static {
final Map<String, XmlElement> map = new HashMap<String, XmlElement>();
for (final XmlElement element : values()) {
final String name = element.getLocalName();
if (name != null) {
map.put(name, element);
}
}
MAP = map;
}
private static RefArtifact parseRefArtifact(
final XMLStreamReader reader, final XmlElement artifactElementType)
throws XMLStreamException {
final RefArtifact refArtifact =
new RefArtifact(getAttributeValue(reader, XmlAttribute.REF, true));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
if (element == XmlElement.PROPERTIES) {
refArtifact.setProperties(parseProperties(reader));
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == artifactElementType) {
return refArtifact;
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static ExceptionClassFilter parseExceptionClassFilter(
final XMLStreamReader reader, final XmlElement artifactElementType)
throws XMLStreamException {
final ExceptionClassFilter filter = new ExceptionClassFilter();
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case INCLUDE:
filter.addInclude(getAttributeValue(reader, XmlAttribute.CLASS, true));
break;
case EXCLUDE:
filter.addExclude(getAttributeValue(reader, XmlAttribute.CLASS, true));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == artifactElementType) {
return filter;
} else if (element != XmlElement.INCLUDE && element != XmlElement.EXCLUDE) {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static PartitionPlan parsePartitionPlan(final XMLStreamReader reader)
throws XMLStreamException {
final PartitionPlan partitionPlan = new PartitionPlan();
partitionPlan.setThreads(getAttributeValue(reader, XmlAttribute.THREADS, false));
partitionPlan.setPartitions(getAttributeValue(reader, XmlAttribute.PARTITIONS, false));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
if (element == XmlElement.PROPERTIES) {
partitionPlan.addProperties(parseProperties(reader));
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == XmlElement.PLAN) {
return partitionPlan;
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static Properties parseProperties(final XMLStreamReader reader)
throws XMLStreamException {
final Properties properties = new Properties();
properties.setPartition(getAttributeValue(reader, XmlAttribute.PARTITION, false));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
if (element == XmlElement.PROPERTY) {
properties.add(
getAttributeValue(reader, XmlAttribute.NAME, true),
getAttributeValue(reader, XmlAttribute.VALUE, false));
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == XmlElement.PROPERTIES) {
return properties;
} else if (element != XmlElement.PROPERTY) {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static List<RefArtifact> parseListeners(final XMLStreamReader reader)
throws XMLStreamException {
final List<RefArtifact> listeners = new ArrayList<RefArtifact>();
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
if (element == XmlElement.LISTENER) {
listeners.add(parseRefArtifact(reader, element));
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == XmlElement.LISTENERS) {
return listeners;
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static Split parseSplit(final XMLStreamReader reader) throws XMLStreamException {
final Split split = new Split(getAttributeValue(reader, XmlAttribute.ID, true));
split.setAttributeNext(getAttributeValue(reader, XmlAttribute.NEXT, false));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
if (element == XmlElement.FLOW) {
split.addFlow(parseFlow(reader));
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == XmlElement.SPLIT) {
return split;
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static Chunk parseChunk(final XMLStreamReader reader) throws XMLStreamException {
final Chunk chunk = new Chunk();
chunk.setCheckpointPolicy(getAttributeValue(reader, XmlAttribute.CHECKPOINT_POLICY, false));
chunk.setItemCount(getAttributeValue(reader, XmlAttribute.ITEM_COUNT, false));
chunk.setTimeLimit(getAttributeValue(reader, XmlAttribute.TIME_LIMIT, false));
chunk.setSkipLimit(getAttributeValue(reader, XmlAttribute.SKIP_LIMIT, false));
chunk.setRetryLimit(getAttributeValue(reader, XmlAttribute.RETRY_LIMIT, false));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case READER:
chunk.setReader(parseRefArtifact(reader, XmlElement.READER));
break;
case PROCESSOR:
chunk.setProcessor(parseRefArtifact(reader, XmlElement.PROCESSOR));
break;
case WRITER:
chunk.setWriter(parseRefArtifact(reader, XmlElement.WRITER));
break;
case CHECKPOINT_ALGORITHM:
chunk.setCheckpointAlgorithm(
parseRefArtifact(reader, XmlElement.CHECKPOINT_ALGORITHM));
break;
case SKIPPABLE_EXCEPTION_CLASSES:
chunk.setSkippableExceptionClasses(
