use of org.apache.nifi.controller.queue.QueueSize in project nifi by apache.
the class FlowController method createHeartbeatMessage.
HeartbeatMessage createHeartbeatMessage() {
try {
HeartbeatBean bean = heartbeatBeanRef.get();
if (bean == null) {
readLock.lock();
try {
bean = new HeartbeatBean(getGroup(getRootGroupId()), isPrimary());
} finally {
readLock.unlock();
}
}
// create heartbeat payload
final HeartbeatPayload hbPayload = new HeartbeatPayload();
hbPayload.setSystemStartTime(systemStartTime);
hbPayload.setActiveThreadCount(getActiveThreadCount());
final QueueSize queueSize = getTotalFlowFileCount(bean.getRootGroup());
hbPayload.setTotalFlowFileCount(queueSize.getObjectCount());
hbPayload.setTotalFlowFileBytes(queueSize.getByteCount());
hbPayload.setClusterStatus(clusterCoordinator.getConnectionStatuses());
// create heartbeat message
final NodeIdentifier nodeId = getNodeId();
if (nodeId == null) {
LOG.warn("Cannot create Heartbeat Message because node's identifier is not known at this time");
return null;
}
final Heartbeat heartbeat = new Heartbeat(nodeId, connectionStatus, hbPayload.marshal());
final HeartbeatMessage message = new HeartbeatMessage();
message.setHeartbeat(heartbeat);
LOG.debug("Generated heartbeat");
return message;
} catch (final Throwable ex) {
LOG.warn("Failed to create heartbeat due to: " + ex, ex);
return null;
}
}
use of org.apache.nifi.controller.queue.QueueSize in project nifi by apache.
the class FlowController method getGroupStatus.
/**
* Returns the status for the components in the specified group with the
* specified report. The results will be filtered by executing the specified
* predicate.
*
* @param group group id
* @param statusReport report
* @param isAuthorized is authorized check
* @return the component status
*/
public ProcessGroupStatus getGroupStatus(final ProcessGroup group, final RepositoryStatusReport statusReport, final Predicate<Authorizable> isAuthorized) {
if (group == null) {
return null;
}
final ProcessGroupStatus status = new ProcessGroupStatus();
status.setId(group.getIdentifier());
status.setName(isAuthorized.evaluate(group) ? group.getName() : group.getIdentifier());
int activeGroupThreads = 0;
long bytesRead = 0L;
long bytesWritten = 0L;
int queuedCount = 0;
long queuedContentSize = 0L;
int flowFilesIn = 0;
long bytesIn = 0L;
int flowFilesOut = 0;
long bytesOut = 0L;
int flowFilesReceived = 0;
long bytesReceived = 0L;
int flowFilesSent = 0;
long bytesSent = 0L;
int flowFilesTransferred = 0;
long bytesTransferred = 0;
// set status for processors
final Collection<ProcessorStatus> processorStatusCollection = new ArrayList<>();
status.setProcessorStatus(processorStatusCollection);
for (final ProcessorNode procNode : group.getProcessors()) {
final ProcessorStatus procStat = getProcessorStatus(statusReport, procNode, isAuthorized);
processorStatusCollection.add(procStat);
activeGroupThreads += procStat.getActiveThreadCount();
bytesRead += procStat.getBytesRead();
bytesWritten += procStat.getBytesWritten();
flowFilesReceived += procStat.getFlowFilesReceived();
bytesReceived += procStat.getBytesReceived();
flowFilesSent += procStat.getFlowFilesSent();
bytesSent += procStat.getBytesSent();
}
// set status for local child groups
final Collection<ProcessGroupStatus> localChildGroupStatusCollection = new ArrayList<>();
status.setProcessGroupStatus(localChildGroupStatusCollection);
for (final ProcessGroup childGroup : group.getProcessGroups()) {
final ProcessGroupStatus childGroupStatus = getGroupStatus(childGroup, statusReport, isAuthorized);
localChildGroupStatusCollection.add(childGroupStatus);
activeGroupThreads += childGroupStatus.getActiveThreadCount();
bytesRead += childGroupStatus.getBytesRead();
bytesWritten += childGroupStatus.getBytesWritten();
queuedCount += childGroupStatus.getQueuedCount();
queuedContentSize += childGroupStatus.getQueuedContentSize();
flowFilesReceived += childGroupStatus.getFlowFilesReceived();
bytesReceived += childGroupStatus.getBytesReceived();
