Revert "HDFS-11259. Update fsck to display maintenance state info. (Manoj Govindassamy via lei)"

This reverts commit c18590fce2.
This commit is contained in:
Lei Xu 2017-01-16 15:11:53 +08:00
parent ed09c1418d
commit 2f8e9b7e4b
3 changed files with 38 additions and 369 deletions

View File

@ -117,9 +117,6 @@ public class NamenodeFsck implements DataEncryptionKeyFactory {
public static final String HEALTHY_STATUS = "is HEALTHY";
public static final String DECOMMISSIONING_STATUS = "is DECOMMISSIONING";
public static final String DECOMMISSIONED_STATUS = "is DECOMMISSIONED";
public static final String ENTERING_MAINTENANCE_STATUS =
"is ENTERING MAINTENANCE";
public static final String IN_MAINTENANCE_STATUS = "is IN MAINTENANCE";
public static final String NONEXISTENT_STATUS = "does not exist";
public static final String FAILURE_STATUS = "FAILED";
public static final String UNDEFINED = "undefined";
@ -283,10 +280,6 @@ public void blockIdCK(String blockId) {
+ numberReplicas.decommissioned());
out.println("No. of decommissioning Replica: "
+ numberReplicas.decommissioning());
out.println("No. of entering maintenance Replica: "
+ numberReplicas.liveEnteringMaintenanceReplicas());
out.println("No. of in maintenance Replica: "
+ numberReplicas.maintenanceNotForReadReplicas());
out.println("No. of corrupted Replica: " +
numberReplicas.corruptReplicas());
//record datanodes that have corrupted block replica
@ -307,10 +300,6 @@ public void blockIdCK(String blockId) {
out.print(DECOMMISSIONED_STATUS);
} else if (dn.isDecommissionInProgress()) {
out.print(DECOMMISSIONING_STATUS);
} else if (dn.isEnteringMaintenance()) {
out.print(ENTERING_MAINTENANCE_STATUS);
} else if (dn.isInMaintenance()) {
out.print(IN_MAINTENANCE_STATUS);
} else {
out.print(HEALTHY_STATUS);
}
@ -609,10 +598,6 @@ private String getReplicaInfo(BlockInfo storedBlock) {
sb.append("DECOMMISSIONED)");
} else if (dnDesc.isDecommissionInProgress()) {
sb.append("DECOMMISSIONING)");
} else if (dnDesc.isEnteringMaintenance()) {
sb.append("ENTERING MAINTENANCE)");
} else if (dnDesc.isInMaintenance()) {
sb.append("IN MAINTENANCE)");
} else if (corruptReplicas != null
&& corruptReplicas.contains(dnDesc)) {
sb.append("CORRUPT)");
@ -635,7 +620,7 @@ private String getReplicaInfo(BlockInfo storedBlock) {
}
private void collectBlocksSummary(String parent, HdfsFileStatus file,
Result res, LocatedBlocks blocks) throws IOException {
Result res, LocatedBlocks blocks) throws IOException {
String path = file.getFullName(parent);
boolean isOpen = blocks.isUnderConstruction();
if (isOpen && !showOpenFiles) {
@ -666,21 +651,13 @@ private void collectBlocksSummary(String parent, HdfsFileStatus file,
NumberReplicas numberReplicas = blockManager.countNodes(storedBlock);
int decommissionedReplicas = numberReplicas.decommissioned();
int decommissioningReplicas = numberReplicas.decommissioning();
int enteringMaintenanceReplicas =
numberReplicas.liveEnteringMaintenanceReplicas();
int inMaintenanceReplicas =
numberReplicas.maintenanceNotForReadReplicas();
res.decommissionedReplicas += decommissionedReplicas;
res.decommissioningReplicas += decommissioningReplicas;
res.enteringMaintenanceReplicas += enteringMaintenanceReplicas;
res.inMaintenanceReplicas += inMaintenanceReplicas;
// count total replicas
int liveReplicas = numberReplicas.liveReplicas();
int totalReplicasPerBlock = liveReplicas + decommissionedReplicas
+ decommissioningReplicas
+ enteringMaintenanceReplicas
+ inMaintenanceReplicas;
int totalReplicasPerBlock = liveReplicas + decommissionedReplicas +
decommissioningReplicas;
res.totalReplicas += totalReplicasPerBlock;
boolean isMissing;
@ -734,14 +711,12 @@ private void collectBlocksSummary(String parent, HdfsFileStatus file,
if (!showFiles) {
out.print("\n" + path + ": ");
}
out.println(" Under replicated " + block + ". Target Replicas is "
