001/* 002 * Licensed to the Apache Software Foundation (ASF) under one 003 * or more contributor license agreements. See the NOTICE file 004 * distributed with this work for additional information 005 * regarding copyright ownership. The ASF licenses this file 006 * to you under the Apache License, Version 2.0 (the 007 * "License"); you may not use this file except in compliance 008 * with the License. You may obtain a copy of the License at 009 * 010 * http://www.apache.org/licenses/LICENSE-2.0 011 * 012 * Unless required by applicable law or agreed to in writing, software 013 * distributed under the License is distributed on an "AS IS" BASIS, 014 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 015 * See the License for the specific language governing permissions and 016 * limitations under the License. 017 */ 018package org.apache.hadoop.hbase.regionserver; 019 020import static org.junit.Assert.assertEquals; 021import static org.junit.Assert.assertNotNull; 022import static org.junit.Assert.assertNull; 023import static org.junit.Assert.assertTrue; 024 025import java.io.IOException; 026import java.util.ArrayList; 027import java.util.Arrays; 028import java.util.List; 029import java.util.NavigableMap; 030import java.util.Objects; 031import java.util.TreeMap; 032import java.util.concurrent.atomic.AtomicLong; 033import java.util.concurrent.atomic.AtomicReference; 034import org.apache.hadoop.conf.Configuration; 035import org.apache.hadoop.fs.Path; 036import org.apache.hadoop.hbase.Cell; 037import org.apache.hadoop.hbase.CellComparatorImpl; 038import org.apache.hadoop.hbase.CellUtil; 039import org.apache.hadoop.hbase.HBaseClassTestRule; 040import org.apache.hadoop.hbase.HBaseConfiguration; 041import org.apache.hadoop.hbase.HBaseTestingUtility; 042import org.apache.hadoop.hbase.HConstants; 043import org.apache.hadoop.hbase.KeepDeletedCells; 044import org.apache.hadoop.hbase.KeyValue; 045import org.apache.hadoop.hbase.KeyValueTestUtil; 046import org.apache.hadoop.hbase.KeyValueUtil; 047import org.apache.hadoop.hbase.TableDescriptors; 048import org.apache.hadoop.hbase.TableName; 049import org.apache.hadoop.hbase.client.ColumnFamilyDescriptorBuilder; 050import org.apache.hadoop.hbase.client.Put; 051import org.apache.hadoop.hbase.client.RegionInfo; 052import org.apache.hadoop.hbase.client.RegionInfoBuilder; 053import org.apache.hadoop.hbase.client.Scan; 054import org.apache.hadoop.hbase.client.TableDescriptor; 055import org.apache.hadoop.hbase.client.TableDescriptorBuilder; 056import org.apache.hadoop.hbase.exceptions.UnexpectedStateException; 057import org.apache.hadoop.hbase.testclassification.MediumTests; 058import org.apache.hadoop.hbase.testclassification.RegionServerTests; 059import org.apache.hadoop.hbase.util.Bytes; 060import org.apache.hadoop.hbase.util.EnvironmentEdge; 061import org.apache.hadoop.hbase.util.EnvironmentEdgeManager; 062import org.apache.hadoop.hbase.util.FSTableDescriptors; 063import org.apache.hadoop.hbase.wal.WALFactory; 064import org.junit.AfterClass; 065import org.junit.Before; 066import org.junit.ClassRule; 067import org.junit.Rule; 068import org.junit.Test; 069import org.junit.experimental.categories.Category; 070import org.junit.rules.TestName; 071import org.slf4j.Logger; 072import org.slf4j.LoggerFactory; 073 074import org.apache.hbase.thirdparty.com.google.common.base.Joiner; 075import org.apache.hbase.thirdparty.com.google.common.collect.Iterables; 076import org.apache.hbase.thirdparty.com.google.common.collect.Lists; 077 078/** memstore test case */ 079@Category({ RegionServerTests.class, MediumTests.class }) 080public class TestDefaultMemStore { 081 082 @ClassRule 083 public static final HBaseClassTestRule CLASS_RULE = 084 HBaseClassTestRule.forClass(TestDefaultMemStore.class); 085 086 private static final Logger LOG = LoggerFactory.getLogger(TestDefaultMemStore.class); 087 @Rule 088 public TestName name = new TestName(); 089 protected AbstractMemStore memstore; 090 protected static final int ROW_COUNT = 10; 091 protected static final int QUALIFIER_COUNT = ROW_COUNT; 092 protected static final byte[] FAMILY = Bytes.toBytes("column"); 093 protected MultiVersionConcurrencyControl mvcc; 094 protected AtomicLong startSeqNum = new AtomicLong(0); 095 protected ChunkCreator chunkCreator; 096 097 private String getName() { 098 return this.name.getMethodName(); 099 } 100 101 @Before 102 public void setUp() throws Exception { 103 internalSetUp(); 104 // no pool 105 this.chunkCreator = ChunkCreator.initialize(MemStoreLAB.CHUNK_SIZE_DEFAULT, false, 0, 0, 0, 106 null, MemStoreLAB.INDEX_CHUNK_SIZE_PERCENTAGE_DEFAULT); 107 this.memstore = new DefaultMemStore(); 108 } 109 110 @AfterClass 111 public static void tearDownClass() throws Exception { 112 ChunkCreator.getInstance().clearChunkIds(); 113 } 114 115 protected void internalSetUp() throws Exception { 116 this.mvcc = new MultiVersionConcurrencyControl(); 117 } 118 119 @Test 120 public void testPutSameKey() { 121 byte[] bytes = Bytes.toBytes(getName()); 122 KeyValue kv = new KeyValue(bytes, bytes, bytes, bytes); 123 this.memstore.add(kv, null); 124 byte[] other = Bytes.toBytes("somethingelse"); 125 KeyValue samekey = new KeyValue(bytes, bytes, bytes, other); 126 this.memstore.add(samekey, null); 127 Cell found = this.memstore.getActive().first(); 128 assertEquals(1, this.memstore.getActive().getCellsCount()); 129 assertTrue(Bytes.toString(found.getValueArray()), CellUtil.matchingValue(samekey, found)); 130 } 131 132 @Test 133 public void testPutSameCell() { 134 byte[] bytes = Bytes.toBytes(getName()); 135 KeyValue kv = new KeyValue(bytes, bytes, bytes, bytes); 136 MemStoreSizing sizeChangeForFirstCell = new NonThreadSafeMemStoreSizing(); 137 this.memstore.add(kv, sizeChangeForFirstCell); 138 MemStoreSizing sizeChangeForSecondCell = new NonThreadSafeMemStoreSizing(); 139 this.memstore.add(kv, sizeChangeForSecondCell); 140 // make sure memstore size increase won't double-count MSLAB chunk size 141 assertEquals(Segment.getCellLength(kv), sizeChangeForFirstCell.getMemStoreSize().getDataSize()); 142 Segment segment = this.memstore.getActive(); 143 MemStoreLAB msLab = segment.getMemStoreLAB(); 144 if (msLab != null) { 145 // make sure memstore size increased even when writing the same cell, if using MSLAB 146 assertEquals(Segment.getCellLength(kv), 147 sizeChangeForSecondCell.getMemStoreSize().getDataSize()); 148 // make sure chunk size increased even when writing the same cell, if using MSLAB 149 if (msLab instanceof MemStoreLABImpl) { 150 // since we add the chunkID at the 0th offset of the chunk and the 151 // chunkid is an int we need to account for those 4 bytes 152 assertEquals(2 * Segment.getCellLength(kv) + Bytes.SIZEOF_INT, 153 ((MemStoreLABImpl) msLab).getCurrentChunk().getNextFreeOffset()); 154 } 155 } else { 156 // make sure no memstore size change w/o MSLAB 157 assertEquals(0, sizeChangeForSecondCell.getMemStoreSize().getDataSize()); 158 assertEquals(0, sizeChangeForSecondCell.getMemStoreSize().getHeapSize()); 159 } 160 } 161 162 /** 163 * Test memstore snapshot happening while scanning. 164 */ 165 @Test 166 public void testScanAcrossSnapshot() throws IOException { 167 int rowCount = addRows(this.memstore); 168 List<KeyValueScanner> memstorescanners = this.memstore.getScanners(0); 169 Scan scan = new Scan(); 170 List<Cell> result = new ArrayList<>(); 171 Configuration conf = HBaseConfiguration.create(); 172 ScanInfo scanInfo = 173 new ScanInfo(conf, null, 0, 1, HConstants.LATEST_TIMESTAMP, KeepDeletedCells.FALSE, 174 HConstants.DEFAULT_BLOCKSIZE, 0, this.memstore.getComparator(), false); 175 int count = 0; 176 try (StoreScanner s = new StoreScanner(scan, scanInfo, null, memstorescanners)) { 177 while (s.next(result)) { 178 LOG.info(Objects.toString(result)); 179 count++; 180 // Row count is same as column count. 181 assertEquals(rowCount, result.size()); 182 result.clear(); 183 } 184 } 185 assertEquals(rowCount, count); 186 for (KeyValueScanner scanner : memstorescanners) { 187 scanner.close(); 188 } 189 190 memstorescanners = this.memstore.getScanners(mvcc.getReadPoint()); 191 // Now assert can count same number even if a snapshot mid-scan. 192 count = 0; 193 try (StoreScanner s = new StoreScanner(scan, scanInfo, null, memstorescanners)) { 194 while (s.next(result)) { 195 LOG.info(Objects.toString(result)); 196 // Assert the stuff is coming out in right order. 197 assertTrue(CellUtil.matchingRows(result.get(0), Bytes.toBytes(count))); 198 count++; 199 // Row count is same as column count. 200 assertEquals(rowCount, result.size()); 201 if (count == 2) { 202 this.memstore.snapshot(); 203 LOG.info("Snapshotted"); 204 } 205 result.clear(); 206 } 207 } 208 assertEquals(rowCount, count); 209 for (KeyValueScanner scanner : memstorescanners) { 210 scanner.close(); 211 } 212 memstorescanners = this.memstore.getScanners(mvcc.getReadPoint()); 213 // Assert that new values are seen in kvset as we scan. 214 long ts = EnvironmentEdgeManager.currentTime(); 215 count = 0; 216 int snapshotIndex = 5; 217 try (StoreScanner s = new StoreScanner(scan, scanInfo, null, memstorescanners)) { 218 while (s.next(result)) { 219 LOG.info(Objects.toString(result)); 220 // Assert the stuff is coming out in right order. 221 assertTrue(CellUtil.matchingRows(result.get(0), Bytes.toBytes(count))); 222 // Row count is same as column count. 223 assertEquals("count=" + count + ", result=" + result, rowCount, result.size()); 224 count++; 225 if (count == snapshotIndex) { 226 MemStoreSnapshot snapshot = this.memstore.snapshot(); 227 this.memstore.clearSnapshot(snapshot.getId()); 228 // Added more rows into kvset. But the scanner wont see these rows. 229 addRows(this.memstore, ts); 230 LOG.info("Snapshotted, cleared it and then added values (which wont be seen)"); 231 } 232 result.clear(); 233 } 234 } 235 assertEquals(rowCount, count); 236 } 237 238 /** 239 * A simple test which verifies the 3 possible states when scanning across snapshot. 240 */ 241 @Test 242 public void testScanAcrossSnapshot2() throws IOException, CloneNotSupportedException { 243 // we are going to the scanning across snapshot with two kvs 244 // kv1 should always be returned before kv2 245 final byte[] one = Bytes.toBytes(1); 246 final byte[] two = Bytes.toBytes(2); 247 final byte[] f = Bytes.toBytes("f"); 248 final byte[] q = Bytes.toBytes("q"); 249 final byte[] v = Bytes.toBytes(3); 250 251 final KeyValue kv1 = new KeyValue(one, f, q, v); 252 final KeyValue kv2 = new KeyValue(two, f, q, v); 253 254 // use case 1: both kvs in kvset 255 this.memstore.add(kv1.clone(), null); 256 this.memstore.add(kv2.clone(), null); 257 // snapshot is empty,active segment is not empty, 258 // empty segment is skipped. 