use of org.apache.cxf.ws.rm.v200702.SequenceType in project cxf by apache.
the class EncoderDecoder11Impl method decodeSequenceType.
public SequenceType decodeSequenceType(Element elem) throws JAXBException {
Unmarshaller unmarshaller = getContext().createUnmarshaller();
JAXBElement<SequenceType> jaxbElement = unmarshaller.unmarshal(elem, SequenceType.class);
return jaxbElement.getValue();
}
use of org.apache.cxf.ws.rm.v200702.SequenceType in project cxf by apache.
the class RedeliveryQueueImpl method getRedeliveryStatuses.
public Map<Long, RetryStatus> getRedeliveryStatuses(DestinationSequence seq) {
Map<Long, RetryStatus> cp = new HashMap<>();
List<RedeliverCandidate> sequenceCandidates = getSequenceCandidates(seq);
if (null != sequenceCandidates) {
for (int i = 0; i < sequenceCandidates.size(); i++) {
RedeliverCandidate candidate = sequenceCandidates.get(i);
RMProperties properties = RMContextUtils.retrieveRMProperties(candidate.getMessage(), false);
SequenceType st = properties.getSequence();
cp.put(st.getMessageNumber(), candidate);
}
}
return cp;
}
use of org.apache.cxf.ws.rm.v200702.SequenceType in project cxf by apache.
the class RedeliveryQueueImpl method purgeDelivered.
protected void purgeDelivered(RedeliverCandidate candidate) {
RMProperties rmps = RMContextUtils.retrieveRMProperties(candidate.getMessage(), false);
SequenceType st = rmps.getSequence();
Identifier sid = st.getIdentifier();
String key = sid.getValue();
synchronized (this) {
List<RedeliverCandidate> sequenceCandidates = getSequenceCandidates(key);
if (null != sequenceCandidates) {
// TODO use a constant op instead of this inefficient linear op
sequenceCandidates.remove(candidate);
undeliveredCount--;
}
if (sequenceCandidates.isEmpty()) {
candidates.remove(sid.getValue());
}
}
LOG.fine("Purged delivered message.");
}
use of org.apache.cxf.ws.rm.v200702.SequenceType in project cxf by apache.
the class RedeliveryQueueImpl method cacheUndelivered.
/**
* Accepts a new resend candidate.
*
* @param ctx the message context.
* @return ResendCandidate
*/
protected RedeliverCandidate cacheUndelivered(Message message) {
RMProperties rmps = RMContextUtils.retrieveRMProperties(message, false);
SequenceType st = rmps.getSequence();
Identifier sid = st.getIdentifier();
String key = sid.getValue();
RedeliverCandidate candidate = null;
synchronized (this) {
List<RedeliverCandidate> sequenceCandidates = getSequenceCandidates(key);
if (null == sequenceCandidates) {
sequenceCandidates = new ArrayList<>();
candidates.put(key, sequenceCandidates);
}
candidate = getRedeliverCandidate(st, sequenceCandidates);
if (candidate == null) {
candidate = new RedeliverCandidate(message);
if (isSequenceSuspended(key)) {
candidate.suspend();
}
sequenceCandidates.add(candidate);
undeliveredCount++;
}
}
LOG.fine("Cached undelivered message.");
return candidate;
}
use of org.apache.cxf.ws.rm.v200702.SequenceType in project cxf by apache.
the class RetransmissionQueueImpl method doResend.
