Example 11 with FlowSerializationException
use of org.apache.nifi.controller.serialization.FlowSerializationException in project nifi by apache.
the class StandardFlowSynchronizer method sync.
@Override
public void sync(final FlowController controller, final DataFlow proposedFlow, final StringEncryptor encryptor) throws FlowSerializationException, UninheritableFlowException, FlowSynchronizationException, MissingBundleException {
// handle corner cases involving no proposed flow
if (proposedFlow == null) {
if (controller.getGroup(controller.getRootGroupId()).isEmpty()) {
// no sync to perform
return;
} else {
throw new UninheritableFlowException("Proposed configuration is empty, but the controller contains a data flow.");
}
}
// determine if the controller already had flow sync'd to it
final boolean flowAlreadySynchronized = controller.isFlowSynchronized();
logger.debug("Synching FlowController with proposed flow: Controller is Already Synchronized = {}", flowAlreadySynchronized);
// serialize controller state to bytes
final byte[] existingFlow;
final boolean existingFlowEmpty;
try {
if (flowAlreadySynchronized) {
existingFlow = toBytes(controller);
existingFlowEmpty = controller.getGroup(controller.getRootGroupId()).isEmpty() && controller.getAllReportingTasks().isEmpty() && controller.getAllControllerServices().isEmpty() && controller.getFlowRegistryClient().getRegistryIdentifiers().isEmpty();
} else {
existingFlow = readFlowFromDisk();
if (existingFlow == null || existingFlow.length == 0) {
existingFlowEmpty = true;
} else {
final Document document = parseFlowBytes(existingFlow);
final Element rootElement = document.getDocumentElement();
final FlowEncodingVersion encodingVersion = FlowEncodingVersion.parse(rootElement);
logger.trace("Setting controller thread counts");
final Integer maxThreadCount = getInteger(rootElement, "maxThreadCount");
if (maxThreadCount == null) {
controller.setMaxTimerDrivenThreadCount(getInt(rootElement, "maxTimerDrivenThreadCount"));
controller.setMaxEventDrivenThreadCount(getInt(rootElement, "maxEventDrivenThreadCount"));
} else {
controller.setMaxTimerDrivenThreadCount(maxThreadCount * 2 / 3);
controller.setMaxEventDrivenThreadCount(maxThreadCount / 3);
}
final Element reportingTasksElement = DomUtils.getChild(rootElement, "reportingTasks");
final List<Element> taskElements;
if (reportingTasksElement == null) {
taskElements = Collections.emptyList();
} else {
taskElements = DomUtils.getChildElementsByTagName(reportingTasksElement, "reportingTask");
}
final Element controllerServicesElement = DomUtils.getChild(rootElement, "controllerServices");
final List<Element> unrootedControllerServiceElements;
if (controllerServicesElement == null) {
unrootedControllerServiceElements = Collections.emptyList();
} else {
unrootedControllerServiceElements = DomUtils.getChildElementsByTagName(controllerServicesElement, "controllerService");
}
final boolean registriesPresent;
final Element registriesElement = DomUtils.getChild(rootElement, "registries");
if (registriesElement == null) {
registriesPresent = false;
} else {
final List<Element> flowRegistryElems = DomUtils.getChildElementsByTagName(registriesElement, "flowRegistry");
registriesPresent = !flowRegistryElems.isEmpty();
}
logger.trace("Parsing process group from DOM");
final Element rootGroupElement = (Element) rootElement.getElementsByTagName("rootGroup").item(0);
final ProcessGroupDTO rootGroupDto = FlowFromDOMFactory.getProcessGroup(null, rootGroupElement, encryptor, encodingVersion);
existingFlowEmpty = taskElements.isEmpty() && unrootedControllerServiceElements.isEmpty() && isEmpty(rootGroupDto) && !registriesPresent;
logger.debug("Existing Flow Empty = {}", existingFlowEmpty);
}
}
} catch (final IOException e) {
throw new FlowSerializationException(e);
}