259 verifyOneScanAcrossSnapshot2(kv1, kv2); 260 261 // use case 2: both kvs in snapshot 262 // active segment is empty,snapshot is not empty, 263 // empty segment is skipped. 264 this.memstore.snapshot(); 265 // 266 verifyOneScanAcrossSnapshot2(kv1, kv2); 267 268 // use case 3: first in snapshot second in kvset 269 this.memstore = new DefaultMemStore(); 270 this.memstore.add(kv1.clone(), null); 271 this.memstore.snapshot(); 272 this.memstore.add(kv2.clone(), null); 273 verifyScanAcrossSnapshot2(kv1, kv2); 274 } 275 276 protected void verifyScanAcrossSnapshot2(KeyValue kv1, KeyValue kv2) throws IOException { 277 List<KeyValueScanner> memstorescanners = this.memstore.getScanners(mvcc.getReadPoint()); 278 assertEquals(2, memstorescanners.size()); 279 final KeyValueScanner scanner0 = memstorescanners.get(0); 280 final KeyValueScanner scanner1 = memstorescanners.get(1); 281 scanner0.seek(KeyValueUtil.createFirstOnRow(HConstants.EMPTY_START_ROW)); 282 scanner1.seek(KeyValueUtil.createFirstOnRow(HConstants.EMPTY_START_ROW)); 283 Cell n0 = scanner0.next(); 284 Cell n1 = scanner1.next(); 285 assertTrue(kv1.equals(n0) || kv1.equals(n1)); 286 assertTrue(kv2.equals(n0) || kv2.equals(n1) || kv2.equals(scanner0.next()) 287 || kv2.equals(scanner1.next())); 288 assertNull(scanner0.next()); 289 assertNull(scanner1.next()); 290 } 291 292 protected void verifyOneScanAcrossSnapshot2(KeyValue kv1, KeyValue kv2) throws IOException { 293 List<KeyValueScanner> memstorescanners = this.memstore.getScanners(mvcc.getReadPoint()); 294 assertEquals(1, memstorescanners.size()); 295 final KeyValueScanner scanner0 = memstorescanners.get(0); 296 scanner0.seek(KeyValueUtil.createFirstOnRow(HConstants.EMPTY_START_ROW)); 297 Cell n0 = scanner0.next(); 298 Cell n1 = scanner0.next(); 299 assertTrue(kv1.equals(n0)); 300 assertTrue(kv2.equals(n1)); 301 assertNull(scanner0.next()); 302 } 303 304 protected void assertScannerResults(KeyValueScanner scanner, KeyValue[] expected) 305 throws IOException { 306 scanner.seek(KeyValueUtil.createFirstOnRow(new byte[] {})); 307 List<Cell> returned = Lists.newArrayList(); 308 309 while (true) { 310 Cell next = scanner.next(); 311 if (next == null) break; 312 returned.add(next); 313 } 314 315 assertTrue( 316 "Got:\n" + Joiner.on("\n").join(returned) + "\nExpected:\n" + Joiner.on("\n").join(expected), 317 Iterables.elementsEqual(Arrays.asList(expected), returned)); 318 assertNull(scanner.peek()); 319 } 320 321 @Test 322 public void testMemstoreConcurrentControl() throws IOException { 323 final byte[] row = Bytes.toBytes(1); 324 final byte[] f = Bytes.toBytes("family"); 325 final byte[] q1 = Bytes.toBytes("q1"); 326 final byte[] q2 = Bytes.toBytes("q2"); 327 final byte[] v = Bytes.toBytes("value"); 328 329 MultiVersionConcurrencyControl.WriteEntry w = mvcc.begin(); 330 331 KeyValue kv1 = new KeyValue(row, f, q1, v); 332 kv1.setSequenceId(w.getWriteNumber()); 333 memstore.add(kv1, null); 334 335 KeyValueScanner s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 336 assertScannerResults(s, new KeyValue[] {}); 337 338 mvcc.completeAndWait(w); 339 340 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 341 assertScannerResults(s, new KeyValue[] { kv1 }); 342 343 w = mvcc.begin(); 344 KeyValue kv2 = new KeyValue(row, f, q2, v); 345 kv2.setSequenceId(w.getWriteNumber()); 346 memstore.add(kv2, null); 347 348 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 349 assertScannerResults(s, new KeyValue[] { kv1 }); 350 351 mvcc.completeAndWait(w); 352 353 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 354 assertScannerResults(s, new KeyValue[] { kv1, kv2 }); 355 } 356 357 /** 358 * Regression test for HBASE-2616, HBASE-2670. When we insert a higher-memstoreTS version of a 359 * cell but with the same timestamp, we still need to provide consistent reads for the same 360 * scanner. 361 */ 362 @Test 363 public void testMemstoreEditsVisibilityWithSameKey() throws IOException { 364 final byte[] row = Bytes.toBytes(1); 365 final byte[] f = Bytes.toBytes("family"); 366 final byte[] q1 = Bytes.toBytes("q1"); 367 final byte[] q2 = Bytes.toBytes("q2"); 368 final byte[] v1 = Bytes.toBytes("value1"); 369 final byte[] v2 = Bytes.toBytes("value2"); 370 371 // INSERT 1: Write both columns val1 372 MultiVersionConcurrencyControl.WriteEntry w = mvcc.begin(); 373 374 KeyValue kv11 = new KeyValue(row, f, q1, v1); 375 kv11.setSequenceId(w.getWriteNumber()); 376 memstore.add(kv11, null); 377 378 KeyValue kv12 = new KeyValue(row, f, q2, v1); 379 kv12.setSequenceId(w.getWriteNumber()); 380 memstore.add(kv12, null); 381 mvcc.completeAndWait(w); 382 383 // BEFORE STARTING INSERT 2, SEE FIRST KVS 384 KeyValueScanner s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 385 assertScannerResults(s, new KeyValue[] { kv11, kv12 }); 386 387 // START INSERT 2: Write both columns val2 388 w = mvcc.begin(); 389 KeyValue kv21 = new KeyValue(row, f, q1, v2); 390 kv21.setSequenceId(w.getWriteNumber()); 391 memstore.add(kv21, null); 392 393 KeyValue kv22 = new KeyValue(row, f, q2, v2); 394 kv22.setSequenceId(w.getWriteNumber()); 395 memstore.add(kv22, null); 396 397 // BEFORE COMPLETING INSERT 2, SEE FIRST KVS 398 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 399 assertScannerResults(s, new KeyValue[] { kv11, kv12 }); 400 401 // COMPLETE INSERT 2 402 mvcc.completeAndWait(w); 403 404 // NOW SHOULD SEE NEW KVS IN ADDITION TO OLD KVS. 405 // See HBASE-1485 for discussion about what we should do with 406 // the duplicate-TS inserts 407 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 408 assertScannerResults(s, new KeyValue[] { kv21, kv11, kv22, kv12 }); 409 } 410 411 /** 412 * When we insert a higher-memstoreTS deletion of a cell but with the same timestamp, we still 413 * need to provide consistent reads for the same scanner. 