/**
* Send a message to a specified receiver address.
*
* @param msg string to send.
* @param peerAddress Address of the place to send it to.
* @param peerPort the port to send it to.
* @throws IOException If there is trouble sending this message.
*/
protected void sendMessage(byte[] msg, InetAddress peerAddress, int peerPort, boolean reConnect)
throws IOException {
// Via is not included in the request so silently drop the reply.
if (sipStack.isLoggingEnabled() && this.sipStack.isLogStackTraceOnMessageSend()) {
this.sipStack.getStackLogger().logStackTrace(StackLogger.TRACE_INFO);
}
if (peerPort == -1) {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack
.getStackLogger()
.logDebug(getClass().getName() + ":sendMessage: Dropping reply!");
}
throw new IOException("Receiver port not set ");
} else {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack
.getStackLogger()
.logDebug(
"sendMessage "
+ peerAddress.getHostAddress()
+ "/"
+ peerPort
+ "\n"
+ "messageSize = "
+ msg.length
+ " message = "
+ new String(msg));
this.sipStack.getStackLogger().logDebug("*******************\n");
}
}
DatagramPacket reply = new DatagramPacket(msg, msg.length, peerAddress, peerPort);
try {
DatagramSocket sock;
boolean created = false;
if (sipStack.udpFlag) {
// Use the socket from the message processor (for firewall
// support use the same socket as the message processor
// socket -- feature request # 18 from java.net). This also
// makes the whole thing run faster!
sock = ((UDPMessageProcessor) messageProcessor).sock;
// Bind the socket to the stack address in case there
// are multiple interfaces on the machine (feature reqeust
// by Will Scullin) 0 binds to an ephemeral port.
// sock = new DatagramSocket(0,sipStack.stackInetAddress);
} else {
// bind to any interface and port.
sock = new DatagramSocket();
created = true;
}
sock.send(reply);
if (created) sock.close();
} catch (IOException ex) {
throw ex;
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
}
}
/**
* Clone - do a deep copy.
*
* @return Object AcceptContactHeader
*/
public Object clone() {
try {
AcceptContactHeader retval = (AcceptContactHeader) this.getClass().newInstance();
if (this.parameters != null) retval.parameters = (NameValueList) parameters.clone();
return retval;
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
return null;
}
}
/**
* 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) {
byte[] slbytes = null;
if (statusLine != null) {
try {
slbytes = statusLine.encode().getBytes("UTF-8");
} catch (UnsupportedEncodingException ex) {
InternalErrorHandler.handleException(ex);
}
}
byte[] superbytes = super.encodeAsBytes(transport);
byte[] retval = new byte[slbytes.length + superbytes.length];
System.arraycopy(slbytes, 0, retval, 0, slbytes.length);
System.arraycopy(superbytes, 0, retval, slbytes.length, superbytes.length);
return retval;
}
/**
* 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;
}
/**
* A given tx can process only a single outstanding event at a time. This semaphore gaurds
* re-entrancy to the transaction.
*/
public boolean acquireSem() {
boolean retval = false;
try {
if (sipStack.getStackLogger().isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
sipStack.getStackLogger().logDebug("acquireSem [[[[" + this);
sipStack.getStackLogger().logStackTrace();
}
if (this.sipStack.maxListenerResponseTime == -1) {
this.semaphore.acquire();
retval = true;
} else {
retval = this.semaphore.tryAcquire(this.sipStack.maxListenerResponseTime, TimeUnit.SECONDS);
}
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG))
sipStack.getStackLogger().logDebug("acquireSem() returning : " + retval);
return retval;
} catch (Exception ex) {
sipStack.getStackLogger().logError("Unexpected exception acquiring sem", ex);
InternalErrorHandler.handleException(ex);
return false;
} finally {
this.isSemaphoreAquired = retval;
}
}
/**
* This gets invoked when thread.start is called from the constructor. Implements a message loop -
* reading the tcp connection and processing messages until we are done or the other end has
* closed.
*/
public void run() {
Pipeline hispipe = null;
// Create a pipeline to connect to our message parser.
hispipe =
new Pipeline(
myClientInputStream, sipStack.readTimeout, ((SIPTransactionStack) sipStack).getTimer());
// Create a pipelined message parser to read and parse
// messages that we write out to him.
myParser = new PipelinedMsgParser(sipStack, this, hispipe, this.sipStack.getMaxMessageSize());
// Start running the parser thread.
myParser.processInput();
// bug fix by Emmanuel Proulx
int bufferSize = 4096;
((ConnectionOrientedMessageProcessor) this.messageProcessor).useCount++;
this.isRunning = true;
try {
while (true) {
try {
byte[] msg = new byte[bufferSize];
int nbytes = myClientInputStream.read(msg, 0, bufferSize);
// no more bytes to read...
