Java tutorial
/* * 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.ignite.igfs.hadoop.v2; import org.apache.commons.logging.*; import org.apache.hadoop.conf.*; import org.apache.hadoop.fs.*; import org.apache.hadoop.fs.Options; import org.apache.hadoop.fs.permission.*; import org.apache.hadoop.mapreduce.*; import org.apache.hadoop.util.*; import org.apache.ignite.*; import org.apache.ignite.igfs.*; import org.apache.ignite.internal.igfs.common.*; import org.apache.ignite.internal.igfs.hadoop.*; import org.apache.ignite.internal.processors.igfs.*; import org.apache.ignite.internal.util.typedef.*; import org.apache.ignite.internal.util.typedef.internal.*; import org.jetbrains.annotations.*; import java.io.*; import java.net.*; import java.util.*; import java.util.concurrent.atomic.*; import static org.apache.ignite.IgniteFs.*; import static org.apache.ignite.configuration.IgfsConfiguration.*; import static org.apache.ignite.igfs.IgfsMode.*; import static org.apache.ignite.igfs.hadoop.IgfsHadoopParameters.*; import static org.apache.ignite.internal.igfs.hadoop.IgfsHadoopUtils.*; /** * {@code IGFS} Hadoop 2.x file system driver over file system API. To use * {@code IGFS} as Hadoop file system, you should configure this class * in Hadoop's {@code core-site.xml} as follows: * <pre name="code" class="xml"> * <property> * <name>fs.default.name</name> * <value>igfs://ipc</value> * </property> * * <property> * <name>fs.igfs.impl</name> * <value>org.apache.ignite.igfs.hadoop.IgfsHadoopFileSystem</value> * </property> * </pre> * You should also add Ignite JAR and all libraries to Hadoop classpath. To * do this, add following lines to {@code conf/hadoop-env.sh} script in Hadoop * distribution: * <pre name="code" class="bash"> * export IGNITE_HOME=/path/to/Ignite/distribution * export HADOOP_CLASSPATH=$IGNITE_HOME/ignite*.jar * * for f in $IGNITE_HOME/libs/*.jar; do * export HADOOP_CLASSPATH=$HADOOP_CLASSPATH:$f; * done * </pre> * <h1 class="header">Data vs Clients Nodes</h1> * Hadoop needs to use its FileSystem remotely from client nodes as well as directly on * data nodes. Client nodes are responsible for basic file system operations as well as * accessing data nodes remotely. Usually, client nodes are started together * with {@code job-submitter} or {@code job-scheduler} processes, while data nodes are usually * started together with Hadoop {@code task-tracker} processes. * <p> * For sample client and data node configuration refer to {@code config/hadoop/default-config-client.xml} * and {@code config/hadoop/default-config.xml} configuration files in Ignite installation. */ public class IgfsHadoopFileSystem extends AbstractFileSystem implements Closeable { /** Logger. */ private static final Log LOG = LogFactory.getLog(IgfsHadoopFileSystem.class); /** Ensures that close routine is invoked at most once. */ private final AtomicBoolean closeGuard = new AtomicBoolean(); /** Grid remote client. */ private IgfsHadoopWrapper rmtClient; /** Working directory. */ private IgfsPath workingDir; /** URI. */ private URI uri; /** Authority. */ private String uriAuthority; /** Client logger. */ private IgfsLogger clientLog; /** Server block size. */ private long grpBlockSize; /** Default replication factor. */ private short dfltReplication; /** Secondary URI string. */ private URI secondaryUri; /** Mode resolver. */ private IgfsModeResolver modeRslvr; /** Secondary file system instance. */ private AbstractFileSystem secondaryFs; /** Whether custom sequential reads before prefetch value is provided. */ private boolean seqReadsBeforePrefetchOverride; /** Custom-provided sequential reads before prefetch. */ private int seqReadsBeforePrefetch; /** Flag that controls whether file writes should be colocated on data node. */ private boolean colocateFileWrites; /** Prefer local writes. */ private boolean preferLocFileWrites; /** * @param name URI for file system. * @param cfg Configuration. * @throws URISyntaxException if name has invalid syntax. * @throws IOException If initialization failed. */ public IgfsHadoopFileSystem(URI name, Configuration cfg) throws URISyntaxException, IOException { super(IgfsHadoopEndpoint.normalize(name), IGFS_SCHEME, false, -1); uri = name; try { initialize(name, cfg); } catch (IOException e) { // Close client if exception occurred. if (rmtClient != null) rmtClient.close(false); throw e; } workingDir = new IgfsPath("/user/" + cfg.get(MRJobConfig.USER_NAME, DFLT_USER_NAME)); } /** {@inheritDoc} */ @Override public void checkPath(Path path) { URI uri = path.toUri(); if (uri.isAbsolute()) { if (!F.eq(uri.getScheme(), IGFS_SCHEME)) throw new InvalidPathException( "Wrong path scheme [expected=" + IGFS_SCHEME + ", actual=" + uri.getAuthority() + ']'); if (!F.eq(uri.getAuthority(), uriAuthority)) throw new InvalidPathException( "Wrong path authority [expected=" + uriAuthority + ", actual=" + uri.getAuthority() + ']'); } } /** * Public setter that can be used by direct users of FS or Visor. * * @param colocateFileWrites Whether all ongoing file writes should be colocated. */ @SuppressWarnings("UnusedDeclaration") public void colocateFileWrites(boolean colocateFileWrites) { this.colocateFileWrites = colocateFileWrites; } /** * Enter busy state. * * @throws IOException If file system is stopped. */ private void enterBusy() throws IOException { if (closeGuard.get()) throw new IOException("File system is stopped."); } /** * Leave busy state. */ private void leaveBusy() { // No-op. } /** * @param name URI passed to constructor. * @param cfg Configuration passed to constructor. * @throws IOException If initialization failed. */ private void initialize(URI name, Configuration cfg) throws IOException { enterBusy(); try { if (rmtClient != null) throw new IOException("File system is already initialized: " + rmtClient); A.notNull(name, "name"); A.notNull(cfg, "cfg"); if (!IGFS_SCHEME.equals(name.getScheme())) throw new IOException("Illegal file system URI [expected=" + IGFS_SCHEME + "://[name]/[optional_path], actual=" + name + ']'); uriAuthority = name.getAuthority(); // Override sequential reads before prefetch if needed. seqReadsBeforePrefetch = parameter(cfg, PARAM_IGFS_SEQ_READS_BEFORE_PREFETCH, uriAuthority, 0); if (seqReadsBeforePrefetch > 0) seqReadsBeforePrefetchOverride = true; // In GG replication factor is controlled by data cache affinity. // We use replication factor to force the whole file to be stored on local node. dfltReplication = (short) cfg.getInt("dfs.replication", 3); // Get file colocation control flag. colocateFileWrites = parameter(cfg, PARAM_IGFS_COLOCATED_WRITES, uriAuthority, false); preferLocFileWrites = cfg.getBoolean(PARAM_IGFS_PREFER_LOCAL_WRITES, false); // Get log directory. String logDirCfg = parameter(cfg, PARAM_IGFS_LOG_DIR, uriAuthority, DFLT_IGFS_LOG_DIR); File logDirFile = U.resolveIgnitePath(logDirCfg); String logDir = logDirFile != null ? logDirFile.getAbsolutePath() : null; rmtClient = new IgfsHadoopWrapper(uriAuthority, logDir, cfg, LOG); // Handshake. IgfsHandshakeResponse handshake = rmtClient.handshake(logDir); grpBlockSize = handshake.blockSize(); IgfsPaths paths = handshake.secondaryPaths(); Boolean logEnabled = parameter(cfg, PARAM_IGFS_LOG_ENABLED, uriAuthority, false); if (handshake.sampling() != null ? handshake.sampling() : logEnabled) { // Initiate client logger. if (logDir == null) throw new IOException("Failed to resolve log directory: " + logDirCfg); Integer batchSize = parameter(cfg, PARAM_IGFS_LOG_BATCH_SIZE, uriAuthority, DFLT_IGFS_LOG_BATCH_SIZE); clientLog = IgfsLogger.logger(uriAuthority, handshake.igfsName(), logDir, batchSize); } else clientLog = IgfsLogger.disabledLogger(); modeRslvr = new IgfsModeResolver(paths.defaultMode(), paths.pathModes()); boolean initSecondary = paths.defaultMode() == PROXY; if (paths.pathModes() != null) { for (T2<IgfsPath, IgfsMode> pathMode : paths.pathModes()) { IgfsMode mode = pathMode.getValue(); initSecondary |= mode == PROXY; } } if (initSecondary) { Map<String, String> props = paths.properties(); String secUri = props.get(IgfsHadoopFileSystemWrapper.SECONDARY_FS_URI); String secConfPath = props.get(IgfsHadoopFileSystemWrapper.SECONDARY_FS_CONFIG_PATH); if (secConfPath == null) throw new IOException("Failed to connect to the secondary file system because configuration " + "path is not provided."); if (secUri == null) throw new IOException( "Failed to connect