/// <summary>Create a file with one block and corrupt some/all of the block replicas.
        ///     </summary>
        /// <exception cref="System.IO.IOException"/>
        /// <exception cref="Org.Apache.Hadoop.Security.AccessControlException"/>
        /// <exception cref="System.IO.FileNotFoundException"/>
        /// <exception cref="Org.Apache.Hadoop.FS.UnresolvedLinkException"/>
        /// <exception cref="System.Exception"/>
        /// <exception cref="Sharpen.TimeoutException"/>
        private void CreateAFileWithCorruptedBlockReplicas(Path filePath, short repl, int
                                                           corruptBlockCount)
        {
            DFSTestUtil.CreateFile(dfs, filePath, BlockSize, repl, 0);
            DFSTestUtil.WaitReplication(dfs, filePath, repl);
            // Locate the file blocks by asking name node
            LocatedBlocks locatedblocks = dfs.dfs.GetNamenode().GetBlockLocations(filePath.ToString
                                                                                      (), 0L, BlockSize);

            NUnit.Framework.Assert.AreEqual(repl, locatedblocks.Get(0).GetLocations().Length);
            // The file only has one block
            LocatedBlock lblock = locatedblocks.Get(0);

            DatanodeInfo[] datanodeinfos = lblock.GetLocations();
            ExtendedBlock  block         = lblock.GetBlock();

            // corrupt some /all of the block replicas
            for (int i = 0; i < corruptBlockCount; i++)
            {
                DatanodeInfo dninfo = datanodeinfos[i];
                DataNode     dn     = cluster.GetDataNode(dninfo.GetIpcPort());
                CorruptBlock(block, dn);
                Log.Debug("Corrupted block " + block.GetBlockName() + " on data node " + dninfo);
            }
        }
Exemplo n.º 2
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 internal Pipeline(LocatedBlock lb)
 {
     foreach (DatanodeInfo d in lb.GetLocations())
     {
         datanodes.AddItem(d.GetName());
     }
 }
Exemplo n.º 3
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        public virtual void TestAddBlockRetryShouldReturnBlockWithLocations()
        {
            string            src         = "/testAddBlockRetryShouldReturnBlockWithLocations";
            NamenodeProtocols nameNodeRpc = cluster.GetNameNodeRpc();

            // create file
            nameNodeRpc.Create(src, FsPermission.GetFileDefault(), "clientName", new EnumSetWritable
                               <CreateFlag>(EnumSet.Of(CreateFlag.Create)), true, (short)3, 1024, null);
            // start first addBlock()
            Log.Info("Starting first addBlock for " + src);
            LocatedBlock lb1 = nameNodeRpc.AddBlock(src, "clientName", null, null, INodeId.GrandfatherInodeId
                                                    , null);

            NUnit.Framework.Assert.IsTrue("Block locations should be present", lb1.GetLocations
                                              ().Length > 0);
            cluster.RestartNameNode();
            nameNodeRpc = cluster.GetNameNodeRpc();
            LocatedBlock lb2 = nameNodeRpc.AddBlock(src, "clientName", null, null, INodeId.GrandfatherInodeId
                                                    , null);

            NUnit.Framework.Assert.AreEqual("Blocks are not equal", lb1.GetBlock(), lb2.GetBlock
                                                ());
            NUnit.Framework.Assert.IsTrue("Wrong locations with retry", lb2.GetLocations().Length
                                          > 0);
        }
Exemplo n.º 4
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        public virtual void TestMissingBlock()
        {
            // Create a file with single block with two replicas
            Path file = GetTestPath("testMissingBlocks");

            CreateFile(file, 100, (short)1);
            // Corrupt the only replica of the block to result in a missing block
            LocatedBlock block = NameNodeAdapter.GetBlockLocations(cluster.GetNameNode(), file
                                                                   .ToString(), 0, 1).Get(0);

            cluster.GetNamesystem().WriteLock();
            try
            {
                bm.FindAndMarkBlockAsCorrupt(block.GetBlock(), block.GetLocations()[0], "STORAGE_ID"
                                             , "TEST");
            }
            finally
            {
                cluster.GetNamesystem().WriteUnlock();
            }
            UpdateMetrics();
            MetricsRecordBuilder rb = MetricsAsserts.GetMetrics(NsMetrics);

            MetricsAsserts.AssertGauge("UnderReplicatedBlocks", 1L, rb);
            MetricsAsserts.AssertGauge("MissingBlocks", 1L, rb);
            MetricsAsserts.AssertGauge("MissingReplOneBlocks", 1L, rb);
            fs.Delete(file, true);
            WaitForDnMetricValue(NsMetrics, "UnderReplicatedBlocks", 0L);
        }
Exemplo n.º 5
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        /// <summary>Get a DataNode that serves our testBlock.</summary>
        public virtual DataNode GetDataNode(LocatedBlock testBlock)
        {
            DatanodeInfo[] nodes   = testBlock.GetLocations();
            int            ipcport = nodes[0].GetIpcPort();

            return(cluster.GetDataNode(ipcport));
        }
        public virtual void Setup()
        {
            conf = new HdfsConfiguration();
            SimulatedFSDataset.SetFactory(conf);
            Configuration[] overlays = new Configuration[NumDatanodes];
            for (int i = 0; i < overlays.Length; i++)
            {
                overlays[i] = new Configuration();
                if (i == RoNodeIndex)
                {
                    overlays[i].SetEnum(SimulatedFSDataset.ConfigPropertyState, i == RoNodeIndex ? DatanodeStorage.State
                                        .ReadOnlyShared : DatanodeStorage.State.Normal);
                }
            }
            cluster = new MiniDFSCluster.Builder(conf).NumDataNodes(NumDatanodes).DataNodeConfOverlays
                          (overlays).Build();
            fs              = cluster.GetFileSystem();
            blockManager    = cluster.GetNameNode().GetNamesystem().GetBlockManager();
            datanodeManager = blockManager.GetDatanodeManager();
            client          = new DFSClient(new IPEndPoint("localhost", cluster.GetNameNodePort()), cluster
                                            .GetConfiguration(0));
            for (int i_1 = 0; i_1 < NumDatanodes; i_1++)
            {
                DataNode dataNode = cluster.GetDataNodes()[i_1];
                ValidateStorageState(BlockManagerTestUtil.GetStorageReportsForDatanode(datanodeManager
                                                                                       .GetDatanode(dataNode.GetDatanodeId())), i_1 == RoNodeIndex ? DatanodeStorage.State
                                     .ReadOnlyShared : DatanodeStorage.State.Normal);
            }
            // Create a 1 block file
            DFSTestUtil.CreateFile(fs, Path, BlockSize, BlockSize, BlockSize, (short)1, seed);
            LocatedBlock locatedBlock = GetLocatedBlock();

            extendedBlock = locatedBlock.GetBlock();
            block         = extendedBlock.GetLocalBlock();
            Assert.AssertThat(locatedBlock.GetLocations().Length, CoreMatchers.Is(1));
            normalDataNode   = locatedBlock.GetLocations()[0];
            readOnlyDataNode = datanodeManager.GetDatanode(cluster.GetDataNodes()[RoNodeIndex
                                                           ].GetDatanodeId());
            Assert.AssertThat(normalDataNode, CoreMatchers.Is(CoreMatchers.Not(readOnlyDataNode
                                                                               )));
            ValidateNumberReplicas(1);
            // Inject the block into the datanode with READ_ONLY_SHARED storage
            cluster.InjectBlocks(0, RoNodeIndex, Collections.Singleton(block));
            // There should now be 2 *locations* for the block
            // Must wait until the NameNode has processed the block report for the injected blocks
            WaitForLocations(2);
        }
Exemplo n.º 7
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        public virtual void TestBlockMoveAcrossStorageInSameNode()
        {
            Configuration conf = new HdfsConfiguration();
            // create only one datanode in the cluster to verify movement within
            // datanode.
            MiniDFSCluster cluster = new MiniDFSCluster.Builder(conf).NumDataNodes(1).StorageTypes
                                         (new StorageType[] { StorageType.Disk, StorageType.Archive }).Build();

