/*
* Copyright (c) 2013, 2024, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
/* @test
* @bug 8006884 8019526 8132539
* @library ..
* @build PassThroughFileSystem FaultyFileSystem
* @run testng StreamTest
* @summary Unit test for java.nio.file.Files methods that return a Stream
*/
import java.io.IOException;
import java.io.UncheckedIOException;
import java.nio.charset.Charset;
import java.nio.charset.MalformedInputException;
import java.nio.file.DirectoryIteratorException;
import java.nio.file.DirectoryStream;
import java.nio.file.FileSystemLoopException;
import java.nio.file.FileVisitOption;
import java.nio.file.Files;
import java.nio.file.NoSuchFileException;
import java.nio.file.Path;
import java.nio.file.Paths;
import java.nio.file.attribute.BasicFileAttributes;
import java.util.Arrays;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Objects;
import java.util.Set;
import java.util.TreeSet;
import java.util.concurrent.Callable;
import java.util.function.BiPredicate;
import java.util.stream.Stream;
import java.util.stream.Collectors;
import org.testng.annotations.AfterClass;
import org.testng.annotations.BeforeClass;
import org.testng.annotations.Test;
import static org.testng.Assert.*;
@Test(groups = "unit")
public class StreamTest {
/**
* Default test folder
* testFolder - empty
* - file
* - dir - d1
* - f1
* - lnDir2 (../dir2)
* - dir2
* - linkDir (./dir)
* - linkFile(./file)
*/
static Path testFolder;
static boolean supportsSymbolicLinks;
static Path[] level1;
static Path[] all;
static Path[] allFollowLinks;
@BeforeClass
void setupTestFolder() throws IOException {
testFolder = TestUtil.createTemporaryDirectory();
supportsSymbolicLinks = TestUtil.supportsSymbolicLinks(testFolder);
TreeSet<Path> set = new TreeSet<>();
// Level 1
Path empty = testFolder.resolve("empty");
Path file = testFolder.resolve("file");
Path dir = testFolder.resolve("dir");
Path dir2 = testFolder.resolve("dir2");
Files.createDirectory(empty);
Files.createFile(file);
Files.createDirectory(dir);
Files.createDirectory(dir2);
set.add(empty);
set.add(file);
set.add(dir);
set.add(dir2);
if (supportsSymbolicLinks) {
Path tmp = testFolder.resolve("linkDir");
Files.createSymbolicLink(tmp, dir);
set.add(tmp);
tmp = testFolder.resolve("linkFile");
Files.createSymbolicLink(tmp, file);
set.add(tmp);
}
level1 = set.toArray(new Path[0]);
// Level 2
Path tmp = dir.resolve("d1");
Files.createDirectory(tmp);
set.add(tmp);
tmp = dir.resolve("f1");
Files.createFile(tmp);
set.add(tmp);
if (supportsSymbolicLinks) {
tmp = dir.resolve("lnDir2");
Files.createSymbolicLink(tmp, dir2);
set.add(tmp);
}
// walk include starting folder
set.add(testFolder);
all = set.toArray(new Path[0]);
// Follow links
if (supportsSymbolicLinks) {
tmp = testFolder.resolve("linkDir");
set.add(tmp.resolve("d1"));
set.add(tmp.resolve("f1"));
tmp = tmp.resolve("lnDir2");
set.add(tmp);
}
allFollowLinks = set.toArray(new Path[0]);
}
@AfterClass
void cleanupTestFolder() throws IOException {
TestUtil.removeAll(testFolder);
}
public void testBasic() {
try (Stream<Path> s = Files.list(testFolder)) {
Object[] actual = s.sorted().toArray();
assertEquals(actual, level1);
} catch (IOException ioe) {
fail("Unexpected IOException");
}
try (Stream<Path> s = Files.list(testFolder.resolve("empty"))) {
int count = s.mapToInt(p -> 1).reduce(0, Integer::sum);
assertEquals(count, 0, "Expect empty stream.");
} catch (IOException ioe) {
fail("Unexpected IOException");
}
}
public void testWalk() {
try (Stream<Path> s = Files.walk(testFolder)) {
Object[] actual = s.sorted().toArray();
assertEquals(actual, all);
} catch (IOException ioe) {
fail("Unexpected IOException");
}
}
public void testWalkOneLevel() {
try (Stream<Path> s = Files.walk(testFolder, 1)) {
Object[] actual = s.filter(path -> ! path.equals(testFolder))
.sorted()
.toArray();
assertEquals(actual, level1);
} catch (IOException ioe) {
fail("Unexpected IOException");
}
}
public void testWalkFollowLink() {
// If link is not supported, the directory structure won't have link.