if (nbytes == -1) {
hispipe.write("\r\n\r\n".getBytes("UTF-8"));
try {
if (sipStack.maxConnections != -1) {
synchronized (messageProcessor) {
((ConnectionOrientedMessageProcessor) this.messageProcessor).nConnections--;
messageProcessor.notify();
}
}
hispipe.close();
close();
} catch (IOException ioex) {
}
return;
}
hispipe.write(msg, 0, nbytes);
} catch (IOException ex) {
// Terminate the message.
try {
hispipe.write("\r\n\r\n".getBytes("UTF-8"));
} catch (Exception e) {
// InternalErrorHandler.handleException(e);
}
try {
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG))
logger.logDebug("IOException closing sock " + ex);
try {
if (sipStack.maxConnections != -1) {
synchronized (messageProcessor) {
((ConnectionOrientedMessageProcessor) this.messageProcessor).nConnections--;
messageProcessor.notify();
}
}
close();
hispipe.close();
} catch (IOException ioex) {
}
} catch (Exception ex1) {
// Do nothing.
}
return;
} catch (Exception ex) {
InternalErrorHandler.handleException(ex, logger);
}
}
} finally {
this.isRunning = false;
((ConnectionOrientedMessageProcessor) this.messageProcessor).remove(this);
((ConnectionOrientedMessageProcessor) this.messageProcessor).useCount--;
// parser could be null if the socket was closed by the remote end already
if (myParser != null) {
myParser.close();
}
}
}
/**
* Gets invoked by the parser as a callback on successful message parsing (i.e. no parser errors).
*
* @param sipMessage Message to process (this calls the application for processing the message).
* <p>Jvb: note that this code is identical to TCPMessageChannel, refactor some day
*/
public void processMessage(SIPMessage sipMessage) throws Exception {
try {
if (sipMessage.getFrom() == null
|| sipMessage.getTo() == null
|| sipMessage.getCallId() == null
|| sipMessage.getCSeq() == null
|| sipMessage.getViaHeaders() == null) {
if (logger.isLoggingEnabled()) {
String badmsg = sipMessage.encode();
logger.logError("bad message " + badmsg);
logger.logError(">>> Dropped Bad Msg");
}
return;
}
sipMessage.setRemoteAddress(this.peerAddress);
sipMessage.setRemotePort(this.getPeerPort());
sipMessage.setLocalAddress(this.getMessageProcessor().getIpAddress());
sipMessage.setLocalPort(this.getPort());
// Issue 3: https://telestax.atlassian.net/browse/JSIP-3
sipMessage.setPeerPacketSourceAddress(this.peerAddress);
sipMessage.setPeerPacketSourcePort(this.peerPort);
ViaList viaList = sipMessage.getViaHeaders();
// For a request
// first via header tells where the message is coming from.
// For response, this has already been recorded in the outgoing
// message.
if (sipMessage instanceof SIPRequest) {
Via v = (Via) viaList.getFirst();
// the peer address and tag it appropriately.
Hop hop = sipStack.addressResolver.resolveAddress(v.getHop());
this.peerProtocol = v.getTransport();
// if(peerPortAdvertisedInHeaders <= 0) {
int hopPort = v.getPort();
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
logger.logDebug(
"hop port = "
+ hopPort
+ " for request "
+ sipMessage
+ " for this channel "
+ this
+ " key "
+ key);
}
if (hopPort <= 0) {
// if port is 0 we assume the default port for TCP
this.peerPortAdvertisedInHeaders = 5060;
} else {
this.peerPortAdvertisedInHeaders = hopPort;
}
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
logger.logDebug(
"3.Storing peerPortAdvertisedInHeaders = "
+ peerPortAdvertisedInHeaders
+ " for this channel "
+ this
+ " key "
+ key);
}
// }
// may be needed to reconnect, when diff than peer address
if (peerAddressAdvertisedInHeaders == null) {
peerAddressAdvertisedInHeaders = hop.getHost();
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
logger.logDebug(
"3.Storing peerAddressAdvertisedInHeaders = "
+ peerAddressAdvertisedInHeaders
+ " for this channel "
+ this
+ " key "
+ key);
}
}
try {
if (mySock != null) { // selfrouting makes socket = null
// https://jain-sip.dev.java.net/issues/show_bug.cgi?id=297
this.peerAddress = mySock.getInetAddress();
}
// Check to see if the received parameter matches
// the peer address and tag it appropriately.