to the secondary file system because URI is not " + "provided."); if (secConfPath == null) throw new IOException("Failed to connect to the secondary file system because configuration " + "path is not provided."); if (secUri == null) throw new IOException( "Failed to connect to the secondary file system because URI is not " + "provided."); try { secondaryUri = new URI(secUri); URL secondaryCfgUrl = U.resolveIgniteUrl(secConfPath); if (secondaryCfgUrl == null) throw new IOException("Failed to resolve secondary file system config URL: " + secConfPath); Configuration conf = new Configuration(); conf.addResource(secondaryCfgUrl); String prop = String.format("fs.%s.impl.disable.cache", secondaryUri.getScheme()); conf.setBoolean(prop, true); secondaryFs = AbstractFileSystem.get(secondaryUri, conf); } catch (URISyntaxException ignore) { throw new IOException("Failed to resolve secondary file system URI: " + secUri); } catch (IOException e) { throw new IOException("Failed to connect to the secondary file system: " + secUri, e); } } } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public void close() throws IOException { if (closeGuard.compareAndSet(false, true)) { if (rmtClient == null) return; rmtClient.close(false); if (clientLog.isLogEnabled()) clientLog.close(); // Reset initialized resources. rmtClient = null; } } /** {@inheritDoc} */ @Override public URI getUri() { return uri; } /** {@inheritDoc} */ @Override public int getUriDefaultPort() { return -1; } /** {@inheritDoc} */ @Override public FsServerDefaults getServerDefaults() throws IOException { return new FsServerDefaults(grpBlockSize, (int) grpBlockSize, (int) grpBlockSize, dfltReplication, 64 * 1024, false, 0, DataChecksum.Type.NULL); } /** {@inheritDoc} */ @Override public boolean setReplication(Path f, short replication) throws IOException { return mode(f) == PROXY && secondaryFs.setReplication(f, replication); } /** {@inheritDoc} */ @Override public void setTimes(Path f, long mtime, long atime) throws IOException { if (mode(f) == PROXY) secondaryFs.setTimes(f, mtime, atime); else { if (mtime == -1 && atime == -1) return; rmtClient.setTimes(convert(f), atime, mtime); } } /** {@inheritDoc} */ @Override public FsStatus getFsStatus() throws IOException { IgfsStatus status = rmtClient.fsStatus(); return new FsStatus(status.spaceTotal(), status.spaceUsed(), status.spaceTotal() - status.spaceUsed()); } /** {@inheritDoc} */ @Override public void setPermission(Path p, FsPermission perm) throws IOException { enterBusy(); try { A.notNull(p, "p"); if (mode(p) == PROXY) secondaryFs.setPermission(toSecondary(p), perm); else { if (rmtClient.update(convert(p), permission(perm)) == null) throw new IOException("Failed to set file permission (file not found?)" + " [path=" + p + ", perm=" + perm + ']'); } } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public void setOwner(Path p, String usr, String grp) throws IOException { A.notNull(p, "p"); A.notNull(usr, "username"); A.notNull(grp, "grpName"); enterBusy(); try { if (mode(p) == PROXY) secondaryFs.setOwner(toSecondary(p), usr, grp); else if (rmtClient.update(convert(p), F.asMap(PROP_USER_NAME, usr, PROP_GROUP_NAME, grp)) == null) throw new IOException("Failed to set file permission (file not found?)" + " [path=" + p + ", username=" + usr + ", grpName=" + grp + ']'); } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public FSDataInputStream open(Path f, int bufSize) throws IOException { A.notNull(f, "f"); enterBusy(); try { IgfsPath path = convert(f); IgfsMode mode = modeRslvr.resolveMode(path); if (mode == PROXY) { FSDataInputStream is = secondaryFs.open(toSecondary(f), bufSize); if (clientLog.isLogEnabled()) { // At this point we do not know file size, so we perform additional request to remote FS to get it. FileStatus status = secondaryFs.getFileStatus(toSecondary(f)); long size = status != null ? status.getLen() : -1; long logId = IgfsLogger.nextId(); clientLog.logOpen(logId, path, PROXY, bufSize, size); return new FSDataInputStream(new IgfsHadoopProxyInputStream(is, clientLog, logId)); } else return is; } else { IgfsHadoopStreamDelegate stream = seqReadsBeforePrefetchOverride ? rmtClient.open(path, seqReadsBeforePrefetch) : rmtClient.open(path); long logId = -1; if (clientLog.isLogEnabled()) { logId = IgfsLogger.nextId(); clientLog.logOpen(logId, path, mode, bufSize, stream.length()); } if (LOG.isDebugEnabled()) LOG.debug("Opening input stream [thread=" + Thread.currentThread().getName() + ", path=" + path + ", bufSize=" + bufSize + ']'); IgfsHadoopInputStream igfsIn = new IgfsHadoopInputStream(stream, stream.length(), bufSize, LOG, clientLog, logId); if (LOG.isDebugEnabled()) LOG.debug("Opened input stream [path=" + path + ", delegate=" + stream + ']'); return new FSDataInputStream(igfsIn); } } finally { leaveBusy(); } } /** {@inheritDoc} */ @SuppressWarnings("deprecation") @Override public FSDataOutputStream createInternal(Path f, EnumSet<CreateFlag> flag, FsPermission perm, int bufSize, short replication, long blockSize, Progressable progress, Options.ChecksumOpt checksumOpt, boolean createParent) throws IOException { A.notNull(f, "f"); enterBusy(); boolean overwrite = flag.contains(CreateFlag.OVERWRITE); boolean append = flag.contains(CreateFlag.APPEND); boolean create = flag.contains(CreateFlag.CREATE); OutputStream out = null; try { IgfsPath path = convert(f); IgfsMode mode = modeRslvr.resolveMode(path); if (LOG.isDebugEnabled()) LOG.debug("Opening output stream in create [thread=" + Thread.currentThread().getName() + "path=" + path + ", overwrite=" + overwrite + ", bufSize=" + bufSize + ']'); if (mode == PROXY) { FSDataOutputStream os = secondaryFs.createInternal(toSecondary(f), flag, perm, bufSize, replication, blockSize, progress, checksumOpt, createParent); if (clientLog.isLogEnabled()) { long logId = IgfsLogger.nextId(); if (append) clientLog.logAppend(logId, path, PROXY, bufSize); // Don't have stream ID. else clientLog.logCreate(logId, path, PROXY, overwrite, bufSize, replication, blockSize); return new FSDataOutputStream(new IgfsHadoopProxyOutputStream(os, clientLog, logId)); } else return os; } else { Map<String, String> permMap = F.asMap(PROP_PERMISSION, toString(perm), PROP_PREFER_LOCAL_WRITES, Boolean.toString(preferLocFileWrites)); // Create stream and close it in the 'finally' section if any sequential operation failed. IgfsHadoopStreamDelegate stream; long logId = -1; if (append) { stream = rmtClient.append(path, create, permMap); if (clientLog.isLogEnabled()) { logId = IgfsLogger.nextId(); clientLog.logAppend(logId, path, mode, bufSize); } if (LOG.isDebugEnabled()) LOG.debug("Opened output stream in append [path=" + path + ", delegate=" + stream + ']'); } else { stream = rmtClient.create(path, overwrite, colocateFileWrites, replication, blockSize, permMap); if (clientLog.isLogEnabled()) { logId = IgfsLogger.nextId(); clientLog.logCreate(logId, path, mode, overwrite, bufSize, replication, blockSize); } if (LOG.isDebugEnabled()) LOG.debug("Opened output stream in create [path=" + path + ", delegate=" + stream + ']'); } assert stream != null; IgfsHadoopOutputStream igfsOut = new IgfsHadoopOutputStream(stream, LOG, clientLog, logId); bufSize = Math.max(64 * 1024, bufSize); out = new BufferedOutputStream(igfsOut, bufSize); FSDataOutputStream res = new FSDataOutputStream(out, null, 0); // Mark stream created successfully. out = null; return res; } } finally { // Close if failed during stream creation. if (out != null) U.closeQuiet(out); leaveBusy(); } } /** {@inheritDoc} */ @Override public boolean supportsSymlinks() { return false; } /** {@inheritDoc} */ @Override public void renameInternal(Path src, Path dst) throws IOException { A.notNull(src, "src"); A.notNull(dst, "dst"); enterBusy(); try { IgfsPath srcPath = convert(src); IgfsPath dstPath = convert(dst); Set<IgfsMode> childrenModes = modeRslvr.resolveChildrenModes(srcPath); if (childrenModes.contains(PROXY)) { if (clientLog.isLogEnabled()) clientLog.logRename(srcPath, PROXY, dstPath); secondaryFs.renameInternal(toSecondary(src), toSecondary(dst)); } rmtClient.rename(srcPath, dstPath); if (clientLog.isLogEnabled()) clientLog.logRename(srcPath, modeRslvr.resolveMode(srcPath), dstPath); } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public boolean delete(Path f, boolean recursive) throws IOException { A.notNull(f, "f"); enterBusy(); try { IgfsPath