HDFS-13542. TestBlockManager#testNeededReplicationWhileAppending fails due to improper cluster shutdown in TestBlockManager#testBlockManagerMachinesArray on Windows. Contributed by Anbang Hu.

This commit is contained in:
Inigo Goiri 2018-05-11 09:50:40 -07:00
parent 11794e5eda
commit d88d9f2874
1 changed files with 84 additions and 69 deletions

View File

@ -441,8 +441,8 @@ public class TestBlockManager {
String src = "/test-file";
Path file = new Path(src);
MiniDFSCluster cluster = new MiniDFSCluster.Builder(conf).build();
cluster.waitActive();
try {
cluster.waitActive();
BlockManager bm = cluster.getNamesystem().getBlockManager();
FileSystem fs = cluster.getFileSystem();
NamenodeProtocols namenode = cluster.getNameNodeRpc();
@ -481,7 +481,9 @@ public class TestBlockManager {
IOUtils.closeStream(out);
}
} finally {
cluster.shutdown();
if (cluster != null) {
cluster.shutdown();
}
}
}
@ -970,7 +972,9 @@ public class TestBlockManager {
assertTrue(fs.exists(file1));
fs.delete(file1, true);
assertTrue(!fs.exists(file1));
cluster.shutdown();
if (cluster != null) {
cluster.shutdown();
}
}
}
@ -1070,7 +1074,9 @@ public class TestBlockManager {
assertEquals(0, bm.getBlockOpQueueLength());
assertTrue(doneLatch.await(1, TimeUnit.SECONDS));
} finally {
cluster.shutdown();
if (cluster != null) {
cluster.shutdown();
}
}
}
@ -1145,7 +1151,9 @@ public class TestBlockManager {
long batched = MetricsAsserts.getLongCounter("BlockOpsBatched", rb);
assertTrue(batched > 0);
} finally {
cluster.shutdown();
if (cluster != null) {
cluster.shutdown();
}
}
}
@ -1154,76 +1162,83 @@ public class TestBlockManager {
final Configuration conf = new HdfsConfiguration();
final MiniDFSCluster cluster =
new MiniDFSCluster.Builder(conf).numDataNodes(4).build();
cluster.waitActive();
BlockManager blockManager = cluster.getNamesystem().getBlockManager();
FileSystem fs = cluster.getFileSystem();
final Path filePath = new Path("/tmp.txt");
final long fileLen = 1L;
DFSTestUtil.createFile(fs, filePath, fileLen, (short) 3, 1L);
DFSTestUtil.waitForReplication((DistributedFileSystem)fs,
filePath, (short) 3, 60000);
ArrayList<DataNode> datanodes = cluster.getDataNodes();
assertEquals(datanodes.size(), 4);
FSNamesystem ns = cluster.getNamesystem();
// get the block
final String bpid = cluster.getNamesystem().getBlockPoolId();
File storageDir = cluster.getInstanceStorageDir(0, 0);
File dataDir = MiniDFSCluster.getFinalizedDir(storageDir, bpid);
assertTrue("Data directory does not exist", dataDir.exists());
BlockInfo blockInfo = blockManager.blocksMap.getBlocks().iterator().next();
ExtendedBlock blk = new ExtendedBlock(bpid, blockInfo.getBlockId(),
blockInfo.getNumBytes(), blockInfo.getGenerationStamp());
DatanodeDescriptor failedStorageDataNode =
blockManager.getStoredBlock(blockInfo).getDatanode(0);
DatanodeDescriptor corruptStorageDataNode =
blockManager.getStoredBlock(blockInfo).getDatanode(1);
try {
cluster.waitActive();
BlockManager blockManager = cluster.getNamesystem().getBlockManager();
FileSystem fs = cluster.getFileSystem();
final Path filePath = new Path("/tmp.txt");
final long fileLen = 1L;
DFSTestUtil.createFile(fs, filePath, fileLen, (short) 3, 1L);
DFSTestUtil.waitForReplication((DistributedFileSystem)fs,
filePath, (short) 3, 60000);
ArrayList<DataNode> datanodes = cluster.getDataNodes();
assertEquals(datanodes.size(), 4);
FSNamesystem ns = cluster.getNamesystem();
// get the block
final String bpid = cluster.getNamesystem().getBlockPoolId();
File storageDir = cluster.getInstanceStorageDir(0, 0);
File dataDir = MiniDFSCluster.getFinalizedDir(storageDir, bpid);
assertTrue("Data directory does not exist", dataDir.exists());
BlockInfo blockInfo =
blockManager.blocksMap.getBlocks().iterator().next();
ExtendedBlock blk = new ExtendedBlock(bpid, blockInfo.getBlockId(),
