/**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.hdfs;
import static org.apache.hadoop.fs.CommonConfigurationKeysPublic.HADOOP_SECURITY_CRYPTO_CODEC_CLASSES_KEY_PREFIX;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_BLOCK_SIZE_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_BLOCK_SIZE_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_BYTES_PER_CHECKSUM_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_BYTES_PER_CHECKSUM_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_BLOCK_WRITE_LOCATEFOLLOWINGBLOCK_RETRIES_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_BLOCK_WRITE_LOCATEFOLLOWINGBLOCK_RETRIES_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_BLOCK_WRITE_RETRIES_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_BLOCK_WRITE_RETRIES_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CACHED_CONN_RETRY_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CACHED_CONN_RETRY_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CACHE_DROP_BEHIND_READS;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CACHE_DROP_BEHIND_WRITES;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CACHE_READAHEAD;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CONTEXT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_CONTEXT_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_DATANODE_RESTART_TIMEOUT_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_DATANODE_RESTART_TIMEOUT_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_FAILOVER_MAX_ATTEMPTS_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_FAILOVER_MAX_ATTEMPTS_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_FAILOVER_SLEEPTIME_BASE_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_FAILOVER_SLEEPTIME_BASE_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_FAILOVER_SLEEPTIME_MAX_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_FAILOVER_SLEEPTIME_MAX_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_MAX_BLOCK_ACQUIRE_FAILURES_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_MAX_BLOCK_ACQUIRE_FAILURES_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_READ_PREFETCH_SIZE_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_RETRY_MAX_ATTEMPTS_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_RETRY_MAX_ATTEMPTS_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_RETRY_WINDOW_BASE;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_CACHE_CAPACITY_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_CACHE_CAPACITY_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_CACHE_EXPIRY_MSEC_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_CACHE_EXPIRY_MSEC_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_SEND_BUFFER_SIZE_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_SEND_BUFFER_SIZE_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_SOCKET_TIMEOUT_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_USE_DN_HOSTNAME;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_USE_DN_HOSTNAME_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_WRITE_EXCLUDE_NODES_CACHE_EXPIRY_INTERVAL;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_WRITE_EXCLUDE_NODES_CACHE_EXPIRY_INTERVAL_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_WRITE_PACKET_SIZE_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_CLIENT_WRITE_PACKET_SIZE_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_DATANODE_SOCKET_WRITE_TIMEOUT_KEY;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_REPLICATION_DEFAULT;
import static org.apache.hadoop.hdfs.DFSConfigKeys.DFS_REPLICATION_KEY;
import java.io.BufferedOutputStream;
import java.io.DataInputStream;
import java.io.DataOutputStream;
import java.io.FileNotFoundException;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.Socket;
import java.net.SocketAddress;
import java.net.URI;
import java.net.UnknownHostException;
import java.nio.charset.Charset;
import java.security.GeneralSecurityException;
import java.util.ArrayList;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import java.util.Random;
import java.util.concurrent.SynchronousQueue;
import java.util.concurrent.ThreadPoolExecutor;
import java.util.concurrent.TimeUnit;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import javax.net.SocketFactory;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.HadoopIllegalArgumentException;
import org.apache.hadoop.classification.InterfaceAudience;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.crypto.CipherSuite;
import org.apache.hadoop.crypto.CryptoCodec;
import org.apache.hadoop.crypto.CryptoInputStream;
import org.apache.hadoop.crypto.CryptoOutputStream;
import org.apache.hadoop.crypto.CryptoProtocolVersion;
import org.apache.hadoop.crypto.key.KeyProvider;
import org.apache.hadoop.crypto.key.KeyProvider.KeyVersion;
import org.apache.hadoop.crypto.key.KeyProviderCryptoExtension;
import org.apache.hadoop.crypto.key.KeyProviderCryptoExtension.EncryptedKeyVersion;
import org.apache.hadoop.fs.BlockLocation;
import org.apache.hadoop.fs.BlockStorageLocation;
import org.apache.hadoop.fs.CacheFlag;
import org.apache.hadoop.fs.CommonConfigurationKeysPublic;
import org.apache.hadoop.fs.ContentSummary;
import org.apache.hadoop.fs.CreateFlag;
import org.apache.hadoop.fs.FileAlreadyExistsException;
import org.apache.hadoop.fs.FileEncryptionInfo;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.FsServerDefaults;
import org.apache.hadoop.fs.FsStatus;
import org.apache.hadoop.fs.HdfsBlockLocation;
import org.apache.hadoop.fs.InvalidPathException;
import org.apache.hadoop.fs.MD5MD5CRC32CastagnoliFileChecksum;
import org.apache.hadoop.fs.MD5MD5CRC32FileChecksum;
import org.apache.hadoop.fs.MD5MD5CRC32GzipFileChecksum;
import org.apache.hadoop.fs.Options;
import org.apache.hadoop.fs.Options.ChecksumOpt;
import org.apache.hadoop.fs.ParentNotDirectoryException;
import org.apache.hadoop.fs.Path;
import org.apache.hadoop.fs.QuotaUsage;
import org.apache.hadoop.fs.StorageType;
import org.apache.hadoop.fs.RemoteIterator;
import org.apache.hadoop.fs.UnresolvedLinkException;
import org.apache.hadoop.fs.VolumeId;
import org.apache.hadoop.fs.XAttr;
import org.apache.hadoop.fs.XAttrSetFlag;
import org.apache.hadoop.fs.permission.AclEntry;
import org.apache.hadoop.fs.permission.AclStatus;
import org.apache.hadoop.fs.permission.FsAction;
import org.apache.hadoop.fs.permission.FsPermission;
import org.apache.hadoop.hdfs.client.HdfsDataInputStream;
import org.apache.hadoop.hdfs.client.HdfsDataOutputStream;
import org.apache.hadoop.hdfs.net.Peer;
import org.apache.hadoop.hdfs.net.TcpPeerServer;
import org.apache.hadoop.hdfs.protocol.AclException;
import org.apache.hadoop.hdfs.protocol.BlockStoragePolicy;
import org.apache.hadoop.hdfs.protocol.CacheDirectiveEntry;
import org.apache.hadoop.hdfs.protocol.CacheDirectiveInfo;
import org.apache.hadoop.hdfs.protocol.CacheDirectiveIterator;
import org.apache.hadoop.hdfs.protocol.CachePoolEntry;
import org.apache.hadoop.hdfs.protocol.CachePoolInfo;
import org.apache.hadoop.hdfs.protocol.CachePoolIterator;
import org.apache.hadoop.hdfs.protocol.ClientProtocol;
import org.apache.hadoop.hdfs.protocol.CorruptFileBlocks;
import org.apache.hadoop.hdfs.protocol.DSQuotaExceededException;
import org.apache.hadoop.hdfs.protocol.DatanodeID;
import org.apache.hadoop.hdfs.protocol.DatanodeInfo;
import org.apache.hadoop.hdfs.protocol.DirectoryListing;
import org.apache.hadoop.hdfs.protocol.EncryptionZone;
import org.apache.hadoop.hdfs.protocol.EncryptionZoneIterator;
import org.apache.hadoop.hdfs.protocol.ExtendedBlock;
import org.apache.hadoop.hdfs.protocol.HdfsBlocksMetadata;
import org.apache.hadoop.hdfs.protocol.HdfsConstants;
import org.apache.hadoop.hdfs.protocol.HdfsConstants.DatanodeReportType;
import org.apache.hadoop.hdfs.protocol.HdfsConstants.RollingUpgradeAction;
import org.apache.hadoop.hdfs.protocol.HdfsConstants.SafeModeAction;
import org.apache.hadoop.hdfs.protocol.HdfsFileStatus;
import org.apache.hadoop.hdfs.protocol.LastBlockWithStatus;
import org.apache.hadoop.hdfs.protocol.LocatedBlock;
import org.apache.hadoop.hdfs.protocol.LocatedBlocks;
import org.apache.hadoop.hdfs.protocol.NSQuotaExceededException;
import org.apache.hadoop.hdfs.protocol.QuotaByStorageTypeExceededException;
import org.apache.hadoop.hdfs.protocol.RollingUpgradeInfo;
import org.apache.hadoop.hdfs.protocol.SnapshotAccessControlException;
import org.apache.hadoop.hdfs.protocol.SnapshotDiffReport;
import org.apache.hadoop.hdfs.protocol.SnapshottableDirectoryStatus;
import org.apache.hadoop.hdfs.protocol.UnresolvedPathException;
import org.apache.hadoop.hdfs.protocol.datatransfer.DataTransferProtoUtil;
import org.apache.hadoop.hdfs.protocol.datatransfer.IOStreamPair;
import org.apache.hadoop.hdfs.protocol.datatransfer.Op;
import org.apache.hadoop.hdfs.protocol.datatransfer.ReplaceDatanodeOnFailure;
import org.apache.hadoop.hdfs.protocol.datatransfer.Sender;
import org.apache.hadoop.hdfs.protocol.datatransfer.TrustedChannelResolver;
import org.apache.hadoop.hdfs.protocol.datatransfer.sasl.DataEncryptionKeyFactory;
import org.apache.hadoop.hdfs.protocol.datatransfer.sasl.DataTransferSaslUtil;
import org.apache.hadoop.hdfs.protocol.datatransfer.sasl.SaslDataTransferClient;
import org.apache.hadoop.hdfs.protocol.proto.DataTransferProtos.BlockOpResponseProto;
import org.apache.hadoop.hdfs.protocol.proto.DataTransferProtos.OpBlockChecksumResponseProto;
import org.apache.hadoop.hdfs.protocol.proto.DataTransferProtos.Status;
import org.apache.hadoop.hdfs.protocolPB.PBHelper;
import org.apache.hadoop.hdfs.security.token.block.BlockTokenIdentifier;
import org.apache.hadoop.hdfs.security.token.block.DataEncryptionKey;
import org.apache.hadoop.hdfs.security.token.block.InvalidBlockTokenException;
import org.apache.hadoop.hdfs.security.token.delegation.DelegationTokenIdentifier;
import org.apache.hadoop.hdfs.server.common.HdfsServerConstants;
import org.apache.hadoop.hdfs.server.datanode.CachingStrategy;
import org.apache.hadoop.hdfs.server.namenode.NameNode;
import org.apache.hadoop.hdfs.server.namenode.SafeModeException;
import org.apache.hadoop.hdfs.server.protocol.DatanodeStorageReport;
import org.apache.hadoop.hdfs.util.ByteArrayManager;
import org.apache.hadoop.io.DataOutputBuffer;
import org.apache.hadoop.io.EnumSetWritable;
import org.apache.hadoop.io.IOUtils;
import org.apache.hadoop.io.MD5Hash;
import org.apache.hadoop.io.Text;
import org.apache.hadoop.io.retry.LossyRetryInvocationHandler;
import org.apache.hadoop.ipc.Client;
import org.apache.hadoop.ipc.RPC;
import org.apache.hadoop.ipc.RemoteException;
import org.apache.hadoop.ipc.RpcNoSuchMethodException;
import org.apache.hadoop.net.DNS;
import org.apache.hadoop.net.NetUtils;
import org.apache.hadoop.security.AccessControlException;
import org.apache.hadoop.security.UserGroupInformation;
import org.apache.hadoop.security.token.SecretManager.InvalidToken;
import org.apache.hadoop.security.token.Token;
import org.apache.hadoop.security.token.TokenRenewer;
import org.apache.hadoop.tracing.SpanReceiverHost;
import org.apache.hadoop.tracing.TraceUtils;
import org.apache.hadoop.util.Daemon;
import org.apache.hadoop.util.DataChecksum;
import org.apache.hadoop.util.DataChecksum.Type;
import org.apache.hadoop.util.Progressable;
import org.apache.hadoop.util.Time;
import org.apache.htrace.Sampler;
import org.apache.htrace.SamplerBuilder;
import org.apache.htrace.Span;
import org.apache.htrace.Trace;
import org.apache.htrace.TraceScope;
import com.google.common.annotations.VisibleForTesting;
import com.google.common.base.Joiner;
import com.google.common.base.Preconditions;
import com.google.common.collect.Lists;
import com.google.common.net.InetAddresses;
/********************************************************
* DFSClient can connect to a Hadoop Filesystem and
* perform basic file tasks. It uses the ClientProtocol
* to communicate with a NameNode daemon, and connects
* directly to DataNodes to read/write block data.
*
* Hadoop DFS users should obtain an instance of
* DistributedFileSystem, which uses DFSClient to handle
* filesystem tasks.
