MAPREDUCE-2711. Update TestBlockPlacementPolicyRaid for the new namesystem and block management APIs.

git-svn-id: https://svn.apache.org/repos/asf/hadoop/common/trunk@1167001 13f79535-47bb-0310-9956-ffa450edef68
This commit is contained in:
Tsz-wo Sze 2011-09-09 04:48:35 +00:00
parent 71e0515433
commit 85e17fd2df
3 changed files with 486 additions and 493 deletions

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@ -257,6 +257,9 @@ Release 0.23.0 - Unreleased
MAPREDUCE-2690. Web-page for FifoScheduler. (Eric Payne via acmurthy) MAPREDUCE-2690. Web-page for FifoScheduler. (Eric Payne via acmurthy)
MAPREDUCE-2711. Update TestBlockPlacementPolicyRaid for the new namesystem
and block management APIs. (szetszwo)
OPTIMIZATIONS OPTIMIZATIONS
MAPREDUCE-2026. Make JobTracker.getJobCounters() and MAPREDUCE-2026. Make JobTracker.getJobCounters() and

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@ -26,8 +26,6 @@
import java.util.Map; import java.util.Map;
import java.util.Set; import java.util.Set;
import junit.framework.Assert;
import org.apache.commons.logging.Log; import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory; import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.conf.Configuration; import org.apache.hadoop.conf.Configuration;
@ -43,475 +41,479 @@
import org.apache.hadoop.hdfs.server.blockmanagement.BlockPlacementPolicyRaid.CachedFullPathNames; import org.apache.hadoop.hdfs.server.blockmanagement.BlockPlacementPolicyRaid.CachedFullPathNames;
import org.apache.hadoop.hdfs.server.blockmanagement.BlockPlacementPolicyRaid.CachedLocatedBlocks; import org.apache.hadoop.hdfs.server.blockmanagement.BlockPlacementPolicyRaid.CachedLocatedBlocks;
import org.apache.hadoop.hdfs.server.blockmanagement.BlockPlacementPolicyRaid.FileType; import org.apache.hadoop.hdfs.server.blockmanagement.BlockPlacementPolicyRaid.FileType;
import org.apache.hadoop.hdfs.server.namenode.*; import org.apache.hadoop.hdfs.server.namenode.FSInodeInfo;
import org.apache.hadoop.hdfs.server.namenode.FSNamesystem;
import org.apache.hadoop.hdfs.server.namenode.INodeFile;
import org.apache.hadoop.hdfs.server.namenode.NameNodeRaidTestUtil;
import org.apache.hadoop.hdfs.server.namenode.NameNodeRaidUtil;
import org.apache.hadoop.net.NetworkTopology;
import org.apache.hadoop.raid.RaidNode; import org.apache.hadoop.raid.RaidNode;
import org.junit.Assert;
import org.junit.Test; import org.junit.Test;
public class TestBlockPlacementPolicyRaid { public class TestBlockPlacementPolicyRaid {
@Test private Configuration conf = null;
public void testFoo() { private MiniDFSCluster cluster = null;
private FSNamesystem namesystem = null;
private BlockManager blockManager;
private NetworkTopology networktopology;
private BlockPlacementPolicyRaid policy = null;
private FileSystem fs = null;
String[] rack1 = {"/rack1"};
String[] rack2 = {"/rack2"};
String[] host1 = {"host1.rack1.com"};
String[] host2 = {"host2.rack2.com"};
String xorPrefix = null;
String raidTempPrefix = null;
String raidrsTempPrefix = null;
String raidrsHarTempPrefix = null;
final static Log LOG =
LogFactory.getLog(TestBlockPlacementPolicyRaid.class);
protected void setupCluster() throws IOException {
conf = new Configuration();
conf.setLong(DFSConfigKeys.DFS_BLOCKREPORT_INTERVAL_MSEC_KEY, 1000L);
conf.set("dfs.replication.pending.timeout.sec", "2");
conf.setLong(DFSConfigKeys.DFS_BLOCK_SIZE_KEY, 1L);
conf.set("dfs.block.replicator.classname",
BlockPlacementPolicyRaid.class.getName());
conf.set(RaidNode.STRIPE_LENGTH_KEY, "2");
conf.set(RaidNode.RS_PARITY_LENGTH_KEY, "3");
conf.setInt(DFSConfigKeys.DFS_BYTES_PER_CHECKSUM_KEY, 1);
// start the cluster with one datanode first
cluster = new MiniDFSCluster.Builder(conf).numDataNodes(1).
format(true).racks(rack1).hosts(host1).build();
cluster.waitActive();
namesystem = cluster.getNameNode().getNamesystem();
blockManager = namesystem.getBlockManager();
networktopology = blockManager.getDatanodeManager().getNetworkTopology();
Assert.assertTrue("BlockPlacementPolicy type is not correct.",
blockManager.getBlockPlacementPolicy() instanceof BlockPlacementPolicyRaid);
policy = (BlockPlacementPolicyRaid)blockManager.getBlockPlacementPolicy();
fs = cluster.getFileSystem();
xorPrefix = RaidNode.xorDestinationPath(conf).toUri().getPath();
raidTempPrefix = RaidNode.xorTempPrefix(conf);
raidrsTempPrefix = RaidNode.rsTempPrefix(conf);
raidrsHarTempPrefix = RaidNode.rsHarTempPrefix(conf);
}
/**
* Test that the parity files will be placed at the good locations when we
* create them.