logger.trace("Exporting snippets from controller");
final byte[] existingSnippets = controller.getSnippetManager().export();
logger.trace("Getting Authorizer fingerprint from controller");
final byte[] existingAuthFingerprint;
final ManagedAuthorizer managedAuthorizer;
final Authorizer authorizer = controller.getAuthorizer();
if (AuthorizerCapabilityDetection.isManagedAuthorizer(authorizer)) {
managedAuthorizer = (ManagedAuthorizer) authorizer;
existingAuthFingerprint = managedAuthorizer.getFingerprint().getBytes(StandardCharsets.UTF_8);
} else {
existingAuthFingerprint = null;
managedAuthorizer = null;
}
final Set<String> missingComponents = new HashSet<>();
controller.getAllControllerServices().stream().filter(cs -> cs.isExtensionMissing()).forEach(cs -> missingComponents.add(cs.getIdentifier()));
controller.getAllReportingTasks().stream().filter(r -> r.isExtensionMissing()).forEach(r -> missingComponents.add(r.getIdentifier()));
controller.getRootGroup().findAllProcessors().stream().filter(p -> p.isExtensionMissing()).forEach(p -> missingComponents.add(p.getIdentifier()));
final DataFlow existingDataFlow = new StandardDataFlow(existingFlow, existingSnippets, existingAuthFingerprint, missingComponents);
Document configuration = null;
// check that the proposed flow is inheritable by the controller
try {
if (existingFlowEmpty) {
configuration = parseFlowBytes(proposedFlow.getFlow());
if (configuration != null) {
logger.trace("Checking bundle compatibility");
checkBundleCompatibility(configuration);
}
} else {
logger.trace("Checking flow inheritability");
final String problemInheritingFlow = checkFlowInheritability(existingDataFlow, proposedFlow, controller);
if (problemInheritingFlow != null) {
throw new UninheritableFlowException("Proposed configuration is not inheritable by the flow controller because of flow differences: " + problemInheritingFlow);
}
}
} catch (final FingerprintException fe) {
throw new FlowSerializationException("Failed to generate flow fingerprints", fe);
}
logger.trace("Checking missing component inheritability");
final String problemInheritingMissingComponents = checkMissingComponentsInheritability(existingDataFlow, proposedFlow);
if (problemInheritingMissingComponents != null) {
throw new UninheritableFlowException("Proposed Flow is not inheritable by the flow controller because of differences in missing components: " + problemInheritingMissingComponents);
}
logger.trace("Checking authorizer inheritability");
final AuthorizerInheritability authInheritability = checkAuthorizerInheritability(authorizer, existingDataFlow, proposedFlow);
if (!authInheritability.isInheritable() && authInheritability.getReason() != null) {
throw new UninheritableFlowException("Proposed Authorizer is not inheritable by the flow controller because of Authorizer differences: " + authInheritability.getReason());
}
// create document by parsing proposed flow bytes
logger.trace("Parsing proposed flow bytes as DOM document");
if (configuration == null) {
configuration = parseFlowBytes(proposedFlow.getFlow());
}
// attempt to sync controller with proposed flow
try {
if (configuration != null) {
synchronized (configuration) {
// get the root element
final Element rootElement = (Element) configuration.getElementsByTagName("flowController").item(0);
final FlowEncodingVersion encodingVersion = FlowEncodingVersion.parse(rootElement);
// set controller config
logger.trace("Updating flow config");
final Integer maxThreadCount = getInteger(rootElement, "maxThreadCount");
if (maxThreadCount == null) {
controller.setMaxTimerDrivenThreadCount(getInt(rootElement, "maxTimerDrivenThreadCount"));
controller.setMaxEventDrivenThreadCount(getInt(rootElement, "maxEventDrivenThreadCount"));
} else {
controller.setMaxTimerDrivenThreadCount(maxThreadCount * 2 / 3);
