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HBASE-14794 Cleanup TestAtomicOperation 

hbase-server/src/test/java/org/apache/hadoop/hbase/client/TestMetaWithReplicas.java
  Fix a few missing table closes (This suite seems to leave loads of threads
  when test is done but have not figured the how yet).

hbase-server/src/test/java/org/apache/hadoop/hbase/mapreduce/TestImportExport.java
  Fix some missing table closes. We were leaving around client
  resources.

hbase-server/src/test/java/org/apache/hadoop/hbase/regionserver/TestAtomicOperation.java
  Close up WALs when done.
This commit is contained in:
stack 2015-11-10 15:08:10 -10:00
parent 0207da8cee
commit e82ccb900e
3 changed files with 268 additions and 255 deletions
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170
hbase-server/src/test/java/org/apache/hadoop/hbase/client/TestMetaWithReplicas.java
View File

@ -170,63 +170,67 @@ public class TestMetaWithReplicas {
util.getHBaseAdmin().disableTable(TABLE);
util.getHBaseAdmin().deleteTable(TABLE);
}
Table htable = util.createTable(TABLE, FAMILIES);
util.getHBaseAdmin().flush(TableName.META_TABLE_NAME);
Thread.sleep(conf.getInt(StorefileRefresherChore.REGIONSERVER_STOREFILE_REFRESH_PERIOD,
30000) * 6);
Connection c = ConnectionFactory.createConnection(util.getConfiguration());
List<HRegionInfo> regions = MetaTableAccessor.getTableRegions(c, TABLE);
HRegionLocation hrl = MetaTableAccessor.getRegionLocation(c, regions.get(0));
// Ensure that the primary server for test table is not the same one as the primary
// of the meta region since we will be killing the srv holding the meta's primary...
// We want to be able to write to the test table even when the meta is not present ..
// If the servers are the same, then move the test table's region out of the server
// to another random server
if (hrl.getServerName().equals(primary)) {
util.getHBaseAdmin().move(hrl.getRegionInfo().getEncodedNameAsBytes(), null);
// wait for the move to complete
do {
Thread.sleep(10);
hrl = MetaTableAccessor.getRegionLocation(c, regions.get(0));
} while (primary.equals(hrl.getServerName()));
util.getHBaseAdmin().flush(TableName.META_TABLE_NAME);
Thread.sleep(conf.getInt(StorefileRefresherChore.REGIONSERVER_STOREFILE_REFRESH_PERIOD,
30000) * 3);
ServerName master = null;
try (Connection c = ConnectionFactory.createConnection(util.getConfiguration());) {
try (Table htable = util.createTable(TABLE, FAMILIES);) {
util.getHBaseAdmin().flush(TableName.META_TABLE_NAME);
Thread.sleep(conf.getInt(StorefileRefresherChore.REGIONSERVER_STOREFILE_REFRESH_PERIOD,
30000) * 6);
List<HRegionInfo> regions = MetaTableAccessor.getTableRegions(c, TABLE);
HRegionLocation hrl = MetaTableAccessor.getRegionLocation(c, regions.get(0));
// Ensure that the primary server for test table is not the same one as the primary
// of the meta region since we will be killing the srv holding the meta's primary...
// We want to be able to write to the test table even when the meta is not present ..