414 */ 415 @Test 416 public void testMemstoreDeletesVisibilityWithSameKey() throws IOException { 417 final byte[] row = Bytes.toBytes(1); 418 final byte[] f = Bytes.toBytes("family"); 419 final byte[] q1 = Bytes.toBytes("q1"); 420 final byte[] q2 = Bytes.toBytes("q2"); 421 final byte[] v1 = Bytes.toBytes("value1"); 422 // INSERT 1: Write both columns val1 423 MultiVersionConcurrencyControl.WriteEntry w = mvcc.begin(); 424 425 KeyValue kv11 = new KeyValue(row, f, q1, v1); 426 kv11.setSequenceId(w.getWriteNumber()); 427 memstore.add(kv11, null); 428 429 KeyValue kv12 = new KeyValue(row, f, q2, v1); 430 kv12.setSequenceId(w.getWriteNumber()); 431 memstore.add(kv12, null); 432 mvcc.completeAndWait(w); 433 434 // BEFORE STARTING INSERT 2, SEE FIRST KVS 435 KeyValueScanner s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 436 assertScannerResults(s, new KeyValue[] { kv11, kv12 }); 437 438 // START DELETE: Insert delete for one of the columns 439 w = mvcc.begin(); 440 KeyValue kvDel = new KeyValue(row, f, q2, kv11.getTimestamp(), KeyValue.Type.DeleteColumn); 441 kvDel.setSequenceId(w.getWriteNumber()); 442 memstore.add(kvDel, null); 443 444 // BEFORE COMPLETING DELETE, SEE FIRST KVS 445 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 446 assertScannerResults(s, new KeyValue[] { kv11, kv12 }); 447 448 // COMPLETE DELETE 449 mvcc.completeAndWait(w); 450 451 // NOW WE SHOULD SEE DELETE 452 s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 453 assertScannerResults(s, new KeyValue[] { kv11, kvDel, kv12 }); 454 } 455 456 private static class ReadOwnWritesTester extends Thread { 457 static final int NUM_TRIES = 1000; 458 459 final byte[] row; 460 461 final byte[] f = Bytes.toBytes("family"); 462 final byte[] q1 = Bytes.toBytes("q1"); 463 464 final MultiVersionConcurrencyControl mvcc; 465 final MemStore memstore; 466 467 AtomicReference<Throwable> caughtException; 468 469 public ReadOwnWritesTester(int id, MemStore memstore, MultiVersionConcurrencyControl mvcc, 470 AtomicReference<Throwable> caughtException) { 471 this.mvcc = mvcc; 472 this.memstore = memstore; 473 this.caughtException = caughtException; 474 row = Bytes.toBytes(id); 475 } 476 477 @Override 478 public void run() { 479 try { 480 internalRun(); 481 } catch (Throwable t) { 482 caughtException.compareAndSet(null, t); 483 } 484 } 485 486 private void internalRun() throws IOException { 487 for (long i = 0; i < NUM_TRIES && caughtException.get() == null; i++) { 488 MultiVersionConcurrencyControl.WriteEntry w = mvcc.begin(); 489 490 // Insert the sequence value (i) 491 byte[] v = Bytes.toBytes(i); 492 493 KeyValue kv = new KeyValue(row, f, q1, i, v); 494 kv.setSequenceId(w.getWriteNumber()); 495 memstore.add(kv, null); 496 mvcc.completeAndWait(w); 497 498 // Assert that we can read back 499 KeyValueScanner s = this.memstore.getScanners(mvcc.getReadPoint()).get(0); 500 s.seek(kv); 501 502 Cell ret = s.next(); 503 assertNotNull("Didnt find own write at all", ret); 504 assertEquals("Didnt read own writes", kv.getTimestamp(), ret.getTimestamp()); 505 } 506 } 507 } 508 509 @Test 510 public void testReadOwnWritesUnderConcurrency() throws Throwable { 511 int NUM_THREADS = 8; 512 513 ReadOwnWritesTester threads[] = new ReadOwnWritesTester[NUM_THREADS]; 514 AtomicReference<Throwable> caught = new AtomicReference<>(); 515 516 for (int i = 0; i < NUM_THREADS; i++) { 517 threads[i] = new ReadOwnWritesTester(i, memstore, mvcc, caught); 518 threads[i].start(); 519 } 520 521 for (int i = 0; i < NUM_THREADS; i++) { 522 threads[i].join(); 523 } 524 525 if (caught.get() != null) { 526 throw caught.get(); 527 } 528 } 529 530 /** 531 * Test memstore snapshots 532 */ 533 @Test 534 public void testSnapshotting() throws IOException { 535 final int snapshotCount = 5; 536 // Add some rows, run a snapshot. Do it a few times. 537 for (int i = 0; i < snapshotCount; i++) { 538 addRows(this.memstore); 539 runSnapshot(this.memstore); 540 assertEquals("History not being cleared", 0, this.memstore.getSnapshot().getCellsCount()); 541 } 542 } 543 544 @Test 545 public void testMultipleVersionsSimple() throws Exception { 546 DefaultMemStore m = new DefaultMemStore(new Configuration(), CellComparatorImpl.COMPARATOR); 547 byte[] row = Bytes.toBytes("testRow"); 548 byte[] family = Bytes.toBytes("testFamily"); 549 byte[] qf = Bytes.toBytes("testQualifier"); 550 long[] stamps = { 1, 2, 3 }; 551 byte[][] values = { Bytes.toBytes("value0"), Bytes.toBytes("value1"), Bytes.toBytes("value2") }; 552 KeyValue key0 = new KeyValue(row, family, qf, stamps[0], values[0]); 553 KeyValue key1 = new KeyValue(row, family, qf, stamps[1], values[1]); 554 KeyValue key2 = new KeyValue(row, family, qf, stamps[2], values[2]); 555 556 m.add(key0, null); 557 m.add(key1, null); 558 m.add(key2, null); 559 560 assertTrue("Expected memstore to hold 3 values, actually has " + m.getActive().getCellsCount(), 561 m.getActive().getCellsCount() == 3); 562 } 563 564 ////////////////////////////////////////////////////////////////////////////// 565 // Get tests 566 ////////////////////////////////////////////////////////////////////////////// 567 568 /** 569 * Test getNextRow from memstore 570 */ 571 @Test 572 public void testGetNextRow() throws Exception { 573 addRows(this.memstore); 574 // Add more versions to make it a little more interesting. 