*/
@Test
public void testChooseTargetForRaidFile() throws IOException {
setupCluster();
try {
String src = "/dir/file";
String parity = raidrsTempPrefix + src;
DFSTestUtil.createFile(fs, new Path(src), 4, (short)1, 0L);
DFSTestUtil.waitReplication(fs, new Path(src), (short)1);
refreshPolicy();
setBlockPlacementPolicy(namesystem, policy);
// start 3 more datanodes
String[] racks = {"/rack2", "/rack2", "/rack2",
"/rack2", "/rack2", "/rack2"};
String[] hosts =
{"host2.rack2.com", "host3.rack2.com", "host4.rack2.com",
"host5.rack2.com", "host6.rack2.com", "host7.rack2.com"};
cluster.startDataNodes(conf, 6, true, null, racks, hosts, null);
int numBlocks = 6;
DFSTestUtil.createFile(fs, new Path(parity), numBlocks, (short)2, 0L);
DFSTestUtil.waitReplication(fs, new Path(parity), (short)2);
FileStatus srcStat = fs.getFileStatus(new Path(src));
BlockLocation[] srcLoc =
fs.getFileBlockLocations(srcStat, 0, srcStat.getLen());
FileStatus parityStat = fs.getFileStatus(new Path(parity));
BlockLocation[] parityLoc =
fs.getFileBlockLocations(parityStat, 0, parityStat.getLen());
int parityLen = RaidNode.rsParityLength(conf);
for (int i = 0; i < numBlocks / parityLen; i++) {
Set<String> locations = new HashSet<String>();
for (int j = 0; j < srcLoc.length; j++) {
String [] names = srcLoc[j].getNames();
for (int k = 0; k < names.length; k++) {
LOG.info("Source block location: " + names[k]);
locations.add(names[k]);
}
}
for (int j = 0 ; j < parityLen; j++) {
String[] names = parityLoc[j + i * parityLen].getNames();
for (int k = 0; k < names.length; k++) {
LOG.info("Parity block location: " + names[k]);
Assert.assertTrue(locations.add(names[k]));
}
}
}
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
}
/**
* Test that the har parity files will be placed at the good locations when we
* create them.
*/
@Test
public void testChooseTargetForHarRaidFile() throws IOException {
setupCluster();
try {
String[] racks = {"/rack2", "/rack2", "/rack2",
"/rack2", "/rack2", "/rack2"};
String[] hosts =
{"host2.rack2.com", "host3.rack2.com", "host4.rack2.com",
"host5.rack2.com", "host6.rack2.com", "host7.rack2.com"};
cluster.startDataNodes(conf, 6, true, null, racks, hosts, null);
String harParity = raidrsHarTempPrefix + "/dir/file";
int numBlocks = 11;
DFSTestUtil.createFile(fs, new Path(harParity), numBlocks, (short)1, 0L);
DFSTestUtil.waitReplication(fs, new Path(harParity), (short)1);
FileStatus stat = fs.getFileStatus(new Path(harParity));
BlockLocation[] loc = fs.getFileBlockLocations(stat, 0, stat.getLen());
int rsParityLength = RaidNode.rsParityLength(conf);
for (int i = 0; i < numBlocks - rsParityLength; i++) {
Set<String> locations = new HashSet<String>();
for (int j = 0; j < rsParityLength; j++) {
for (int k = 0; k < loc[i + j].getNames().length; k++) {
// verify that every adjacent 4 blocks are on differnt nodes
String name = loc[i + j].getNames()[k];
LOG.info("Har Raid block location: " + name);
Assert.assertTrue(locations.add(name));
}
}
}
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
}
/**
* Test BlockPlacementPolicyRaid.CachedLocatedBlocks
* Verify that the results obtained from cache is the same as
* the results obtained directly
*/
@Test
public void testCachedBlocks() throws IOException {
setupCluster();
try {
String file1 = "/dir/file1";
String file2 = "/dir/file2";
DFSTestUtil.createFile(fs, new Path(file1), 3, (short)1, 0L);
DFSTestUtil.createFile(fs, new Path(file2), 4, (short)1, 0L);
// test blocks cache
CachedLocatedBlocks cachedBlocks = new CachedLocatedBlocks(namesystem);
verifyCachedBlocksResult(cachedBlocks, namesystem, file1);
verifyCachedBlocksResult(cachedBlocks, namesystem, file1);
verifyCachedBlocksResult(cachedBlocks, namesystem, file2);
verifyCachedBlocksResult(cachedBlocks, namesystem, file2);
try {
Thread.sleep(1200L);
} catch (InterruptedException e) {
}
verifyCachedBlocksResult(cachedBlocks, namesystem, file2);
verifyCachedBlocksResult(cachedBlocks, namesystem, file1);
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
}
/**
* Test BlockPlacementPolicyRaid.CachedFullPathNames
* Verify that the results obtained from cache is the same as
* the results obtained directly
*/
@Test
public void testCachedPathNames() throws IOException {
setupCluster();
try {
String file1 = "/dir/file1";
String file2 = "/dir/file2";
DFSTestUtil.createFile(fs, new Path(file1), 3, (short)1, 0L);
DFSTestUtil.createFile(fs, new Path(file2), 4, (short)1, 0L);
// test full path cache
CachedFullPathNames cachedFullPathNames =
new CachedFullPathNames(namesystem);
final FSInodeInfo[] inodes = NameNodeRaidTestUtil.getFSInodeInfo(
namesystem, file1, file2);
verifyCachedFullPathNameResult(cachedFullPathNames, inodes[0]);
verifyCachedFullPathNameResult(cachedFullPathNames, inodes[0]);
verifyCachedFullPathNameResult(cachedFullPathNames, inodes[1]);
verifyCachedFullPathNameResult(cachedFullPathNames, inodes[1]);
try {
Thread.sleep(1200L);
} catch (InterruptedException e) {
}
verifyCachedFullPathNameResult(cachedFullPathNames, inodes[1]);
verifyCachedFullPathNameResult(cachedFullPathNames, inodes[0]);
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
}
/**
* Test the result of getCompanionBlocks() on the unraided files
*/
@Test
public void testGetCompanionBLocks() throws IOException {
setupCluster();
try {
String file1 = "/dir/file1";
