HADOOP-18193:Support nested mount points in INodeTree

Fixes #4181

Signed-off-by: Owen O'Malley <oomalley@linkedin.com>
This commit is contained in:
Lei Yang 2022-05-09 11:52:15 -07:00 committed by Owen O'Malley
parent 1350539f2d
commit 6a95c3a039
No known key found for this signature in database
GPG Key ID: D19EB09DAD1C5877
8 changed files with 814 additions and 171 deletions

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@ -247,4 +247,22 @@ public static String getDefaultMountTableName(final Configuration conf) {
return conf.get(Constants.CONFIG_VIEWFS_DEFAULT_MOUNT_TABLE_NAME_KEY, return conf.get(Constants.CONFIG_VIEWFS_DEFAULT_MOUNT_TABLE_NAME_KEY,
Constants.CONFIG_VIEWFS_DEFAULT_MOUNT_TABLE); Constants.CONFIG_VIEWFS_DEFAULT_MOUNT_TABLE);
} }
/**
* Check the bool config whether nested mount point is supported. Default: true
* @param conf - from this conf
* @return whether nested mount point is supported
*/
public static boolean isNestedMountPointSupported(final Configuration conf) {
return conf.getBoolean(Constants.CONFIG_NESTED_MOUNT_POINT_SUPPORTED, true);
}
/**
* Set the bool value isNestedMountPointSupported in config.
* @param conf - from this conf
* @param isNestedMountPointSupported - whether nested mount point is supported
*/
public static void setIsNestedMountPointSupported(final Configuration conf, boolean isNestedMountPointSupported) {
conf.setBoolean(Constants.CONFIG_NESTED_MOUNT_POINT_SUPPORTED, isNestedMountPointSupported);
}
} }

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@ -53,6 +53,11 @@ public interface Constants {
*/ */
public static final String CONFIG_VIEWFS_DEFAULT_MOUNT_TABLE = "default"; public static final String CONFIG_VIEWFS_DEFAULT_MOUNT_TABLE = "default";
/**
* Config to enable nested mount point in viewfs
*/
String CONFIG_NESTED_MOUNT_POINT_SUPPORTED = CONFIG_VIEWFS_PREFIX + ".nested.mount.point.supported";
/** /**
* Config variable full prefix for the default mount table. * Config variable full prefix for the default mount table.
*/ */

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@ -17,6 +17,10 @@
*/ */
package org.apache.hadoop.fs.viewfs; package org.apache.hadoop.fs.viewfs;
import java.util.Collection;
import java.util.Comparator;
import java.util.Set;
import java.util.TreeSet;
import java.util.function.Function; import java.util.function.Function;
import org.apache.hadoop.util.Preconditions; import org.apache.hadoop.util.Preconditions;
import java.io.FileNotFoundException; import java.io.FileNotFoundException;
@ -81,6 +85,8 @@ enum ResultKind {
private List<RegexMountPoint<T>> regexMountPointList = private List<RegexMountPoint<T>> regexMountPointList =
new ArrayList<RegexMountPoint<T>>(); new ArrayList<RegexMountPoint<T>>();
private final boolean isNestedMountPointSupported;
public static class MountPoint<T> { public static class MountPoint<T> {
String src; String src;
INodeLink<T> target; INodeLink<T> target;
@ -99,7 +105,7 @@ public String getSource() {
} }
/** /**
* Returns the target link. * Returns the target INode link.
* @return The target INode link * @return The target INode link
*/ */
public INodeLink<T> getTarget() { public INodeLink<T> getTarget() {
@ -138,6 +144,14 @@ public INode(String pathToNode, UserGroupInformation aUgi) {
boolean isLink() { boolean isLink() {
return !isInternalDir(); return !isInternalDir();
} }
/**
* Return the link if isLink.
* @return will return null, for non links.
*/
INodeLink<T> getLink() {
return null;
}
} }
/** /**
@ -212,6 +226,51 @@ void addLink(final String pathComponent, final INodeLink<T> link)
} }
children.put(pathComponent, link); children.put(pathComponent, link);
} }
void addDirLink(final String pathComponent, final INodeDirLink<T> dirLink) {
children.put(pathComponent, dirLink);
}
}
/**
* Internal class to represent an INodeDir which also contains a INodeLink. This is used to support nested mount points
* where an INode is internalDir but points to a mount link. The class is a subclass of INodeDir and the semantics are
* as follows:
* isLink(): true
* isInternalDir(): true
* @param <T>
*/
static class INodeDirLink<T> extends INodeDir<T> {
/**
* INodeLink wrapped in the INodeDir
*/
private final INodeLink<T> link;
INodeDirLink(String pathToNode, UserGroupInformation aUgi, INodeLink<T> link) {
super(pathToNode, aUgi);
this.link = link;
}
@Override
INodeLink<T> getLink() {
return link;
}
/**
* True because the INodeDirLink also contains a INodeLink
*/
@Override
boolean isLink() {
return true;
}
/**
* True because the INodeDirLink is internal node
*/
@Override
boolean isInternalDir() {
return true;
}
} }
/** /**
@ -320,6 +379,11 @@ boolean isInternalDir() {
return false; return false;
} }
@Override
INodeLink<T> getLink() {
return this;
}
/** /**
* Get the instance of FileSystem to use, creating one if needed. * Get the instance of FileSystem to use, creating one if needed.