// JvB: dont do this. It is both costly and incorrect
// Must set received also when it is a FQDN, regardless
// whether
// it resolves to the correct IP address
// InetAddress sentByAddress =
// InetAddress.getByName(hop.getHost());
// JvB: if sender added 'rport', must always set received
boolean hasRPort = v.hasParameter(Via.RPORT);
if (!hasRPort && v.getPort() != peerPort) {
// https://github.com/RestComm/jain-sip/issues/79
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
logger.logDebug(
"setting rport since viaPort "
+ v.getPort()
+ " different than peerPacketSourcePort "
+ peerPort
+ " so that the response can be routed back");
}
hasRPort = true;
}
if (hasRPort || !hop.getHost().equals(this.peerAddress.getHostAddress())) {
v.setParameter(Via.RECEIVED, this.peerAddress.getHostAddress());
}
// @@@ hagai
// JvB: technically, may only do this when Via already
// contains
// rport
v.setParameter(Via.RPORT, Integer.toString(this.peerPort));
} catch (java.text.ParseException ex) {
InternalErrorHandler.handleException(ex);
}
// Use this for outgoing messages as well.
if (!this.isCached && mySock != null) { // self routing makes
// mySock=null
// https://jain-sip.dev.java.net/issues/show_bug.cgi?id=297
this.isCached = true;
int remotePort = ((java.net.InetSocketAddress) mySock.getRemoteSocketAddress()).getPort();
String key = IOHandler.makeKey(mySock.getInetAddress(), remotePort);
if (this.messageProcessor instanceof NioTcpMessageProcessor) {
// https://java.net/jira/browse/JSIP-475 don't use iohandler in case of NIO
// communications of the socket will leak in the iohandler sockettable
((NioTcpMessageProcessor) this.messageProcessor)
.nioHandler.putSocket(key, mySock.getChannel());
} else {
sipStack.ioHandler.putSocket(key, mySock);
}
// since it can close the socket it needs to be after the mySock usage otherwise
// it the socket will be disconnected and NPE will be thrown in some edge cases
((ConnectionOrientedMessageProcessor) this.messageProcessor).cacheMessageChannel(this);
}
}
// Foreach part of the request header, fetch it and process it
long receptionTime = System.currentTimeMillis();
//
if (sipMessage instanceof SIPRequest) {
// This is a request - process the request.
SIPRequest sipRequest = (SIPRequest) sipMessage;
// Create a new sever side request processor for this
// message and let it handle the rest.
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
logger.logDebug("----Processing Message---");
}
if (logger.isLoggingEnabled(ServerLogger.TRACE_MESSAGES)) {
sipStack.serverLogger.logMessage(
sipMessage,
this.getPeerHostPort().toString(),
this.messageProcessor.getIpAddress().getHostAddress()
+ ":"
+ this.messageProcessor.getPort(),
false,
receptionTime);
}
// Check for reasonable size - reject message
// if it is too long.
if (sipStack.getMaxMessageSize() > 0
&& sipRequest.getSize()
+ (sipRequest.getContentLength() == null
? 0
: sipRequest.getContentLength().getContentLength())
> sipStack.getMaxMessageSize()) {
SIPResponse sipResponse = sipRequest.createResponse(SIPResponse.MESSAGE_TOO_LARGE);
byte[] resp = sipResponse.encodeAsBytes(this.getTransport());
this.sendMessage(resp, false);
throw new Exception("Message size exceeded");
}
String sipVersion = ((SIPRequest) sipMessage).getRequestLine().getSipVersion();
if (!sipVersion.equals("SIP/2.0")) {
SIPResponse versionNotSupported =
((SIPRequest) sipMessage)
.createResponse(Response.VERSION_NOT_SUPPORTED, "Bad SIP version " + sipVersion);
this.sendMessage(versionNotSupported.encodeAsBytes(this.getTransport()), false);
throw new Exception("Bad version ");
}
String method = ((SIPRequest) sipMessage).getMethod();
String cseqMethod = ((SIPRequest) sipMessage).getCSeqHeader().getMethod();
if (!method.equalsIgnoreCase(cseqMethod)) {
SIPResponse sipResponse = sipRequest.createResponse(SIPResponse.BAD_REQUEST);
byte[] resp = sipResponse.encodeAsBytes(this.getTransport());
this.sendMessage(resp, false);
throw new Exception("Bad CSeq method" + sipMessage + " method " + method);
}
// Stack could not create a new server request interface.
// maybe not enough resources.
ServerRequestInterface sipServerRequest = sipStack.newSIPServerRequest(sipRequest, this);
if (sipServerRequest != null) {
try {
sipServerRequest.processRequest(sipRequest, this);
} finally {
if (sipServerRequest instanceof SIPTransaction) {
SIPServerTransaction sipServerTx = (SIPServerTransaction) sipServerRequest;
if (!sipServerTx.passToListener()) ((SIPTransaction) sipServerRequest).releaseSem();
}
}
} else {
if (sipStack.sipMessageValve
== null) { // Allow message valves to nullify messages without error
SIPResponse response = sipRequest.createResponse(Response.SERVICE_UNAVAILABLE);
RetryAfter retryAfter = new RetryAfter();
// Be a good citizen and send a decent response code back.
try {
retryAfter.setRetryAfter((int) (10 * (Math.random())));
response.setHeader(retryAfter);
this.sendMessage(response);
} catch (Exception e) {
// IGNore
}
if (logger.isLoggingEnabled())
logger.logWarning("Dropping message -- could not acquire semaphore");
}
}
} else {
SIPResponse sipResponse = (SIPResponse) sipMessage;
// JvB: dont do this
// if (sipResponse.getStatusCode() == 100)
// sipResponse.getTo().removeParameter("tag");
try {
sipResponse.checkHeaders();
} catch (ParseException ex) {
if (logger.isLoggingEnabled())
logger.logError("Dropping Badly formatted response message >>> " + sipResponse);
return;
}
// This is a response message - process it.