String file2 = "/raid/dir/file2";
String file3 = "/raidrs/dir/file3";
// Set the policy to default policy to place the block in the default way
setBlockPlacementPolicy(namesystem, new BlockPlacementPolicyDefault(
conf, namesystem, networktopology));
DFSTestUtil.createFile(fs, new Path(file1), 3, (short)1, 0L);
DFSTestUtil.createFile(fs, new Path(file2), 4, (short)1, 0L);
DFSTestUtil.createFile(fs, new Path(file3), 8, (short)1, 0L);
Collection<LocatedBlock> companionBlocks;
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file1).get(0).getBlock());
Assert.assertTrue(companionBlocks == null || companionBlocks.size() == 0);
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file1).get(2).getBlock());
Assert.assertTrue(companionBlocks == null || companionBlocks.size() == 0);
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file2).get(0).getBlock());
Assert.assertEquals(1, companionBlocks.size());
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file2).get(3).getBlock());
Assert.assertEquals(1, companionBlocks.size());
int rsParityLength = RaidNode.rsParityLength(conf);
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file3).get(0).getBlock());
Assert.assertEquals(rsParityLength, companionBlocks.size());
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file3).get(4).getBlock());
Assert.assertEquals(rsParityLength, companionBlocks.size());
companionBlocks = getCompanionBlocks(
namesystem, policy, getBlocks(namesystem, file3).get(6).getBlock());
Assert.assertEquals(2, companionBlocks.size());
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
}
static void setBlockPlacementPolicy(
FSNamesystem namesystem, BlockPlacementPolicy policy) {
namesystem.writeLock();
try {
namesystem.getBlockManager().setBlockPlacementPolicy(policy);
} finally {
namesystem.writeUnlock();
}
}
/**
* Test BlockPlacementPolicyRaid actually deletes the correct replica.
* Start 2 datanodes and create 1 source file and its parity file.
* 1) Start host1, create the parity file with replication 1
* 2) Start host2, create the source file with replication 2
* 3) Set repliation of source file to 1
* Verify that the policy should delete the block with more companion blocks.
*/
@Test
public void testDeleteReplica() throws IOException {
setupCluster();
try {
// Set the policy to default policy to place the block in the default way
setBlockPlacementPolicy(namesystem, new BlockPlacementPolicyDefault(
conf, namesystem, networktopology));
DatanodeDescriptor datanode1 = blockManager.getDatanodeManager(
).getDatanodeCyclicIteration("").iterator().next().getValue();
String source = "/dir/file";
String parity = xorPrefix + source;
final Path parityPath = new Path(parity);
DFSTestUtil.createFile(fs, parityPath, 3, (short)1, 0L);
DFSTestUtil.waitReplication(fs, parityPath, (short)1);
// start one more datanode
cluster.startDataNodes(conf, 1, true, null, rack2, host2, null);
DatanodeDescriptor datanode2 = null;
for(Map.Entry<String, DatanodeDescriptor> e : blockManager.getDatanodeManager(
).getDatanodeCyclicIteration("")) {
final DatanodeDescriptor d = e.getValue();
if (!d.getName().equals(datanode1.getName())) {
datanode2 = d;
}
}
Assert.assertTrue(datanode2 != null);
cluster.waitActive();
final Path sourcePath = new Path(source);
DFSTestUtil.createFile(fs, sourcePath, 5, (short)2, 0L);
DFSTestUtil.waitReplication(fs, sourcePath, (short)2);
refreshPolicy();
Assert.assertEquals(parity,
policy.getParityFile(source));
Assert.assertEquals(source,
policy.getSourceFile(parity, xorPrefix));
List<LocatedBlock> sourceBlocks = getBlocks(namesystem, source);
List<LocatedBlock> parityBlocks = getBlocks(namesystem, parity);
Assert.assertEquals(5, sourceBlocks.size());
Assert.assertEquals(3, parityBlocks.size());
// verify the result of getCompanionBlocks()
Collection<LocatedBlock> companionBlocks;
companionBlocks = getCompanionBlocks(
namesystem, policy, sourceBlocks.get(0).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{0, 1}, new int[]{0});
companionBlocks = getCompanionBlocks(
namesystem, policy, sourceBlocks.get(1).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{0, 1}, new int[]{0});
companionBlocks = getCompanionBlocks(
namesystem, policy, sourceBlocks.get(2).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{2, 3}, new int[]{1});
companionBlocks = getCompanionBlocks(
namesystem, policy, sourceBlocks.get(3).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{2, 3}, new int[]{1});
companionBlocks = getCompanionBlocks(
namesystem, policy, sourceBlocks.get(4).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{4}, new int[]{2});
companionBlocks = getCompanionBlocks(
namesystem, policy, parityBlocks.get(0).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{0, 1}, new int[]{0});
companionBlocks = getCompanionBlocks(
namesystem, policy, parityBlocks.get(1).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{2, 3}, new int[]{1});
companionBlocks = getCompanionBlocks(
namesystem, policy, parityBlocks.get(2).getBlock());
verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
new int[]{4}, new int[]{2});
// Set the policy back to raid policy. We have to create a new object
// here to clear the block location cache
refreshPolicy();
setBlockPlacementPolicy(namesystem, policy);
// verify policy deletes the correct blocks. companion blocks should be
// evenly distributed.