* @return An Initialized instance of T * @return An Initialized instance of T
@ -376,10 +440,17 @@ private void createLink(final String src, final String target,
newDir.setInternalDirFs(getTargetFileSystem(newDir)); newDir.setInternalDirFs(getTargetFileSystem(newDir));
nextInode = newDir; nextInode = newDir;
} }
if (nextInode.isLink()) { if (!nextInode.isInternalDir()) {
// Error - expected a dir but got a link if (isNestedMountPointSupported) {
throw new FileAlreadyExistsException("Path " + nextInode.fullPath + // nested mount detected, add a new INodeDirLink that wraps existing INodeLink to INodeTree and override existing INodelink
" already exists as link"); INodeDirLink<T> dirLink = new INodeDirLink<T>(nextInode.fullPath, aUgi, (INodeLink<T>) nextInode);
curInode.addDirLink(iPath, dirLink);
curInode = dirLink;
} else {
// Error - expected a dir but got a link
throw new FileAlreadyExistsException("Path " + nextInode.fullPath +
" already exists as link");
}
} else { } else {
assert(nextInode.isInternalDir()); assert(nextInode.isInternalDir());
curInode = (INodeDir<T>) nextInode; curInode = (INodeDir<T>) nextInode;
@ -445,7 +516,7 @@ private INodeDir<T> getRootDir() {
} }
private INodeLink<T> getRootLink() { private INodeLink<T> getRootLink() {
Preconditions.checkState(root.isLink()); Preconditions.checkState(!root.isInternalDir());
return (INodeLink<T>)root; return (INodeLink<T>)root;
} }
@ -538,6 +609,7 @@ protected InodeTree(final Configuration config, final String viewName,
mountTableName = ConfigUtil.getDefaultMountTableName(config); mountTableName = ConfigUtil.getDefaultMountTableName(config);
} }
homedirPrefix = ConfigUtil.getHomeDirValue(config, mountTableName); homedirPrefix = ConfigUtil.getHomeDirValue(config, mountTableName);
isNestedMountPointSupported = ConfigUtil.isNestedMountPointSupported(config);
boolean isMergeSlashConfigured = false; boolean isMergeSlashConfigured = false;
String mergeSlashTarget = null; String mergeSlashTarget = null;
@ -642,7 +714,8 @@ protected InodeTree(final Configuration config, final String viewName,
getRootDir().setInternalDirFs(getTargetFileSystem(getRootDir())); getRootDir().setInternalDirFs(getTargetFileSystem(getRootDir()));
getRootDir().setRoot(true); getRootDir().setRoot(true);
INodeLink<T> fallbackLink = null; INodeLink<T> fallbackLink = null;
for (LinkEntry le : linkEntries) {
for (LinkEntry le : getLinkEntries(linkEntries)) {
switch (le.getLinkType()) { switch (le.getLinkType()) {
case SINGLE_FALLBACK: case SINGLE_FALLBACK:
if (fallbackLink != null) { if (fallbackLink != null) {
@ -682,6 +755,32 @@ protected InodeTree(final Configuration config, final String viewName,
} }
} }
/**
* Get collection of linkEntry. Sort mount point based on alphabetical order of the src paths.
* The purpose is to group nested paths(shortest path always comes first) during INodeTree creation.
* E.g. /foo is nested with /foo/bar so an INodeDirLink will be created at /foo.
* @param linkEntries input linkEntries
* @return sorted linkEntries
*/
private Collection<LinkEntry> getLinkEntries(List<LinkEntry> linkEntries) {
Set<LinkEntry> sortedLinkEntries = new TreeSet<>(new Comparator<LinkEntry>() {
@Override
public int compare(LinkEntry o1, LinkEntry o2) {
if (o1 == null) {
return -1;
}
if (o2 == null) {
return 1;
}
String src1 = o1.getSrc();
String src2= o2.getSrc();
return src1.compareTo(src2);
}
});
sortedLinkEntries.addAll(linkEntries);
return sortedLinkEntries;
}
private void checkMntEntryKeyEqualsTarget( private void checkMntEntryKeyEqualsTarget(
String mntEntryKey, String targetMntEntryKey) throws IOException { String mntEntryKey, String targetMntEntryKey) throws IOException {
if (!mntEntryKey.equals(targetMntEntryKey)) { if (!mntEntryKey.equals(targetMntEntryKey)) {
@ -795,7 +894,7 @@ public ResolveResult<T> resolve(final String p, final boolean resolveLastCompone
* been linked to the root directory of a file system. * been linked to the root directory of a file system.
* The first non-slash path component should be name of the mount table. * The first non-slash path component should be name of the mount table.
