| /* |
| * Licensed to the Apache Software Foundation (ASF) under one |
| * or more contributor license agreements. See the NOTICE file |
| * distributed with this work for additional information |
| * regarding copyright ownership. The ASF licenses this file |
| * to you 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. |
| */ |
| |
| package org.apache.iotdb.db.storageengine.dataregion.wal.node; |
| |
| import org.apache.iotdb.commons.consensus.DataRegionId; |
| import org.apache.iotdb.commons.exception.IllegalPathException; |
| import org.apache.iotdb.commons.path.PartialPath; |
| import org.apache.iotdb.consensus.iot.log.ConsensusReqReader; |
| import org.apache.iotdb.db.conf.IoTDBConfig; |
| import org.apache.iotdb.db.conf.IoTDBDescriptor; |
| import org.apache.iotdb.db.queryengine.plan.planner.plan.node.PlanNodeId; |
| import org.apache.iotdb.db.queryengine.plan.planner.plan.node.write.InsertRowNode; |
| import org.apache.iotdb.db.storageengine.StorageEngine; |
| import org.apache.iotdb.db.storageengine.dataregion.DataRegion; |
| import org.apache.iotdb.db.storageengine.dataregion.DataRegionTest; |
| import org.apache.iotdb.db.storageengine.dataregion.memtable.IMemTable; |
| import org.apache.iotdb.db.storageengine.dataregion.memtable.PrimitiveMemTable; |
| import org.apache.iotdb.db.storageengine.dataregion.wal.exception.MemTablePinException; |
| import org.apache.iotdb.db.storageengine.dataregion.wal.utils.WALEntryHandler; |
| import org.apache.iotdb.db.storageengine.dataregion.wal.utils.WALFileUtils; |
| import org.apache.iotdb.db.storageengine.dataregion.wal.utils.WALInsertNodeCache; |
| import org.apache.iotdb.db.storageengine.dataregion.wal.utils.WALMode; |
| import org.apache.iotdb.db.storageengine.dataregion.wal.utils.listener.WALFlushListener; |
| import org.apache.iotdb.db.utils.EnvironmentUtils; |
| import org.apache.iotdb.db.utils.constant.TestConstant; |
| import org.apache.iotdb.tsfile.common.conf.TSFileConfig; |
| import org.apache.iotdb.tsfile.file.metadata.enums.TSDataType; |
| import org.apache.iotdb.tsfile.utils.Binary; |
| import org.apache.iotdb.tsfile.write.schema.MeasurementSchema; |
| |
| import org.awaitility.Awaitility; |
| import org.junit.After; |
| import org.junit.Assert; |
| import org.junit.Before; |
| import org.junit.Test; |
| |
| import java.io.File; |
| import java.util.Map; |
| import java.util.Set; |
| |
| public class WalDeleteOutdatedNewTest { |
| private static final IoTDBConfig config = IoTDBDescriptor.getInstance().getConfig(); |
| private static final String identifier1 = String.valueOf(Integer.MAX_VALUE); |
| private static final String logDirectory1 = |
| TestConstant.BASE_OUTPUT_PATH.concat("sequence/root.test_sg/1/2910/"); |
| private static final String databasePath = "root.test_sg"; |
| private static final String devicePath = databasePath + ".test_d"; |
| private static final String dataRegionId = "1"; |
| private WALMode prevMode; |
| private WALNode walNode1; |
| |
| @Before |
| public void setUp() throws Exception { |
| EnvironmentUtils.cleanDir(logDirectory1); |
| prevMode = config.getWalMode(); |
| config.setWalMode(WALMode.SYNC); |
| walNode1 = new WALNode(identifier1, logDirectory1); |
| DataRegion dataRegion = new DataRegionTest.DummyDataRegion(logDirectory1, databasePath); |
| dataRegion.updatePartitionFileVersion(2911, 0); |
| StorageEngine.getInstance().setDataRegion(new DataRegionId(1), dataRegion); |
| } |
| |
| @After |
| public void tearDown() throws Exception { |
| walNode1.close(); |
| config.setWalMode(prevMode); |
| EnvironmentUtils.cleanDir(logDirectory1); |
| StorageEngine.getInstance().reset(); |
| WALInsertNodeCache.getInstance(1).clear(); |
| } |
| |
| /** |
| * The simulation here is to write the last file, because serialization and disk flushing |
| * operations are asynchronous, so you have to wait until all the entries are processed to get the |
| * correct result, when WalEntry is not consumed to get memTableIdsOfWal, the result is not |
| * accurate, so when the actual deletion of expired wal files, Don't read the last wal file. |
| */ |
| @Test |
| public void test01() throws IllegalPathException { |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| |