fs.setReplication(sourcePath, (short)1);
DFSTestUtil.waitReplication(fs, sourcePath, (short)1);
Map<String, Integer> counters = new HashMap<String, Integer>();
refreshPolicy();
for (int i = 0; i < parityBlocks.size(); i++) {
companionBlocks = getCompanionBlocks(
namesystem, policy, parityBlocks.get(i).getBlock());
counters = BlockPlacementPolicyRaid.countCompanionBlocks(
companionBlocks, false);
Assert.assertTrue(counters.get(datanode1.getName()) >= 1 &&
counters.get(datanode1.getName()) <= 2);
Assert.assertTrue(counters.get(datanode1.getName()) +
counters.get(datanode2.getName()) ==
companionBlocks.size());
counters = BlockPlacementPolicyRaid.countCompanionBlocks(
companionBlocks, true);
Assert.assertTrue(counters.get(datanode1.getParent().getName()) >= 1 &&
counters.get(datanode1.getParent().getName()) <= 2);
Assert.assertTrue(counters.get(datanode1.getParent().getName()) +
counters.get(datanode2.getParent().getName()) ==
companionBlocks.size());
}
} finally {
if (cluster != null) {
cluster.shutdown();
}
}
}
// create a new BlockPlacementPolicyRaid to clear the cache
private void refreshPolicy() {
policy = new BlockPlacementPolicyRaid();
policy.initialize(conf, namesystem, networktopology);
}
private void verifyCompanionBlocks(Collection<LocatedBlock> companionBlocks,
List<LocatedBlock> sourceBlocks, List<LocatedBlock> parityBlocks,
int[] sourceBlockIndexes, int[] parityBlockIndexes) {
Set<ExtendedBlock> blockSet = new HashSet<ExtendedBlock>();
for (LocatedBlock b : companionBlocks) {
blockSet.add(b.getBlock());
}
Assert.assertEquals(sourceBlockIndexes.length + parityBlockIndexes.length,
blockSet.size());
for (int index : sourceBlockIndexes) {
Assert.assertTrue(blockSet.contains(sourceBlocks.get(index).getBlock()));
}
for (int index : parityBlockIndexes) {
Assert.assertTrue(blockSet.contains(parityBlocks.get(index).getBlock()));
}
}
private void verifyCachedFullPathNameResult(
CachedFullPathNames cachedFullPathNames, FSInodeInfo inode)
throws IOException {
String res1 = inode.getFullPathName();
String res2 = cachedFullPathNames.get(inode);
LOG.info("Actual path name: " + res1);
LOG.info("Cached path name: " + res2);
Assert.assertEquals(cachedFullPathNames.get(inode),
inode.getFullPathName());
}
private void verifyCachedBlocksResult(CachedLocatedBlocks cachedBlocks,
FSNamesystem namesystem, String file) throws IOException{
long len = NameNodeRaidUtil.getFileInfo(namesystem, file, true).getLen();
List<LocatedBlock> res1 = NameNodeRaidUtil.getBlockLocations(namesystem,
file, 0L, len, false, false).getLocatedBlocks();
List<LocatedBlock> res2 = cachedBlocks.get(file);
for (int i = 0; i < res1.size(); i++) {
LOG.info("Actual block: " + res1.get(i).getBlock());
LOG.info("Cached block: " + res2.get(i).getBlock());
Assert.assertEquals(res1.get(i).getBlock(), res2.get(i).getBlock());
}
}
private Collection<LocatedBlock> getCompanionBlocks(
FSNamesystem namesystem, BlockPlacementPolicyRaid policy,
ExtendedBlock block) throws IOException {
INodeFile inode = blockManager.blocksMap.getINode(block
.getLocalBlock());
FileType type = policy.getFileType(inode.getFullPathName());
return policy.getCompanionBlocks(inode.getFullPathName(), type,
block.getLocalBlock());
}
private List<LocatedBlock> getBlocks(FSNamesystem namesystem, String file)
throws IOException {
long len = NameNodeRaidUtil.getFileInfo(namesystem, file, true).getLen();
return NameNodeRaidUtil.getBlockLocations(namesystem,
file, 0, len, false, false).getLocatedBlocks();
} }
// private Configuration conf = null;
// private MiniDFSCluster cluster = null;
// private FSNamesystem namesystem = null;
// private BlockPlacementPolicyRaid policy = null;
// private FileSystem fs = null;