*/ */
if (root.isLink()) { if (!root.isInternalDir()) {
Path remainingPath; Path remainingPath;
StringBuilder remainingPathStr = new StringBuilder(); StringBuilder remainingPathStr = new StringBuilder();
// ignore first slash // ignore first slash
@ -818,10 +917,17 @@ public ResolveResult<T> resolve(final String p, final boolean resolveLastCompone
} }
int i; int i;
INodeDirLink<T> lastResolvedDirLink = null;
int lastResolvedDirLinkIndex = -1;
// ignore first slash // ignore first slash
for (i = 1; i < path.length - (resolveLastComponent ? 0 : 1); i++) { for (i = 1; i < path.length - (resolveLastComponent ? 0 : 1); i++) {
INode<T> nextInode = curInode.resolveInternal(path[i]); INode<T> nextInode = curInode.resolveInternal(path[i]);
if (nextInode == null) { if (nextInode == null) {
// first resolve to dirlink for nested mount point
if (isNestedMountPointSupported && lastResolvedDirLink != null) {
return new ResolveResult<T>(ResultKind.EXTERNAL_DIR, lastResolvedDirLink.getLink().getTargetFileSystem(),
lastResolvedDirLink.fullPath, getRemainingPath(path, i),true);
}
if (hasFallbackLink()) { if (hasFallbackLink()) {
resolveResult = new ResolveResult<T>(ResultKind.EXTERNAL_DIR, resolveResult = new ResolveResult<T>(ResultKind.EXTERNAL_DIR,
getRootFallbackLink().getTargetFileSystem(), root.fullPath, getRootFallbackLink().getTargetFileSystem(), root.fullPath,
@ -837,46 +943,54 @@ public ResolveResult<T> resolve(final String p, final boolean resolveLastCompone
} }
} }
if (nextInode.isLink()) { if (!nextInode.isInternalDir()) {
final INodeLink<T> link = (INodeLink<T>) nextInode; final INodeLink<T> link = (INodeLink<T>) nextInode;
final Path remainingPath; final Path remainingPath = getRemainingPath(path, i + 1);
if (i >= path.length - 1) {
remainingPath = SlashPath;
} else {
StringBuilder remainingPathStr =
new StringBuilder("/" + path[i + 1]);
for (int j = i + 2; j < path.length; ++j) {
remainingPathStr.append('/').append(path[j]);
}
remainingPath = new Path(remainingPathStr.toString());
}
resolveResult = new ResolveResult<T>(ResultKind.EXTERNAL_DIR, resolveResult = new ResolveResult<T>(ResultKind.EXTERNAL_DIR,
link.getTargetFileSystem(), nextInode.fullPath, remainingPath, link.getTargetFileSystem(), nextInode.fullPath, remainingPath,
true); true);
return resolveResult; return resolveResult;
} else if (nextInode.isInternalDir()) { } else {
curInode = (INodeDir<T>) nextInode; curInode = (INodeDir<T>) nextInode;
// track last resolved nest mount point.
if (isNestedMountPointSupported && nextInode.isLink()) {
lastResolvedDirLink = (INodeDirLink<T>) nextInode;
lastResolvedDirLinkIndex = i;
}
} }
} }
// We have resolved to an internal dir in mount table.
Path remainingPath; Path remainingPath;
if (resolveLastComponent) { if (isNestedMountPointSupported && lastResolvedDirLink != null) {
remainingPath = getRemainingPath(path, lastResolvedDirLinkIndex + 1);
resolveResult = new ResolveResult<T>(ResultKind.EXTERNAL_DIR, lastResolvedDirLink.getLink().getTargetFileSystem(),
lastResolvedDirLink.fullPath, remainingPath,true);
} else {
remainingPath = resolveLastComponent ? SlashPath : getRemainingPath(path, i);
resolveResult = new ResolveResult<T>(ResultKind.INTERNAL_DIR, curInode.getInternalDirFs(),
curInode.fullPath, remainingPath, false);
}
return resolveResult;
}
/**
* Return remaining path from specified index to the end of the path array.
* @param path An array of path components split by slash
* @param startIndex the specified start index of the path array
* @return remaining path.
