log.e(LOG_TAG, "Corrupt content-type"); return (PduContentTypes.contentTypes[0]).getBytes(); //"*/*" } int endPos = pduDataStream.available(); int parameterLen = length - (startPos - endPos); if (parameterLen > 0) {//have parameters parseContentTypeParams(pduDataStream, map, parameterLen); } if (parameterLen < 0) { Log.e(LOG_TAG, "Corrupt MMS message"); return (PduContentTypes.contentTypes[0]).getBytes(); //"*/*" } } else if (cur <= TEXT_MAX) { contentType = parseWapString(pduDataStream, TYPE_TEXT_STRING); } else { contentType = (PduContentTypes.contentTypes[parseShortInteger(pduDataStream)]).getBytes(); } return contentType; } /** * Parse part's headers. * * @param pduDataStream pdu data input stream * @param part to store the header informations of the part * @param length length of the headers * @return true if parse successfully, false otherwise */ protected boolean parsePartHeaders(ByteArrayInputStream pduDataStream, PduPart part, int length) { assert(null != pduDataStream); assert(null != part); assert(length > 0); /** * From oma-ts-mms-conf-v1_3.pdf, chapter 10.2. * A name for multipart object SHALL be encoded using name-parameter * for Content-Type header in WSP multipart headers. * In decoding, name-parameter of Content-Type SHALL be used if available. * If name-parameter of Content-Type is not available, * filename parameter of Content-Disposition header SHALL be used if available. * If neither name-parameter of Content-Type header nor filename parameter * of Content-Disposition header is available, * Content-Location header SHALL be used if available. * * Within SMIL part the reference to the media object parts SHALL use * either Content-ID or Content-Location mechanism [RFC2557] * and the corresponding WSP part headers in media object parts * contain the corresponding definitions. */ int startPos = pduDataStream.available(); int tempPos = 0; int lastLen = length; while(0 < lastLen) { int header = pduDataStream.read(); assert(-1 != header); lastLen--; if (header > TEXT_MAX) { // Number assigned headers. switch (header) { case PduPart.P_CONTENT_LOCATION: /** * From wap-230-wsp-20010705-a.pdf, chapter 8.4.2.21 * Content-location-value = Uri-value */ byte[] contentLocation = parseWapString(pduDataStream, TYPE_TEXT_STRING); if (null != contentLocation) { part.setContentLocation(contentLocation); } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); break; case PduPart.P_CONTENT_ID: /** * From wap-230-wsp-20010705-a.pdf, chapter 8.4.2.21 * Content-ID-value = Quoted-string */ byte[] contentId = parseWapString(pduDataStream, TYPE_QUOTED_STRING); if (null != contentId) { part.setContentId(contentId); } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); break; case PduPart.P_DEP_CONTENT_DISPOSITION: case PduPart.P_CONTENT_DISPOSITION: /** * From wap-230-wsp-20010705-a.pdf, chapter 8.4.2.21 * Content-disposition-value = Value-length Disposition *(Parameter) * Disposition = Form-data | Attachment | Inline | Token-text * Form-data = * Attachment = * Inline = */ /* * some carrier mmsc servers do not support content_disposition * field correctly */ if (mParseContentDisposition) { int len = parseValueLength(pduDataStream); pduDataStream.mark(1); int thisStartPos = pduDataStream.available(); int thisEndPos = 0; int value = pduDataStream.read(); if (value == PduPart.P_DISPOSITION_FROM_DATA ) { part.setContentDisposition(PduPart.DISPOSITION_FROM_DATA); } else if (value == PduPart.P_DISPOSITION_ATTACHMENT) { part.setContentDisposition(PduPart.DISPOSITION_ATTACHMENT); } else if (value == PduPart.P_DISPOSITION_INLINE) { part.setContentDisposition(PduPart.DISPOSITION_INLINE); } else { pduDataStream.reset(); /* Token-text */ part.setContentDisposition(parseWapString(pduDataStream , TYPE_TEXT_STRING)); } /* get filename parameter and skip other parameters */ thisEndPos = pduDataStream.available(); if (thisStartPos - thisEndPos < len) { value = pduDataStream.read(); if (value == PduPart.P_FILENAME) { //filename is text-string part.setFilename(parseWapString(pduDataStream , TYPE_TEXT_STRING)); } /* skip other parameters */ thisEndPos = pduDataStream.available(); if (thisStartPos - thisEndPos < len) { int last = len - (thisStartPos - thisEndPos); byte[] temp = new byte[last]; pduDataStream.read(temp, 0, last); } } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); } break; default: if (LOCAL_LOGV) { Log.v(LOG_TAG, "Not supported Part headers: " + header); } if (-1 == skipWapValue(pduDataStream, lastLen)) { Log.e(LOG_TAG, "Corrupt Part headers"); return false; } lastLen = 0; break; } } else if ((header >= TEXT_MIN) && (header <= TEXT_MAX)) { // Not assigned header. byte[] tempHeader = parseWapString(pduDataStream, TYPE_TEXT_STRING); byte[] tempValue = parseWapString(pduDataStream, TYPE_TEXT_STRING); // Check the header whether it is "Content-Transfer-Encoding". if (true == PduPart.CONTENT_TRANSFER_ENCODING.equalsIgnoreCase(new String(tempHeader))) { part.setContentTransferEncoding(tempValue); } tempPos = pduDataStream.available(); lastLen = length - (startPos - tempPos); } else { if (LOCAL_LOGV) { Log.v(LOG_TAG, "Not supported Part headers: " + header); } // Skip all headers of this part. if (-1 == skipWapValue(pduDataStream, lastLen)) { Log.e(LOG_TAG, "Corrupt Part headers"); return false; } lastLen = 0; } } if (0 != lastLen) { Log.e(LOG_TAG, "Corrupt Part headers"); return false; } return true; } /** * Check the position of a specified part. * * @param part the part to be checked * @return part position, THE_FIRST_PART when it's the * first one, THE_LAST_PART when it's the last one. */ private static int checkPartPosition(PduPart part) { assert(null != part); if ((null == mTypeParam) && (null == mStartParam)) { return THE_LAST_PART; } /* check part's content-id */ if (null != mStartParam) { byte[] contentId = part.getContentId(); if (null != contentId) { if (true == Arrays.equals(mStartParam, contentId)) { return THE_FIRST_PART; } } // This is not the first part, so append to end (keeping the original order) // Check b/19607294 for details of this change return THE_LAST_PART; } /* check part's content-type */ if (null != mTypeParam) { byte[] contentType = part.getContentType(); if (null != contentType) { if (true == Arrays.equals(mTypeParam, contentType)) { return THE_FIRST_PART; } } } return THE_LAST_PART; } /** * Check mandatory headers of a pdu. * * @param headers pdu headers * @return true if the pdu has all of the mandatory headers, false otherwise. */ protected static boolean checkMandatoryHeader(PduHeaders headers) { if (null == headers) { return false; } /* get message type */ int messageType = headers.getOctet(PduHeaders.MESSAGE_TYPE); /* check Mms-Version field */ int mmsVersion = headers.getOctet(PduHeaders.MMS_VERSION); if (0 == mmsVersion) { // Every message should have Mms-Version field. return false; } /* check mandatory header fields */ switch (messageType) { case PduHeaders.MESSAGE_TYPE_SEND_REQ: // Content-Type field. byte[] srContentType = headers.getTextString(PduHeaders.CONTENT_TYPE); if (null == srContentType) { return false; } // From field. EncodedStringValue srFrom = headers.getEncodedStringValue(PduHeaders.FROM); if (null == srFrom) { return false; } // Transaction-Id field. byte[] srTransactionId = headers.getTextString(PduHeaders.TRANSACTION_ID); if (null == srTransactionId) { return false; } break; case PduHeaders.MESSAGE_TYPE_SEND_CONF: // Response-Status field. int scResponseStatus = headers.getOctet(PduHeaders.RESPONSE_STATUS); if (0 == scResponseStatus) { return false; } // Transaction-Id field. byte[] scTransactionId = headers.getTextString(PduHeaders.TRANSACTION_ID); if (null == scTransactionId) { return false; } break; case PduHeaders.MESSAGE_TYPE_NOTIFICATION_IND: // Content-Location field. byte[] niContentLocation = headers.getTextString(PduHeaders.CONTENT_LOCATION); if (null == niContentLocation) { return false; } // Expiry field. long niExpiry = headers.getLongInteger(PduHeaders.EXPIRY); if (-1 == niExpiry) { return false; } // Message-Class field. byte[] niMessageClass = headers.getTextString(PduHeaders.MESSAGE_CLASS); if (null == niMessageClass) { return false; } // Message-Size field. long niMessageSize = headers.getLongInteger(PduHeaders.MESSAGE_SIZE); if (-1 == niMessageSize) { return false; } // Transaction-Id field. byte[] niTransactionId = headers.getTextString(PduHeaders.TRANSACTION_ID); if (null == niTransactionId) { return false; } break; case PduHeaders.MESSAGE_TYPE_NOTIFYRESP_IND: // Status field. int nriStatus = headers.getOctet(PduHeaders.STATUS); if (0 == nriStatus) { return false; } // Transaction-Id field. byte[] nriTransactionId = headers.getTextString(PduHeaders.TRANSACTION_ID); if (null == nriTransactionId) { return false; } break; case PduHeaders.MESSAGE_TYPE_RETRIEVE_CONF: // Content-Type field. byte[] rcContentType = headers.getTextString(PduHeaders.CONTENT_TYPE); if (null == rcContentType) { return false; } // Date field. long rcDate = headers.getLongInteger(PduHeaders.DATE); if (-1 == rcDate) { return false; } break; case PduHeaders.MESSAGE_TYPE_DELIVERY_IND: // Date field. long diDate = headers.getLongInteger(PduHeaders.DATE); if (-1 == diDate) { return false; } // Message-Id field. byte[] diMessageId = headers.getTextString(PduHeaders.MESSAGE_ID); if (null == diMessageId) { return false; } // Status field. int diStatus = headers.getOctet(PduHeaders.STATUS); if (0 == diStatus) { return false; } // To field. EncodedStringValue[] diTo = headers.getEncodedStringValues(PduHeaders.TO); if (null == diTo) { return false; } break; case PduHeaders.MESSAGE_TYPE_ACKNOWLEDGE_IND: // Transaction-Id field. byte[] aiTransactionId = headers.getTextString(PduHeaders.TRANSACTION_ID); if (null == aiTransactionId) { return false; } break; case PduHeaders.MESSAGE_TYPE_READ_ORIG_IND: // Date field. long roDate = headers.getLongInteger(PduHeaders.DATE); if (-1 == roDate) { return false; } // From field. EncodedStringValue roFrom = headers.getEncodedStringValue(PduHeaders.FROM); if (null == roFrom) { return false; } // Message-Id field. byte[] roMessageId = headers.getTextString(PduHeaders.MESSAGE_ID); if (null == roMessageId) { return false; } // Read-Status field. int roReadStatus = headers.getOctet(PduHeaders.READ_STATUS); if (0 == roReadStatus) { return false; } // To field. EncodedStringValue[] roTo = headers.getEncodedStringValues(PduHeaders.TO); if (null == roTo) { return false; } break; case PduHeaders.MESSAGE_TYPE_READ_REC_IND: // From field. EncodedStringValue rrFrom = headers.getEncodedStringValue(PduHeaders.FROM); if (null == rrFrom) { return false; } // Message-Id field. byte[] rrMessageId = headers.getTextString(PduHeaders.MESSAGE_ID); if (null == rrMessageId) { return false; } // Read-Status field. int rrReadStatus = headers.getOctet(PduHeaders.READ_STATUS); if (0 == rrReadStatus) { return false; } // To field. EncodedStringValue[] rrTo = headers.getEncodedStringValues(PduHeaders.TO); if (null == rrTo) { return false; } break; default: // Parser doesn't support this message type in this version. return false; } return true; } }