// String[] rack1 = {"/rack1"};
// String[] rack2 = {"/rack2"};
// String[] host1 = {"host1.rack1.com"};
// String[] host2 = {"host2.rack2.com"};
// String xorPrefix = null;
// String raidTempPrefix = null;
// String raidrsTempPrefix = null;
// String raidrsHarTempPrefix = null;
//
// final static Log LOG =
// LogFactory.getLog(TestBlockPlacementPolicyRaid.class);
//
// protected void setupCluster() throws IOException {
// conf = new Configuration();
// conf.setLong(DFSConfigKeys.DFS_BLOCKREPORT_INTERVAL_MSEC_KEY, 1000L);
// conf.set("dfs.replication.pending.timeout.sec", "2");
// conf.setLong(DFSConfigKeys.DFS_BLOCK_SIZE_KEY, 1L);
// conf.set("dfs.block.replicator.classname",
// "org.apache.hadoop.hdfs.server.namenode.BlockPlacementPolicyRaid");
// conf.set(RaidNode.STRIPE_LENGTH_KEY, "2");
// conf.set(RaidNode.RS_PARITY_LENGTH_KEY, "3");
// conf.setInt(DFSConfigKeys.DFS_BYTES_PER_CHECKSUM_KEY, 1);
// // start the cluster with one datanode first
// cluster = new MiniDFSCluster.Builder(conf).numDataNodes(1).
// format(true).racks(rack1).hosts(host1).build();
// cluster.waitActive();
// namesystem = cluster.getNameNode().getNamesystem();
// Assert.assertTrue("BlockPlacementPolicy type is not correct.",
// namesystem.blockManager.replicator instanceof BlockPlacementPolicyRaid);
// policy = (BlockPlacementPolicyRaid) namesystem.blockManager.replicator;
// fs = cluster.getFileSystem();
// xorPrefix = RaidNode.xorDestinationPath(conf).toUri().getPath();
// raidTempPrefix = RaidNode.xorTempPrefix(conf);
// raidrsTempPrefix = RaidNode.rsTempPrefix(conf);
// raidrsHarTempPrefix = RaidNode.rsHarTempPrefix(conf);
// }
//
// /**
// * Test that the parity files will be placed at the good locations when we
// * create them.
// */
// @Test
// public void testChooseTargetForRaidFile() throws IOException {
// setupCluster();
// try {
// String src = "/dir/file";
// String parity = raidrsTempPrefix + src;
// DFSTestUtil.createFile(fs, new Path(src), 4, (short)1, 0L);
// DFSTestUtil.waitReplication(fs, new Path(src), (short)1);
// refreshPolicy();
// setBlockPlacementPolicy(namesystem, policy);
// // start 3 more datanodes
// String[] racks = {"/rack2", "/rack2", "/rack2",
// "/rack2", "/rack2", "/rack2"};
// String[] hosts =
// {"host2.rack2.com", "host3.rack2.com", "host4.rack2.com",
// "host5.rack2.com", "host6.rack2.com", "host7.rack2.com"};
// cluster.startDataNodes(conf, 6, true, null, racks, hosts, null);
// int numBlocks = 6;
// DFSTestUtil.createFile(fs, new Path(parity), numBlocks, (short)2, 0L);
// DFSTestUtil.waitReplication(fs, new Path(parity), (short)2);
// FileStatus srcStat = fs.getFileStatus(new Path(src));
// BlockLocation[] srcLoc =
// fs.getFileBlockLocations(srcStat, 0, srcStat.getLen());
// FileStatus parityStat = fs.getFileStatus(new Path(parity));
// BlockLocation[] parityLoc =
// fs.getFileBlockLocations(parityStat, 0, parityStat.getLen());
// int parityLen = RaidNode.rsParityLength(conf);
// for (int i = 0; i < numBlocks / parityLen; i++) {
// Set<String> locations = new HashSet<String>();
// for (int j = 0; j < srcLoc.length; j++) {
// String [] names = srcLoc[j].getNames();
// for (int k = 0; k < names.length; k++) {
// LOG.info("Source block location: " + names[k]);
// locations.add(names[k]);
// }
// }
// for (int j = 0 ; j < parityLen; j++) {
// String[] names = parityLoc[j + i * parityLen].getNames();
// for (int k = 0; k < names.length; k++) {
// LOG.info("Parity block location: " + names[k]);
// Assert.assertTrue(locations.add(names[k]));
// }
// }
// }
// } finally {
// if (cluster != null) {
// cluster.shutdown();
// }
// }
// }
//
// /**
// * Test that the har parity files will be placed at the good locations when we
// * create them.
