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/*
 * Conditions Of Use
 *
 * This software was developed by employees of the National Institute of
 * Standards and Technology (NIST), an agency of the Federal Government.
 * Pursuant to title 15 Untied States Code Section 105, works of NIST
 * employees are not subject to copyright protection in the United States
 * and are considered to be in the public domain.  As a result, a formal
 * license is not needed to use the software.
 *
 * This software is provided by NIST as a service and is expressly
 * provided "AS IS."  NIST MAKES NO WARRANTY OF ANY KIND, EXPRESS, IMPLIED
 * OR STATUTORY, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTY OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, NON-INFRINGEMENT
 * AND DATA ACCURACY.  NIST does not warrant or make any representations
 * regarding the use of the software or the results thereof, including but
 * not limited to the correctness, accuracy, reliability or usefulness of
 * the software.
 *
 * Permission to use this software is contingent upon your acceptance
 * of the terms of this agreement
 *
 * .
 *
 */
/*******************************************************************************
 * Product of NIST/ITL Advanced Networking Technologies Division (ANTD)        *
 ******************************************************************************/
package gov.nist.javax.sip.message;

import gov.nist.core.InternalErrorHandler;
import gov.nist.core.Separators;
import gov.nist.javax.sip.SIPConstants;
import gov.nist.javax.sip.Utils;
import gov.nist.javax.sip.header.AlertInfo;
import gov.nist.javax.sip.header.Authorization;
import gov.nist.javax.sip.header.CSeq;
import gov.nist.javax.sip.header.CallID;
import gov.nist.javax.sip.header.Contact;
import gov.nist.javax.sip.header.ContactList;
import gov.nist.javax.sip.header.ContentLength;
import gov.nist.javax.sip.header.ContentType;
import gov.nist.javax.sip.header.ErrorInfo;
import gov.nist.javax.sip.header.ErrorInfoList;
import gov.nist.javax.sip.header.From;
import gov.nist.javax.sip.header.InReplyTo;
import gov.nist.javax.sip.header.MaxForwards;
import gov.nist.javax.sip.header.Priority;
import gov.nist.javax.sip.header.ProxyAuthenticate;
import gov.nist.javax.sip.header.ProxyAuthorization;
import gov.nist.javax.sip.header.ProxyRequire;
import gov.nist.javax.sip.header.ProxyRequireList;
import gov.nist.javax.sip.header.RSeq;
import gov.nist.javax.sip.header.RecordRouteList;
import gov.nist.javax.sip.header.RetryAfter;
import gov.nist.javax.sip.header.Route;
import gov.nist.javax.sip.header.RouteList;
import gov.nist.javax.sip.header.SIPETag;
import gov.nist.javax.sip.header.SIPHeader;
import gov.nist.javax.sip.header.SIPHeaderList;
import gov.nist.javax.sip.header.SIPHeaderNamesCache;
import gov.nist.javax.sip.header.SIPIfMatch;
import gov.nist.javax.sip.header.Server;
import gov.nist.javax.sip.header.Subject;
import gov.nist.javax.sip.header.To;
import gov.nist.javax.sip.header.Unsupported;
import gov.nist.javax.sip.header.UserAgent;
import gov.nist.javax.sip.header.Via;
import gov.nist.javax.sip.header.ViaList;
import gov.nist.javax.sip.header.WWWAuthenticate;
import gov.nist.javax.sip.header.Warning;
import gov.nist.javax.sip.parser.HeaderParser;
import gov.nist.javax.sip.parser.ParserFactory;
import gov.nist.javax.sip.parser.PipelinedMsgParser;
import gov.nist.javax.sip.parser.StringMsgParser;

import java.io.UnsupportedEncodingException;
import java.lang.reflect.Field;
import java.net.InetAddress;
import java.text.ParseException;
import java.util.Collection;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
import java.util.ListIterator;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.ConcurrentLinkedQueue;

import javax.sip.InvalidArgumentException;
import javax.sip.SipException;
import javax.sip.header.AuthorizationHeader;
import javax.sip.header.CSeqHeader;
import javax.sip.header.CallIdHeader;
import javax.sip.header.ContactHeader;
import javax.sip.header.ContentDispositionHeader;
import javax.sip.header.ContentEncodingHeader;
import javax.sip.header.ContentLanguageHeader;
import javax.sip.header.ContentLengthHeader;
import javax.sip.header.ContentTypeHeader;
import javax.sip.header.ExpiresHeader;
import javax.sip.header.FromHeader;
import javax.sip.header.Header;
import javax.sip.header.MaxForwardsHeader;
import javax.sip.header.RecordRouteHeader;
import javax.sip.header.RouteHeader;
import javax.sip.header.ToHeader;
import javax.sip.header.ViaHeader;
import javax.sip.message.Request;

/*
 * Acknowledgements: Yanick Belanger sent in a patch for the right content length when the content
 * is a String. Bill Mccormick from Nortel Networks sent in a bug fix for setContent.
 *
 */
/**
 * This is the main SIP Message structure. 
 * 
 * This is an implementation class.
 * WARNING do not directly use the methods of this class in your application.
 * Use the methods of the interfaces implemented by this class.
