Examples of TracedRouteNodes

• org.apache.camel.spi.TracedRouteNodes
  Tracing information used by {@link org.apache.camel.processor.interceptor.TraceInterceptor}so we can trace the exact route path a given {@link org.apache.camel.Exchange} has been processed. @version $Revision: 836224 $

Examples of org.apache.camel.spi.TracedRouteNodes

        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        final Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        final StopWatch watch = producer != null ? new StopWatch() : null;

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            if (producer != null) {
                EventHelper.notifyExchangeSending(exchange.getContext(), exchange, producer.getEndpoint());
            }
            // let the prepared process it, remember to begin the exchange pair
            AsyncProcessor async = AsyncProcessorConverterHelper.convert(processor);
            pair.begin();
            sync = AsyncProcessorHelper.process(async, exchange, new AsyncCallback() {
                public void done(boolean doneSync) {
                    // we are done with the exchange pair
                    pair.done();

                    // okay we are done, so notify the exchange was sent
                    if (producer != null) {
                        long timeTaken = watch.stop();
                        Endpoint endpoint = producer.getEndpoint();
                        // emit event that the exchange was sent to the endpoint
                        EventHelper.notifyExchangeSent(exchange.getContext(), exchange, endpoint, timeTaken);
                    }

                    // we only have to handle async completion of the routing slip
                    if (doneSync) {
                        return;
                    }

                    // continue processing the multicast asynchronously
                    Exchange subExchange = exchange;

                    // Decide whether to continue with the multicast or not; similar logic to the Pipeline
                    // remember to test for stop on exception and aggregate before copying back results
                    boolean continueProcessing = PipelineHelper.continueProcessing(subExchange, "Sequential processing failed for number " + total.get(), LOG);
                    if (stopOnException && !continueProcessing) {
                        if (subExchange.getException() != null) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                        } else {
                            // we want to stop on exception, and the exception was handled by the error handler
                            // this is similar to what the pipeline does, so we should do the same to not surprise end users
                            // so we should set the failed exchange as the result and be done
                            result.set(subExchange);
                        }
                        // and do the done work
                        doDone(original, subExchange, callback, false, true);
                        return;
                    }

                    try {
                        doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                    } catch (Throwable e) {
                        // wrap in exception to explain where it failed
                        subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                        // and do the done work
                        doDone(original, subExchange, callback, false, true);
                        return;
                    }

                    total.incrementAndGet();

                    // maybe there are more processors to multicast
                    while (it.hasNext()) {

                        // prepare and run the next
                        ProcessorExchangePair pair = it.next();
                        subExchange = pair.getExchange();
                        updateNewExchange(subExchange, total.get(), pairs, it);
                        boolean sync = doProcessSequential(original, result, pairs, it, pair, callback, total);

                        if (!sync) {
                            LOG.trace("Processing exchangeId: {} is continued being processed asynchronously", original.getExchangeId());
                            return;
                        }

                        // Decide whether to continue with the multicast or not; similar logic to the Pipeline
                        // remember to test for stop on exception and aggregate before copying back results
                        continueProcessing = PipelineHelper.continueProcessing(subExchange, "Sequential processing failed for number " + total.get(), LOG);
                        if (stopOnException && !continueProcessing) {
                            if (subExchange.getException() != null) {
                                // wrap in exception to explain where it failed
                                subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                            } else {
                                // we want to stop on exception, and the exception was handled by the error handler
                                // this is similar to what the pipeline does, so we should do the same to not surprise end users
                                // so we should set the failed exchange as the result and be done
                                result.set(subExchange);
                            }
                            // and do the done work
                            doDone(original, subExchange, callback, false, true);
                            return;
                        }

                        // must catch any exceptions from aggregation
                        try {
                            doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                        } catch (Throwable e) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                            // and do the done work
                            doDone(original, subExchange, callback, false, true);
                            return;
                        }

                        total.incrementAndGet();
                    }

                    // do the done work
                    subExchange = result.get() != null ? result.get() : null;
                    doDone(original, subExchange, callback, false, true);
                }
            });
        } finally {
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
        }

        return sync;
    }

Examples of org.apache.camel.spi.TracedRouteNodes

    private void doProcessParallel(final ProcessorExchangePair pair) throws Exception {
        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            if (producer != null) {
                EventHelper.notifyExchangeSending(exchange.getContext(), exchange, producer.getEndpoint());
            }
            // let the prepared process it, remember to begin the exchange pair
            AsyncProcessor async = AsyncProcessorConverterHelper.convert(processor);
            pair.begin();
            // we invoke it synchronously as parallel async routing is too hard
            AsyncProcessorHelper.process(async, exchange);
        } finally {
            pair.done();
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint

Examples of org.apache.camel.spi.TracedRouteNodes

        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            // let the prepared process it, remember to begin the exchange pair
            AsyncProcessor async = AsyncProcessorTypeConverter.convert(processor);
            pair.begin();
            sync = AsyncProcessorHelper.process(async, exchange, new AsyncCallback() {
                public void done(boolean doneSync) {
                    // we are done with the exchange pair
                    pair.done();

                    // we only have to handle async completion of the routing slip
                    if (doneSync) {
                        return;
                    }

                    // continue processing the multicast asynchronously
                    Exchange subExchange = exchange;

                    // remember to test for stop on exception and aggregate before copying back results
                    if (stopOnException && subExchange.getException() != null) {
                        // wrap in exception to explain where it failed
                        subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                        // and do the done work
                        doDone(original, subExchange, callback, false);
                        return;
                    }

                    try {
                        doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                    } catch (Throwable e) {
                        // wrap in exception to explain where it failed
                        subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                        // and do the done work
                        doDone(original, subExchange, callback, false);
                        return;
                    }

                    total.incrementAndGet();

                    // maybe there are more processors to multicast
                    while (it.hasNext()) {

                        // prepare and run the next
                        ProcessorExchangePair pair = it.next();
                        subExchange = pair.getExchange();
                        updateNewExchange(subExchange, total.get(), pairs, it);
                        boolean sync = doProcessSequential(original, result, pairs, it, pair, callback, total);

                        if (!sync) {
                            if (LOG.isTraceEnabled()) {
                                LOG.trace("Processing exchangeId: " + original.getExchangeId() + " is continued being processed asynchronously");
                            }
                            return;
                        }

                        if (stopOnException && subExchange.getException() != null) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                            // and do the done work
                            doDone(original, subExchange, callback, false);
                            return;
                        }

                        try {
                            doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                        } catch (Throwable e) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                            // and do the done work
                            doDone(original, subExchange, callback, false);
                            return;
                        }

                        total.incrementAndGet();
                    }

                    // do the done work
                    subExchange = result.get() != null ? result.get() : null;
                    doDone(original, subExchange, callback, false);
                }
            });
        } finally {
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint

Examples of org.apache.camel.spi.TracedRouteNodes

    private void doProcessParallel(final ProcessorExchangePair pair) throws Exception {
        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            // let the prepared process it, remember to begin the exchange pair
            // we invoke it synchronously as parallel async routing is too hard
            AsyncProcessor async = AsyncProcessorTypeConverter.convert(processor);
            pair.begin();
            AsyncProcessorHelper.process(async, exchange);
        } finally {
            pair.done();
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint

Examples of org.apache.camel.spi.TracedRouteNodes

        try {
            // before
            if (shouldLog) {
                // traced holds the information about the current traced route path
                if (exchange.getUnitOfWork() != null) {
                    TracedRouteNodes traced = exchange.getUnitOfWork().getTracedRouteNodes();

                    if (node instanceof OnCompletionDefinition || node instanceof OnExceptionDefinition) {
                        // skip any of these as its just a marker definition
                        trace = false;
                    } else if (ProcessorDefinitionHelper.isFirstChildOfType(OnCompletionDefinition.class, node)) {
                        // special for on completion tracing
                        traceOnCompletion(traced, exchange);
                    } else if (ProcessorDefinitionHelper.isFirstChildOfType(OnExceptionDefinition.class, node)) {
                        // special for on exception
                        traceOnException(traced, exchange);
                    } else if (ProcessorDefinitionHelper.isFirstChildOfType(CatchDefinition.class, node)) {
                        // special for do catch
                        traceDoCatch(traced, exchange);
                    } else if (ProcessorDefinitionHelper.isFirstChildOfType(FinallyDefinition.class, node)) {
                        // special for do finally
                        traceDoFinally(traced, exchange);
                    } else if (ProcessorDefinitionHelper.isFirstChildOfType(AggregateDefinition.class, node)) {
                        // special for aggregate
                        traceAggregate(traced, exchange);
                    } else {
                        // regular so just add it
                        traced.addTraced(new DefaultRouteNode(node, super.getProcessor()));
                    }
                } else {
                    if (LOG.isTraceEnabled()) {
                        LOG.trace("Cannot trace as this Exchange does not have an UnitOfWork: " + exchange);
                    }
                }
            }

            // log and trace the processor
            Object traceState = null;
            if (shouldLog && trace) {
                logExchange(exchange);
                // either call the in or generic trace method depending on OUT has been enabled or not
                if (tracer.isTraceOutExchanges()) {
                    traceState = traceExchangeIn(exchange);
                } else {
                    traceExchange(exchange);
                }
            }

            try {
                // special for interceptor where we need to keep booking how far we have routed in the intercepted processors
                if (node.getParent() instanceof InterceptDefinition && exchange.getUnitOfWork() != null) {
                    TracedRouteNodes traced = exchange.getUnitOfWork().getTracedRouteNodes();
                    traceIntercept((InterceptDefinition) node.getParent(), traced, exchange);
                }