controller.setMaxEventDrivenThreadCount(maxThreadCount / 3);
}
// get the root group XML element
final Element rootGroupElement = (Element) rootElement.getElementsByTagName("rootGroup").item(0);
if (!flowAlreadySynchronized || existingFlowEmpty) {
final Element registriesElement = DomUtils.getChild(rootElement, "registries");
if (registriesElement != null) {
final List<Element> flowRegistryElems = DomUtils.getChildElementsByTagName(registriesElement, "flowRegistry");
for (final Element flowRegistryElement : flowRegistryElems) {
final String registryId = getString(flowRegistryElement, "id");
final String registryName = getString(flowRegistryElement, "name");
final String registryUrl = getString(flowRegistryElement, "url");
final String description = getString(flowRegistryElement, "description");
final FlowRegistryClient client = controller.getFlowRegistryClient();
client.addFlowRegistry(registryId, registryName, registryUrl, description);
}
}
}
// if this controller isn't initialized or its empty, add the root group, otherwise update
final ProcessGroup rootGroup;
if (!flowAlreadySynchronized || existingFlowEmpty) {
logger.trace("Adding root process group");
rootGroup = addProcessGroup(controller, /* parent group */
null, rootGroupElement, encryptor, encodingVersion);
} else {
logger.trace("Updating root process group");
rootGroup = updateProcessGroup(controller, /* parent group */
null, rootGroupElement, encryptor, encodingVersion);
}
rootGroup.findAllRemoteProcessGroups().forEach(RemoteProcessGroup::initialize);
// If there are any Templates that do not exist in the Proposed Flow that do exist in the 'existing flow', we need
// to ensure that we also add those to the appropriate Process Groups, so that we don't lose them.
final Document existingFlowConfiguration = parseFlowBytes(existingFlow);
if (existingFlowConfiguration != null) {
final Element existingRootElement = (Element) existingFlowConfiguration.getElementsByTagName("flowController").item(0);
if (existingRootElement != null) {
final Element existingRootGroupElement = (Element) existingRootElement.getElementsByTagName("rootGroup").item(0);
if (existingRootElement != null) {
final FlowEncodingVersion existingEncodingVersion = FlowEncodingVersion.parse(existingFlowConfiguration.getDocumentElement());
addLocalTemplates(existingRootGroupElement, rootGroup, existingEncodingVersion);
}
}
}
// get all the reporting task elements
final Element reportingTasksElement = DomUtils.getChild(rootElement, "reportingTasks");
final List<Element> reportingTaskElements = new ArrayList<>();
if (reportingTasksElement != null) {
reportingTaskElements.addAll(DomUtils.getChildElementsByTagName(reportingTasksElement, "reportingTask"));
}
// get/create all the reporting task nodes and DTOs, but don't apply their scheduled state yet
final Map<ReportingTaskNode, ReportingTaskDTO> reportingTaskNodesToDTOs = new HashMap<>();
for (final Element taskElement : reportingTaskElements) {
final ReportingTaskDTO dto = FlowFromDOMFactory.getReportingTask(taskElement, encryptor);
final ReportingTaskNode reportingTask = getOrCreateReportingTask(controller, dto, flowAlreadySynchronized, existingFlowEmpty);
reportingTaskNodesToDTOs.put(reportingTask, dto);
}
final Element controllerServicesElement = DomUtils.getChild(rootElement, "controllerServices");
if (controllerServicesElement != null) {
final List<Element> serviceElements = DomUtils.getChildElementsByTagName(controllerServicesElement, "controllerService");
if (!flowAlreadySynchronized || existingFlowEmpty) {
// If the encoding version is null, we are loading a flow from NiFi 0.x, where Controller
// Services could not be scoped by Process Group. As a result, we want to move the Process Groups
// to the root Group. Otherwise, we want to use a null group, which indicates a Controller-level
// Controller Service.