575 Thread.sleep(1); 576 addRows(this.memstore); 577 Cell closestToEmpty = ((DefaultMemStore) this.memstore).getNextRow(KeyValue.LOWESTKEY); 578 assertTrue(CellComparatorImpl.COMPARATOR.compareRows(closestToEmpty, 579 new KeyValue(Bytes.toBytes(0), EnvironmentEdgeManager.currentTime())) == 0); 580 for (int i = 0; i < ROW_COUNT; i++) { 581 Cell nr = ((DefaultMemStore) this.memstore) 582 .getNextRow(new KeyValue(Bytes.toBytes(i), EnvironmentEdgeManager.currentTime())); 583 if (i + 1 == ROW_COUNT) { 584 assertNull(nr); 585 } else { 586 assertTrue(CellComparatorImpl.COMPARATOR.compareRows(nr, 587 new KeyValue(Bytes.toBytes(i + 1), EnvironmentEdgeManager.currentTime())) == 0); 588 } 589 } 590 // starting from each row, validate results should contain the starting row 591 Configuration conf = HBaseConfiguration.create(); 592 for (int startRowId = 0; startRowId < ROW_COUNT; startRowId++) { 593 ScanInfo scanInfo = 594 new ScanInfo(conf, FAMILY, 0, 1, Integer.MAX_VALUE, KeepDeletedCells.FALSE, 595 HConstants.DEFAULT_BLOCKSIZE, 0, this.memstore.getComparator(), false); 596 try (InternalScanner scanner = 597 new StoreScanner(new Scan().withStartRow(Bytes.toBytes(startRowId)), scanInfo, null, 598 memstore.getScanners(0))) { 599 List<Cell> results = new ArrayList<>(); 600 for (int i = 0; scanner.next(results); i++) { 601 int rowId = startRowId + i; 602 Cell left = results.get(0); 603 byte[] row1 = Bytes.toBytes(rowId); 604 assertTrue("Row name", 605 CellComparatorImpl.COMPARATOR.compareRows(left, row1, 0, row1.length) == 0); 606 assertEquals("Count of columns", QUALIFIER_COUNT, results.size()); 607 List<Cell> row = new ArrayList<>(); 608 for (Cell kv : results) { 609 row.add(kv); 610 } 611 isExpectedRowWithoutTimestamps(rowId, row); 612 // Clear out set. Otherwise row results accumulate. 613 results.clear(); 614 } 615 } 616 } 617 } 618 619 @Test 620 public void testGet_memstoreAndSnapShot() throws IOException { 621 byte[] row = Bytes.toBytes("testrow"); 622 byte[] fam = Bytes.toBytes("testfamily"); 623 byte[] qf1 = Bytes.toBytes("testqualifier1"); 624 byte[] qf2 = Bytes.toBytes("testqualifier2"); 625 byte[] qf3 = Bytes.toBytes("testqualifier3"); 626 byte[] qf4 = Bytes.toBytes("testqualifier4"); 627 byte[] qf5 = Bytes.toBytes("testqualifier5"); 628 byte[] val = Bytes.toBytes("testval"); 629 630 // Setting up memstore 631 memstore.add(new KeyValue(row, fam, qf1, val), null); 632 memstore.add(new KeyValue(row, fam, qf2, val), null); 633 memstore.add(new KeyValue(row, fam, qf3, val), null); 634 // Creating a snapshot 635 memstore.snapshot(); 636 assertEquals(3, memstore.getSnapshot().getCellsCount()); 637 // Adding value to "new" memstore 638 assertEquals(0, memstore.getActive().getCellsCount()); 639 memstore.add(new KeyValue(row, fam, qf4, val), null); 640 memstore.add(new KeyValue(row, fam, qf5, val), null); 641 assertEquals(2, memstore.getActive().getCellsCount()); 642 } 643 644 ////////////////////////////////////////////////////////////////////////////// 645 // Delete tests 646 ////////////////////////////////////////////////////////////////////////////// 647 @Test 648 public void testGetWithDelete() throws IOException { 649 byte[] row = Bytes.toBytes("testrow"); 650 byte[] fam = Bytes.toBytes("testfamily"); 651 byte[] qf1 = Bytes.toBytes("testqualifier"); 652 byte[] val = Bytes.toBytes("testval"); 653 654 long ts1 = System.nanoTime(); 655 KeyValue put1 = new KeyValue(row, fam, qf1, ts1, val); 656 long ts2 = ts1 + 1; 657 KeyValue put2 = new KeyValue(row, fam, qf1, ts2, val); 658 long ts3 = ts2 + 1; 659 KeyValue put3 = new KeyValue(row, fam, qf1, ts3, val); 660 memstore.add(put1, null); 661 memstore.add(put2, null); 662 memstore.add(put3, null); 663 664 assertEquals(3, memstore.getActive().getCellsCount()); 665 666 KeyValue del2 = new KeyValue(row, fam, qf1, ts2, KeyValue.Type.Delete, val); 667 memstore.add(del2, null); 668 669 List<Cell> expected = new ArrayList<>(); 670 expected.add(put3); 671 expected.add(del2); 672 expected.add(put2); 673 expected.add(put1); 674 675 assertEquals(4, memstore.getActive().getCellsCount()); 676 int i = 0; 677 for (Cell cell : memstore.getActive().getCellSet()) { 678 assertEquals(expected.get(i++), cell); 679 } 680 } 681 682 @Test 683 public void testGetWithDeleteColumn() throws IOException { 684 byte[] row = Bytes.toBytes("testrow"); 685 byte[] fam = Bytes.toBytes("testfamily"); 686 byte[] qf1 = Bytes.toBytes("testqualifier"); 687 byte[] val = Bytes.toBytes("testval"); 688 689 long ts1 = System.nanoTime(); 690 KeyValue put1 = new