            try
            {
                cluster.WaitActive();
                DistributedFileSystem dfs = cluster.GetFileSystem();
                Path file = new Path("/testBlockMoveAcrossStorageInSameNode/file");
                DFSTestUtil.CreateFile(dfs, file, 1024, (short)1, 1024);
                LocatedBlocks locatedBlocks = dfs.GetClient().GetLocatedBlocks(file.ToString(), 0
                                                                               );
                // get the current
                LocatedBlock   locatedBlock = locatedBlocks.Get(0);
                ExtendedBlock  block        = locatedBlock.GetBlock();
                DatanodeInfo[] locations    = locatedBlock.GetLocations();
                NUnit.Framework.Assert.AreEqual(1, locations.Length);
                StorageType[] storageTypes = locatedBlock.GetStorageTypes();
                // current block should be written to DISK
                NUnit.Framework.Assert.IsTrue(storageTypes[0] == StorageType.Disk);
                DatanodeInfo source = locations[0];
                // move block to ARCHIVE by using same DataNodeInfo for source, proxy and
                // destination so that movement happens within datanode
                NUnit.Framework.Assert.IsTrue(ReplaceBlock(block, source, source, source, StorageType
                                                           .Archive));
                // wait till namenode notified
                Sharpen.Thread.Sleep(3000);
                locatedBlocks = dfs.GetClient().GetLocatedBlocks(file.ToString(), 0);
                // get the current
                locatedBlock = locatedBlocks.Get(0);
                NUnit.Framework.Assert.AreEqual("Storage should be only one", 1, locatedBlock.GetLocations
                                                    ().Length);
                NUnit.Framework.Assert.IsTrue("Block should be moved to ARCHIVE", locatedBlock.GetStorageTypes
                                                  ()[0] == StorageType.Archive);
            }
            finally
            {
                cluster.Shutdown();
            }
        }
        /// <summary>
        /// Verify the number of corrupted block replicas by fetching the block
        /// location from name node.
        /// </summary>
        /// <exception cref="Org.Apache.Hadoop.Security.AccessControlException"/>
        /// <exception cref="System.IO.FileNotFoundException"/>
        /// <exception cref="Org.Apache.Hadoop.FS.UnresolvedLinkException"/>
        /// <exception cref="System.IO.IOException"/>
        private void VerifyCorruptedBlockCount(Path filePath, int expectedReplicas)
        {
            LocatedBlocks lBlocks = dfs.dfs.GetNamenode().GetBlockLocations(filePath.ToUri().
                                                                            GetPath(), 0, long.MaxValue);
            // we expect only the first block of the file is used for this test
            LocatedBlock firstLocatedBlock = lBlocks.Get(0);

            NUnit.Framework.Assert.AreEqual(expectedReplicas, firstLocatedBlock.GetLocations(
                                                ).Length);
        }
Exemplo n.º 9
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        /// <exception cref="System.Exception"/>
        public virtual void TestBlockReaderLocalLegacyWithAppend()
        {
            short             ReplFactor = 1;
            HdfsConfiguration conf       = GetConfiguration(null);

            conf.SetBoolean(DFSConfigKeys.DfsClientUseLegacyBlockreaderlocal, true);
            MiniDFSCluster cluster = new MiniDFSCluster.Builder(conf).NumDataNodes(1).Build();

            cluster.WaitActive();
            DistributedFileSystem dfs = cluster.GetFileSystem();
            Path path = new Path("/testBlockReaderLocalLegacy");

            DFSTestUtil.CreateFile(dfs, path, 10, ReplFactor, 0);
            DFSTestUtil.WaitReplication(dfs, path, ReplFactor);
            ClientDatanodeProtocol proxy;

            Org.Apache.Hadoop.Security.Token.Token <BlockTokenIdentifier> token;
            ExtendedBlock originalBlock;
            long          originalGS;

            {
                LocatedBlock lb = cluster.GetNameNode().GetRpcServer().GetBlockLocations(path.ToString
                                                                                             (), 0, 1).Get(0);
                proxy = DFSUtil.CreateClientDatanodeProtocolProxy(lb.GetLocations()[0], conf, 60000
                                                                  , false);
                token = lb.GetBlockToken();
                // get block and generation stamp
                ExtendedBlock blk = new ExtendedBlock(lb.GetBlock());
                originalBlock = new ExtendedBlock(blk);
                originalGS    = originalBlock.GetGenerationStamp();
                // test getBlockLocalPathInfo
                BlockLocalPathInfo info = proxy.GetBlockLocalPathInfo(blk, token);
                NUnit.Framework.Assert.AreEqual(originalGS, info.GetBlock().GetGenerationStamp());
            }
            {
                // append one byte
                FSDataOutputStream @out = dfs.Append(path);
                @out.Write(1);
                @out.Close();
            }
            {
                // get new generation stamp
                LocatedBlock lb = cluster.GetNameNode().GetRpcServer().GetBlockLocations(path.ToString
                                                                                             (), 0, 1).Get(0);
                long newGS = lb.GetBlock().GetGenerationStamp();
                NUnit.Framework.Assert.IsTrue(newGS > originalGS);
                // getBlockLocalPathInfo using the original block.
                NUnit.Framework.Assert.AreEqual(originalGS, originalBlock.GetGenerationStamp());
                BlockLocalPathInfo info = proxy.GetBlockLocalPathInfo(originalBlock, token);
                NUnit.Framework.Assert.AreEqual(newGS, info.GetBlock().GetGenerationStamp());
            }
            cluster.Shutdown();
        }
Exemplo n.º 10
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            internal static IList <Mover.MLocation> ToLocations(LocatedBlock lb)
            {
                DatanodeInfo[]          datanodeInfos = lb.GetLocations();
                StorageType[]           storageTypes  = lb.GetStorageTypes();
                long                    size          = lb.GetBlockSize();
                IList <Mover.MLocation> locations     = new List <Mover.MLocation>();

                for (int i = 0; i < datanodeInfos.Length; i++)
                {
                    locations.AddItem(new Mover.MLocation(datanodeInfos[i], storageTypes[i], size));
                }
                return(locations);
            }
Exemplo n.º 11
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        // try reading a block using a BlockReader directly
        private static void TryRead(Configuration conf, LocatedBlock lblock, bool shouldSucceed
                                    )
        {
            IPEndPoint    targetAddr  = null;
            IOException   ioe         = null;
            BlockReader   blockReader = null;
            ExtendedBlock block       = lblock.GetBlock();

