/** Patch up the request line as necessary. */
 protected void setRequestLineDefaults() {
   String method = requestLine.getMethod();
   if (method == null) {
     CSeq cseq = (CSeq) this.getCSeq();
     if (cseq != null) {
       method = getCannonicalName(cseq.getMethod());
       requestLine.setMethod(method);
     }
   }
 }
 /**
  * Get the message as a linked list of strings. Use this if you want to iterate through the
  * message.
  *
  * @return a linked list containing the request line and headers encoded as strings.
  */
 public LinkedList getMessageAsEncodedStrings() {
   LinkedList retval = super.getMessageAsEncodedStrings();
   if (requestLine != null) {
     this.setRequestLineDefaults();
     retval.addFirst(requestLine.encode());
   }
   return retval;
 }
 /**
  * Match with a template. You can use this if you want to match incoming messages with a pattern
  * and do something when you find a match. This is useful for building filters/pattern matching
  * responders etc.
  *
  * @param matchObj object to match ourselves with (null matches wildcard)
  */
 public boolean match(Object matchObj) {
   if (matchObj == null) return true;
   else if (!matchObj.getClass().equals(this.getClass())) return false;
   else if (matchObj == this) return true;
   SIPRequest that = (SIPRequest) matchObj;
   RequestLine rline = that.requestLine;
   if (this.requestLine == null && rline != null) return false;
   else if (this.requestLine == rline) return super.match(matchObj);
   return requestLine.match(that.requestLine) && super.match(matchObj);
 }
 /** Encode only the headers and not the content. */
 public String encodeMessage() {
   String retval;
   if (requestLine != null) {
     this.setRequestLineDefaults();
     retval = requestLine.encode() + super.encodeSIPHeaders();
   } else if (this.isNullRequest()) {
     retval = "\r\n\r\n";
   } else retval = super.encodeSIPHeaders();
   return retval;
 }
 /**
  * Convert to a formatted string for pretty printing. Note that the encode method converts this
  * into a sip message that is suitable for transmission. Note hack here if you want to convert the
  * nice curly brackets into some grotesque XML tag.
  *
  * @return a string which can be used to examine the message contents.
  */
 public String debugDump() {
   String superstring = super.debugDump();
   stringRepresentation = "";
   sprint(SIPRequest.class.getName());
   sprint("{");
   if (requestLine != null) sprint(requestLine.debugDump());
   sprint(superstring);
   sprint("}");
   return stringRepresentation;
 }
 /** Set the default values in the request URI if necessary. */
 protected void setDefaults() {
   // The request line may be unparseable (set to null by the
   // exception handler.
   if (requestLine == null) return;
   String method = requestLine.getMethod();
   // The requestLine may be malformed!
   if (method == null) return;
   GenericURI u = (GenericURI) requestLine.getUri();
   if (u == null) return;
   if (method.compareTo(Request.REGISTER) == 0 || method.compareTo(Request.INVITE) == 0) {
     if (u instanceof SipUri) {
       SipUri sipUri = (SipUri) u;
       sipUri.setUserParam(DEFAULT_USER);
       try {
         sipUri.setTransportParam(DEFAULT_TRANSPORT);
       } catch (ParseException ex) {
       }
     }
   }
 }
  /**
   * Encode this into a byte array. This is used when the body has been set as a binary array and
   * you want to encode the body as a byte array for transmission.
   *
   * @return a byte array containing the SIPRequest encoded as a byte array.
   */
  public byte[] encodeAsBytes(String transport) {
    if (this.isNullRequest()) {
      // Encoding a null message for keepalive.
      return "\r\n\r\n".getBytes();
    } else if (this.requestLine == null) {
      return new byte[0];
    }