KeyValue(row, fam, qf1, ts1, val); 691 long ts2 = ts1 + 1; 692 KeyValue put2 = new KeyValue(row, fam, qf1, ts2, val); 693 long ts3 = ts2 + 1; 694 KeyValue put3 = new KeyValue(row, fam, qf1, ts3, val); 695 memstore.add(put1, null); 696 memstore.add(put2, null); 697 memstore.add(put3, null); 698 699 assertEquals(3, memstore.getActive().getCellsCount()); 700 701 KeyValue del2 = new KeyValue(row, fam, qf1, ts2, KeyValue.Type.DeleteColumn, val); 702 memstore.add(del2, null); 703 704 List<Cell> expected = new ArrayList<>(); 705 expected.add(put3); 706 expected.add(del2); 707 expected.add(put2); 708 expected.add(put1); 709 710 assertEquals(4, memstore.getActive().getCellsCount()); 711 int i = 0; 712 for (Cell cell : memstore.getActive().getCellSet()) { 713 assertEquals(expected.get(i++), cell); 714 } 715 } 716 717 @Test 718 public void testGetWithDeleteFamily() throws IOException { 719 byte[] row = Bytes.toBytes("testrow"); 720 byte[] fam = Bytes.toBytes("testfamily"); 721 byte[] qf1 = Bytes.toBytes("testqualifier1"); 722 byte[] qf2 = Bytes.toBytes("testqualifier2"); 723 byte[] qf3 = Bytes.toBytes("testqualifier3"); 724 byte[] val = Bytes.toBytes("testval"); 725 long ts = System.nanoTime(); 726 727 KeyValue put1 = new KeyValue(row, fam, qf1, ts, val); 728 KeyValue put2 = new KeyValue(row, fam, qf2, ts, val); 729 KeyValue put3 = new KeyValue(row, fam, qf3, ts, val); 730 KeyValue put4 = new KeyValue(row, fam, qf3, ts + 1, val); 731 732 memstore.add(put1, null); 733 memstore.add(put2, null); 734 memstore.add(put3, null); 735 memstore.add(put4, null); 736 737 KeyValue del = new KeyValue(row, fam, null, ts, KeyValue.Type.DeleteFamily, val); 738 memstore.add(del, null); 739 740 List<Cell> expected = new ArrayList<>(); 741 expected.add(del); 742 expected.add(put1); 743 expected.add(put2); 744 expected.add(put4); 745 expected.add(put3); 746 747 assertEquals(5, memstore.getActive().getCellsCount()); 748 int i = 0; 749 for (Cell cell : memstore.getActive().getCellSet()) { 750 assertEquals(expected.get(i++), cell); 751 } 752 } 753 754 @Test 755 public void testKeepDeleteInmemstore() { 756 byte[] row = Bytes.toBytes("testrow"); 757 byte[] fam = Bytes.toBytes("testfamily"); 758 byte[] qf = Bytes.toBytes("testqualifier"); 759 byte[] val = Bytes.toBytes("testval"); 760 long ts = System.nanoTime(); 761 memstore.add(new KeyValue(row, fam, qf, ts, val), null); 762 KeyValue delete = new KeyValue(row, fam, qf, ts, KeyValue.Type.Delete, val); 763 memstore.add(delete, null); 764 assertEquals(2, memstore.getActive().getCellsCount()); 765 assertEquals(delete, memstore.getActive().first()); 766 } 767 768 @Test 769 public void testRetainsDeleteVersion() throws IOException { 770 // add a put to memstore 771 memstore.add(KeyValueTestUtil.create("row1", "fam", "a", 100, "dont-care"), null); 772 773 // now process a specific delete: 774 KeyValue delete = 775 KeyValueTestUtil.create("row1", "fam", "a", 100, KeyValue.Type.Delete, "dont-care"); 776 memstore.add(delete, null); 777 778 assertEquals(2, memstore.getActive().getCellsCount()); 779 assertEquals(delete, memstore.getActive().first()); 780 } 781 782 @Test 783 public void testRetainsDeleteColumn() throws IOException { 784 // add a put to memstore 785 memstore.add(KeyValueTestUtil.create("row1", "fam", "a", 100, "dont-care"), null); 786 787 // now process a specific delete: 788 KeyValue delete = 789 KeyValueTestUtil.create("row1", "fam", "a", 100, KeyValue.Type.DeleteColumn, "dont-care"); 790 memstore.add(delete, null); 791 792 assertEquals(2, memstore.getActive().getCellsCount()); 793 assertEquals(delete, memstore.getActive().first()); 794 } 795 796 @Test 797 public void testRetainsDeleteFamily() throws IOException { 798 // add a put to memstore 799 memstore.add(KeyValueTestUtil.create("row1", "fam", "a", 100, "dont-care"), null); 800 801 // now process a specific delete: 802 KeyValue delete = 803 KeyValueTestUtil.create("row1", "fam", "a", 100, KeyValue.Type.DeleteFamily, "dont-care"); 804 memstore.add(delete, null); 805 806 assertEquals(2, memstore.getActive().getCellsCount()); 807 assertEquals(delete, memstore.getActive().first()); 808 } 809 810 ////////////////////////////////////////////////////////////////////////////// 811 // Helpers 812 ////////////////////////////////////////////////////////////////////////////// 813 private static byte[] makeQualifier(final int i1, final int i2) { 814 return Bytes.toBytes(Integer.toString(i1) + ";" + Integer.toString(i2)); 815 } 816 817 /** 818 * Add keyvalues with a fixed memstoreTs, and checks that memstore size is decreased as older 819 * keyvalues are deleted from the memstore. 820 */ 821 @Test 822 public void testUpsertMemstoreSize() throws Exception { 823 Configuration conf = HBaseConfiguration.create(); 824 memstore = new DefaultMemStore(conf, CellComparatorImpl.COMPARATOR); 825 MemStoreSize oldSize = memstore.size(); 826 827 List<Cell> l = new ArrayList<>(); 828 KeyValue kv1 = KeyValueTestUtil.create("r", "f", "q", 100, "v"); 829 KeyValue kv2 = KeyValueTestUtil.create("r", "f", "q", 101, "v"); 830 KeyValue kv3 = KeyValueTestUtil.create("r", "f", "q", 102, "v"); 831 832 kv1.setSequenceId(1); 833 kv2.setSequenceId(1); 834 kv3.setSequenceId(1); 835 l.add(kv1); 836 l.add(kv2); 837 l.add(kv3); 838 839 this.memstore.upsert(l, 2, null);// readpoint is 2 840 MemStoreSize newSize = this.memstore.size(); 841 assert (newSize.getDataSize() > oldSize.getDataSize()); 842 // The kv1 should be removed. 