*/
private Path getRemainingPath(String[] path, int startIndex) {
Path remainingPath;
if (startIndex >= path.length) {
remainingPath = SlashPath; remainingPath = SlashPath;
} else { } else {
// note we have taken care of when path is "/" above StringBuilder remainingPathStr = new StringBuilder();
// for internal dirs rem-path does not start with / since the lookup for (int j = startIndex; j < path.length; j++) {
// that follows will do a children.get(remaningPath) and will have to remainingPathStr.append("/").append(path[j]);
// strip-out the initial /
StringBuilder remainingPathStr = new StringBuilder("/" + path[i]);
for (int j = i + 1; j < path.length; ++j) {
remainingPathStr.append('/').append(path[j]);
} }
remainingPath = new Path(remainingPathStr.toString()); remainingPath = new Path(remainingPathStr.toString());
} }
resolveResult = new ResolveResult<T>(ResultKind.INTERNAL_DIR, return remainingPath;
curInode.getInternalDirFs(), curInode.fullPath, remainingPath, false);
return resolveResult;
} }
/** /**

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@ -1544,7 +1544,7 @@ public FileStatus[] listStatus(Path f) throws AccessControlException,
INode<FileSystem> inode = iEntry.getValue(); INode<FileSystem> inode = iEntry.getValue();
Path path = new Path(inode.fullPath).makeQualified(myUri, null); Path path = new Path(inode.fullPath).makeQualified(myUri, null);
if (inode.isLink()) { if (inode.isLink()) {
INodeLink<FileSystem> link = (INodeLink<FileSystem>) inode; INodeLink<FileSystem> link = inode.getLink();
if (showMountLinksAsSymlinks) { if (showMountLinksAsSymlinks) {
// To maintain backward compatibility, with default option(showing // To maintain backward compatibility, with default option(showing

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@ -1098,8 +1098,7 @@ public FileStatus getFileLinkStatus(final Path f)
} }
FileStatus result; FileStatus result;
if (inode.isLink()) { if (inode.isLink()) {
INodeLink<AbstractFileSystem> inodelink = INodeLink<AbstractFileSystem> inodelink = inode.getLink();
(INodeLink<AbstractFileSystem>) inode;
try { try {
String linkedPath = inodelink.getTargetFileSystem() String linkedPath = inodelink.getTargetFileSystem()
.getUri().getPath(); .getUri().getPath();
@ -1169,8 +1168,7 @@ public FileStatus[] listStatus(final Path f) throws IOException {
INode<AbstractFileSystem> inode = iEntry.getValue(); INode<AbstractFileSystem> inode = iEntry.getValue();
Path path = new Path(inode.fullPath).makeQualified(myUri, null); Path path = new Path(inode.fullPath).makeQualified(myUri, null);
if (inode.isLink()) { if (inode.isLink()) {
INodeLink<AbstractFileSystem> link = INodeLink<AbstractFileSystem> link = inode.getLink();
(INodeLink<AbstractFileSystem>) inode;
if (showMountLinksAsSymlinks) { if (showMountLinksAsSymlinks) {
// To maintain backward compatibility, with default option(showing // To maintain backward compatibility, with default option(showing

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@ -0,0 +1,365 @@
/**
* 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
* <p>
* http://www.apache.org/licenses/LICENSE-2.0
* <p>
* 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.fs.viewfs;
import java.net.URI;
import java.util.List;
import java.util.function.Function;
import org.apache.hadoop.conf.Configuration;
import org.apache.hadoop.fs.FileSystem;
import org.apache.hadoop.fs.FsConstants;
import org.apache.hadoop.fs.Path;
import org.junit.After;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
/**
* Unit test of nested mount point support in INodeTree
*/
public class TestNestedMountPoint {
private InodeTree inodeTree;
private Configuration conf;
private String mtName;
private URI fsUri;
static class TestNestMountPointFileSystem {
public URI getUri() {
return uri;
}
private URI uri;
TestNestMountPointFileSystem(URI uri) {
this.uri = uri;
}
}
static class TestNestMountPointInternalFileSystem extends TestNestMountPointFileSystem {
TestNestMountPointInternalFileSystem(URI uri) {
super(uri);
}
}
private static final URI LINKFALLBACK_TARGET = URI.create("hdfs://nn00");
private static final URI NN1_TARGET = URI.create("hdfs://nn01/a/b");
private static final URI NN2_TARGET = URI.create("hdfs://nn02/a/b/e");
private static final URI NN3_TARGET = URI.create("hdfs://nn03/a/b/c/d");
private static final URI NN4_TARGET = URI.create("hdfs://nn04/a/b/c/d/e");
private static final URI NN5_TARGET = URI.create("hdfs://nn05/b/c/d/e");
private static final URI NN6_TARGET = URI.create("hdfs://nn06/b/c/d/e/f");
@Before
public void setUp() throws Exception {
conf = new Configuration();
mtName = TestNestedMountPoint.class.getName();
ConfigUtil.setIsNestedMountPointSupported(conf, true);
ConfigUtil.addLink(conf, mtName, "/a/b", NN1_TARGET);
ConfigUtil.addLink(conf, mtName, "/a/b/e", NN2_TARGET);
ConfigUtil.addLink(conf, mtName, "/a/b/c/d", NN3_TARGET);
ConfigUtil.addLink(conf, mtName, "/a/b/c/d/e", NN4_TARGET);
ConfigUtil.addLink(conf, mtName, "/b/c/d/e", NN5_TARGET);