    byte[] rlbytes = null;
    if (requestLine != null) {
      try {
        rlbytes = requestLine.encode().getBytes("UTF-8");
      } catch (UnsupportedEncodingException ex) {
        InternalErrorHandler.handleException(ex);
      }
    }
    byte[] superbytes = super.encodeAsBytes(transport);
    byte[] retval = new byte[rlbytes.length + superbytes.length];
    System.arraycopy(rlbytes, 0, retval, 0, rlbytes.length);
    System.arraycopy(superbytes, 0, retval, rlbytes.length, superbytes.length);
    return retval;
  }
 /**
  * Create an ACK request from this request. This is suitable for generating an ACK for an INVITE
  * client transaction.
  *
  * @return an ACK request that is generated from this request.
  */
 public SIPRequest createACKRequest() {
   RequestLine requestLine = (RequestLine) this.requestLine.clone();
   requestLine.setMethod(Request.ACK);
   return this.createSIPRequest(requestLine, false);
 }
 /**
  * Create a BYE request from this request.
  *
  * @param switchHeaders is a boolean flag that causes from and isServerTransaction to headers to
  *     be swapped. Set this to true if you are the server of the dialog and are generating a BYE
  *     request for the dialog.
  * @return a new default BYE request.
  */
 public SIPRequest createBYERequest(boolean switchHeaders) {
   RequestLine requestLine = (RequestLine) this.requestLine.clone();
   requestLine.setMethod("BYE");
   return this.createSIPRequest(requestLine, switchHeaders);
 }
 /**
  * Create a new default SIPRequest from the original request. Warning: the newly created
  * SIPRequest, shares the headers of this request but we generate any new headers that we need to
  * modify so the original request is umodified. However, if you modify the shared headers after
  * this request is created, then the newly created request will also be modified. If you want to
  * modify the original request without affecting the returned Request make sure you clone it
  * before calling this method.
  *
  * <p>Only required headers are copied.
  *
  * <ul>
  *   <li>Contact headers are not included in the newly created request. Setting the appropriate
  *       sequence number is the responsibility of the caller.
  *   <li>RouteList is not copied for ACK and CANCEL
  *   <li>Note that we DO NOT copy the body of the argument into the returned header. We do not
  *       copy the content type header from the original request either. These have to be added
  *       seperately and the content length has to be correctly set if necessary the content length
  *       is set to 0 in the returned header.
  *   <li>Contact List is not copied from the original request.
  *   <li>RecordRoute List is not included from original request.
  *   <li>Via header is not included from the original request.
  * </ul>
  *
  * @param requestLine is the new request line.
  * @param switchHeaders is a boolean flag that causes to and from headers to switch (set this to
  *     true if you are the server of the transaction and are generating a BYE request). If the
  *     headers are switched, we generate new From and To headers otherwise we just use the
  *     incoming headers.
  * @return a new Default SIP Request which has the requestLine specified.
  */
 public SIPRequest createSIPRequest(RequestLine requestLine, boolean switchHeaders) {
   SIPRequest newRequest = new SIPRequest();
   newRequest.requestLine = requestLine;
   Iterator headerIterator = this.getHeaders();
   while (headerIterator.hasNext()) {
     SIPHeader nextHeader = (SIPHeader) headerIterator.next();
     // For BYE and cancel set the CSeq header to the
     // appropriate method.
     if (nextHeader instanceof CSeq) {
       CSeq newCseq = (CSeq) nextHeader.clone();
       nextHeader = newCseq;
       try {
         newCseq.setMethod(requestLine.getMethod());
       } catch (ParseException e) {
       }
     } else if (nextHeader instanceof ViaList) {
       Via via = (Via) (((ViaList) nextHeader).getFirst().clone());
       via.removeParameter("branch");
       nextHeader = via;
       // Cancel and ACK preserve the branch ID.
     } else if (nextHeader instanceof To) {
       To to = (To) nextHeader;
       if (switchHeaders) {
         nextHeader = new From(to);
         ((From) nextHeader).removeTag();
       } else {
         nextHeader = (SIPHeader) to.clone();
         ((To) nextHeader).removeTag();
       }
     } else if (nextHeader instanceof From) {
       From from = (From) nextHeader;
       if (switchHeaders) {
         nextHeader = new To(from);
         ((To) nextHeader).removeTag();
       } else {
         nextHeader = (SIPHeader) from.clone();
         ((From) nextHeader).removeTag();
       }
     } else if (nextHeader instanceof ContentLength) {
       ContentLength cl = (ContentLength) nextHeader.clone();
       try {
         cl.setContentLength(0);
       } catch (InvalidArgumentException e) {
       }
       nextHeader = cl;
     } else if (!(nextHeader instanceof CallID) && !(nextHeader instanceof MaxForwards)) {
       // Route is kept by dialog.
       // RR is added by the caller.
       // Contact is added by the Caller
       // Any extension headers must be added
       // by the caller.
       continue;
     }
     try {
       newRequest.attachHeader(nextHeader, false);
     } catch (SIPDuplicateHeaderException e) {
       e.printStackTrace();
     }
   }
   if (MessageFactoryImpl.getDefaultUserAgentHeader() != null) {
     newRequest.setHeader(MessageFactoryImpl.getDefaultUserAgentHeader());
   }
   return newRequest;
 }
  /**
   * Compare for equality.
   *
   * @param other object to compare ourselves with.
   */
  public boolean equals(Object other) {
    if (!this.getClass().equals(other.getClass())) return false;
    SIPRequest that = (SIPRequest) other;