            try
            {
                DatanodeInfo[] nodes = lblock.GetLocations();
                targetAddr  = NetUtils.CreateSocketAddr(nodes[0].GetXferAddr());
                blockReader = new BlockReaderFactory(new DFSClient.Conf(conf)).SetFileName(BlockReaderFactory
                                                                                           .GetFileName(targetAddr, "test-blockpoolid", block.GetBlockId())).SetBlock(block
                                                                                                                                                                      ).SetBlockToken(lblock.GetBlockToken()).SetInetSocketAddress(targetAddr).SetStartOffset
                                  (0).SetLength(-1).SetVerifyChecksum(true).SetClientName("TestBlockTokenWithDFS")
                              .SetDatanodeInfo(nodes[0]).SetCachingStrategy(CachingStrategy.NewDefaultStrategy
                                                                                ()).SetClientCacheContext(ClientContext.GetFromConf(conf)).SetConfiguration(conf
                                                                                                                                                            ).SetRemotePeerFactory(new _RemotePeerFactory_162(conf)).Build();
            }
            catch (IOException ex)
            {
                ioe = ex;
            }
            finally
            {
                if (blockReader != null)
                {
                    try
                    {
                        blockReader.Close();
                    }
                    catch (IOException e)
                    {
                        throw new RuntimeException(e);
                    }
                }
            }
            if (shouldSucceed)
            {
                NUnit.Framework.Assert.IsNotNull("OP_READ_BLOCK: access token is invalid, " + "when it is expected to be valid"
                                                 , blockReader);
            }
            else
            {
                NUnit.Framework.Assert.IsNotNull("OP_READ_BLOCK: access token is valid, " + "when it is expected to be invalid"
                                                 , ioe);
                NUnit.Framework.Assert.IsTrue("OP_READ_BLOCK failed due to reasons other than access token: "
                                              , ioe is InvalidBlockTokenException);
            }
        }
Exemplo n.º 12
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 /// <exception cref="System.IO.IOException"/>
 private void TestPlacement(string clientMachine, string clientRack)
 {
     // write 5 files and check whether all times block placed
     for (int i = 0; i < 5; i++)
     {
         string src = "/test-" + i;
         // Create the file with client machine
         HdfsFileStatus fileStatus = namesystem.StartFile(src, perm, clientMachine, clientMachine
                                                          , EnumSet.Of(CreateFlag.Create), true, ReplicationFactor, DefaultBlockSize, null
                                                          , false);
         LocatedBlock locatedBlock = nameNodeRpc.AddBlock(src, clientMachine, null, null,
                                                          fileStatus.GetFileId(), null);
         NUnit.Framework.Assert.AreEqual("Block should be allocated sufficient locations",
                                         ReplicationFactor, locatedBlock.GetLocations().Length);
         if (clientRack != null)
         {
             NUnit.Framework.Assert.AreEqual("First datanode should be rack local", clientRack
                                             , locatedBlock.GetLocations()[0].GetNetworkLocation());
         }
         nameNodeRpc.AbandonBlock(locatedBlock.GetBlock(), fileStatus.GetFileId(), src, clientMachine
                                  );
     }
 }
Exemplo n.º 13
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        /// <summary>TC7: Corrupted replicas are present.</summary>
        /// <exception cref="System.IO.IOException">an exception might be thrown</exception>
        /// <exception cref="System.Exception"/>
        private void TestTC7(bool appendToNewBlock)
        {
            short repl = 2;
            Path  p    = new Path("/TC7/foo" + (appendToNewBlock ? "0" : "1"));

            System.Console.Out.WriteLine("p=" + p);
            //a. Create file with replication factor of 2. Write half block of data. Close file.
            int len1 = (int)(BlockSize / 2);

            {
                FSDataOutputStream @out = fs.Create(p, false, buffersize, repl, BlockSize);
                AppendTestUtil.Write(@out, 0, len1);
                @out.Close();
            }
            DFSTestUtil.WaitReplication(fs, p, repl);
            //b. Log into one datanode that has one replica of this block.
            //   Find the block file on this datanode and truncate it to zero size.
            LocatedBlocks locatedblocks = fs.dfs.GetNamenode().GetBlockLocations(p.ToString()
                                                                                 , 0L, len1);

            NUnit.Framework.Assert.AreEqual(1, locatedblocks.LocatedBlockCount());
            LocatedBlock  lb  = locatedblocks.Get(0);
            ExtendedBlock blk = lb.GetBlock();

            NUnit.Framework.Assert.AreEqual(len1, lb.GetBlockSize());
            DatanodeInfo[] datanodeinfos = lb.GetLocations();
            NUnit.Framework.Assert.AreEqual(repl, datanodeinfos.Length);
            DataNode dn = cluster.GetDataNode(datanodeinfos[0].GetIpcPort());
            FilePath f  = DataNodeTestUtils.GetBlockFile(dn, blk.GetBlockPoolId(), blk.GetLocalBlock
                                                             ());
            RandomAccessFile raf = new RandomAccessFile(f, "rw");

            AppendTestUtil.Log.Info("dn=" + dn + ", blk=" + blk + " (length=" + blk.GetNumBytes
                                        () + ")");
            NUnit.Framework.Assert.AreEqual(len1, raf.Length());
            raf.SetLength(0);
            raf.Close();
            //c. Open file in "append mode".  Append a new block worth of data. Close file.
            int len2 = (int)BlockSize;

            {
                FSDataOutputStream @out = appendToNewBlock ? fs.Append(p, EnumSet.Of(CreateFlag.Append
                                                                                     , CreateFlag.NewBlock), 4096, null) : fs.Append(p);
                AppendTestUtil.Write(@out, len1, len2);
                @out.Close();
            }
            //d. Reopen file and read two blocks worth of data.
            AppendTestUtil.Check(fs, p, len1 + len2);
        }
Exemplo n.º 14
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        /// <summary>TC11: Racing rename</summary>
        /// <exception cref="System.Exception"/>
        private void TestTC11(bool appendToNewBlock)
        {
            Path p = new Path("/TC11/foo" + (appendToNewBlock ? "0" : "1"));

            System.Console.Out.WriteLine("p=" + p);
            //a. Create file and write one block of data. Close file.
            int len1 = (int)BlockSize;
            {
                FSDataOutputStream @out = fs.Create(p, false, buffersize, Replication, BlockSize);
                AppendTestUtil.Write(@out, 0, len1);
                @out.Close();
            }
            //b. Reopen file in "append" mode. Append half block of data.
            FSDataOutputStream out_1 = appendToNewBlock ? fs.Append(p, EnumSet.Of(CreateFlag.
                                                                                  Append, CreateFlag.NewBlock), 4096, null) : fs.Append(p);
            int len2 = (int)BlockSize / 2;

            AppendTestUtil.Write(out_1, len1, len2);
            out_1.Hflush();
            //c. Rename file to file.new.
            Path pnew = new Path(p + ".new");

            NUnit.Framework.Assert.IsTrue(fs.Rename(p, pnew));
            //d. Close file handle that was opened in (b).
            out_1.Close();
            //check block sizes
            long          len           = fs.GetFileStatus(pnew).GetLen();
            LocatedBlocks locatedblocks = fs.dfs.GetNamenode().GetBlockLocations(pnew.ToString
                                                                                     (), 0L, len);
            int numblock = locatedblocks.LocatedBlockCount();

            for (int i = 0; i < numblock; i++)
            {
                LocatedBlock  lb   = locatedblocks.Get(i);
                ExtendedBlock blk  = lb.GetBlock();
                long          size = lb.GetBlockSize();
                if (i < numblock - 1)
                {
                    NUnit.Framework.Assert.AreEqual(BlockSize, size);
                }
                foreach (DatanodeInfo datanodeinfo in lb.GetLocations())
                {
                    DataNode dn       = cluster.GetDataNode(datanodeinfo.GetIpcPort());
                    Block    metainfo = DataNodeTestUtils.GetFSDataset(dn).GetStoredBlock(blk.GetBlockPoolId
                                                                                              (), blk.GetBlockId());
                    NUnit.Framework.Assert.AreEqual(size, metainfo.GetNumBytes());
                }
            }
        }
Exemplo n.º 15
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 private void Compare(LocatedBlock expected, LocatedBlock actual)
 {
     NUnit.Framework.Assert.AreEqual(expected.GetBlock(), actual.GetBlock());
     Compare(expected.GetBlockToken(), actual.GetBlockToken());
     NUnit.Framework.Assert.AreEqual(expected.GetStartOffset(), actual.GetStartOffset(
                                         ));
     NUnit.Framework.Assert.AreEqual(expected.IsCorrupt(), actual.IsCorrupt());
     DatanodeInfo[] ei = expected.GetLocations();
     DatanodeInfo[] ai = actual.GetLocations();
     NUnit.Framework.Assert.AreEqual(ei.Length, ai.Length);
     for (int i = 0; i < ei.Length; i++)
     {
         Compare(ei[i], ai[i]);
     }
 }
Exemplo n.º 16
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        /// <summary>Convert a LocatedBlock to a Json map.</summary>
        /// <exception cref="System.IO.IOException"/>
        private static IDictionary <string, object> ToJsonMap(LocatedBlock locatedblock)
        {
            if (locatedblock == null)
            {
                return(null);
            }
            IDictionary <string, object> m = new SortedDictionary <string, object>();