path = convert(f); IgfsMode mode = modeRslvr.resolveMode(path); Set<IgfsMode> childrenModes = modeRslvr.resolveChildrenModes(path); if (childrenModes.contains(PROXY)) { if (clientLog.isLogEnabled()) clientLog.logDelete(path, PROXY, recursive); return secondaryFs.delete(toSecondary(f), recursive); } boolean res = rmtClient.delete(path, recursive); if (clientLog.isLogEnabled()) clientLog.logDelete(path, mode, recursive); return res; } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public void setVerifyChecksum(boolean verifyChecksum) throws IOException { // Checksum has effect for secondary FS only. if (secondaryFs != null) secondaryFs.setVerifyChecksum(verifyChecksum); } /** {@inheritDoc} */ @Override public FileChecksum getFileChecksum(Path f) throws IOException { if (mode(f) == PROXY) return secondaryFs.getFileChecksum(f); return null; } /** {@inheritDoc} */ @Override public FileStatus[] listStatus(Path f) throws IOException { A.notNull(f, "f"); enterBusy(); try { IgfsPath path = convert(f); IgfsMode mode = modeRslvr.resolveMode(path); if (mode == PROXY) { FileStatus[] arr = secondaryFs.listStatus(toSecondary(f)); if (arr == null) throw new FileNotFoundException("File " + f + " does not exist."); for (int i = 0; i < arr.length; i++) arr[i] = toPrimary(arr[i]); if (clientLog.isLogEnabled()) { String[] fileArr = new String[arr.length]; for (int i = 0; i < arr.length; i++) fileArr[i] = arr[i].getPath().toString(); clientLog.logListDirectory(path, PROXY, fileArr); } return arr; } else { Collection<IgfsFile> list = rmtClient.listFiles(path); if (list == null) throw new FileNotFoundException("File " + f + " does not exist."); List<IgfsFile> files = new ArrayList<>(list); FileStatus[] arr = new FileStatus[files.size()]; for (int i = 0; i < arr.length; i++) arr[i] = convert(files.get(i)); if (clientLog.isLogEnabled()) { String[] fileArr = new String[arr.length]; for (int i = 0; i < arr.length; i++) fileArr[i] = arr[i].getPath().toString(); clientLog.logListDirectory(path, mode, fileArr); } return arr; } } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public void mkdir(Path f, FsPermission perm, boolean createParent) throws IOException { A.notNull(f, "f"); enterBusy(); try { IgfsPath path = convert(f); IgfsMode mode = modeRslvr.resolveMode(path); if (mode == PROXY) { if (clientLog.isLogEnabled()) clientLog.logMakeDirectory(path, PROXY); secondaryFs.mkdir(toSecondary(f), perm, createParent); } else { rmtClient.mkdirs(path, permission(perm)); if (clientLog.isLogEnabled()) clientLog.logMakeDirectory(path, mode); } } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public FileStatus getFileStatus(Path f) throws IOException { A.notNull(f, "f"); enterBusy(); try { if (mode(f) == PROXY) return toPrimary(secondaryFs.getFileStatus(toSecondary(f))); else { IgfsFile info = rmtClient.info(convert(f)); if (info == null) throw new FileNotFoundException("File not found: " + f); return convert(info); } } finally { leaveBusy(); } } /** {@inheritDoc} */ @Override public BlockLocation[] getFileBlockLocations(Path path, long start, long len) throws IOException { A.notNull(path, "path"); IgfsPath igfsPath = convert(path); enterBusy(); try { if (modeRslvr.resolveMode(igfsPath) == PROXY) return secondaryFs.getFileBlockLocations(path, start, len); else { long now = System.currentTimeMillis(); List<IgfsBlockLocation> affinity = new ArrayList<>(rmtClient.affinity(igfsPath, start, len)); BlockLocation[] arr = new BlockLocation[affinity.size()]; for (int i = 0; i < arr.length; i++) arr[i] = convert(affinity.get(i)); if (LOG.isDebugEnabled()) LOG.debug("Fetched file locations [path=" + path + ", fetchTime=" + (System.currentTimeMillis() - now) + ", locations=" + Arrays.asList(arr) + ']'); return arr; } } finally { leaveBusy(); } } /** * Resolve path mode. * * @param path HDFS path. * @return Path mode. */ public IgfsMode mode(Path path) { return modeRslvr.resolveMode(convert(path)); } /** * Convert the given path to path acceptable by the primary file system. * * @param path Path. * @return Primary file system path. */ private Path toPrimary(Path path) { return convertPath(path, getUri()); } /** * Convert the given path to path acceptable by the