*
********************************************************/
@InterfaceAudience.Private
public class DFSClient implements java.io.Closeable, RemotePeerFactory,
DataEncryptionKeyFactory {
public static final Log LOG = LogFactory.getLog(DFSClient.class);
public static final long SERVER_DEFAULTS_VALIDITY_PERIOD = 60 * 60 * 1000L; // 1 hour
static final int TCP_WINDOW_SIZE = 128 * 1024; // 128 KB
private final Configuration conf;
private final Conf dfsClientConf;
final ClientProtocol namenode;
/* The service used for delegation tokens */
private Text dtService;
final UserGroupInformation ugi;
volatile boolean clientRunning = true;
volatile long lastLeaseRenewal;
private volatile FsServerDefaults serverDefaults;
private volatile long serverDefaultsLastUpdate;
final String clientName;
final SocketFactory socketFactory;
final ReplaceDatanodeOnFailure dtpReplaceDatanodeOnFailure;
final FileSystem.Statistics stats;
private final String authority;
private final Random r = new Random();
private SocketAddress[] localInterfaceAddrs;
private DataEncryptionKey encryptionKey;
final SaslDataTransferClient saslClient;
private final CachingStrategy defaultReadCachingStrategy;
private final CachingStrategy defaultWriteCachingStrategy;
private final ClientContext clientContext;
private volatile long hedgedReadThresholdMillis;
private static final DFSHedgedReadMetrics HEDGED_READ_METRIC =
new DFSHedgedReadMetrics();
private static ThreadPoolExecutor HEDGED_READ_THREAD_POOL;
private final Sampler<?> traceSampler;
/**
* DFSClient configuration
*/
public static class Conf {
final int hdfsTimeout; // timeout value for a DFS operation.
final int maxFailoverAttempts;
final int maxRetryAttempts;
final int failoverSleepBaseMillis;
final int failoverSleepMaxMillis;
final int maxBlockAcquireFailures;
final int confTime;
final int ioBufferSize;
final ChecksumOpt defaultChecksumOpt;
final int writePacketSize;
final int writeMaxPackets;
final ByteArrayManager.Conf writeByteArrayManagerConf;
final int socketTimeout;
final int socketSendBufferSize;
final int socketCacheCapacity;
final long socketCacheExpiry;
final long excludedNodesCacheExpiry;
/** Wait time window (in msec) if BlockMissingException is caught */
final int timeWindow;
final int nCachedConnRetry;
final int nBlockWriteRetry;
final int nBlockWriteLocateFollowingRetry;
final long defaultBlockSize;
final long prefetchSize;
final short defaultReplication;
final String taskId;
final FsPermission uMask;
final boolean connectToDnViaHostname;
final boolean getHdfsBlocksMetadataEnabled;
final int getFileBlockStorageLocationsNumThreads;
final int getFileBlockStorageLocationsTimeoutMs;
final int retryTimesForGetLastBlockLength;
final int retryIntervalForGetLastBlockLength;
final long datanodeRestartTimeout;
final long dfsclientSlowIoWarningThresholdMs;
final boolean useLegacyBlockReader;
final boolean useLegacyBlockReaderLocal;
final String domainSocketPath;
final boolean skipShortCircuitChecksums;
final int shortCircuitBufferSize;
final boolean shortCircuitLocalReads;
final boolean domainSocketDataTraffic;
final int shortCircuitStreamsCacheSize;
final long shortCircuitStreamsCacheExpiryMs;
final int shortCircuitSharedMemoryWatcherInterruptCheckMs;
final boolean shortCircuitMmapEnabled;
final int shortCircuitMmapCacheSize;
final long shortCircuitMmapCacheExpiryMs;
final long shortCircuitMmapCacheRetryTimeout;
final long shortCircuitCacheStaleThresholdMs;
final long keyProviderCacheExpiryMs;
public BlockReaderFactory.FailureInjector brfFailureInjector =
new BlockReaderFactory.FailureInjector();
final boolean dataTransferTcpNoDelay;
public Conf(Configuration conf) {
// The hdfsTimeout is currently the same as the ipc timeout
hdfsTimeout = Client.getTimeout(conf);
maxFailoverAttempts = conf.getInt(
DFS_CLIENT_FAILOVER_MAX_ATTEMPTS_KEY,
DFS_CLIENT_FAILOVER_MAX_ATTEMPTS_DEFAULT);
maxRetryAttempts = conf.getInt(
DFS_CLIENT_RETRY_MAX_ATTEMPTS_KEY,
DFS_CLIENT_RETRY_MAX_ATTEMPTS_DEFAULT);
failoverSleepBaseMillis = conf.getInt(
DFS_CLIENT_FAILOVER_SLEEPTIME_BASE_KEY,
DFS_CLIENT_FAILOVER_SLEEPTIME_BASE_DEFAULT);
failoverSleepMaxMillis = conf.getInt(
DFS_CLIENT_FAILOVER_SLEEPTIME_MAX_KEY,
DFS_CLIENT_FAILOVER_SLEEPTIME_MAX_DEFAULT);
maxBlockAcquireFailures = conf.getInt(
DFS_CLIENT_MAX_BLOCK_ACQUIRE_FAILURES_KEY,
DFS_CLIENT_MAX_BLOCK_ACQUIRE_FAILURES_DEFAULT);
confTime = conf.getInt(DFS_DATANODE_SOCKET_WRITE_TIMEOUT_KEY,
HdfsServerConstants.WRITE_TIMEOUT);
ioBufferSize = conf.getInt(
CommonConfigurationKeysPublic.IO_FILE_BUFFER_SIZE_KEY,
CommonConfigurationKeysPublic.IO_FILE_BUFFER_SIZE_DEFAULT);
defaultChecksumOpt = getChecksumOptFromConf(conf);
dataTransferTcpNoDelay = conf.getBoolean(
DFSConfigKeys.DFS_DATA_TRANSFER_CLIENT_TCPNODELAY_KEY,
DFSConfigKeys.DFS_DATA_TRANSFER_CLIENT_TCPNODELAY_DEFAULT);
socketTimeout = conf.getInt(DFS_CLIENT_SOCKET_TIMEOUT_KEY,
HdfsServerConstants.READ_TIMEOUT);
socketSendBufferSize = conf.getInt(
DFS_CLIENT_SOCKET_SEND_BUFFER_SIZE_KEY,
DFS_CLIENT_SOCKET_SEND_BUFFER_SIZE_DEFAULT);
/** dfs.write.packet.size is an internal config variable */
writePacketSize = conf.getInt(DFS_CLIENT_WRITE_PACKET_SIZE_KEY,
DFS_CLIENT_WRITE_PACKET_SIZE_DEFAULT);
writeMaxPackets = conf.getInt(
DFSConfigKeys.DFS_CLIENT_WRITE_MAX_PACKETS_IN_FLIGHT_KEY,
DFSConfigKeys.DFS_CLIENT_WRITE_MAX_PACKETS_IN_FLIGHT_DEFAULT);
final boolean byteArrayManagerEnabled = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_ENABLED_KEY,
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_ENABLED_DEFAULT);
if (!byteArrayManagerEnabled) {
writeByteArrayManagerConf = null;
} else {
final int countThreshold = conf.getInt(
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_COUNT_THRESHOLD_KEY,
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_COUNT_THRESHOLD_DEFAULT);
final int countLimit = conf.getInt(
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_COUNT_LIMIT_KEY,
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_COUNT_LIMIT_DEFAULT);
final long countResetTimePeriodMs = conf.getLong(
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_COUNT_RESET_TIME_PERIOD_MS_KEY,
DFSConfigKeys.DFS_CLIENT_WRITE_BYTE_ARRAY_MANAGER_COUNT_RESET_TIME_PERIOD_MS_DEFAULT);
writeByteArrayManagerConf = new ByteArrayManager.Conf(
countThreshold, countLimit, countResetTimePeriodMs);
}
defaultBlockSize = conf.getLongBytes(DFS_BLOCK_SIZE_KEY,
DFS_BLOCK_SIZE_DEFAULT);
defaultReplication = (short) conf.getInt(
DFS_REPLICATION_KEY, DFS_REPLICATION_DEFAULT);
taskId = conf.get("mapreduce.task.attempt.id", "NONMAPREDUCE");
socketCacheCapacity = conf.getInt(DFS_CLIENT_SOCKET_CACHE_CAPACITY_KEY,
DFS_CLIENT_SOCKET_CACHE_CAPACITY_DEFAULT);
socketCacheExpiry = conf.getLong(DFS_CLIENT_SOCKET_CACHE_EXPIRY_MSEC_KEY,
DFS_CLIENT_SOCKET_CACHE_EXPIRY_MSEC_DEFAULT);
excludedNodesCacheExpiry = conf.getLong(
DFS_CLIENT_WRITE_EXCLUDE_NODES_CACHE_EXPIRY_INTERVAL,
DFS_CLIENT_WRITE_EXCLUDE_NODES_CACHE_EXPIRY_INTERVAL_DEFAULT);
prefetchSize = conf.getLong(DFS_CLIENT_READ_PREFETCH_SIZE_KEY,
10 * defaultBlockSize);
timeWindow = conf.getInt(DFS_CLIENT_RETRY_WINDOW_BASE, 3000);
nCachedConnRetry = conf.getInt(DFS_CLIENT_CACHED_CONN_RETRY_KEY,
DFS_CLIENT_CACHED_CONN_RETRY_DEFAULT);
nBlockWriteRetry = conf.getInt(DFS_CLIENT_BLOCK_WRITE_RETRIES_KEY,
DFS_CLIENT_BLOCK_WRITE_RETRIES_DEFAULT);
nBlockWriteLocateFollowingRetry = conf.getInt(
DFS_CLIENT_BLOCK_WRITE_LOCATEFOLLOWINGBLOCK_RETRIES_KEY,
DFS_CLIENT_BLOCK_WRITE_LOCATEFOLLOWINGBLOCK_RETRIES_DEFAULT);
uMask = FsPermission.getUMask(conf);
connectToDnViaHostname = conf.getBoolean(DFS_CLIENT_USE_DN_HOSTNAME,
DFS_CLIENT_USE_DN_HOSTNAME_DEFAULT);
getHdfsBlocksMetadataEnabled = conf.getBoolean(
DFSConfigKeys.DFS_HDFS_BLOCKS_METADATA_ENABLED,
DFSConfigKeys.DFS_HDFS_BLOCKS_METADATA_ENABLED_DEFAULT);
getFileBlockStorageLocationsNumThreads = conf.getInt(
DFSConfigKeys.DFS_CLIENT_FILE_BLOCK_STORAGE_LOCATIONS_NUM_THREADS,
DFSConfigKeys.DFS_CLIENT_FILE_BLOCK_STORAGE_LOCATIONS_NUM_THREADS_DEFAULT);
getFileBlockStorageLocationsTimeoutMs = conf.getInt(
DFSConfigKeys.DFS_CLIENT_FILE_BLOCK_STORAGE_LOCATIONS_TIMEOUT_MS,
DFSConfigKeys.DFS_CLIENT_FILE_BLOCK_STORAGE_LOCATIONS_TIMEOUT_MS_DEFAULT);
retryTimesForGetLastBlockLength = conf.getInt(
DFSConfigKeys.DFS_CLIENT_RETRY_TIMES_GET_LAST_BLOCK_LENGTH,
DFSConfigKeys.DFS_CLIENT_RETRY_TIMES_GET_LAST_BLOCK_LENGTH_DEFAULT);
retryIntervalForGetLastBlockLength = conf.getInt(
DFSConfigKeys.DFS_CLIENT_RETRY_INTERVAL_GET_LAST_BLOCK_LENGTH,
DFSConfigKeys.DFS_CLIENT_RETRY_INTERVAL_GET_LAST_BLOCK_LENGTH_DEFAULT);
useLegacyBlockReader = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_USE_LEGACY_BLOCKREADER,
DFSConfigKeys.DFS_CLIENT_USE_LEGACY_BLOCKREADER_DEFAULT);
useLegacyBlockReaderLocal = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_USE_LEGACY_BLOCKREADERLOCAL,
DFSConfigKeys.DFS_CLIENT_USE_LEGACY_BLOCKREADERLOCAL_DEFAULT);
shortCircuitLocalReads = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_KEY,
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_DEFAULT);
domainSocketDataTraffic = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_DOMAIN_SOCKET_DATA_TRAFFIC,
DFSConfigKeys.DFS_CLIENT_DOMAIN_SOCKET_DATA_TRAFFIC_DEFAULT);
domainSocketPath = conf.getTrimmed(
DFSConfigKeys.DFS_DOMAIN_SOCKET_PATH_KEY,
DFSConfigKeys.DFS_DOMAIN_SOCKET_PATH_DEFAULT);
if (BlockReaderLocal.LOG.isDebugEnabled()) {
BlockReaderLocal.LOG.debug(
DFSConfigKeys.DFS_CLIENT_USE_LEGACY_BLOCKREADERLOCAL
+ " = " + useLegacyBlockReaderLocal);
BlockReaderLocal.LOG.debug(
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_KEY
+ " = " + shortCircuitLocalReads);
BlockReaderLocal.LOG.debug(
DFSConfigKeys.DFS_CLIENT_DOMAIN_SOCKET_DATA_TRAFFIC
+ " = " + domainSocketDataTraffic);
BlockReaderLocal.LOG.debug(
DFSConfigKeys.DFS_DOMAIN_SOCKET_PATH_KEY
+ " = " + domainSocketPath);
}
skipShortCircuitChecksums = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_SKIP_CHECKSUM_KEY,
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_SKIP_CHECKSUM_DEFAULT);
shortCircuitBufferSize = conf.getInt(
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_BUFFER_SIZE_KEY,
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_BUFFER_SIZE_DEFAULT);
shortCircuitStreamsCacheSize = conf.getInt(
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_STREAMS_CACHE_SIZE_KEY,
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_STREAMS_CACHE_SIZE_DEFAULT);
shortCircuitStreamsCacheExpiryMs = conf.getLong(
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_STREAMS_CACHE_EXPIRY_MS_KEY,
DFSConfigKeys.DFS_CLIENT_READ_SHORTCIRCUIT_STREAMS_CACHE_EXPIRY_MS_DEFAULT);
shortCircuitMmapEnabled = conf.getBoolean(
DFSConfigKeys.DFS_CLIENT_MMAP_ENABLED,
DFSConfigKeys.DFS_CLIENT_MMAP_ENABLED_DEFAULT);
shortCircuitMmapCacheSize = conf.getInt(
DFSConfigKeys.DFS_CLIENT_MMAP_CACHE_SIZE,
DFSConfigKeys.DFS_CLIENT_MMAP_CACHE_SIZE_DEFAULT);
shortCircuitMmapCacheExpiryMs = conf.getLong(
DFSConfigKeys.DFS_CLIENT_MMAP_CACHE_TIMEOUT_MS,
DFSConfigKeys.DFS_CLIENT_MMAP_CACHE_TIMEOUT_MS_DEFAULT);
shortCircuitMmapCacheRetryTimeout = conf.getLong(
DFSConfigKeys.DFS_CLIENT_MMAP_RETRY_TIMEOUT_MS,
DFSConfigKeys.DFS_CLIENT_MMAP_RETRY_TIMEOUT_MS_DEFAULT);
shortCircuitCacheStaleThresholdMs = conf.getLong(
DFSConfigKeys.DFS_CLIENT_SHORT_CIRCUIT_REPLICA_STALE_THRESHOLD_MS,
DFSConfigKeys.DFS_CLIENT_SHORT_CIRCUIT_REPLICA_STALE_THRESHOLD_MS_DEFAULT);
shortCircuitSharedMemoryWatcherInterruptCheckMs = conf.getInt(
DFSConfigKeys.DFS_SHORT_CIRCUIT_SHARED_MEMORY_WATCHER_INTERRUPT_CHECK_MS,
DFSConfigKeys.DFS_SHORT_CIRCUIT_SHARED_MEMORY_WATCHER_INTERRUPT_CHECK_MS_DEFAULT);
datanodeRestartTimeout = conf.getLong(
DFS_CLIENT_DATANODE_RESTART_TIMEOUT_KEY,
DFS_CLIENT_DATANODE_RESTART_TIMEOUT_DEFAULT) * 1000;
dfsclientSlowIoWarningThresholdMs = conf.getLong(
DFSConfigKeys.DFS_CLIENT_SLOW_IO_WARNING_THRESHOLD_KEY,
DFSConfigKeys.DFS_CLIENT_SLOW_IO_WARNING_THRESHOLD_DEFAULT);
keyProviderCacheExpiryMs = conf.getLong(
DFSConfigKeys.DFS_CLIENT_KEY_PROVIDER_CACHE_EXPIRY_MS,
DFSConfigKeys.DFS_CLIENT_KEY_PROVIDER_CACHE_EXPIRY_DEFAULT);
}
public boolean isUseLegacyBlockReaderLocal() {
return useLegacyBlockReaderLocal;
}
public String getDomainSocketPath() {
return domainSocketPath;
}
public boolean isShortCircuitLocalReads() {
return shortCircuitLocalReads;
}
public boolean isDomainSocketDataTraffic() {
return domainSocketDataTraffic;
}
private DataChecksum.Type getChecksumType(Configuration conf) {
final String checksum = conf.get(
DFSConfigKeys.DFS_CHECKSUM_TYPE_KEY,
DFSConfigKeys.DFS_CHECKSUM_TYPE_DEFAULT);
try {
return DataChecksum.Type.valueOf(checksum);
} catch(IllegalArgumentException iae) {
LOG.warn("Bad checksum type: " + checksum + ". Using default "
+ DFSConfigKeys.DFS_CHECKSUM_TYPE_DEFAULT);
return DataChecksum.Type.valueOf(
DFSConfigKeys.DFS_CHECKSUM_TYPE_DEFAULT);
}
}
// Construct a checksum option from conf
private ChecksumOpt getChecksumOptFromConf(Configuration conf) {
DataChecksum.Type type = getChecksumType(conf);
int bytesPerChecksum = conf.getInt(DFS_BYTES_PER_CHECKSUM_KEY,
DFS_BYTES_PER_CHECKSUM_DEFAULT);
return new ChecksumOpt(type, bytesPerChecksum);
}
// create a DataChecksum with the default option.
private DataChecksum createChecksum() throws IOException {
return createChecksum(null);
}
private DataChecksum createChecksum(ChecksumOpt userOpt) {
// Fill in any missing field with the default.
