/** * Generates an audit record for the creation of a processor. * * @param processor processor * @param operation operation * @param actionDetails details * @return action */ public Action generateAuditRecord( ProcessorNode processor, Operation operation, ActionDetails actionDetails) { FlowChangeAction action = null; // get the current user NiFiUser user = NiFiUserUtils.getNiFiUser(); // ensure the user was found if (user != null) { // create the processor details FlowChangeExtensionDetails processorDetails = new FlowChangeExtensionDetails(); processorDetails.setType(processor.getProcessor().getClass().getSimpleName()); // create the processor action for adding this processor action = new FlowChangeAction(); action.setUserIdentity(user.getIdentity()); action.setUserName(user.getUserName()); action.setOperation(operation); action.setTimestamp(new Date()); action.setSourceId(processor.getIdentifier()); action.setSourceName(processor.getName()); action.setSourceType(Component.Processor); action.setComponentDetails(processorDetails); if (actionDetails != null) { action.setActionDetails(actionDetails); } } return action; }
/** * Audits the configuration of a single processor. * * @param proceedingJoinPoint join point * @param processorDTO dto * @param processorDAO dao * @return node * @throws Throwable ex */ @Around( "within(org.apache.nifi.web.dao.ProcessorDAO+) && " + "execution(org.apache.nifi.controller.ProcessorNode updateProcessor(org.apache.nifi.web.api.dto.ProcessorDTO)) && " + "args(processorDTO) && " + "target(processorDAO)") public ProcessorNode updateProcessorAdvice( ProceedingJoinPoint proceedingJoinPoint, ProcessorDTO processorDTO, ProcessorDAO processorDAO) throws Throwable { // determine the initial values for each property/setting thats changing ProcessorNode processor = processorDAO.getProcessor(processorDTO.getId()); final Map<String, String> values = extractConfiguredPropertyValues(processor, processorDTO); final ScheduledState scheduledState = processor.getScheduledState(); // update the processor state final ProcessorNode updatedProcessor = (ProcessorNode) proceedingJoinPoint.proceed(); // if no exceptions were thrown, add the processor action... // get the updated verbose state processor = processorDAO.getProcessor(updatedProcessor.getIdentifier()); // get the current user NiFiUser user = NiFiUserUtils.getNiFiUser(); // ensure the user was found if (user != null) { // determine the updated values Map<String, String> updatedValues = extractConfiguredPropertyValues(processor, processorDTO); // create the processor details FlowChangeExtensionDetails processorDetails = new FlowChangeExtensionDetails(); processorDetails.setType(processor.getProcessor().getClass().getSimpleName()); // create a processor action Date actionTimestamp = new Date(); Collection<Action> actions = new ArrayList<>(); // go through each updated value for (String property : updatedValues.keySet()) { String newValue = updatedValues.get(property); String oldValue = values.get(property); Operation operation = null; // determine the type of operation if (oldValue == null || newValue == null || !newValue.equals(oldValue)) { operation = Operation.Configure; } // create a configuration action accordingly if (operation != null) { // clear the value if this property is sensitive final PropertyDescriptor propertyDescriptor = processor.getProcessor().getPropertyDescriptor(property); if (propertyDescriptor != null && propertyDescriptor.isSensitive()) { if (newValue != null) { newValue = "********"; } if (oldValue != null) { oldValue = "********"; } } else if (ANNOTATION_DATA.equals(property)) { if (newValue != null) { newValue = "<annotation data not shown>"; } if (oldValue != null) { oldValue = "<annotation data not shown>"; } } final FlowChangeConfigureDetails actionDetails = new FlowChangeConfigureDetails(); actionDetails.setName(property); actionDetails.setValue(newValue); actionDetails.setPreviousValue(oldValue); // create a configuration action FlowChangeAction configurationAction = new FlowChangeAction(); configurationAction.setUserIdentity(user.getIdentity()); configurationAction.setUserName(user.getUserName()); configurationAction.setOperation(operation); configurationAction.setTimestamp(actionTimestamp); configurationAction.setSourceId(processor.getIdentifier()); configurationAction.setSourceName(processor.getName()); configurationAction.setSourceType(Component.Processor); configurationAction.setComponentDetails(processorDetails); configurationAction.setActionDetails(actionDetails); actions.add(configurationAction); } } // determine the new executing state final ScheduledState updatedScheduledState = processor.getScheduledState(); // determine if the running state has changed and its not disabled if (scheduledState != updatedScheduledState) { // create a processor action FlowChangeAction processorAction = new FlowChangeAction(); processorAction.setUserIdentity(user.getIdentity()); processorAction.setUserName(user.getUserName()); processorAction.setTimestamp(new Date()); processorAction.setSourceId(processor.getIdentifier()); processorAction.setSourceName(processor.getName()); processorAction.setSourceType(Component.Processor); processorAction.setComponentDetails(processorDetails); // set the operation accordingly if (ScheduledState.RUNNING.equals(updatedScheduledState)) { processorAction.setOperation(Operation.Start); } else if (ScheduledState.DISABLED.equals(updatedScheduledState)) { processorAction.setOperation(Operation.Disable); } else { // state is now stopped... consider the previous state if (ScheduledState.RUNNING.equals(scheduledState)) { processorAction.setOperation(Operation.Stop); } else if (ScheduledState.DISABLED.equals(scheduledState)) { processorAction.setOperation(Operation.Enable); } } actions.add(processorAction); } // ensure there are actions to record if (!actions.isEmpty()) { // save the actions saveActions(actions, logger); } } return updatedProcessor; }