// We still want to test the behavior with FOLLOW_LINKS option.
try (Stream<Path> s = Files.walk(testFolder, FileVisitOption.FOLLOW_LINKS)) {
Object[] actual = s.sorted().toArray();
assertEquals(actual, allFollowLinks);
} catch (IOException ioe) {
fail("Unexpected IOException");
}
}
private void validateFileSystemLoopException(Path start, Path... causes) {
try (Stream<Path> s = Files.walk(start, FileVisitOption.FOLLOW_LINKS)) {
try {
int count = s.mapToInt(p -> 1).reduce(0, Integer::sum);
fail("Should got FileSystemLoopException, but got " + count + "elements.");
} catch (UncheckedIOException uioe) {
IOException ioe = uioe.getCause();
if (ioe instanceof FileSystemLoopException) {
FileSystemLoopException fsle = (FileSystemLoopException) ioe;
boolean match = false;
for (Path cause: causes) {
if (fsle.getFile().equals(cause.toString())) {
match = true;
break;
}
}
assertTrue(match);
} else {
fail("Unexpected UncheckedIOException cause " + ioe.toString());
}
}
} catch(IOException ex) {
fail("Unexpected IOException " + ex);
}
}
public void testWalkFollowLinkLoop() {
if (!supportsSymbolicLinks) {
return;
}
// Loops.
try {
Path dir = testFolder.resolve("dir");
Path linkdir = testFolder.resolve("linkDir");
Path d1 = dir.resolve("d1");
Path cause = d1.resolve("lnSelf");
Files.createSymbolicLink(cause, d1);
// loop in descendant.
validateFileSystemLoopException(dir, cause);
// loop in self
validateFileSystemLoopException(d1, cause);
// start from other place via link
validateFileSystemLoopException(linkdir,
linkdir.resolve(Paths.get("d1", "lnSelf")));
Files.delete(cause);
// loop to parent.
cause = d1.resolve("lnParent");
Files.createSymbolicLink(cause, dir);
// loop should be detected at test/dir/d1/lnParent/d1
validateFileSystemLoopException(d1, cause.resolve("d1"));
// loop should be detected at link
validateFileSystemLoopException(dir, cause);
// loop should be detected at test/linkdir/d1/lnParent
// which is test/dir we have visited via test/linkdir
validateFileSystemLoopException(linkdir,
linkdir.resolve(Paths.get("d1", "lnParent")));
Files.delete(cause);
// cross loop
Path dir2 = testFolder.resolve("dir2");
cause = dir2.resolve("lnDir");
Files.createSymbolicLink(cause, dir);
validateFileSystemLoopException(dir,
dir.resolve(Paths.get("lnDir2", "lnDir")));
validateFileSystemLoopException(dir2,
dir2.resolve(Paths.get("lnDir", "lnDir2")));
validateFileSystemLoopException(linkdir,
linkdir.resolve(Paths.get("lnDir2", "lnDir")));
} catch(IOException ioe) {
fail("Unexpected IOException " + ioe);
}
}
private static class PathBiPredicate implements BiPredicate<Path, BasicFileAttributes> {
private final BiPredicate<Path, BasicFileAttributes> pred;
private final Set<Path> visited = new TreeSet<Path>();
PathBiPredicate(BiPredicate<Path, BasicFileAttributes> pred) {
this.pred = Objects.requireNonNull(pred);
}
public boolean test(Path path, BasicFileAttributes attrs) {
visited.add(path);
return pred.test(path, attrs);
}
public Path[] visited() {
return visited.toArray(new Path[0]);
}
}
public void testFind() throws IOException {
PathBiPredicate pred = new PathBiPredicate((path, attrs) -> true);
try (Stream<Path> s = Files.find(testFolder, Integer.MAX_VALUE, pred)) {
Set<Path> result = s.collect(Collectors.toCollection(TreeSet::new));
assertEquals(pred.visited(), all);
assertEquals(result.toArray(new Path[0]), pred.visited());
}
pred = new PathBiPredicate((path, attrs) -> attrs.isSymbolicLink());
try (Stream<Path> s = Files.find(testFolder, Integer.MAX_VALUE, pred)) {
s.forEach(path -> assertTrue(Files.isSymbolicLink(path)));
assertEquals(pred.visited(), all);
}
pred = new PathBiPredicate((path, attrs) ->
path.getFileName().toString().startsWith("e"));
try (Stream<Path> s = Files.find(testFolder, Integer.MAX_VALUE, pred)) {
s.forEach(path -> assertEquals(path.getFileName().toString(), "empty"));
assertEquals(pred.visited(), all);
}
pred = new PathBiPredicate((path, attrs) ->
path.getFileName().toString().startsWith("l") && attrs.isRegularFile());
try (Stream<Path> s = Files.find(testFolder, Integer.MAX_VALUE, pred)) {