            m["blockToken"]      = ToJsonMap(locatedblock.GetBlockToken());
            m["isCorrupt"]       = locatedblock.IsCorrupt();
            m["startOffset"]     = locatedblock.GetStartOffset();
            m["block"]           = ToJsonMap(locatedblock.GetBlock());
            m["locations"]       = ToJsonArray(locatedblock.GetLocations());
            m["cachedLocations"] = ToJsonArray(locatedblock.GetCachedLocations());
            return(m);
        }
Exemplo n.º 17
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        public virtual void TestRetryAddBlockWhileInChooseTarget()
        {
            string            src = "/testRetryAddBlockWhileInChooseTarget";
            FSNamesystem      ns  = cluster.GetNamesystem();
            NamenodeProtocols nn  = cluster.GetNameNodeRpc();

            // create file
            nn.Create(src, FsPermission.GetFileDefault(), "clientName", new EnumSetWritable <CreateFlag
                                                                                             >(EnumSet.Of(CreateFlag.Create)), true, (short)3, 1024, null);
            // start first addBlock()
            Log.Info("Starting first addBlock for " + src);
            LocatedBlock[]        onRetryBlock = new LocatedBlock[1];
            DatanodeStorageInfo[] targets      = ns.GetNewBlockTargets(src, INodeId.GrandfatherInodeId
                                                                       , "clientName", null, null, null, onRetryBlock);
            NUnit.Framework.Assert.IsNotNull("Targets must be generated", targets);
            // run second addBlock()
            Log.Info("Starting second addBlock for " + src);
            nn.AddBlock(src, "clientName", null, null, INodeId.GrandfatherInodeId, null);
            NUnit.Framework.Assert.IsTrue("Penultimate block must be complete", CheckFileProgress
                                              (src, false));
            LocatedBlocks lbs = nn.GetBlockLocations(src, 0, long.MaxValue);

            NUnit.Framework.Assert.AreEqual("Must be one block", 1, lbs.GetLocatedBlocks().Count
                                            );
            LocatedBlock lb2 = lbs.Get(0);

            NUnit.Framework.Assert.AreEqual("Wrong replication", Replication, lb2.GetLocations
                                                ().Length);
            // continue first addBlock()
            LocatedBlock newBlock = ns.StoreAllocatedBlock(src, INodeId.GrandfatherInodeId, "clientName"
                                                           , null, targets);

            NUnit.Framework.Assert.AreEqual("Blocks are not equal", lb2.GetBlock(), newBlock.
                                            GetBlock());
            // check locations
            lbs = nn.GetBlockLocations(src, 0, long.MaxValue);
            NUnit.Framework.Assert.AreEqual("Must be one block", 1, lbs.GetLocatedBlocks().Count
                                            );
            LocatedBlock lb1 = lbs.Get(0);

            NUnit.Framework.Assert.AreEqual("Wrong replication", Replication, lb1.GetLocations
                                                ().Length);
            NUnit.Framework.Assert.AreEqual("Blocks are not equal", lb1.GetBlock(), lb2.GetBlock
                                                ());
        }
Exemplo n.º 18
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        /// <summary>Get a BlockReader for the given block.</summary>
        /// <exception cref="System.IO.IOException"/>
        public static BlockReader GetBlockReader(MiniDFSCluster cluster, LocatedBlock testBlock
                                                 , int offset, int lenToRead)
        {
            IPEndPoint    targetAddr = null;
            ExtendedBlock block      = testBlock.GetBlock();

            DatanodeInfo[] nodes = testBlock.GetLocations();
            targetAddr = NetUtils.CreateSocketAddr(nodes[0].GetXferAddr());
            DistributedFileSystem fs = cluster.GetFileSystem();

            return(new BlockReaderFactory(fs.GetClient().GetConf()).SetInetSocketAddress(targetAddr
                                                                                         ).SetBlock(block).SetFileName(targetAddr.ToString() + ":" + block.GetBlockId()).
                   SetBlockToken(testBlock.GetBlockToken()).SetStartOffset(offset).SetLength(lenToRead
                                                                                             ).SetVerifyChecksum(true).SetClientName("BlockReaderTestUtil").SetDatanodeInfo(nodes
                                                                                                                                                                            [0]).SetClientCacheContext(ClientContext.GetFromConf(fs.GetConf())).SetCachingStrategy
                       (CachingStrategy.NewDefaultStrategy()).SetConfiguration(fs.GetConf()).SetAllowShortCircuitLocalReads
                       (true).SetRemotePeerFactory(new _RemotePeerFactory_196(fs)).Build());
        }
Exemplo n.º 19
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 /// <exception cref="System.Exception"/>
 private void WaitForAllReplicas(int expectedReplicaNum, Path file, DistributedFileSystem
                                 dfs)
 {
     for (int i = 0; i < 5; i++)
     {
         LocatedBlocks lbs = dfs.GetClient().GetLocatedBlocks(file.ToString(), 0, BlockSize
                                                              );
         LocatedBlock lb = lbs.Get(0);
         if (lb.GetLocations().Length >= expectedReplicaNum)
         {
             return;
         }
         else
         {
             Sharpen.Thread.Sleep(1000);
         }
     }
 }
        // Waits for all of the blocks to have expected replication
        // Waits for all of the blocks to have expected replication
        /// <exception cref="System.IO.IOException"/>
        private void WaitForBlockReplication(string filename, ClientProtocol namenode, int
                                             expected, long maxWaitSec)
        {
            long start = Time.MonotonicNow();

            //wait for all the blocks to be replicated;
            Log.Info("Checking for block replication for " + filename);
            LocatedBlocks blocks = namenode.GetBlockLocations(filename, 0, long.MaxValue);

            NUnit.Framework.Assert.AreEqual(numBlocks, blocks.LocatedBlockCount());
            for (int i = 0; i < numBlocks; ++i)
            {
                Log.Info("Checking for block:" + (i + 1));
                while (true)
                {
                    // Loop to check for block i (usually when 0 is done all will be done
                    blocks = namenode.GetBlockLocations(filename, 0, long.MaxValue);
                    NUnit.Framework.Assert.AreEqual(numBlocks, blocks.LocatedBlockCount());
                    LocatedBlock block  = blocks.Get(i);
                    int          actual = block.GetLocations().Length;
                    if (actual == expected)
                    {
                        Log.Info("Got enough replicas for " + (i + 1) + "th block " + block.GetBlock() +
                                 ", got " + actual + ".");
                        break;
                    }
                    Log.Info("Not enough replicas for " + (i + 1) + "th block " + block.GetBlock() +
                             " yet. Expecting " + expected + ", got " + actual + ".");
                    if (maxWaitSec > 0 && (Time.MonotonicNow() - start) > (maxWaitSec * 1000))
                    {
                        throw new IOException("Timedout while waiting for all blocks to " + " be replicated for "
                                              + filename);
                    }
                    try
                    {
                        Sharpen.Thread.Sleep(500);
                    }
                    catch (Exception)
                    {
                    }
                }
            }
        }
Exemplo n.º 21
0
        // Waits for all of the blocks to have expected replication
        /// <exception cref="System.IO.IOException"/>
        private void WaitForBlockReplication(string filename, ClientProtocol namenode, int
                                             expected, long maxWaitSec)
        {
            long start = Time.MonotonicNow();