// */
// @Test
// public void testChooseTargetForHarRaidFile() throws IOException {
// setupCluster();
// try {
// String[] racks = {"/rack2", "/rack2", "/rack2",
// "/rack2", "/rack2", "/rack2"};
// String[] hosts =
// {"host2.rack2.com", "host3.rack2.com", "host4.rack2.com",
// "host5.rack2.com", "host6.rack2.com", "host7.rack2.com"};
// cluster.startDataNodes(conf, 6, true, null, racks, hosts, null);
// String harParity = raidrsHarTempPrefix + "/dir/file";
// int numBlocks = 11;
// DFSTestUtil.createFile(fs, new Path(harParity), numBlocks, (short)1, 0L);
// DFSTestUtil.waitReplication(fs, new Path(harParity), (short)1);
// FileStatus stat = fs.getFileStatus(new Path(harParity));
// BlockLocation[] loc = fs.getFileBlockLocations(stat, 0, stat.getLen());
// int rsParityLength = RaidNode.rsParityLength(conf);
// for (int i = 0; i < numBlocks - rsParityLength; i++) {
// Set<String> locations = new HashSet<String>();
// for (int j = 0; j < rsParityLength; j++) {
// for (int k = 0; k < loc[i + j].getNames().length; k++) {
// // verify that every adjacent 4 blocks are on differnt nodes
// String name = loc[i + j].getNames()[k];
// LOG.info("Har Raid block location: " + name);
// Assert.assertTrue(locations.add(name));
// }
// }
// }
// } finally {
// if (cluster != null) {
// cluster.shutdown();
// }
// }
// }
//
// /**
// * Test BlockPlacementPolicyRaid.CachedLocatedBlocks
// * Verify that the results obtained from cache is the same as
// * the results obtained directly
// */
// @Test
// public void testCachedBlocks() throws IOException {
// setupCluster();
// try {
// String file1 = "/dir/file1";
// String file2 = "/dir/file2";
// DFSTestUtil.createFile(fs, new Path(file1), 3, (short)1, 0L);
// DFSTestUtil.createFile(fs, new Path(file2), 4, (short)1, 0L);
// // test blocks cache
// CachedLocatedBlocks cachedBlocks = new CachedLocatedBlocks(namesystem);
// verifyCachedBlocksResult(cachedBlocks, namesystem, file1);
// verifyCachedBlocksResult(cachedBlocks, namesystem, file1);
// verifyCachedBlocksResult(cachedBlocks, namesystem, file2);
// verifyCachedBlocksResult(cachedBlocks, namesystem, file2);
// try {
// Thread.sleep(1200L);
// } catch (InterruptedException e) {
// }
// verifyCachedBlocksResult(cachedBlocks, namesystem, file2);
// verifyCachedBlocksResult(cachedBlocks, namesystem, file1);
// } finally {
// if (cluster != null) {
// cluster.shutdown();
// }
// }
// }
//
// /**
// * Test BlockPlacementPolicyRaid.CachedFullPathNames
// * Verify that the results obtained from cache is the same as
// * the results obtained directly
// */
// @Test
// public void testCachedPathNames() throws IOException {
// setupCluster();
// try {
// String file1 = "/dir/file1";
// String file2 = "/dir/file2";
// DFSTestUtil.createFile(fs, new Path(file1), 3, (short)1, 0L);
// DFSTestUtil.createFile(fs, new Path(file2), 4, (short)1, 0L);
// // test full path cache
// CachedFullPathNames cachedFullPathNames =
// new CachedFullPathNames(namesystem);
// FSInodeInfo inode1 = null;
// FSInodeInfo inode2 = null;
// NameNodeRaidTestUtil.readLock(namesystem.dir);
// try {
// inode1 = NameNodeRaidTestUtil.getNode(namesystem.dir, file1, true);
// inode2 = NameNodeRaidTestUtil.getNode(namesystem.dir, file2, true);
// } finally {
// NameNodeRaidTestUtil.readUnLock(namesystem.dir);
// }
// verifyCachedFullPathNameResult(cachedFullPathNames, inode1);
// verifyCachedFullPathNameResult(cachedFullPathNames, inode1);
// verifyCachedFullPathNameResult(cachedFullPathNames, inode2);
// verifyCachedFullPathNameResult(cachedFullPathNames, inode2);
// try {
// Thread.sleep(1200L);
// } catch (InterruptedException e) {
// }
// verifyCachedFullPathNameResult(cachedFullPathNames, inode2);
// verifyCachedFullPathNameResult(cachedFullPathNames, inode1);
// } finally {
// if (cluster != null) {
// cluster.shutdown();
// }
// }
// }
// /**
// * Test the result of getCompanionBlocks() on the unraided files
// */
// @Test
// public void testGetCompanionBLocks() throws IOException {
// setupCluster();
// try {
// String file1 = "/dir/file1";
// String file2 = "/raid/dir/file2";
// String file3 = "/raidrs/dir/file3";
// // Set the policy to default policy to place the block in the default way
// setBlockPlacementPolicy(namesystem, new BlockPlacementPolicyDefault(
// conf, namesystem, namesystem.clusterMap));
// DFSTestUtil.createFile(fs, new Path(file1), 3, (short)1, 0L);
// DFSTestUtil.createFile(fs, new Path(file2), 4, (short)1, 0L);
// DFSTestUtil.createFile(fs, new Path(file3), 8, (short)1, 0L);
// Collection<LocatedBlock> companionBlocks;
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file1).get(0).getBlock());
// Assert.assertTrue(companionBlocks == null || companionBlocks.size() == 0);
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file1).get(2).getBlock());
// Assert.assertTrue(companionBlocks == null || companionBlocks.size() == 0);
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file2).get(0).getBlock());
// Assert.assertEquals(1, companionBlocks.size());
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file2).get(3).getBlock());
// Assert.assertEquals(1, companionBlocks.size());
//
// int rsParityLength = RaidNode.rsParityLength(conf);
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file3).get(0).getBlock());
// Assert.assertEquals(rsParityLength, companionBlocks.size());
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file3).get(4).getBlock());
// Assert.assertEquals(rsParityLength, companionBlocks.size());
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, getBlocks(namesystem, file3).get(6).getBlock());
// Assert.assertEquals(2, companionBlocks.size());
// } finally {
// if (cluster != null) {
// cluster.shutdown();
// }
// }
// }
//
// static void setBlockPlacementPolicy(
// FSNamesystem namesystem, BlockPlacementPolicy policy) {
// namesystem.writeLock();
// try {
// namesystem.blockManager.replicator = policy;
// } finally {
// namesystem.writeUnlock();
// }
// }
//
// /**
// * Test BlockPlacementPolicyRaid actually deletes the correct replica.