843 assert (memstore.getActive().getCellsCount() == 2); 844 845 KeyValue kv4 = KeyValueTestUtil.create("r", "f", "q", 104, "v"); 846 kv4.setSequenceId(1); 847 l.clear(); 848 l.add(kv4); 849 this.memstore.upsert(l, 3, null); 850 assertEquals(newSize, this.memstore.size()); 851 // The kv2 should be removed. 852 assert (memstore.getActive().getCellsCount() == 2); 853 // this.memstore = null; 854 } 855 856 //////////////////////////////////// 857 // Test for periodic memstore flushes 858 // based on time of oldest edit 859 //////////////////////////////////// 860 861 /** 862 * Tests that the timeOfOldestEdit is updated correctly for the various edit operations in 863 * memstore. 864 */ 865 @Test 866 public void testUpdateToTimeOfOldestEdit() throws Exception { 867 try { 868 EnvironmentEdgeForMemstoreTest edge = new EnvironmentEdgeForMemstoreTest(); 869 EnvironmentEdgeManager.injectEdge(edge); 870 DefaultMemStore memstore = new DefaultMemStore(); 871 long t = memstore.timeOfOldestEdit(); 872 assertEquals(Long.MAX_VALUE, t); 873 874 // test the case that the timeOfOldestEdit is updated after a KV add 875 memstore.add(KeyValueTestUtil.create("r", "f", "q", 100, "v"), null); 876 t = memstore.timeOfOldestEdit(); 877 assertTrue(t == 1234); 878 // snapshot() will reset timeOfOldestEdit. The method will also assert the 879 // value is reset to Long.MAX_VALUE 880 t = runSnapshot(memstore); 881 882 // test the case that the timeOfOldestEdit is updated after a KV delete 883 memstore.add(KeyValueTestUtil.create("r", "f", "q", 100, KeyValue.Type.Delete, "v"), null); 884 t = memstore.timeOfOldestEdit(); 885 assertTrue(t == 1234); 886 t = runSnapshot(memstore); 887 888 // test the case that the timeOfOldestEdit is updated after a KV upsert 889 List<Cell> l = new ArrayList<>(); 890 KeyValue kv1 = KeyValueTestUtil.create("r", "f", "q", 100, "v"); 891 kv1.setSequenceId(100); 892 l.add(kv1); 893 memstore.upsert(l, 1000, null); 894 t = memstore.timeOfOldestEdit(); 895 assertTrue(t == 1234); 896 } finally { 897 EnvironmentEdgeManager.reset(); 898 } 899 } 900 901 /** 902 * Tests the HRegion.shouldFlush method - adds an edit in the memstore and checks that shouldFlush 903 * returns true, and another where it disables the periodic flush functionality and tests whether 904 * shouldFlush returns false. 905 */ 906 @Test 907 public void testShouldFlush() throws Exception { 908 Configuration conf = new Configuration(); 909 conf.setInt(HRegion.MEMSTORE_PERIODIC_FLUSH_INTERVAL, 1000); 910 checkShouldFlush(conf, true); 911 // test disable flush 912 conf.setInt(HRegion.MEMSTORE_PERIODIC_FLUSH_INTERVAL, 0); 913 checkShouldFlush(conf, false); 914 } 915 916 protected void checkShouldFlush(Configuration conf, boolean expected) throws Exception { 917 try { 918 EnvironmentEdgeForMemstoreTest edge = new EnvironmentEdgeForMemstoreTest(); 919 EnvironmentEdgeManager.injectEdge(edge); 920 HBaseTestingUtility hbaseUtility = HBaseTestingUtility.createLocalHTU(conf); 921 String cf = "foo"; 922 HRegion region = 923 hbaseUtility.createTestRegion("foobar", ColumnFamilyDescriptorBuilder.of(cf)); 924 925 edge.setCurrentTimeMillis(1234); 926 Put p = new Put(Bytes.toBytes("r")); 927 p.add(KeyValueTestUtil.create("r", cf, "q", 100, "v")); 928 region.put(p); 929 edge.setCurrentTimeMillis(1234 + 100); 930 StringBuilder sb = new StringBuilder(); 931 assertTrue(!region.shouldFlush(sb)); 932 edge.setCurrentTimeMillis(1234 + 10000); 933 assertTrue(region.shouldFlush(sb) == expected); 934 } finally { 935 EnvironmentEdgeManager.reset(); 936 } 937 } 938 939 @Test 940 public void testShouldFlushMeta() throws Exception { 941 // write an edit in the META and ensure the shouldFlush (that the periodic memstore 942 // flusher invokes) returns true after SYSTEM_CACHE_FLUSH_INTERVAL (even though 943 // the MEMSTORE_PERIODIC_FLUSH_INTERVAL is set to a higher value) 944 Configuration conf = new Configuration(); 945 conf.setInt(HRegion.MEMSTORE_PERIODIC_FLUSH_INTERVAL, HRegion.SYSTEM_CACHE_FLUSH_INTERVAL * 10); 946 HBaseTestingUtility hbaseUtility = HBaseTestingUtility.createLocalHTU(conf); 947 Path testDir = hbaseUtility.getDataTestDir(); 948 EnvironmentEdgeForMemstoreTest edge = new EnvironmentEdgeForMemstoreTest(); 949 EnvironmentEdgeManager.injectEdge(edge); 950 edge.setCurrentTimeMillis(1234); 951 WALFactory wFactory = new WALFactory(conf, "1234"); 952 TableDescriptors tds = new FSTableDescriptors(conf); 953 FSTableDescriptors.tryUpdateMetaTableDescriptor(conf); 954 HRegion meta = HRegion.createHRegion(RegionInfoBuilder.FIRST_META_REGIONINFO, testDir, conf, 955 tds.get(TableName.META_TABLE_NAME), wFactory.getWAL(RegionInfoBuilder.FIRST_META_REGIONINFO)); 956 // parameterized tests add [#] suffix get rid of [ and ]. 