diff options
Diffstat (limited to 'src/main/java/org/onap/aai/datasnapshot/DataSnapshot.java')
-rw-r--r-- | src/main/java/org/onap/aai/datasnapshot/DataSnapshot.java | 835 |
1 files changed, 835 insertions, 0 deletions
diff --git a/src/main/java/org/onap/aai/datasnapshot/DataSnapshot.java b/src/main/java/org/onap/aai/datasnapshot/DataSnapshot.java new file mode 100644 index 0000000..12815ee --- /dev/null +++ b/src/main/java/org/onap/aai/datasnapshot/DataSnapshot.java @@ -0,0 +1,835 @@ +/** + * ============LICENSE_START======================================================= + * org.onap.aai + * ================================================================================ + * Copyright © 2017-2018 AT&T Intellectual Property. All rights reserved. + * ================================================================================ + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + * ============LICENSE_END========================================================= + */ + +/** + * ============LICENSE_START======================================================= + * org.onap.aai + * ================================================================================ + * Copyright © 2017 AT&T Intellectual Property. All rights reserved. + * ================================================================================ + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + * ============LICENSE_END========================================================= + * + * ECOMP is a trademark and service mark of AT&T Intellectual Property. + */ +package org.onap.aai.datasnapshot; + +import java.io.ByteArrayOutputStream; +import java.io.File; +import java.io.FileInputStream; +import java.io.IOException; +import java.io.InputStream; +import java.io.SequenceInputStream; +import java.util.*; + +import java.util.concurrent.Callable; +import java.util.concurrent.ExecutionException; +import java.util.concurrent.ExecutorService; +import java.util.concurrent.Executors; +import java.util.concurrent.Future; + +import java.util.concurrent.TimeUnit; +import org.apache.tinkerpop.gremlin.structure.Vertex; + +import org.apache.commons.configuration.PropertiesConfiguration; + +import org.apache.tinkerpop.gremlin.structure.io.IoCore; +import org.apache.tinkerpop.gremlin.structure.io.graphson.LegacyGraphSONReader; +import org.onap.aai.dbmap.AAIGraph; +import org.onap.aai.dbmap.AAIGraphConfig; +import org.onap.aai.exceptions.AAIException; +import org.onap.aai.logging.ErrorLogHelper; +import org.onap.aai.util.AAIConfig; +import org.onap.aai.util.AAIConstants; +import org.onap.aai.util.AAISystemExitUtil; +import org.onap.aai.util.FormatDate; + +import com.att.eelf.configuration.Configuration; +import com.att.eelf.configuration.EELFLogger; +import com.att.eelf.configuration.EELFManager; +import org.janusgraph.core.JanusGraph; +import org.janusgraph.core.JanusGraphFactory; +import org.janusgraph.core.util.JanusGraphCleanup; + +public class DataSnapshot { + + private static EELFLogger LOGGER; + + /* Using realtime d */ + private static final String REALTIME_DB = "realtime"; + + private static final Set<String> SNAPSHOT_RELOAD_COMMANDS = new HashSet<>(); + + static { + SNAPSHOT_RELOAD_COMMANDS.add("RELOAD_LEGACY_DATA"); + SNAPSHOT_RELOAD_COMMANDS.add("RELOAD_DATA"); + SNAPSHOT_RELOAD_COMMANDS.add("RELOAD_DATA_MULTI"); + } + + + /** + * The main method. + * + * @param args + * the arguments + */ + public static void main(String[] args) { + + boolean success = true; + + // Set the logging file properties to be used by EELFManager + System.setProperty("aai.service.name", DataSnapshot.class.getSimpleName()); + Properties props = System.getProperties(); + props.setProperty(Configuration.PROPERTY_LOGGING_FILE_NAME, AAIConstants.AAI_LOGBACK_PROPS); + props.setProperty(Configuration.PROPERTY_LOGGING_FILE_PATH, AAIConstants.AAI_HOME_BUNDLECONFIG); + LOGGER = EELFManager.getInstance().getLogger(DataSnapshot.class); + Boolean dbClearFlag = false; + JanusGraph graph = null; + String command = "JUST_TAKE_SNAPSHOT"; // This is the default + String oldSnapshotFileName = ""; + + Long vertAddDelayMs = 1L; // Default value + Long edgeAddDelayMs = 1L; // Default value + + Long failureDelayMs = 50L; // Default value + Long retryDelayMs = 1500L; // Default value + int maxErrorsPerThread = 25; // Default value + Long vertToEdgeProcDelay = 9000L; // Default value + Long staggerThreadDelay = 5000L; // Default value + + int threadCount = 0; + Boolean debugFlag = false; + int debugAddDelayTime = 1; // Default to 1 millisecond + + boolean isExistingTitan = false; + + if (args.length >= 1) { + command = args[0]; + } + + if( SNAPSHOT_RELOAD_COMMANDS.contains(command)){ + if (args.length == 2) { + // If re-loading, they need to also pass the snapshot file name to use. + // We expected the file to be found in our snapshot directory. + oldSnapshotFileName = args[1]; + } + } + else if( command.equals("THREADED_SNAPSHOT") ){ + if (args.length == 2) { + // If doing a "threaded" snapshot, they need to specify how many threads to use + try { + threadCount = Integer.parseInt(args[1]); + } + catch ( NumberFormatException nfe ){ + ErrorLogHelper.logError("AAI_6128", "Bad (non-integer) threadCount passed to DataSnapshot [" + args[1] + "]"); + LOGGER.debug("Bad (non-integer) threadCount passed to DataSnapshot [" + args[1] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + if( threadCount < 1 || threadCount > 100 ){ + ErrorLogHelper.logError("AAI_6128", "Out of range (1-100) threadCount passed to DataSnapshot [" + args[1] + "]"); + LOGGER.debug("Out of range (1-100) threadCount passed to DataSnapshot [" + args[1] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + LOGGER.debug(" Will do Threaded Snapshot with threadCount = " + threadCount ); + } + else if (args.length == 3) { + // If doing a "threaded" snapshot, they need to specify how many threads to use + // They can also use debug mode if they pass the word "DEBUG" to do the nodes one at a time to see where it breaks. + try { + threadCount = Integer.parseInt(args[1]); + } + catch ( NumberFormatException nfe ){ + ErrorLogHelper.logError("AAI_6128", "Bad (non-integer) threadCount passed to DataSnapshot [" + args[1] + "]"); + LOGGER.debug("Bad (non-integer) threadCount passed to DataSnapshot [" + args[1] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + if( threadCount < 1 || threadCount > 100 ){ + ErrorLogHelper.logError("AAI_6128", "Out of range (1-100) threadCount passed to DataSnapshot [" + args[1] + "]"); + LOGGER.debug("Out of range (1-100) threadCount passed to DataSnapshot [" + args[1] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + if( args[2].equals("DEBUG") ){ + debugFlag = true; + } + LOGGER.debug(" Will do Threaded Snapshot with threadCount = " + threadCount + + ", and DEBUG mode set ON. "); + } + else if (args.length == 4) { + // If doing a "threaded" snapshot, they need to specify how many threads to use (param 1) + // They can also use debug mode if they pass the word "DEBUG" to do the nodes one (param 2) + // They can also pass a delayTimer - how many milliseconds to put between each node's ADD (param 3) + try { + threadCount = Integer.parseInt(args[1]); + } + catch ( NumberFormatException nfe ){ + ErrorLogHelper.logError("AAI_6128", "Bad (non-integer) threadCount passed to DataSnapshot [" + args[1] + "]"); + LOGGER.debug("Bad (non-integer) threadCount passed to DataSnapshot [" + args[1] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + if( threadCount < 1 || threadCount > 100 ){ + ErrorLogHelper.logError("AAI_6128", "Out of range (1-100) threadCount passed to DataSnapshot [" + args[1] + "]"); + LOGGER.debug("Out of range (1-100) threadCount passed to DataSnapshot [" + args[1] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + if( args[2].equals("DEBUG") ){ + debugFlag = true; + } + try { + debugAddDelayTime = Integer.parseInt(args[3]); + } + catch ( NumberFormatException nfe ){ + ErrorLogHelper.logError("AAI_6128", "Bad (non-integer) debugAddDelayTime passed to DataSnapshot [" + args[3] + "]"); + LOGGER.debug("Bad (non-integer) debugAddDelayTime passed to DataSnapshot [" + args[3] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + LOGGER.debug(" Will do Threaded Snapshot with threadCount = " + threadCount + + ", DEBUG mode ON and addDelayTimer = " + debugAddDelayTime + " mSec. "); + } + else { + ErrorLogHelper.logError("AAI_6128", "Wrong param count (should be 2,3 or 4) when using THREADED_SNAPSHOT."); + LOGGER.debug("Wrong param count (should be 2,3 or 4) when using THREADED_SNAPSHOT."); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + } + else if( command.equals("MULTITHREAD_RELOAD") ){ + // Note - this will use as many threads as the snapshot file is + // broken up into. (up to a limit) + if (args.length == 2) { + // Since they are re-loading, they need to pass the snapshot file name to use. + // We expected the file to be found in our snapshot directory. Note - if + // it is a multi-part snapshot, then this should be the root of the name. + // We will be using the default delay timers. + oldSnapshotFileName = args[1]; + } + else if (args.length == 7) { + // Since they are re-loading, they need to pass the snapshot file name to use. + // We expected the file to be found in our snapshot directory. Note - if + // it is a multi-part snapshot, then this should be the root of the name. + oldSnapshotFileName = args[1]; + // They should be passing the timers in in this order: + // vertDelay, edgeDelay, failureDelay, retryDelay + vertAddDelayMs = Long.parseLong(args[2]); + edgeAddDelayMs = Long.parseLong(args[3]); + failureDelayMs = Long.parseLong(args[4]); + retryDelayMs = Long.parseLong(args[5]); + try { + maxErrorsPerThread = Integer.parseInt(args[6]); + } + catch ( NumberFormatException nfe ){ + ErrorLogHelper.logError("AAI_6128", "Bad (non-integer) maxErrorsPerThread passed to DataSnapshot [" + args[6] + "]"); + LOGGER.debug("Bad (non-integer) maxErrorsPerThread passed to DataSnapshot [" + args[6] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + if( maxErrorsPerThread < 1 ){ + ErrorLogHelper.logError("AAI_6128", "Out of range (>0) maxErrorsPerThread passed to DataSnapshot [" + args[6] + "]"); + LOGGER.debug("Out of range (>0) maxErrorsPerThread passed to DataSnapshot [" + args[6] + "]"); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + } + else { + ErrorLogHelper.logError("AAI_6128", "Wrong param count (should be either 2 or 7) when using MUTLITHREAD_RELOAD."); + LOGGER.debug("Wrong param count (should be 2 or 7) when using MUTLITHREAD_RELOAD."); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + } + else if (command.equals("CLEAR_ENTIRE_DATABASE")) { + if (args.length >= 2) { + oldSnapshotFileName = args[1]; + } + if (args.length == 3) { + String titanFlag = args[2]; + if ("titan".equalsIgnoreCase(titanFlag)) { + isExistingTitan = true; + } + } + } + + ByteArrayOutputStream baos = new ByteArrayOutputStream(); + try { + + AAIConfig.init(); + ErrorLogHelper.loadProperties(); + LOGGER.debug("Command = " + command + ", oldSnapshotFileName = [" + oldSnapshotFileName + "]."); + String targetDir = AAIConstants.AAI_HOME + AAIConstants.AAI_FILESEP + "logs" + AAIConstants.AAI_FILESEP + "data" + AAIConstants.AAI_FILESEP + "dataSnapshots"; + + // Make sure the dataSnapshots directory is there + new File(targetDir).mkdirs(); + + LOGGER.debug(" ---- NOTE --- about to open graph (takes a little while) "); + + if (command.equals("JUST_TAKE_SNAPSHOT")) { + // ------------------------------------------ + // They just want to take a snapshot. + // ------------------------------------------ + verifyGraph(AAIGraph.getInstance().getGraph()); + FormatDate fd = new FormatDate("yyyyMMddHHmm", "GMT"); + String dteStr = fd.getDateTime(); + String newSnapshotOutFname = targetDir + AAIConstants.AAI_FILESEP + "dataSnapshot.graphSON." + dteStr; + graph = AAIGraph.getInstance().getGraph(); + + graph.io(IoCore.graphson()).writeGraph(newSnapshotOutFname); + + LOGGER.debug("Snapshot written to " + newSnapshotOutFname); + + } + else if (command.equals("THREADED_SNAPSHOT")) { + // --------------------------------------------------------------------- + // They want the creation of the snapshot to be spread out via threads + // --------------------------------------------------------------------- + + FormatDate fd = new FormatDate("yyyyMMddHHmm", "GMT"); + String dteStr = fd.getDateTime(); + String newSnapshotOutFname = targetDir + AAIConstants.AAI_FILESEP + "dataSnapshot.graphSON." + dteStr; + verifyGraph(AAIGraph.getInstance().getGraph()); + graph = AAIGraph.getInstance().getGraph(); + LOGGER.debug(" Successfully got the Graph instance. "); + long timeA = System.nanoTime(); + + LOGGER.debug(" Need to divide vertexIds across this many threads: " + threadCount ); + HashMap <String,ArrayList> vertListHash = new HashMap <String,ArrayList> (); + for( int t = 0; t < threadCount; t++ ){ + ArrayList <Vertex> vList = new ArrayList <Vertex> (); + String tk = "" + t; + vertListHash.put( tk, vList); + } + LOGGER.debug("Count how many nodes are in the db. "); + long totalVertCount = graph.traversal().V().count().next(); + LOGGER.debug(" Total Count of Nodes in DB = " + totalVertCount + "."); + long nodesPerFile = totalVertCount / threadCount; + LOGGER.debug(" Thread count = " + threadCount + ", each file will get (roughly): " + nodesPerFile + " nodes."); + long timeA2 = System.nanoTime(); + long diffTime = timeA2 - timeA; + long minCount = TimeUnit.NANOSECONDS.toMinutes(diffTime); + long secCount = TimeUnit.NANOSECONDS.toSeconds(diffTime) - (60 * minCount); + LOGGER.debug(" -- To count all vertices in DB it took: " + + minCount + " minutes, " + secCount + " seconds " ); + + long vtxIndex = 0; + int currentTNum = 0; + String currentTKey = "0"; + long thisThrIndex = 0; + Iterator <Vertex> vtxItr = graph.vertices(); + while( vtxItr.hasNext() ){ + // Divide up all the vertices so we can process them on different threads + vtxIndex++; + thisThrIndex++; + if( (thisThrIndex > nodesPerFile) && (currentTNum < threadCount -1) ){ + // We will need to start adding to the Hash for the next thread + currentTNum++; + currentTKey = "" + currentTNum; + thisThrIndex = 0; + } + (vertListHash.get(currentTKey)).add(vtxItr.next()); + } + + long timeB = System.nanoTime(); + diffTime = timeB - timeA2; + minCount = TimeUnit.NANOSECONDS.toMinutes(diffTime); + secCount = TimeUnit.NANOSECONDS.toSeconds(diffTime) - (60 * minCount); + LOGGER.debug(" -- To Loop over all vertices, and put them into sub-Arrays it took: " + + minCount + " minutes, " + secCount + " seconds " ); + + // Need to print out each set of vertices using it's own thread + ArrayList <Thread> threadArr = new ArrayList <Thread> (); + for( int thNum = 0; thNum < threadCount; thNum++ ){ + String thNumStr = "" + thNum; + String subFName = newSnapshotOutFname + ".P" + thNumStr; + Thread thr = new Thread(new PrintVertexDetails(graph, subFName, vertListHash.get(thNumStr), + debugFlag, debugAddDelayTime) ); + thr.start(); + threadArr.add(thr); + } + + // Make sure all the threads finish before moving on. + for( int thNum = 0; thNum < threadCount; thNum++ ){ + if( null != threadArr.get(thNum) ){ + (threadArr.get(thNum)).join(); + } + } + + long timeC = System.nanoTime(); + diffTime = timeC - timeB; + minCount = TimeUnit.NANOSECONDS.toMinutes(diffTime); + secCount = TimeUnit.NANOSECONDS.toSeconds(diffTime) - (60 * minCount); + LOGGER.debug(" -- To write all the data out to snapshot files, it took: " + + minCount + " minutes, " + secCount + " seconds " ); + + + } else if( command.equals("MULTITHREAD_RELOAD") ){ + // --------------------------------------------------------------------- + // They want the RELOAD of the snapshot to be spread out via threads + // NOTE - it will only use as many threads as the number of files the + // snapshot is written to. Ie. if you have a single-file snapshot, + // then this will be single-threaded. + // + ArrayList <File> snapFilesArr = getFilesToProcess(targetDir, oldSnapshotFileName, false); + int fCount = snapFilesArr.size(); + Iterator <File> fItr = snapFilesArr.iterator(); + + JanusGraph graph1 = AAIGraph.getInstance().getGraph(); + long timeStart = System.nanoTime(); + + HashMap <String,String> old2NewVertIdMap = new <String,String> HashMap (); + + // We're going to try loading in the vertices - without edges or properties + // using Separate threads + + ExecutorService executor = Executors.newFixedThreadPool(fCount); + List<Future<HashMap<String,String>>> list = new ArrayList<Future<HashMap<String,String>>>(); + + for( int i=0; i < fCount; i++ ){ + File f = snapFilesArr.get(i); + String fname = f.getName(); + String fullSnapName = targetDir + AAIConstants.AAI_FILESEP + fname; + Thread.sleep(staggerThreadDelay); // Stagger the threads a bit + LOGGER.debug(" -- Read file: [" + fullSnapName + "]"); + LOGGER.debug(" -- Call the PartialVertexLoader to just load vertices ----"); + LOGGER.debug(" -- vertAddDelayMs = " + vertAddDelayMs + + ", failureDelayMs = " + failureDelayMs + ", retryDelayMs = " + retryDelayMs + + ", maxErrorsPerThread = " + maxErrorsPerThread ); + Callable <HashMap<String,String>> vLoader = new PartialVertexLoader(graph1, fullSnapName, + vertAddDelayMs, failureDelayMs, retryDelayMs, maxErrorsPerThread, LOGGER); + Future <HashMap<String,String>> future = (Future<HashMap<String, String>>) executor.submit(vLoader); + + // add Future to the list, we can get return value using Future + list.add(future); + LOGGER.debug(" -- Starting PartialDbLoad VERT_ONLY thread # "+ i ); + } + + threadCount = 0; + int threadFailCount = 0; + for(Future<HashMap<String,String>> fut : list){ + threadCount++; + try { + old2NewVertIdMap.putAll(fut.get()); + LOGGER.debug(" -- back from PartialVertexLoader. returned thread # " + threadCount + + ", current size of old2NewVertMap is: " + old2NewVertIdMap.size() ); + } + catch (InterruptedException e) { + threadFailCount++; + e.printStackTrace(); + } + catch (ExecutionException e) { + threadFailCount++; + e.printStackTrace(); + } + } + + executor.shutdown(); + + if( threadFailCount > 0 ) { + String emsg = " FAILURE >> " + threadFailCount + " Vertex-loader thread(s) failed to complete successfully. "; + LOGGER.debug(emsg); + throw new Exception( emsg ); + } + + long timeX = System.nanoTime(); + long diffTime = timeX - timeStart; + long minCount = TimeUnit.NANOSECONDS.toMinutes(diffTime); + long secCount = TimeUnit.NANOSECONDS.toSeconds(diffTime) - (60 * minCount); + LOGGER.debug(" -- To reload just the vertex ids from the snapshot files, it took: " + + minCount + " minutes, " + secCount + " seconds " ); + + // Give the DB a little time to chew on all those vertices + Thread.sleep(vertToEdgeProcDelay); + + // ---------------------------------------------------------------------------------------- + LOGGER.debug("\n\n\n -- Now do the edges/props ----------------------"); + // ---------------------------------------------------------------------------------------- + + + // We're going to try loading in the edges and missing properties + // Note - we're passing the whole oldVid2newVid mapping to the PartialPropAndEdgeLoader + // so that the String-updates to the GraphSON will happen in the threads instead of + // here in the un-threaded calling method. + executor = Executors.newFixedThreadPool(fCount); + ArrayList<Future<ArrayList<String>>> listEdg = new ArrayList<Future<ArrayList<String>>>(); + for( int i=0; i < fCount; i++ ){ + File f = snapFilesArr.get(i); + String fname = f.getName(); + String fullSnapName = targetDir + AAIConstants.AAI_FILESEP + fname; + Thread.sleep(staggerThreadDelay); // Stagger the threads a bit + LOGGER.debug(" -- Read file: [" + fullSnapName + "]"); + LOGGER.debug(" -- Call the PartialPropAndEdgeLoader for Properties and EDGEs ----"); + LOGGER.debug(" -- edgeAddDelayMs = " + vertAddDelayMs + + ", failureDelayMs = " + failureDelayMs + ", retryDelayMs = " + retryDelayMs + + ", maxErrorsPerThread = " + maxErrorsPerThread ); + + Callable eLoader = new PartialPropAndEdgeLoader(graph1, fullSnapName, + edgeAddDelayMs, failureDelayMs, retryDelayMs, + old2NewVertIdMap, maxErrorsPerThread, LOGGER); + Future <ArrayList<String>> future = (Future<ArrayList<String>>) executor.submit(eLoader); + + //add Future to the list, we can get return value using Future + listEdg.add(future); + LOGGER.debug(" -- Starting PartialPropAndEdge thread # "+ i ); + } + + threadCount = 0; + for(Future<ArrayList<String>> fut : listEdg){ + threadCount++; + try{ + fut.get(); // DEBUG -- should be doing something with the return value if it's not empty - ie. errors + LOGGER.debug(" -- back from PartialPropAndEdgeLoader. thread # " + threadCount ); + } + catch (InterruptedException e) { + threadFailCount++; + e.printStackTrace(); + } + catch (ExecutionException e) { + threadFailCount++; + e.printStackTrace(); + } + } + + executor.shutdown(); + + if( threadFailCount > 0 ) { + String emsg = " FAILURE >> " + threadFailCount + " Property/Edge-loader thread(s) failed to complete successfully. "; + LOGGER.debug(emsg); + throw new Exception( emsg ); + } + + // This is needed so we can see the data committed by the called threads + graph1.tx().commit(); + + long timeEnd = System.nanoTime(); + diffTime = timeEnd - timeX; + minCount = TimeUnit.NANOSECONDS.toMinutes(diffTime); + secCount = TimeUnit.NANOSECONDS.toSeconds(diffTime) - (60 * minCount); + LOGGER.debug(" -- To reload the edges and properties from snapshot files, it took: " + + minCount + " minutes, " + secCount + " seconds " ); + + long totalDiffTime = timeEnd - timeStart; + long totalMinCount = TimeUnit.NANOSECONDS.toMinutes(totalDiffTime); + long totalSecCount = TimeUnit.NANOSECONDS.toSeconds(totalDiffTime) - (60 * totalMinCount); + LOGGER.debug(" -- TOTAL multi-threaded reload time: " + + totalMinCount + " minutes, " + totalSecCount + " seconds " ); + + } else if (command.equals("CLEAR_ENTIRE_DATABASE")) { + // ------------------------------------------------------------------ + // They are calling this to clear the db before re-loading it + // later + // ------------------------------------------------------------------ + + // First - make sure the backup file(s) they will be using can be + // found and has(have) data. + // getFilesToProcess makes sure the file(s) exist and have some data. + getFilesToProcess(targetDir, oldSnapshotFileName, true); + + LOGGER.debug("\n>>> WARNING <<<< "); + LOGGER.debug(">>> All data and schema in this database will be removed at this point. <<<"); + LOGGER.debug(">>> Processing will begin in 5 seconds. <<<"); + LOGGER.debug(">>> WARNING <<<< "); + + try { + // Give them a chance to back out of this + Thread.sleep(5000); + } catch (java.lang.InterruptedException ie) { + LOGGER.debug(" DB Clearing has been aborted. "); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + + LOGGER.debug(" Begin clearing out old data. "); + String rtConfig = AAIConstants.REALTIME_DB_CONFIG; + String serviceName = System.getProperty("aai.service.name", "NA"); + LOGGER.debug("Getting new configs for clearig"); + PropertiesConfiguration propertiesConfiguration = new AAIGraphConfig.Builder(rtConfig).forService(serviceName).withGraphType(REALTIME_DB).buildConfiguration(); + if(isExistingTitan){ + LOGGER.debug("Existing DB is Titan"); + propertiesConfiguration.setProperty("graph.titan-version","1.0.0"); + } + LOGGER.debug("Open New Janus Graph"); + JanusGraph janusGraph = JanusGraphFactory.open(propertiesConfiguration); + verifyGraph(janusGraph); + + if(isExistingTitan){ + JanusGraphFactory.drop(janusGraph); + } else { + janusGraph.close(); + JanusGraphCleanup.clear(janusGraph); + } + LOGGER.debug(" Done clearing data. "); + LOGGER.debug(">>> IMPORTANT - NOTE >>> you need to run the SchemaGenerator (use GenTester) before "); + LOGGER.debug(" reloading data or the data will be put in without indexes. "); + dbClearFlag = true; + LOGGER.debug("All done clearing DB"); + + } else if (command.equals("RELOAD_LEGACY_DATA")) { + // ------------------------------------------------------------------- + // They want to restore the database from an old snapshot file + // ------------------------------------------------------------------- + verifyGraph(AAIGraph.getInstance().getGraph()); + graph = AAIGraph.getInstance().getGraph(); + if (oldSnapshotFileName.equals("")) { + String emsg = "No oldSnapshotFileName passed to DataSnapshot when RELOAD_LEGACY_DATA used."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + String oldSnapshotFullFname = targetDir + AAIConstants.AAI_FILESEP + oldSnapshotFileName; + File f = new File(oldSnapshotFullFname); + if (!f.exists()) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " could not be found."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } else if (!f.canRead()) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " could not be read."