flowFilesSent += childGroupStatus.getFlowFilesSent();
bytesSent += childGroupStatus.getBytesSent();
flowFilesTransferred += childGroupStatus.getFlowFilesTransferred();
bytesTransferred += childGroupStatus.getBytesTransferred();
}
// set status for remote child groups
final Collection<RemoteProcessGroupStatus> remoteProcessGroupStatusCollection = new ArrayList<>();
status.setRemoteProcessGroupStatus(remoteProcessGroupStatusCollection);
for (final RemoteProcessGroup remoteGroup : group.getRemoteProcessGroups()) {
final RemoteProcessGroupStatus remoteStatus = createRemoteGroupStatus(remoteGroup, statusReport, isAuthorized);
if (remoteStatus != null) {
remoteProcessGroupStatusCollection.add(remoteStatus);
flowFilesReceived += remoteStatus.getReceivedCount();
bytesReceived += remoteStatus.getReceivedContentSize();
flowFilesSent += remoteStatus.getSentCount();
bytesSent += remoteStatus.getSentContentSize();
}
}
// connection status
final Collection<ConnectionStatus> connectionStatusCollection = new ArrayList<>();
status.setConnectionStatus(connectionStatusCollection);
// get the connection and remote port status
for (final Connection conn : group.getConnections()) {
final boolean isConnectionAuthorized = isAuthorized.evaluate(conn);
final boolean isSourceAuthorized = isAuthorized.evaluate(conn.getSource());
final boolean isDestinationAuthorized = isAuthorized.evaluate(conn.getDestination());
final ConnectionStatus connStatus = new ConnectionStatus();
connStatus.setId(conn.getIdentifier());
connStatus.setGroupId(conn.getProcessGroup().getIdentifier());
connStatus.setSourceId(conn.getSource().getIdentifier());
connStatus.setSourceName(isSourceAuthorized ? conn.getSource().getName() : conn.getSource().getIdentifier());
connStatus.setDestinationId(conn.getDestination().getIdentifier());
connStatus.setDestinationName(isDestinationAuthorized ? conn.getDestination().getName() : conn.getDestination().getIdentifier());
connStatus.setBackPressureDataSizeThreshold(conn.getFlowFileQueue().getBackPressureDataSizeThreshold());
connStatus.setBackPressureObjectThreshold(conn.getFlowFileQueue().getBackPressureObjectThreshold());
final FlowFileEvent connectionStatusReport = statusReport.getReportEntry(conn.getIdentifier());
if (connectionStatusReport != null) {
connStatus.setInputBytes(connectionStatusReport.getContentSizeIn());
connStatus.setInputCount(connectionStatusReport.getFlowFilesIn());
connStatus.setOutputBytes(connectionStatusReport.getContentSizeOut());
connStatus.setOutputCount(connectionStatusReport.getFlowFilesOut());
flowFilesTransferred += connectionStatusReport.getFlowFilesIn() + connectionStatusReport.getFlowFilesOut();
bytesTransferred += connectionStatusReport.getContentSizeIn() + connectionStatusReport.getContentSizeOut();
}
if (isConnectionAuthorized) {
if (StringUtils.isNotBlank(conn.getName())) {
connStatus.setName(conn.getName());
} else if (conn.getRelationships() != null && !conn.getRelationships().isEmpty()) {
final Collection<String> relationships = new ArrayList<>(conn.getRelationships().size());
for (final Relationship relationship : conn.getRelationships()) {
relationships.add(relationship.getName());
}
connStatus.setName(StringUtils.join(relationships, ", "));
}
} else {
connStatus.setName(conn.getIdentifier());
}
final QueueSize queueSize = conn.getFlowFileQueue().size();
final int connectionQueuedCount = queueSize.getObjectCount();
final long connectionQueuedBytes = queueSize.getByteCount();
if (connectionQueuedCount > 0) {
connStatus.setQueuedBytes(connectionQueuedBytes);
connStatus.setQueuedCount(connectionQueuedCount);
}
connectionStatusCollection.add(connStatus);
queuedCount += connectionQueuedCount;
queuedContentSize += connectionQueuedBytes;
final Connectable source = conn.getSource();
if (ConnectableType.REMOTE_OUTPUT_PORT.equals(source.getConnectableType())) {
final RemoteGroupPort remoteOutputPort = (RemoteGroupPort) source;
activeGroupThreads += processScheduler.getActiveThreadCount(remoteOutputPort);
}