ChecksumOpt myOpt = ChecksumOpt.processChecksumOpt(
defaultChecksumOpt, userOpt);
DataChecksum dataChecksum = DataChecksum.newDataChecksum(
myOpt.getChecksumType(),
myOpt.getBytesPerChecksum());
if (dataChecksum == null) {
throw new HadoopIllegalArgumentException("Invalid checksum type: userOpt="
+ userOpt + ", default=" + defaultChecksumOpt
+ ", effective=null");
}
return dataChecksum;
}
}
public Conf getConf() {
return dfsClientConf;
}
Configuration getConfiguration() {
return conf;
}
/**
* A map from file names to {@link DFSOutputStream} objects
* that are currently being written by this client.
* Note that a file can only be written by a single client.
*/
private final Map<Long, DFSOutputStream> filesBeingWritten
= new HashMap<Long, DFSOutputStream>();
/**
* Same as this(NameNode.getAddress(conf), conf);
* @see #DFSClient(InetSocketAddress, Configuration)
* @deprecated Deprecated at 0.21
*/
@Deprecated
public DFSClient(Configuration conf) throws IOException {
this(NameNode.getAddress(conf), conf);
}
public DFSClient(InetSocketAddress address, Configuration conf) throws IOException {
this(NameNode.getUri(address), conf);
}
/**
* Same as this(nameNodeUri, conf, null);
* @see #DFSClient(URI, Configuration, FileSystem.Statistics)
*/
public DFSClient(URI nameNodeUri, Configuration conf
) throws IOException {
this(nameNodeUri, conf, null);
}
/**
* Same as this(nameNodeUri, null, conf, stats);
* @see #DFSClient(URI, ClientProtocol, Configuration, FileSystem.Statistics)
*/
public DFSClient(URI nameNodeUri, Configuration conf,
FileSystem.Statistics stats)
throws IOException {
this(nameNodeUri, null, conf, stats);
}
/**
* Create a new DFSClient connected to the given nameNodeUri or rpcNamenode.
* If HA is enabled and a positive value is set for
* {@link DFSConfigKeys#DFS_CLIENT_TEST_DROP_NAMENODE_RESPONSE_NUM_KEY} in the
* configuration, the DFSClient will use {@link LossyRetryInvocationHandler}
* as its RetryInvocationHandler. Otherwise one of nameNodeUri or rpcNamenode
* must be null.
*/
@VisibleForTesting
public DFSClient(URI nameNodeUri, ClientProtocol rpcNamenode,
Configuration conf, FileSystem.Statistics stats)
throws IOException {
SpanReceiverHost.get(conf, DFSConfigKeys.DFS_CLIENT_HTRACE_PREFIX);
traceSampler = new SamplerBuilder(TraceUtils.
wrapHadoopConf(DFSConfigKeys.DFS_CLIENT_HTRACE_PREFIX, conf)).build();
// Copy only the required DFSClient configuration
this.dfsClientConf = new Conf(conf);
if (this.dfsClientConf.useLegacyBlockReaderLocal) {
LOG.debug("Using legacy short-circuit local reads.");
}
this.conf = conf;
this.stats = stats;
this.socketFactory = NetUtils.getSocketFactory(conf, ClientProtocol.class);
this.dtpReplaceDatanodeOnFailure = ReplaceDatanodeOnFailure.get(conf);
this.ugi = UserGroupInformation.getCurrentUser();
this.authority = nameNodeUri == null? "null": nameNodeUri.getAuthority();
this.clientName = "DFSClient_" + dfsClientConf.taskId + "_" +
DFSUtil.getRandom().nextInt() + "_" + Thread.currentThread().getId();
int numResponseToDrop = conf.getInt(
DFSConfigKeys.DFS_CLIENT_TEST_DROP_NAMENODE_RESPONSE_NUM_KEY,
DFSConfigKeys.DFS_CLIENT_TEST_DROP_NAMENODE_RESPONSE_NUM_DEFAULT);
NameNodeProxies.ProxyAndInfo<ClientProtocol> proxyInfo = null;
AtomicBoolean nnFallbackToSimpleAuth = new AtomicBoolean(false);
if (numResponseToDrop > 0) {
// This case is used for testing.
LOG.warn(DFSConfigKeys.DFS_CLIENT_TEST_DROP_NAMENODE_RESPONSE_NUM_KEY
+ " is set to " + numResponseToDrop
+ ", this hacked client will proactively drop responses");
proxyInfo = NameNodeProxies.createProxyWithLossyRetryHandler(conf,
nameNodeUri, ClientProtocol.class, numResponseToDrop,
nnFallbackToSimpleAuth);
}
if (proxyInfo != null) {
this.dtService = proxyInfo.getDelegationTokenService();
this.namenode = proxyInfo.getProxy();
} else if (rpcNamenode != null) {
// This case is used for testing.
Preconditions.checkArgument(nameNodeUri == null);
this.namenode = rpcNamenode;
dtService = null;
} else {
Preconditions.checkArgument(nameNodeUri != null,
"null URI");
proxyInfo = NameNodeProxies.createProxy(conf, nameNodeUri,
ClientProtocol.class, nnFallbackToSimpleAuth);
this.dtService = proxyInfo.getDelegationTokenService();
this.namenode = proxyInfo.getProxy();
}
String localInterfaces[] =
conf.getTrimmedStrings(DFSConfigKeys.DFS_CLIENT_LOCAL_INTERFACES);
localInterfaceAddrs = getLocalInterfaceAddrs(localInterfaces);
if (LOG.isDebugEnabled() && 0 != localInterfaces.length) {
LOG.debug("Using local interfaces [" +
Joiner.on(',').join(localInterfaces)+ "] with addresses [" +
Joiner.on(',').join(localInterfaceAddrs) + "]");
}
Boolean readDropBehind = (conf.get(DFS_CLIENT_CACHE_DROP_BEHIND_READS) == null) ?
null : conf.getBoolean(DFS_CLIENT_CACHE_DROP_BEHIND_READS, false);
Long readahead = (conf.get(DFS_CLIENT_CACHE_READAHEAD) == null) ?
null : conf.getLong(DFS_CLIENT_CACHE_READAHEAD, 0);
Boolean writeDropBehind = (conf.get(DFS_CLIENT_CACHE_DROP_BEHIND_WRITES) == null) ?
null : conf.getBoolean(DFS_CLIENT_CACHE_DROP_BEHIND_WRITES, false);
this.defaultReadCachingStrategy =
new CachingStrategy(readDropBehind, readahead);
this.defaultWriteCachingStrategy =
new CachingStrategy(writeDropBehind, readahead);
this.clientContext = ClientContext.get(
conf.get(DFS_CLIENT_CONTEXT, DFS_CLIENT_CONTEXT_DEFAULT),
dfsClientConf);
this.hedgedReadThresholdMillis = conf.getLong(
DFSConfigKeys.DFS_DFSCLIENT_HEDGED_READ_THRESHOLD_MILLIS,
DFSConfigKeys.DEFAULT_DFSCLIENT_HEDGED_READ_THRESHOLD_MILLIS);
int numThreads = conf.getInt(
DFSConfigKeys.DFS_DFSCLIENT_HEDGED_READ_THREADPOOL_SIZE,
DFSConfigKeys.DEFAULT_DFSCLIENT_HEDGED_READ_THREADPOOL_SIZE);
if (numThreads > 0) {
this.initThreadsNumForHedgedReads(numThreads);
}
this.saslClient = new SaslDataTransferClient(
conf, DataTransferSaslUtil.getSaslPropertiesResolver(conf),
TrustedChannelResolver.getInstance(conf), nnFallbackToSimpleAuth);
}
/**
* Return the socket addresses to use with each configured
* local interface. Local interfaces may be specified by IP
* address, IP address range using CIDR notation, interface
* name (e.g. eth0) or sub-interface name (e.g. eth0:0).
* The socket addresses consist of the IPs for the interfaces
* and the ephemeral port (port 0). If an IP, IP range, or
* interface name matches an interface with sub-interfaces
* only the IP of the interface is used. Sub-interfaces can
* be used by specifying them explicitly (by IP or name).
*
* @return SocketAddresses for the configured local interfaces,
* or an empty array if none are configured
* @throws UnknownHostException if a given interface name is invalid
*/
private static SocketAddress[] getLocalInterfaceAddrs(
String interfaceNames[]) throws UnknownHostException {
List<SocketAddress> localAddrs = new ArrayList<SocketAddress>();
for (String interfaceName : interfaceNames) {
if (InetAddresses.isInetAddress(interfaceName)) {
localAddrs.add(new InetSocketAddress(interfaceName, 0));
} else if (NetUtils.isValidSubnet(interfaceName)) {
for (InetAddress addr : NetUtils.getIPs(interfaceName, false)) {
localAddrs.add(new InetSocketAddress(addr, 0));
}
} else {
for (String ip : DNS.getIPs(interfaceName, false)) {
localAddrs.add(new InetSocketAddress(ip, 0));
}
}
}
return localAddrs.toArray(new SocketAddress[localAddrs.size()]);
}
/**
* Select one of the configured local interfaces at random. We use a random
* interface because other policies like round-robin are less effective
* given that we cache connections to datanodes.
*
* @return one of the local interface addresses at random, or null if no
* local interfaces are configured
*/
SocketAddress getRandomLocalInterfaceAddr() {
if (localInterfaceAddrs.length == 0) {
return null;
}
final int idx = r.nextInt(localInterfaceAddrs.length);
final SocketAddress addr = localInterfaceAddrs[idx];
if (LOG.isDebugEnabled()) {
LOG.debug("Using local interface " + addr);
}
return addr;
}
/**
* Return the number of times the client should go back to the namenode
* to retrieve block locations when reading.
*/
int getMaxBlockAcquireFailures() {
return dfsClientConf.maxBlockAcquireFailures;
}
/**
* Return the timeout that clients should use when writing to datanodes.
* @param numNodes the number of nodes in the pipeline.
*/
int getDatanodeWriteTimeout(int numNodes) {
return (dfsClientConf.confTime > 0) ?
(dfsClientConf.confTime + HdfsServerConstants.WRITE_TIMEOUT_EXTENSION * numNodes) : 0;
}
int getDatanodeReadTimeout(int numNodes) {
return dfsClientConf.socketTimeout > 0 ?
(HdfsServerConstants.READ_TIMEOUT_EXTENSION * numNodes +
dfsClientConf.socketTimeout) : 0;
}
int getHdfsTimeout() {
return dfsClientConf.hdfsTimeout;
}
@VisibleForTesting
public String getClientName() {
return clientName;
}
void checkOpen() throws IOException {
if (!clientRunning) {
IOException result = new IOException("Filesystem closed");
throw result;
}
}
/** Return the lease renewer instance. The renewer thread won't start
* until the first output stream is created. The same instance will
* be returned until all output streams are closed.
*/
public LeaseRenewer getLeaseRenewer() throws IOException {
return LeaseRenewer.getInstance(authority, ugi, this);
}
/** Get a lease and start automatic renewal */
private void beginFileLease(final long inodeId, final DFSOutputStream out)
throws IOException {
getLeaseRenewer().put(inodeId, out, this);
}
/** Stop renewal of lease for the file. */
void endFileLease(final long inodeId) throws IOException {
getLeaseRenewer().closeFile(inodeId, this);
}
/** Put a file. Only called from LeaseRenewer, where proper locking is
* enforced to consistently update its local dfsclients array and
* client's filesBeingWritten map.
*/
void putFileBeingWritten(final long inodeId, final DFSOutputStream out) {
synchronized(filesBeingWritten) {
filesBeingWritten.put(inodeId, out);
// update the last lease renewal time only when there was no
// writes. once there is one write stream open, the lease renewer
// thread keeps it updated well with in anyone's expiration time.
if (lastLeaseRenewal == 0) {
updateLastLeaseRenewal();
}
}
}
/** Remove a file. Only called from LeaseRenewer. */
void removeFileBeingWritten(final long inodeId) {
synchronized(filesBeingWritten) {
filesBeingWritten.remove(inodeId);
if (filesBeingWritten.isEmpty()) {
lastLeaseRenewal = 0;
}
}
}
/** Is file-being-written map empty? */
boolean isFilesBeingWrittenEmpty() {
synchronized(filesBeingWritten) {
return filesBeingWritten.isEmpty();
}
}
/** @return true if the client is running */
boolean isClientRunning() {
return clientRunning;
}
long getLastLeaseRenewal() {
return lastLeaseRenewal;
}
void updateLastLeaseRenewal() {
synchronized(filesBeingWritten) {
if (filesBeingWritten.isEmpty()) {
return;
}
lastLeaseRenewal = Time.monotonicNow();
}
}
/**
* Renew leases.
