private void handleIncomingConfirmableCoapResponse(ChannelHandlerContext ctx, MessageEvent me) {
InetSocketAddress remoteEndpoint = (InetSocketAddress) me.getRemoteAddress();
CoapResponse coapResponse = (CoapResponse) me.getMessage();
writeEmptyAcknowledgement(remoteEndpoint, coapResponse.getMessageID());
ctx.sendUpstream(me);
}
private void handleIncomingConfirmableCoapRequest(ChannelHandlerContext ctx, MessageEvent me) {
InetSocketAddress remoteEndpoint = (InetSocketAddress) me.getRemoteAddress();
CoapMessage coapMessage = (CoapMessage) me.getMessage();
IncomingReliableMessageExchange newMessageExchange =
new IncomingReliableMessageExchange(remoteEndpoint, coapMessage.getMessageID());
IncomingMessageExchange oldMessageExchange =
ongoingMessageExchanges.get(remoteEndpoint, coapMessage.getMessageID());
// Check if there is an ongoing
if (oldMessageExchange != null) {
if (oldMessageExchange instanceof IncomingReliableMessageExchange) {
// if the old message exchange is reliable and the empty ACK was already sent send another
// empty ACK
if (((IncomingReliableMessageExchange) oldMessageExchange).isAcknowledgementSent())
writeEmptyAcknowledgement(remoteEndpoint, coapMessage.getMessageID());
}
// if the old message was unreliable and the duplicate message is confirmable send empty ACK
else writeEmptyAcknowledgement(remoteEndpoint, coapMessage.getMessageID());
// As the message is already being processed there is nothing more to do
return;
}
// try to add new reliable message exchange
boolean added = false;
synchronized (monitor) {
Long time = System.currentTimeMillis() + MIN_EMPTY_ACK_DELAY_MILLIS;
// Add message exchange to set of ongoing exchanges to detect duplicates
if (!ongoingMessageExchanges.contains(remoteEndpoint, coapMessage.getMessageID())) {
ongoingMessageExchanges.put(remoteEndpoint, coapMessage.getMessageID(), newMessageExchange);
added = true;
}
// If the scheduling of the empty ACK does not work then it was already scheduled
if (!emptyAcknowledgementSchedule.put(time, newMessageExchange)) {
log.error("Could not schedule empty ACK for message: {}", coapMessage);
ongoingMessageExchanges.remove(remoteEndpoint, coapMessage.getMessageID());
added = false;
}
}
// everything is fine, so further process message
if (added) ctx.sendUpstream(me);
}
private void handleIncomingConfirmableCoapMessage(ChannelHandlerContext ctx, MessageEvent me) {
InetSocketAddress remoteEndpoint = (InetSocketAddress) me.getRemoteAddress();
CoapMessage coapMessage = (CoapMessage) me.getMessage();
// Empty CON messages can be used as application layer PING (is CoAP endpoints alive?)
if (coapMessage.getMessageCodeName() == MessageCode.Name.EMPTY)
writeReset(remoteEndpoint, coapMessage.getMessageID());
else if (MessageCode.isResponse(coapMessage.getMessageCode()))
handleIncomingConfirmableCoapResponse(ctx, me);
else if (MessageCode.isRequest(coapMessage.getMessageCode()))
handleIncomingConfirmableCoapRequest(ctx, me);
else
log.error("Incoming CoAP message is neither empty nor request nor response: ", coapMessage);
}
/**
* If the incoming message is a confirmable {@link CoapRequest} it schedules the sending of an
* empty acknowledgement to the sender if there wasn't a piggy-backed response within a period of
* 2 seconds.
*
* <p>If the incoming message is a confirmable {@link CoapResponse} it immediately sends a proper
* acknowledgement if there was an open request waiting for a seperate response or
* update-notification. It immediately sends an RST if there was no such response expected.
*
* @param ctx The {@link ChannelHandlerContext} relating this handler (which implements the {@link
* ChannelUpstreamHandler} interface) to the datagramChannel that received the message.
* @param me the {@link MessageEvent} containing the actual message
* @throws Exception if an error occured
*/
@Override
public void messageReceived(final ChannelHandlerContext ctx, MessageEvent me) throws Exception {
log.debug("Upstream from {}: {}.", me.getRemoteAddress(), me.getMessage());
if (isShutdown()) return;
if (me.getMessage() instanceof CoapMessage) {
CoapMessage coapMessage = (CoapMessage) me.getMessage();
if (coapMessage.getMessageTypeName() == MessageType.Name.CON)
handleIncomingConfirmableCoapMessage(ctx, me);
else if (coapMessage.getMessageTypeName() == MessageType.Name.NON)
handleIncomingNonConfirmableMessage(ctx, me);
else ctx.sendUpstream(me);
} else ctx.sendUpstream(me);
}
private void handleOutgoingCoapResponse(ChannelHandlerContext ctx, MessageEvent me) {
CoapResponse coapResponse = (CoapResponse) me.getMessage();
InetSocketAddress remoteEndpoint = (InetSocketAddress) me.getRemoteAddress();
IncomingMessageExchange messageExchange;
synchronized (monitor) {
messageExchange = ongoingMessageExchanges.remove(remoteEndpoint, coapResponse.getMessageID());
}
if (messageExchange instanceof IncomingReliableMessageExchange) {
// if the ongoing message exchange is reliable and the empty ACK was not yet sent make
// response piggy-
// backed and suppress scheduled empty ACK
if (!((IncomingReliableMessageExchange) messageExchange).isAcknowledgementSent()) {
coapResponse.setMessageType(MessageType.Name.ACK.getNumber());
((IncomingReliableMessageExchange) messageExchange).setAcknowledgementSent();
}
}
ctx.sendDownstream(me);
}
private void handleIncomingNonConfirmableMessage(ChannelHandlerContext ctx, MessageEvent me) {
InetSocketAddress remoteEndpoint = (InetSocketAddress) me.getRemoteAddress();
CoapMessage coapMessage = (CoapMessage) me.getMessage();
boolean isDuplicate = true;
if (!ongoingMessageExchanges.contains(remoteEndpoint, coapMessage.getMessageID())) {
IncomingMessageExchange messageExchange =
new IncomingMessageExchange(remoteEndpoint, coapMessage.getMessageID());
synchronized (monitor) {
if (!ongoingMessageExchanges.contains(remoteEndpoint, coapMessage.getMessageID())) {
ongoingMessageExchanges.put(remoteEndpoint, coapMessage.getMessageID(), messageExchange);
isDuplicate = false;
}
}
ctx.sendUpstream(me);
}
if (isDuplicate)
log.info("Received duplicate (non-confirmable). IGNORE! (Message: {})", coapMessage);
}