parseExceptionClassFilter(reader, XmlElement.SKIPPABLE_EXCEPTION_CLASSES));
break;
case RETRYABLE_EXCEPTION_CLASSES:
chunk.setRetryableExceptionClasses(
parseExceptionClassFilter(reader, XmlElement.RETRYABLE_EXCEPTION_CLASSES));
break;
case NO_ROLLBACK_EXCEPTION_CLASSES:
chunk.setNoRollbackExceptionClasses(
parseExceptionClassFilter(reader, XmlElement.NO_ROLLBACK_EXCEPTION_CLASSES));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == XmlElement.CHUNK) {
return chunk;
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static Flow parseFlow(final XMLStreamReader reader) throws XMLStreamException {
final Flow flow = new Flow(getAttributeValue(reader, XmlAttribute.ID, true));
flow.setAttributeNext(getAttributeValue(reader, XmlAttribute.NEXT, false));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case DECISION:
flow.addJobElement(parseDecision(reader));
break;
case FLOW:
flow.addJobElement(parseFlow(reader));
break;
case SPLIT:
flow.addJobElement(parseSplit(reader));
break;
case STEP:
flow.addJobElement(parseStep(reader));
break;
case NEXT:
if (flow.getAttributeNext() != null) {
throw BatchLogger.LOGGER.cannotHaveBothNextAttributeAndElement(
reader.getLocation(), flow.getAttributeNext());
}
flow.addTransitionElement(parseNext(reader));
break;
case FAIL:
flow.addTransitionElement(parseFail(reader));
break;
case END:
flow.addTransitionElement(parseEnd(reader));
break;
case STOP:
flow.addTransitionElement(parseStop(reader));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
switch (element) {
case FLOW:
return flow;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
/**
* Parses a job xml file, which defines a batch job.
*
* @param inputStream the source of the job xml definition
* @return a Job object
* @throws XMLStreamException
*/
public static Job parseJob(final InputStream inputStream) throws XMLStreamException {
final XMLStreamReader reader = XMLInputFactory.newInstance().createXMLStreamReader(inputStream);
Job job = null;
try {
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case JOB:
job = new Job(getAttributeValue(reader, XmlAttribute.ID, true));
job.setRestartable(getAttributeValue(reader, XmlAttribute.RESTARTABLE, false));
break;
case STEP:
job.addJobElement(parseStep(reader));
break;
case FLOW:
job.addJobElement(parseFlow(reader));
break;
case SPLIT:
job.addJobElement(parseSplit(reader));
break;
case DECISION:
job.addJobElement(parseDecision(reader));
break;
case PROPERTIES:
job.setProperties(parseProperties(reader));
break;
case LISTENERS:
job.addListeners(parseListeners(reader));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element != XmlElement.JOB) {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
} finally {
reader.close();
}
return job;
}
private static void finishTransitionElement(
final XMLStreamReader reader, final XmlElement transitionElement) throws XMLStreamException {
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
if (eventType == END_ELEMENT && element == transitionElement) {
return;
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static Decision parseDecision(final XMLStreamReader reader) throws XMLStreamException {
final Decision decision =
new Decision(
getAttributeValue(reader, XmlAttribute.ID, true),
getAttributeValue(reader, XmlAttribute.REF, true));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case PROPERTIES:
decision.setProperties(parseProperties(reader));
break;
case NEXT:
decision.addTransitionElement(parseNext(reader));
break;
case FAIL:
decision.addTransitionElement(parseFail(reader));
break;
case END:
decision.addTransitionElement(parseEnd(reader));
break;
case STOP:
decision.addTransitionElement(parseStop(reader));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
switch (element) {
case DECISION:
return decision;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
private static Partition parsePartition(final XMLStreamReader reader) throws XMLStreamException {
final Partition partition = new Partition();
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case MAPPER:
partition.setMapper(parseRefArtifact(reader, XmlElement.MAPPER));
break;
case PLAN:
partition.setPlan(parsePartitionPlan(reader));
break;
case COLLECTOR:
partition.setCollector(parseRefArtifact(reader, XmlElement.COLLECTOR));
break;
case ANALYZER:
partition.setAnalyzer(parseRefArtifact(reader, XmlElement.ANALYZER));
break;
case REDUCER:
partition.setReducer(parseRefArtifact(reader, XmlElement.REDUCER));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element == XmlElement.PARTITION) {
return partition;
} else {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}
/**
* Parses batch.xml, which declares batch artifacts in xml format.