// If the servers are the same, then move the test table's region out of the server
// to another random server
if (hrl.getServerName().equals(primary)) {
util.getHBaseAdmin().move(hrl.getRegionInfo().getEncodedNameAsBytes(), null);
// wait for the move to complete
do {
Thread.sleep(10);
hrl = MetaTableAccessor.getRegionLocation(c, regions.get(0));
} while (primary.equals(hrl.getServerName()));
util.getHBaseAdmin().flush(TableName.META_TABLE_NAME);
Thread.sleep(conf.getInt(StorefileRefresherChore.REGIONSERVER_STOREFILE_REFRESH_PERIOD,
30000) * 3);
}
master = util.getHBaseClusterInterface().getClusterStatus().getMaster();
// kill the master so that regionserver recovery is not triggered at all
// for the meta server
util.getHBaseClusterInterface().stopMaster(master);
util.getHBaseClusterInterface().waitForMasterToStop(master, 60000);
if (!master.equals(primary)) {
util.getHBaseClusterInterface().killRegionServer(primary);
util.getHBaseClusterInterface().waitForRegionServerToStop(primary, 60000);
}
((ClusterConnection)c).clearRegionCache();
}
Get get = null;
Result r = null;
byte[] row = "test".getBytes();
try (Table htable = c.getTable(TABLE);) {
Put put = new Put(row);
put.addColumn("foo".getBytes(), row, row);
BufferedMutator m = c.getBufferedMutator(TABLE);
m.mutate(put);
m.flush();
// Try to do a get of the row that was just put
get = new Get(row);
r = htable.get(get);
assertTrue(Arrays.equals(r.getRow(), row));
// now start back the killed servers and disable use of replicas. That would mean
// calls go to the primary
util.getHBaseClusterInterface().startMaster(master.getHostname(), 0);
util.getHBaseClusterInterface().startRegionServer(primary.getHostname(), 0);
util.getHBaseClusterInterface().waitForActiveAndReadyMaster();
((ClusterConnection)c).clearRegionCache();
}
conf.setBoolean(HConstants.USE_META_REPLICAS, false);
try (Table htable = c.getTable(TABLE);) {
r = htable.get(get);
assertTrue(Arrays.equals(r.getRow(), row));
}
}
ServerName master = util.getHBaseClusterInterface().getClusterStatus().getMaster();
// kill the master so that regionserver recovery is not triggered at all
// for the meta server
util.getHBaseClusterInterface().stopMaster(master);
util.getHBaseClusterInterface().waitForMasterToStop(master, 60000);
if (!master.equals(primary)) {
util.getHBaseClusterInterface().killRegionServer(primary);
util.getHBaseClusterInterface().waitForRegionServerToStop(primary, 60000);
}
((ClusterConnection)c).clearRegionCache();
htable.close();
htable = c.getTable(TABLE);
byte[] row = "test".getBytes();
Put put = new Put(row);
put.addColumn("foo".getBytes(), row, row);
BufferedMutator m = c.getBufferedMutator(TABLE);
m.mutate(put);
m.flush();
// Try to do a get of the row that was just put
Get get = new Get(row);
Result r = htable.get(get);
assertTrue(Arrays.equals(r.getRow(), row));
// now start back the killed servers and disable use of replicas. That would mean
// calls go to the primary
util.getHBaseClusterInterface().startMaster(master.getHostname(), 0);
util.getHBaseClusterInterface().startRegionServer(primary.getHostname(), 0);
util.getHBaseClusterInterface().waitForActiveAndReadyMaster();
((ClusterConnection)c).clearRegionCache();
htable.close();
conf.setBoolean(HConstants.USE_META_REPLICAS, false);
htable = c.getTable(TABLE);
r = htable.get(get);
assertTrue(Arrays.equals(r.getRow(), row));
}
@Test
@ -237,13 +241,14 @@ public class TestMetaWithReplicas {
TEST_UTIL.getHBaseAdmin().disableTable(TABLE);
TEST_UTIL.getHBaseAdmin().deleteTable(TABLE);
}
Table htable = TEST_UTIL.createTable(TABLE, FAMILIES);
byte[] row = "test".getBytes();
ConnectionImplementation c = ((ConnectionImplementation) TEST_UTIL.getConnection());
// check that metalookup pool would get created
c.relocateRegion(TABLE, row);
ExecutorService ex = c.getCurrentMetaLookupPool();
assert(ex != null);
try (Table htable = TEST_UTIL.createTable(TABLE, FAMILIES);) {
byte[] row = "test".getBytes();
ConnectionImplementation c = ((ConnectionImplementation) TEST_UTIL.getConnection());
// check that metalookup pool would get created
c.relocateRegion(TABLE, row);
ExecutorService ex = c.getCurrentMetaLookupPool();
assert(ex != null);
}
}
@Test
@ -416,28 +421,27 @@ public class TestMetaWithReplicas {
public void testShutdownOfReplicaHolder() throws Exception {
// checks that the when the server holding meta replica is shut down, the meta replica
// can be recovered
ClusterConnection conn = (ClusterConnection)
ConnectionFactory.createConnection(TEST_UTIL.getConfiguration());
RegionLocations rl = conn.