| IMemTable memTable2 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 4)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 5)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 6)); |
| |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(1, memTableIdsOfWal.size()); |
| Assert.assertEquals(2, memTableIdsOfWal.get(0L).size()); |
| Assert.assertEquals(1, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| walNode1.close(); |
| } |
| |
| /** |
| * Ensure that the memtableIds maintained by each wal file are accurate:<br> |
| * 1. _0-1-1.wal:memTable0、memTable1 <br> |
| * 2. roll wal file <br> |
| * 3. _1-6-1.wal: memTable1 <br> |
| * 4. wait until all walEntry consumed |
| */ |
| @Test |
| public void test02() throws IllegalPathException { |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| |
| IMemTable memTable2 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 4)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 5)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 6)); |
| |
| walNode1.rollWALFile(); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 7)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 8)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 9)); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(2, memTableIdsOfWal.size()); |
| Assert.assertEquals(1, memTableIdsOfWal.get(1L).size()); |
| Assert.assertEquals(2, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| } |
| |
| /** |
| * Ensure that files that can be cleaned can be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 、 memTable1 <br> |
| * 2. roll wal file <br> |
| * 3. _1-1-1.wal: memTable1 <br> |
| * 4. wait until all walEntry consumed <br> |
| * 5. memTable0 flush, memTable1 flush <br> |
| * 6. delete outdated wal files |
| */ |
| @Test |
| public void test03() throws IllegalPathException { |
| |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.rollWALFile(); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| walNode1.onMemTableFlushed(memTable0); |
| walNode1.onMemTableFlushed(memTable1); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| // before deleted |
| Assert.assertEquals(2, memTableIdsOfWal.size()); |
| Assert.assertEquals(2, memTableIdsOfWal.get(0L).size()); |
| File[] files = WALFileUtils.listAllWALFiles(new File(logDirectory1)); |
| Assert.assertEquals(2, files.length); |
| |
| walNode1.deleteOutdatedFiles(); |
| Map<Long, Set<Long>> memTableIdsOfWalAfter = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| |
| // after deleted |
| Assert.assertEquals(0, memTableIdsOfWalAfter.size()); |
| File[] filesAfter = WALFileUtils.listAllWALFiles(new File(logDirectory1)); |
| Assert.assertEquals(1, filesAfter.length); |
| } |
| |
| /** |
| * Ensure that files that can be cleaned can be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 <br> |
| * 2. roll wal file <br> |
| * 3. _1-1-0.wal: memTable1 <br> |
| * 4. roll wal file <br> |
| * 5. _2-1-1.wal: memTable1 <br> |
| * 6. wait until all walEntry consumed <br> |
| * 7. memTable0 flush, memTable1 flush, memTable2 flush <br> |
| * 6. delete outdated wal files |
| */ |
| @Test |
| public void test04() throws IllegalPathException { |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.rollWALFile(); |
| |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.rollWALFile(); |
| |
| IMemTable memTable2 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| walNode1.onMemTableFlushed(memTable2); |
| walNode1.onMemTableFlushed(memTable0); |
| walNode1.onMemTableFlushed(memTable1); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(3, memTableIdsOfWal.size()); |
| Assert.assertEquals(3, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| |
| walNode1.deleteOutdatedFiles(); |
| Map<Long, Set<Long>> memTableIdsOfWalAfter = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(0, memTableIdsOfWalAfter.size()); |
| Assert.assertEquals(1, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| } |
| |
| /** |
| * Ensure that wal pinned to memtable cannot be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 <br> |
| * 2. pin memTable0 <br> |
| * 3. memTable0 flush <br> |
| * 4. roll wal file <br> |
