@Override public void onTrigger(final ProcessContext context, final ProcessSession session) { final ComponentLog logger = getLogger(); final Criteria criteria = criteriaCache.get(); List<FlowFile> flowFiles = session.get(100); if (flowFiles.isEmpty()) { return; } final Map<PropertyDescriptor, String> properties = context.getProperties(); // get the default actions final Map<String, Action> defaultActions = getDefaultActions(properties); // record which rule should be applied to which flow file - when operating // in 'use clone' mode, this collection will contain a number of entries // that map to single element lists. this is because the original flowfile // is cloned for each matching rule. in 'use original' mode, this collection // will contain a single entry that maps a list of multiple rules. this is // because is the original flowfile is used for all matching rules. in this // case the order of the matching rules is perserved in the list final Map<FlowFile, List<Rule>> matchedRules = new HashMap<>(); for (FlowFile flowFile : flowFiles) { matchedRules.clear(); // if there is update criteria specified, evaluate it if (criteria != null && evaluateCriteria(session, context, criteria, flowFile, matchedRules)) { // apply the actions for each rule and transfer the flowfile for (final Map.Entry<FlowFile, List<Rule>> entry : matchedRules.entrySet()) { FlowFile match = entry.getKey(); final List<Rule> rules = entry.getValue(); // execute each matching rule(s) match = executeActions(session, context, rules, defaultActions, match); logger.info( "Updated attributes for {}; transferring to '{}'", new Object[] {match, REL_SUCCESS.getName()}); // transfer the match session.getProvenanceReporter().modifyAttributes(match); session.transfer(match, REL_SUCCESS); } } else { // transfer the flowfile to no match (that has the default actions applied) flowFile = executeActions(session, context, null, defaultActions, flowFile); logger.info( "Updated attributes for {}; transferring to '{}'", new Object[] {flowFile, REL_SUCCESS.getName()}); session.getProvenanceReporter().modifyAttributes(flowFile); session.transfer(flowFile, REL_SUCCESS); } } }
// Evaluates the specified Criteria on the specified flowfile. Clones the // specified flow file for each rule that is applied. private boolean evaluateCriteria( final ProcessSession session, final ProcessContext context, final Criteria criteria, final FlowFile flowfile, final Map<FlowFile, List<Rule>> matchedRules) { final ComponentLog logger = getLogger(); final List<Rule> rules = criteria.getRules(); // consider each rule and hold a copy of the flowfile for each matched rule for (final Rule rule : rules) { // evaluate the rule if (evaluateRule(context, rule, flowfile)) { final FlowFile flowfileToUse; // determine if we should use the original flow file or clone if (FlowFilePolicy.USE_ORIGINAL.equals(criteria.getFlowFilePolicy()) || matchedRules.isEmpty()) { flowfileToUse = flowfile; } else { // clone the original for this rule flowfileToUse = session.clone(flowfile); } // store the flow file to use when executing this rule List<Rule> rulesForFlowFile = matchedRules.get(flowfileToUse); if (rulesForFlowFile == null) { rulesForFlowFile = new ArrayList<>(); matchedRules.put(flowfileToUse, rulesForFlowFile); } rulesForFlowFile.add(rule); // log if appropriate if (logger.isDebugEnabled()) { logger.debug( this + " all conditions met for rule '" + rule.getName() + "'. Using flow file - " + flowfileToUse); } } } return !matchedRules.isEmpty(); }
@Override public synchronized int onEvent( int evtSubscribeNotifyAction, WinDef.PVOID userContext, WinNT.HANDLE eventHandle) { if (logger.isDebugEnabled()) { logger.debug("onEvent(" + evtSubscribeNotifyAction + ", " + userContext + ", " + eventHandle); } if (evtSubscribeNotifyAction == WEvtApi.EvtSubscribeNotifyAction.ERROR) { if (eventHandle.getPointer().getInt(0) == WEvtApi.EvtSubscribeErrors.ERROR_EVT_QUERY_RESULT_STALE) { logger.error(MISSING_EVENT_MESSAGE); } else { logger.error(RECEIVED_THE_FOLLOWING_WIN32_ERROR + eventHandle.getPointer().getInt(0)); } } else if (evtSubscribeNotifyAction == WEvtApi.EvtSubscribeNotifyAction.DELIVER) { wEvtApi.EvtRender( null, eventHandle, WEvtApi.EvtRenderFlags.EVENT_XML, size, buffer, used, propertyCount); // Not enough room in buffer, resize so it's big enough if (kernel32.GetLastError() == W32Errors.ERROR_INSUFFICIENT_BUFFER) { int newMaxSize = used.getInt(0); // Check for overflow or too big if (newMaxSize < size || newMaxSize > maxBufferSize) { logger.error( "Dropping event " + eventHandle + " because it couldn't be rendered within " + maxBufferSize + " bytes."); // Ignored, see // https://msdn.microsoft.com/en-us/library/windows/desktop/aa385577(v=vs.85).aspx return 0; } size = newMaxSize; buffer = new Memory(size); wEvtApi.EvtRender( null, eventHandle, WEvtApi.EvtRenderFlags.EVENT_XML, size, buffer, used, propertyCount); } int lastError = kernel32.GetLastError(); if (lastError == W32Errors.ERROR_SUCCESS) { int usedBytes = used.getInt(0); String string = Charsets.UTF_16LE.decode(buffer.getByteBuffer(0, usedBytes)).toString(); if (string.endsWith("\u0000")) { string = string.substring(0, string.length() - 1); } consumer.accept(string); } else { logger.error( EVT_RENDER_RETURNED_THE_FOLLOWING_ERROR_CODE + errorLookup.getLastError() + "."); } } // Ignored, see https://msdn.microsoft.com/en-us/library/windows/desktop/aa385577(v=vs.85).aspx return 0; }
@Override public void onTrigger(final ProcessContext context, final ProcessSession session) { final String logLevelValue = context.getProperty(LOG_LEVEL).getValue().toLowerCase(); final DebugLevels logLevel; try { logLevel = DebugLevels.valueOf(logLevelValue); } catch (Exception e) { throw new ProcessException(e); } final ComponentLog LOG = getLogger(); boolean isLogLevelEnabled = false; switch (logLevel) { case trace: isLogLevelEnabled = LOG.isTraceEnabled(); break; case debug: isLogLevelEnabled = LOG.isDebugEnabled(); break; case info: isLogLevelEnabled = LOG.isInfoEnabled(); break; case warn: isLogLevelEnabled = LOG.isWarnEnabled(); break; case error: isLogLevelEnabled = LOG.isErrorEnabled(); break; } if (!isLogLevelEnabled) { transferChunk(session); return; } final FlowFile flowFile = session.get(); if (flowFile == null) { return; } processFlowFile(LOG, logLevel, flowFile, session, context); session.transfer(flowFile, REL_SUCCESS); }
// Executes the specified action on the specified flowfile. private FlowFile executeActions( final ProcessSession session, final ProcessContext context, final List<Rule> rules, final Map<String, Action> defaultActions, final FlowFile flowfile) { final ComponentLog logger = getLogger(); final Map<String, Action> actions = new HashMap<>(defaultActions); final String ruleName = (rules == null || rules.isEmpty()) ? "default" : rules.get(rules.size() - 1).getName(); // if a rule matched, get its actions and possible overwrite the default ones if (rules != null && rules.size() > 0) { // combine all rules actions with the default actions... loop through the rules in order, this // way // subsequent matching rules will take precedence over previously matching rules and default // values for (final Rule rule : rules) { for (final Action action : rule.getActions()) { // store the action and overwrite the previous value (from the defaults or a previously // matching rule) actions.put(action.getAttribute(), action); } } // add an action for the matched rule - when matching multiple rules against // the original flowfile (use original) this will leave the last matching // rule's name as the value of this attribute. this decision was made since // this would be the behavior if they user chained multiple UpdateAttributes // together with 'use clone' specified final Action matchedRuleAction = new Action(); matchedRuleAction.setAttribute(getClass().getSimpleName() + ".matchedRule"); matchedRuleAction.setValue(ruleName); actions.put(matchedRuleAction.getAttribute(), matchedRuleAction); } // attribute values that will be applied to the flow file final Map<String, String> attributesToUpdate = new HashMap<>(actions.size()); final Set<String> attributesToDelete = new HashSet<>(actions.size()); // go through each action for (final Action action : actions.values()) { if (!action.getAttribute().equals(DELETE_ATTRIBUTES.getName())) { try { final String newAttributeValue = getPropertyValue(action.getValue(), context) .evaluateAttributeExpressions(flowfile) .getValue(); // log if appropriate if (logger.isDebugEnabled()) { logger.debug( String.format( "%s setting attribute '%s' = '%s' for %s per rule '%s'.", this, action.getAttribute(), newAttributeValue, flowfile, ruleName)); } attributesToUpdate.put(action.getAttribute(), newAttributeValue); } catch (final ProcessException pe) { throw new ProcessException( String.format( "Unable to evaluate new value for attribute '%s': %s.", action.getAttribute(), pe), pe); } } else { try { final String actionValue = action.getValue(); final String regex = (actionValue == null) ? null : getPropertyValue(actionValue, context) .evaluateAttributeExpressions(flowfile) .getValue(); if (regex != null) { Pattern pattern = Pattern.compile(regex); final Set<String> attributeKeys = flowfile.getAttributes().keySet(); for (final String key : attributeKeys) { if (pattern.matcher(key).matches()) { // log if appropriate if (logger.isDebugEnabled()) { logger.debug( String.format( "%s deleting attribute '%s' for %s per regex '%s'.", this, key, flowfile, regex)); } attributesToDelete.add(key); } } } } catch (final ProcessException pe) { throw new ProcessException( String.format("Unable to delete attribute '%s': %s.", action.getAttribute(), pe), pe); } } } // If the 'alternate.identifier' attribute is added, then we want to create an ADD_INFO // provenance event. final String alternateIdentifierAdd = attributesToUpdate.get(CoreAttributes.ALTERNATE_IDENTIFIER.key()); if (alternateIdentifierAdd != null) { try { final URI uri = new URI(alternateIdentifierAdd); final String namespace = uri.getScheme(); if (namespace != null) { final String identifier = alternateIdentifierAdd.substring( Math.min(namespace.length() + 1, alternateIdentifierAdd.length() - 1)); session.getProvenanceReporter().associate(flowfile, namespace, identifier); } } catch (final URISyntaxException e) { } } // update and delete the flowfile attributes return session.removeAllAttributes( session.putAllAttributes(flowfile, attributesToUpdate), attributesToDelete); }
protected String processFlowFile( final ComponentLog logger, final DebugLevels logLevel, final FlowFile flowFile, final ProcessSession session, final ProcessContext context) { final Set<String> attributeKeys = getAttributesToLog(flowFile.getAttributes().keySet(), context); final ComponentLog LOG = getLogger(); final String dashedLine; String logPrefix = context.getProperty(LOG_PREFIX).evaluateAttributeExpressions(flowFile).getValue(); if (StringUtil.isBlank(logPrefix)) { dashedLine = StringUtils.repeat('-', 50); } else { // abbreviate long lines logPrefix = StringUtils.abbreviate(logPrefix, 40); // center the logPrefix and pad with dashes logPrefix = StringUtils.center(logPrefix, 40, '-'); // five dashes on the left and right side, plus the dashed logPrefix dashedLine = StringUtils.repeat('-', 5) + logPrefix + StringUtils.repeat('-', 5); } // Pretty print metadata final StringBuilder message = new StringBuilder(); message.append("logging for flow file ").append(flowFile); message.append("\n"); message.append(dashedLine); message.append("\nStandard FlowFile Attributes"); message.append( String.format( "\nKey: '%1$s'\n\tValue: '%2$s'", "entryDate", new Date(flowFile.getEntryDate()))); message.append( String.format( "\nKey: '%1$s'\n\tValue: '%2$s'", "lineageStartDate", new Date(flowFile.getLineageStartDate()))); message.append(String.format("\nKey: '%1$s'\n\tValue: '%2$s'", "fileSize", flowFile.getSize())); message.append("\nFlowFile Attribute Map Content"); for (final String key : attributeKeys) { message.append( String.format("\nKey: '%1$s'\n\tValue: '%2$s'", key, flowFile.getAttribute(key))); } message.append("\n"); message.append(dashedLine); // The user can request to log the payload final boolean logPayload = context.getProperty(LOG_PAYLOAD).asBoolean(); if (logPayload) { message.append("\n"); if (flowFile.getSize() < ONE_MB) { final FlowFilePayloadCallback callback = new FlowFilePayloadCallback(); session.read(flowFile, callback); message.append(callback.getContents()); } else { message.append("\n Not including payload since it is larger than one mb."); } } final String outputMessage = message.toString().trim(); // Uses optional property to specify logging level switch (logLevel) { case info: LOG.info(outputMessage); break; case debug: LOG.debug(outputMessage); break; case warn: LOG.warn(outputMessage); break; case trace: LOG.trace(outputMessage); break; case error: LOG.error(outputMessage); break; default: LOG.debug(outputMessage); } return outputMessage; }
