Beispiel #1
0
        /// <summary>Adjust rackmap, moreThanOne, and exactlyOne after removing replica on cur.
        ///     </summary>
        /// <param name="rackMap">a map from rack to replica</param>
        /// <param name="moreThanOne">
        /// The List of replica nodes on rack which has more than
        /// one replica
        /// </param>
        /// <param name="exactlyOne">The List of replica nodes on rack with only one replica</param>
        /// <param name="cur">current replica to remove</param>
        public virtual void AdjustSetsWithChosenReplica(IDictionary <string, IList <DatanodeStorageInfo
                                                                                    > > rackMap, IList <DatanodeStorageInfo> moreThanOne, IList <DatanodeStorageInfo> exactlyOne
                                                        , DatanodeStorageInfo cur)
        {
            string rack = GetRack(cur.GetDatanodeDescriptor());
            IList <DatanodeStorageInfo> storages = rackMap[rack];

            storages.Remove(cur);
            if (storages.IsEmpty())
            {
                Sharpen.Collections.Remove(rackMap, rack);
            }
            if (moreThanOne.Remove(cur))
            {
                if (storages.Count == 1)
                {
                    DatanodeStorageInfo remaining = storages[0];
                    moreThanOne.Remove(remaining);
                    exactlyOne.AddItem(remaining);
                }
            }
            else
            {
                exactlyOne.Remove(cur);
            }
        }
Beispiel #2
0
        internal virtual void AddReplicaIfNotPresent(DatanodeStorageInfo storage, Block block
                                                     , HdfsServerConstants.ReplicaState rState)
        {
            IEnumerator <BlockInfoContiguousUnderConstruction.ReplicaUnderConstruction> it = replicas
                                                                                             .GetEnumerator();

            while (it.HasNext())
            {
                BlockInfoContiguousUnderConstruction.ReplicaUnderConstruction r = it.Next();
                DatanodeStorageInfo expectedLocation = r.GetExpectedStorageLocation();
                if (expectedLocation == storage)
                {
                    // Record the gen stamp from the report
                    r.SetGenerationStamp(block.GetGenerationStamp());
                    return;
                }
                else
                {
                    if (expectedLocation != null && expectedLocation.GetDatanodeDescriptor() == storage
                        .GetDatanodeDescriptor())
                    {
                        // The Datanode reported that the block is on a different storage
                        // than the one chosen by BlockPlacementPolicy. This can occur as
                        // we allow Datanodes to choose the target storage. Update our
                        // state by removing the stale entry and adding a new one.
                        it.Remove();
                        break;
                    }
                }
            }
            replicas.AddItem(new BlockInfoContiguousUnderConstruction.ReplicaUnderConstruction
                                 (block, storage, rState));
        }
        public virtual void TestInitializeBlockRecovery()
        {
            DatanodeStorageInfo s1  = DFSTestUtil.CreateDatanodeStorageInfo("10.10.1.1", "s1");
            DatanodeDescriptor  dd1 = s1.GetDatanodeDescriptor();
            DatanodeStorageInfo s2  = DFSTestUtil.CreateDatanodeStorageInfo("10.10.1.2", "s2");
            DatanodeDescriptor  dd2 = s2.GetDatanodeDescriptor();
            DatanodeStorageInfo s3  = DFSTestUtil.CreateDatanodeStorageInfo("10.10.1.3", "s3");
            DatanodeDescriptor  dd3 = s3.GetDatanodeDescriptor();

            dd1.isAlive = dd2.isAlive = dd3.isAlive = true;
            BlockInfoContiguousUnderConstruction blockInfo = new BlockInfoContiguousUnderConstruction
                                                                 (new Block(0, 0, GenerationStamp.LastReservedStamp), (short)3, HdfsServerConstants.BlockUCState
                                                                 .UnderConstruction, new DatanodeStorageInfo[] { s1, s2, s3 });