final Connectable destination = conn.getDestination();
if (ConnectableType.REMOTE_INPUT_PORT.equals(destination.getConnectableType())) {
final RemoteGroupPort remoteInputPort = (RemoteGroupPort) destination;
activeGroupThreads += processScheduler.getActiveThreadCount(remoteInputPort);
}
}
// status for input ports
final Collection<PortStatus> inputPortStatusCollection = new ArrayList<>();
status.setInputPortStatus(inputPortStatusCollection);
final Set<Port> inputPorts = group.getInputPorts();
for (final Port port : inputPorts) {
final boolean isInputPortAuthorized = isAuthorized.evaluate(port);
final PortStatus portStatus = new PortStatus();
portStatus.setId(port.getIdentifier());
portStatus.setGroupId(port.getProcessGroup().getIdentifier());
portStatus.setName(isInputPortAuthorized ? port.getName() : port.getIdentifier());
portStatus.setActiveThreadCount(processScheduler.getActiveThreadCount(port));
// determine the run status
if (ScheduledState.RUNNING.equals(port.getScheduledState())) {
portStatus.setRunStatus(RunStatus.Running);
} else if (ScheduledState.DISABLED.equals(port.getScheduledState())) {
portStatus.setRunStatus(RunStatus.Disabled);
} else if (!port.isValid()) {
portStatus.setRunStatus(RunStatus.Invalid);
} else {
portStatus.setRunStatus(RunStatus.Stopped);
}
// special handling for root group ports
if (port instanceof RootGroupPort) {
final RootGroupPort rootGroupPort = (RootGroupPort) port;
portStatus.setTransmitting(rootGroupPort.isTransmitting());
}
final FlowFileEvent entry = statusReport.getReportEntries().get(port.getIdentifier());
if (entry == null) {
portStatus.setInputBytes(0L);
portStatus.setInputCount(0);
portStatus.setOutputBytes(0L);
portStatus.setOutputCount(0);
} else {
final int processedCount = entry.getFlowFilesOut();
final long numProcessedBytes = entry.getContentSizeOut();
portStatus.setOutputBytes(numProcessedBytes);
portStatus.setOutputCount(processedCount);
final int inputCount = entry.getFlowFilesIn();
final long inputBytes = entry.getContentSizeIn();
portStatus.setInputBytes(inputBytes);
portStatus.setInputCount(inputCount);
flowFilesIn += inputCount;
bytesIn += inputBytes;
bytesWritten += entry.getBytesWritten();
flowFilesReceived += entry.getFlowFilesReceived();
bytesReceived += entry.getBytesReceived();
}
inputPortStatusCollection.add(portStatus);
activeGroupThreads += portStatus.getActiveThreadCount();
}
// status for output ports
final Collection<PortStatus> outputPortStatusCollection = new ArrayList<>();
status.setOutputPortStatus(outputPortStatusCollection);
final Set<Port> outputPorts = group.getOutputPorts();
for (final Port port : outputPorts) {
final boolean isOutputPortAuthorized = isAuthorized.evaluate(port);
final PortStatus portStatus = new PortStatus();
portStatus.setId(port.getIdentifier());
portStatus.setGroupId(port.getProcessGroup().getIdentifier());
portStatus.setName(isOutputPortAuthorized ? port.getName() : port.getIdentifier());
portStatus.setActiveThreadCount(processScheduler.getActiveThreadCount(port));
// determine the run status
if (ScheduledState.RUNNING.equals(port.getScheduledState())) {
portStatus.setRunStatus(RunStatus.Running);
} else if (ScheduledState.DISABLED.equals(port.getScheduledState())) {
portStatus.setRunStatus(RunStatus.Disabled);
} else if (!port.isValid()) {
portStatus.setRunStatus(RunStatus.Invalid);
} else {
portStatus.setRunStatus(RunStatus.Stopped);
}
// special handling for root group ports
if (port instanceof RootGroupPort) {
final RootGroupPort rootGroupPort = (RootGroupPort) port;
portStatus.setTransmitting(rootGroupPort.isTransmitting());
}
final FlowFileEvent entry = statusReport.getReportEntries().get(port.getIdentifier());
if (entry == null) {
portStatus.setInputBytes(0L);
portStatus.setInputCount(0);
portStatus.setOutputBytes(0L);
portStatus.setOutputCount(0);
} else {
final int processedCount = entry.getFlowFilesOut();
final long numProcessedBytes = entry.getContentSizeOut();
portStatus.setOutputBytes(numProcessedBytes);
portStatus.setOutputCount(processedCount);