ConfigUtil.addLink(conf, mtName, "/b/c/d/e/f", NN6_TARGET);
ConfigUtil.addLinkFallback(conf, mtName, LINKFALLBACK_TARGET);
fsUri = new URI(FsConstants.VIEWFS_SCHEME, mtName, "/", null, null);
inodeTree = new InodeTree<TestNestedMountPoint.TestNestMountPointFileSystem>(conf,
mtName, fsUri, false) {
@Override
protected Function<URI, TestNestedMountPoint.TestNestMountPointFileSystem> initAndGetTargetFs() {
return new Function<URI, TestNestMountPointFileSystem>() {
@Override
public TestNestedMountPoint.TestNestMountPointFileSystem apply(URI uri) {
return new TestNestMountPointFileSystem(uri);
}
};
}
// For intenral dir fs
@Override
protected TestNestedMountPoint.TestNestMountPointInternalFileSystem getTargetFileSystem(
final INodeDir<TestNestedMountPoint.TestNestMountPointFileSystem> dir) {
return new TestNestMountPointInternalFileSystem(fsUri);
}
@Override
protected TestNestedMountPoint.TestNestMountPointInternalFileSystem getTargetFileSystem(
final String settings, final URI[] mergeFsURIList) {
return new TestNestMountPointInternalFileSystem(null);
}
};
}
@After
public void tearDown() throws Exception {
inodeTree = null;
}
@Test
public void testPathResolveToLink() throws Exception {
// /a/b/c/d/e/f resolves to /a/b/c/d/e and /f
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/c/d/e/f", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b/c/d/e", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/f"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN4_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
// /a/b/c/d/e resolves to /a/b/c/d/e and /
InodeTree.ResolveResult resolveResult2 = inodeTree.resolve("/a/b/c/d/e", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult2.kind);
Assert.assertEquals("/a/b/c/d/e", resolveResult2.resolvedPath);
Assert.assertEquals(new Path("/"), resolveResult2.remainingPath);
Assert.assertTrue(resolveResult2.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN4_TARGET, ((TestNestMountPointFileSystem) resolveResult2.targetFileSystem).getUri());
Assert.assertTrue(resolveResult2.isLastInternalDirLink());
// /a/b/c/d/e/f/g/h/i resolves to /a/b/c/d/e and /f/g/h/i
InodeTree.ResolveResult resolveResult3 = inodeTree.resolve("/a/b/c/d/e/f/g/h/i", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult3.kind);
Assert.assertEquals("/a/b/c/d/e", resolveResult3.resolvedPath);
Assert.assertEquals(new Path("/f/g/h/i"), resolveResult3.remainingPath);
Assert.assertTrue(resolveResult3.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN4_TARGET, ((TestNestMountPointFileSystem) resolveResult3.targetFileSystem).getUri());
Assert.assertTrue(resolveResult3.isLastInternalDirLink());
}
@Test
public void testPathResolveToLinkNotResolveLastComponent() throws Exception {
// /a/b/c/d/e/f resolves to /a/b/c/d/e and /f
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/c/d/e/f", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b/c/d/e", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/f"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN4_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
// /a/b/c/d/e resolves to /a/b/c/d and /e
InodeTree.ResolveResult resolveResult2 = inodeTree.resolve("/a/b/c/d/e", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult2.kind);
Assert.assertEquals("/a/b/c/d", resolveResult2.resolvedPath);
Assert.assertEquals(new Path("/e"), resolveResult2.remainingPath);
Assert.assertTrue(resolveResult2.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN3_TARGET, ((TestNestMountPointFileSystem) resolveResult2.targetFileSystem).getUri());
Assert.assertTrue(resolveResult2.isLastInternalDirLink());
// /a/b/c/d/e/f/g/h/i resolves to /a/b/c/d/e and /f/g/h/i
InodeTree.ResolveResult resolveResult3 = inodeTree.resolve("/a/b/c/d/e/f/g/h/i", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult3.kind);
Assert.assertEquals("/a/b/c/d/e", resolveResult3.resolvedPath);
Assert.assertEquals(new Path("/f/g/h/i"), resolveResult3.remainingPath);
Assert.assertTrue(resolveResult3.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN4_TARGET, ((TestNestMountPointFileSystem) resolveResult3.targetFileSystem).getUri());
Assert.assertTrue(resolveResult3.isLastInternalDirLink());
}
@Test
public void testPathResolveToDirLink() throws Exception {
// /a/b/c/d/f resolves to /a/b/c/d, /f
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/c/d/f", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b/c/d", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/f"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN3_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
// /a/b/c/d resolves to /a/b/c/d and /
InodeTree.ResolveResult resolveResult2 = inodeTree.resolve("/a/b/c/d", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult2.kind);
Assert.assertEquals("/a/b/c/d", resolveResult2.resolvedPath);
Assert.assertEquals(new Path("/"), resolveResult2.remainingPath);
Assert.assertTrue(resolveResult2.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN3_TARGET, ((TestNestMountPointFileSystem) resolveResult2.targetFileSystem).getUri());