locateRegion(TableName.META_TABLE_NAME, Bytes.toBytes(""), false, true);
HRegionLocation hrl = rl.getRegionLocation(1);
ServerName oldServer = hrl.getServerName();
TEST_UTIL.getHBaseClusterInterface().killRegionServer(oldServer);
int i = 0;
do {
LOG.debug("Waiting for the replica " + hrl.getRegionInfo() + " to come up");
Thread.sleep(30000); //wait for the detection/recovery
rl = conn.locateRegion(TableName.META_TABLE_NAME, Bytes.toBytes(""), false, true);
hrl = rl.getRegionLocation(1);
i++;
} while ((hrl == null || hrl.getServerName().equals(oldServer)) && i < 3);
assertTrue(i != 3);
conn.close();
try (ClusterConnection conn = (ClusterConnection)
ConnectionFactory.createConnection(TEST_UTIL.getConfiguration());) {
RegionLocations rl = conn.
locateRegion(TableName.META_TABLE_NAME, Bytes.toBytes(""), false, true);
HRegionLocation hrl = rl.getRegionLocation(1);
ServerName oldServer = hrl.getServerName();
TEST_UTIL.getHBaseClusterInterface().killRegionServer(oldServer);
int i = 0;
do {
LOG.debug("Waiting for the replica " + hrl.getRegionInfo() + " to come up");
Thread.sleep(30000); //wait for the detection/recovery
rl = conn.locateRegion(TableName.META_TABLE_NAME, Bytes.toBytes(""), false, true);
hrl = rl.getRegionLocation(1);
i++;
} while ((hrl == null || hrl.getServerName().equals(oldServer)) && i < 3);
assertTrue(i != 3);
}
}
@Test
public void testHBaseFsckWithExcessMetaReplicas() throws Exception {
HBaseFsck hbck = new HBaseFsck(TEST_UTIL.getConfiguration());
// Create a meta replica (this will be the 4th one) and assign it
HRegionInfo h = RegionReplicaUtil.getRegionInfoForReplica(
HRegionInfo.FIRST_META_REGIONINFO, 3);
@ -447,7 +451,7 @@ public class TestMetaWithReplicas {
TEST_UTIL.getMiniHBaseCluster().getMaster().assignRegion(h);
HBaseFsckRepair.waitUntilAssigned(TEST_UTIL.getHBaseAdmin(), h);
// check that problem exists
hbck = doFsck(TEST_UTIL.getConfiguration(), false);
HBaseFsck hbck = doFsck(TEST_UTIL.getConfiguration(), false);
assertErrors(hbck, new ERROR_CODE[]{ERROR_CODE.UNKNOWN, ERROR_CODE.SHOULD_NOT_BE_DEPLOYED});
// fix the problem
hbck = doFsck(TEST_UTIL.getConfiguration(), true);
@ -455,4 +459,4 @@ public class TestMetaWithReplicas {
hbck = doFsck(TEST_UTIL.getConfiguration(), false);
assertErrors(hbck, new ERROR_CODE[]{});
}
}
}

311
hbase-server/src/test/java/org/apache/hadoop/hbase/mapreduce/TestImportExport.java
View File

@ -169,42 +169,44 @@ public class TestImportExport {
@Test
public void testSimpleCase() throws Exception {
String EXPORT_TABLE = "exportSimpleCase";
Table t = UTIL.createTable(TableName.valueOf(EXPORT_TABLE), FAMILYA, 3);
Put p = new Put(ROW1);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
t.put(p);
p = new Put(ROW2);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
t.put(p);
try (Table t = UTIL.createTable(TableName.valueOf(EXPORT_TABLE), FAMILYA, 3);) {
Put p = new Put(ROW1);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
t.put(p);
p = new Put(ROW2);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
t.put(p);
}
String[] args = new String[] {
EXPORT_TABLE,
FQ_OUTPUT_DIR,
"1000", // max number of key versions per key to export
};