    return requestLine.equals(that.requestLine) && super.equals(other);
  }
 /**
  * Get the method from the request line.
  *
  * @return the method from the request line if the method exits and null if the request line or
  *     the method does not exist.
  */
 public String getMethod() {
   if (requestLine == null) return null;
   else return requestLine.getMethod();
 }
  /**
   * Check header for constraints. (1) Invite options and bye requests can only have SIP URIs in the
   * contact headers. (2) Request must have cseq, to and from and via headers. (3) Method in request
   * URI must match that in CSEQ.
   */
  public void checkHeaders() throws ParseException {
    String prefix = "Missing a required header : ";

    /* Check for required headers */

    if (getCSeq() == null) {
      throw new ParseException(prefix + CSeqHeader.NAME, 0);
    }
    if (getTo() == null) {
      throw new ParseException(prefix + ToHeader.NAME, 0);
    }

    if (this.callIdHeader == null
        || this.callIdHeader.getCallId() == null
        || callIdHeader.getCallId().equals("")) {
      throw new ParseException(prefix + CallIdHeader.NAME, 0);
    }
    if (getFrom() == null) {
      throw new ParseException(prefix + FromHeader.NAME, 0);
    }
    if (getViaHeaders() == null) {
      throw new ParseException(prefix + ViaHeader.NAME, 0);
    }
    if (getMaxForwards() == null) {
      throw new ParseException(prefix + MaxForwardsHeader.NAME, 0);
    }

    if (getTopmostVia() == null) throw new ParseException("No via header in request! ", 0);

    if (getMethod().equals(Request.NOTIFY)) {
      if (getHeader(SubscriptionStateHeader.NAME) == null)
        throw new ParseException(prefix + SubscriptionStateHeader.NAME, 0);

      if (getHeader(EventHeader.NAME) == null)
        throw new ParseException(prefix + EventHeader.NAME, 0);

    } else if (getMethod().equals(Request.PUBLISH)) {
      /*
       * For determining the type of the published event state, the EPA MUST include a
       * single Event header field in PUBLISH requests. The value of this header field
       * indicates the event package for which this request is publishing event state.
       */
      if (getHeader(EventHeader.NAME) == null)
        throw new ParseException(prefix + EventHeader.NAME, 0);
    }

    /*
     * RFC 3261 8.1.1.8 The Contact header field MUST be present and contain exactly one SIP
     * or SIPS URI in any request that can result in the establishment of a dialog. For the
     * methods defined in this specification, that includes only the INVITE request. For these
     * requests, the scope of the Contact is global. That is, the Contact header field value
     * contains the URI at which the UA would like to receive requests, and this URI MUST be
     * valid even if used in subsequent requests outside of any dialogs.
     *
     * If the Request-URI or top Route header field value contains a SIPS URI, the Contact
     * header field MUST contain a SIPS URI as well.
     */
    if (requestLine.getMethod().equals(Request.INVITE)
        || requestLine.getMethod().equals(Request.SUBSCRIBE)
        || requestLine.getMethod().equals(Request.REFER)) {
      if (this.getContactHeader() == null) {
        // Make sure this is not a target refresh. If this is a target
        // refresh its ok not to have a contact header. Otherwise
        // contact header is mandatory.
        if (this.getToTag() == null) throw new ParseException(prefix + ContactHeader.NAME, 0);
      }

      if (requestLine.getUri() instanceof SipUri) {
        String scheme = ((SipUri) requestLine.getUri()).getScheme();
        if ("sips".equalsIgnoreCase(scheme)) {
          SipUri sipUri = (SipUri) this.getContactHeader().getAddress().getURI();
          if (!sipUri.getScheme().equals("sips")) {
            throw new ParseException("Scheme for contact should be sips:" + sipUri, 0);
          }
        }
      }
    }