+ targetFileReplication + " but found "
+ liveReplicas+ " live replica(s), "
+ decommissionedReplicas + " decommissioned replica(s), "
+ decommissioningReplicas + " decommissioning replica(s), "
+ enteringMaintenanceReplicas
+ " entering maintenance replica(s) and "
+ inMaintenanceReplicas + " in maintenance replica(s).");
out.println(" Under replicated " + block +
". Target Replicas is " +
targetFileReplication + " but found " +
liveReplicas + " live replica(s), " +
decommissionedReplicas + " decommissioned replica(s) and " +
decommissioningReplicas + " decommissioning replica(s).");
}
// count mis replicated blocks
@ -1120,8 +1095,6 @@ static class Result {
long missingReplicas = 0L;
long decommissionedReplicas = 0L;
long decommissioningReplicas = 0L;
long enteringMaintenanceReplicas = 0L;
long inMaintenanceReplicas = 0L;
long numUnderMinReplicatedBlocks = 0L;
long numOverReplicatedBlocks = 0L;
long numUnderReplicatedBlocks = 0L;
@ -1270,14 +1243,6 @@ public String toString() {
res.append("\n DecommissioningReplicas:\t").append(
decommissioningReplicas);
}
if (enteringMaintenanceReplicas > 0) {
res.append("\n EnteringMaintenanceReplicas:\t").append(
enteringMaintenanceReplicas);
}
if (inMaintenanceReplicas > 0) {
res.append("\n InMaintenanceReplicas:\t").append(
inMaintenanceReplicas);
}
return res.toString();
}
}
@ -1384,14 +1349,6 @@ public String toString() {
res.append("\n Decommissioning internal blocks:\t").append(
decommissioningReplicas);
}
if (enteringMaintenanceReplicas > 0) {
res.append("\n EnteringMaintenanceReplicas:\t").append(
enteringMaintenanceReplicas);
}
if (inMaintenanceReplicas > 0) {
res.append("\n InMaintenanceReplicas:\t").append(
inMaintenanceReplicas);
}
return res.toString();
}
}

View File

@ -372,10 +372,6 @@ else if (args[idx].equals("-replicaDetails")) {
errCode = 2;
} else if (lastLine.endsWith(NamenodeFsck.DECOMMISSIONING_STATUS)) {
errCode = 3;
} else if (lastLine.endsWith(NamenodeFsck.IN_MAINTENANCE_STATUS)) {
errCode = 4;
} else if (lastLine.endsWith(NamenodeFsck.ENTERING_MAINTENANCE_STATUS)) {
errCode = 5;
}
return errCode;
}

View File

@ -54,7 +54,6 @@
import java.util.Random;
import java.util.Set;
import java.util.concurrent.TimeoutException;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
@ -169,11 +168,11 @@ static String runFsck(Configuration conf, int expectedErrCode,
PrintStream out = new PrintStream(bStream, true);
GenericTestUtils.setLogLevel(FSPermissionChecker.LOG, Level.ALL);
int errCode = ToolRunner.run(new DFSck(conf, out), path);
LOG.info("OUTPUT = " + bStream.toString());
if (checkErrorCode) {
assertEquals(expectedErrCode, errCode);
}
GenericTestUtils.setLogLevel(FSPermissionChecker.LOG, Level.INFO);
LOG.info("OUTPUT = " + bStream.toString());
return bStream.toString();
}
@ -879,13 +878,14 @@ public void testUnderMinReplicatedBlock() throws Exception {
assertTrue(outStr.contains("dfs.namenode.replication.min:\t2"));
}
@Test(timeout = 90000)
@Test(timeout = 60000)
public void testFsckReplicaDetails() throws Exception {
final short replFactor = 1;
short numDn = 1;
final long blockSize = 512;
final long fileSize = 1024;
boolean checkDecommissionInProgress = false;
String[] racks = {"/rack1"};
String[] hosts = {"host1"};
@ -910,110 +910,49 @@ public void testFsckReplicaDetails() throws Exception {
"-replicaDetails");
assertTrue(fsckOut.contains(NamenodeFsck.HEALTHY_STATUS));
assertTrue(fsckOut.contains("(LIVE)"));
assertTrue(!fsckOut.contains("(ENTERING MAINTENANCE)"));
assertTrue(!fsckOut.contains("(IN MAINTENANCE)"));
// decommission datanode
ExtendedBlock eb = DFSTestUtil.getFirstBlock(dfs, path);
FSNamesystem fsn = cluster.getNameNode().getNamesystem();
BlockManager bm = fsn.getBlockManager();
final DatanodeManager dnm = bm.getDatanodeManager();
DatanodeDescriptor dnDesc0 = dnm.getDatanode(