private void doResend(SoapMessage message) {
InputStream is = null;
try {
// initialize copied interceptor chain for message
PhaseInterceptorChain retransmitChain = manager.getRetransmitChain(message);
ProtocolVariation protocol = RMContextUtils.getProtocolVariation(message);
Endpoint endpoint = manager.getReliableEndpoint(message).getEndpoint(protocol);
PhaseChainCache cache = new PhaseChainCache();
boolean after = true;
if (retransmitChain == null) {
// no saved retransmit chain, so construct one from scratch (won't work for WS-Security on server, so
// need to fix)
retransmitChain = buildRetransmitChain(endpoint, cache);
after = false;
}
message.setInterceptorChain(retransmitChain);
// clear flag for SOAP out interceptor so envelope will be written
message.remove(SoapOutInterceptor.WROTE_ENVELOPE_START);
// discard all saved content
Set<Class<?>> formats = message.getContentFormats();
List<CachedOutputStreamCallback> callbacks = null;
for (Class<?> clas : formats) {
Object content = message.getContent(clas);
if (content != null) {
LOG.info("Removing " + clas.getName() + " content of actual type " + content.getClass().getName());
message.removeContent(clas);
if (clas == OutputStream.class && content instanceof WriteOnCloseOutputStream) {
callbacks = ((WriteOnCloseOutputStream) content).getCallbacks();
}
}
}
// read SOAP headers from saved input stream
CachedOutputStream cos = (CachedOutputStream) message.get(RMMessageConstants.SAVED_CONTENT);
// CachedOutputStream is hold until delivering was successful
cos.holdTempFile();
// instance is needed to close input stream later on
is = cos.getInputStream();
XMLStreamReader reader = StaxUtils.createXMLStreamReader(is, StandardCharsets.UTF_8.name());
message.getHeaders().clear();
if (reader.getEventType() != XMLStreamConstants.START_ELEMENT && reader.nextTag() != XMLStreamConstants.START_ELEMENT) {
throw new IllegalStateException("No document found");
}
readHeaders(reader, message);
int event;
while ((event = reader.nextTag()) != XMLStreamConstants.START_ELEMENT) {
if (event == XMLStreamConstants.END_ELEMENT) {
throw new IllegalStateException("No body content present");
}
}
// set message addressing properties
AddressingProperties maps = MAPCodec.getInstance(message.getExchange().getBus()).unmarshalMAPs(message);
RMContextUtils.storeMAPs(maps, message, true, MessageUtils.isRequestor(message));
AttributedURIType to = null;
if (null != maps) {
to = maps.getTo();
}
if (null == to) {
LOG.log(Level.SEVERE, "NO_ADDRESS_FOR_RESEND_MSG");
return;
}
if (RMUtils.getAddressingConstants().getAnonymousURI().equals(to.getValue())) {
LOG.log(Level.FINE, "Cannot resend to anonymous target");
return;
}
// initialize conduit for new message
Conduit c = message.getExchange().getConduit(message);
if (c == null) {
c = buildConduit(message, endpoint, to);
}
c.prepare(message);
// replace standard message marshaling with copy from saved stream
ListIterator<Interceptor<? extends Message>> iterator = retransmitChain.getIterator();
while (iterator.hasNext()) {
Interceptor<? extends Message> incept = iterator.next();
// remove JAX-WS interceptors which handle message modes and such
if (incept.getClass().getName().startsWith("org.apache.cxf.jaxws.interceptors")) {
retransmitChain.remove(incept);
} else if (incept instanceof PhaseInterceptor && (((PhaseInterceptor<?>) incept).getPhase() == Phase.MARSHAL)) {
// remove any interceptors from the marshal phase
retransmitChain.remove(incept);
}
}
retransmitChain.add(new CopyOutInterceptor(reader));
// restore callbacks on output stream
if (callbacks != null) {
OutputStream os = message.getContent(OutputStream.class);
if (os != null) {
WriteOnCloseOutputStream woc;
if (os instanceof WriteOnCloseOutputStream) {
woc = (WriteOnCloseOutputStream) os;
} else {
woc = new WriteOnCloseOutputStream(os);
message.setContent(OutputStream.class, woc);
}
for (CachedOutputStreamCallback cb : callbacks) {
woc.registerCallback(cb);
}
}
}
// send the message
message.put(RMMessageConstants.RM_RETRANSMISSION, Boolean.TRUE);
if (after) {
retransmitChain.doInterceptStartingAfter(message, RMCaptureOutInterceptor.class.getName());
} else {
retransmitChain.doIntercept(message);
}
if (LOG.isLoggable(Level.INFO)) {
RMProperties rmps = RMContextUtils.retrieveRMProperties(message, true);
SequenceType seq = rmps.getSequence();
LOG.log(Level.INFO, "Retransmitted message " + seq.getMessageNumber() + " in sequence " + seq.getIdentifier().getValue());
rmps = new RMProperties();
}
} catch (Exception ex) {
LOG.log(Level.SEVERE, "RESEND_FAILED_MSG", ex);
} finally {
// make sure to always close InputStreams of the CachedOutputStream to avoid leaving temp files undeleted
if (null != is) {
try {
is.close();
} catch (IOException e) {
// Ignore
}
}
}
}
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