 * 
 *
 * @see StringMsgParser
 * @see PipelinedMsgParser
 *
 * @version 1.2 $Revision: 1.59 $ $Date: 2010-12-02 22:44:52 $
 * @since 1.1
 *
 * @author M. Ranganathan 
* * */ public abstract class SIPMessage extends MessageObject implements javax.sip.message.Message, MessageExt { // JvB: use static here? private String contentEncodingCharset = MessageFactoryImpl.getDefaultContentEncodingCharset(); /* * True if this is a null request. */ protected boolean nullRequest; /** * unparsed headers */ protected LinkedList unrecognizedHeaders; /** * List of parsed headers (in the order they were added) */ protected ConcurrentLinkedQueue headers; /** * Direct accessors for frequently accessed headers */ protected From fromHeader; protected To toHeader; protected CSeq cSeqHeader; protected CallID callIdHeader; protected ContentLength contentLengthHeader; protected MaxForwards maxForwardsHeader; // Cumulative size of all the headers. protected int size; // Payload protected String messageContent; protected byte[] messageContentBytes; protected Object messageContentObject; // Table of headers indexed by name. protected Map headerTable; /** * The application data pointer. This is un-interpreted by the stack. This is provided as a * convenient way of keeping book-keeping data for applications. */ protected Object applicationData; protected String forkId; /** * The remote address that this message is bound to or received from. */ private InetAddress remoteAddress; /** * The remote port that this message is bound to or received from. */ private int remotePort; /** * The local address that we will send the message from or that we received * it on. */ private InetAddress localAddress; /** * The local port that we will send the message from or that we received * it on. */ private int localPort; private InetAddress peerPacketSourceAddress; private int peerPacketSourcePort; /** * Return true if the header belongs only in a Request. * * @param sipHeader is the header to test. */ public static boolean isRequestHeader(SIPHeader sipHeader) { return sipHeader instanceof AlertInfo || sipHeader instanceof InReplyTo || sipHeader instanceof Authorization || sipHeader instanceof MaxForwards || sipHeader instanceof UserAgent || sipHeader instanceof Priority || sipHeader instanceof ProxyAuthorization || sipHeader instanceof ProxyRequire || sipHeader instanceof ProxyRequireList || sipHeader instanceof Route || sipHeader instanceof RouteList || sipHeader instanceof Subject || sipHeader instanceof SIPIfMatch; } /** * Return true if the header belongs only in a response. * * @param sipHeader is the header to test. */ public static boolean isResponseHeader(SIPHeader sipHeader) { return sipHeader instanceof ErrorInfo || sipHeader instanceof ProxyAuthenticate || sipHeader instanceof Server || sipHeader instanceof Unsupported || sipHeader instanceof RetryAfter || sipHeader instanceof Warning || sipHeader instanceof WWWAuthenticate || sipHeader instanceof SIPETag || sipHeader instanceof RSeq; } /** * Get the headers as a linked list of encoded Strings * * @return a linked list with each element of the list containing a string encoded header in * canonical form. */ public LinkedList getMessageAsEncodedStrings() { LinkedList retval = new LinkedList(); Iterator li = headers.iterator(); while (li.hasNext()) { SIPHeader sipHeader = (SIPHeader) li.next(); if (sipHeader instanceof SIPHeaderList) { SIPHeaderList< ? > shl = (SIPHeaderList< ? >) sipHeader; retval.addAll(shl.getHeadersAsEncodedStrings()); } else { retval.add(sipHeader.encode()); } } return retval; } /** * Encode only the message and exclude the contents (for debugging); * * @return a string with all the headers encoded. */ protected StringBuilder encodeSIPHeaders(StringBuilder encoding) { // StringBuilder encoding = new StringBuilder(); Iterator it = this.headers.iterator(); while (it.hasNext()) { SIPHeader siphdr = (SIPHeader) it.next(); if (!(siphdr instanceof ContentLength)) siphdr.encode(encoding); } return contentLengthHeader.encode(encoding).append(NEWLINE); } /** * Encode all the headers except the contents. For debug logging. */ public abstract StringBuilder encodeMessage(StringBuilder retval); /** * Get A dialog identifier constructed from this messsage. This is an id that can be used to * identify dialogs. * * @param isServerTransaction is a flag that indicates whether this is a server transaction. */ public final String getDialogId(boolean isServer) { To to = (To) this.getTo(); return this.getDialogId( isServer, to.getTag() ); } /** * Get a dialog id given the remote tag. */ public final String getDialogId(boolean isServer, String toTag) { From from = (From) this.getFrom(); CallID cid = (CallID) this.getCallId(); StringBuffer retval = new StringBuffer(cid.getCallId()); if (!isServer) { // retval.append(COLON).append(from.getUserAtHostPort()); if (from.getTag() != null) { retval.append(COLON); retval.append(from.getTag()); } // retval.append(COLON).append(to.getUserAtHostPort()); if (toTag != null) { retval.append(COLON); retval.append(toTag); } } else { // retval.append(COLON).append(to.getUserAtHostPort()); if (toTag != null) { retval.append(COLON); retval.append(toTag); } // retval.append(COLON).append(from.getUserAtHostPort()); if (from.getTag() != null) { retval.append(COLON); retval.append(from.getTag()); } } return retval.toString().toLowerCase(); } /** * Template match for SIP messages. The matchObj is a SIPMessage template to match against. * This method allows you to do pattern matching with incoming SIP messages. Null matches wild * card. * * @param other is the match template to match against. * @return true if a match occured and false otherwise. */ public boolean match(Object other) { if (other == null) return true; if (!other.getClass().equals(this.getClass())) return false; SIPMessage matchObj = (SIPMessage) other; Iterator li = matchObj.getHeaders(); while (li.hasNext()) { SIPHeader hisHeaders = (SIPHeader) li.next(); List myHeaders = this.getHeaderList(hisHeaders.getHeaderName()); // Could not find a header to match his header. if (myHeaders == null || myHeaders.size() == 0) return false; if (hisHeaders instanceof SIPHeaderList) { ListIterator< ? > outerIterator = ((SIPHeaderList< ? >) hisHeaders) .listIterator(); while (outerIterator.hasNext()) { SIPHeader hisHeader = (SIPHeader) outerIterator.next(); if (hisHeader instanceof ContentLength) continue; ListIterator< ? > innerIterator = myHeaders.listIterator(); boolean found = false; while (innerIterator.hasNext()) { SIPHeader myHeader = (SIPHeader) innerIterator.next(); if (myHeader.match(hisHeader)) { found = true; break; } } if (!found) return false; } } else { SIPHeader hisHeader = hisHeaders; ListIterator innerIterator = myHeaders.listIterator(); boolean found = false; while (innerIterator.hasNext()) { SIPHeader myHeader = (SIPHeader) innerIterator.next(); if (myHeader.match(hisHeader)) { found = true; break; } } if (!found) return false; } } return true; } /** * Merge a request with a template * * @param template -- template to merge with. * */ public void merge(Object template) { if (!template.getClass().equals(this.getClass())) throw new IllegalArgumentException("Bad class " + template.getClass()); SIPMessage templateMessage = (SIPMessage) template; Object[] templateHeaders = templateMessage.headers.toArray(); for (int i = 0; i < templateHeaders.length; i++) { SIPHeader hdr = (SIPHeader) templateHeaders[i]; String hdrName = hdr.getHeaderName(); List myHdrs = this.getHeaderList(hdrName); if (myHdrs == null) { this.attachHeader(hdr); } else { ListIterator it = myHdrs.listIterator(); while (it.hasNext()) { SIPHeader sipHdr = (SIPHeader) it.next(); sipHdr.merge(hdr); } } } } /** * Encode this message as a string. This is more efficient when the payload is a string * (rather than a binary array of bytes). If the payload cannot be encoded as a UTF-8 string * then it is simply ignored (will not appear in the encoded message). * * @return The Canonical String representation of the message (including the canonical string * representation of the SDP payload if it exists). */ public String encode() { StringBuilder encoding = new StringBuilder(); Iterator it = this.headers.iterator(); while (it.hasNext()) { SIPHeader siphdr = (SIPHeader) it.next(); if (!