final ProcessGroup group = (encodingVersion == null) ? rootGroup : null;
final Map<ControllerServiceNode, Element> controllerServices = ControllerServiceLoader.loadControllerServices(serviceElements, controller, group, encryptor);
// reference them, and if so we need to clone the CS and update the reporting task reference
if (group != null) {
// find all the controller service ids referenced by reporting tasks
final Set<String> controllerServicesInReportingTasks = reportingTaskNodesToDTOs.keySet().stream().flatMap(r -> r.getProperties().entrySet().stream()).filter(e -> e.getKey().getControllerServiceDefinition() != null).map(e -> e.getValue()).collect(Collectors.toSet());
// find the controller service nodes for each id referenced by a reporting task
final Set<ControllerServiceNode> controllerServicesToClone = controllerServices.keySet().stream().filter(cs -> controllerServicesInReportingTasks.contains(cs.getIdentifier())).collect(Collectors.toSet());
// clone the controller services and map the original id to the clone
final Map<String, ControllerServiceNode> controllerServiceMapping = new HashMap<>();
for (ControllerServiceNode controllerService : controllerServicesToClone) {
final ControllerServiceNode clone = ControllerServiceLoader.cloneControllerService(controller, controllerService);
controller.addRootControllerService(clone);
controllerServiceMapping.put(controllerService.getIdentifier(), clone);
}
// update the reporting tasks to reference the cloned controller services
updateReportingTaskControllerServices(reportingTaskNodesToDTOs.keySet(), controllerServiceMapping);
// enable all the cloned controller services
ControllerServiceLoader.enableControllerServices(controllerServiceMapping.values(), controller, autoResumeState);
}
// enable all the original controller services
ControllerServiceLoader.enableControllerServices(controllerServices, controller, encryptor, autoResumeState);
}
}
scaleRootGroup(rootGroup, encodingVersion);
// now that controller services are loaded and enabled we can apply the scheduled state to each reporting task
for (Map.Entry<ReportingTaskNode, ReportingTaskDTO> entry : reportingTaskNodesToDTOs.entrySet()) {
applyReportingTaskScheduleState(controller, entry.getValue(), entry.getKey(), flowAlreadySynchronized, existingFlowEmpty);
}
}
}
// clear the snippets that are currently in memory
logger.trace("Clearing existing snippets");
final SnippetManager snippetManager = controller.getSnippetManager();
snippetManager.clear();
// if proposed flow has any snippets, load them
logger.trace("Loading proposed snippets");
final byte[] proposedSnippets = proposedFlow.getSnippets();
if (proposedSnippets != null && proposedSnippets.length > 0) {
for (final StandardSnippet snippet : SnippetManager.parseBytes(proposedSnippets)) {
snippetManager.addSnippet(snippet);
}
}
// if auths are inheritable and we have a policy based authorizer, then inherit
if (authInheritability.isInheritable() && managedAuthorizer != null) {
logger.trace("Inheriting authorizations");
final String proposedAuthFingerprint = new String(proposedFlow.getAuthorizerFingerprint(), StandardCharsets.UTF_8);
managedAuthorizer.inheritFingerprint(proposedAuthFingerprint);
}
logger.debug("Finished syncing flows");
} catch (final Exception ex) {
throw new FlowSynchronizationException(ex);
}
}
Also used :
Arrays(java.util.Arrays)
GZIPInputStream(java.util.zip.GZIPInputStream)
Size(org.apache.nifi.connectable.Size)
ConnectionDTO(org.apache.nifi.web.api.dto.ConnectionDTO)
StringUtils(org.apache.commons.lang3.StringUtils)
PropertyDescriptor(org.apache.nifi.components.PropertyDescriptor)
PositionDTO(org.apache.nifi.web.api.dto.PositionDTO)
ProcessGroupDTO(org.apache.nifi.web.api.dto.ProcessGroupDTO)
Document(org.w3c.dom.Document)
Map(java.util.Map)
FlowSerializationException(org.apache.nifi.controller.serialization.FlowSerializationException)
RootGroupPort(org.apache.nifi.remote.RootGroupPort)
Connectable(org.apache.nifi.connectable.Connectable)