| * 5. _1-1-1.wal: memTable0、memTable1 <br> |
| * 6. roll wal file <br> |
| * 7. _2-1-1.wal: memTable1 <br> |
| * 8. roll wal file <br> |
| * 9. _2-1-1.wal: memTable1 <br> |
| * 10. wait until all walEntry consumed <br> |
| * 11. memTable0 flush, memTable1 flush <br> |
| * 12. delete outdated wal files |
| */ |
| @Test |
| public void test05() throws IllegalPathException, MemTablePinException { |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| WALFlushListener listener = |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.rollWALFile(); |
| |
| // pin memTable |
| WALEntryHandler handler = listener.getWalEntryHandler(); |
| handler.pinMemTable(); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| walNode1.rollWALFile(); |
| |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 4)); |
| walNode1.rollWALFile(); |
| |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 5)); |
| walNode1.onMemTableFlushed(memTable0); |
| walNode1.onMemTableFlushed(memTable1); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(4, memTableIdsOfWal.size()); |
| Assert.assertEquals(4, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| |
| walNode1.deleteOutdatedFiles(); |
| Map<Long, Set<Long>> memTableIdsOfWalAfter = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(3, memTableIdsOfWalAfter.size()); |
| Assert.assertEquals(3, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| } |
| |
| /** |
| * Ensure that the flushed wal related to memtable cannot be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 <br> |
| * 2. roll wal file <br> |
| * 3. _1-1-1.wal: memTable0 <br> |
| * 4. roll wal file <br> |
| * 5. _2-1-1.wal: memTable0 <br> |
| * 6. roll wal file <br> |
| * 7. _2-1-1.wal: memTable0 <br> |
| * 8. wait until all walEntry consumed <br> |
| * 9. delete outdated wal files |
| */ |
| @Test |
| public void test06() throws IllegalPathException { |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.rollWALFile(); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.rollWALFile(); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| walNode1.rollWALFile(); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 4)); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(4, memTableIdsOfWal.size()); |
| Assert.assertEquals(4, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| |
| walNode1.deleteOutdatedFiles(); |
| Map<Long, Set<Long>> memTableIdsOfWalAfter = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(4, memTableIdsOfWalAfter.size()); |
| Assert.assertEquals(4, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| } |
| |
| /** |
| * Ensure that files that can be cleaned can be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 <br> |
| * 2. roll wal file <br> |
| * 3. _1-1-0.wal: memTable1、memTable2 <br> |
| * 4. roll wal file <br> |
| * 5. _2-1-0.wal: memTable2 <br> |
| * 6. roll wal file <br> |
| * 7. _3-1-0.wal: memTable3 <br> |
| * 8. roll wal file <br> |
| * 9. _4-1-0.wal: memTable3 <br> |
| * 10. wait until all walEntry consumed <br> |
| * 11. memTable1 flush, memTable2 flush, memTable3 flush <br> |
| * 12. delete outdated wal files |
| */ |
| @Test |
| public void test07() throws IllegalPathException { |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.rollWALFile(); |
| |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| |
| IMemTable memTable2 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.rollWALFile(); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.rollWALFile(); |
| IMemTable memTable3 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable3, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable3.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.rollWALFile(); |
| walNode1.log( |
| memTable3.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.onMemTableFlushed(memTable1); |
| walNode1.onMemTableFlushed(memTable2); |
| walNode1.onMemTableFlushed(memTable3); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| |
| Map<Long, Set<Long>> memTableIdsOfWal = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(5, memTableIdsOfWal.size()); |
| Assert.assertEquals(5, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| |
| walNode1.deleteOutdatedFiles(); |