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } else if (f.length() == 0) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " had no data."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + + LOGGER.debug("We will load data IN from the file = " + oldSnapshotFullFname); + LOGGER.debug(" Begin reloading JanusGraph 0.5 data. "); + + LegacyGraphSONReader lgr = LegacyGraphSONReader.build().create(); + InputStream is = new FileInputStream(oldSnapshotFullFname); + lgr.readGraph(is, graph); + + LOGGER.debug("Completed the inputGraph command, now try to commit()... "); + graph.tx().commit(); + LOGGER.debug("Completed reloading JanusGraph 0.5 data."); + + long vCount = graph.traversal().V().count().next(); + LOGGER.debug("A little after repopulating from an old snapshot, we see: " + vCount + " vertices in the db."); + } else if (command.equals("RELOAD_DATA")) { + // ------------------------------------------------------------------- + // They want to restore the database from an old snapshot file + // ------------------------------------------------------------------- + verifyGraph(AAIGraph.getInstance().getGraph()); + graph = AAIGraph.getInstance().getGraph(); + if (oldSnapshotFileName.equals("")) { + String emsg = "No oldSnapshotFileName passed to DataSnapshot when RELOAD_DATA used."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + String oldSnapshotFullFname = targetDir + AAIConstants.AAI_FILESEP + oldSnapshotFileName; + File f = new File(oldSnapshotFullFname); + if (!f.exists()) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " could not be found."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } else if (!f.canRead()) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " could not be read."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } else if (f.length() == 0) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " had no data."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + + LOGGER.debug("We will load data IN from the file = " + oldSnapshotFullFname); + LOGGER.debug(" Begin reloading data. "); + graph.io(IoCore.graphson()).readGraph(oldSnapshotFullFname); + LOGGER.debug("Completed the inputGraph command, now try to commit()... "); + graph.tx().commit(); + LOGGER.debug("Completed reloading data."); + + long vCount = graph.traversal().V().count().next(); + + LOGGER.debug("A little after repopulating from an old snapshot, we see: " + vCount + " vertices in the db."); + + } else if (command.equals("RELOAD_DATA_MULTI")) { + // ------------------------------------------------------------------- + // They want to restore the database from a group of snapshot files + // Note - this uses multiple snapshot files, but runs single-threaded. + // ------------------------------------------------------------------- + verifyGraph(AAIGraph.getInstance().getGraph()); + graph = AAIGraph.getInstance().getGraph(); + + ArrayList <File> snapFilesArr = getFilesToProcess(targetDir, oldSnapshotFileName, false); + + long timeA = System.nanoTime(); + + int fCount = snapFilesArr.size(); + Iterator <File> fItr = snapFilesArr.iterator(); + Vector<InputStream> inputStreamsV = new Vector<>(); + for( int i = 0; i < fCount; i++ ){ + File f = snapFilesArr.get(i); + String fname = f.getName(); + if (!f.canRead()) { + String emsg = "oldSnapshotFile " + fname + " could not be read."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } else if (f.length() == 0) { + String emsg = "oldSnapshotFile " + fname + " had no data."; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + String fullFName = targetDir + AAIConstants.AAI_FILESEP + fname; + InputStream fis = new FileInputStream(fullFName); + inputStreamsV.add(fis); + } + // Now add inputStreams.elements() to the Vector, + // inputStreams.elements() will return Enumerations + InputStream sis = new SequenceInputStream(inputStreamsV.elements()); + LOGGER.debug("Begin loading data from " + fCount + " files -----"); + graph.io(IoCore.graphson()).reader().create().readGraph(sis, graph); + LOGGER.debug("Completed the inputGraph command, now try to commit()... "); + graph.tx().commit(); + LOGGER.debug(" >> Completed reloading data."); + + long vCount = graph.traversal().V().count().next(); + LOGGER.debug("A