final int inputCount = entry.getFlowFilesIn();
final long inputBytes = entry.getContentSizeIn();
portStatus.setInputBytes(inputBytes);
portStatus.setInputCount(inputCount);
bytesRead += entry.getBytesRead();
flowFilesOut += entry.getFlowFilesOut();
bytesOut += entry.getContentSizeOut();
flowFilesSent = entry.getFlowFilesSent();
bytesSent += entry.getBytesSent();
}
outputPortStatusCollection.add(portStatus);
activeGroupThreads += portStatus.getActiveThreadCount();
}
for (final Funnel funnel : group.getFunnels()) {
activeGroupThreads += processScheduler.getActiveThreadCount(funnel);
}
status.setActiveThreadCount(activeGroupThreads);
status.setBytesRead(bytesRead);
status.setBytesWritten(bytesWritten);
status.setQueuedCount(queuedCount);
status.setQueuedContentSize(queuedContentSize);
status.setInputContentSize(bytesIn);
status.setInputCount(flowFilesIn);
status.setOutputContentSize(bytesOut);
status.setOutputCount(flowFilesOut);
status.setFlowFilesReceived(flowFilesReceived);
status.setBytesReceived(bytesReceived);
status.setFlowFilesSent(flowFilesSent);
status.setBytesSent(bytesSent);
status.setFlowFilesTransferred(flowFilesTransferred);
status.setBytesTransferred(bytesTransferred);
final VersionControlInformation vci = group.getVersionControlInformation();
if (vci != null && vci.getStatus() != null && vci.getStatus().getState() != null) {
status.setVersionedFlowState(vci.getStatus().getState());
}
return status;
}
use of org.apache.nifi.controller.queue.QueueSize in project nifi by apache.
the class StandardFlowFileQueue method drop.
private QueueSize drop(final List<FlowFileRecord> flowFiles, final String requestor) throws IOException {
// Create a Provenance Event and a FlowFile Repository record for each FlowFile
final List<ProvenanceEventRecord> provenanceEvents = new ArrayList<>(flowFiles.size());
final List<RepositoryRecord> flowFileRepoRecords = new ArrayList<>(flowFiles.size());
for (final FlowFileRecord flowFile : flowFiles) {
provenanceEvents.add(createDropEvent(flowFile, requestor));
flowFileRepoRecords.add(createDeleteRepositoryRecord(flowFile));
}
long dropContentSize = 0L;
for (final FlowFileRecord flowFile : flowFiles) {
dropContentSize += flowFile.getSize();
final ContentClaim contentClaim = flowFile.getContentClaim();
if (contentClaim == null) {
continue;
}
final ResourceClaim resourceClaim = contentClaim.getResourceClaim();
if (resourceClaim == null) {
continue;
}
resourceClaimManager.decrementClaimantCount(resourceClaim);
}
provRepository.registerEvents(provenanceEvents);
flowFileRepository.updateRepository(flowFileRepoRecords);
return new QueueSize(flowFiles.size(), dropContentSize);
}
use of org.apache.nifi.controller.queue.QueueSize in project nifi by apache.
the class DtoFactory method createConnectionDiagnosticsDto.
private ConnectionDiagnosticsDTO createConnectionDiagnosticsDto(final Connection connection) {
final ConnectionDiagnosticsDTO dto = new ConnectionDiagnosticsDTO();
dto.setConnection(createConnectionDto(connection));
final FlowFileQueue queue = connection.getFlowFileQueue();
final QueueSize totalSize = queue.size();
dto.setTotalByteCount(totalSize.getByteCount());
dto.setTotalFlowFileCount(totalSize.getObjectCount());
final QueueSize activeSize = queue.getActiveQueueSize();
dto.setActiveQueueByteCount(activeSize.getByteCount());
dto.setActiveQueueFlowFileCount(activeSize.getObjectCount());
final QueueSize inFlightSize = queue.getUnacknowledgedQueueSize();
dto.setInFlightByteCount(inFlightSize.getByteCount());
dto.setInFlightFlowFileCount(inFlightSize.getObjectCount());
final QueueSize swapSize = queue.getSwapQueueSize();
dto.setSwapByteCount(swapSize.getByteCount());
dto.setSwapFlowFileCount(swapSize.getObjectCount());
dto.setSwapFiles(queue.getSwapFileCount());
dto.setAllActiveQueueFlowFilesPenalized(queue.isAllActiveFlowFilesPenalized());
dto.setAnyActiveQueueFlowFilesPenalized(queue.isAnyActiveFlowFilePenalized());
return dto;
}
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