            // Recovery attempt #1.
            DFSTestUtil.ResetLastUpdatesWithOffset(dd1, -3 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd2, -1 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd3, -2 * 1000);
            blockInfo.InitializeBlockRecovery(1);
            BlockInfoContiguousUnderConstruction[] blockInfoRecovery = dd2.GetLeaseRecoveryCommand
                                                                           (1);
            NUnit.Framework.Assert.AreEqual(blockInfoRecovery[0], blockInfo);
            // Recovery attempt #2.
            DFSTestUtil.ResetLastUpdatesWithOffset(dd1, -2 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd2, -1 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd3, -3 * 1000);
            blockInfo.InitializeBlockRecovery(2);
            blockInfoRecovery = dd1.GetLeaseRecoveryCommand(1);
            NUnit.Framework.Assert.AreEqual(blockInfoRecovery[0], blockInfo);
            // Recovery attempt #3.
            DFSTestUtil.ResetLastUpdatesWithOffset(dd1, -2 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd2, -1 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd3, -3 * 1000);
            blockInfo.InitializeBlockRecovery(3);
            blockInfoRecovery = dd3.GetLeaseRecoveryCommand(1);
            NUnit.Framework.Assert.AreEqual(blockInfoRecovery[0], blockInfo);
            // Recovery attempt #4.
            // Reset everything. And again pick DN with most recent heart beat.
            DFSTestUtil.ResetLastUpdatesWithOffset(dd1, -2 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd2, -1 * 1000);
            DFSTestUtil.ResetLastUpdatesWithOffset(dd3, 0);
            blockInfo.InitializeBlockRecovery(3);
            blockInfoRecovery = dd3.GetLeaseRecoveryCommand(1);
            NUnit.Framework.Assert.AreEqual(blockInfoRecovery[0], blockInfo);
        }
        /// <summary>Find specified DatanodeStorageInfo.</summary>
        /// <returns>DatanodeStorageInfo or null if not found.</returns>
        internal virtual DatanodeStorageInfo FindStorageInfo(DatanodeDescriptor dn)
        {
            int len = GetCapacity();

            for (int idx = 0; idx < len; idx++)
            {
                DatanodeStorageInfo cur = GetStorageInfo(idx);
                if (cur == null)
                {
                    break;
                }
                if (cur.GetDatanodeDescriptor() == dn)
                {
                    return(cur);
                }
            }
            return(null);
        }
Beispiel #5
0
        public virtual void TestReplaceStorage()
        {
            // Create two dummy storages.
            DatanodeStorageInfo storage1 = DFSTestUtil.CreateDatanodeStorageInfo("storageID1"
                                                                                 , "127.0.0.1");
            DatanodeStorageInfo storage2 = new DatanodeStorageInfo(storage1.GetDatanodeDescriptor
                                                                       (), new DatanodeStorage("storageID2"));
            int NumBlocks = 10;

            BlockInfoContiguous[] blockInfos = new BlockInfoContiguous[NumBlocks];
            // Create a few dummy blocks and add them to the first storage.
            for (int i = 0; i < NumBlocks; ++i)
            {
                blockInfos[i] = new BlockInfoContiguous((short)3);
                storage1.AddBlock(blockInfos[i]);
            }
            // Try to move one of the blocks to a different storage.
            bool added = storage2.AddBlock(blockInfos[NumBlocks / 2]) == DatanodeStorageInfo.AddBlockResult
                         .Added;

            Assert.AssertThat(added, IS.Is(false));
            Assert.AssertThat(blockInfos[NumBlocks / 2].GetStorageInfo(0), IS.Is(storage2));
        }
        public virtual DatanodeDescriptor GetDatanode(int index)
        {
            DatanodeStorageInfo storage = GetStorageInfo(index);

            return(storage == null ? null : storage.GetDatanodeDescriptor());
        }
 private bool IsOnSameNodeGroup(DatanodeDescriptor left, DatanodeStorageInfo right
                                )
 {
     return(cluster.IsOnSameNodeGroup(left, right.GetDatanodeDescriptor()));
 }
 private bool IsOnSameNodeGroup(DatanodeStorageInfo left, DatanodeStorageInfo right
                                )
 {
     return(IsOnSameNodeGroup(left.GetDatanodeDescriptor(), right));
 }
Beispiel #9
0
        /// <summary>
        /// Regression test for HDFS-7960.<p/>
        /// Shutting down a datanode, removing a storage directory, and restarting
        /// the DataNode should not produce zombie storages.
        /// </summary>
        /// <exception cref="System.Exception"/>
        public virtual void TestRemovingStorageDoesNotProduceZombies()
        {
            Configuration conf = new HdfsConfiguration();

            conf.SetInt(DFSConfigKeys.DfsDatanodeFailedVolumesToleratedKey, 1);
            int            NumStoragesPerDn = 2;
            MiniDFSCluster cluster          = new MiniDFSCluster.Builder(conf).NumDataNodes(3).StoragesPerDatanode
                                                  (NumStoragesPerDn).Build();