Connection(org.apache.nifi.connectable.Connection)
Path(java.nio.file.Path)
FunnelDTO(org.apache.nifi.web.api.dto.FunnelDTO)
LoggingXmlParserErrorHandler(org.apache.nifi.util.LoggingXmlParserErrorHandler)
FlowFilePrioritizer(org.apache.nifi.flowfile.FlowFilePrioritizer)
FileUtils(org.apache.nifi.util.file.FileUtils)
Set(java.util.Set)
StandardFlowSerializer(org.apache.nifi.controller.serialization.StandardFlowSerializer)
StandardCharsets(java.nio.charset.StandardCharsets)
StandardDataFlow(org.apache.nifi.cluster.protocol.StandardDataFlow)
PortDTO(org.apache.nifi.web.api.dto.PortDTO)
AuthorizerCapabilityDetection(org.apache.nifi.authorization.AuthorizerCapabilityDetection)
Position(org.apache.nifi.connectable.Position)
RemoteProcessGroup(org.apache.nifi.groups.RemoteProcessGroup)
DocumentBuilderFactory(javax.xml.parsers.DocumentBuilderFactory)
StandardVersionControlInformation(org.apache.nifi.registry.flow.StandardVersionControlInformation)
ByteArrayOutputStream(java.io.ByteArrayOutputStream)
SiteToSiteTransportProtocol(org.apache.nifi.remote.protocol.SiteToSiteTransportProtocol)
ReportingInitializationContext(org.apache.nifi.reporting.ReportingInitializationContext)
Schema(javax.xml.validation.Schema)
CollectionUtils(org.apache.commons.collections4.CollectionUtils)
ArrayList(java.util.ArrayList)
Relationship(org.apache.nifi.processor.Relationship)
VersionedFlowState(org.apache.nifi.registry.flow.VersionedFlowState)
SchemaFactory(javax.xml.validation.SchemaFactory)
Files(java.nio.file.Files)
FlowEncodingVersion(org.apache.nifi.controller.serialization.FlowEncodingVersion)
IOException(java.io.IOException)
ExecutionNode(org.apache.nifi.scheduling.ExecutionNode)
BulletinFactory(org.apache.nifi.events.BulletinFactory)
Authorizer(org.apache.nifi.authorization.Authorizer)
NiFiProperties(org.apache.nifi.util.NiFiProperties)
FlowFromDOMFactory(org.apache.nifi.controller.serialization.FlowFromDOMFactory)
DocumentBuilder(javax.xml.parsers.DocumentBuilder)
Severity(org.apache.nifi.reporting.Severity)
ProcessorInstantiationException(org.apache.nifi.controller.exception.ProcessorInstantiationException)
ControllerServiceLoader(org.apache.nifi.controller.service.ControllerServiceLoader)
ProcessGroup(org.apache.nifi.groups.ProcessGroup)
BundleCoordinate(org.apache.nifi.bundle.BundleCoordinate)
ProcessorConfigDTO(org.apache.nifi.web.api.dto.ProcessorConfigDTO)
URL(java.net.URL)
InitializationException(org.apache.nifi.reporting.InitializationException)
ConnectableType(org.apache.nifi.connectable.ConnectableType)
LoggerFactory(org.slf4j.LoggerFactory)
Port(org.apache.nifi.connectable.Port)
FingerprintException(org.apache.nifi.fingerprint.FingerprintException)
BundleDTO(org.apache.nifi.web.api.dto.BundleDTO)
ReportingTaskInstantiationException(org.apache.nifi.controller.reporting.ReportingTaskInstantiationException)
FlowSynchronizer(org.apache.nifi.controller.serialization.FlowSynchronizer)
LabelDTO(org.apache.nifi.web.api.dto.LabelDTO)
ByteArrayInputStream(java.io.ByteArrayInputStream)
TemplateDTO(org.apache.nifi.web.api.dto.TemplateDTO)
SchedulingStrategy(org.apache.nifi.scheduling.SchedulingStrategy)
Label(org.apache.nifi.controller.label.Label)
FlowRegistryClient(org.apache.nifi.registry.flow.FlowRegistryClient)
ControllerServiceDTO(org.apache.nifi.web.api.dto.ControllerServiceDTO)
StandardOpenOption(java.nio.file.StandardOpenOption)
RemoteProcessGroupPortDescriptor(org.apache.nifi.groups.RemoteProcessGroupPortDescriptor)
BundleUtils(org.apache.nifi.util.BundleUtils)
Collectors(java.util.stream.Collectors)
List(java.util.List)
UninheritableAuthorizationsException(org.apache.nifi.authorization.exception.UninheritableAuthorizationsException)
FingerprintFactory(org.apache.nifi.fingerprint.FingerprintFactory)
SAXException(org.xml.sax.SAXException)
ProcessorDTO(org.apache.nifi.web.api.dto.ProcessorDTO)
ControllerServiceState(org.apache.nifi.controller.service.ControllerServiceState)