            //wait for all the blocks to be replicated;
            Log.Info("Checking for block replication for " + filename);
            while (true)
            {
                bool          replOk = true;
                LocatedBlocks blocks = namenode.GetBlockLocations(filename, 0, long.MaxValue);
                for (IEnumerator <LocatedBlock> iter = blocks.GetLocatedBlocks().GetEnumerator();
                     iter.HasNext();)
                {
                    LocatedBlock block  = iter.Next();
                    int          actual = block.GetLocations().Length;
                    if (actual < expected)
                    {
                        Log.Info("Not enough replicas for " + block.GetBlock() + " yet. Expecting " + expected
                                 + ", got " + actual + ".");
                        replOk = false;
                        break;
                    }
                }
                if (replOk)
                {
                    return;
                }
                if (maxWaitSec > 0 && (Time.MonotonicNow() - start) > (maxWaitSec * 1000))
                {
                    throw new IOException("Timedout while waiting for all blocks to " + " be replicated for "
                                          + filename);
                }
                try
                {
                    Sharpen.Thread.Sleep(500);
                }
                catch (Exception)
                {
                }
            }
        }
 /// <exception cref="System.IO.IOException"/>
 /// <exception cref="System.Exception"/>
 private void WaitForLocations(int locations)
 {
     for (int tries = 0; tries < Retries;)
     {
         try
         {
             LocatedBlock locatedBlock = GetLocatedBlock();
             Assert.AssertThat(locatedBlock.GetLocations().Length, CoreMatchers.Is(locations));
             break;
         }
         catch (Exception e)
         {
             if (++tries < Retries)
             {
                 Sharpen.Thread.Sleep(1000);
             }
             else
             {
                 throw;
             }
         }
     }
 }
Exemplo n.º 23
0
        /// <summary>
        /// Group the per-replica
        /// <see cref="Org.Apache.Hadoop.FS.VolumeId"/>
        /// info returned from
        /// <see cref="DFSClient#queryDatanodesForHdfsBlocksMetadata(Map)"/>
        /// to be
        /// associated
        /// with the corresponding
        /// <see cref="Org.Apache.Hadoop.Hdfs.Protocol.LocatedBlock"/>
        /// .
        /// </summary>
        /// <param name="blocks">Original LocatedBlock array</param>
        /// <param name="metadatas">VolumeId information for the replicas on each datanode</param>
        /// <returns>
        /// blockVolumeIds per-replica VolumeId information associated with the
        /// parent LocatedBlock
        /// </returns>
        internal static IDictionary <LocatedBlock, IList <VolumeId> > AssociateVolumeIdsWithBlocks
            (IList <LocatedBlock> blocks, IDictionary <DatanodeInfo, HdfsBlocksMetadata> metadatas
            )
        {
            // Initialize mapping of ExtendedBlock to LocatedBlock.
            // Used to associate results from DN RPCs to the parent LocatedBlock
            IDictionary <long, LocatedBlock> blockIdToLocBlock = new Dictionary <long, LocatedBlock
                                                                                 >();

            foreach (LocatedBlock b in blocks)
            {
                blockIdToLocBlock[b.GetBlock().GetBlockId()] = b;
            }
            // Initialize the mapping of blocks -> list of VolumeIds, one per replica
            // This is filled out with real values from the DN RPCs
            IDictionary <LocatedBlock, IList <VolumeId> > blockVolumeIds = new Dictionary <LocatedBlock
                                                                                           , IList <VolumeId> >();

            foreach (LocatedBlock b_1 in blocks)
            {
                AList <VolumeId> l = new AList <VolumeId>(b_1.GetLocations().Length);
                for (int i = 0; i < b_1.GetLocations().Length; i++)
                {
                    l.AddItem(null);
                }
                blockVolumeIds[b_1] = l;
            }
            // Iterate through the list of metadatas (one per datanode).
            // For each metadata, if it's valid, insert its volume location information
            // into the Map returned to the caller
            foreach (KeyValuePair <DatanodeInfo, HdfsBlocksMetadata> entry in metadatas)
            {
                DatanodeInfo       datanode = entry.Key;
                HdfsBlocksMetadata metadata = entry.Value;
                // Check if metadata is valid
                if (metadata == null)
                {
                    continue;
                }
                long[]         metaBlockIds      = metadata.GetBlockIds();
                IList <byte[]> metaVolumeIds     = metadata.GetVolumeIds();
                IList <int>    metaVolumeIndexes = metadata.GetVolumeIndexes();
                // Add VolumeId for each replica in the HdfsBlocksMetadata
                for (int j = 0; j < metaBlockIds.Length; j++)
                {
                    int  volumeIndex = metaVolumeIndexes[j];
                    long blockId     = metaBlockIds[j];
                    // Skip if block wasn't found, or not a valid index into metaVolumeIds
                    // Also skip if the DN responded with a block we didn't ask for
                    if (volumeIndex == int.MaxValue || volumeIndex >= metaVolumeIds.Count || !blockIdToLocBlock
                        .Contains(blockId))
                    {
                        if (Log.IsDebugEnabled())
                        {
                            Log.Debug("No data for block " + blockId);
                        }
                        continue;
                    }
                    // Get the VolumeId by indexing into the list of VolumeIds
                    // provided by the datanode
                    byte[]       volumeId = metaVolumeIds[volumeIndex];
                    HdfsVolumeId id       = new HdfsVolumeId(volumeId);
                    // Find out which index we are in the LocatedBlock's replicas
                    LocatedBlock   locBlock = blockIdToLocBlock[blockId];
                    DatanodeInfo[] dnInfos  = locBlock.GetLocations();
                    int            index    = -1;
                    for (int k = 0; k < dnInfos.Length; k++)
                    {
                        if (dnInfos[k].Equals(datanode))
                        {
                            index = k;
                            break;
                        }
                    }
                    if (index < 0)
                    {
                        if (Log.IsDebugEnabled())
                        {
                            Log.Debug("Datanode responded with a block volume id we did" + " not request, omitting."
                                      );
                        }
                        continue;
                    }
                    // Place VolumeId at the same index as the DN's index in the list of
                    // replicas
                    IList <VolumeId> volumeIds = blockVolumeIds[locBlock];
                    volumeIds.Set(index, id);
                }
            }
            return(blockVolumeIds);
        }
        public virtual void TestUpdatePipelineAfterDelete()
        {
            Configuration  conf    = new HdfsConfiguration();
            Path           file    = new Path("/test-file");
            MiniDFSCluster cluster = new MiniDFSCluster.Builder(conf).Build();

            try
            {
                FileSystem        fs       = cluster.GetFileSystem();
                NamenodeProtocols namenode = cluster.GetNameNodeRpc();
                DFSOutputStream   @out     = null;
                try
                {
                    // Create a file and make sure a block is allocated for it.
                    @out = (DFSOutputStream)(fs.Create(file).GetWrappedStream());
                    @out.Write(1);
                    @out.Hflush();
                    // Create a snapshot that includes the file.
                    SnapshotTestHelper.CreateSnapshot((DistributedFileSystem)fs, new Path("/"), "s1");
                    // Grab the block info of this file for later use.
                    FSDataInputStream @in      = null;
                    ExtendedBlock     oldBlock = null;
                    try
                    {
                        @in      = fs.Open(file);
                        oldBlock = DFSTestUtil.GetAllBlocks(@in)[0].GetBlock();
                    }
                    finally
                    {
                        IOUtils.CloseStream(@in);
                    }
                    // Allocate a new block ID/gen stamp so we can simulate pipeline
                    // recovery.
                    string       clientName      = ((DistributedFileSystem)fs).GetClient().GetClientName();
                    LocatedBlock newLocatedBlock = namenode.UpdateBlockForPipeline(oldBlock, clientName
                                                                                   );
                    ExtendedBlock newBlock = new ExtendedBlock(oldBlock.GetBlockPoolId(), oldBlock.GetBlockId
                                                                   (), oldBlock.GetNumBytes(), newLocatedBlock.GetBlock().GetGenerationStamp());
                    // Delete the file from the present FS. It will still exist the
                    // previously-created snapshot. This will log an OP_DELETE for the
                    // file in question.
                    fs.Delete(file, true);
                    // Simulate a pipeline recovery, wherein a new block is allocated
                    // for the existing block, resulting in an OP_UPDATE_BLOCKS being
                    // logged for the file in question.
                    try
                    {
                        namenode.UpdatePipeline(clientName, oldBlock, newBlock, newLocatedBlock.GetLocations
                                                    (), newLocatedBlock.GetStorageIDs());
                    }
                    catch (IOException ioe)
                    {
                        // normal
                        GenericTestUtils.AssertExceptionContains("does not exist or it is not under construction"
                                                                 , ioe);
                    }
                    // Make sure the NN can restart with the edit logs as we have them now.
                    cluster.RestartNameNode(true);
                }
                finally
                {
                    IOUtils.CloseStream(@out);
                }
            }
            finally
            {
                cluster.Shutdown();
            }
        }
Exemplo n.º 25
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        public virtual void TestBlockSynchronization()
        {
            int           OrgFileSize = 3000;
            Configuration conf        = new HdfsConfiguration();