* @return true if lease was renewed. May return false if this
* client has been closed or has no files open.
**/
boolean renewLease() throws IOException {
if (clientRunning && !isFilesBeingWrittenEmpty()) {
try {
namenode.renewLease(clientName);
updateLastLeaseRenewal();
return true;
} catch (IOException e) {
// Abort if the lease has already expired.
final long elapsed = Time.monotonicNow() - getLastLeaseRenewal();
if (elapsed > HdfsConstants.LEASE_HARDLIMIT_PERIOD) {
LOG.warn("Failed to renew lease for " + clientName + " for "
+ (elapsed/1000) + " seconds (>= hard-limit ="
+ (HdfsConstants.LEASE_HARDLIMIT_PERIOD/1000) + " seconds.) "
+ "Closing all files being written ...", e);
closeAllFilesBeingWritten(true);
} else {
// Let the lease renewer handle it and retry.
throw e;
}
}
}
return false;
}
/**
* Close connections the Namenode.
*/
void closeConnectionToNamenode() {
RPC.stopProxy(namenode);
}
/** Close/abort all files being written. */
public void closeAllFilesBeingWritten(final boolean abort) {
for(;;) {
final long inodeId;
final DFSOutputStream out;
synchronized(filesBeingWritten) {
if (filesBeingWritten.isEmpty()) {
return;
}
inodeId = filesBeingWritten.keySet().iterator().next();
out = filesBeingWritten.remove(inodeId);
}
if (out != null) {
try {
if (abort) {
out.abort();
} else {
out.close();
}
} catch(IOException ie) {
LOG.error("Failed to " + (abort? "abort": "close") +
" inode " + inodeId, ie);
}
}
}
}
/**
* Close the file system, abandoning all of the leases and files being
* created and close connections to the namenode.
*/
@Override
public synchronized void close() throws IOException {
if(clientRunning) {
closeAllFilesBeingWritten(false);
clientRunning = false;
getLeaseRenewer().closeClient(this);
// close connections to the namenode
closeConnectionToNamenode();
}
}
/**
* Close all open streams, abandoning all of the leases and files being
* created.
* @param abort whether streams should be gracefully closed
*/
public void closeOutputStreams(boolean abort) {
if (clientRunning) {
closeAllFilesBeingWritten(abort);
}
}
/**
* Get the default block size for this cluster
* @return the default block size in bytes
*/
public long getDefaultBlockSize() {
return dfsClientConf.defaultBlockSize;
}
/**
* @see ClientProtocol#getPreferredBlockSize(String)
*/
public long getBlockSize(String f) throws IOException {
TraceScope scope = getPathTraceScope("getBlockSize", f);
try {
return namenode.getPreferredBlockSize(f);
} catch (IOException ie) {
LOG.warn("Problem getting block size", ie);
throw ie;
} finally {
scope.close();
}
}
/**
* Get server default values for a number of configuration params.
* @see ClientProtocol#getServerDefaults()
*/
public FsServerDefaults getServerDefaults() throws IOException {
long now = Time.monotonicNow();
if ((serverDefaults == null) ||
(now - serverDefaultsLastUpdate > SERVER_DEFAULTS_VALIDITY_PERIOD)) {
serverDefaults = namenode.getServerDefaults();
serverDefaultsLastUpdate = now;
}
assert serverDefaults != null;
return serverDefaults;
}
/**
* Get a canonical token service name for this client's tokens. Null should
* be returned if the client is not using tokens.
* @return the token service for the client
*/
@InterfaceAudience.LimitedPrivate( { "HDFS" })
public String getCanonicalServiceName() {
return (dtService != null) ? dtService.toString() : null;
}
/**
* @see ClientProtocol#getDelegationToken(Text)
*/
public Token<DelegationTokenIdentifier> getDelegationToken(Text renewer)
throws IOException {
assert dtService != null;
TraceScope scope = Trace.startSpan("getDelegationToken", traceSampler);
try {
Token<DelegationTokenIdentifier> token =
namenode.getDelegationToken(renewer);
if (token != null) {
token.setService(this.dtService);
LOG.info("Created " + DelegationTokenIdentifier.stringifyToken(token));
} else {
LOG.info("Cannot get delegation token from " + renewer);
}
return token;
} finally {
scope.close();
}
}
/**
* Renew a delegation token
* @param token the token to renew
* @return the new expiration time
* @throws InvalidToken
* @throws IOException
* @deprecated Use Token.renew instead.
*/
@Deprecated
public long renewDelegationToken(Token<DelegationTokenIdentifier> token)
throws InvalidToken, IOException {
LOG.info("Renewing " + DelegationTokenIdentifier.stringifyToken(token));
try {
return token.renew(conf);
} catch (InterruptedException ie) {
throw new RuntimeException("caught interrupted", ie);
} catch (RemoteException re) {
throw re.unwrapRemoteException(InvalidToken.class,
AccessControlException.class);
}
}
private static final Map<String, Boolean> localAddrMap = Collections
.synchronizedMap(new HashMap<String, Boolean>());
public static boolean isLocalAddress(InetSocketAddress targetAddr) {
InetAddress addr = targetAddr.getAddress();
Boolean cached = localAddrMap.get(addr.getHostAddress());
if (cached != null) {
if (LOG.isTraceEnabled()) {
LOG.trace("Address " + targetAddr +
(cached ? " is local" : " is not local"));
}
return cached;
}
boolean local = NetUtils.isLocalAddress(addr);
if (LOG.isTraceEnabled()) {
LOG.trace("Address " + targetAddr +
(local ? " is local" : " is not local"));
}
localAddrMap.put(addr.getHostAddress(), local);
return local;
}
/**
* Cancel a delegation token
* @param token the token to cancel
* @throws InvalidToken
* @throws IOException
* @deprecated Use Token.cancel instead.
*/
@Deprecated
public void cancelDelegationToken(Token<DelegationTokenIdentifier> token)
throws InvalidToken, IOException {
LOG.info("Cancelling " + DelegationTokenIdentifier.stringifyToken(token));
try {
token.cancel(conf);
} catch (InterruptedException ie) {
throw new RuntimeException("caught interrupted", ie);
} catch (RemoteException re) {
throw re.unwrapRemoteException(InvalidToken.class,
AccessControlException.class);
}
}
@InterfaceAudience.Private
public static class Renewer extends TokenRenewer {
static {
//Ensure that HDFS Configuration files are loaded before trying to use
// the renewer.
HdfsConfiguration.init();
}
@Override
public boolean handleKind(Text kind) {
return DelegationTokenIdentifier.HDFS_DELEGATION_KIND.equals(kind);
}
@SuppressWarnings("unchecked")
@Override
public long renew(Token<?> token, Configuration conf) throws IOException {
Token<DelegationTokenIdentifier> delToken =
(Token<DelegationTokenIdentifier>) token;
ClientProtocol nn = getNNProxy(delToken, conf);
try {
return nn.renewDelegationToken(delToken);
} catch (RemoteException re) {
throw re.unwrapRemoteException(InvalidToken.class,
AccessControlException.class);
}
}
@SuppressWarnings("unchecked")
@Override
public void cancel(Token<?> token, Configuration conf) throws IOException {
Token<DelegationTokenIdentifier> delToken =
(Token<DelegationTokenIdentifier>) token;
LOG.info("Cancelling " +
DelegationTokenIdentifier.stringifyToken(delToken));
ClientProtocol nn = getNNProxy(delToken, conf);
try {
nn.cancelDelegationToken(delToken);
} catch (RemoteException re) {
throw re.unwrapRemoteException(InvalidToken.class,
AccessControlException.class);
}
}
private static ClientProtocol getNNProxy(
Token<DelegationTokenIdentifier> token, Configuration conf)
throws IOException {
URI uri = HAUtil.getServiceUriFromToken(HdfsConstants.HDFS_URI_SCHEME,
token);
if (HAUtil.isTokenForLogicalUri(token) &&
!HAUtil.isLogicalUri(conf, uri)) {
// If the token is for a logical nameservice, but the configuration
// we have disagrees about that, we can't actually renew it.
// This can be the case in MR, for example, if the RM doesn't
// have all of the HA clusters configured in its configuration.
throw new IOException("Unable to map logical nameservice URI '" +
uri + "' to a NameNode. Local configuration does not have " +
"a failover proxy provider configured.");
}
NameNodeProxies.ProxyAndInfo<ClientProtocol> info =
NameNodeProxies.createProxy(conf, uri, ClientProtocol.class);
assert info.getDelegationTokenService().equals(token.getService()) :
"Returned service '" + info.getDelegationTokenService().toString() +
"' doesn't match expected service '" +
token.getService().toString() + "'";
return info.getProxy();
}
@Override
public boolean isManaged(Token<?> token) throws IOException {
return true;
}
}
/**
* Report corrupt blocks that were discovered by the client.
* @see ClientProtocol#reportBadBlocks(LocatedBlock[])
*/
public void reportBadBlocks(LocatedBlock[] blocks) throws IOException {
namenode.reportBadBlocks(blocks);
}
public short getDefaultReplication() {
return dfsClientConf.defaultReplication;
}
public LocatedBlocks getLocatedBlocks(String src, long start)
throws IOException {
return getLocatedBlocks(src, start, dfsClientConf.prefetchSize);
}
/*
* This is just a wrapper around callGetBlockLocations, but non-static so that
* we can stub it out for tests.
*/
@VisibleForTesting
public LocatedBlocks getLocatedBlocks(String src, long start, long length)
throws IOException {
TraceScope scope = getPathTraceScope("getBlockLocations", src);
try {
return callGetBlockLocations(namenode, src, start, length);
} finally {
scope.close();
}
}
/**
* @see ClientProtocol#getBlockLocations(String, long, long)
*/
static LocatedBlocks callGetBlockLocations(ClientProtocol namenode,
String src, long start, long length)
throws IOException {
try {
return namenode.getBlockLocations(src, start, length);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
}
}
/**
* Recover a file's lease
* @param src a file's path
* @return true if the file is already closed
* @throws IOException
*/
boolean recoverLease(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("recoverLease", src);
try {
return namenode.recoverLease(src, clientName);
} catch (RemoteException re) {
throw re.unwrapRemoteException(FileNotFoundException.class,
AccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
/**
* Get block location info about file
*
* getBlockLocations() returns a list of hostnames that store
* data for a specific file region. It returns a set of hostnames
* for every block within the indicated region.
*
* This function is very useful when writing code that considers
* data-placement when performing operations. For example, the
* MapReduce system tries to schedule tasks on the same machines
* as the data-block the task processes.
*/
public BlockLocation[] getBlockLocations(String src, long start,
long length) throws IOException, UnresolvedLinkException {
TraceScope scope = getPathTraceScope("getBlockLocations", src);
try {
LocatedBlocks blocks = getLocatedBlocks(src, start, length);
BlockLocation[] locations = DFSUtil.locatedBlocks2Locations(blocks);
HdfsBlockLocation[] hdfsLocations = new HdfsBlockLocation[locations.length];
for (int i = 0; i < locations.length; i++) {
hdfsLocations[i] = new HdfsBlockLocation(locations[i], blocks.get(i));
}
return hdfsLocations;
} finally {
scope.close();
}
}
/**
* Get block location information about a list of {@link HdfsBlockLocation}.
* Used by {@link DistributedFileSystem#getFileBlockStorageLocations(List)} to
* get {@link BlockStorageLocation}s for blocks returned by
* {@link DistributedFileSystem#getFileBlockLocations(org.apache.hadoop.fs.FileStatus, long, long)}
* .
*
* This is done by making a round of RPCs to the associated datanodes, asking
* the volume of each block replica. The returned array of
* {@link BlockStorageLocation} expose this information as a
* {@link VolumeId}.
*
* @param blockLocations
* target blocks on which to query volume location information
* @return volumeBlockLocations original block array augmented with additional
* volume location information for each replica.
*/
public BlockStorageLocation[] getBlockStorageLocations(
List<BlockLocation> blockLocations) throws IOException,
UnsupportedOperationException, InvalidBlockTokenException {
if (!getConf().getHdfsBlocksMetadataEnabled) {
throw new UnsupportedOperationException("Datanode-side support for " +
"getVolumeBlockLocations() must also be enabled in the client " +
"configuration.");
}
// Downcast blockLocations and fetch out required LocatedBlock(s)
List<LocatedBlock> blocks = new ArrayList<LocatedBlock>();
for (BlockLocation loc : blockLocations) {
if (!(loc instanceof HdfsBlockLocation)) {
throw new ClassCastException("DFSClient#getVolumeBlockLocations " +
"expected to be passed HdfsBlockLocations");
}
HdfsBlockLocation hdfsLoc = (HdfsBlockLocation) loc;
blocks.add(hdfsLoc.getLocatedBlock());
}
// Re-group the LocatedBlocks to be grouped by datanodes, with the values
// a list of the LocatedBlocks on the datanode.
Map<DatanodeInfo, List<LocatedBlock>> datanodeBlocks =
new LinkedHashMap<DatanodeInfo, List<LocatedBlock>>();
for (LocatedBlock b : blocks) {
for (DatanodeInfo info : b.getLocations()) {
if (!datanodeBlocks.containsKey(info)) {
datanodeBlocks.put(info, new ArrayList<LocatedBlock>());
}
List<LocatedBlock> l = datanodeBlocks.get(info);
l.add(b);
}
}
// Make RPCs to the datanodes to get volume locations for its replicas
TraceScope scope =
Trace.startSpan("getBlockStorageLocations", traceSampler);
Map<DatanodeInfo, HdfsBlocksMetadata> metadatas;
try {
metadatas = BlockStorageLocationUtil.
queryDatanodesForHdfsBlocksMetadata(conf, datanodeBlocks,
getConf().getFileBlockStorageLocationsNumThreads,
getConf().getFileBlockStorageLocationsTimeoutMs,
getConf().connectToDnViaHostname);
if (LOG.isTraceEnabled()) {
LOG.trace("metadata returned: "
+ Joiner.on("\n").withKeyValueSeparator("=").join(metadatas));
}
} finally {
scope.close();
}
// Regroup the returned VolumeId metadata to again be grouped by
// LocatedBlock rather than by datanode
Map<LocatedBlock, List<VolumeId>> blockVolumeIds = BlockStorageLocationUtil
.associateVolumeIdsWithBlocks(blocks, metadatas);
// Combine original BlockLocations with new VolumeId information
BlockStorageLocation[] volumeBlockLocations = BlockStorageLocationUtil
.convertToVolumeBlockLocations(blocks, blockVolumeIds);
return volumeBlockLocations;
}
/**
* Decrypts a EDEK by consulting the KeyProvider.