// Check the size of the response.
// If it is too large dump it silently.
if (sipStack.getMaxMessageSize() > 0
&& sipResponse.getSize()
+ (sipResponse.getContentLength() == null
? 0
: sipResponse.getContentLength().getContentLength())
> sipStack.getMaxMessageSize()) {
if (logger.isLoggingEnabled(LogWriter.TRACE_DEBUG))
logger.logDebug("Message size exceeded");
return;
}
ServerResponseInterface sipServerResponse =
sipStack.newSIPServerResponse(sipResponse, this);
if (sipServerResponse != null) {
try {
if (sipServerResponse instanceof SIPClientTransaction
&& !((SIPClientTransaction) sipServerResponse).checkFromTag(sipResponse)) {
if (logger.isLoggingEnabled())
logger.logError("Dropping response message with invalid tag >>> " + sipResponse);
return;
}
sipServerResponse.processResponse(sipResponse, this);
} finally {
if (sipServerResponse instanceof SIPTransaction
&& !((SIPTransaction) sipServerResponse).passToListener()) {
// Note that the semaphore is released in event
// scanner if the
// request is actually processed by the Listener.
((SIPTransaction) sipServerResponse).releaseSem();
}
}
} else {
logger.logWarning(
"Application is blocked -- could not acquire semaphore -- dropping response");
}
}
} finally {
}
}
/**
* Send a message to a specified receiver address.
*
* @param msg message string to send.
* @param peerAddress Address of the place to send it to.
* @param peerPort the port to send it to.
* @param peerProtocol protocol to use to send.
* @throws IOException If there is trouble sending this message.
*/
protected void sendMessage(
byte[] msg, InetAddress peerAddress, int peerPort, String peerProtocol, boolean retry)
throws IOException {
// Via is not included in the request so silently drop the reply.
if (peerPort == -1) {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack
.getStackLogger()
.logDebug(getClass().getName() + ":sendMessage: Dropping reply!");
}
throw new IOException("Receiver port not set ");
} else {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack
.getStackLogger()
.logDebug(
":sendMessage "
+ peerAddress.getHostAddress()
+ "/"
+ peerPort
+ "\n"
+ " messageSize = "
+ msg.length);
}
}
if (peerProtocol.compareToIgnoreCase("UDP") == 0) {
DatagramPacket reply = new DatagramPacket(msg, msg.length, peerAddress, peerPort);
try {
DatagramSocket sock;
if (sipStack.udpFlag) {
sock = ((UDPMessageProcessor) messageProcessor).sock;
} else {
// bind to any interface and port.
sock = sipStack.getNetworkLayer().createDatagramSocket();
}
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack
.getStackLogger()
.logDebug(
"sendMessage "
+ peerAddress.getHostAddress()
+ "/"
+ peerPort
+ "\n"
+ new String(msg));
}
sock.send(reply);
if (!sipStack.udpFlag) sock.close();
} catch (IOException ex) {
throw ex;
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
}
} else {
// Use TCP to talk back to the sender.
Socket outputSocket =
sipStack.ioHandler.sendBytes(
this.messageProcessor.getIpAddress(), peerAddress, peerPort, "tcp", msg, retry, this);
OutputStream myOutputStream = outputSocket.getOutputStream();
myOutputStream.write(msg, 0, msg.length);
myOutputStream.flush();
// The socket is cached (dont close it!);
}
}
/**
* Process an incoming datagram
*
* @param packet is the incoming datagram packet.
*/
private void processIncomingDataPacket(DatagramPacket packet) throws Exception {
this.peerAddress = packet.getAddress();
int packetLength = packet.getLength();
// Read bytes and put it in a eueue.
byte[] bytes = packet.getData();
byte[] msgBytes = new byte[packetLength];
System.arraycopy(bytes, 0, msgBytes, 0, packetLength);
// Do debug logging.
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack
.getStackLogger()
.logDebug(
"UDPMessageChannel: processIncomingDataPacket : peerAddress = "
+ peerAddress.getHostAddress()
+ "/"
+ packet.getPort()
+ " Length = "
+ packetLength);
}
SIPMessage sipMessage = null;
try {
this.receptionTime = System.currentTimeMillis();
sipMessage = myParser.parseSIPMessage(msgBytes, true, false, this);
// myParser = null;
} catch (ParseException ex) {
// myParser = null; // let go of the parser reference.