            conf.SetLong(DFSConfigKeys.DfsBlockSizeKey, BlockSize);
            cluster = new MiniDFSCluster.Builder(conf).NumDataNodes(5).Build();
            cluster.WaitActive();
            //create a file
            DistributedFileSystem dfs = cluster.GetFileSystem();
            string filestr            = "/foo";
            Path   filepath           = new Path(filestr);

            DFSTestUtil.CreateFile(dfs, filepath, OrgFileSize, ReplicationNum, 0L);
            NUnit.Framework.Assert.IsTrue(dfs.Exists(filepath));
            DFSTestUtil.WaitReplication(dfs, filepath, ReplicationNum);
            //get block info for the last block
            LocatedBlock locatedblock = TestInterDatanodeProtocol.GetLastLocatedBlock(dfs.dfs
                                                                                      .GetNamenode(), filestr);

            DatanodeInfo[] datanodeinfos = locatedblock.GetLocations();
            NUnit.Framework.Assert.AreEqual(ReplicationNum, datanodeinfos.Length);
            //connect to data nodes
            DataNode[] datanodes = new DataNode[ReplicationNum];
            for (int i = 0; i < ReplicationNum; i++)
            {
                datanodes[i] = cluster.GetDataNode(datanodeinfos[i].GetIpcPort());
                NUnit.Framework.Assert.IsTrue(datanodes[i] != null);
            }
            //verify Block Info
            ExtendedBlock lastblock = locatedblock.GetBlock();

            DataNode.Log.Info("newblocks=" + lastblock);
            for (int i_1 = 0; i_1 < ReplicationNum; i_1++)
            {
                CheckMetaInfo(lastblock, datanodes[i_1]);
            }
            DataNode.Log.Info("dfs.dfs.clientName=" + dfs.dfs.clientName);
            cluster.GetNameNodeRpc().Append(filestr, dfs.dfs.clientName, new EnumSetWritable <
                                                CreateFlag>(EnumSet.Of(CreateFlag.Append)));
            // expire lease to trigger block recovery.
            WaitLeaseRecovery(cluster);
            Block[] updatedmetainfo = new Block[ReplicationNum];
            long    oldSize         = lastblock.GetNumBytes();

            lastblock = TestInterDatanodeProtocol.GetLastLocatedBlock(dfs.dfs.GetNamenode(),
                                                                      filestr).GetBlock();
            long currentGS = lastblock.GetGenerationStamp();

            for (int i_2 = 0; i_2 < ReplicationNum; i_2++)
            {
                updatedmetainfo[i_2] = DataNodeTestUtils.GetFSDataset(datanodes[i_2]).GetStoredBlock
                                           (lastblock.GetBlockPoolId(), lastblock.GetBlockId());
                NUnit.Framework.Assert.AreEqual(lastblock.GetBlockId(), updatedmetainfo[i_2].GetBlockId
                                                    ());
                NUnit.Framework.Assert.AreEqual(oldSize, updatedmetainfo[i_2].GetNumBytes());
                NUnit.Framework.Assert.AreEqual(currentGS, updatedmetainfo[i_2].GetGenerationStamp
                                                    ());
            }
            // verify that lease recovery does not occur when namenode is in safemode
            System.Console.Out.WriteLine("Testing that lease recovery cannot happen during safemode."
                                         );
            filestr  = "/foo.safemode";
            filepath = new Path(filestr);
            dfs.Create(filepath, (short)1);
            cluster.GetNameNodeRpc().SetSafeMode(HdfsConstants.SafeModeAction.SafemodeEnter,
                                                 false);
            NUnit.Framework.Assert.IsTrue(dfs.dfs.Exists(filestr));
            DFSTestUtil.WaitReplication(dfs, filepath, (short)1);
            WaitLeaseRecovery(cluster);
            // verify that we still cannot recover the lease
            LeaseManager lm = NameNodeAdapter.GetLeaseManager(cluster.GetNamesystem());

            NUnit.Framework.Assert.IsTrue("Found " + lm.CountLease() + " lease, expected 1",
                                          lm.CountLease() == 1);
            cluster.GetNameNodeRpc().SetSafeMode(HdfsConstants.SafeModeAction.SafemodeLeave,
                                                 false);
        }
Exemplo n.º 26
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        public virtual void TestPendingAndInvalidate()
        {
            Configuration Conf = new HdfsConfiguration();

            Conf.SetLong(DFSConfigKeys.DfsBlockSizeKey, 1024);
            Conf.SetLong(DFSConfigKeys.DfsHeartbeatIntervalKey, DfsReplicationInterval);
            Conf.SetInt(DFSConfigKeys.DfsNamenodeReplicationIntervalKey, DfsReplicationInterval
                        );
            MiniDFSCluster cluster = new MiniDFSCluster.Builder(Conf).NumDataNodes(DatanodeCount
                                                                                   ).Build();

            cluster.WaitActive();
            FSNamesystem          namesystem = cluster.GetNamesystem();
            BlockManager          bm         = namesystem.GetBlockManager();
            DistributedFileSystem fs         = cluster.GetFileSystem();

            try
            {
                // 1. create a file
                Path filePath = new Path("/tmp.txt");
                DFSTestUtil.CreateFile(fs, filePath, 1024, (short)3, 0L);
                // 2. disable the heartbeats
                foreach (DataNode dn in cluster.GetDataNodes())
                {
                    DataNodeTestUtils.SetHeartbeatsDisabledForTests(dn, true);
                }
                // 3. mark a couple of blocks as corrupt
                LocatedBlock block = NameNodeAdapter.GetBlockLocations(cluster.GetNameNode(), filePath
                                                                       .ToString(), 0, 1).Get(0);
                cluster.GetNamesystem().WriteLock();
                try
                {
                    bm.FindAndMarkBlockAsCorrupt(block.GetBlock(), block.GetLocations()[0], "STORAGE_ID"
                                                 , "TEST");
                    bm.FindAndMarkBlockAsCorrupt(block.GetBlock(), block.GetLocations()[1], "STORAGE_ID"
                                                 , "TEST");
                }
                finally
                {
                    cluster.GetNamesystem().WriteUnlock();
                }
                BlockManagerTestUtil.ComputeAllPendingWork(bm);
                BlockManagerTestUtil.UpdateState(bm);
                NUnit.Framework.Assert.AreEqual(bm.GetPendingReplicationBlocksCount(), 1L);
                NUnit.Framework.Assert.AreEqual(bm.pendingReplications.GetNumReplicas(block.GetBlock
                                                                                          ().GetLocalBlock()), 2);
                // 4. delete the file
                fs.Delete(filePath, true);
                // retry at most 10 times, each time sleep for 1s. Note that 10s is much
                // less than the default pending record timeout (5~10min)
                int  retries    = 10;
                long pendingNum = bm.GetPendingReplicationBlocksCount();
                while (pendingNum != 0 && retries-- > 0)
                {
                    Sharpen.Thread.Sleep(1000);
                    // let NN do the deletion
                    BlockManagerTestUtil.UpdateState(bm);
                    pendingNum = bm.GetPendingReplicationBlocksCount();
                }
                NUnit.Framework.Assert.AreEqual(pendingNum, 0L);
            }
            finally
            {
                cluster.Shutdown();
            }
        }
Exemplo n.º 27
0
        public virtual void TestBlockReceived()
        {
            Configuration conf = new HdfsConfiguration();