ReportingTaskDTO(org.apache.nifi.web.api.dto.ReportingTaskDTO)
FlowSnippetDTO(org.apache.nifi.web.api.dto.FlowSnippetDTO)
DataFlow(org.apache.nifi.cluster.protocol.DataFlow)
RemoteProcessGroupDTO(org.apache.nifi.web.api.dto.RemoteProcessGroupDTO)
Funnel(org.apache.nifi.connectable.Funnel)
ControllerServiceNode(org.apache.nifi.controller.service.ControllerServiceNode)
SimpleProcessLogger(org.apache.nifi.processor.SimpleProcessLogger)
HashMap(java.util.HashMap)
ComponentLog(org.apache.nifi.logging.ComponentLog)
DomUtils(org.apache.nifi.util.DomUtils)
HashSet(java.util.HashSet)
FlowRegistry(org.apache.nifi.registry.flow.FlowRegistry)
StringEncryptor(org.apache.nifi.encrypt.StringEncryptor)
VersionControlInformationDTO(org.apache.nifi.web.api.dto.VersionControlInformationDTO)
Node(org.w3c.dom.Node)
XMLConstants(javax.xml.XMLConstants)
LogLevel(org.apache.nifi.logging.LogLevel)
FlowSynchronizationException(org.apache.nifi.controller.serialization.FlowSynchronizationException)
ManagedAuthorizer(org.apache.nifi.authorization.ManagedAuthorizer)
Logger(org.slf4j.Logger)
NodeList(org.w3c.dom.NodeList)
RemoteGroupPort(org.apache.nifi.remote.RemoteGroupPort)
TimeUnit(java.util.concurrent.TimeUnit)
Element(org.w3c.dom.Element)
ParserConfigurationException(javax.xml.parsers.ParserConfigurationException)
Collections(java.util.Collections)
StandardReportingInitializationContext(org.apache.nifi.controller.reporting.StandardReportingInitializationContext)
ConnectableDTO(org.apache.nifi.web.api.dto.ConnectableDTO)
InputStream(java.io.InputStream)
HashMap(java.util.HashMap)
Element(org.w3c.dom.Element)
FlowRegistryClient(org.apache.nifi.registry.flow.FlowRegistryClient)
ArrayList(java.util.ArrayList)
FlowEncodingVersion(org.apache.nifi.controller.serialization.FlowEncodingVersion)
Document(org.w3c.dom.Document)
Authorizer(org.apache.nifi.authorization.Authorizer)
ManagedAuthorizer(org.apache.nifi.authorization.ManagedAuthorizer)
ProcessGroupDTO(org.apache.nifi.web.api.dto.ProcessGroupDTO)
RemoteProcessGroupDTO(org.apache.nifi.web.api.dto.RemoteProcessGroupDTO)
FingerprintException(org.apache.nifi.fingerprint.FingerprintException)
HashSet(java.util.HashSet)
RemoteProcessGroup(org.apache.nifi.groups.RemoteProcessGroup)
FlowSynchronizationException(org.apache.nifi.controller.serialization.FlowSynchronizationException)
FlowSerializationException(org.apache.nifi.controller.serialization.FlowSerializationException)
IOException(java.io.IOException)
StandardDataFlow(org.apache.nifi.cluster.protocol.StandardDataFlow)
DataFlow(org.apache.nifi.cluster.protocol.DataFlow)
FlowSerializationException(org.apache.nifi.controller.serialization.FlowSerializationException)
IOException(java.io.IOException)
ProcessorInstantiationException(org.apache.nifi.controller.exception.ProcessorInstantiationException)
InitializationException(org.apache.nifi.reporting.InitializationException)
FingerprintException(org.apache.nifi.fingerprint.FingerprintException)
ReportingTaskInstantiationException(org.apache.nifi.controller.reporting.ReportingTaskInstantiationException)
UninheritableAuthorizationsException(org.apache.nifi.authorization.exception.UninheritableAuthorizationsException)
SAXException(org.xml.sax.SAXException)
FlowSynchronizationException(org.apache.nifi.controller.serialization.FlowSynchronizationException)
ParserConfigurationException(javax.xml.parsers.ParserConfigurationException)
StandardDataFlow(org.apache.nifi.cluster.protocol.StandardDataFlow)
ControllerServiceNode(org.apache.nifi.controller.service.ControllerServiceNode)
ManagedAuthorizer(org.apache.nifi.authorization.ManagedAuthorizer)
RemoteProcessGroup(org.apache.nifi.groups.RemoteProcessGroup)
ProcessGroup(org.apache.nifi.groups.ProcessGroup)
ReportingTaskDTO(org.apache.nifi.web.api.dto.ReportingTaskDTO)
Map(java.util.Map)
HashMap(java.util.HashMap)
Example 12 with FlowSerializationException
use of org.apache.nifi.controller.serialization.FlowSerializationException in project nifi by apache.