(siphdr instanceof ContentLength)) siphdr.encode(encoding); } // Append the unrecognized headers. Headers that are not // recognized are passed through unchanged. if(unrecognizedHeaders != null) { for (String unrecognized : unrecognizedHeaders) { encoding.append(unrecognized).append(NEWLINE); } } contentLengthHeader.encode(encoding).append(NEWLINE); if (this.messageContentObject != null) { String mbody = this.getContent().toString(); encoding.append(mbody); } else if (this.messageContent != null || this.messageContentBytes != null) { String content = null; try { if (messageContent != null) content = messageContent; else { // JvB: Check for 'charset' parameter which overrides the default UTF-8 content = new String(messageContentBytes, getCharset() ); } } catch (UnsupportedEncodingException ex) { InternalErrorHandler.handleException(ex); } encoding.append(content); } return encoding.toString(); } /** * Encode the message as a byte array. Use this when the message payload is a binary byte * array. * * @return The Canonical byte array representation of the message (including the canonical * byte array representation of the SDP payload if it exists all in one contiguous * byte array). */ public byte[] encodeAsBytes(String transport) { if (this instanceof SIPRequest && ((SIPRequest) this).isNullRequest()) { return "\r\n\r\n".getBytes(); } // JvB: added to fix case where application provides the wrong transport // in the topmost Via header ViaHeader topVia = (ViaHeader) this.getHeader(ViaHeader.NAME); try { topVia.setTransport(transport); } catch (ParseException e) { InternalErrorHandler.handleException(e); } StringBuilder encoding = new StringBuilder(); synchronized (this.headers) { Iterator it = this.headers.iterator(); while (it.hasNext()) { SIPHeader siphdr = (SIPHeader) it.next(); if (!(siphdr instanceof ContentLength)) siphdr.encode(encoding); } } contentLengthHeader.encode(encoding); encoding.append(NEWLINE); byte[] retval = null; byte[] content = this.getRawContent(); if (content != null) { // Append the content byte[] msgarray = null; try { msgarray = encoding.toString().getBytes( getCharset() ); } catch (UnsupportedEncodingException ex) { InternalErrorHandler.handleException(ex); } retval = new byte[msgarray.length + content.length]; System.arraycopy(msgarray, 0, retval, 0, msgarray.length); System.arraycopy(content, 0, retval, msgarray.length, content.length); } else { // Message content does not exist. try { retval = encoding.toString().getBytes( getCharset() ); } catch (UnsupportedEncodingException ex) { InternalErrorHandler.handleException(ex); } } return retval; } /** * clone this message (create a new deep physical copy). All headers in the message are * cloned. You can modify the cloned copy without affecting the original. The content is * handled as follows: If the content is a String, or a byte array, a new copy of the content * is allocated and copied over. If the content is an Object that supports the clone method, * then the clone method is invoked and the cloned content is the new content. Otherwise, the * content of the new message is set equal to the old one. * * @return A cloned copy of this object. */ public Object clone() { SIPMessage retval = (SIPMessage) super.clone(); retval.headerTable = new ConcurrentHashMap(); retval.fromHeader = null; retval.toHeader = null; retval.cSeqHeader = null; retval.callIdHeader = null; retval.contentLengthHeader = null; retval.maxForwardsHeader = null; retval.forkId = null; if (this.headers != null) { retval.headers = new ConcurrentLinkedQueue(); for (Iterator iter = headers.iterator(); iter.hasNext();) { SIPHeader hdr = (SIPHeader) iter.next(); retval.attachHeader((SIPHeader) hdr.clone()); } } if (this.messageContentBytes != null) retval.messageContentBytes = (byte[]) this.messageContentBytes.clone(); if (this.messageContentObject != null) retval.messageContentObject = makeClone(messageContentObject); retval.unrecognizedHeaders = this.unrecognizedHeaders; retval.remoteAddress = this.remoteAddress; retval.remotePort = this.remotePort; return retval; } /** * Get the string representation of this header (for pretty printing the generated structure). * * @return Formatted string representation of the object. Note that this is NOT the same as * encode(). This is used mainly for debugging purposes. */ public String debugDump() { stringRepresentation = ""; sprint("SIPMessage:"); sprint("{"); try { Field[] fields = this.getClass().getDeclaredFields(); for (int i = 0; i < fields.length; i++) { Field f = fields[i]; Class< ? > fieldType = f.getType(); String fieldName = f.getName(); if (f.get(this) != null && SIPHeader.class.isAssignableFrom(fieldType) && fieldName.compareTo("headers") != 0) { sprint(fieldName + Separators.EQUALS); sprint(((SIPHeader) f.get(this)).debugDump()); } } } catch (Exception ex) { InternalErrorHandler.handleException(ex); } sprint("List of headers : "); sprint(headers.toString()); sprint("messageContent = "); sprint("{"); sprint(messageContent); sprint("}"); if (this.getContent() != null) { sprint(this.getContent().toString()); } sprint("}"); return stringRepresentation; } /** * Constructor: Initializes lists and list headers. All the headers for which there can be * multiple occurances in a message are derived from the SIPHeaderListClass. All singleton * headers are derived from SIPHeader class. */ public SIPMessage() { this.unrecognizedHeaders = new LinkedList(); this.headers = new ConcurrentLinkedQueue(); headerTable = new ConcurrentHashMap(); try { this.attachHeader(new ContentLength(0), false); } catch (Exception ex) { } } /** * Attach a header and die if you get a duplicate header exception. * * @param h SIPHeader to attach. */ private void attachHeader(SIPHeader h) { if (h == null) throw new IllegalArgumentException("null header!"); try { if (h instanceof SIPHeaderList) { SIPHeaderList< ? > hl = (SIPHeaderList< ? >) h; if (hl.isEmpty()) { return; } } attachHeader(h, false, false); } catch (SIPDuplicateHeaderException ex) { // InternalErrorHandler.handleException(ex); } } /** * Attach a header (replacing the original header). * * @param sipHeader SIPHeader that replaces a header of the same type. */ public void setHeader(Header sipHeader) { SIPHeader header = (SIPHeader) sipHeader; if (header == null) throw new IllegalArgumentException("null