little after repopulating from an old snapshot, we see: " + vCount + " vertices in the db."); + + long timeB = System.nanoTime(); + long diffTime = timeB - timeA; + long minCount = TimeUnit.NANOSECONDS.toMinutes(diffTime); + long secCount = TimeUnit.NANOSECONDS.toSeconds(diffTime) - (60 * minCount); + LOGGER.debug(" -- To Reload this snapshot, it took: " + + minCount + " minutes, " + secCount + " seconds " ); + + + } else { + String emsg = "Bad command passed to DataSnapshot: [" + command + "]"; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + + } catch (AAIException e) { + ErrorLogHelper.logError("AAI_6128", e.getMessage()); + LOGGER.error("Encountered an exception during the datasnapshot: ", e); + e.printStackTrace(); + success = false; + } catch (Exception ex) { + ErrorLogHelper.logError("AAI_6128", ex.getMessage()); + LOGGER.error("Encountered an exception during the datasnapshot: ", ex); + ex.printStackTrace(); + success = false; + } finally { + if (!dbClearFlag && graph != null) { + // Any changes that worked correctly should have already done + // thier commits. + if(!"true".equals(System.getProperty("org.onap.aai.graphadmin.started"))) { + if (graph.isOpen()) { + graph.tx().rollback(); + graph.close(); + } + } + } + try { + baos.close(); + } catch (IOException iox) { + } + } + + if(success){ + AAISystemExitUtil.systemExitCloseAAIGraph(0); + } else { + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + + }// End of main() + + + private static ArrayList <File> getFilesToProcess(String targetDir, String oldSnapshotFileName, boolean doingClearDb) + throws Exception { + + if( oldSnapshotFileName == null || oldSnapshotFileName.equals("") ){ + String emsg = "No oldSnapshotFileName passed to DataSnapshot for Reload. "; + if( doingClearDb ) { + emsg = "No oldSnapshotFileName passed to DataSnapshot. Needed when Clearing the db in case we need a backup. "; + } + LOGGER.debug(emsg); + throw new Exception( emsg ); + } + + ArrayList <File> snapFilesArrList = new ArrayList <File> (); + + // First, we'll assume that this is a multi-file snapshot and + // look for names based on that. + String thisSnapPrefix = oldSnapshotFileName + ".P"; + File fDir = new File(targetDir); // Snapshot directory + File[] allFilesArr = fDir.listFiles(); + for (File snapFile : allFilesArr) { + String snapFName = snapFile.getName(); + if( snapFName.startsWith(thisSnapPrefix)){ + if (!snapFile.canRead()) { + String emsg = "oldSnapshotFile " + snapFName + " could not be read."; + LOGGER.debug(emsg); + throw new Exception (emsg); + } else if (snapFile.length() == 0) { + String emsg = "oldSnapshotFile " + snapFName + " had no data."; + LOGGER.debug(emsg); + throw new Exception (emsg); + } + snapFilesArrList.add(snapFile); + } + } + + if( snapFilesArrList.isEmpty() ){ + // Multi-file snapshot check did not find files, so this may + // be a single-file snapshot. + String oldSnapshotFullFname = targetDir + AAIConstants.AAI_FILESEP + oldSnapshotFileName; + File f = new File(oldSnapshotFullFname); + if (!f.exists()) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " could not be found."; + LOGGER.debug(emsg); + throw new Exception (emsg); + } else if (!f.canRead()) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " could not be read."; + LOGGER.debug(emsg); + throw new Exception (emsg); + } else if (f.length() == 0) { + String emsg = "oldSnapshotFile " + oldSnapshotFullFname + " had no data."; + LOGGER.debug(emsg); + throw new Exception (emsg); + } + snapFilesArrList.add(f); + } + + if( snapFilesArrList.isEmpty() ){ + // Still haven't found anything.. that was not a good file name. + String fullFName = targetDir + AAIConstants.AAI_FILESEP + thisSnapPrefix; + String emsg = "oldSnapshotFile " + fullFName + "* could not be found."; + LOGGER.debug(emsg); + throw new Exception(emsg); + } + + return snapFilesArrList; + } + + + public static void verifyGraph(JanusGraph graph) { + + if (graph == null) { + String emsg = "Not able to get a graph object in DataSnapshot.java\n"; + LOGGER.debug(emsg); + AAISystemExitUtil.systemExitCloseAAIGraph(1); + } + + } + + +}
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