*/
private KeyVersion decryptEncryptedDataEncryptionKey(FileEncryptionInfo
feInfo) throws IOException {
TraceScope scope = Trace.startSpan("decryptEDEK", traceSampler);
try {
KeyProvider provider = getKeyProvider();
if (provider == null) {
throw new IOException("No KeyProvider is configured, cannot access" +
" an encrypted file");
}
EncryptedKeyVersion ekv = EncryptedKeyVersion.createForDecryption(
feInfo.getKeyName(), feInfo.getEzKeyVersionName(), feInfo.getIV(),
feInfo.getEncryptedDataEncryptionKey());
try {
KeyProviderCryptoExtension cryptoProvider = KeyProviderCryptoExtension
.createKeyProviderCryptoExtension(provider);
return cryptoProvider.decryptEncryptedKey(ekv);
} catch (GeneralSecurityException e) {
throw new IOException(e);
}
} finally {
scope.close();
}
}
/**
* Obtain the crypto protocol version from the provided FileEncryptionInfo,
* checking to see if this version is supported by.
*
* @param feInfo FileEncryptionInfo
* @return CryptoProtocolVersion from the feInfo
* @throws IOException if the protocol version is unsupported.
*/
private static CryptoProtocolVersion getCryptoProtocolVersion
(FileEncryptionInfo feInfo) throws IOException {
final CryptoProtocolVersion version = feInfo.getCryptoProtocolVersion();
if (!CryptoProtocolVersion.supports(version)) {
throw new IOException("Client does not support specified " +
"CryptoProtocolVersion " + version.getDescription() + " version " +
"number" + version.getVersion());
}
return version;
}
/**
* Obtain a CryptoCodec based on the CipherSuite set in a FileEncryptionInfo
* and the available CryptoCodecs configured in the Configuration.
*
* @param conf Configuration
* @param feInfo FileEncryptionInfo
* @return CryptoCodec
* @throws IOException if no suitable CryptoCodec for the CipherSuite is
* available.
*/
private static CryptoCodec getCryptoCodec(Configuration conf,
FileEncryptionInfo feInfo) throws IOException {
final CipherSuite suite = feInfo.getCipherSuite();
if (suite.equals(CipherSuite.UNKNOWN)) {
throw new IOException("NameNode specified unknown CipherSuite with ID "
+ suite.getUnknownValue() + ", cannot instantiate CryptoCodec.");
}
final CryptoCodec codec = CryptoCodec.getInstance(conf, suite);
if (codec == null) {
throw new UnknownCipherSuiteException(
"No configuration found for the cipher suite "
+ suite.getConfigSuffix() + " prefixed with "
+ HADOOP_SECURITY_CRYPTO_CODEC_CLASSES_KEY_PREFIX
+ ". Please see the example configuration "
+ "hadoop.security.crypto.codec.classes.EXAMPLECIPHERSUITE "
+ "at core-default.xml for details.");
}
return codec;
}
/**
* Wraps the stream in a CryptoInputStream if the underlying file is
* encrypted.
*/
public HdfsDataInputStream createWrappedInputStream(DFSInputStream dfsis)
throws IOException {
final FileEncryptionInfo feInfo = dfsis.getFileEncryptionInfo();
if (feInfo != null) {
// File is encrypted, wrap the stream in a crypto stream.
// Currently only one version, so no special logic based on the version #
getCryptoProtocolVersion(feInfo);
final CryptoCodec codec = getCryptoCodec(conf, feInfo);
final KeyVersion decrypted = decryptEncryptedDataEncryptionKey(feInfo);
final CryptoInputStream cryptoIn =
new CryptoInputStream(dfsis, codec, decrypted.getMaterial(),
feInfo.getIV());
return new HdfsDataInputStream(cryptoIn);
} else {
// No FileEncryptionInfo so no encryption.
return new HdfsDataInputStream(dfsis);
}
}
/**
* Wraps the stream in a CryptoOutputStream if the underlying file is
* encrypted.
*/
public HdfsDataOutputStream createWrappedOutputStream(DFSOutputStream dfsos,
FileSystem.Statistics statistics) throws IOException {
return createWrappedOutputStream(dfsos, statistics, 0);
}
/**
* Wraps the stream in a CryptoOutputStream if the underlying file is
* encrypted.
*/
public HdfsDataOutputStream createWrappedOutputStream(DFSOutputStream dfsos,
FileSystem.Statistics statistics, long startPos) throws IOException {
final FileEncryptionInfo feInfo = dfsos.getFileEncryptionInfo();
if (feInfo != null) {
// File is encrypted, wrap the stream in a crypto stream.
// Currently only one version, so no special logic based on the version #
getCryptoProtocolVersion(feInfo);
final CryptoCodec codec = getCryptoCodec(conf, feInfo);
KeyVersion decrypted = decryptEncryptedDataEncryptionKey(feInfo);
final CryptoOutputStream cryptoOut =
new CryptoOutputStream(dfsos, codec,
decrypted.getMaterial(), feInfo.getIV(), startPos);
return new HdfsDataOutputStream(cryptoOut, statistics, startPos);
} else {
// No FileEncryptionInfo present so no encryption.
return new HdfsDataOutputStream(dfsos, statistics, startPos);
}
}
public DFSInputStream open(String src)
throws IOException, UnresolvedLinkException {
return open(src, dfsClientConf.ioBufferSize, true, null);
}
/**
* Create an input stream that obtains a nodelist from the
* namenode, and then reads from all the right places. Creates
* inner subclass of InputStream that does the right out-of-band
* work.
* @deprecated Use {@link #open(String, int, boolean)} instead.
*/
@Deprecated
public DFSInputStream open(String src, int buffersize, boolean verifyChecksum,
FileSystem.Statistics stats)
throws IOException, UnresolvedLinkException {
return open(src, buffersize, verifyChecksum);
}
/**
* Create an input stream that obtains a nodelist from the
* namenode, and then reads from all the right places. Creates
* inner subclass of InputStream that does the right out-of-band
* work.
*/
public DFSInputStream open(String src, int buffersize, boolean verifyChecksum)
throws IOException, UnresolvedLinkException {
checkOpen();
// Get block info from namenode
TraceScope scope = getPathTraceScope("newDFSInputStream", src);
try {
return new DFSInputStream(this, src, verifyChecksum);
} finally {
scope.close();
}
}
/**
* Get the namenode associated with this DFSClient object
* @return the namenode associated with this DFSClient object
*/
public ClientProtocol getNamenode() {
return namenode;
}
/**
* Call {@link #create(String, boolean, short, long, Progressable)} with
* default <code>replication</code> and <code>blockSize<code> and null <code>
* progress</code>.
*/
public OutputStream create(String src, boolean overwrite)
throws IOException {
return create(src, overwrite, dfsClientConf.defaultReplication,
dfsClientConf.defaultBlockSize, null);
}
/**
* Call {@link #create(String, boolean, short, long, Progressable)} with
* default <code>replication</code> and <code>blockSize<code>.
*/
public OutputStream create(String src,
boolean overwrite,
Progressable progress) throws IOException {
return create(src, overwrite, dfsClientConf.defaultReplication,
dfsClientConf.defaultBlockSize, progress);
}
/**
* Call {@link #create(String, boolean, short, long, Progressable)} with
* null <code>progress</code>.
*/
public OutputStream create(String src,
boolean overwrite,
short replication,
long blockSize) throws IOException {
return create(src, overwrite, replication, blockSize, null);
}
/**
* Call {@link #create(String, boolean, short, long, Progressable, int)}
* with default bufferSize.
*/
public OutputStream create(String src, boolean overwrite, short replication,
long blockSize, Progressable progress) throws IOException {
return create(src, overwrite, replication, blockSize, progress,
dfsClientConf.ioBufferSize);
}
/**
* Call {@link #create(String, FsPermission, EnumSet, short, long,
* Progressable, int, ChecksumOpt)} with default <code>permission</code>
* {@link FsPermission#getFileDefault()}.
*
* @param src File name
* @param overwrite overwrite an existing file if true
* @param replication replication factor for the file
* @param blockSize maximum block size
* @param progress interface for reporting client progress
* @param buffersize underlying buffersize
*
* @return output stream
*/
public OutputStream create(String src,
boolean overwrite,
short replication,
long blockSize,
Progressable progress,
int buffersize)
throws IOException {
return create(src, FsPermission.getFileDefault(),
overwrite ? EnumSet.of(CreateFlag.CREATE, CreateFlag.OVERWRITE)
: EnumSet.of(CreateFlag.CREATE), replication, blockSize, progress,
buffersize, null);
}
/**
* Call {@link #create(String, FsPermission, EnumSet, boolean, short,
* long, Progressable, int, ChecksumOpt)} with <code>createParent</code>
* set to true.
*/
public DFSOutputStream create(String src,
FsPermission permission,
EnumSet<CreateFlag> flag,
short replication,
long blockSize,
Progressable progress,
int buffersize,
ChecksumOpt checksumOpt)
throws IOException {
return create(src, permission, flag, true,
replication, blockSize, progress, buffersize, checksumOpt, null);
}
/**
* Create a new dfs file with the specified block replication
* with write-progress reporting and return an output stream for writing
* into the file.
*
* @param src File name
* @param permission The permission of the directory being created.
* If null, use default permission {@link FsPermission#getFileDefault()}
* @param flag indicates create a new file or create/overwrite an
* existing file or append to an existing file
* @param createParent create missing parent directory if true
* @param replication block replication
* @param blockSize maximum block size
* @param progress interface for reporting client progress
* @param buffersize underlying buffer size
* @param checksumOpt checksum options
*
* @return output stream
*
* @see ClientProtocol#create for detailed description of exceptions thrown
*/
public DFSOutputStream create(String src,
FsPermission permission,
EnumSet<CreateFlag> flag,
boolean createParent,
short replication,
long blockSize,
Progressable progress,
int buffersize,
ChecksumOpt checksumOpt) throws IOException {
return create(src, permission, flag, createParent, replication, blockSize,
progress, buffersize, checksumOpt, null);
}
/**
* Same as {@link #create(String, FsPermission, EnumSet, boolean, short, long,
* Progressable, int, ChecksumOpt)} with the addition of favoredNodes that is
* a hint to where the namenode should place the file blocks.
* The favored nodes hint is not persisted in HDFS. Hence it may be honored
* at the creation time only. HDFS could move the blocks during balancing or
* replication, to move the blocks from favored nodes. A value of null means
* no favored nodes for this create
*/
public DFSOutputStream create(String src,
FsPermission permission,
EnumSet<CreateFlag> flag,
boolean createParent,
short replication,
long blockSize,
Progressable progress,
int buffersize,
ChecksumOpt checksumOpt,
InetSocketAddress[] favoredNodes) throws IOException {
checkOpen();
if (permission == null) {
permission = FsPermission.getFileDefault();
}
FsPermission masked = permission.applyUMask(dfsClientConf.uMask);
if(LOG.isDebugEnabled()) {
LOG.debug(src + ": masked=" + masked);
}
final DFSOutputStream result = DFSOutputStream.newStreamForCreate(this,
src, masked, flag, createParent, replication, blockSize, progress,
buffersize, dfsClientConf.createChecksum(checksumOpt),
getFavoredNodesStr(favoredNodes));
beginFileLease(result.getFileId(), result);
return result;
}
private String[] getFavoredNodesStr(InetSocketAddress[] favoredNodes) {
String[] favoredNodeStrs = null;
if (favoredNodes != null) {
favoredNodeStrs = new String[favoredNodes.length];
for (int i = 0; i < favoredNodes.length; i++) {
favoredNodeStrs[i] =
favoredNodes[i].getHostName() + ":"
+ favoredNodes[i].getPort();
}
}
return favoredNodeStrs;
}
/**
* Append to an existing file if {@link CreateFlag#APPEND} is present
*/
private DFSOutputStream primitiveAppend(String src, EnumSet<CreateFlag> flag,
int buffersize, Progressable progress) throws IOException {
if (flag.contains(CreateFlag.APPEND)) {
HdfsFileStatus stat = getFileInfo(src);
if (stat == null) { // No file to append to
// New file needs to be created if create option is present
if (!flag.contains(CreateFlag.CREATE)) {
throw new FileNotFoundException("failed to append to non-existent file "
+ src + " on client " + clientName);
}
return null;
}
return callAppend(src, buffersize, flag, progress, null);
}
return null;
}
/**
* Same as {{@link #create(String, FsPermission, EnumSet, short, long,
* Progressable, int, ChecksumOpt)} except that the permission
* is absolute (ie has already been masked with umask.
*/
public DFSOutputStream primitiveCreate(String src,
FsPermission absPermission,
EnumSet<CreateFlag> flag,
boolean createParent,
short replication,
long blockSize,
Progressable progress,
int buffersize,
ChecksumOpt checksumOpt)
throws IOException, UnresolvedLinkException {
checkOpen();
CreateFlag.validate(flag);
DFSOutputStream result = primitiveAppend(src, flag, buffersize, progress);
if (result == null) {
DataChecksum checksum = dfsClientConf.createChecksum(checksumOpt);
result = DFSOutputStream.newStreamForCreate(this, src, absPermission,
flag, createParent, replication, blockSize, progress, buffersize,
checksum, null);
}
beginFileLease(result.getFileId(), result);
return result;
}
/**
* Creates a symbolic link.
*
* @see ClientProtocol#createSymlink(String, String,FsPermission, boolean)
*/
public void createSymlink(String target, String link, boolean createParent)
throws IOException {
TraceScope scope = getPathTraceScope("createSymlink", target);
try {
FsPermission dirPerm =
FsPermission.getDefault().applyUMask(dfsClientConf.uMask);
namenode.createSymlink(target, link, dirPerm, createParent);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileAlreadyExistsException.class,
FileNotFoundException.class,
ParentNotDirectoryException.class,
NSQuotaExceededException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Resolve the *first* symlink, if any, in the path.