assertTrue(runExport(args));
String[] args = new String[] {
EXPORT_TABLE,
FQ_OUTPUT_DIR,
"1000", // max number of key versions per key to export
};
assertTrue(runExport(args));
String IMPORT_TABLE = "importTableSimpleCase";
t = UTIL.createTable(TableName.valueOf(IMPORT_TABLE), FAMILYB, 3);
args = new String[] {
"-D" + Import.CF_RENAME_PROP + "="+FAMILYA_STRING+":"+FAMILYB_STRING,
IMPORT_TABLE,
FQ_OUTPUT_DIR
};
assertTrue(runImport(args));
String IMPORT_TABLE = "importTableSimpleCase";
try (Table t = UTIL.createTable(TableName.valueOf(IMPORT_TABLE), FAMILYB, 3);) {
args = new String[] {
"-D" + Import.CF_RENAME_PROP + "="+FAMILYA_STRING+":"+FAMILYB_STRING,
IMPORT_TABLE,
FQ_OUTPUT_DIR
};
assertTrue(runImport(args));
Get g = new Get(ROW1);
g.setMaxVersions();
Result r = t.get(g);
assertEquals(3, r.size());
g = new Get(ROW2);
g.setMaxVersions();
r = t.get(g);
assertEquals(3, r.size());
Get g = new Get(ROW1);
g.setMaxVersions();
Result r = t.get(g);
assertEquals(3, r.size());
g = new Get(ROW2);
g.setMaxVersions();
r = t.get(g);
assertEquals(3, r.size());
}
}
/**
@ -238,23 +240,22 @@ public class TestImportExport {
FileSystem fs = FileSystem.get(UTIL.getConfiguration());
fs.copyFromLocalFile(importPath, new Path(FQ_OUTPUT_DIR + Path.SEPARATOR + name));
String IMPORT_TABLE = name;
Table t = UTIL.createTable(TableName.valueOf(IMPORT_TABLE), Bytes.toBytes("f1"), 3);
String[] args = new String[] {
"-Dhbase.import.version=0.94" ,
IMPORT_TABLE, FQ_OUTPUT_DIR
};
assertTrue(runImport(args));
/* exportedTableIn94Format contains 5 rows
ROW COLUMN+CELL
r1 column=f1:c1, timestamp=1383766761171, value=val1
r2 column=f1:c1, timestamp=1383766771642, value=val2
r3 column=f1:c1, timestamp=1383766777615, value=val3
r4 column=f1:c1, timestamp=1383766785146, value=val4
r5 column=f1:c1, timestamp=1383766791506, value=val5
*/
assertEquals(5, UTIL.countRows(t));
t.close();
try (Table t = UTIL.createTable(TableName.valueOf(IMPORT_TABLE), Bytes.toBytes("f1"), 3);) {
String[] args = new String[] {
"-Dhbase.import.version=0.94" ,
IMPORT_TABLE, FQ_OUTPUT_DIR
};
assertTrue(runImport(args));
/* exportedTableIn94Format contains 5 rows
ROW COLUMN+CELL
r1 column=f1:c1, timestamp=1383766761171, value=val1
r2 column=f1:c1, timestamp=1383766771642, value=val2
r3 column=f1:c1, timestamp=1383766777615, value=val3
r4 column=f1:c1, timestamp=1383766785146, value=val4
r5 column=f1:c1, timestamp=1383766791506, value=val5
*/
assertEquals(5, UTIL.countRows(t));
}
}
/**
@ -268,26 +269,26 @@ public class TestImportExport {
.setMaxVersions(1)
);
UTIL.getHBaseAdmin().createTable(desc);
Table t = UTIL.getConnection().getTable(desc.getTableName());
try (Table t = UTIL.getConnection().getTable(desc.getTableName());) {
Put p = new Put(ROW1);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
p.addColumn(FAMILYA, QUAL, now + 3, QUAL);
p.addColumn(FAMILYA, QUAL, now + 4, QUAL);
t.put(p);
Put p = new Put(ROW1);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
p.addColumn(FAMILYA, QUAL, now + 3, QUAL);
p.addColumn(FAMILYA, QUAL, now + 4, QUAL);
t.put(p);
String[] args = new String[] {
"-D" + Export.EXPORT_BATCHING + "=" + EXPORT_BATCH_SIZE, // added scanner batching arg.