Assert.assertTrue(resolveResult2.isLastInternalDirLink());
// /a/b/c/d/f/g/h/i resolves to /a/b/c/d and /f/g/h/i
InodeTree.ResolveResult resolveResult3 = inodeTree.resolve("/a/b/c/d/f/g/h/i", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult3.kind);
Assert.assertEquals("/a/b/c/d", resolveResult3.resolvedPath);
Assert.assertEquals(new Path("/f/g/h/i"), resolveResult3.remainingPath);
Assert.assertTrue(resolveResult3.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN3_TARGET, ((TestNestMountPointFileSystem) resolveResult3.targetFileSystem).getUri());
Assert.assertTrue(resolveResult3.isLastInternalDirLink());
}
@Test
public void testPathResolveToDirLinkNotResolveLastComponent() throws Exception {
// /a/b/c/d/f resolves to /a/b/c/d, /f
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/c/d/f", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b/c/d", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/f"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN3_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
// /a/b/c/d resolves to /a/b and /c/d
InodeTree.ResolveResult resolveResult2 = inodeTree.resolve("/a/b/c/d", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult2.kind);
Assert.assertEquals("/a/b", resolveResult2.resolvedPath);
Assert.assertEquals(new Path("/c/d"), resolveResult2.remainingPath);
Assert.assertTrue(resolveResult2.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN1_TARGET, ((TestNestMountPointFileSystem) resolveResult2.targetFileSystem).getUri());
Assert.assertTrue(resolveResult2.isLastInternalDirLink());
// /a/b/c/d/f/g/h/i resolves to /a/b/c/d and /f/g/h/i
InodeTree.ResolveResult resolveResult3 = inodeTree.resolve("/a/b/c/d/f/g/h/i", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult3.kind);
Assert.assertEquals("/a/b/c/d", resolveResult3.resolvedPath);
Assert.assertEquals(new Path("/f/g/h/i"), resolveResult3.remainingPath);
Assert.assertTrue(resolveResult3.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN3_TARGET, ((TestNestMountPointFileSystem) resolveResult3.targetFileSystem).getUri());
Assert.assertTrue(resolveResult3.isLastInternalDirLink());
}
@Test
public void testMultiNestedMountPointsPathResolveToDirLink() throws Exception {
// /a/b/f resolves to /a/b and /f
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/f", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/f"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN1_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
// /a/b resolves to /a/b and /
InodeTree.ResolveResult resolveResult2 = inodeTree.resolve("/a/b", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult2.kind);
Assert.assertEquals("/a/b", resolveResult2.resolvedPath);
Assert.assertEquals(new Path("/"), resolveResult2.remainingPath);
Assert.assertTrue(resolveResult2.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN1_TARGET, ((TestNestMountPointFileSystem) resolveResult2.targetFileSystem).getUri());
Assert.assertTrue(resolveResult2.isLastInternalDirLink());
}
@Test
public void testMultiNestedMountPointsPathResolveToDirLinkNotResolveLastComponent() throws Exception {
// /a/b/f resolves to /a/b and /f
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/f", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/f"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN1_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
// /a/b resolves to /a and /b
InodeTree.ResolveResult resolveResult2 = inodeTree.resolve("/a/b", false);
Assert.assertEquals(InodeTree.ResultKind.INTERNAL_DIR, resolveResult2.kind);
Assert.assertEquals("/a", resolveResult2.resolvedPath);
Assert.assertEquals(new Path("/b"), resolveResult2.remainingPath);
Assert.assertTrue(resolveResult2.targetFileSystem instanceof TestNestMountPointInternalFileSystem);
Assert.assertEquals(fsUri, ((TestNestMountPointInternalFileSystem) resolveResult2.targetFileSystem).getUri());
Assert.assertFalse(resolveResult2.isLastInternalDirLink());
}
@Test
public void testPathResolveToDirLinkLastComponentInternalDir() throws Exception {
// /a/b/c resolves to /a/b and /c
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/c", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/c"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN1_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
}
@Test
public void testPathResolveToDirLinkLastComponentInternalDirNotResolveLastComponent() throws Exception {
// /a/b/c resolves to /a/b and /c
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/b/c", false);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a/b", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/c"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(NN1_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertTrue(resolveResult.isLastInternalDirLink());
}
@Test
public void testPathResolveToLinkFallBack() throws Exception {
// /a/e resolves to linkfallback
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/e", true);