                // process the exchange
                try {

Examples of org.apache.camel.spi.TracedRouteNodes

        String from = "";
        String to = "";
        String route = "";
        if (showNode || showRouteId) {
            if (exchange.getUnitOfWork() != null) {
                TracedRouteNodes traced = exchange.getUnitOfWork().getTracedRouteNodes();

                RouteNode traceFrom = traced.getSecondLastNode();
                if (traceFrom != null) {
                    from = getNodeMessage(traceFrom, exchange);
                } else if (exchange.getFromEndpoint() != null) {
                    from = "from(" + exchange.getFromEndpoint().getEndpointUri() + ")";
                }

                RouteNode traceTo = traced.getLastNode();
                if (traceTo != null) {
                    to = getNodeMessage(traceTo, exchange);
                    // if its an abstract dummy holder then we have to get the 2nd last so we can get the real node that has
                    // information which route it belongs to
                    if (traceTo.isAbstract() && traceTo.getProcessorDefinition() == null) {
                        traceTo = traced.getSecondLastNode();
                    }
                    if (traceTo != null) {
                        route = extractRoute(traceTo.getProcessorDefinition());
                    }
                }

Examples of org.apache.camel.spi.TracedRouteNodes

        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            // let the prepared process it, remember to begin the exchange pair
            AsyncProcessor async = AsyncProcessorTypeConverter.convert(processor);
            pair.begin();
            sync = AsyncProcessorHelper.process(async, exchange, new AsyncCallback() {
                public void done(boolean doneSync) {
                    // we are done with the exchange pair
                    pair.done();

                    // we only have to handle async completion of the routing slip
                    if (doneSync) {
                        return;
                    }

                    // continue processing the multicast asynchronously
                    Exchange subExchange = exchange;

                    // Decide whether to continue with the multicast or not; similar logic to the Pipeline
                    // remember to test for stop on exception and aggregate before copying back results
                    boolean continueProcessing = PipelineHelper.continueProcessing(subExchange, "Sequential processing failed for number " + total.get(), LOG);
                    if (stopOnException && !continueProcessing) {
                        if (subExchange.getException() != null) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                        } else {
                            // we want to stop on exception, and the exception was handled by the error handler
                            // this is similar to what the pipeline does, so we should do the same to not surprise end users
                            // so we should set the failed exchange as the result and be done
                            result.set(subExchange);
                        }
                        // and do the done work
                        doDone(original, subExchange, callback, false, true);
                        return;
                    }

                    try {
                        doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                    } catch (Throwable e) {
                        // wrap in exception to explain where it failed
                        subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                        // and do the done work
                        doDone(original, subExchange, callback, false, true);
                        return;
                    }

                    total.incrementAndGet();

                    // maybe there are more processors to multicast
                    while (it.hasNext()) {

                        // prepare and run the next
                        ProcessorExchangePair pair = it.next();
                        subExchange = pair.getExchange();
                        updateNewExchange(subExchange, total.get(), pairs, it);
                        boolean sync = doProcessSequential(original, result, pairs, it, pair, callback, total);

                        if (!sync) {
                            if (LOG.isTraceEnabled()) {
                                LOG.trace("Processing exchangeId: " + original.getExchangeId() + " is continued being processed asynchronously");
                            }
                            return;
                        }

                        // Decide whether to continue with the multicast or not; similar logic to the Pipeline
                        // remember to test for stop on exception and aggregate before copying back results
                        continueProcessing = PipelineHelper.continueProcessing(subExchange, "Sequential processing failed for number " + total.get(), LOG);
                        if (stopOnException && !continueProcessing) {
                            if (subExchange.getException() != null) {
                                // wrap in exception to explain where it failed
                                subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                            } else {
                                // we want to stop on exception, and the exception was handled by the error handler
                                // this is similar to what the pipeline does, so we should do the same to not surprise end users
                                // so we should set the failed exchange as the result and be done
                                result.set(subExchange);
                            }
                            // and do the done work
                            doDone(original, subExchange, callback, false, true);
                            return;
                        }

                        try {
                            doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                        } catch (Throwable e) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                            // and do the done work
                            doDone(original, subExchange, callback, false, true);
                            return;
                        }

                        total.incrementAndGet();
                    }

                    // do the done work
                    subExchange = result.get() != null ? result.get() : null;
                    doDone(original, subExchange, callback, false, true);
                }
            });
        } finally {
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint

Examples of org.apache.camel.spi.TracedRouteNodes

    private void doProcessParallel(final ProcessorExchangePair pair) throws Exception {
        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            // let the prepared process it, remember to begin the exchange pair
            // we invoke it synchronously as parallel async routing is too hard
            AsyncProcessor async = AsyncProcessorTypeConverter.convert(processor);
            pair.begin();
            AsyncProcessorHelper.process(async, exchange);
        } finally {
            pair.done();
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint

Examples of org.apache.camel.spi.TracedRouteNodes

        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            // let the prepared process it, remember to begin the exchange pair
            AsyncProcessor async = AsyncProcessorTypeConverter.convert(processor);
            pair.begin();
            sync = AsyncProcessorHelper.process(async, exchange, new AsyncCallback() {
                public void done(boolean doneSync) {
                    // we are done with the exchange pair
                    pair.done();

                    // we only have to handle async completion of the routing slip
                    if (doneSync) {
                        return;
                    }

                    // continue processing the multicast asynchronously
                    Exchange subExchange = exchange;

                    // Decide whether to continue with the multicast or not; similar logic to the Pipeline
                    // remember to test for stop on exception and aggregate before copying back results
                    boolean continueProcessing = PipelineHelper.continueProcessing(subExchange, "Sequential processing failed for number " + total.get(), LOG);
                    if (stopOnException && !continueProcessing) {
                        if (subExchange.getException() != null) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                        } else {
                            // we want to stop on exception, and the exception was handled by the error handler
                            // this is similar to what the pipeline does, so we should do the same to not surprise end users
                            // so we should set the failed exchange as the result and be done
                            result.set(subExchange);
                        }
                        // and do the done work
                        doDone(original, subExchange, callback, false, true);
                        return;
                    }

                    try {
                        doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                    } catch (Throwable e) {
                        // wrap in exception to explain where it failed
                        subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                        // and do the done work
                        doDone(original, subExchange, callback, false, true);
                        return;
                    }

                    total.incrementAndGet();

                    // maybe there are more processors to multicast
                    while (it.hasNext()) {

                        // prepare and run the next
                        ProcessorExchangePair pair = it.next();
                        subExchange = pair.getExchange();
                        updateNewExchange(subExchange, total.get(), pairs, it);
                        boolean sync = doProcessSequential(original, result, pairs, it, pair, callback, total);

                        if (!sync) {
                            LOG.trace("Processing exchangeId: {} is continued being processed asynchronously", original.getExchangeId());
                            return;
                        }

                        // Decide whether to continue with the multicast or not; similar logic to the Pipeline
                        // remember to test for stop on exception and aggregate before copying back results
                        continueProcessing = PipelineHelper.continueProcessing(subExchange, "Sequential processing failed for number " + total.get(), LOG);
                        if (stopOnException && !continueProcessing) {
                            if (subExchange.getException() != null) {
                                // wrap in exception to explain where it failed
                                subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, subExchange.getException()));
                            } else {
                                // we want to stop on exception, and the exception was handled by the error handler
                                // this is similar to what the pipeline does, so we should do the same to not surprise end users
                                // so we should set the failed exchange as the result and be done
                                result.set(subExchange);
                            }
                            // and do the done work
                            doDone(original, subExchange, callback, false, true);
                            return;
                        }

                        try {
                            doAggregate(getAggregationStrategy(subExchange), result, subExchange);
                        } catch (Throwable e) {
                            // wrap in exception to explain where it failed
                            subExchange.setException(new CamelExchangeException("Sequential processing failed for number " + total, subExchange, e));
                            // and do the done work
                            doDone(original, subExchange, callback, false, true);
                            return;
                        }

                        total.incrementAndGet();
                    }

                    // do the done work
                    subExchange = result.get() != null ? result.get() : null;
                    doDone(original, subExchange, callback, false, true);
                }
            });
        } finally {
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint

Examples of org.apache.camel.spi.TracedRouteNodes

    private void doProcessParallel(final ProcessorExchangePair pair) throws Exception {
        final Exchange exchange = pair.getExchange();
        Processor processor = pair.getProcessor();
        Producer producer = pair.getProducer();

        TracedRouteNodes traced = exchange.getUnitOfWork() != null ? exchange.getUnitOfWork().getTracedRouteNodes() : null;

        // compute time taken if sending to another endpoint
        StopWatch watch = null;
        if (producer != null) {
            watch = new StopWatch();
        }

        try {
            // prepare tracing starting from a new block
            if (traced != null) {
                traced.pushBlock();
            }

            // let the prepared process it, remember to begin the exchange pair
            // we invoke it synchronously as parallel async routing is too hard
            AsyncProcessor async = AsyncProcessorTypeConverter.convert(processor);
            pair.begin();
            AsyncProcessorHelper.process(async, exchange);
        } finally {
            pair.done();
            // pop the block so by next round we have the same staring point and thus the tracing looks accurate
            if (traced != null) {
                traced.popBlock();
            }
            if (producer != null) {
                long timeTaken = watch.stop();
                Endpoint endpoint = producer.getEndpoint();
                // emit event that the exchange was sent to the endpoint