*
* @see ClientProtocol#getLinkTarget(String)
*/
public String getLinkTarget(String path) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getLinkTarget", path);
try {
return namenode.getLinkTarget(path);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class);
} finally {
scope.close();
}
}
/** Method to get stream returned by append call */
private DFSOutputStream callAppend(String src, int buffersize,
EnumSet<CreateFlag> flag, Progressable progress, String[] favoredNodes)
throws IOException {
CreateFlag.validateForAppend(flag);
try {
LastBlockWithStatus blkWithStatus = namenode.append(src, clientName,
new EnumSetWritable<>(flag, CreateFlag.class));
HdfsFileStatus status = blkWithStatus.getFileStatus();
if (status == null) {
DFSClient.LOG.debug("NameNode is on an older version, request file " +
"info with additional RPC call for file: " + src);
status = getFileInfo(src);
}
return DFSOutputStream.newStreamForAppend(this, src, flag, buffersize,
progress, blkWithStatus.getLastBlock(),
status, dfsClientConf.createChecksum(),
favoredNodes);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
UnsupportedOperationException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
}
}
/**
* Append to an existing HDFS file.
*
* @param src file name
* @param buffersize buffer size
* @param flag indicates whether to append data to a new block instead of
* the last block
* @param progress for reporting write-progress; null is acceptable.
* @param statistics file system statistics; null is acceptable.
* @return an output stream for writing into the file
*
* @see ClientProtocol#append(String, String, EnumSetWritable)
*/
public HdfsDataOutputStream append(final String src, final int buffersize,
EnumSet<CreateFlag> flag, final Progressable progress,
final FileSystem.Statistics statistics) throws IOException {
final DFSOutputStream out = append(src, buffersize, flag, null, progress);
return createWrappedOutputStream(out, statistics, out.getInitialLen());
}
/**
* Append to an existing HDFS file.
*
* @param src file name
* @param buffersize buffer size
* @param flag indicates whether to append data to a new block instead of the
* last block
* @param progress for reporting write-progress; null is acceptable.
* @param statistics file system statistics; null is acceptable.
* @param favoredNodes FavoredNodes for new blocks
* @return an output stream for writing into the file
* @see ClientProtocol#append(String, String, EnumSetWritable)
*/
public HdfsDataOutputStream append(final String src, final int buffersize,
EnumSet<CreateFlag> flag, final Progressable progress,
final FileSystem.Statistics statistics,
final InetSocketAddress[] favoredNodes) throws IOException {
final DFSOutputStream out = append(src, buffersize, flag,
getFavoredNodesStr(favoredNodes), progress);
return createWrappedOutputStream(out, statistics, out.getInitialLen());
}
private DFSOutputStream append(String src, int buffersize,
EnumSet<CreateFlag> flag, String[] favoredNodes, Progressable progress)
throws IOException {
checkOpen();
final DFSOutputStream result = callAppend(src, buffersize, flag, progress,
favoredNodes);
beginFileLease(result.getFileId(), result);
return result;
}
/**
* Set replication for an existing file.
* @param src file name
* @param replication replication to set the file to
*
* @see ClientProtocol#setReplication(String, short)
*/
public boolean setReplication(String src, short replication)
throws IOException {
TraceScope scope = getPathTraceScope("setReplication", src);
try {
return namenode.setReplication(src, replication);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Set storage policy for an existing file/directory
* @param src file/directory name
* @param policyName name of the storage policy
*/
public void setStoragePolicy(String src, String policyName)
throws IOException {
TraceScope scope = getPathTraceScope("setStoragePolicy", src);
try {
namenode.setStoragePolicy(src, policyName);
} catch (RemoteException e) {
throw e.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
NSQuotaExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* @param path file/directory name
* @return Get the storage policy for specified path
*/
public BlockStoragePolicy getStoragePolicy(String path) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getStoragePolicy", path);
try {
return namenode.getStoragePolicy(path);
} catch (RemoteException e) {
throw e.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
/**
* Unset storage policy set for a given file/directory.
* @param src file/directory name
*/
public void unsetStoragePolicy(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("unsetStoragePolicy", src);
try {
namenode.unsetStoragePolicy(src);
} catch (RemoteException e) {
throw e.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
NSQuotaExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* @return All the existing storage policies
*/
public BlockStoragePolicy[] getStoragePolicies() throws IOException {
TraceScope scope = Trace.startSpan("getStoragePolicies", traceSampler);
try {
return namenode.getStoragePolicies();
} finally {
scope.close();
}
}
/**
* Rename file or directory.
* @see ClientProtocol#rename(String, String)
* @deprecated Use {@link #rename(String, String, Options.Rename...)} instead.
*/
@Deprecated
public boolean rename(String src, String dst) throws IOException {
checkOpen();
TraceScope scope = getSrcDstTraceScope("rename", src, dst);
try {
return namenode.rename(src, dst);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
NSQuotaExceededException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Move blocks from src to trg and delete src
* See {@link ClientProtocol#concat}.
*/
public void concat(String trg, String [] srcs) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("concat", traceSampler);
try {
namenode.concat(trg, srcs);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Rename file or directory.
* @see ClientProtocol#rename2(String, String, Options.Rename...)
*/
public void rename(String src, String dst, Options.Rename... options)
throws IOException {
checkOpen();
TraceScope scope = getSrcDstTraceScope("rename2", src, dst);
try {
namenode.rename2(src, dst, options);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
FileAlreadyExistsException.class,
FileNotFoundException.class,
ParentNotDirectoryException.class,
SafeModeException.class,
NSQuotaExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Truncate a file to an indicated size
* See {@link ClientProtocol#truncate}.
*/
public boolean truncate(String src, long newLength) throws IOException {
checkOpen();
if (newLength < 0) {
throw new HadoopIllegalArgumentException(
"Cannot truncate to a negative file size: " + newLength + ".");
}
try {
return namenode.truncate(src, newLength, clientName);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
UnresolvedPathException.class);
}
}
/**
* Delete file or directory.
* See {@link ClientProtocol#delete(String, boolean)}.
*/
@Deprecated
public boolean delete(String src) throws IOException {
checkOpen();
return delete(src, true);
}
/**
* delete file or directory.
* delete contents of the directory if non empty and recursive
* set to true
*
* @see ClientProtocol#delete(String, boolean)
*/
public boolean delete(String src, boolean recursive) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("delete", src);
try {
return namenode.delete(src, recursive);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/** Implemented using getFileInfo(src)
*/
public boolean exists(String src) throws IOException {
checkOpen();
return getFileInfo(src) != null;
}
/**
* Get a partial listing of the indicated directory
* No block locations need to be fetched
*/
public DirectoryListing listPaths(String src, byte[] startAfter)
throws IOException {
return listPaths(src, startAfter, false);
}
/**
* Get a partial listing of the indicated directory
*
* Recommend to use HdfsFileStatus.EMPTY_NAME as startAfter
* if the application wants to fetch a listing starting from
* the first entry in the directory
*
* @see ClientProtocol#getListing(String, byte[], boolean)
*/
public DirectoryListing listPaths(String src, byte[] startAfter,
boolean needLocation) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("listPaths", src);
try {
return namenode.getListing(src, startAfter, needLocation);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
/**
* Get the file info for a specific file or directory.
* @param src The string representation of the path to the file
* @return object containing information regarding the file
* or null if file not found
*
* @see ClientProtocol#getFileInfo(String) for description of exceptions
*/
public HdfsFileStatus getFileInfo(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getFileInfo", src);
try {
return namenode.getFileInfo(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
/**
* Close status of a file
* @return true if file is already closed
*/
public boolean isFileClosed(String src) throws IOException{
checkOpen();
TraceScope scope = getPathTraceScope("isFileClosed", src);
try {
return namenode.isFileClosed(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
/**
* Get the file info for a specific file or directory. If src
* refers to a symlink then the FileStatus of the link is returned.
* @param src path to a file or directory.
*
* For description of exceptions thrown
* @see ClientProtocol#getFileLinkInfo(String)
*/
public HdfsFileStatus getFileLinkInfo(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getFileLinkInfo", src);
try {
return namenode.getFileLinkInfo(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
@InterfaceAudience.Private
public void clearDataEncryptionKey() {
LOG.debug("Clearing encryption key");
synchronized (this) {
encryptionKey = null;
}
}
/**
* @return true if data sent between this client and DNs should be encrypted,
* false otherwise.
* @throws IOException in the event of error communicating with the NN
*/
boolean shouldEncryptData() throws IOException {
FsServerDefaults d = getServerDefaults();
return d == null ? false : d.getEncryptDataTransfer();
}
@Override
public DataEncryptionKey newDataEncryptionKey() throws IOException {
if (shouldEncryptData()) {
synchronized (this) {
if (encryptionKey == null ||
encryptionKey.expiryDate < Time.now()) {
LOG.debug("Getting new encryption token from NN");
encryptionKey = namenode.getDataEncryptionKey();
}
return encryptionKey;
}
} else {
return null;
}
}
@VisibleForTesting
public DataEncryptionKey getEncryptionKey() {
return encryptionKey;
}
/**
* Get the checksum of the whole file of a range of the file. Note that the
* range always starts from the beginning of the file.
* @param src The file path
* @param length the length of the range, i.e., the range is [0, length]
* @return The checksum
* @see DistributedFileSystem#getFileChecksum(Path)
*/
public MD5MD5CRC32FileChecksum getFileChecksum(String src, long length)
throws IOException {
checkOpen();
Preconditions.checkArgument(length >= 0);
//get block locations for the file range
LocatedBlocks blockLocations = callGetBlockLocations(namenode, src, 0,
length);
if (null == blockLocations) {
throw new FileNotFoundException("File does not exist: " + src);
}
List<LocatedBlock> locatedblocks = blockLocations.getLocatedBlocks();
final DataOutputBuffer md5out = new DataOutputBuffer();
int bytesPerCRC = -1;
DataChecksum.Type crcType = DataChecksum.Type.DEFAULT;
long crcPerBlock = 0;
boolean refetchBlocks = false;
int lastRetriedIndex = -1;
// get block checksum for each block
long remaining = length;
if (src.contains(HdfsConstants.SEPARATOR_DOT_SNAPSHOT_DIR_SEPARATOR)) {
remaining = Math.min(length, blockLocations.getFileLength());
}
for(int i = 0; i < locatedblocks.size() && remaining > 0; i++) {
if (refetchBlocks) { // refetch to get fresh tokens
blockLocations = callGetBlockLocations(namenode, src, 0, length);
if (null == blockLocations) {
throw new FileNotFoundException("File does not exist: " + src);
}
locatedblocks = blockLocations.getLocatedBlocks();
refetchBlocks = false;
}
LocatedBlock lb = locatedblocks.get(i);
final ExtendedBlock block = lb.getBlock();
if (remaining < block.getNumBytes()) {
block.setNumBytes(remaining);
}
remaining -= block.getNumBytes();
final DatanodeInfo[] datanodes = lb.getLocations();
//try each datanode location of the block
final int timeout = 3000 * datanodes.length + dfsClientConf.socketTimeout;
boolean done = false;
for(int j = 0; !done && j < datanodes.length; j++) {
DataOutputStream out = null;
DataInputStream in = null;
try {
//connect to a datanode
IOStreamPair pair = connectToDN(datanodes[j], timeout, lb);
out = new DataOutputStream(new BufferedOutputStream(pair.out,
HdfsConstants.SMALL_BUFFER_SIZE));
in = new DataInputStream(pair.in);
if (LOG.isDebugEnabled()) {
LOG.debug("write to " + datanodes[j] + ": "
+ Op.BLOCK_CHECKSUM + ", block=" + block);
}
// get block MD5
new Sender(out).blockChecksum(block, lb.getBlockToken());
final BlockOpResponseProto reply =
BlockOpResponseProto.parseFrom(PBHelper.vintPrefixed(in));
String logInfo = "for block " + block + " from datanode " + datanodes[j];
DataTransferProtoUtil.checkBlockOpStatus(reply, logInfo);
OpBlockChecksumResponseProto checksumData =
reply.getChecksumResponse();
//read byte-per-checksum
final int bpc = checksumData.getBytesPerCrc();
if (i == 0) { //first block
bytesPerCRC = bpc;
}
else if (bpc != bytesPerCRC) {
throw new IOException("Byte-per-checksum not matched: bpc=" + bpc
+ " but bytesPerCRC=" + bytesPerCRC);
}
//read crc-per-block
final long cpb = checksumData.getCrcPerBlock();
if (locatedblocks.size() > 1 && i == 0) {
crcPerBlock = cpb;
}
//read md5
final MD5Hash md5 = new MD5Hash(
checksumData.getMd5().toByteArray());
md5.write(md5out);
// read crc-type
final DataChecksum.Type ct;
if (checksumData.hasCrcType()) {
ct = PBHelper.convert(checksumData
.getCrcType());
} else {
LOG.debug("Retrieving checksum from an earlier-version DataNode: " +
"inferring checksum by reading first byte");
ct = inferChecksumTypeByReading(lb, datanodes[j]);
}
if (i == 0) { // first block
crcType = ct;
} else if (crcType != DataChecksum.Type.MIXED
&& crcType != ct) {
// if crc types are mixed in a file
crcType = DataChecksum.Type.MIXED;
}
done = true;
if (LOG.isDebugEnabled()) {
if (i == 0) {
LOG.debug("set bytesPerCRC=" + bytesPerCRC
+ ", crcPerBlock=" + crcPerBlock);
}
LOG.debug("got reply from " + datanodes[j] + ": md5=" + md5);
}
} catch (InvalidBlockTokenException ibte) {
if (i > lastRetriedIndex) {
if (LOG.isDebugEnabled()) {
LOG.debug("Got access token error in response to OP_BLOCK_CHECKSUM "
+ "for file " + src + " for block " + block
+ " from datanode " + datanodes[j]
+ ". Will retry the block once.");
}
lastRetriedIndex = i;
done = true; // actually it's not done; but we'll retry
i--; // repeat at i-th block
refetchBlocks = true;
break;
}
} catch (IOException ie) {
LOG.warn("src=" + src + ", datanodes["+j+"]=" + datanodes[j], ie);
} finally {
IOUtils.closeStream(in);
IOUtils.closeStream(out);
}
}
if (!done) {
throw new IOException("Fail to get block MD5 for " + block);
}
}
//compute file MD5
final MD5Hash fileMD5 = MD5Hash.digest(md5out.getData());
switch (crcType) {
case CRC32:
return new MD5MD5CRC32GzipFileChecksum(bytesPerCRC,
crcPerBlock, fileMD5);
case CRC32C:
return new MD5MD5CRC32CastagnoliFileChecksum(bytesPerCRC,
crcPerBlock, fileMD5);
default:
// If there is no block allocated for the file,
// return one with the magic entry that matches what previous
// hdfs versions return.
if (locatedblocks.size() == 0) {
return new MD5MD5CRC32GzipFileChecksum(0, 0, fileMD5);
}
// we should never get here since the validity was checked
// when getCrcType() was called above.
return null;
}
}
/**
* Connect to the given datanode's datantrasfer port, and return
* the resulting IOStreamPair. This includes encryption wrapping, etc.