header!"); try { if (header instanceof SIPHeaderList) { SIPHeaderList< ? > hl = (SIPHeaderList< ? >) header; // Ignore empty lists. if (hl.isEmpty()) return; } this.removeHeader(header.getHeaderName()); attachHeader(header, true, false); } catch (SIPDuplicateHeaderException ex) { InternalErrorHandler.handleException(ex); } } /** * Set a header from a linked list of headers. * * @param headers -- a list of headers to set. */ public void setHeaders(java.util.List headers) { ListIterator listIterator = headers.listIterator(); while (listIterator.hasNext()) { SIPHeader sipHeader = (SIPHeader) listIterator.next(); try { this.attachHeader(sipHeader, false); } catch (SIPDuplicateHeaderException ex) { } } } /** * Attach a header to the end of the existing headers in this SIPMessage structure. This is * equivalent to the attachHeader(SIPHeader,replaceflag,false); which is the normal way in * which headers are attached. This was added in support of JAIN-SIP. * * @param h header to attach. * @param replaceflag if true then replace a header if it exists. * @throws SIPDuplicateHeaderException If replaceFlag is false and only a singleton header is * allowed (fpr example CSeq). */ public void attachHeader(SIPHeader h, boolean replaceflag) throws SIPDuplicateHeaderException { this.attachHeader(h, replaceflag, false); } /** * Attach the header to the SIP Message structure at a specified position in its list of * headers. * * @param header Header to attach. * @param replaceFlag If true then replace the existing header. * @param top Location in the header list to insert the header. * @exception SIPDuplicateHeaderException if the header is of a type that cannot tolerate * duplicates and one of this type already exists (e.g. CSeq header). * @throws IndexOutOfBoundsException If the index specified is greater than the number of * headers that are in this message. */ public void attachHeader(SIPHeader header, boolean replaceFlag, boolean top) throws SIPDuplicateHeaderException { if (header == null) { throw new NullPointerException("null header"); } SIPHeader h; if (ListMap.hasList(header) && !SIPHeaderList.class.isAssignableFrom(header.getClass())) { SIPHeaderList hdrList = ListMap.getList(header); hdrList.add(header); h = hdrList; } else { h = header; } String headerNameLowerCase = SIPHeaderNamesCache.toLowerCase(h.getName()); if (replaceFlag) { headerTable.remove(headerNameLowerCase); } else if (headerTable.containsKey(headerNameLowerCase) && !(h instanceof SIPHeaderList)) { if (h instanceof ContentLength) { try { ContentLength cl = (ContentLength) h; contentLengthHeader.setContentLength(cl.getContentLength()); } catch (InvalidArgumentException e) { } } // Just ignore duplicate header. return; } SIPHeader originalHeader = (SIPHeader) getHeader(header.getName()); // Delete the original header from our list structure. if (originalHeader != null) { Iterator li = headers.iterator(); while (li.hasNext()) { SIPHeader next = (SIPHeader) li.next(); if (next.equals(originalHeader)) { li.remove(); } } } if (!headerTable.containsKey(headerNameLowerCase)) { headerTable.put(headerNameLowerCase, h); headers.add(h); } else { if (h instanceof SIPHeaderList) { SIPHeaderList< ? > hdrlist = (SIPHeaderList< ? >) headerTable .get(headerNameLowerCase); if (hdrlist != null) hdrlist.concatenate((SIPHeaderList) h, top); else headerTable.put(headerNameLowerCase, h); } else { headerTable.put(headerNameLowerCase, h); } } // Direct accessor fields for frequently accessed headers. if (h instanceof From) { this.fromHeader = (From) h; } else if (h instanceof ContentLength) { this.contentLengthHeader = (ContentLength) h; } else if (h instanceof To) { this.toHeader = (To) h; } else if (h instanceof CSeq) { this.cSeqHeader = (CSeq) h; } else if (h instanceof CallID) { this.callIdHeader = (CallID) h; } else if (h instanceof MaxForwards) { this.maxForwardsHeader = (MaxForwards) h; } } /** * Remove a header given its name. If multiple headers of a given name are present then the * top flag determines which end to remove headers from. * * @param headerName is the name of the header to remove. * @param top -- flag that indicates which end of header list to process. */ public void removeHeader(String headerName, boolean top) { String headerNameLowerCase = SIPHeaderNamesCache.toLowerCase(headerName); SIPHeader toRemove = (SIPHeader) headerTable.get(headerNameLowerCase); // nothing to do then we are done. if (toRemove == null) return; if (toRemove instanceof SIPHeaderList) { SIPHeaderList< ? > hdrList = (SIPHeaderList< ? >) toRemove; if (top) hdrList.removeFirst(); else hdrList.removeLast(); // Clean up empty list if (hdrList.isEmpty()) { Iterator li = this.headers.iterator(); while (li.hasNext()) { SIPHeader sipHeader = (SIPHeader) li.next(); if (sipHeader.getName().equalsIgnoreCase(headerNameLowerCase)) li.remove(); } // JvB: also remove it from the nameTable! Else NPE in // DefaultRouter headerTable.remove(headerNameLowerCase); } } else { this.headerTable.remove(headerNameLowerCase); if (toRemove instanceof From) { this.fromHeader = null; } else if (toRemove instanceof To) { this.toHeader = null; } else if (toRemove instanceof CSeq) { this.cSeqHeader = null; } else if (toRemove instanceof CallID) { this.callIdHeader = null; } else if (toRemove instanceof MaxForwards) { this.maxForwardsHeader = null; } else if (toRemove instanceof ContentLength) { this.contentLengthHeader = null; } Iterator li = this.headers.iterator(); while (li.hasNext()) { SIPHeader sipHeader = (SIPHeader) li.next(); if (sipHeader.getName().equalsIgnoreCase(headerName)) li.remove(); } } } /** * Remove all headers given its name. * * @param headerName is the name of the header to remove. */ public void removeHeader(String headerName) { if (headerName == null) throw new NullPointerException("null arg"); String headerNameLowerCase = SIPHeaderNamesCache.toLowerCase(headerName); SIPHeader removed = (SIPHeader) headerTable.remove(headerNameLowerCase); // nothing to do then we are done. if (removed == null) return; // Remove the fast accessor fields. if (removed instanceof From) { this.fromHeader = null; } else if (removed instanceof To) { this.toHeader = null; } else if (removed instanceof CSeq) { this.cSeqHeader = null; } else if (removed instanceof CallID) { this.callIdHeader = null; } else if (removed instanceof MaxForwards) { this.maxForwardsHeader = null; } else if (removed instanceof ContentLength) { this.contentLengthHeader = null; } Iterator li = this.headers.iterator(); while (li.hasNext()) { SIPHeader sipHeader = (SIPHeader) li.next(); if (sipHeader.getName().equalsIgnoreCase(headerNameLowerCase)) li.remove(); } } /** * Generate (compute) a transaction ID for this SIP message. * * @return A string containing the concatenation of various portions of the From,To,Via and * RequestURI portions of this message as specified in RFC 2543: All responses to a * request contain the same values in the Call-ID, CSeq, To, and From fields (with the * possible addition of a tag in the To field (section 10.43)). This allows responses * to be matched with requests. Incorporates a bug fix for a bug sent in by Gordon * Ledgard of IPera for generating transactionIDs when no port is present in the via * header. Incorporates a bug fix for a bug report sent in by Chris Mills of Nortel * Networks (converts to lower case when returning the transaction identifier). * * @return a string that can be used as a transaction identifier for this message. This can be * used for matching responses and requests (i.e. an outgoing request and its matching * response have the same computed transaction identifier). */ public String getTransactionId() { Via topVia = getTopmostVia(); // if (!this.getViaHeaders().isEmpty()) { // topVia = (Via) this.getViaHeaders().getFirst(); // } // Have specified a branch Identifier so we can use it to identify // the transaction. BranchId is not case sensitive. // Branch Id prefix is not case sensitive. if (topVia != null && topVia.getBranch() != null && topVia.getBranch().toUpperCase().startsWith( SIPConstants.BRANCH_MAGIC_COOKIE_UPPER_CASE)) { // Bis 09 compatible branch assignment algorithm. // implies that the branch id can be used as a transaction // identifier. if (this.getCSeq().getMethod().equals(Request.CANCEL)) return (topVia.getBranch() + ":" + this.getCSeq().getMethod()).toLowerCase(); else return topVia.getBranch().toLowerCase(); } else { // Old style client so construct the transaction identifier // from various fields of the request. StringBuilder retval = new StringBuilder(); From from = (From) this.getFrom(); To to = (To) this.getTo(); // String hpFrom = from.getUserAtHostPort(); // retval.append(hpFrom).append(":"); if (from.hasTag()) retval.append(from.getTag()).append("-"); // String hpTo = to.getUserAtHostPort(); // retval.append(hpTo).append(":"); String cid = this.callIdHeader.getCallId(); retval.append(cid).append("-"); retval.append(this.cSeqHeader.getSequenceNumber()).append("-").append( this.cSeqHeader.getMethod()); if (topVia != null) { retval.append("-").append(topVia.getSentBy().encode()); if (!topVia.getSentBy().hasPort()) { retval.append("-").append(5060); } } if (this.getCSeq().getMethod().equals(Request.CANCEL)) { retval.append(Request.CANCEL); } return retval.toString().toLowerCase().replace(":", "-").replace("@", "-") + Utils.getSignature(); } } /** * Override the hashcode method ( see issue # 55 ) Note that if you try to use this method * before you assemble a valid request, you will get a constant ( -1 ). Beware of placing any * half formed requests in a table. */ public int hashCode() { if (this.callIdHeader == null) throw new RuntimeException( "Invalid message! Cannot compute hashcode! call-id header is missing !"); else return this.callIdHeader.getCallId().hashCode(); } /** * Return true if this message has a body. */ public boolean hasContent() { return messageContent != null || messageContentBytes != null; } /** * Return an iterator for the list of headers in this message. * * @return an Iterator for the headers of this message. */ public Iterator getHeaders() { return headers.iterator(); } /** * Get the first header of the given name. * * @return header -- the first header of the given name. */ public Header getHeader(String headerName) { return getHeaderLowerCase(SIPHeaderNamesCache.toLowerCase(headerName)); } protected Header getHeaderLowerCase(String lowerCaseHeaderName) { if (lowerCaseHeaderName == null) throw new NullPointerException("bad name"); SIPHeader sipHeader = (SIPHeader) headerTable.get(lowerCaseHeaderName); if (sipHeader instanceof SIPHeaderList) return (Header) ((SIPHeaderList) sipHeader).getFirst(); else return (Header) sipHeader; } /** * Get the contentType header (null if one does not exist). * * @return contentType header */ public ContentType getContentTypeHeader() { return (ContentType) getHeaderLowerCase(CONTENT_TYPE_LOWERCASE); } private static final String CONTENT_TYPE_LOWERCASE = SIPHeaderNamesCache .toLowerCase(ContentTypeHeader.NAME); /** * Get the contentLength header. */ public ContentLengthHeader getContentLengthHeader() { return this.getContentLength(); } /** * Get the from header. * * @return -- the from header. */ public FromHeader getFrom() { return (FromHeader) fromHeader; } /** * Get the ErrorInfo list of headers (null if one does not exist). * * @return List containing ErrorInfo headers. */ public ErrorInfoList getErrorInfoHeaders() { return (ErrorInfoList) getSIPHeaderListLowerCase(ERROR_LOWERCASE); } private static final String ERROR_LOWERCASE = SIPHeaderNamesCache.toLowerCase(ErrorInfo.NAME); /** * Get the Contact list of headers (null if one does not exist). * * @return List containing Contact headers. */ public ContactList getContactHeaders() { return (ContactList) this.getSIPHeaderListLowerCase(CONTACT_LOWERCASE); } private static final String CONTACT_LOWERCASE = SIPHeaderNamesCache .toLowerCase(ContactHeader.NAME); /** * Get the contact header ( the first contact header) which is all we need for the most part. * */ public Contact getContactHeader() { ContactList clist = this.getContactHeaders(); if (clist != null) { return (Contact) clist.getFirst(); } else { return null; } } /** * Get the Via list of headers (null if one does not exist). * * @return List containing Via headers. */ public ViaList getViaHeaders() { return (ViaList) getSIPHeaderListLowerCase(VIA_LOWERCASE); } private static final String VIA_LOWERCASE = SIPHeaderNamesCache.toLowerCase(ViaHeader.NAME); /** * Set A list of via headers. * * @param viaList a list of via headers to add. */ public void setVia(java.util.List viaList) { ViaList vList = new ViaList(); ListIterator it = viaList.listIterator(); while (it.hasNext()) { Via via = (Via) it.next(); vList.add(via); } this.setHeader(vList); } /** * Set the header given a list of headers. * * @param sipHeaderList a headerList to set */ public void setHeader(SIPHeaderList sipHeaderList) { this.setHeader((Header) sipHeaderList); } /** * Get the topmost via header. * * @return the top most via header if one exists or null if none exists. */ public Via getTopmostVia() { if (this.getViaHeaders() == null) return null; else return (Via) (getViaHeaders().getFirst()); } /** * Get the CSeq list of header (null if one does not exist). * * @return CSeq header */ public CSeqHeader getCSeq() { return (CSeqHeader) cSeqHeader; } /** * Get the Authorization header (null if one does not exist). * * @return Authorization header. */ public Authorization getAuthorization() { return (Authorization) getHeaderLowerCase(AUTHORIZATION_LOWERCASE); } private static final String AUTHORIZATION_LOWERCASE = SIPHeaderNamesCache .toLowerCase(AuthorizationHeader.NAME); /** * Get the MaxForwards header (null if one does not exist). * * @return Max-Forwards header */ public MaxForwardsHeader getMaxForwards() { return maxForwardsHeader; } /** * Set the max forwards header. * * @param maxForwards is the MaxForwardsHeader to set. */ public void setMaxForwards(MaxForwardsHeader maxForwards) { this.setHeader(maxForwards); } /** * Get the Route List of headers (null if one does not exist). * * @return List containing Route headers */ public RouteList getRouteHeaders() { return (RouteList) getSIPHeaderListLowerCase(ROUTE_LOWERCASE); } private static final String ROUTE_LOWERCASE = SIPHeaderNamesCache .toLowerCase(RouteHeader.NAME); /** * Get the CallID header (null if one does not exist) * * @return Call-ID header . */ public CallIdHeader getCallId() { return callIdHeader; } /** * Set the call id header. * * @param callId call idHeader (what else could it be?) */ public void setCallId(CallIdHeader