the class StandardFlowSynchronizer method parseFlowBytes.
private static Document parseFlowBytes(final byte[] flow) throws FlowSerializationException {
// create document by parsing proposed flow bytes
try {
// create validating document builder
final SchemaFactory schemaFactory = SchemaFactory.newInstance(XMLConstants.W3C_XML_SCHEMA_NS_URI);
final Schema schema = schemaFactory.newSchema(FLOW_XSD_RESOURCE);
final DocumentBuilderFactory docFactory = DocumentBuilderFactory.newInstance();
docFactory.setNamespaceAware(true);
docFactory.setSchema(schema);
final DocumentBuilder docBuilder = docFactory.newDocumentBuilder();
docBuilder.setErrorHandler(new LoggingXmlParserErrorHandler("Flow Configuration", logger));
// parse flow
return (flow == null || flow.length == 0) ? null : docBuilder.parse(new ByteArrayInputStream(flow));
} catch (final SAXException | ParserConfigurationException | IOException ex) {
throw new FlowSerializationException(ex);
}
}
Also used :
SchemaFactory(javax.xml.validation.SchemaFactory)
LoggingXmlParserErrorHandler(org.apache.nifi.util.LoggingXmlParserErrorHandler)
DocumentBuilderFactory(javax.xml.parsers.DocumentBuilderFactory)
DocumentBuilder(javax.xml.parsers.DocumentBuilder)
ByteArrayInputStream(java.io.ByteArrayInputStream)
Schema(javax.xml.validation.Schema)
FlowSerializationException(org.apache.nifi.controller.serialization.FlowSerializationException)
ParserConfigurationException(javax.xml.parsers.ParserConfigurationException)
IOException(java.io.IOException)
SAXException(org.xml.sax.SAXException)
Aggregations
FlowSerializationException (org.apache.nifi.controller.serialization.FlowSerializationException)12
IOException (java.io.IOException)9
FlowSynchronizationException (org.apache.nifi.controller.serialization.FlowSynchronizationException)5
ByteArrayOutputStream (java.io.ByteArrayOutputStream)4
StandardDataFlow (org.apache.nifi.cluster.protocol.StandardDataFlow)4
StandardFlowSerializer (org.apache.nifi.controller.serialization.StandardFlowSerializer)4
JAXBContext (javax.xml.bind.JAXBContext)3
JAXBException (javax.xml.bind.JAXBException)3
DataFlow (org.apache.nifi.cluster.protocol.DataFlow)3
LifeCycleStartException (org.apache.nifi.lifecycle.LifeCycleStartException)3
BufferedOutputStream (java.io.BufferedOutputStream)2
ByteArrayInputStream (java.io.ByteArrayInputStream)2
Path (java.nio.file.Path)2
HashSet (java.util.HashSet)2
Unmarshaller (javax.xml.bind.Unmarshaller)2
DocumentBuilder (javax.xml.parsers.DocumentBuilder)2
DocumentBuilderFactory (javax.xml.parsers.DocumentBuilderFactory)2
ParserConfigurationException (javax.xml.parsers.ParserConfigurationException)2
XMLStreamException (javax.xml.stream.XMLStreamException)2
XMLStreamReader (javax.xml.stream.XMLStreamReader)2