cluster.getDataNodes().get(0).getDatanodeId());
bm.getDatanodeManager().getDecomManager().startDecommission(dnDesc0);
final String dn0Name = dnDesc0.getXferAddr();
BlockCollection bc = null;
try {
fsn.writeLock();
BlockInfo bi = bm.getStoredBlock(eb.getLocalBlock());
bc = fsn.getBlockCollection(bi);
} finally {
fsn.writeUnlock();
}
DatanodeDescriptor dn = bc.getBlocks()[0]
.getDatanode(0);
bm.getDatanodeManager().getDecomManager().startDecommission(dn);
String dnName = dn.getXferAddr();
// check the replica status while decommissioning
fsckOut = runFsck(conf, 0, true, testFile, "-files", "-blocks",
"-replicaDetails");
assertTrue(fsckOut.contains("(DECOMMISSIONING)"));
assertTrue(!fsckOut.contains("(ENTERING MAINTENANCE)"));
assertTrue(!fsckOut.contains("(IN MAINTENANCE)"));
// Start 2nd DataNode
cluster.startDataNodes(conf, 1, true, null,
new String[] {"/rack2"}, new String[] {"host2"}, null, false);
// Wait for decommission to start
final AtomicBoolean checkDecommissionInProgress =
new AtomicBoolean(false);
GenericTestUtils.waitFor(new Supplier<Boolean>() {
@Override
public Boolean get() {
DatanodeInfo datanodeInfo = null;
try {
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dn0Name.equals(info.getXferAddr())) {
datanodeInfo = info;
}
}
if (!checkDecommissionInProgress.get() && datanodeInfo != null
&& datanodeInfo.isDecommissionInProgress()) {
checkDecommissionInProgress.set(true);
}
if (datanodeInfo != null && datanodeInfo.isDecommissioned()) {
return true;
}
} catch (Exception e) {
LOG.warn("Unexpected exception: " + e);
return false;
// Start 2nd Datanode and wait for decommission to start
cluster.startDataNodes(conf, 1, true, null, null, null);
DatanodeInfo datanodeInfo = null;
do {
Thread.sleep(2000);
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dnName.equals(info.getXferAddr())) {
datanodeInfo = info;
}
return false;
}
}, 500, 30000);
if (!checkDecommissionInProgress && datanodeInfo != null
&& datanodeInfo.isDecommissionInProgress()) {
checkDecommissionInProgress = true;
}
} while (datanodeInfo != null && !datanodeInfo.isDecommissioned());
// check the replica status after decommission is done
fsckOut = runFsck(conf, 0, true, testFile, "-files", "-blocks",
"-replicaDetails");
assertTrue(fsckOut.contains("(DECOMMISSIONED)"));
assertTrue(!fsckOut.contains("(ENTERING MAINTENANCE)"));
assertTrue(!fsckOut.contains("(IN MAINTENANCE)"));
DatanodeDescriptor dnDesc1 = dnm.getDatanode(
cluster.getDataNodes().get(1).getDatanodeId());
final String dn1Name = dnDesc1.getXferAddr();
bm.getDatanodeManager().getDecomManager().startMaintenance(dnDesc1,
Long.MAX_VALUE);
// check the replica status while entering maintenance
fsckOut = runFsck(conf, 0, true, testFile, "-files", "-blocks",
"-replicaDetails");
assertTrue(fsckOut.contains("(DECOMMISSIONED)"));
assertTrue(fsckOut.contains("(ENTERING MAINTENANCE)"));
assertTrue(!fsckOut.contains("(IN MAINTENANCE)"));
// Start 3rd DataNode
cluster.startDataNodes(conf, 1, true, null,
new String[] {"/rack3"}, new String[] {"host3"}, null, false);
// Wait for the 2nd node to reach in maintenance state
GenericTestUtils.waitFor(new Supplier<Boolean>() {
@Override
public Boolean get() {
DatanodeInfo dnInfo = null;
try {
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dn1Name.equals(info.getXferAddr())) {
dnInfo = info;
}
}
if (dnInfo != null && dnInfo.isInMaintenance()) {
return true;
}
} catch (Exception e) {
LOG.warn("Unexpected exception: " + e);
return false;
}
return false;
}
}, 500, 30000);
// check the replica status after decommission is done
fsckOut = runFsck(conf, 0, true, testFile, "-files", "-blocks",
"-replicaDetails");
assertTrue(fsckOut.contains("(DECOMMISSIONED)"));
assertTrue(!fsckOut.contains("(ENTERING MAINTENANCE)"));
assertTrue(fsckOut.contains("(IN MAINTENANCE)"));
}
/** Test if fsck can return -1 in case of failure.