*
* @param inputStream source of the batch.xml
* @return a BatchArtifacts object
* @throws XMLStreamException
*/
public static BatchArtifacts parseBatchArtifacts(final InputStream inputStream)
throws XMLStreamException {
final XMLStreamReader reader = XMLInputFactory.newInstance().createXMLStreamReader(inputStream);
BatchArtifacts batchArtifacts = null;
try {
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case BATCH_ARTIFACTS:
batchArtifacts = new BatchArtifacts();
break;
case REF:
batchArtifacts.addRef(
getAttributeValue(reader, XmlAttribute.ID, true),
getAttributeValue(reader, XmlAttribute.CLASS, true));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
if (element != XmlElement.BATCH_ARTIFACTS && element != XmlElement.REF) {
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
} finally {
reader.close();
}
return batchArtifacts;
}
private static Step parseStep(final XMLStreamReader reader) throws XMLStreamException {
final Step step = new Step(getAttributeValue(reader, XmlAttribute.ID, true));
step.setStartLimit(getAttributeValue(reader, XmlAttribute.START_LIMIT, false));
step.setAllowStartIfComplete(
getAttributeValue(reader, XmlAttribute.ALLOW_START_IF_COMPLETE, false));
step.setAttributeNext(getAttributeValue(reader, XmlAttribute.NEXT, false));
while (reader.hasNext()) {
final int eventType = reader.next();
if (eventType != START_ELEMENT && eventType != END_ELEMENT) {
continue;
}
final XmlElement element = XmlElement.forName(reader.getLocalName());
switch (eventType) {
case START_ELEMENT:
switch (element) {
case PROPERTIES:
step.setProperties(parseProperties(reader));
break;
case LISTENERS:
step.addListeners(parseListeners(reader));
break;
case BATCHLET:
step.setBatchlet(parseRefArtifact(reader, XmlElement.BATCHLET));
break;
case CHUNK:
step.setChunk(parseChunk(reader));
break;
case PARTITION:
step.setPartition(parsePartition(reader));
break;
case NEXT:
if (step.getAttributeNext() != null) {
throw BatchLogger.LOGGER.cannotHaveBothNextAttributeAndElement(
reader.getLocation(), step.getAttributeNext());
}
step.addTransitionElement(parseNext(reader));
break;
case FAIL:
step.addTransitionElement(parseFail(reader));
break;
case END:
step.addTransitionElement(parseEnd(reader));
break;
case STOP:
step.addTransitionElement(parseStop(reader));
break;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
break;
case END_ELEMENT:
switch (element) {
case STEP:
return step;
default:
throw BatchLogger.LOGGER.unexpectedXmlElement(
reader.getLocalName(), reader.getLocation());
}
}
}
throw BatchLogger.LOGGER.unexpectedXmlElement(reader.getLocalName(), reader.getLocation());
}