            conf.SetLong(DFSConfigKeys.DfsBlockSizeKey, 1024);
            MiniDFSCluster cluster = null;

            try
            {
                cluster = new MiniDFSCluster.Builder(conf).NumDataNodes(DatanodeCount).Build();
                cluster.WaitActive();
                DistributedFileSystem hdfs       = cluster.GetFileSystem();
                FSNamesystem          fsn        = cluster.GetNamesystem();
                BlockManager          blkManager = fsn.GetBlockManager();
                string file       = "/tmp.txt";
                Path   filePath   = new Path(file);
                short  replFactor = 1;
                DFSTestUtil.CreateFile(hdfs, filePath, 1024L, replFactor, 0);
                // temporarily stop the heartbeat
                AList <DataNode> datanodes = cluster.GetDataNodes();
                for (int i = 0; i < DatanodeCount; i++)
                {
                    DataNodeTestUtils.SetHeartbeatsDisabledForTests(datanodes[i], true);
                }
                hdfs.SetReplication(filePath, (short)DatanodeCount);
                BlockManagerTestUtil.ComputeAllPendingWork(blkManager);
                NUnit.Framework.Assert.AreEqual(1, blkManager.pendingReplications.Size());
                INodeFile fileNode = fsn.GetFSDirectory().GetINode4Write(file).AsFile();
                Block[]   blocks   = fileNode.GetBlocks();
                NUnit.Framework.Assert.AreEqual(DatanodeCount - 1, blkManager.pendingReplications
                                                .GetNumReplicas(blocks[0]));
                LocatedBlock locatedBlock = hdfs.GetClient().GetLocatedBlocks(file, 0).Get(0);
                DatanodeInfo existingDn   = (locatedBlock.GetLocations())[0];
                int          reportDnNum  = 0;
                string       poolId       = cluster.GetNamesystem().GetBlockPoolId();
                // let two datanodes (other than the one that already has the data) to
                // report to NN
                for (int i_1 = 0; i_1 < DatanodeCount && reportDnNum < 2; i_1++)
                {
                    if (!datanodes[i_1].GetDatanodeId().Equals(existingDn))
                    {
                        DatanodeRegistration           dnR    = datanodes[i_1].GetDNRegistrationForBP(poolId);
                        StorageReceivedDeletedBlocks[] report = new StorageReceivedDeletedBlocks[] { new
                                                                                                     StorageReceivedDeletedBlocks("Fake-storage-ID-Ignored", new ReceivedDeletedBlockInfo
                                                                                                                                  [] { new ReceivedDeletedBlockInfo(blocks[0], ReceivedDeletedBlockInfo.BlockStatus
                                                                                                                                                                    .ReceivedBlock, string.Empty) }) };
                        cluster.GetNameNodeRpc().BlockReceivedAndDeleted(dnR, poolId, report);
                        reportDnNum++;
                    }
                }
                NUnit.Framework.Assert.AreEqual(DatanodeCount - 3, blkManager.pendingReplications
                                                .GetNumReplicas(blocks[0]));
                // let the same datanodes report again
                for (int i_2 = 0; i_2 < DatanodeCount && reportDnNum < 2; i_2++)
                {
                    if (!datanodes[i_2].GetDatanodeId().Equals(existingDn))
                    {
                        DatanodeRegistration           dnR    = datanodes[i_2].GetDNRegistrationForBP(poolId);
                        StorageReceivedDeletedBlocks[] report = new StorageReceivedDeletedBlocks[] { new
                                                                                                     StorageReceivedDeletedBlocks("Fake-storage-ID-Ignored", new ReceivedDeletedBlockInfo
                                                                                                                                  [] { new ReceivedDeletedBlockInfo(blocks[0], ReceivedDeletedBlockInfo.BlockStatus
                                                                                                                                                                    .ReceivedBlock, string.Empty) }) };
                        cluster.GetNameNodeRpc().BlockReceivedAndDeleted(dnR, poolId, report);
                        reportDnNum++;
                    }
                }
                NUnit.Framework.Assert.AreEqual(DatanodeCount - 3, blkManager.pendingReplications
                                                .GetNumReplicas(blocks[0]));
                // re-enable heartbeat for the datanode that has data
                for (int i_3 = 0; i_3 < DatanodeCount; i_3++)
                {
                    DataNodeTestUtils.SetHeartbeatsDisabledForTests(datanodes[i_3], false);
                    DataNodeTestUtils.TriggerHeartbeat(datanodes[i_3]);
                }
                Sharpen.Thread.Sleep(5000);
                NUnit.Framework.Assert.AreEqual(0, blkManager.pendingReplications.Size());
            }
            finally
            {
                if (cluster != null)
                {
                    cluster.Shutdown();
                }
            }
        }
        public virtual void TestUpdateReplicaUnderRecovery()
        {
            MiniDFSCluster cluster = null;

            try
            {
                cluster = new MiniDFSCluster.Builder(conf).NumDataNodes(3).Build();
                cluster.WaitActive();
                string bpid = cluster.GetNamesystem().GetBlockPoolId();
                //create a file
                DistributedFileSystem dfs = cluster.GetFileSystem();
                string filestr            = "/foo";
                Path   filepath           = new Path(filestr);
                DFSTestUtil.CreateFile(dfs, filepath, 1024L, (short)3, 0L);
                //get block info
                LocatedBlock locatedblock = GetLastLocatedBlock(DFSClientAdapter.GetDFSClient(dfs
                                                                                              ).GetNamenode(), filestr);
                DatanodeInfo[] datanodeinfo = locatedblock.GetLocations();
                NUnit.Framework.Assert.IsTrue(datanodeinfo.Length > 0);
                //get DataNode and FSDataset objects
                DataNode datanode = cluster.GetDataNode(datanodeinfo[0].GetIpcPort());
                NUnit.Framework.Assert.IsTrue(datanode != null);
                //initReplicaRecovery
                ExtendedBlock         b          = locatedblock.GetBlock();
                long                  recoveryid = b.GetGenerationStamp() + 1;
                long                  newlength  = b.GetNumBytes() - 1;
                FsDatasetSpi <object> fsdataset  = DataNodeTestUtils.GetFSDataset(datanode);
                ReplicaRecoveryInfo   rri        = fsdataset.InitReplicaRecovery(new BlockRecoveryCommand.RecoveringBlock
                                                                                     (b, null, recoveryid));
                //check replica
                ReplicaInfo replica = FsDatasetTestUtil.FetchReplicaInfo(fsdataset, bpid, b.GetBlockId
                                                                             ());
                NUnit.Framework.Assert.AreEqual(HdfsServerConstants.ReplicaState.Rur, replica.GetState
                                                    ());
                //check meta data before update
                FsDatasetImpl.CheckReplicaFiles(replica);
                {
                    //case "THIS IS NOT SUPPOSED TO HAPPEN"
                    //with (block length) != (stored replica's on disk length).
                    //create a block with same id and gs but different length.
                    ExtendedBlock tmp = new ExtendedBlock(b.GetBlockPoolId(), rri.GetBlockId(), rri.GetNumBytes
                                                              () - 1, rri.GetGenerationStamp());
                    try
                    {
                        //update should fail
                        fsdataset.UpdateReplicaUnderRecovery(tmp, recoveryid, tmp.GetBlockId(), newlength
                                                             );
                        NUnit.Framework.Assert.Fail();
                    }
                    catch (IOException ioe)
                    {
                        System.Console.Out.WriteLine("GOOD: getting " + ioe);
                    }
                }
                //update
                string storageID = fsdataset.UpdateReplicaUnderRecovery(new ExtendedBlock(b.GetBlockPoolId
                                                                                              (), rri), recoveryid, rri.GetBlockId(), newlength);
                NUnit.Framework.Assert.IsTrue(storageID != null);
            }
            finally
            {
                if (cluster != null)
                {
                    cluster.Shutdown();
                }
            }
        }
Exemplo n.º 29
0
        public virtual void TestSortLocatedBlocks()
        {
            // create the DatanodeManager which will be tested
            FSNamesystem fsn = Org.Mockito.Mockito.Mock <FSNamesystem>();