BATCH_TABLE,
FQ_OUTPUT_DIR
};
assertTrue(runExport(args));
String[] args = new String[] {
"-D" + Export.EXPORT_BATCHING + "=" + EXPORT_BATCH_SIZE, // added scanner batching arg.
BATCH_TABLE,
FQ_OUTPUT_DIR
};
assertTrue(runExport(args));
FileSystem fs = FileSystem.get(UTIL.getConfiguration());
fs.delete(new Path(FQ_OUTPUT_DIR), true);
t.close();
FileSystem fs = FileSystem.get(UTIL.getConfiguration());
fs.delete(new Path(FQ_OUTPUT_DIR), true);
}
}
@Test
@ -299,21 +300,22 @@ public class TestImportExport {
.setKeepDeletedCells(KeepDeletedCells.TRUE)
);
UTIL.getHBaseAdmin().createTable(desc);
Table t = UTIL.getConnection().getTable(desc.getTableName());
try (Table t = UTIL.getConnection().getTable(desc.getTableName());) {
Put p = new Put(ROW1);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
p.addColumn(FAMILYA, QUAL, now + 3, QUAL);
p.addColumn(FAMILYA, QUAL, now + 4, QUAL);
t.put(p);
Put p = new Put(ROW1);
p.addColumn(FAMILYA, QUAL, now, QUAL);
p.addColumn(FAMILYA, QUAL, now + 1, QUAL);
p.addColumn(FAMILYA, QUAL, now + 2, QUAL);
p.addColumn(FAMILYA, QUAL, now + 3, QUAL);
p.addColumn(FAMILYA, QUAL, now + 4, QUAL);
t.put(p);
Delete d = new Delete(ROW1, now+3);
t.delete(d);
d = new Delete(ROW1);
d.addColumns(FAMILYA, QUAL, now+2);
t.delete(d);
Delete d = new Delete(ROW1, now+3);
t.delete(d);
d = new Delete(ROW1);
d.addColumns(FAMILYA, QUAL, now+2);
t.delete(d);
}
String[] args = new String[] {
"-D" + Export.RAW_SCAN + "=true",
@ -330,28 +332,27 @@ public class TestImportExport {
.setKeepDeletedCells(KeepDeletedCells.TRUE)
);
UTIL.getHBaseAdmin().createTable(desc);
t.close();
t = UTIL.getConnection().getTable(desc.getTableName());
args = new String[] {
IMPORT_TABLE,
FQ_OUTPUT_DIR
};
assertTrue(runImport(args));
try (Table t = UTIL.getConnection().getTable(desc.getTableName());) {
args = new String[] {
IMPORT_TABLE,
FQ_OUTPUT_DIR
};
assertTrue(runImport(args));
Scan s = new Scan();
s.setMaxVersions();
s.setRaw(true);
ResultScanner scanner = t.getScanner(s);
Result r = scanner.next();
Cell[] res = r.rawCells();
assertTrue(CellUtil.isDeleteFamily(res[0]));
assertEquals(now+4, res[1].getTimestamp());
assertEquals(now+3, res[2].getTimestamp());
assertTrue(CellUtil.isDelete(res[3]));
assertEquals(now+2, res[4].getTimestamp());
assertEquals(now+1, res[5].getTimestamp());
assertEquals(now, res[6].getTimestamp());
t.close();
Scan s = new Scan();
s.setMaxVersions();
s.setRaw(true);
ResultScanner scanner = t.getScanner(s);
Result r = scanner.next();
Cell[] res = r.rawCells();
assertTrue(CellUtil.isDeleteFamily(res[0]));
assertEquals(now+4, res[1].getTimestamp());
assertEquals(now+3, res[2].getTimestamp());
assertTrue(CellUtil.isDelete(res[3]));
assertEquals(now+2, res[4].getTimestamp());
assertEquals(now+1, res[5].getTimestamp());
assertEquals(now, res[6].getTimestamp());
}
}
@ -418,15 +419,11 @@ public class TestImportExport {
ResultScanner exportedTScanner = exportT.getScanner(s);
Result exportedTResult = exportedTScanner.next();
try
{
try {
Result.compareResults(exportedTResult, importedTResult);
}
catch (Exception e) {
} catch (Exception e) {
fail("Original and imported tables data comparision failed with error:"+e.getMessage());
}
finally
{
} finally {
exportT.close();
importT.close();
}
@ -470,7 +467,8 @@ public class TestImportExport {
Table importTable = UTIL.getConnection().getTable(desc.getTableName());
args = new String[] { "-D" + Import.FILTER_CLASS_CONF_KEY + "=" + PrefixFilter.class.getName(),
"-D" + Import.FILTER_ARGS_CONF_KEY + "=" + Bytes.toString(ROW1), IMPORT_TABLE, FQ_OUTPUT_DIR,
"-D" + Import.FILTER_ARGS_CONF_KEY + "=" + Bytes.toString(ROW1), IMPORT_TABLE,
FQ_OUTPUT_DIR,
"1000" };
assertTrue(runImport(args));
@ -634,60 +632,61 @@ public class TestImportExport {
public void testDurability() throws Exception {
// Create an export table.