s.forEach(path -> fail("Expect empty stream"));
assertEquals(pred.visited(), all);
}
}
// Test borrowed from BytesAndLines
public void testLines() throws IOException {
final Charset US_ASCII = Charset.forName("US-ASCII");
Path tmpfile = Files.createTempFile("blah", "txt");
try {
// zero lines
assertTrue(Files.size(tmpfile) == 0, "File should be empty");
try (Stream<String> s = Files.lines(tmpfile)) {
checkLines(s, Collections.emptyList());
}
try (Stream<String> s = Files.lines(tmpfile, US_ASCII)) {
checkLines(s, Collections.emptyList());
}
// one line
List<String> oneLine = Arrays.asList("hi");
Files.write(tmpfile, oneLine, US_ASCII);
try (Stream<String> s = Files.lines(tmpfile)) {
checkLines(s, oneLine);
}
try (Stream<String> s = Files.lines(tmpfile, US_ASCII)) {
checkLines(s, oneLine);
}
// two lines using platform's line separator
List<String> twoLines = Arrays.asList("hi", "there");
Files.write(tmpfile, twoLines, US_ASCII);
try (Stream<String> s = Files.lines(tmpfile)) {
checkLines(s, twoLines);
}
try (Stream<String> s = Files.lines(tmpfile, US_ASCII)) {
checkLines(s, twoLines);
}
// MalformedInputException
byte[] bad = { (byte)0xff, (byte)0xff };
Files.write(tmpfile, bad);
try (Stream<String> s = Files.lines(tmpfile)) {
checkMalformedInputException(s);
}
try (Stream<String> s = Files.lines(tmpfile, US_ASCII)) {
checkMalformedInputException(s);
}
// NullPointerException
checkNullPointerException(() -> Files.lines(null));
checkNullPointerException(() -> Files.lines(null, US_ASCII));
checkNullPointerException(() -> Files.lines(tmpfile, null));
} finally {
Files.delete(tmpfile);
}
}
private void checkLines(Stream<String> s, List<String> expected) {
List<String> lines = s.collect(Collectors.toList());
assertTrue(lines.size() == expected.size(), "Unexpected number of lines");
assertTrue(lines.equals(expected), "Unexpected content");
}
private void checkMalformedInputException(Stream<String> s) {
try {
List<String> lines = s.collect(Collectors.toList());
fail("UncheckedIOException expected");
} catch (UncheckedIOException ex) {
IOException cause = ex.getCause();
assertTrue(cause instanceof MalformedInputException,
"MalformedInputException expected");
}
}
private void checkNullPointerException(Callable<?> c) {
try {
c.call();
fail("NullPointerException expected");
} catch (NullPointerException ignore) {
} catch (Exception e) {
fail(e + " not expected");
}
}
public void testDirectoryIteratorException() throws IOException {
Path dir = testFolder.resolve("dir2");
Path trigger = dir.resolve("DirectoryIteratorException");
Files.createFile(trigger);
FaultyFileSystem.FaultyFSProvider fsp = FaultyFileSystem.FaultyFSProvider.getInstance();
FaultyFileSystem fs = (FaultyFileSystem) fsp.newFileSystem(dir, null);
try {
fsp.setFaultyMode(false);
Path fakeRoot = fs.getRoot();
try {
try (Stream<Path> s = Files.list(fakeRoot)) {
s.forEach(path -> assertEquals(path.getFileName().toString(), "DirectoryIteratorException"));
}
} catch (UncheckedIOException uioe) {
fail("Unexpected exception.");
}
fsp.setFaultyMode(true);
try {
try (DirectoryStream<Path> ds = Files.newDirectoryStream(fakeRoot)) {
Iterator<Path> itor = ds.iterator();
while (itor.hasNext()) {
itor.next();
}
}
fail("Shoule throw DirectoryIteratorException");
} catch (DirectoryIteratorException die) {
}
try {
try (Stream<Path> s = Files.list(fakeRoot)) {
s.forEach(path -> fail("should not get here"));
}
} catch (UncheckedIOException uioe) {
assertTrue(uioe.getCause() instanceof FaultyFileSystem.FaultyException);
} catch (DirectoryIteratorException die) {
fail("Should have been converted into UncheckedIOException.");
}
} finally {
// Cleanup
if (fs != null) {
fs.close();
}
Files.delete(trigger);
}
}
public void testUncheckedIOException() throws IOException {
Path triggerFile = testFolder.resolve(Paths.get("dir2", "IOException"));
Files.createFile(triggerFile);
Path triggerDir = testFolder.resolve(Paths.get("empty", "IOException"));
Files.createDirectories(triggerDir);
Files.createFile(triggerDir.resolve("file"));