957 TableDescriptor desc = TableDescriptorBuilder 958 .newBuilder(TableName.valueOf(name.getMethodName().replaceAll("[\\[\\]]", "_"))) 959 .setColumnFamily(ColumnFamilyDescriptorBuilder.of("foo")).build(); 960 RegionInfo hri = RegionInfoBuilder.newBuilder(desc.getTableName()) 961 .setStartKey(Bytes.toBytes("row_0200")).setEndKey(Bytes.toBytes("row_0300")).build(); 962 HRegion r = HRegion.createHRegion(hri, testDir, conf, desc, wFactory.getWAL(hri)); 963 addRegionToMETA(meta, r); 964 edge.setCurrentTimeMillis(1234 + 100); 965 StringBuilder sb = new StringBuilder(); 966 assertTrue(meta.shouldFlush(sb) == false); 967 edge.setCurrentTimeMillis(edge.currentTime() + HRegion.SYSTEM_CACHE_FLUSH_INTERVAL + 1); 968 assertTrue(meta.shouldFlush(sb) == true); 969 } 970 971 /** 972 * Inserts a new region's meta information into the passed <code>meta</code> region. 973 * @param meta hbase:meta HRegion to be updated 974 * @param r HRegion to add to <code>meta</code> 975 */ 976 private static void addRegionToMETA(final HRegion meta, final HRegion r) throws IOException { 977 // The row key is the region name 978 byte[] row = r.getRegionInfo().getRegionName(); 979 final long now = EnvironmentEdgeManager.currentTime(); 980 final List<Cell> cells = new ArrayList<>(2); 981 cells.add(new KeyValue(row, HConstants.CATALOG_FAMILY, HConstants.REGIONINFO_QUALIFIER, now, 982 RegionInfo.toByteArray(r.getRegionInfo()))); 983 // Set into the root table the version of the meta table. 984 cells.add(new KeyValue(row, HConstants.CATALOG_FAMILY, HConstants.META_VERSION_QUALIFIER, now, 985 Bytes.toBytes(HConstants.META_VERSION))); 986 NavigableMap<byte[], List<Cell>> familyMap = new TreeMap<>(Bytes.BYTES_COMPARATOR); 987 familyMap.put(HConstants.CATALOG_FAMILY, cells); 988 meta.put(new Put(row, HConstants.LATEST_TIMESTAMP, familyMap)); 989 } 990 991 private class EnvironmentEdgeForMemstoreTest implements EnvironmentEdge { 992 long t = 1234; 993 994 @Override 995 public long currentTime() { 996 return t; 997 } 998 999 public void setCurrentTimeMillis(long t) { 1000 this.t = t; 1001 } 1002 } 1003 1004 /** 1005 * Adds {@link #ROW_COUNT} rows and {@link #QUALIFIER_COUNT} 1006 * @param hmc Instance to add rows to. 1007 * @return How many rows we added. 1008 */ 1009 protected int addRows(final AbstractMemStore hmc) { 1010 return addRows(hmc, HConstants.LATEST_TIMESTAMP); 1011 } 1012 1013 /** 1014 * Adds {@link #ROW_COUNT} rows and {@link #QUALIFIER_COUNT} 1015 * @param hmc Instance to add rows to. 1016 * @return How many rows we added. 1017 */ 1018 protected int addRows(final MemStore hmc, final long ts) { 1019 for (int i = 0; i < ROW_COUNT; i++) { 1020 long timestamp = 1021 ts == HConstants.LATEST_TIMESTAMP ? EnvironmentEdgeManager.currentTime() : ts; 1022 for (int ii = 0; ii < QUALIFIER_COUNT; ii++) { 1023 byte[] row = Bytes.toBytes(i); 1024 byte[] qf = makeQualifier(i, ii); 1025 hmc.add(new KeyValue(row, FAMILY, qf, timestamp, qf), null); 1026 } 1027 } 1028 return ROW_COUNT; 1029 } 1030 1031 private long runSnapshot(final AbstractMemStore hmc) throws UnexpectedStateException { 1032 // Save off old state. 1033 int oldHistorySize = hmc.getSnapshot().getCellsCount(); 1034 MemStoreSnapshot snapshot = hmc.snapshot(); 1035 // Make some assertions about what just happened. 1036 assertTrue("History size has not increased", 1037 oldHistorySize < hmc.getSnapshot().getCellsCount()); 1038 long t = memstore.timeOfOldestEdit(); 1039 assertTrue("Time of oldest edit is not Long.MAX_VALUE", t == Long.MAX_VALUE); 1040 hmc.clearSnapshot(snapshot.getId()); 1041 return t; 1042 } 1043 1044 private void isExpectedRowWithoutTimestamps(final int rowIndex, List<Cell> kvs) { 1045 int i = 0; 1046 for (Cell kv : kvs) { 1047 byte[] expectedColname = makeQualifier(rowIndex, i++); 1048 assertTrue("Column name", CellUtil.matchingQualifier(kv, expectedColname)); 1049 // Value is column name as bytes. Usually result is 1050 // 100 bytes in size at least. This is the default size 1051 // for BytesWriteable. For comparison, convert bytes to 1052 // String and trim to remove trailing null bytes. 1053 assertTrue("Content", CellUtil.matchingValue(kv, expectedColname)); 1054 } 1055 } 1056 1057 private static void addRows(int count, final MemStore mem) { 1058 long nanos = System.nanoTime(); 1059 1060 for (int i = 0; i < count; i++) { 1061 if (i % 1000 == 0) { 1062 1063 System.out.println(i + " Took for 1k usec: " + (System.nanoTime() - nanos) / 1000); 1064 nanos = System.nanoTime(); 1065 } 1066 long timestamp = System.currentTimeMillis(); 1067 1068 for (int ii = 0; ii < QUALIFIER_COUNT; ii++) { 1069 byte[] row = Bytes.toBytes(i); 1070 byte[] qf = makeQualifier(i, ii); 1071 mem.add(new KeyValue(row, FAMILY, qf, timestamp, qf), null); 1072 } 1073 } 1074 } 1075 1076 static void doScan(MemStore ms, int iteration) throws IOException { 1077 long nanos = System.nanoTime(); 1078 KeyValueScanner s = ms.getScanners(0).get(0); 1079 s.seek(KeyValueUtil.createFirstOnRow(new byte[] {})); 1080 1081 System.out.println(iteration + " create/seek took: " + (System.nanoTime() - nanos) / 1000); 1082 int cnt = 0; 1083 while (s.next() != null) 1084 ++cnt; 1085 1086 System.out 1087 .println(iteration + " took usec: " + (System.nanoTime() - nanos) / 1000 + " for: " + cnt); 1088 1089 } 1090 1091 public static void main(String[] args) throws IOException { 1092 MemStore ms = new DefaultMemStore(); 1093 1094 long n1 = System.nanoTime(); 1095 addRows(25000, ms); 1096 System.out.println("Took for insert: " + (System.nanoTime() - n1) / 1000); 1097 1098 System.out.println("foo"); 1099 1100 for (int i = 0; i < 50; i++) 1101 doScan(ms, i); 1102 } 1103}