String exportTableName = "exporttestDurability";
Table exportTable = UTIL.createTable(TableName.valueOf(exportTableName), FAMILYA, 3);
try (Table exportTable = UTIL.createTable(TableName.valueOf(exportTableName), FAMILYA, 3);) {
// Insert some data
Put put = new Put(ROW1);
put.addColumn(FAMILYA, QUAL, now, QUAL);
put.addColumn(FAMILYA, QUAL, now + 1, QUAL);
put.addColumn(FAMILYA, QUAL, now + 2, QUAL);
exportTable.put(put);
// Insert some data
Put put = new Put(ROW1);
put.addColumn(FAMILYA, QUAL, now, QUAL);
put.addColumn(FAMILYA, QUAL, now + 1, QUAL);
put.addColumn(FAMILYA, QUAL, now + 2, QUAL);
exportTable.put(put);
put = new Put(ROW2);
put.addColumn(FAMILYA, QUAL, now, QUAL);
put.addColumn(FAMILYA, QUAL, now + 1, QUAL);
put.addColumn(FAMILYA, QUAL, now + 2, QUAL);
exportTable.put(put);
put = new Put(ROW2);
put.addColumn(FAMILYA, QUAL, now, QUAL);
put.addColumn(FAMILYA, QUAL, now + 1, QUAL);
put.addColumn(FAMILYA, QUAL, now + 2, QUAL);
exportTable.put(put);
// Run the export
String[] args = new String[] { exportTableName, FQ_OUTPUT_DIR, "1000"};
assertTrue(runExport(args));
// Run the export
String[] args = new String[] { exportTableName, FQ_OUTPUT_DIR, "1000"};
assertTrue(runExport(args));
// Create the table for import
String importTableName = "importTestDurability1";
Table importTable = UTIL.createTable(TableName.valueOf(importTableName), FAMILYA, 3);
// Create the table for import
String importTableName = "importTestDurability1";
Table importTable = UTIL.createTable(TableName.valueOf(importTableName), FAMILYA, 3);
// Register the wal listener for the import table
TableWALActionListener walListener = new TableWALActionListener(importTableName);
HRegionInfo region = UTIL.getHBaseCluster().getRegionServerThreads().get(0).getRegionServer()
.getOnlineRegions(importTable.getName()).get(0).getRegionInfo();
WAL wal = UTIL.getMiniHBaseCluster().getRegionServer(0).getWAL(region);
wal.registerWALActionsListener(walListener);
// Register the wal listener for the import table
TableWALActionListener walListener = new TableWALActionListener(importTableName);
HRegionInfo region = UTIL.getHBaseCluster().getRegionServerThreads().get(0).getRegionServer()
.getOnlineRegions(importTable.getName()).get(0).getRegionInfo();
WAL wal = UTIL.getMiniHBaseCluster().getRegionServer(0).getWAL(region);
wal.registerWALActionsListener(walListener);
// Run the import with SKIP_WAL
args =
new String[] { "-D" + Import.WAL_DURABILITY + "=" + Durability.SKIP_WAL.name(),
importTableName, FQ_OUTPUT_DIR };
assertTrue(runImport(args));
//Assert that the wal is not visisted
assertTrue(!walListener.isWALVisited());
//Ensure that the count is 2 (only one version of key value is obtained)
assertTrue(getCount(importTable, null) == 2);
// Run the import with SKIP_WAL
args =
new String[] { "-D" + Import.WAL_DURABILITY + "=" + Durability.SKIP_WAL.name(),
importTableName, FQ_OUTPUT_DIR };
assertTrue(runImport(args));
//Assert that the wal is not visisted
assertTrue(!walListener.isWALVisited());
//Ensure that the count is 2 (only one version of key value is obtained)
assertTrue(getCount(importTable, null) == 2);
// Run the import with the default durability option
importTableName = "importTestDurability2";
importTable = UTIL.createTable(TableName.valueOf(importTableName), FAMILYA, 3);
region = UTIL.getHBaseCluster().getRegionServerThreads().get(0).getRegionServer()