            Org.Mockito.Mockito.When(fsn.HasWriteLock()).ThenReturn(true);
            DatanodeManager dm = new DatanodeManager(Org.Mockito.Mockito.Mock <BlockManager>()
                                                     , fsn, new Configuration());

            // register 5 datanodes, each with different storage ID and type
            DatanodeInfo[] locs         = new DatanodeInfo[5];
            string[]       storageIDs   = new string[5];
            StorageType[]  storageTypes = new StorageType[] { StorageType.Archive, StorageType
                                                              .Default, StorageType.Disk, StorageType.RamDisk, StorageType.Ssd };
            for (int i = 0; i < 5; i++)
            {
                // register new datanode
                string uuid             = "UUID-" + i;
                string ip               = "IP-" + i;
                DatanodeRegistration dr = Org.Mockito.Mockito.Mock <DatanodeRegistration>();
                Org.Mockito.Mockito.When(dr.GetDatanodeUuid()).ThenReturn(uuid);
                Org.Mockito.Mockito.When(dr.GetIpAddr()).ThenReturn(ip);
                Org.Mockito.Mockito.When(dr.GetXferAddr()).ThenReturn(ip + ":9000");
                Org.Mockito.Mockito.When(dr.GetXferPort()).ThenReturn(9000);
                Org.Mockito.Mockito.When(dr.GetSoftwareVersion()).ThenReturn("version1");
                dm.RegisterDatanode(dr);
                // get location and storage information
                locs[i]       = dm.GetDatanode(uuid);
                storageIDs[i] = "storageID-" + i;
            }
            // set first 2 locations as decomissioned
            locs[0].SetDecommissioned();
            locs[1].SetDecommissioned();
            // create LocatedBlock with above locations
            ExtendedBlock        b      = new ExtendedBlock("somePoolID", 1234);
            LocatedBlock         block  = new LocatedBlock(b, locs, storageIDs, storageTypes);
            IList <LocatedBlock> blocks = new AList <LocatedBlock>();

            blocks.AddItem(block);
            string targetIp = locs[4].GetIpAddr();

            // sort block locations
            dm.SortLocatedBlocks(targetIp, blocks);
            // check that storage IDs/types are aligned with datanode locs
            DatanodeInfo[] sortedLocs = block.GetLocations();
            storageIDs   = block.GetStorageIDs();
            storageTypes = block.GetStorageTypes();
            Assert.AssertThat(sortedLocs.Length, IS.Is(5));
            Assert.AssertThat(storageIDs.Length, IS.Is(5));
            Assert.AssertThat(storageTypes.Length, IS.Is(5));
            for (int i_1 = 0; i_1 < sortedLocs.Length; i_1++)
            {
                Assert.AssertThat(((DatanodeInfoWithStorage)sortedLocs[i_1]).GetStorageID(), IS.Is
                                      (storageIDs[i_1]));
                Assert.AssertThat(((DatanodeInfoWithStorage)sortedLocs[i_1]).GetStorageType(), IS.Is
                                      (storageTypes[i_1]));
            }
            // Ensure the local node is first.
            Assert.AssertThat(sortedLocs[0].GetIpAddr(), IS.Is(targetIp));
            // Ensure the two decommissioned DNs were moved to the end.
            Assert.AssertThat(sortedLocs[sortedLocs.Length - 1].GetAdminState(), IS.Is(DatanodeInfo.AdminStates
                                                                                       .Decommissioned));
            Assert.AssertThat(sortedLocs[sortedLocs.Length - 2].GetAdminState(), IS.Is(DatanodeInfo.AdminStates
                                                                                       .Decommissioned));
        }
Exemplo n.º 30
0
        /* check if there are at least two nodes are on the same rack */
        /// <exception cref="System.IO.IOException"/>
        private void CheckFile(FileSystem fileSys, Path name, int repl)
        {
            Configuration  conf     = fileSys.GetConf();
            ClientProtocol namenode = NameNodeProxies.CreateProxy <ClientProtocol>(conf, fileSys
                                                                                   .GetUri()).GetProxy();

            WaitForBlockReplication(name.ToString(), namenode, Math.Min(numDatanodes, repl),
                                    -1);
            LocatedBlocks locations = namenode.GetBlockLocations(name.ToString(), 0, long.MaxValue
                                                                 );
            FileStatus stat = fileSys.GetFileStatus(name);

            BlockLocation[] blockLocations = fileSys.GetFileBlockLocations(stat, 0L, long.MaxValue
                                                                           );
            // verify that rack locations match
            NUnit.Framework.Assert.IsTrue(blockLocations.Length == locations.LocatedBlockCount
                                              ());
            for (int i = 0; i < blockLocations.Length; i++)
            {
                LocatedBlock   blk           = locations.Get(i);
                DatanodeInfo[] datanodes     = blk.GetLocations();
                string[]       topologyPaths = blockLocations[i].GetTopologyPaths();
                NUnit.Framework.Assert.IsTrue(topologyPaths.Length == datanodes.Length);
                for (int j = 0; j < topologyPaths.Length; j++)
                {
                    bool found = false;
                    for (int k = 0; k < racks.Length; k++)
                    {
                        if (topologyPaths[j].StartsWith(racks[k]))
                        {
                            found = true;
                            break;
                        }
                    }
                    NUnit.Framework.Assert.IsTrue(found);
                }
            }
            bool isOnSameRack    = true;
            bool isNotOnSameRack = true;

            foreach (LocatedBlock blk_1 in locations.GetLocatedBlocks())
            {
                DatanodeInfo[] datanodes = blk_1.GetLocations();
                if (datanodes.Length <= 1)
                {
                    break;
                }
                if (datanodes.Length == 2)
                {
                    isNotOnSameRack = !(datanodes[0].GetNetworkLocation().Equals(datanodes[1].GetNetworkLocation
                                                                                     ()));
                    break;
                }
                isOnSameRack    = false;
                isNotOnSameRack = false;
                for (int i_1 = 0; i_1 < datanodes.Length - 1; i_1++)
                {
                    Log.Info("datanode " + i_1 + ": " + datanodes[i_1]);
                    bool onRack = false;
                    for (int j = i_1 + 1; j < datanodes.Length; j++)
                    {
                        if (datanodes[i_1].GetNetworkLocation().Equals(datanodes[j].GetNetworkLocation()))
                        {
                            onRack = true;
                        }
                    }
                    if (onRack)
                    {
                        isOnSameRack = true;
                    }
                    if (!onRack)
                    {
                        isNotOnSameRack = true;
                    }
                    if (isOnSameRack && isNotOnSameRack)
                    {
                        break;
                    }
                }
                if (!isOnSameRack || !isNotOnSameRack)
                {
                    break;
                }
            }
            NUnit.Framework.Assert.IsTrue(isOnSameRack);
            NUnit.Framework.Assert.IsTrue(isNotOnSameRack);
        }