@ -1520,118 +1459,6 @@ public void testBlockIdCKDecommission() throws Exception {
assertTrue(fsckOut.contains(NamenodeFsck.DECOMMISSIONED_STATUS));
}
/**
* Test for blockIdCK with datanode maintenance.
*/
@Test (timeout = 90000)
public void testBlockIdCKMaintenance() throws Exception {
final short replFactor = 2;
short numDn = 2;
final long blockSize = 512;
String[] hosts = {"host1", "host2"};
String[] racks = {"/rack1", "/rack2"};
conf.setLong(DFSConfigKeys.DFS_BLOCK_SIZE_KEY, blockSize);
conf.setInt(DFSConfigKeys.DFS_REPLICATION_KEY, replFactor);
conf.setInt(DFSConfigKeys.DFS_NAMENODE_REPLICATION_MIN_KEY, replFactor);
conf.setInt(DFSConfigKeys.DFS_NAMENODE_MAINTENANCE_REPLICATION_MIN_KEY,
replFactor);
DistributedFileSystem dfs;
cluster = new MiniDFSCluster.Builder(conf)
.numDataNodes(numDn)
.hosts(hosts)
.racks(racks)
.build();
assertNotNull("Failed Cluster Creation", cluster);
cluster.waitClusterUp();
dfs = cluster.getFileSystem();
assertNotNull("Failed to get FileSystem", dfs);
DFSTestUtil util = new DFSTestUtil.Builder().
setName(getClass().getSimpleName()).setNumFiles(1).build();
//create files
final String pathString = new String("/testfile");
final Path path = new Path(pathString);
util.createFile(dfs, path, 1024, replFactor, 1000L);
util.waitReplication(dfs, path, replFactor);
StringBuilder sb = new StringBuilder();
for (LocatedBlock lb: util.getAllBlocks(dfs, path)){
sb.append(lb.getBlock().getLocalBlock().getBlockName()+" ");
}
String[] bIds = sb.toString().split(" ");
//make sure datanode that has replica is fine before maintenance
String outStr = runFsck(conf, 0, true, "/", "-blockId", bIds[0]);
System.out.println(outStr);
assertTrue(outStr.contains(NamenodeFsck.HEALTHY_STATUS));
FSNamesystem fsn = cluster.getNameNode().getNamesystem();
BlockManager bm = fsn.getBlockManager();
DatanodeManager dnm = bm.getDatanodeManager();
DatanodeDescriptor dn = dnm.getDatanode(cluster.getDataNodes().get(0)
.getDatanodeId());
bm.getDatanodeManager().getDecomManager().startMaintenance(dn,
Long.MAX_VALUE);
final String dnName = dn.getXferAddr();
//wait for the node to enter maintenance state
GenericTestUtils.waitFor(new Supplier<Boolean>() {
@Override
public Boolean get() {
DatanodeInfo datanodeInfo = null;
try {
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dnName.equals(info.getXferAddr())) {
datanodeInfo = info;
}
}
if (datanodeInfo != null && datanodeInfo.isEnteringMaintenance()) {
String fsckOut = runFsck(conf, 5, false, "/", "-blockId", bIds[0]);
assertTrue(fsckOut.contains(
NamenodeFsck.ENTERING_MAINTENANCE_STATUS));
return true;
}
} catch (Exception e) {
LOG.warn("Unexpected exception: " + e);
return false;
}
return false;
}
}, 500, 30000);
// Start 3rd DataNode
cluster.startDataNodes(conf, 1, true, null,
new String[] {"/rack3"}, new String[] {"host3"}, null, false);
// Wait for 1st node to reach in maintenance state
GenericTestUtils.waitFor(new Supplier<Boolean>() {
@Override
public Boolean get() {
try {
DatanodeInfo datanodeInfo = null;
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dnName.equals(info.getXferAddr())) {
datanodeInfo = info;
}
}
if (datanodeInfo != null && datanodeInfo.isInMaintenance()) {
return true;
}
} catch (Exception e) {
LOG.warn("Unexpected exception: " + e);
return false;
}
return false;
}
}, 500, 30000);
//check in maintenance node
String fsckOut = runFsck(conf, 4, false, "/", "-blockId", bIds[0]);
assertTrue(fsckOut.contains(NamenodeFsck.IN_MAINTENANCE_STATUS));
}
/**
* Test for blockIdCK with block corruption.