FaultyFileSystem.FaultyFSProvider fsp = FaultyFileSystem.FaultyFSProvider.getInstance();
FaultyFileSystem fs = (FaultyFileSystem) fsp.newFileSystem(testFolder, null);
try {
fsp.setFaultyMode(false);
Path fakeRoot = fs.getRoot();
try (Stream<Path> s = Files.list(fakeRoot.resolve("dir2"))) {
// only one file
s.forEach(path -> assertEquals(path.getFileName().toString(), "IOException"));
}
try (Stream<Path> s = Files.walk(fakeRoot.resolve("empty"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
// ordered as depth-first
assertEquals(result, new String[] { "empty", "IOException", "file"});
}
fsp.setFaultyMode(true);
try (Stream<Path> s = Files.list(fakeRoot.resolve("dir2"))) {
s.forEach(path -> fail("should have caused exception"));
} catch (UncheckedIOException uioe) {
assertTrue(uioe.getCause() instanceof FaultyFileSystem.FaultyException);
}
try (Stream<Path> s = Files.walk(fakeRoot.resolve("empty"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
fail("should not reach here due to IOException");
} catch (UncheckedIOException uioe) {
assertTrue(uioe.getCause() instanceof FaultyFileSystem.FaultyException);
}
try (Stream<Path> s = Files.walk(
fakeRoot.resolve("empty").resolve("IOException")))
{
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
fail("should not reach here due to IOException");
} catch (IOException ioe) {
assertTrue(ioe instanceof FaultyFileSystem.FaultyException);
} catch (UncheckedIOException ex) {
fail("Top level should be repored as is");
}
} finally {
// Cleanup
if (fs != null) {
fs.close();
}
Files.delete(triggerFile);
TestUtil.removeAll(triggerDir);
}
}
public void testSecurityException() throws IOException {
Path empty = testFolder.resolve("empty");
Path triggerFile = Files.createFile(empty.resolve("SecurityException"));
Path sampleFile = Files.createDirectories(empty.resolve("sample"));
Path dir2 = testFolder.resolve("dir2");
Path triggerDir = Files.createDirectories(dir2.resolve("SecurityException"));
Files.createFile(triggerDir.resolve("fileInSE"));
Path sample = Files.createFile(dir2.resolve("file"));
Path triggerLink = null;
Path linkTriggerDir = null;
Path linkTriggerFile = null;
if (supportsSymbolicLinks) {
Path dir = testFolder.resolve("dir");
triggerLink = Files.createSymbolicLink(dir.resolve("SecurityException"), empty);
linkTriggerDir = Files.createSymbolicLink(dir.resolve("lnDirSE"), triggerDir);
linkTriggerFile = Files.createSymbolicLink(dir.resolve("lnFileSE"), triggerFile);
}
FaultyFileSystem.FaultyFSProvider fsp = FaultyFileSystem.FaultyFSProvider.getInstance();
FaultyFileSystem fs = (FaultyFileSystem) fsp.newFileSystem(testFolder, null);
try {
fsp.setFaultyMode(false);
Path fakeRoot = fs.getRoot();
// validate setting
try (Stream<Path> s = Files.list(fakeRoot.resolve("empty"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "SecurityException", "sample" });
}
try (Stream<Path> s = Files.walk(fakeRoot.resolve("dir2"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "dir2", "SecurityException", "fileInSE", "file" });
}
if (supportsSymbolicLinks) {
try (Stream<Path> s = Files.list(fakeRoot.resolve("dir"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "d1", "f1", "lnDir2", "SecurityException", "lnDirSE", "lnFileSE" });
}
}
// execute test
fsp.setFaultyMode(true);
// ignore file cause SecurityException
try (Stream<Path> s = Files.walk(fakeRoot.resolve("empty"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "empty", "sample" });
}
// skip folder cause SecurityException
try (Stream<Path> s = Files.walk(fakeRoot.resolve("dir2"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "dir2", "file" });
}
if (supportsSymbolicLinks) {
// not following links
try (Stream<Path> s = Files.walk(fakeRoot.resolve("dir"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "dir", "d1", "f1", "lnDir2", "lnDirSE", "lnFileSE" });
}
// following links
try (Stream<Path> s = Files.walk(fakeRoot.resolve("dir"), FileVisitOption.FOLLOW_LINKS)) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
// ?? Should fileInSE show up?