            try
            {
                cluster.WaitActive();
                foreach (DataNode dn in cluster.GetDataNodes())
                {
                    NUnit.Framework.Assert.AreEqual(NumStoragesPerDn, cluster.GetNamesystem().GetBlockManager
                                                        ().GetDatanodeManager().GetDatanode(dn.GetDatanodeId()).GetStorageInfos().Length
                                                    );
                }
                // Create a file which will end up on all 3 datanodes.
                Path TestPath            = new Path("/foo1");
                DistributedFileSystem fs = cluster.GetFileSystem();
                DFSTestUtil.CreateFile(fs, TestPath, 1024, (short)3, unchecked ((int)(0xcafecafe))
                                       );
                foreach (DataNode dn_1 in cluster.GetDataNodes())
                {
                    DataNodeTestUtils.TriggerBlockReport(dn_1);
                }
                ExtendedBlock block = DFSTestUtil.GetFirstBlock(fs, new Path("/foo1"));
                cluster.GetNamesystem().WriteLock();
                string storageIdToRemove;
                string datanodeUuid;
                // Find the first storage which this block is in.
                try
                {
                    IEnumerator <DatanodeStorageInfo> storageInfoIter = cluster.GetNamesystem().GetBlockManager
                                                                            ().GetStorages(block.GetLocalBlock()).GetEnumerator();
                    NUnit.Framework.Assert.IsTrue(storageInfoIter.HasNext());
                    DatanodeStorageInfo info = storageInfoIter.Next();
                    storageIdToRemove = info.GetStorageID();
                    datanodeUuid      = info.GetDatanodeDescriptor().GetDatanodeUuid();
                }
                finally
                {
                    cluster.GetNamesystem().WriteUnlock();
                }
                // Find the DataNode which holds that first storage.
                DataNode datanodeToRemoveStorageFrom;
                int      datanodeToRemoveStorageFromIdx = 0;
                while (true)
                {
                    if (datanodeToRemoveStorageFromIdx >= cluster.GetDataNodes().Count)
                    {
                        NUnit.Framework.Assert.Fail("failed to find datanode with uuid " + datanodeUuid);
                        datanodeToRemoveStorageFrom = null;
                        break;
                    }
                    DataNode dn_2 = cluster.GetDataNodes()[datanodeToRemoveStorageFromIdx];
                    if (dn_2.GetDatanodeUuid().Equals(datanodeUuid))
                    {
                        datanodeToRemoveStorageFrom = dn_2;
                        break;
                    }
                    datanodeToRemoveStorageFromIdx++;
                }
                // Find the volume within the datanode which holds that first storage.
                IList <FsVolumeSpi> volumes = datanodeToRemoveStorageFrom.GetFSDataset().GetVolumes
                                                  ();
                NUnit.Framework.Assert.AreEqual(NumStoragesPerDn, volumes.Count);
                string volumeDirectoryToRemove = null;
                foreach (FsVolumeSpi volume in volumes)
                {
                    if (volume.GetStorageID().Equals(storageIdToRemove))
                    {
                        volumeDirectoryToRemove = volume.GetBasePath();
                    }
                }
                // Shut down the datanode and remove the volume.
                // Replace the volume directory with a regular file, which will
                // cause a volume failure.  (If we merely removed the directory,
                // it would be re-initialized with a new storage ID.)
                NUnit.Framework.Assert.IsNotNull(volumeDirectoryToRemove);
                datanodeToRemoveStorageFrom.Shutdown();
                FileUtil.FullyDelete(new FilePath(volumeDirectoryToRemove));
                FileOutputStream fos = new FileOutputStream(volumeDirectoryToRemove);
                try
                {
                    fos.Write(1);
                }
                finally
                {
                    fos.Close();
                }
                cluster.RestartDataNode(datanodeToRemoveStorageFromIdx);
                // Wait for the NameNode to remove the storage.
                Log.Info("waiting for the datanode to remove " + storageIdToRemove);
                GenericTestUtils.WaitFor(new _Supplier_227(cluster, datanodeToRemoveStorageFrom,
                                                           storageIdToRemove, NumStoragesPerDn), 10, 30000);
            }
            finally
            {
                if (cluster != null)
                {
                    cluster.Shutdown();
                }
            }
        }
Beispiel #10
0
 public override string ToString()
 {
     return("ReportedBlockInfo [block=" + block + ", dn=" + storageInfo.GetDatanodeDescriptor
                () + ", reportedState=" + reportedState + "]");
 }
Beispiel #11
0
 /// <summary>Is data-node the replica belongs to alive.</summary>
 internal virtual bool IsAlive()
 {
     return(expectedLocation.GetDatanodeDescriptor().isAlive);
 }