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack.getStackLogger().logDebug("Rejecting message ! " + new String(msgBytes));
this.sipStack.getStackLogger().logDebug("error message " + ex.getMessage());
this.sipStack.getStackLogger().logException(ex);
}
// JvB: send a 400 response for requests (except ACK)
// Currently only UDP, @todo also other transports
String msgString = new String(msgBytes, 0, packetLength);
if (!msgString.startsWith("SIP/") && !msgString.startsWith("ACK ")) {
String badReqRes = createBadReqRes(msgString, ex);
if (badReqRes != null) {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
sipStack.getStackLogger().logDebug("Sending automatic 400 Bad Request:");
sipStack.getStackLogger().logDebug(badReqRes);
}
try {
this.sendMessage(badReqRes.getBytes(), peerAddress, packet.getPort(), "UDP", false);
} catch (IOException e) {
this.sipStack.getStackLogger().logException(e);
}
} else {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
sipStack.getStackLogger().logDebug("Could not formulate automatic 400 Bad Request");
}
}
}
return;
}
// No parse exception but null message - reject it and
// march on (or return).
// exit this message processor if the message did not parse.
if (sipMessage == null) {
if (sipStack.isLoggingEnabled(LogWriter.TRACE_DEBUG)) {
this.sipStack.getStackLogger().logDebug("Rejecting message ! + Null message parsed.");
}
String key = packet.getAddress().getHostAddress() + ":" + packet.getPort();
if (pingBackRecord.get(key) == null && sipStack.getMinKeepAliveInterval() > 0) {
byte[] retval = "\r\n\r\n".getBytes();
DatagramPacket keepalive =
new DatagramPacket(retval, 0, retval.length, packet.getAddress(), packet.getPort());
PingBackTimerTask task =
new PingBackTimerTask(packet.getAddress().getHostAddress(), packet.getPort());
this.pingBackRecord.put(key, task);
this.sipStack.getTimer().schedule(task, sipStack.getMinKeepAliveInterval() * 1000);
((UDPMessageProcessor) this.messageProcessor).sock.send(keepalive);
} else {
sipStack.getStackLogger().logDebug("Not sending ping back");
}
return;
}
Via topMostVia = sipMessage.getTopmostVia();
// Check for the required headers.
if (sipMessage.getFrom() == null
|| sipMessage.getTo() == null
|| sipMessage.getCallId() == null
|| sipMessage.getCSeq() == null
|| topMostVia == null) {
String badmsg = new String(msgBytes);
if (sipStack.isLoggingEnabled()) {
this.sipStack.getStackLogger().logError("bad message " + badmsg);
this.sipStack
.getStackLogger()
.logError(
">>> Dropped Bad Msg "
+ "From = "
+ sipMessage.getFrom()
+ "To = "
+ sipMessage.getTo()
+ "CallId = "
+ sipMessage.getCallId()
+ "CSeq = "
+ sipMessage.getCSeq()
+ "Via = "
+ sipMessage.getViaHeaders());
}
return;
}
// For a request first via header tells where the message
// is coming from.
// For response, just get the port from the packet.
if (sipMessage instanceof SIPRequest) {
Hop hop = sipStack.addressResolver.resolveAddress(topMostVia.getHop());
this.peerPort = hop.getPort();
this.peerProtocol = topMostVia.getTransport();
this.peerPacketSourceAddress = packet.getAddress();
this.peerPacketSourcePort = packet.getPort();
try {
this.peerAddress = packet.getAddress();
// Check to see if the received parameter matches
// the peer address and tag it appropriately.
boolean hasRPort = topMostVia.hasParameter(Via.RPORT);
if (hasRPort || !hop.getHost().equals(this.peerAddress.getHostAddress())) {
topMostVia.setParameter(Via.RECEIVED, this.peerAddress.getHostAddress());
}
if (hasRPort) {
topMostVia.setParameter(Via.RPORT, Integer.toString(this.peerPacketSourcePort));
}
} catch (java.text.ParseException ex1) {
InternalErrorHandler.handleException(ex1);
}
} else {
this.peerPacketSourceAddress = packet.getAddress();
this.peerPacketSourcePort = packet.getPort();
this.peerAddress = packet.getAddress();
this.peerPort = packet.getPort();
this.peerProtocol = topMostVia.getTransport();
}
this.processMessage(sipMessage);
}
/**
* This is input reading thread for the pipelined parser. You feed it input through the input
* stream (see the constructor) and it calls back an event listener interface for message
* processing or error. It cleans up the input - dealing with things like line continuation
*/
public void run() {
Pipeline inputStream = this.rawInputStream;
// inputStream = new MyFilterInputStream(this.rawInputStream);
// I cannot use buffered reader here because we may need to switch
// encodings to read the message body.
try {
while (true) {
this.sizeCounter = this.maxMessageSize;
// this.messageSize = 0;
StringBuffer inputBuffer = new StringBuffer();
if (Debug.parserDebug) Debug.println("Starting parse!");
String line1;
String line2 = null;
while (true) {
try {
line1 = readLine(inputStream);
// ignore blank lines.