.getOnlineRegions(importTable.getName()).get(0).getRegionInfo();
wal = UTIL.getMiniHBaseCluster().getRegionServer(0).getWAL(region);
walListener = new TableWALActionListener(importTableName);
wal.registerWALActionsListener(walListener);
args = new String[] { importTableName, FQ_OUTPUT_DIR };
assertTrue(runImport(args));
//Assert that the wal is visisted
assertTrue(walListener.isWALVisited());
//Ensure that the count is 2 (only one version of key value is obtained)
assertTrue(getCount(importTable, null) == 2);
// Run the import with the default durability option
importTableName = "importTestDurability2";
importTable = UTIL.createTable(TableName.valueOf(importTableName), FAMILYA, 3);
region = UTIL.getHBaseCluster().getRegionServerThreads().get(0).getRegionServer()
.getOnlineRegions(importTable.getName()).get(0).getRegionInfo();
wal = UTIL.getMiniHBaseCluster().getRegionServer(0).getWAL(region);
walListener = new TableWALActionListener(importTableName);
wal.registerWALActionsListener(walListener);
args = new String[] { importTableName, FQ_OUTPUT_DIR };
assertTrue(runImport(args));
//Assert that the wal is visisted
assertTrue(walListener.isWALVisited());
//Ensure that the count is 2 (only one version of key value is obtained)
assertTrue(getCount(importTable, null) == 2);
}
}
/**

42
hbase-server/src/test/java/org/apache/hadoop/hbase/regionserver/TestAtomicOperation.java
View File

@ -19,6 +19,7 @@ package org.apache.hadoop.hbase.regionserver;
import static org.apache.hadoop.hbase.HBaseTestingUtility.fam1;
import static org.apache.hadoop.hbase.HBaseTestingUtility.fam2;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.assertNull;
import static org.junit.Assert.fail;
@ -60,9 +61,11 @@ import org.apache.hadoop.hbase.client.Scan;
import org.apache.hadoop.hbase.filter.BinaryComparator;
import org.apache.hadoop.hbase.filter.CompareFilter.CompareOp;
import org.apache.hadoop.hbase.io.HeapSize;
import org.apache.hadoop.hbase.io.hfile.BlockCache;
import org.apache.hadoop.hbase.testclassification.MediumTests;
import org.apache.hadoop.hbase.testclassification.VerySlowRegionServerTests;
import org.apache.hadoop.hbase.util.Bytes;
import org.apache.hadoop.hbase.util.Threads;
import org.apache.hadoop.hbase.wal.WAL;
import org.junit.After;
import org.junit.Before;
@ -97,11 +100,15 @@ public class TestAtomicOperation {
public void setup() {
tableName = Bytes.toBytes(name.getMethodName());
}
@After
public void teardown() throws IOException {
if (region != null) {
BlockCache bc = region.getStores().get(0).getCacheConfig().getBlockCache();
((HRegion)region).close();
WAL wal = ((HRegion)region).getWAL();
if (wal != null) wal.close();
if (bc != null) bc.shutdown();
region = null;
}
}
@ -176,17 +183,15 @@ public class TestAtomicOperation {
*/
@Test
public void testIncrementMultiThreads() throws IOException {
LOG.info("Starting test testIncrementMultiThreads");
// run a with mixed column families (1 and 3 versions)
initHRegion(tableName, name.getMethodName(), new int[] {1,3}, fam1, fam2);
// create 100 threads, each will increment by its own quantity
int numThreads = 100;
// create 25 threads, each will increment by its own quantity
int numThreads = 25;
int incrementsPerThread = 1000;
Incrementer[] all = new Incrementer[numThreads];
int expectedTotal = 0;
// create all threads