callId) { this.setHeader(callId); } /** * Get the CallID header (null if one does not exist) * * @param callId -- the call identifier to be assigned to the call id header */ public void setCallId(String callId) throws java.text.ParseException { if (callIdHeader == null) { this.setHeader(new CallID()); } callIdHeader.setCallId(callId); } /** * Get the RecordRoute header list (null if one does not exist). * * @return Record-Route header */ public RecordRouteList getRecordRouteHeaders() { return (RecordRouteList) this.getSIPHeaderListLowerCase(RECORDROUTE_LOWERCASE); } private static final String RECORDROUTE_LOWERCASE = SIPHeaderNamesCache .toLowerCase(RecordRouteHeader.NAME); /** * Get the To header (null if one does not exist). * * @return To header */ public ToHeader getTo() { return (ToHeader) toHeader; } public void setTo(ToHeader to) { this.setHeader(to); } public void setFrom(FromHeader from) { this.setHeader(from); } /** * Get the ContentLength header (null if one does not exist). * * @return content-length header. */ public ContentLengthHeader getContentLength() { return this.contentLengthHeader; } /** * Get the message body as a string. If the message contains a content type header with a * specified charset, and if the payload has been read as a byte array, then it is returned * encoded into this charset. * * @return Message body (as a string) * @throws UnsupportedEncodingException if the platform does not support the charset specified * in the content type header. * */ public String getMessageContent() throws UnsupportedEncodingException { if (this.messageContent == null && this.messageContentBytes == null) return null; else if (this.messageContent == null) { this.messageContent = new String(messageContentBytes, getCharset() ); } return this.messageContent; } /** * Get the message content as an array of bytes. If the payload has been read as a String then * it is decoded using the charset specified in the content type header if it exists. * Otherwise, it is encoded using the default encoding which is UTF-8. * * @return an array of bytes that is the message payload. */ public byte[] getRawContent() { try { if ( this.messageContentBytes != null ) { // return messageContentBytes; } else if (this.messageContentObject != null) { String messageContent = this.messageContentObject.toString(); this.messageContentBytes = messageContent.getBytes( getCharset() ); } else if (this.messageContent != null) { this.messageContentBytes = messageContent.getBytes( getCharset() ); } return this.messageContentBytes; } catch (UnsupportedEncodingException ex) { InternalErrorHandler.handleException(ex); return null; } } /** * Set the message content given type and subtype. * * @param type is the message type (eg. application) * @param subType is the message sybtype (eg. sdp) * @param messageContent is the messge content as a string. */ public void setMessageContent(String type, String subType, String messageContent) { if (messageContent == null) throw new IllegalArgumentException("messgeContent is null"); ContentType ct = new ContentType(type, subType); this.setHeader(ct); this.messageContent = messageContent; this.messageContentBytes = null; this.messageContentObject = null; // Could be double byte so we need to compute length // after converting to byte[] computeContentLength(messageContent); } /** * Set the message content after converting the given object to a String. * * @param content -- content to set. * @param contentTypeHeader -- content type header corresponding to content. */ public void setContent(Object content, ContentTypeHeader contentTypeHeader) throws ParseException { if (content == null) throw new NullPointerException("null content"); this.setHeader(contentTypeHeader); this.messageContent = null; this.messageContentBytes = null; this.messageContentObject = null; if (content instanceof String) { this.messageContent = (String) content; } else if (content instanceof byte[]) { this.messageContentBytes = (byte[]) content; } else this.messageContentObject = content; computeContentLength(content); } /** * Get the content (body) of the message. * * @return the content of the sip message. */ public Object getContent() { if (this.messageContentObject != null) return messageContentObject; else if (this.messageContent != null) return this.messageContent; else if (this.messageContentBytes != null) return this.messageContentBytes; else return null; } /** * Set the message content for a given type and subtype. * * @param type is the messge type. * @param subType is the message subType. * @param messageContent is the message content as a byte array. */ public void setMessageContent(String type, String subType, byte[] messageContent) { ContentType ct = new ContentType(type, subType); this.setHeader(ct); this.setMessageContent(messageContent); computeContentLength(messageContent); } /** * Set the message content for this message. * * @param content Message body as a string. */ public void setMessageContent(byte[] content, boolean strict, boolean computeContentLength, int givenLength) throws ParseException { // Note that that this could be a double byte character // set - bug report by Masafumi Watanabe computeContentLength(content); if ((!computeContentLength)) { if ( (!strict && this.contentLengthHeader.getContentLength() != givenLength) || this.contentLengthHeader.getContentLength() < givenLength) { throw new ParseException("Invalid content length " + this.contentLengthHeader.getContentLength() + " / " + givenLength, 0); } } messageContent = null; messageContentBytes = content; messageContentObject = null; } /** * Set the message content as an array of bytes. * * @param content is the content of the message as an array of bytes. */ public void setMessageContent(byte[] content) { computeContentLength(content); messageContentBytes = content; messageContent = null; messageContentObject = null; } /** * Method to set the content - called by the parser * * @param content * @throws ParseException */ public void setMessageContent(byte[] content, boolean computeContentLength, int givenLength) throws ParseException { computeContentLength(content); if ((!computeContentLength) && this.contentLengthHeader.getContentLength() < givenLength) { // System.out.println("!!!!!!!!!!! MISMATCH !!!!!!!!!!!"); throw new ParseException("Invalid content length " + this.contentLengthHeader.getContentLength() + " / " + givenLength, 0); } messageContentBytes = content; messageContent = null; messageContentObject = null; } /** * Compute and set the Content-length header based on the given content object. * * @param content is the content, as String, array of bytes, or other object. */ private void computeContentLength(Object content) { int length = 0; if (content != null) { if (content instanceof String) { try { length = ((String) content).getBytes( getCharset() ).length; } catch (UnsupportedEncodingException ex) { InternalErrorHandler.handleException(ex); } } else if (content instanceof byte[]) { length = ((byte[]) content).length; } else { length = content.toString().length(); } } try { contentLengthHeader.setContentLength(length); } catch (InvalidArgumentException e) { // Cannot happen. } } /** * Remove the message content if it exists. */ public void removeContent() { messageContent = null; messageContentBytes = null; messageContentObject = null; try { this.contentLengthHeader.setContentLength(0); } catch (InvalidArgumentException ex) { } } /** * Get a SIP header or Header list given its name. * * @param headerName is the name of the header to get. * @return a header or header list that contians the retrieved header. */ @SuppressWarnings("unchecked") public ListIterator getHeaders(String headerName) { if (headerName == null) throw new NullPointerException("null headerName"); SIPHeader sipHeader = (SIPHeader) headerTable.get(SIPHeaderNamesCache .toLowerCase(headerName)); // empty iterator if (sipHeader == null) return new LinkedList().listIterator(); if (sipHeader instanceof SIPHeaderList) { return ((SIPHeaderList) sipHeader).listIterator(); } else { return new HeaderIterator(this, sipHeader); } } /** * Get a header of the given name as a string. This concatenates the headers of a given type * as a comma separted list. This is useful for formatting and printing headers. * * @param name * @return the header as a formatted string */ public String getHeaderAsFormattedString(String name) { String lowerCaseName = SIPHeaderNamesCache.toLowerCase(name); if (this.headerTable.containsKey(lowerCaseName)) { return this.headerTable.get(lowerCaseName).toString(); } else { return this.getHeader(name).toString(); } } public SIPHeader getSIPHeaderListLowerCase(String lowerCaseHeaderName) { return headerTable.get(lowerCaseHeaderName); } /** * Get a list of headers of the given name ( or null if no such header exists ). * * @param headerName -- a header name from which to retrieve the list. * @return -- a list of headers with that name. */ @SuppressWarnings("unchecked") private List getHeaderList(String headerName) { SIPHeader sipHeader = (SIPHeader) headerTable.get(SIPHeaderNamesCache .toLowerCase(headerName)); if (sipHeader == null) return null; else if (sipHeader instanceof SIPHeaderList) return (List) (((SIPHeaderList< ? >) sipHeader).getHeaderList()); else { LinkedList ll = new LinkedList(); ll.add(sipHeader); return ll; } } /** * Return true if the SIPMessage has a header of the given name. * * @param headerName is the header name for which we are testing. * @return true if the header is present in the message */ public boolean hasHeader(String headerName) { return headerTable.containsKey(SIPHeaderNamesCache.toLowerCase(headerName)); } /** * Return true if the message has a From header tag. * * @return true if the message has a from header and that header has a tag. */ public boolean hasFromTag() { return fromHeader != null && fromHeader.getTag() != null; } /** * Return true if the message has a To header tag. * * @return true if the message has a to header and that header has a tag. */ public boolean hasToTag() { return toHeader != null && toHeader.getTag() != null; } /** * Return the from tag. * * @return the tag from the from header. * */ public String getFromTag() { return fromHeader == null ? null : fromHeader.getTag(); } /** * Set the From Tag. * * @param tag -- tag to set in the from header. */ public void setFromTag(String tag) { try { fromHeader.setTag(tag); } catch (ParseException e) { } } /** * Set the to tag. * * @param tag -- tag to set. */ public void setToTag(String tag) { try { toHeader.setTag(tag); } catch (ParseException e) { } } /** * Return the to tag. */ public String getToTag() { return toHeader == null ? null : toHeader.getTag(); } /** * Return the encoded first line. */ public abstract String getFirstLine(); /** * Add a SIP header. * * @param sipHeader -- sip header to add. */ public void addHeader(Header sipHeader) { // Content length is never stored. Just computed. SIPHeader sh = (SIPHeader) sipHeader; try { if ((sipHeader instanceof ViaHeader) || (sipHeader instanceof RecordRouteHeader)) { attachHeader(sh, false, true); } else { attachHeader(sh, false, false); } } catch (SIPDuplicateHeaderException ex) { try { if (sipHeader instanceof ContentLength) { ContentLength cl = (ContentLength) sipHeader; contentLengthHeader.setContentLength(cl.getContentLength()); } } catch (InvalidArgumentException e) { } } } /** * Add a header to the unparsed list of headers. * * @param unparsed -- unparsed header to add to the list. */ public void addUnparsed(String unparsed) { this.getUnrecognizedHeadersList().add(unparsed); } /** * Add a SIP header. * * @param sipHeader -- string version of SIP header to add. */ public void addHeader(String sipHeader) { try { HeaderParser parser = ParserFactory.createParser(sipHeader + "\n"); SIPHeader sh = parser.parse(); this.attachHeader(sh, false); } catch (ParseException ex) { this.getUnrecognizedHeadersList().add(sipHeader); } } /** * Get a list containing the unrecognized headers. * * @return a linked list containing unrecongnized headers. */ public ListIterator getUnrecognizedHeaders() { return this.getUnrecognizedHeadersList().listIterator(); } /** * Get the header names. * * @return a list iterator to a list of header names. These are ordered in the same order as * are present in the message. */ public ListIterator getHeaderNames() { Iterator li = this.headers.iterator(); LinkedList retval = new LinkedList(); while (li.hasNext()) { SIPHeader sipHeader = (SIPHeader) li.next(); String name = sipHeader.getName(); retval.add(name); } return retval.listIterator(); } /** * Compare for equality. * * @param other -- the other object to compare with. */ public boolean equals(Object other) { if (!other.getClass().equals(this.getClass())) { return false; } SIPMessage otherMessage = (SIPMessage) other; Collection values = this.headerTable.values(); Iterator it = values.iterator(); if (headerTable.size() != otherMessage.headerTable.size()) { return false; } while (it.hasNext()) { SIPHeader mine = (SIPHeader) it.next(); SIPHeader his = (SIPHeader) (otherMessage.headerTable.get(SIPHeaderNamesCache .toLowerCase(mine.getName()))); if (his == null) { return false; } else if (!his.equals(mine)) { return false; } } return true; } /** * get content disposition header or null if no such header exists. * * @return the contentDisposition header */ public javax.sip.header.ContentDispositionHeader getContentDisposition() { return (ContentDispositionHeader) getHeaderLowerCase(CONTENT_DISPOSITION_LOWERCASE); } private static final String CONTENT_DISPOSITION_LOWERCASE = SIPHeaderNamesCache .toLowerCase(ContentDispositionHeader.NAME); /** * get the content encoding header. * * @return the contentEncoding header. */ public javax.sip.header.ContentEncodingHeader getContentEncoding() { return (ContentEncodingHeader) getHeaderLowerCase(CONTENT_ENCODING_LOWERCASE); } private static final String CONTENT_ENCODING_LOWERCASE = SIPHeaderNamesCache .toLowerCase(ContentEncodingHeader.NAME); /** * Get the contentLanguage header. * * @return the content language header. */ public javax.sip.header.ContentLanguageHeader getContentLanguage() { return (ContentLanguageHeader) getHeaderLowerCase(CONTENT_LANGUAGE_LOWERCASE); } private static final String CONTENT_LANGUAGE_LOWERCASE = SIPHeaderNamesCache .toLowerCase(ContentLanguageHeader.NAME); /** * Get the exipres header. * * @return the expires header or null if one does not exist. */ public javax.sip.header.ExpiresHeader getExpires() { return (ExpiresHeader) getHeaderLowerCase(EXPIRES_LOWERCASE); } private static final String EXPIRES_LOWERCASE = SIPHeaderNamesCache .toLowerCase(ExpiresHeader.NAME); /** * Set the expiresHeader * * @param expiresHeader -- the expires header to set. */ public void setExpires(ExpiresHeader expiresHeader) { this.setHeader(expiresHeader); } /** * Set the content disposition header. * * @param contentDispositionHeader -- content disposition header. */ public void setContentDisposition(ContentDispositionHeader contentDispositionHeader) { this.setHeader(contentDispositionHeader); } public void setContentEncoding(ContentEncodingHeader contentEncodingHeader) { this.setHeader(contentEncodingHeader); } public void setContentLanguage(ContentLanguageHeader contentLanguageHeader) { this.setHeader(contentLanguageHeader); } /** * Set the content length header. * * @param contentLength -- content length header. */ public void setContentLength(ContentLengthHeader contentLength) { try { this.contentLengthHeader.setContentLength(contentLength.getContentLength()); } catch (InvalidArgumentException ex) { } } /** * Set the size of all the headers. This is for book keeping. Called by the parser. * * @param size -- size of the headers. */ public void setSize(int size) { this.size = size; } public int getSize() { return this.size; } /* * (non-Javadoc) * * @see javax.sip.message.Message#addLast(javax.sip.header.Header) */ public void addLast(Header header) throws SipException, NullPointerException { if (header == null) throw new NullPointerException("null arg!"); try { this.attachHeader((SIPHeader) header, false, false); } catch (SIPDuplicateHeaderException ex) { throw new SipException("Cannot add header - header already exists"); } } /* * (non-Javadoc) * * @see javax.sip.message.Message#addFirst(javax.sip.header.Header) */ public void addFirst(Header header) throws SipException, NullPointerException { if (header == null) throw new NullPointerException("null arg!"); try { this.attachHeader((SIPHeader) header, false, true); } catch (SIPDuplicateHeaderException ex) { throw new SipException("Cannot add header - header already exists"); } } /* * (non-Javadoc) * * @see javax.sip.message.Message#removeFirst(java.lang.String) */ public void removeFirst(String headerName) throws NullPointerException { if (headerName == null) throw new NullPointerException("Null argument Provided!"); this.removeHeader(headerName, true); } /* * (non-Javadoc) * * @see javax.sip.message.Message#removeLast(java.lang.String) */ public void removeLast(String headerName) { if (headerName == null) throw new NullPointerException("Null argument Provided!"); this.removeHeader(headerName, false); } /** * Set the CSeq header. * * @param cseqHeader -- CSeq Header. */ public void setCSeq(CSeqHeader cseqHeader) { this.setHeader(cseqHeader); } /** * Set the application data pointer. This method is not used the stack. It is provided as a * convenient way of storing book-keeping data for applications. Note that null clears the * application data pointer (releases it). * * @param applicationData -- application data pointer to set. null clears the application data * pointer. */ public void setApplicationData(Object applicationData) { this.applicationData = applicationData; } /** * Get the application data associated with this message. * * @return stored application data. */ public Object getApplicationData() { return this.applicationData; } /** * Get the multipart MIME content * */ public MultipartMimeContent getMultipartMimeContent() throws ParseException { if (this.contentLengthHeader.getContentLength() == 0) { return null; } MultipartMimeContentImpl retval = new MultipartMimeContentImpl(this .getContentTypeHeader()); byte[] rawContent = getRawContent(); try { String body = new String( rawContent, getCharset() ); retval.createContentList(body); return retval; } catch (UnsupportedEncodingException e) { InternalErrorHandler.handleException(e); return null; } } public CallIdHeader getCallIdHeader() { return this.callIdHeader; } public FromHeader getFromHeader() { return this.fromHeader; } public ToHeader getToHeader() { return this.toHeader; } public ViaHeader getTopmostViaHeader() { return this.getTopmostVia(); } public CSeqHeader getCSeqHeader() { return this.cSeqHeader; } /** * Returns the charset to use for encoding/decoding the body of this message */ protected final String getCharset() { ContentType ct = getContentTypeHeader(); if (ct!=null) { String c = ct.getCharset(); return c!=null ? c : contentEncodingCharset; } else return contentEncodingCharset; } /** * Return true if this is a null request (i.e. does not have a request line ). * * @return true if null request. */ public boolean isNullRequest() { return this.nullRequest; } /** * Set a flag to indiate this is a special message ( encoded with CRLFCRLF ). * */ public void setNullRequest() { this.nullRequest = true; } public String getForkId() { if ( this.forkId != null ) { return forkId; } else { String callId = this.getCallId().getCallId(); String fromTag = this.getFromTag(); if ( fromTag == null ) { throw new IllegalStateException("From tag is not yet set. Cannot compute forkId"); } this.forkId = (callId + ":" + fromTag).toLowerCase(); return this.forkId; } } public abstract void setSIPVersion(String sipVersion) throws ParseException; public abstract String getSIPVersion(); public abstract String toString(); public void cleanUp() { // callIdHeader = null; // contentEncodingCharset = null; // contentLengthHeader = null; // cSeqHeader = null; // forkId = null; // fromHeader = null; // if(headers != null) { // headers.clear(); // headers = null; // } // matchExpression = null; // maxForwardsHeader = null; // messageContent = null; // messageContentBytes = null; // messageContentObject = null; // if(nameTable != null) { // nameTable.clear(); // nameTable = null; // } // stringRepresentation = null; // toHeader = null; // if(unrecognizedHeaders != null) { // unrecognizedHeaders.clear(); // unrecognizedHeaders = null; // } } /** * @param unrecognizedHeaders the unrecognizedHeaders to set */ protected void setUnrecognizedHeadersList(LinkedList unrecognizedHeaders) { this.unrecognizedHeaders = unrecognizedHeaders; } /** * @return the unrecognizedHeaders */ protected LinkedList getUnrecognizedHeadersList() { if(unrecognizedHeaders == null) { unrecognizedHeaders = new LinkedList(); } return unrecognizedHeaders; } public void setRemoteAddress(InetAddress remoteAddress) { this.remoteAddress = remoteAddress; } public InetAddress getRemoteAddress() { return remoteAddress; } public void setRemotePort(int remotePort) { this.remotePort = remotePort; } public int getRemotePort() { return remotePort; } public void setLocalAddress(InetAddress localAddress) { this.localAddress = localAddress; } public InetAddress getLocalAddress() { return localAddress; } public void setLocalPort(int localPort) { this.localPort = localPort; } public int getLocalPort() { return localPort; } public void setPeerPacketSourceAddress(InetAddress peerPacketSourceAddress) { this.peerPacketSourceAddress = peerPacketSourceAddress; } public InetAddress getPeerPacketSourceAddress(){ return this.peerPacketSourceAddress; } public void setPeerPacketSourcePort(int peerPacketSourcePort) { this.peerPacketSourcePort = peerPacketSourcePort; } public int getPeerPacketSourcePort(){ return this.peerPacketSourcePort; } }




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