if (line1.equals("\n")) {
if (Debug.parserDebug) Debug.println("Discarding " + line1);
continue;
} else break;
} catch (IOException ex) {
Debug.printStackTrace(ex);
this.rawInputStream.stopTimer();
return;
}
}
inputBuffer.append(line1);
// Guard against bad guys.
this.rawInputStream.startTimer();
while (true) {
try {
line2 = readLine(inputStream);
inputBuffer.append(line2);
if (line2.trim().equals("")) break;
} catch (IOException ex) {
this.rawInputStream.stopTimer();
Debug.printStackTrace(ex);
return;
}
}
// Stop the timer that will kill the read.
this.rawInputStream.stopTimer();
inputBuffer.append(line2);
StringMsgParser smp = new StringMsgParser(sipMessageListener);
smp.readBody = false;
SIPMessage sipMessage = null;
try {
sipMessage = smp.parseSIPMessage(inputBuffer.toString());
if (sipMessage == null) {
this.rawInputStream.stopTimer();
continue;
}
} catch (ParseException ex) {
// Just ignore the parse exception.
continue;
}
if (Debug.parserDebug) Debug.println("Completed parsing message");
ContentLength cl = (ContentLength) sipMessage.getContentLength();
int contentLength = 0;
if (cl != null) {
contentLength = cl.getContentLength();
} else {
contentLength = 0;
}
if (Debug.parserDebug) {
Debug.println("contentLength " + contentLength);
Debug.println("sizeCounter " + this.sizeCounter);
Debug.println("maxMessageSize " + this.maxMessageSize);
}
if (contentLength == 0) {
sipMessage.removeContent();
} else if (maxMessageSize == 0 || contentLength < this.sizeCounter) {
byte[] message_body = new byte[contentLength];
int nread = 0;
while (nread < contentLength) {
// Start my starvation timer.
// This ensures that the other end
// writes at least some data in
// or we will close the pipe from
// him. This prevents DOS attack
// that takes up all our connections.
this.rawInputStream.startTimer();
try {
int readlength = inputStream.read(message_body, nread, contentLength - nread);
if (readlength > 0) {
nread += readlength;
} else {
break;
}
} catch (IOException ex) {
ex.printStackTrace();
break;
} finally {
// Stop my starvation timer.
this.rawInputStream.stopTimer();
}
}
sipMessage.setMessageContent(message_body);
}
// Content length too large - process the message and
// return error from there.
if (sipMessageListener != null) {
try {
sipMessageListener.processMessage(sipMessage);
} catch (Exception ex) {
// fatal error in processing - close the
// connection.
break;
}
}
}
} finally {
try {
inputStream.close();
} catch (IOException e) {
InternalErrorHandler.handleException(e);
}
}
}
/**
* This gets invoked when thread.start is called from the constructor. Implements a message loop -
* reading the tcp connection and processing messages until we are done or the other end has
* closed.
*/
public void run() {
String message;
Pipeline hispipe = null;
// Create a pipeline to connect to our message parser.
hispipe =
new Pipeline(myClientInputStream, stack.readTimeout, ((SIPTransactionStack) stack).timer);
// Create a pipelined message parser to read and parse
// messages that we write out to him.
myParser = new PipelinedMsgParser(this, hispipe, this.stack.getMaxMessageSize());
// Start running the parser thread.
myParser.processInput();
// bug fix by Emmanuel Proulx
int bufferSize = 4096;
this.tlsMessageProcessor.useCount++;
this.isRunning = true;
try {
while (true) {
try {
byte[] msg = new byte[bufferSize];
int nbytes = myClientInputStream.read(msg, 0, bufferSize);
// no more bytes to read...
if (nbytes == -1) {
hispipe.write("\r\n\r\n".getBytes("UTF-8"));
try {
if (stack.maxConnections != -1) {
synchronized (tlsMessageProcessor) {
tlsMessageProcessor.nConnections--;
tlsMessageProcessor.notify();
}
}
hispipe.close();
mySock.close();
} catch (IOException ioex) {
}
return;
}
hispipe.write(msg, 0, nbytes);
} catch (IOException ex) {
// Terminate the message.
try {
hispipe.write("\r\n\r\n".getBytes("UTF-8"));
} catch (Exception e) {
// InternalErrorHandler.handleException(e);
}
try {
if (LogWriter.needsLogging)
stack.logWriter.logMessage("IOException closing sock " + ex);
try {
if (stack.maxConnections != -1) {
synchronized (tlsMessageProcessor) {
tlsMessageProcessor.nConnections--;
tlsMessageProcessor.notify();
}
}
mySock.close();
hispipe.close();
} catch (IOException ioex) {
}
} catch (Exception ex1) {
// Do nothing.