// * Start 2 datanodes and create 1 source file and its parity file.
// * 1) Start host1, create the parity file with replication 1
// * 2) Start host2, create the source file with replication 2
// * 3) Set repliation of source file to 1
// * Verify that the policy should delete the block with more companion blocks.
// */
// @Test
// public void testDeleteReplica() throws IOException {
// setupCluster();
// try {
// // Set the policy to default policy to place the block in the default way
// setBlockPlacementPolicy(namesystem, new BlockPlacementPolicyDefault(
// conf, namesystem, namesystem.clusterMap));
// DatanodeDescriptor datanode1 =
// NameNodeRaidTestUtil.getDatanodeMap(namesystem).values().iterator().next();
// String source = "/dir/file";
// String parity = xorPrefix + source;
//
// final Path parityPath = new Path(parity);
// DFSTestUtil.createFile(fs, parityPath, 3, (short)1, 0L);
// DFSTestUtil.waitReplication(fs, parityPath, (short)1);
//
// // start one more datanode
// cluster.startDataNodes(conf, 1, true, null, rack2, host2, null);
// DatanodeDescriptor datanode2 = null;
// for (DatanodeDescriptor d : NameNodeRaidTestUtil.getDatanodeMap(namesystem).values()) {
// if (!d.getName().equals(datanode1.getName())) {
// datanode2 = d;
// }
// }
// Assert.assertTrue(datanode2 != null);
// cluster.waitActive();
// final Path sourcePath = new Path(source);
// DFSTestUtil.createFile(fs, sourcePath, 5, (short)2, 0L);
// DFSTestUtil.waitReplication(fs, sourcePath, (short)2);
//
// refreshPolicy();
// Assert.assertEquals(parity,
// policy.getParityFile(source));
// Assert.assertEquals(source,
// policy.getSourceFile(parity, xorPrefix));
//
// List<LocatedBlock> sourceBlocks = getBlocks(namesystem, source);
// List<LocatedBlock> parityBlocks = getBlocks(namesystem, parity);
// Assert.assertEquals(5, sourceBlocks.size());
// Assert.assertEquals(3, parityBlocks.size());
//
// // verify the result of getCompanionBlocks()
// Collection<LocatedBlock> companionBlocks;
// companionBlocks = getCompanionBlocks(
// namesystem, policy, sourceBlocks.get(0).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{0, 1}, new int[]{0});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, sourceBlocks.get(1).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{0, 1}, new int[]{0});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, sourceBlocks.get(2).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{2, 3}, new int[]{1});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, sourceBlocks.get(3).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{2, 3}, new int[]{1});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, sourceBlocks.get(4).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{4}, new int[]{2});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, parityBlocks.get(0).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{0, 1}, new int[]{0});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, parityBlocks.get(1).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{2, 3}, new int[]{1});
//
// companionBlocks = getCompanionBlocks(
// namesystem, policy, parityBlocks.get(2).getBlock());
// verifyCompanionBlocks(companionBlocks, sourceBlocks, parityBlocks,
// new int[]{4}, new int[]{2});
//
// // Set the policy back to raid policy. We have to create a new object
// // here to clear the block location cache
// refreshPolicy();
// setBlockPlacementPolicy(namesystem, policy);
// // verify policy deletes the correct blocks. companion blocks should be
// // evenly distributed.