secondary file system. * * @param path Path. * @return Secondary file system path. */ private Path toSecondary(Path path) { assert secondaryFs != null; assert secondaryUri != null; return convertPath(path, secondaryUri); } /** * Convert path using the given new URI. * * @param path Old path. * @param newUri New URI. * @return New path. */ private Path convertPath(Path path, URI newUri) { assert newUri != null; if (path != null) { URI pathUri = path.toUri(); try { return new Path(new URI(pathUri.getScheme() != null ? newUri.getScheme() : null, pathUri.getAuthority() != null ? newUri.getAuthority() : null, pathUri.getPath(), null, null)); } catch (URISyntaxException e) { throw new IgniteException("Failed to construct secondary file system path from the primary file " + "system path: " + path, e); } } else return null; } /** * Convert a file status obtained from the secondary file system to a status of the primary file system. * * @param status Secondary file system status. * @return Primary file system status. */ private FileStatus toPrimary(FileStatus status) { return status != null ? new FileStatus(status.getLen(), status.isDirectory(), status.getReplication(), status.getBlockSize(), status.getModificationTime(), status.getAccessTime(), status.getPermission(), status.getOwner(), status.getGroup(), toPrimary(status.getPath())) : null; } /** * Convert IGFS path into Hadoop path. * * @param path IGFS path. * @return Hadoop path. */ private Path convert(IgfsPath path) { return new Path(IGFS_SCHEME, uriAuthority, path.toString()); } /** * Convert Hadoop path into IGFS path. * * @param path Hadoop path. * @return IGFS path. */ @Nullable private IgfsPath convert(Path path) { if (path == null) return null; return path.isAbsolute() ? new IgfsPath(path.toUri().getPath()) : new IgfsPath(workingDir, path.toUri().getPath()); } /** * Convert IGFS affinity block location into Hadoop affinity block location. * * @param block IGFS affinity block location. * @return Hadoop affinity block location. */ private BlockLocation convert(IgfsBlockLocation block) { Collection<String> names = block.names(); Collection<String> hosts = block.hosts(); return new BlockLocation(names.toArray(new String[names.size()]) /* hostname:portNumber of data nodes */, hosts.toArray(new String[hosts.size()]) /* hostnames of data nodes */, block.start(), block.length()) { @Override public String toString() { try { return "BlockLocation [offset=" + getOffset() + ", length=" + getLength() + ", hosts=" + Arrays.asList(getHosts()) + ", names=" + Arrays.asList(getNames()) + ']'; } catch (IOException e) { throw new RuntimeException(e); } } }; } /** * Convert IGFS file information into Hadoop file status. * * @param file IGFS file information. * @return Hadoop file status. */ private FileStatus convert(IgfsFile file) { return new FileStatus(file.length(), file.isDirectory(), dfltReplication, file.groupBlockSize(), file.modificationTime(), file.accessTime(), permission(file), file.property(PROP_USER_NAME, DFLT_USER_NAME), file.property(PROP_GROUP_NAME, "users"), convert(file.path())) { @Override public String toString() { return "FileStatus [path=" + getPath() + ", isDir=" + isDirectory() + ", len=" + getLen() + "]"; } }; } /** * Convert Hadoop permission into IGFS file attribute. * * @param perm Hadoop permission. * @return IGFS attributes. */ private Map<String, String> permission(FsPermission perm) { if (perm == null) perm = FsPermission.getDefault(); return F.asMap(PROP_PERMISSION, toString(perm)); } /** * @param perm Permission. * @return String. */ private static String toString(FsPermission perm) { return String.format("%04o", perm.toShort()); } /** * Convert IGFS file attributes into Hadoop permission. * * @param file File info. * @return Hadoop permission. */ private FsPermission permission(IgfsFile file) { String perm = file.property(PROP_PERMISSION, null); if (perm == null) return FsPermission.getDefault(); try { return new FsPermission((short) Integer.parseInt(perm, 8)); } catch (NumberFormatException ignore) { return FsPermission.getDefault(); } } /** {@inheritDoc} */ @Override public String toString() { return S.toString(IgfsHadoopFileSystem.class, this); } }