*/
private IOStreamPair connectToDN(DatanodeInfo dn, int timeout,
LocatedBlock lb) throws IOException {
boolean success = false;
Socket sock = null;
try {
sock = socketFactory.createSocket();
String dnAddr = dn.getXferAddr(getConf().connectToDnViaHostname);
if (LOG.isDebugEnabled()) {
LOG.debug("Connecting to datanode " + dnAddr);
}
NetUtils.connect(sock, NetUtils.createSocketAddr(dnAddr), timeout);
sock.setTcpNoDelay(dfsClientConf.dataTransferTcpNoDelay);
sock.setSoTimeout(timeout);
OutputStream unbufOut = NetUtils.getOutputStream(sock);
InputStream unbufIn = NetUtils.getInputStream(sock);
IOStreamPair ret = saslClient.newSocketSend(sock, unbufOut, unbufIn, this,
lb.getBlockToken(), dn);
success = true;
return ret;
} finally {
if (!success) {
IOUtils.closeSocket(sock);
}
}
}
/**
* Infer the checksum type for a replica by sending an OP_READ_BLOCK
* for the first byte of that replica. This is used for compatibility
* with older HDFS versions which did not include the checksum type in
* OpBlockChecksumResponseProto.
*
* @param lb the located block
* @param dn the connected datanode
* @return the inferred checksum type
* @throws IOException if an error occurs
*/
private Type inferChecksumTypeByReading(LocatedBlock lb, DatanodeInfo dn)
throws IOException {
IOStreamPair pair = connectToDN(dn, dfsClientConf.socketTimeout, lb);
try {
DataOutputStream out = new DataOutputStream(new BufferedOutputStream(pair.out,
HdfsConstants.SMALL_BUFFER_SIZE));
DataInputStream in = new DataInputStream(pair.in);
new Sender(out).readBlock(lb.getBlock(), lb.getBlockToken(), clientName,
0, 1, true, CachingStrategy.newDefaultStrategy());
final BlockOpResponseProto reply =
BlockOpResponseProto.parseFrom(PBHelper.vintPrefixed(in));
String logInfo = "trying to read " + lb.getBlock() + " from datanode " + dn;
DataTransferProtoUtil.checkBlockOpStatus(reply, logInfo);
return PBHelper.convert(reply.getReadOpChecksumInfo().getChecksum().getType());
} finally {
IOUtils.cleanup(null, pair.in, pair.out);
}
}
/**
* Set permissions to a file or directory.
* @param src path name.
* @param permission permission to set to
*
* @see ClientProtocol#setPermission(String, FsPermission)
*/
public void setPermission(String src, FsPermission permission)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("setPermission", src);
try {
namenode.setPermission(src, permission);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Set file or directory owner.
* @param src path name.
* @param username user id.
* @param groupname user group.
*
* @see ClientProtocol#setOwner(String, String, String)
*/
public void setOwner(String src, String username, String groupname)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("setOwner", src);
try {
namenode.setOwner(src, username, groupname);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
SafeModeException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
private long[] callGetStats() throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("getStats", traceSampler);
try {
return namenode.getStats();
} finally {
scope.close();
}
}
/**
* @see ClientProtocol#getStats()
*/
public FsStatus getDiskStatus() throws IOException {
long rawNums[] = callGetStats();
return new FsStatus(rawNums[0], rawNums[1], rawNums[2]);
}
/**
* Returns count of blocks with no good replicas left. Normally should be
* zero.
* @throws IOException
*/
public long getMissingBlocksCount() throws IOException {
return callGetStats()[ClientProtocol.GET_STATS_MISSING_BLOCKS_IDX];
}
/**
* Returns count of blocks with replication factor 1 and have
* lost the only replica.
* @throws IOException
*/
public long getMissingReplOneBlocksCount() throws IOException {
return callGetStats()[ClientProtocol.
GET_STATS_MISSING_REPL_ONE_BLOCKS_IDX];
}
/**
* Returns count of blocks with one of more replica missing.
* @throws IOException
*/
public long getUnderReplicatedBlocksCount() throws IOException {
return callGetStats()[ClientProtocol.GET_STATS_UNDER_REPLICATED_IDX];
}
/**
* Returns count of blocks with at least one replica marked corrupt.
* @throws IOException
*/
public long getCorruptBlocksCount() throws IOException {
return callGetStats()[ClientProtocol.GET_STATS_CORRUPT_BLOCKS_IDX];
}
/**
* Returns number of bytes that reside in Blocks with future generation
* stamps.
* @return Bytes in Blocks with future generation stamps.
* @throws IOException
*/
public long getBytesInFutureBlocks() throws IOException {
return callGetStats()[ClientProtocol.GET_STATS_BYTES_IN_FUTURE_BLOCKS_IDX];
}
/**
* @return a list in which each entry describes a corrupt file/block
* @throws IOException
*/
public CorruptFileBlocks listCorruptFileBlocks(String path,
String cookie)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("listCorruptFileBlocks", path);
try {
return namenode.listCorruptFileBlocks(path, cookie);
} finally {
scope.close();
}
}
public DatanodeInfo[] datanodeReport(DatanodeReportType type)
throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("datanodeReport", traceSampler);
try {
return namenode.getDatanodeReport(type);
} finally {
scope.close();
}
}
public DatanodeStorageReport[] getDatanodeStorageReport(
DatanodeReportType type) throws IOException {
checkOpen();
TraceScope scope =
Trace.startSpan("datanodeStorageReport", traceSampler);
try {
return namenode.getDatanodeStorageReport(type);
} finally {
scope.close();
}
}
/**
* Enter, leave or get safe mode.
*
* @see ClientProtocol#setSafeMode(HdfsConstants.SafeModeAction,boolean)
*/
public boolean setSafeMode(SafeModeAction action) throws IOException {
return setSafeMode(action, false);
}
/**
* Enter, leave or get safe mode.
*
* @param action
* One of SafeModeAction.GET, SafeModeAction.ENTER and
* SafeModeActiob.LEAVE
* @param isChecked
* If true, then check only active namenode's safemode status, else
* check first namenode's status.
* @see ClientProtocol#setSafeMode(HdfsConstants.SafeModeAction, boolean)
*/
public boolean setSafeMode(SafeModeAction action, boolean isChecked) throws IOException{
TraceScope scope =
Trace.startSpan("setSafeMode", traceSampler);
try {
return namenode.setSafeMode(action, isChecked);
} finally {
scope.close();
}
}
/**
* Create one snapshot.
*
* @param snapshotRoot The directory where the snapshot is to be taken
* @param snapshotName Name of the snapshot
* @return the snapshot path.
* @see ClientProtocol#createSnapshot(String, String)
*/
public String createSnapshot(String snapshotRoot, String snapshotName)
throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("createSnapshot", traceSampler);
try {
return namenode.createSnapshot(snapshotRoot, snapshotName);
} catch(RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
/**
* Delete a snapshot of a snapshottable directory.
*
* @param snapshotRoot The snapshottable directory that the
* to-be-deleted snapshot belongs to
* @param snapshotName The name of the to-be-deleted snapshot
* @throws IOException
* @see ClientProtocol#deleteSnapshot(String, String)
*/
public void deleteSnapshot(String snapshotRoot, String snapshotName)
throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("deleteSnapshot", traceSampler);
try {
namenode.deleteSnapshot(snapshotRoot, snapshotName);
} catch(RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
/**
* Rename a snapshot.
* @param snapshotDir The directory path where the snapshot was taken
* @param snapshotOldName Old name of the snapshot
* @param snapshotNewName New name of the snapshot
* @throws IOException
* @see ClientProtocol#renameSnapshot(String, String, String)
*/
public void renameSnapshot(String snapshotDir, String snapshotOldName,
String snapshotNewName) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("renameSnapshot", traceSampler);
try {
namenode.renameSnapshot(snapshotDir, snapshotOldName, snapshotNewName);
} catch(RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
/**
* Get all the current snapshottable directories.
* @return All the current snapshottable directories
* @throws IOException
* @see ClientProtocol#getSnapshottableDirListing()
*/
public SnapshottableDirectoryStatus[] getSnapshottableDirListing()
throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("getSnapshottableDirListing",
traceSampler);
try {
return namenode.getSnapshottableDirListing();
} catch(RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
/**
* Allow snapshot on a directory.
*
* @see ClientProtocol#allowSnapshot(String snapshotRoot)
*/
public void allowSnapshot(String snapshotRoot) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("allowSnapshot", traceSampler);
try {
namenode.allowSnapshot(snapshotRoot);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
/**
* Disallow snapshot on a directory.
*
* @see ClientProtocol#disallowSnapshot(String snapshotRoot)
*/
public void disallowSnapshot(String snapshotRoot) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("disallowSnapshot", traceSampler);
try {
namenode.disallowSnapshot(snapshotRoot);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
/**
* Get the difference between two snapshots, or between a snapshot and the
* current tree of a directory.
* @see ClientProtocol#getSnapshotDiffReport(String, String, String)
*/
public SnapshotDiffReport getSnapshotDiffReport(String snapshotDir,
String fromSnapshot, String toSnapshot) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("getSnapshotDiffReport", traceSampler);
try {
return namenode.getSnapshotDiffReport(snapshotDir,
fromSnapshot, toSnapshot);
} catch(RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public long addCacheDirective(
CacheDirectiveInfo info, EnumSet<CacheFlag> flags) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("addCacheDirective", traceSampler);
try {
return namenode.addCacheDirective(info, flags);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public void modifyCacheDirective(
CacheDirectiveInfo info, EnumSet<CacheFlag> flags) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("modifyCacheDirective", traceSampler);
try {
namenode.modifyCacheDirective(info, flags);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public void removeCacheDirective(long id)
throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("removeCacheDirective", traceSampler);
try {
namenode.removeCacheDirective(id);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public RemoteIterator<CacheDirectiveEntry> listCacheDirectives(
CacheDirectiveInfo filter) throws IOException {
return new CacheDirectiveIterator(namenode, filter, traceSampler);
}
public void addCachePool(CachePoolInfo info) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("addCachePool", traceSampler);
try {
namenode.addCachePool(info);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public void modifyCachePool(CachePoolInfo info) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("modifyCachePool", traceSampler);
try {
namenode.modifyCachePool(info);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public void removeCachePool(String poolName) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("removeCachePool", traceSampler);
try {
namenode.removeCachePool(poolName);
} catch (RemoteException re) {
throw re.unwrapRemoteException();
} finally {
scope.close();
}
}
public RemoteIterator<CachePoolEntry> listCachePools() throws IOException {
return new CachePoolIterator(namenode, traceSampler);
}
/**
* Save namespace image.
*
* @see ClientProtocol#saveNamespace()
*/
void saveNamespace() throws AccessControlException, IOException {
TraceScope scope = Trace.startSpan("saveNamespace", traceSampler);
try {
namenode.saveNamespace();
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class);
} finally {
scope.close();
}
}
/**
* Rolls the edit log on the active NameNode.
* @return the txid of the new log segment
*
* @see ClientProtocol#rollEdits()
*/
long rollEdits() throws AccessControlException, IOException {
TraceScope scope = Trace.startSpan("rollEdits", traceSampler);
try {
return namenode.rollEdits();
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class);
} finally {
scope.close();
}
}
@VisibleForTesting
ExtendedBlock getPreviousBlock(long fileId) {
return filesBeingWritten.get(fileId).getBlock();
}
/**
* enable/disable restore failed storage.
*
* @see ClientProtocol#restoreFailedStorage(String arg)
*/
boolean restoreFailedStorage(String arg)
throws AccessControlException, IOException{
TraceScope scope = Trace.startSpan("restoreFailedStorage", traceSampler);
try {
return namenode.restoreFailedStorage(arg);
} finally {
scope.close();
}
}
/**
* Refresh the hosts and exclude files. (Rereads them.)
* See {@link ClientProtocol#refreshNodes()}
* for more details.
*
* @see ClientProtocol#refreshNodes()
*/
public void refreshNodes() throws IOException {
TraceScope scope = Trace.startSpan("refreshNodes", traceSampler);
try {
namenode.refreshNodes();
} finally {
scope.close();
}
}
/**
* Dumps DFS data structures into specified file.
*
* @see ClientProtocol#metaSave(String)
*/
public void metaSave(String pathname) throws IOException {
TraceScope scope = Trace.startSpan("metaSave", traceSampler);
try {
namenode.metaSave(pathname);
} finally {
scope.close();
}
}
/**
* Requests the namenode to tell all datanodes to use a new, non-persistent
* bandwidth value for dfs.balance.bandwidthPerSec.
* See {@link ClientProtocol#setBalancerBandwidth(long)}
* for more details.
*
* @see ClientProtocol#setBalancerBandwidth(long)
*/
public void setBalancerBandwidth(long bandwidth) throws IOException {
TraceScope scope = Trace.startSpan("setBalancerBandwidth", traceSampler);
try {
namenode.setBalancerBandwidth(bandwidth);
} finally {
scope.close();
}
}
/**
* @see ClientProtocol#finalizeUpgrade()
*/
public void finalizeUpgrade() throws IOException {
TraceScope scope = Trace.startSpan("finalizeUpgrade", traceSampler);
try {
namenode.finalizeUpgrade();
} finally {
scope.close();
}
}
RollingUpgradeInfo rollingUpgrade(RollingUpgradeAction action) throws IOException {
TraceScope scope = Trace.startSpan("rollingUpgrade", traceSampler);
try {
return namenode.rollingUpgrade(action);
} finally {
scope.close();
}
}
/**
*/
@Deprecated
public boolean mkdirs(String src) throws IOException {
return mkdirs(src, null, true);
}
/**
* Create a directory (or hierarchy of directories) with the given
* name and permission.