}
return;
} catch (Exception ex) {
InternalErrorHandler.handleException(ex);
}
}
} finally {
this.isRunning = false;
this.tlsMessageProcessor.remove(this);
this.tlsMessageProcessor.useCount--;
}
}
/**
* Gets invoked by the parser as a callback on successful message parsing (i.e. no parser errors).
*
* @param sipMessage Mesage to process (this calls the application for processing the message).
*/
public void processMessage(SIPMessage sipMessage) throws Exception {
try {
if (sipMessage.getFrom() == null
|| // sipMessage.getFrom().getTag() == null ||
sipMessage.getTo() == null
|| sipMessage.getCallId() == null
|| sipMessage.getCSeq() == null
|| sipMessage.getViaHeaders() == null) {
String badmsg = sipMessage.encode();
if (LogWriter.needsLogging) {
stack.logWriter.logMessage("bad message " + badmsg);
stack.logWriter.logMessage(">>> Dropped Bad Msg");
}
stack.logBadMessage(badmsg);
return;
}
ViaList viaList = sipMessage.getViaHeaders();
// For a request
// first via header tells where the message is coming from.
// For response, this has already been recorded in the outgoing
// message.
if (sipMessage instanceof SIPRequest) {
Via v = (Via) viaList.first();
if (v.hasPort()) {
this.peerPort = v.getPort();
} else this.peerPort = 5061;
this.peerProtocol = v.getTransport();
try {
this.peerAddress = mySock.getInetAddress();
// Check to see if the received parameter matches
// the peer address and tag it appropriately.
// Bug fix by [email protected]
// Should record host address not host name
// bug fix by Joost Yervante Damand
if (!v.getSentBy().getInetAddress().equals(this.peerAddress)) {
v.setParameter(Via.RECEIVED, this.peerAddress.getHostAddress());
// @@@ hagai
v.setParameter(Via.RPORT, new Integer(this.peerPort).toString());
}
} catch (java.net.UnknownHostException ex) {
// Could not resolve the sender address.
if (LogWriter.needsLogging) {
stack.logWriter.logMessage("Rejecting message -- could not resolve Via Address");
}
return;
} catch (java.text.ParseException ex) {
InternalErrorHandler.handleException(ex);
}
// Use this for outgoing messages as well.
if (!this.isCached) {
((TLSMessageProcessor) this.messageProcessor).cacheMessageChannel(this);
this.isCached = true;
String key = IOHandler.makeKey(mySock.getInetAddress(), this.peerPort);
stack.ioHandler.putSocket(key, mySock);
}
}
// Foreach part of the request header, fetch it and process it
long receptionTime = System.currentTimeMillis();
//
if (sipMessage instanceof SIPRequest) {
// This is a request - process the request.
SIPRequest sipRequest = (SIPRequest) sipMessage;
// Create a new sever side request processor for this
// message and let it handle the rest.
if (LogWriter.needsLogging) {
stack.logWriter.logMessage("----Processing Message---");
}
// Check for reasonable size - reject message
// if it is too long.
if (stack.getMaxMessageSize() > 0
&& sipRequest.getSize()
+ (sipRequest.getContentLength() == null
? 0
: sipRequest.getContentLength().getContentLength())
> stack.getMaxMessageSize()) {
SIPResponse sipResponse = sipRequest.createResponse(SIPResponse.MESSAGE_TOO_LARGE);
byte[] resp = sipResponse.encodeAsBytes();
this.sendMessage(resp, false);
throw new Exception("Message size exceeded");
}
ServerRequestInterface sipServerRequest = stack.newSIPServerRequest(sipRequest, this);
sipServerRequest.processRequest(sipRequest, this);
if (this.stack.serverLog.needsLogging(ServerLog.TRACE_MESSAGES)) {
if (sipServerRequest.getProcessingInfo() == null) {
stack.serverLog.logMessage(
sipMessage,
sipRequest.getViaHost() + ":" + sipRequest.getViaPort(),
stack.getHostAddress() + ":" + stack.getPort(this.getTransport()),
false,
receptionTime);
} else {
this.stack.serverLog.logMessage(
sipMessage,
sipRequest.getViaHost() + ":" + sipRequest.getViaPort(),
stack.getHostAddress() + ":" + stack.getPort(this.getTransport()),
sipServerRequest.getProcessingInfo(),
false,
receptionTime);
}
}
} else {
SIPResponse sipResponse = (SIPResponse) sipMessage;
// This is a response message - process it.
// Check the size of the response.
// If it is too large dump it silently.
if (stack.getMaxMessageSize() > 0
&& sipResponse.getSize()
+ (sipResponse.getContentLength() == null
? 0
: sipResponse.getContentLength().getContentLength())
> stack.getMaxMessageSize()) {
if (LogWriter.needsLogging) this.stack.logWriter.logMessage("Message size exceeded");
return;
}
ServerResponseInterface sipServerResponse = stack.newSIPServerResponse(sipResponse, this);
sipServerResponse.processResponse(sipResponse, this);
}
} finally {
}
}
/**
* 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;
}
}
/**
* Process an incoming datagram
*
* @param packet is the incoming datagram packet.