blockInfo.getNumBytes(), blockInfo.getGenerationStamp());
DatanodeDescriptor failedStorageDataNode =
blockManager.getStoredBlock(blockInfo).getDatanode(0);
DatanodeDescriptor corruptStorageDataNode =
blockManager.getStoredBlock(blockInfo).getDatanode(1);
ArrayList<StorageReport> reports = new ArrayList<StorageReport>();
for(int i=0; i<failedStorageDataNode.getStorageInfos().length; i++) {
DatanodeStorageInfo storageInfo = failedStorageDataNode
.getStorageInfos()[i];
DatanodeStorage dns = new DatanodeStorage(
failedStorageDataNode.getStorageInfos()[i].getStorageID(),
DatanodeStorage.State.FAILED,
failedStorageDataNode.getStorageInfos()[i].getStorageType());
while(storageInfo.getBlockIterator().hasNext()) {
BlockInfo blockInfo1 = storageInfo.getBlockIterator().next();
if(blockInfo1.equals(blockInfo)) {
StorageReport report = new StorageReport(
dns, true, storageInfo.getCapacity(),
storageInfo.getDfsUsed(), storageInfo.getRemaining(),
storageInfo.getBlockPoolUsed(), 0L);
reports.add(report);
break;
ArrayList<StorageReport> reports = new ArrayList<StorageReport>();
for(int i=0; i<failedStorageDataNode.getStorageInfos().length; i++) {
DatanodeStorageInfo storageInfo = failedStorageDataNode
.getStorageInfos()[i];
DatanodeStorage dns = new DatanodeStorage(
failedStorageDataNode.getStorageInfos()[i].getStorageID(),
DatanodeStorage.State.FAILED,
failedStorageDataNode.getStorageInfos()[i].getStorageType());
while(storageInfo.getBlockIterator().hasNext()) {
BlockInfo blockInfo1 = storageInfo.getBlockIterator().next();
if(blockInfo1.equals(blockInfo)) {
StorageReport report = new StorageReport(
dns, true, storageInfo.getCapacity(),
storageInfo.getDfsUsed(), storageInfo.getRemaining(),
storageInfo.getBlockPoolUsed(), 0L);
reports.add(report);
break;
}
}
}
}
failedStorageDataNode.updateHeartbeat(reports.toArray(StorageReport
.EMPTY_ARRAY), 0L, 0L, 0, 0, null);
ns.writeLock();
DatanodeStorageInfo corruptStorageInfo= null;
for(int i=0; i<corruptStorageDataNode.getStorageInfos().length; i++) {
corruptStorageInfo = corruptStorageDataNode.getStorageInfos()[i];
while(corruptStorageInfo.getBlockIterator().hasNext()) {
BlockInfo blockInfo1 = corruptStorageInfo.getBlockIterator().next();
if (blockInfo1.equals(blockInfo)) {
break;
failedStorageDataNode.updateHeartbeat(reports.toArray(StorageReport
.EMPTY_ARRAY), 0L, 0L, 0, 0, null);
ns.writeLock();
DatanodeStorageInfo corruptStorageInfo= null;
for(int i=0; i<corruptStorageDataNode.getStorageInfos().length; i++) {
corruptStorageInfo = corruptStorageDataNode.getStorageInfos()[i];
while(corruptStorageInfo.getBlockIterator().hasNext()) {
BlockInfo blockInfo1 = corruptStorageInfo.getBlockIterator().next();
if (blockInfo1.equals(blockInfo)) {
break;
}
}
}
blockManager.findAndMarkBlockAsCorrupt(blk, corruptStorageDataNode,
corruptStorageInfo.getStorageID(),
CorruptReplicasMap.Reason.ANY.toString());
ns.writeUnlock();
BlockInfo[] blockInfos = new BlockInfo[] {blockInfo};
ns.readLock();
LocatedBlocks locatedBlocks =
blockManager.createLocatedBlocks(blockInfos, 3L, false, 0L, 3L,
false, false, null);
assertTrue("Located Blocks should exclude corrupt" +
"replicas and failed storages",
locatedBlocks.getLocatedBlocks().size() == 1);
ns.readUnlock();
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
blockManager.findAndMarkBlockAsCorrupt(blk, corruptStorageDataNode,
corruptStorageInfo.getStorageID(),
CorruptReplicasMap.Reason.ANY.toString());
ns.writeUnlock();
BlockInfo[] blockInfos = new BlockInfo[] {blockInfo};
ns.readLock();
LocatedBlocks locatedBlocks =
blockManager.createLocatedBlocks(blockInfos, 3L, false, 0L, 3L,
false, false, null);
assertTrue("Located Blocks should exclude corrupt" +
"replicas and failed storages",
locatedBlocks.getLocatedBlocks().size() == 1);
ns.readUnlock();
}
@Test