*
* @param src The path of the directory being created
* @param permission The permission of the directory being created.
* If permission == null, use {@link FsPermission#getDefault()}.
* @param createParent create missing parent directory if true
*
* @return True if the operation success.
*
* @see ClientProtocol#mkdirs(String, FsPermission, boolean)
*/
public boolean mkdirs(String src, FsPermission permission,
boolean createParent) throws IOException {
if (permission == null) {
permission = FsPermission.getDefault();
}
FsPermission masked = permission.applyUMask(dfsClientConf.uMask);
return primitiveMkdir(src, masked, createParent);
}
/**
* Same {{@link #mkdirs(String, FsPermission, boolean)} except
* that the permissions has already been masked against umask.
*/
public boolean primitiveMkdir(String src, FsPermission absPermission)
throws IOException {
return primitiveMkdir(src, absPermission, true);
}
/**
* Same {{@link #mkdirs(String, FsPermission, boolean)} except
* that the permissions has already been masked against umask.
*/
public boolean primitiveMkdir(String src, FsPermission absPermission,
boolean createParent)
throws IOException {
checkOpen();
if (absPermission == null) {
absPermission =
FsPermission.getDefault().applyUMask(dfsClientConf.uMask);
}
if(LOG.isDebugEnabled()) {
LOG.debug(src + ": masked=" + absPermission);
}
TraceScope scope = Trace.startSpan("mkdir", traceSampler);
try {
return namenode.mkdirs(src, absPermission, createParent);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
InvalidPathException.class,
FileAlreadyExistsException.class,
FileNotFoundException.class,
ParentNotDirectoryException.class,
SafeModeException.class,
NSQuotaExceededException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Get {@link ContentSummary} rooted at the specified directory.
* @param src The string representation of the path
*
* @see ClientProtocol#getContentSummary(String)
*/
ContentSummary getContentSummary(String src) throws IOException {
TraceScope scope = getPathTraceScope("getContentSummary", src);
try {
return namenode.getContentSummary(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
/**
* Get {@link org.apache.hadoop.fs.QuotaUsage} rooted at the specified directory.
* @param src The string representation of the path
*
* @see ClientProtocol#getQuotaUsage(String)
*/
QuotaUsage getQuotaUsage(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getQuotaUsage", src);
try {
return namenode.getQuotaUsage(src);
} catch(RemoteException re) {
IOException ioe = re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class,
RpcNoSuchMethodException.class);
if (ioe instanceof RpcNoSuchMethodException) {
LOG.debug("The version of namenode doesn't support getQuotaUsage API." +
" Fall back to use getContentSummary API.");
return getContentSummary(src);
} else {
throw ioe;
}
} finally {
scope.close();
}
}
/**
* Sets or resets quotas for a directory.
* @see ClientProtocol#setQuota(String, long, long, StorageType)
*/
void setQuota(String src, long namespaceQuota, long storagespaceQuota)
throws IOException {
// sanity check
if ((namespaceQuota <= 0 && namespaceQuota != HdfsConstants.QUOTA_DONT_SET &&
namespaceQuota != HdfsConstants.QUOTA_RESET) ||
(storagespaceQuota < 0 && storagespaceQuota != HdfsConstants.QUOTA_DONT_SET &&
storagespaceQuota != HdfsConstants.QUOTA_RESET)) {
throw new IllegalArgumentException("Invalid values for quota : " +
namespaceQuota + " and " +
storagespaceQuota);
}
TraceScope scope = getPathTraceScope("setQuota", src);
try {
// Pass null as storage type for traditional namespace/storagespace quota.
namenode.setQuota(src, namespaceQuota, storagespaceQuota, null);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
DSQuotaExceededException.class,
QuotaByStorageTypeExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* Sets or resets quotas by storage type for a directory.
* @see ClientProtocol#setQuota(String, long, long, StorageType)
*/
void setQuotaByStorageType(String src, StorageType type, long quota)
throws IOException {
if (quota <= 0 && quota != HdfsConstants.QUOTA_DONT_SET &&
quota != HdfsConstants.QUOTA_RESET) {
throw new IllegalArgumentException("Invalid values for quota :" +
quota);
}
if (type == null) {
throw new IllegalArgumentException("Invalid storage type(null)");
}
if (!type.supportTypeQuota()) {
throw new IllegalArgumentException("Don't support Quota for storage type : "
+ type.toString());
}
TraceScope scope = getPathTraceScope("setQuotaByStorageType", src);
try {
namenode.setQuota(src, HdfsConstants.QUOTA_DONT_SET, quota, type);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
QuotaByStorageTypeExceededException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* set the modification and access time of a file
*
* @see ClientProtocol#setTimes(String, long, long)
*/
public void setTimes(String src, long mtime, long atime) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("setTimes", src);
try {
namenode.setTimes(src, mtime, atime);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class,
SnapshotAccessControlException.class);
} finally {
scope.close();
}
}
/**
* @deprecated use {@link HdfsDataInputStream} instead.
*/
@Deprecated
public static class DFSDataInputStream extends HdfsDataInputStream {
public DFSDataInputStream(DFSInputStream in) throws IOException {
super(in);
}
}
void reportChecksumFailure(String file, ExtendedBlock blk, DatanodeInfo dn) {
DatanodeInfo [] dnArr = { dn };
LocatedBlock [] lblocks = { new LocatedBlock(blk, dnArr) };
reportChecksumFailure(file, lblocks);
}
// just reports checksum failure and ignores any exception during the report.
void reportChecksumFailure(String file, LocatedBlock lblocks[]) {
try {
reportBadBlocks(lblocks);
} catch (IOException ie) {
LOG.info("Found corruption while reading " + file
+ ". Error repairing corrupt blocks. Bad blocks remain.", ie);
}
}
@Override
public String toString() {
return getClass().getSimpleName() + "[clientName=" + clientName
+ ", ugi=" + ugi + "]";
}
public CachingStrategy getDefaultReadCachingStrategy() {
return defaultReadCachingStrategy;
}
public CachingStrategy getDefaultWriteCachingStrategy() {
return defaultWriteCachingStrategy;
}
public ClientContext getClientContext() {
return clientContext;
}
public void modifyAclEntries(String src, List<AclEntry> aclSpec)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("modifyAclEntries", src);
try {
namenode.modifyAclEntries(src, aclSpec);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
AclException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void removeAclEntries(String src, List<AclEntry> aclSpec)
throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("removeAclEntries", traceSampler);
try {
namenode.removeAclEntries(src, aclSpec);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
AclException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void removeDefaultAcl(String src) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("removeDefaultAcl", traceSampler);
try {
namenode.removeDefaultAcl(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
AclException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void removeAcl(String src) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("removeAcl", traceSampler);
try {
namenode.removeAcl(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
AclException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void setAcl(String src, List<AclEntry> aclSpec) throws IOException {
checkOpen();
TraceScope scope = Trace.startSpan("setAcl", traceSampler);
try {
namenode.setAcl(src, aclSpec);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
AclException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public AclStatus getAclStatus(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getAclStatus", src);
try {
return namenode.getAclStatus(src);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
AclException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void createEncryptionZone(String src, String keyName)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("createEncryptionZone", src);
try {
namenode.createEncryptionZone(src, keyName);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
SafeModeException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public EncryptionZone getEZForPath(String src)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getEZForPath", src);
try {
return namenode.getEZForPath(src);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public RemoteIterator<EncryptionZone> listEncryptionZones()
throws IOException {
checkOpen();
return new EncryptionZoneIterator(namenode, traceSampler);
}
public void setXAttr(String src, String name, byte[] value,
EnumSet<XAttrSetFlag> flag) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("setXAttr", src);
try {
namenode.setXAttr(src, XAttrHelper.buildXAttr(name, value), flag);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public byte[] getXAttr(String src, String name) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getXAttr", src);
try {
final List<XAttr> xAttrs = XAttrHelper.buildXAttrAsList(name);
final List<XAttr> result = namenode.getXAttrs(src, xAttrs);
return XAttrHelper.getFirstXAttrValue(result);
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public Map<String, byte[]> getXAttrs(String src) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getXAttrs", src);
try {
return XAttrHelper.buildXAttrMap(namenode.getXAttrs(src, null));
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public Map<String, byte[]> getXAttrs(String src, List<String> names)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("getXAttrs", src);
try {
return XAttrHelper.buildXAttrMap(namenode.getXAttrs(
src, XAttrHelper.buildXAttrs(names)));
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public List<String> listXAttrs(String src)
throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("listXAttrs", src);
try {
final Map<String, byte[]> xattrs =
XAttrHelper.buildXAttrMap(namenode.listXAttrs(src));
return Lists.newArrayList(xattrs.keySet());
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void removeXAttr(String src, String name) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("removeXAttr", src);
try {
namenode.removeXAttr(src, XAttrHelper.buildXAttr(name));
} catch(RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
NSQuotaExceededException.class,
SafeModeException.class,
SnapshotAccessControlException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public void checkAccess(String src, FsAction mode) throws IOException {
checkOpen();
TraceScope scope = getPathTraceScope("checkAccess", src);
try {
namenode.checkAccess(src, mode);
} catch (RemoteException re) {
throw re.unwrapRemoteException(AccessControlException.class,
FileNotFoundException.class,
UnresolvedPathException.class);
} finally {
scope.close();
}
}
public DFSInotifyEventInputStream getInotifyEventStream() throws IOException {
return new DFSInotifyEventInputStream(traceSampler, namenode);
}
public DFSInotifyEventInputStream getInotifyEventStream(long lastReadTxid)
throws IOException {
return new DFSInotifyEventInputStream(traceSampler, namenode, lastReadTxid);
}
@Override // RemotePeerFactory
public Peer newConnectedPeer(InetSocketAddress addr,
Token<BlockTokenIdentifier> blockToken, DatanodeID datanodeId)
throws IOException {
Peer peer = null;
boolean success = false;
Socket sock = null;
try {
sock = socketFactory.createSocket();
NetUtils.connect(sock, addr,
getRandomLocalInterfaceAddr(),
dfsClientConf.socketTimeout);
peer = TcpPeerServer.peerFromSocketAndKey(saslClient, sock, this,
blockToken, datanodeId, dfsClientConf.socketTimeout);
success = true;
return peer;
} finally {
if (!success) {
IOUtils.cleanup(LOG, peer);
IOUtils.closeSocket(sock);
}
}
}
/**
* Create hedged reads thread pool, HEDGED_READ_THREAD_POOL, if
* it does not already exist.
* @param num Number of threads for hedged reads thread pool.
* If zero, skip hedged reads thread pool creation.
*/
private synchronized void initThreadsNumForHedgedReads(int num) {
if (num <= 0 || HEDGED_READ_THREAD_POOL != null) return;
HEDGED_READ_THREAD_POOL = new ThreadPoolExecutor(1, num, 60,
TimeUnit.SECONDS, new SynchronousQueue<Runnable>(),
new Daemon.DaemonFactory() {
private final AtomicInteger threadIndex =
new AtomicInteger(0);
@Override
public Thread newThread(Runnable r) {
Thread t = super.newThread(r);
t.setName("hedgedRead-" +
threadIndex.getAndIncrement());
return t;
}
},
new ThreadPoolExecutor.CallerRunsPolicy() {
@Override
public void rejectedExecution(Runnable runnable,
ThreadPoolExecutor e) {
LOG.info("Execution rejected, Executing in current thread");
HEDGED_READ_METRIC.incHedgedReadOpsInCurThread();
// will run in the current thread
super.rejectedExecution(runnable, e);
}
});
HEDGED_READ_THREAD_POOL.allowCoreThreadTimeOut(true);
if (LOG.isDebugEnabled()) {
LOG.debug("Using hedged reads; pool threads=" + num);
}
}
long getHedgedReadTimeout() {
return this.hedgedReadThresholdMillis;
}
@VisibleForTesting
void setHedgedReadTimeout(long timeoutMillis) {
this.hedgedReadThresholdMillis = timeoutMillis;
}
ThreadPoolExecutor getHedgedReadsThreadPool() {
return HEDGED_READ_THREAD_POOL;
}
boolean isHedgedReadsEnabled() {
return (HEDGED_READ_THREAD_POOL != null) &&
HEDGED_READ_THREAD_POOL.getMaximumPoolSize() > 0;
}
DFSHedgedReadMetrics getHedgedReadMetrics() {
return HEDGED_READ_METRIC;
}
public KeyProvider getKeyProvider() {
return clientContext.getKeyProviderCache().get(conf);
}
@VisibleForTesting
public void setKeyProvider(KeyProvider provider) {
try {
clientContext.getKeyProviderCache().setKeyProvider(conf, provider);
} catch (IOException e) {
LOG.error("Could not set KeyProvider !!", e);
}
}
/**
* Probe for encryption enabled on this filesystem.
* See {@link DFSUtil#isHDFSEncryptionEnabled(Configuration)}
* @return true if encryption is enabled
*/
public boolean isHDFSEncryptionEnabled() {
return DFSUtil.isHDFSEncryptionEnabled(this.conf);
}
/**
* Returns the SaslDataTransferClient configured for this DFSClient.
*
* @return SaslDataTransferClient configured for this DFSClient
*/
public SaslDataTransferClient getSaslDataTransferClient() {
return saslClient;
}
private static final byte[] PATH = "path".getBytes(Charset.forName("UTF-8"));
TraceScope getPathTraceScope(String description, String path) {
TraceScope scope = Trace.startSpan(description, traceSampler);
Span span = scope.getSpan();
if (span != null) {
if (path != null) {
span.addKVAnnotation(PATH,
path.getBytes(Charset.forName("UTF-8")));
}
}
return scope;
}
private static final byte[] SRC = "src".getBytes(Charset.forName("UTF-8"));
private static final byte[] DST = "dst".getBytes(Charset.forName("UTF-8"));
TraceScope getSrcDstTraceScope(String description, String src, String dst) {
TraceScope scope = Trace.startSpan(description, traceSampler);
Span span = scope.getSpan();
if (span != null) {
if (src != null) {
span.addKVAnnotation(SRC,
src.getBytes(Charset.forName("UTF-8")));
}
if (dst != null) {
span.addKVAnnotation(DST,
dst.getBytes(Charset.forName("UTF-8")));
}
}
return scope;
}
}