// fs.setReplication(sourcePath, (short)1);
// DFSTestUtil.waitReplication(fs, sourcePath, (short)1);
// Map<String, Integer> counters = new HashMap<String, Integer>();
// refreshPolicy();
// for (int i = 0; i < parityBlocks.size(); i++) {
// companionBlocks = getCompanionBlocks(
// namesystem, policy, parityBlocks.get(i).getBlock());
//
// counters = BlockPlacementPolicyRaid.countCompanionBlocks(
// companionBlocks, false);
// Assert.assertTrue(counters.get(datanode1.getName()) >= 1 &&
// counters.get(datanode1.getName()) <= 2);
// Assert.assertTrue(counters.get(datanode1.getName()) +
// counters.get(datanode2.getName()) ==
// companionBlocks.size());
//
// counters = BlockPlacementPolicyRaid.countCompanionBlocks(
// companionBlocks, true);
// Assert.assertTrue(counters.get(datanode1.getParent().getName()) >= 1 &&
// counters.get(datanode1.getParent().getName()) <= 2);
// Assert.assertTrue(counters.get(datanode1.getParent().getName()) +
// counters.get(datanode2.getParent().getName()) ==
// companionBlocks.size());
// }
// } finally {
// if (cluster != null) {
// cluster.shutdown();
// }
// }
// }
//
// // create a new BlockPlacementPolicyRaid to clear the cache
// private void refreshPolicy() {
// policy = new BlockPlacementPolicyRaid();
// policy.initialize(conf, namesystem, namesystem.clusterMap);
// }
//
// private void verifyCompanionBlocks(Collection<LocatedBlock> companionBlocks,
// List<LocatedBlock> sourceBlocks, List<LocatedBlock> parityBlocks,
// int[] sourceBlockIndexes, int[] parityBlockIndexes) {
// Set<ExtendedBlock> blockSet = new HashSet<ExtendedBlock>();
// for (LocatedBlock b : companionBlocks) {
// blockSet.add(b.getBlock());
// }
// Assert.assertEquals(sourceBlockIndexes.length + parityBlockIndexes.length,
// blockSet.size());
// for (int index : sourceBlockIndexes) {
// Assert.assertTrue(blockSet.contains(sourceBlocks.get(index).getBlock()));
// }
// for (int index : parityBlockIndexes) {
// Assert.assertTrue(blockSet.contains(parityBlocks.get(index).getBlock()));
// }
// }
//
// private void verifyCachedFullPathNameResult(
// CachedFullPathNames cachedFullPathNames, FSInodeInfo inode)
// throws IOException {
// String res1 = inode.getFullPathName();
// String res2 = cachedFullPathNames.get(inode);
// LOG.info("Actual path name: " + res1);
// LOG.info("Cached path name: " + res2);
// Assert.assertEquals(cachedFullPathNames.get(inode),
// inode.getFullPathName());
// }
//
// private void verifyCachedBlocksResult(CachedLocatedBlocks cachedBlocks,
// FSNamesystem namesystem, String file) throws IOException{
// long len = NameNodeRaidUtil.getFileInfo(namesystem, file, true).getLen();
// List<LocatedBlock> res1 = NameNodeRaidUtil.getBlockLocations(namesystem,
// file, 0L, len, false, false).getLocatedBlocks();
// List<LocatedBlock> res2 = cachedBlocks.get(file);
// for (int i = 0; i < res1.size(); i++) {
// LOG.info("Actual block: " + res1.get(i).getBlock());
// LOG.info("Cached block: " + res2.get(i).getBlock());
// Assert.assertEquals(res1.get(i).getBlock(), res2.get(i).getBlock());
// }
// }
//
// private Collection<LocatedBlock> getCompanionBlocks(
// FSNamesystem namesystem, BlockPlacementPolicyRaid policy,
// ExtendedBlock block) throws IOException {
// INodeFile inode = namesystem.blockManager.blocksMap.getINode(block
// .getLocalBlock());
// FileType type = policy.getFileType(inode.getFullPathName());
// return policy.getCompanionBlocks(inode.getFullPathName(), type,
// block.getLocalBlock());
// }
//
// private List<LocatedBlock> getBlocks(FSNamesystem namesystem, String file)
// throws IOException {
// long len = NameNodeRaidUtil.getFileInfo(namesystem, file, true).getLen();
// return NameNodeRaidUtil.getBlockLocations(namesystem,
// file, 0, len, false, false).getLocatedBlocks();
// }
} }

View File

@ -17,33 +17,21 @@
*/ */
package org.apache.hadoop.hdfs.server.namenode; package org.apache.hadoop.hdfs.server.namenode;
import java.io.*; import org.apache.hadoop.fs.UnresolvedLinkException;
import java.util.*;
import org.apache.hadoop.classification.*;
import org.apache.hadoop.fs.*;
import org.apache.hadoop.hdfs.protocol.*;
import org.apache.hadoop.hdfs.server.blockmanagement.*;
import org.apache.hadoop.security.AccessControlException;
public class NameNodeRaidTestUtil { public class NameNodeRaidTestUtil {
public static void readLock(final FSDirectory dir) { public static FSInodeInfo[] getFSInodeInfo(final FSNamesystem namesystem,
final String... files) throws UnresolvedLinkException {
final FSInodeInfo[] inodes = new FSInodeInfo[files.length];
final FSDirectory dir = namesystem.dir;
dir.readLock(); dir.readLock();
try {
for(int i = 0; i < files.length; i++) {
inodes[i] = dir.rootDir.getNode(files[i], true);
}
return inodes;
} finally {
dir.readUnlock();
}
} }
public static void readUnLock(final FSDirectory dir) {
dir.readUnlock();
}
public static FSInodeInfo getNode(final FSDirectory dir,
final String src, final boolean resolveLink
) throws UnresolvedLinkException {
return dir.rootDir.getNode(src, resolveLink);
}
// public static NavigableMap<String, DatanodeDescriptor> getDatanodeMap(
// final FSNamesystem namesystem) {
// return namesystem.datanodeMap;
// }
} }