*/
private void processIncomingDataPacket(DatagramPacket packet) throws Exception {
this.peerAddress = packet.getAddress();
int packetLength = packet.getLength();
// Read bytes and put it in a eueue.
byte[] bytes = packet.getData();
byte[] msgBytes = new byte[packetLength];
System.arraycopy(bytes, 0, msgBytes, 0, packetLength);
// Do debug logging.
if (sipStack.isLoggingEnabled()) {
this.sipStack.logWriter.logDebug(
"UDPMessageChannel: processIncomingDataPacket : peerAddress = "
+ peerAddress.getHostAddress()
+ "/"
+ packet.getPort()
+ " Length = "
+ packetLength);
}
SIPMessage sipMessage = null;
try {
this.receptionTime = System.currentTimeMillis();
sipMessage = myParser.parseSIPMessage(msgBytes);
myParser = null;
} catch (ParseException ex) {
myParser = null; // let go of the parser reference.
if (sipStack.isLoggingEnabled()) {
this.sipStack.logWriter.logDebug("Rejecting message ! " + new String(msgBytes));
this.sipStack.logWriter.logDebug("error message " + ex.getMessage());
this.sipStack.logWriter.logException(ex);
}
// JvB: send a 400 response for requests (except ACK)
// Currently only UDP, @todo also other transports
String msgString = new String(msgBytes, 0, packetLength);
if (!msgString.startsWith("SIP/") && !msgString.startsWith("ACK ")) {
String badReqRes = createBadReqRes(msgString, ex);
if (badReqRes != null) {
if (sipStack.isLoggingEnabled()) {
sipStack.getLogWriter().logDebug("Sending automatic 400 Bad Request:");
sipStack.getLogWriter().logDebug(badReqRes);
}
try {
this.sendMessage(badReqRes.getBytes(), peerAddress, packet.getPort(), "UDP", false);
} catch (IOException e) {
this.sipStack.logWriter.logException(e);
}
} else {
if (sipStack.isLoggingEnabled()) {
sipStack.getLogWriter().logDebug("Could not formulate automatic 400 Bad Request");
}
}
}
return;
}
// No parse exception but null message - reject it and
// march on (or return).
// exit this message processor if the message did not parse.
if (sipMessage == null) {
if (sipStack.isLoggingEnabled()) {
this.sipStack.logWriter.logDebug("Rejecting message ! + Null message parsed.");
}
return;
}
ViaList viaList = sipMessage.getViaHeaders();
// Check for the required headers.
if (sipMessage.getFrom() == null
|| sipMessage.getTo() == null
|| sipMessage.getCallId() == null
|| sipMessage.getCSeq() == null
|| sipMessage.getViaHeaders() == null) {
String badmsg = new String(msgBytes);
if (sipStack.isLoggingEnabled()) {
this.sipStack.logWriter.logError("bad message " + badmsg);
this.sipStack.logWriter.logError(
">>> Dropped Bad Msg "
+ "From = "
+ sipMessage.getFrom()
+ "To = "
+ sipMessage.getTo()
+ "CallId = "
+ sipMessage.getCallId()
+ "CSeq = "
+ sipMessage.getCSeq()
+ "Via = "
+ sipMessage.getViaHeaders());
}
sipStack.logWriter.logError("BAD MESSAGE!");
return;
}
// For a request first via header tells where the message
// is coming from.
// For response, just get the port from the packet.
if (sipMessage instanceof SIPRequest) {
Via v = (Via) viaList.getFirst();
Hop hop = sipStack.addressResolver.resolveAddress(v.getHop());
this.peerPort = hop.getPort();
this.peerProtocol = v.getTransport();
this.peerPacketSourceAddress = packet.getAddress();
this.peerPacketSourcePort = packet.getPort();
try {
this.peerAddress = packet.getAddress();
// Check to see if the received parameter matches
// the peer address and tag it appropriately.
boolean hasRPort = v.hasParameter(Via.RPORT);
if (hasRPort || !hop.getHost().equals(this.peerAddress.getHostAddress())) {
v.setParameter(Via.RECEIVED, this.peerAddress.getHostAddress());
}
if (hasRPort) {
v.setParameter(Via.RPORT, Integer.toString(this.peerPacketSourcePort));
}
} catch (java.text.ParseException ex1) {
InternalErrorHandler.handleException(ex1);
}
} else {
this.peerPacketSourceAddress = packet.getAddress();
this.peerPacketSourcePort = packet.getPort();
this.peerAddress = packet.getAddress();
this.peerPort = packet.getPort();
this.peerProtocol = ((Via) viaList.getFirst()).getTransport();
}
this.processMessage(sipMessage);
}