    /*
     * Contact header is mandatory for a SIP INVITE request.
     */
    if (this.getContactHeader() == null
        && (this.getMethod().equals(Request.INVITE)
            || this.getMethod().equals(Request.REFER)
            || this.getMethod().equals(Request.SUBSCRIBE))) {
      throw new ParseException("Contact Header is Mandatory for a SIP INVITE", 0);
    }

    if (requestLine != null
        && requestLine.getMethod() != null
        && getCSeq().getMethod() != null
        && requestLine.getMethod().compareTo(getCSeq().getMethod()) != 0) {
      throw new ParseException("CSEQ method mismatch with  Request-Line ", 0);
    }
  }
Esempio n. 14
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  /**
   * Return addresses for default proxy to forward the request to. The list is organized in the
   * following priority. If the requestURI refers directly to a host, the host and port information
   * are extracted from it and made the next hop on the list. If the default route has been
   * specified, then it is used to construct the next element of the list. <code>
   * RouteHeader firstRoute = (RouteHeader) req.getHeader( RouteHeader.NAME );
   * if (firstRoute!=null) {
   *   URI uri = firstRoute.getAddress().getURI();
   *    if (uri.isSIPUri()) {
   *       SipURI nextHop = (SipURI) uri;
   *       if ( nextHop.hasLrParam() ) {
   *           // OK, use it
   *       } else {
   *           nextHop = fixStrictRouting( req );        <--- Here, make the modifications as per RFC3261
   *       }
   *   } else {
   *       // error: non-SIP URI not allowed in Route headers
   *       throw new SipException( "Request has Route header with non-SIP URI" );
   *   }
   * } else if (outboundProxy!=null) {
   *   // use outbound proxy for nextHop
   * } else if ( req.getRequestURI().isSipURI() ) {
   *   // use request URI for nextHop
   * }
   *
   * </code>
   *
   * @param request is the sip request to route.
   */
  public Hop getNextHop(Request request) throws SipException {

    SIPRequest sipRequest = (SIPRequest) request;

    RequestLine requestLine = sipRequest.getRequestLine();
    if (requestLine == null) {
      return defaultRoute;
    }
    javax.sip.address.URI requestURI = requestLine.getUri();
    if (requestURI == null) throw new IllegalArgumentException("Bad message: Null requestURI");

    RouteList routes = sipRequest.getRouteHeaders();

    /*
     * In case the topmost Route header contains no 'lr' parameter (which
     * means the next hop is a strict router), the implementation will
     * perform 'Route Information Postprocessing' as described in RFC3261
     * section 16.6 step 6 (also known as "Route header popping"). That is,
     * the following modifications will be made to the request:
     *
     * The implementation places the Request-URI into the Route header field
     * as the last value.
     *
     * The implementation then places the first Route header field value
     * into the Request-URI and removes that value from the Route header
     * field.
     *
     * Subsequently, the request URI will be used as next hop target
     */

    if (routes != null) {

      // to send the request through a specified hop the application is
      // supposed to prepend the appropriate Route header which.
      Route route = (Route) routes.getFirst();
      URI uri = route.getAddress().getURI();
      if (uri.isSipURI()) {
        SipURI sipUri = (SipURI) uri;
        if (!sipUri.hasLrParam()) {

          fixStrictRouting(sipRequest);
          if (sipStack.isLoggingEnabled())
            sipStack.getStackLogger().logDebug("Route post processing fixed strict routing");
        }

        Hop hop = createHop(sipUri, request);
        if (sipStack.isLoggingEnabled())
          sipStack.getStackLogger().logDebug("NextHop based on Route:" + hop);
        return hop;
      } else {
        throw new SipException("First Route not a SIP URI");
      }

    } else if (requestURI.isSipURI() && ((SipURI) requestURI).getMAddrParam() != null) {
      Hop hop = createHop((SipURI) requestURI, request);
      if (sipStack.isLoggingEnabled())
        sipStack
            .getStackLogger()
            .logDebug("Using request URI maddr to route the request = " + hop.toString());

      // JvB: don't remove it!
      // ((SipURI) requestURI).removeParameter("maddr");

      return hop;

    } else if (defaultRoute != null) {
      if (sipStack.isLoggingEnabled())
        sipStack
            .getStackLogger()
            .logDebug("Using outbound proxy to route the request = " + defaultRoute.toString());
      return defaultRoute;
    } else if (requestURI.isSipURI()) {
      Hop hop = createHop((SipURI) requestURI, request);
      if (hop != null && sipStack.isLoggingEnabled())
        sipStack.getStackLogger().logDebug("Used request-URI for nextHop = " + hop.toString());
      else if (sipStack.isLoggingEnabled()) {
        sipStack.getStackLogger().logDebug("returning null hop -- loop detected");
      }
      return hop;

    } else {
      // The internal router should never be consulted for non-sip URIs.
      InternalErrorHandler.handleException(
          "Unexpected non-sip URI", this.sipStack.getStackLogger());
      return null;
    }
  }