// With FaultyFS, it does as no exception thrown for link to "SecurityException" with read on "lnXxxSE"
assertEqualsNoOrder(result, new String[] { "dir", "d1", "f1", "lnDir2", "file", "lnDirSE", "lnFileSE", "fileInSE" });
}
}
// list instead of walk
try (Stream<Path> s = Files.list(fakeRoot.resolve("empty"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "sample" });
}
try (Stream<Path> s = Files.list(fakeRoot.resolve("dir2"))) {
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
assertEqualsNoOrder(result, new String[] { "file" });
}
// root cause SecurityException should be reported
try (Stream<Path> s = Files.walk(
fakeRoot.resolve("dir2").resolve("SecurityException")))
{
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
fail("should not reach here due to SecurityException");
} catch (SecurityException se) {
assertTrue(se.getCause() instanceof FaultyFileSystem.FaultyException);
}
// Walk a file cause SecurityException, we should get SE
try (Stream<Path> s = Files.walk(
fakeRoot.resolve("dir").resolve("SecurityException")))
{
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
fail("should not reach here due to SecurityException");
} catch (SecurityException se) {
assertTrue(se.getCause() instanceof FaultyFileSystem.FaultyException);
}
// List a file cause SecurityException, we should get SE as cannot read attribute
try (Stream<Path> s = Files.list(
fakeRoot.resolve("dir2").resolve("SecurityException")))
{
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
fail("should not reach here due to SecurityException");
} catch (SecurityException se) {
assertTrue(se.getCause() instanceof FaultyFileSystem.FaultyException);
}
try (Stream<Path> s = Files.list(
fakeRoot.resolve("dir").resolve("SecurityException")))
{
String[] result = s.map(path -> path.getFileName().toString())
.toArray(String[]::new);
fail("should not reach here due to SecurityException");
} catch (SecurityException se) {
assertTrue(se.getCause() instanceof FaultyFileSystem.FaultyException);
}
} finally {
// Cleanup
if (fs != null) {
fs.close();
}
if (supportsSymbolicLinks) {
Files.delete(triggerLink);
Files.delete(linkTriggerDir);
Files.delete(linkTriggerFile);
}
Files.delete(triggerFile);
Files.delete(sampleFile);
Files.delete(sample);
TestUtil.removeAll(triggerDir);
}
}
public void testConstructException() {
try (Stream<String> s = Files.lines(testFolder.resolve("notExist"), Charset.forName("UTF-8"))) {
s.forEach(l -> fail("File is not even exist!"));
} catch (IOException ioe) {
assertTrue(ioe instanceof NoSuchFileException);
}
}
public void testClosedStream() throws IOException {
try (Stream<Path> s = Files.list(testFolder)) {
s.close();
Object[] actual = s.sorted().toArray();
fail("Operate on closed stream should throw IllegalStateException");
} catch (IllegalStateException ex) {
// expected
}
try (Stream<Path> s = Files.walk(testFolder)) {
s.close();
Object[] actual = s.sorted().toArray();
fail("Operate on closed stream should throw IllegalStateException");
} catch (IllegalStateException ex) {
// expected
}
try (Stream<Path> s = Files.find(testFolder, Integer.MAX_VALUE,
(p, attr) -> true)) {
s.close();
Object[] actual = s.sorted().toArray();
fail("Operate on closed stream should throw IllegalStateException");
} catch (IllegalStateException ex) {
// expected
}
}
public void testProcFile() throws IOException {
if (System.getProperty("os.name").equals("Linux")) {
Path path = Paths.get("/proc/cpuinfo");
if (Files.exists(path)) {
String NEW_LINE = System.getProperty("line.separator");
String s =
Files.lines(path).collect(Collectors.joining(NEW_LINE));
if (s.length() == 0) {
fail("Files.lines(\"" + path + "\") returns no data");
}
}
}
}
}