for (int i = 0; i < numThreads; i++) {
all[i] = new Incrementer(region, i, i, incrementsPerThread);
@ -203,13 +208,13 @@ public class TestAtomicOperation {
try {
all[i].join();
} catch (InterruptedException e) {
LOG.info("Ignored", e);
}
}
assertICV(row, fam1, qual1, expectedTotal);
assertICV(row, fam1, qual2, expectedTotal*2);
assertICV(row, fam2, qual3, expectedTotal*3);
LOG.info("testIncrementMultiThreads successfully verified that total is " +
expectedTotal);
LOG.info("testIncrementMultiThreads successfully verified that total is " + expectedTotal);
}
@ -260,6 +265,7 @@ public class TestAtomicOperation {
public Incrementer(Region region,
int threadNumber, int amount, int numIncrements) {
super("incrementer." + threadNumber);
this.region = region;
this.numIncrements = numIncrements;
this.amount = amount;
@ -268,7 +274,7 @@ public class TestAtomicOperation {
@Override
public void run() {
for (int i=0; i<numIncrements; i++) {
for (int i = 0; i < numIncrements; i++) {
try {
Increment inc = new Increment(row);
inc.addColumn(fam1, qual1, amount);
@ -280,8 +286,15 @@ public class TestAtomicOperation {
// verify: Make sure we only see completed increments
Get g = new Get(row);
Result result = region.get(g);
assertEquals(Bytes.toLong(result.getValue(fam1, qual1))*2, Bytes.toLong(result.getValue(fam1, qual2)));
assertEquals(Bytes.toLong(result.getValue(fam1, qual1))*3, Bytes.toLong(result.getValue(fam2, qual3)));
if (result != null) {
assertTrue(result.getValue(fam1, qual1) != null);
assertTrue(result.getValue(fam1, qual2) != null);
assertEquals(Bytes.toLong(result.getValue(fam1, qual1))*2,
Bytes.toLong(result.getValue(fam1, qual2)));
assertTrue(result.getValue(fam2, qual3) != null);
assertEquals(Bytes.toLong(result.getValue(fam1, qual1))*3,
Bytes.toLong(result.getValue(fam2, qual3)));
}
} catch (IOException e) {
e.printStackTrace();
}
@ -359,7 +372,7 @@ public class TestAtomicOperation {
// create 10 threads, each will alternate between adding and
// removing a column
int numThreads = 10;
int opsPerThread = 500;
int opsPerThread = 250;
AtomicOperation[] all = new AtomicOperation[numThreads];
AtomicLong timeStamps = new AtomicLong(0);
@ -451,7 +464,7 @@ public class TestAtomicOperation {
// create 10 threads, each will alternate between adding and
// removing a column
int numThreads = 10;
int opsPerThread = 500;
int opsPerThread = 250;
AtomicOperation[] all = new AtomicOperation[numThreads];
AtomicLong timeStamps = new AtomicLong(0);
@ -571,14 +584,12 @@ public class TestAtomicOperation {
*/
@Test
public void testPutAndCheckAndPutInParallel() throws Exception {
final String tableName = "testPutAndCheckAndPut";
Configuration conf = TEST_UTIL.getConfiguration();
conf.setClass(HConstants.REGION_IMPL, MockHRegion.class, HeapSize.class);
HTableDescriptor htd = new HTableDescriptor(TableName.valueOf(tableName))
.addFamily(new HColumnDescriptor(family));
final Region region = TEST_UTIL.createLocalHRegion(htd, null, null);
this.region = TEST_UTIL.createLocalHRegion(htd, null, null);
Put[] puts = new Put[1];
Put put = new Put(Bytes.toBytes("r1"));
put.addColumn(Bytes.toBytes(family), Bytes.toBytes("q1"), Bytes.toBytes("10"));
@ -602,7 +613,6 @@ public class TestAtomicOperation {
for (Cell keyValue : results) {
assertEquals("50",Bytes.toString(CellUtil.cloneValue(keyValue)));
}
}
private class PutThread extends TestThread {