*/
@ -1828,117 +1655,6 @@ public void testFsckWithDecommissionedReplicas() throws Exception {
String fsckOut = runFsck(conf, 0, true, testFile);
}
/**
* Test for blocks on maintenance hosts are not shown as missing.
*/
@Test (timeout = 90000)
public void testFsckWithMaintenanceReplicas() throws Exception {
final short replFactor = 2;
short numDn = 2;
final long blockSize = 512;
String[] hosts = {"host1", "host2"};
String[] racks = {"/rack1", "/rack2"};
conf.setLong(DFSConfigKeys.DFS_BLOCK_SIZE_KEY, blockSize);
conf.setInt(DFSConfigKeys.DFS_REPLICATION_KEY, replFactor);
conf.setInt(DFSConfigKeys.DFS_NAMENODE_REPLICATION_MIN_KEY, replFactor);
conf.setInt(DFSConfigKeys.DFS_NAMENODE_MAINTENANCE_REPLICATION_MIN_KEY,
replFactor);
DistributedFileSystem dfs;
cluster = new MiniDFSCluster.Builder(conf)
.numDataNodes(numDn)
.hosts(hosts)
.racks(racks)
.build();
assertNotNull("Failed Cluster Creation", cluster);
cluster.waitClusterUp();
dfs = cluster.getFileSystem();
assertNotNull("Failed to get FileSystem", dfs);
DFSTestUtil util = new DFSTestUtil.Builder().
setName(getClass().getSimpleName()).setNumFiles(1).build();
//create files
final String testFile = new String("/testfile");
final Path path = new Path(testFile);
util.createFile(dfs, path, 1024, replFactor, 1000L);
util.waitReplication(dfs, path, replFactor);
StringBuilder sb = new StringBuilder();
for (LocatedBlock lb: util.getAllBlocks(dfs, path)){
sb.append(lb.getBlock().getLocalBlock().getBlockName()+" ");
}
String[] bIds = sb.toString().split(" ");
//make sure datanode that has replica is fine before maintenance
String outStr = runFsck(conf, 0, true, testFile);
System.out.println(outStr);
assertTrue(outStr.contains(NamenodeFsck.HEALTHY_STATUS));
FSNamesystem fsn = cluster.getNameNode().getNamesystem();
BlockManager bm = fsn.getBlockManager();
DatanodeManager dnm = bm.getDatanodeManager();
DatanodeDescriptor dn = dnm.getDatanode(cluster.getDataNodes().get(0)
.getDatanodeId());
bm.getDatanodeManager().getDecomManager().startMaintenance(dn,
Long.MAX_VALUE);
final String dnName = dn.getXferAddr();
//wait for the node to enter maintenance state
GenericTestUtils.waitFor(new Supplier<Boolean>() {
@Override
public Boolean get() {
DatanodeInfo datanodeInfo = null;
try {
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dnName.equals(info.getXferAddr())) {
datanodeInfo = info;
}
}
if (datanodeInfo != null && datanodeInfo.isEnteringMaintenance()) {
// verify fsck returns Healthy status
String fsckOut = runFsck(conf, 0, true, testFile);
assertTrue(fsckOut.contains(NamenodeFsck.HEALTHY_STATUS));
return true;
}
} catch (Exception e) {
LOG.warn("Unexpected exception: " + e);
return false;
}
return false;
}
}, 500, 30000);
// Start 3rd DataNode and wait for node to reach in maintenance state
cluster.startDataNodes(conf, 1, true, null,
new String[] {"/rack3"}, new String[] {"host3"}, null, false);
GenericTestUtils.waitFor(new Supplier<Boolean>() {
@Override
public Boolean get() {
DatanodeInfo datanodeInfo = null;
try {
for (DatanodeInfo info : dfs.getDataNodeStats()) {
if (dnName.equals(info.getXferAddr())) {
datanodeInfo = info;
}
}
if (datanodeInfo != null && datanodeInfo.isInMaintenance()) {
return true;
}
} catch (Exception e) {
LOG.warn("Unexpected exception: " + e);
return false;
}
return false;
}
}, 500, 30000);
// verify fsck returns Healthy status
String fsckOut = runFsck(conf, 0, true, testFile);
assertTrue(fsckOut.contains(NamenodeFsck.HEALTHY_STATUS));
}
@Test
public void testECFsck() throws Exception {
FileSystem fs = null;