@Override public void onTrigger(final ProcessContext context, final ProcessSession session) throws ProcessException { FlowFile flowFile = null; if (context.hasIncomingConnection()) { flowFile = session.get(); // If we have no FlowFile, and all incoming connections are self-loops then we can continue // on. // However, if we have no FlowFile and we have connections coming from other Processors, then // we know that we should run only if we have a FlowFile. if (flowFile == null && context.hasNonLoopConnection()) { return; } } OkHttpClient okHttpClient = getClient(); if (flowFile == null) { flowFile = session.create(); } final String index = context.getProperty(INDEX).evaluateAttributeExpressions(flowFile).getValue(); final String docId = context.getProperty(DOC_ID).evaluateAttributeExpressions(flowFile).getValue(); final String docType = context.getProperty(TYPE).evaluateAttributeExpressions(flowFile).getValue(); final String fields = context.getProperty(FIELDS).isSet() ? context.getProperty(FIELDS).evaluateAttributeExpressions(flowFile).getValue() : null; // Authentication final String username = context.getProperty(USERNAME).evaluateAttributeExpressions(flowFile).getValue(); final String password = context.getProperty(PASSWORD).evaluateAttributeExpressions().getValue(); final ComponentLog logger = getLogger(); Response getResponse = null; try { logger.debug("Fetching {}/{}/{} from Elasticsearch", new Object[] {index, docType, docId}); // read the url property from the context final String urlstr = StringUtils.trimToEmpty( context.getProperty(ES_URL).evaluateAttributeExpressions().getValue()); final URL url = buildRequestURL(urlstr, docId, index, docType, fields); final long startNanos = System.nanoTime(); getResponse = sendRequestToElasticsearch(okHttpClient, url, username, password, "GET", null); final int statusCode = getResponse.code(); if (isSuccess(statusCode)) { ResponseBody body = getResponse.body(); final byte[] bodyBytes = body.bytes(); JsonNode responseJson = parseJsonResponse(new ByteArrayInputStream(bodyBytes)); boolean found = responseJson.get("found").asBoolean(false); String retrievedIndex = responseJson.get("_index").asText(); String retrievedType = responseJson.get("_type").asText(); String retrievedId = responseJson.get("_id").asText(); if (found) { JsonNode source = responseJson.get("_source"); flowFile = session.putAttribute(flowFile, "filename", retrievedId); flowFile = session.putAttribute(flowFile, "es.index", retrievedIndex); flowFile = session.putAttribute(flowFile, "es.type", retrievedType); if (source != null) { flowFile = session.write( flowFile, out -> { out.write(source.toString().getBytes()); }); } logger.debug("Elasticsearch document " + retrievedId + " fetched, routing to success"); // emit provenance event final long millis = TimeUnit.NANOSECONDS.toMillis(System.nanoTime() - startNanos); if (context.hasNonLoopConnection()) { session.getProvenanceReporter().fetch(flowFile, url.toExternalForm(), millis); } else { session.getProvenanceReporter().receive(flowFile, url.toExternalForm(), millis); } session.transfer(flowFile, REL_SUCCESS); } else { logger.warn( "Failed to read {}/{}/{} from Elasticsearch: Document not found", new Object[] {index, docType, docId}); // We couldn't find the document, so send it to "not found" session.transfer(flowFile, REL_NOT_FOUND); } } else { if (statusCode == 404) { logger.warn( "Failed to read {}/{}/{} from Elasticsearch: Document not found", new Object[] {index, docType, docId}); // We couldn't find the document, so penalize it and send it to "not found" session.transfer(flowFile, REL_NOT_FOUND); } else { // 5xx -> RETRY, but a server error might last a while, so yield if (statusCode / 100 == 5) { logger.warn( "Elasticsearch returned code {} with message {}, transferring flow file to retry. This is likely a server problem, yielding...", new Object[] {statusCode, getResponse.message()}); session.transfer(flowFile, REL_RETRY); context.yield(); } else if (context.hasIncomingConnection()) { // 1xx, 3xx, 4xx -> NO RETRY logger.warn( "Elasticsearch returned code {} with message {}, transferring flow file to failure", new Object[] {statusCode, getResponse.message()}); session.transfer(flowFile, REL_FAILURE); } else { logger.warn( "Elasticsearch returned code {} with message {}", new Object[] {statusCode, getResponse.message()}); session.remove(flowFile); } } } } catch (IOException ioe) { logger.error( "Failed to read from Elasticsearch due to {}, this may indicate an error in configuration " + "(hosts, username/password, etc.). Routing to retry", new Object[] {ioe.getLocalizedMessage()}, ioe); if (context.hasIncomingConnection()) { session.transfer(flowFile, REL_RETRY); } else { session.remove(flowFile); } context.yield(); } catch (Exception e) { logger.error( "Failed to read {} from Elasticsearch due to {}", new Object[] {flowFile, e.getLocalizedMessage()}, e); if (context.hasIncomingConnection()) { session.transfer(flowFile, REL_FAILURE); } else { session.remove(flowFile); } context.yield(); } finally { if (getResponse != null) { getResponse.close(); } } }