| Map<Long, Set<Long>> memTableIdsOfWalAfter = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(2, memTableIdsOfWalAfter.size()); |
| Assert.assertEquals(2, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| |
| walNode1.onMemTableFlushed(memTable0); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| walNode1.deleteOutdatedFiles(); |
| Map<Long, Set<Long>> memTableIdsOfWalAfterAfter = walNode1.getWALBuffer().getMemTableIdsOfWal(); |
| Assert.assertEquals(0, memTableIdsOfWalAfterAfter.size()); |
| Assert.assertEquals(1, WALFileUtils.listAllWALFiles(new File(logDirectory1)).length); |
| } |
| |
| /** |
| * Ensure that files that can be cleaned can be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 <br> |
| * 2. roll wal file <br> |
| * 3. _1-1-0.wal: memTable1<br> |
| * 4. memTable1 flush <br> |
| * 5. roll wal file <br> |
| * 6. _2-1-0.wal: memTable2 <br> |
| * 7. wait until all walEntry consumed <br> |
| * 8. delete outdated wal files |
| */ |
| @Test |
| public void test08() throws IllegalPathException { |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.rollWALFile(); |
| |
| ConsensusReqReader.ReqIterator itr1 = walNode1.getReqIterator(1); |
| Assert.assertFalse(itr1.hasNext()); |
| |
| IMemTable memTable1 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable1, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable1.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), -1)); |
| walNode1.onMemTableFlushed(memTable1); |
| walNode1.rollWALFile(); |
| |
| ConsensusReqReader.ReqIterator itr2 = walNode1.getReqIterator(1); |
| Assert.assertTrue(itr2.hasNext()); |
| |
| IMemTable memTable2 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| |
| ConsensusReqReader.ReqIterator itr3 = walNode1.getReqIterator(1); |
| Assert.assertTrue(itr3.hasNext()); |
| walNode1.deleteOutdatedFiles(); |
| |
| ConsensusReqReader.ReqIterator itr4 = walNode1.getReqIterator(1); |
| Assert.assertFalse(itr4.hasNext()); |
| walNode1.rollWALFile(); |
| Assert.assertTrue(itr4.hasNext()); |
| } |
| |
| /** |
| * Ensure that files that can be cleaned can be deleted: <br> |
| * 1. _0-0-1.wal: memTable0 <br> |
| * 2. roll wal file <br> |
| * 3. _2-1-0.wal: memTable2 <br> |
| * 4. wait until all walEntry consumed <br> |
| * 5. delete outdated wal files |
| */ |
| @Test |
| public void test09() throws IllegalPathException { |
| IMemTable memTable0 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable0, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable0.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 1)); |
| walNode1.rollWALFile(); |
| |
| IMemTable memTable2 = new PrimitiveMemTable(databasePath, dataRegionId); |
| walNode1.onMemTableCreated(memTable2, logDirectory1 + "/" + "fake.tsfile"); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 2)); |
| walNode1.log( |
| memTable2.getMemTableId(), |
| generateInsertRowNode(devicePath, System.currentTimeMillis(), 3)); |
| Awaitility.await().until(() -> walNode1.isAllWALEntriesConsumed()); |
| |
| ConsensusReqReader.ReqIterator itr3 = walNode1.getReqIterator(1); |
| Assert.assertFalse(itr3.hasNext()); |
| } |
| |
| public static InsertRowNode generateInsertRowNode(String devicePath, long time, long searchIndex) |
| throws IllegalPathException { |
| TSDataType[] dataTypes = |
| new TSDataType[] { |
| TSDataType.DOUBLE, |
| TSDataType.FLOAT, |
| TSDataType.INT64, |
| TSDataType.INT32, |
| TSDataType.BOOLEAN, |
| TSDataType.TEXT |
| }; |
| |
| Object[] columns = new Object[6]; |
| columns[0] = 1.0d; |
| columns[1] = 2f; |
| columns[2] = 10000L; |
| columns[3] = 100; |
| columns[4] = false; |
| columns[5] = new Binary("hh" + 0, TSFileConfig.STRING_CHARSET); |
| |
| InsertRowNode node = |
| new InsertRowNode( |
| new PlanNodeId(""), |
| new PartialPath(devicePath), |
| false, |
| new String[] {"s1", "s2", "s3", "s4", "s5", "s6"}, |
| dataTypes, |
| time, |
| columns, |
| false); |
| MeasurementSchema[] schemas = new MeasurementSchema[6]; |
| for (int i = 0; i < 6; i++) { |
| schemas[i] = new MeasurementSchema("s" + (i + 1), dataTypes[i]); |
| } |
| node.setMeasurementSchemas(schemas); |
| node.setSearchIndex(searchIndex); |
| return node; |
| } |
| } |