Assert.assertEquals(InodeTree.ResultKind.EXTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/a/e"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointFileSystem);
Assert.assertEquals(LINKFALLBACK_TARGET, ((TestNestMountPointFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertFalse(resolveResult.isLastInternalDirLink());
}
@Test
public void testPathNotResolveToLinkFallBackNotResolveLastComponent() throws Exception {
// /a/e resolves to internalDir instead of linkfallback
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/a/e", false);
Assert.assertEquals(InodeTree.ResultKind.INTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/a", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/e"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointInternalFileSystem);
Assert.assertEquals(fsUri, ((TestNestMountPointInternalFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertFalse(resolveResult.isLastInternalDirLink());
}
@Test
public void testPathResolveToInternalDir() throws Exception {
// /b/c resolves to internal dir
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/b/c", true);
Assert.assertEquals(InodeTree.ResultKind.INTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/b/c", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointInternalFileSystem);
Assert.assertEquals(fsUri, ((TestNestMountPointInternalFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertFalse(resolveResult.isLastInternalDirLink());
}
@Test
public void testPathResolveToInternalDirNotResolveLastComponent() throws Exception {
// /b/c resolves to internal dir
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/b/c", false);
Assert.assertEquals(InodeTree.ResultKind.INTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/b", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/c"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointInternalFileSystem);
Assert.assertEquals(fsUri, ((TestNestMountPointInternalFileSystem) resolveResult.targetFileSystem).getUri());
Assert.assertFalse(resolveResult.isLastInternalDirLink());
}
@Test
public void testSlashResolveToInternalDir() throws Exception {
// / resolves to internal dir
InodeTree.ResolveResult resolveResult = inodeTree.resolve("/", true);
Assert.assertEquals(InodeTree.ResultKind.INTERNAL_DIR, resolveResult.kind);
Assert.assertEquals("/", resolveResult.resolvedPath);
Assert.assertEquals(new Path("/"), resolveResult.remainingPath);
Assert.assertTrue(resolveResult.targetFileSystem instanceof TestNestMountPointInternalFileSystem);
Assert.assertFalse(resolveResult.isLastInternalDirLink());
}
@Test
public void testInodeTreeMountPoints() throws Exception {
List<InodeTree.MountPoint<FileSystem>> mountPoints = inodeTree.getMountPoints();
Assert.assertEquals(6, mountPoints.size());
}
}

View File

@ -32,6 +32,7 @@ public class TestViewFsConfig {
@Test(expected = FileAlreadyExistsException.class) @Test(expected = FileAlreadyExistsException.class)
public void testInvalidConfig() throws IOException, URISyntaxException { public void testInvalidConfig() throws IOException, URISyntaxException {
Configuration conf = new Configuration(); Configuration conf = new Configuration();
ConfigUtil.setIsNestedMountPointSupported(conf, false);
ConfigUtil.addLink(conf, "/internalDir/linkToDir2", ConfigUtil.addLink(conf, "/internalDir/linkToDir2",
new Path("file:///dir2").toUri()); new Path("file:///dir2").toUri());
ConfigUtil.addLink(conf, "/internalDir/linkToDir2/linkToDir3", ConfigUtil.addLink(conf, "/internalDir/linkToDir2/linkToDir3",

View File

@ -460,6 +460,148 @@ public void testRenameAcrossMounts4() throws IOException {
.assertIsFile(fsTarget, new Path(targetTestRoot, "data/fooBar")); .assertIsFile(fsTarget, new Path(targetTestRoot, "data/fooBar"));
} }
// rename across nested mount points that point to same target also fail
@Test
public void testRenameAcrossNestedMountPointSameTarget() throws IOException {
setUpNestedMountPoint();
fileSystemTestHelper.createFile(fsView, "/user/foo");
try {
// Nested mount points point to the same target should fail
// /user -> /user
// /user/userA -> /user
// Rename strategy: SAME_MOUNTPOINT
fsView.rename(new Path("/user/foo"), new Path("/user/userA/foo"));
ContractTestUtils.fail("IOException is not thrown on rename operation");
} catch (IOException e) {
GenericTestUtils
.assertExceptionContains("Renames across Mount points not supported",
e);
}
}
// rename across nested mount points fail if the mount link targets are different
// even if the targets are part of the same target FS
@Test
public void testRenameAcrossMountPointDifferentTarget() throws IOException {
setUpNestedMountPoint();
fileSystemTestHelper.createFile(fsView, "/data/foo");
// /data -> /data
// /data/dataA -> /dataA
// Rename strategy: SAME_MOUNTPOINT
try {
fsView.rename(new Path("/data/foo"), new Path("/data/dataA/fooBar"));
ContractTestUtils.fail("IOException is not thrown on rename operation");
} catch (IOException e) {
GenericTestUtils
.assertExceptionContains("Renames across Mount points not supported",
e);
}
}
// RenameStrategy SAME_TARGET_URI_ACROSS_MOUNTPOINT enabled
// to rename across nested mount points that point to same target URI
@Test
public void testRenameAcrossNestedMountPointSameTargetUriAcrossMountPoint() throws IOException {
setUpNestedMountPoint();
// /user/foo -> /user
// /user/userA/fooBarBar -> /user
// Rename strategy: SAME_TARGET_URI_ACROSS_MOUNTPOINT
Configuration conf2 = new Configuration(conf);
conf2.set(Constants.CONFIG_VIEWFS_RENAME_STRATEGY,
ViewFileSystem.RenameStrategy.SAME_TARGET_URI_ACROSS_MOUNTPOINT
.toString());
FileSystem fsView2 = FileSystem.newInstance(FsConstants.VIEWFS_URI, conf2);
fileSystemTestHelper.createFile(fsView2, "/user/foo");
fsView2.rename(new Path("/user/foo"), new Path("/user/userA/fooBarBar"));
ContractTestUtils.assertPathDoesNotExist(fsView2, "src should not exist after rename",
new Path("/user/foo"));
ContractTestUtils.assertPathDoesNotExist(fsTarget, "src should not exist after rename",
new Path(targetTestRoot, "user/foo"));
ContractTestUtils.assertIsFile(fsView2, fileSystemTestHelper.getTestRootPath(fsView2, "/user/userA/fooBarBar"));
ContractTestUtils.assertIsFile(fsTarget, new Path(targetTestRoot, "user/fooBarBar"));
}
// RenameStrategy SAME_FILESYSTEM_ACROSS_MOUNTPOINT enabled
// to rename across mount points where the mount link targets are different
// but are part of the same target FS
@Test
public void testRenameAcrossNestedMountPointSameFileSystemAcrossMountPoint() throws IOException {
setUpNestedMountPoint();
// /data/foo -> /data
// /data/dataA/fooBar -> /dataA
// Rename strategy: SAME_FILESYSTEM_ACROSS_MOUNTPOINT
Configuration conf2 = new Configuration(conf);
conf2.set(Constants.CONFIG_VIEWFS_RENAME_STRATEGY,
ViewFileSystem.RenameStrategy.SAME_FILESYSTEM_ACROSS_MOUNTPOINT
.toString());
FileSystem fsView2 = FileSystem.newInstance(FsConstants.VIEWFS_URI, conf2);
fileSystemTestHelper.createFile(fsView2, "/data/foo");
fsView2.rename(new Path("/data/foo"), new Path("/data/dataB/fooBar"));
ContractTestUtils
.assertPathDoesNotExist(fsView2, "src should not exist after rename",
new Path("/data/foo"));
ContractTestUtils
.assertPathDoesNotExist(fsTarget, "src should not exist after rename",
new Path(targetTestRoot, "data/foo"));
ContractTestUtils.assertIsFile(fsView2,
fileSystemTestHelper.getTestRootPath(fsView2, "/user/fooBar"));
ContractTestUtils
.assertIsFile(fsTarget, new Path(targetTestRoot, "user/fooBar"));
}
@Test
public void testOperationsThroughNestedMountPointsInternal()
throws IOException {
setUpNestedMountPoint();
// Create file with nested mount point
fileSystemTestHelper.createFile(fsView, "/user/userB/foo");
Assert.assertTrue("Created file should be type file",
fsView.getFileStatus(new Path("/user/userB/foo")).isFile());
Assert.assertTrue("Target of created file should be type file",
fsTarget.getFileStatus(new Path(targetTestRoot,"userB/foo")).isFile());
// Delete the created file with nested mount point
Assert.assertTrue("Delete should succeed",
fsView.delete(new Path("/user/userB/foo"), false));
Assert.assertFalse("File should not exist after delete",
fsView.exists(new Path("/user/userB/foo")));
Assert.assertFalse("Target File should not exist after delete",
fsTarget.exists(new Path(targetTestRoot,"userB/foo")));
// Create file with a 2 component dirs with nested mount point
fileSystemTestHelper.createFile(fsView, "/internalDir/linkToDir2/linkToDir2/foo");
Assert.assertTrue("Created file should be type file",
fsView.getFileStatus(new Path("/internalDir/linkToDir2/linkToDir2/foo")).isFile());
Assert.assertTrue("Target of created file should be type file",
fsTarget.getFileStatus(new Path(targetTestRoot,"linkToDir2/foo")).isFile());
// Delete the created file with nested mount point
Assert.assertTrue("Delete should succeed",
fsView.delete(new Path("/internalDir/linkToDir2/linkToDir2/foo"), false));
Assert.assertFalse("File should not exist after delete",
fsView.exists(new Path("/internalDir/linkToDir2/linkToDir2/foo")));
Assert.assertFalse("Target File should not exist after delete",
fsTarget.exists(new Path(targetTestRoot,"linkToDir2/foo")));
}
private void setUpNestedMountPoint() throws IOException {
// Enable nested mount point, ViewFilesystem should support both non-nested and nested mount points
ConfigUtil.setIsNestedMountPointSupported(conf, true);
ConfigUtil.addLink(conf, "/user/userA",
new Path(targetTestRoot, "user").toUri());
ConfigUtil.addLink(conf, "/user/userB",
new Path(targetTestRoot, "userB").toUri());
ConfigUtil.addLink(conf, "/data/dataA",
new Path(targetTestRoot, "dataA").toUri());
ConfigUtil.addLink(conf, "/data/dataB",
new Path(targetTestRoot, "user").toUri());
ConfigUtil.addLink(conf, "/internalDir/linkToDir2/linkToDir2",
new Path(targetTestRoot,"linkToDir2").toUri());
fsView = FileSystem.get(FsConstants.VIEWFS_URI, conf);
}
static protected boolean SupportsBlocks = false; // local fs use 1 block static protected boolean SupportsBlocks = false; // local fs use 1 block
// override for HDFS // override for HDFS
@Test @Test