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jdk/src/java.base/unix/classes/sun/nio/fs/UnixCopyFile.java
Brian Burkhalter b8db0c383b 6980847: (fs) Files.copy needs to be "tuned" 
Reviewed-by: alanb
2022-06-23 15:36:19 +00:00

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/*
* Copyright (c) 2008, 2022, 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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.
*/
package sun.nio.fs;
import java.io.IOException;
import java.nio.ByteBuffer;
import java.nio.file.AtomicMoveNotSupportedException;
import java.nio.file.CopyOption;
import java.nio.file.DirectoryNotEmptyException;
import java.nio.file.FileAlreadyExistsException;
import java.nio.file.LinkOption;
import java.nio.file.LinkPermission;
import java.nio.file.StandardCopyOption;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.TimeUnit;
import jdk.internal.misc.Blocker;
import sun.nio.ch.DirectBuffer;
import sun.nio.ch.IOStatus;
import sun.nio.ch.Util;
import static sun.nio.fs.UnixNativeDispatcher.*;
import static sun.nio.fs.UnixConstants.*;
/**
* Unix implementation of Path#copyTo and Path#moveTo methods.
*/
class UnixCopyFile {
// minimum size of a temporary direct buffer
private static final int MIN_BUFFER_SIZE = 16384;
private UnixCopyFile() { }
// The flags that control how a file is copied or moved
private static class Flags {
boolean replaceExisting;
boolean atomicMove;
boolean followLinks;
boolean interruptible;
// the attributes to copy
boolean copyBasicAttributes;
boolean copyPosixAttributes;
boolean copyNonPosixAttributes;
// flags that indicate if we should fail if attributes cannot be copied
boolean failIfUnableToCopyBasic;
boolean failIfUnableToCopyPosix;
boolean failIfUnableToCopyNonPosix;
static Flags fromCopyOptions(CopyOption... options) {
Flags flags = new Flags();
flags.followLinks = true;
for (CopyOption option: options) {
if (option == StandardCopyOption.REPLACE_EXISTING) {
flags.replaceExisting = true;
continue;
}
if (option == LinkOption.NOFOLLOW_LINKS) {
flags.followLinks = false;
continue;
}
if (option == StandardCopyOption.COPY_ATTRIBUTES) {
// copy all attributes but only fail if basic attributes
// cannot be copied
flags.copyBasicAttributes = true;
flags.copyPosixAttributes = true;
flags.copyNonPosixAttributes = true;
flags.failIfUnableToCopyBasic = true;
continue;
}
if (ExtendedOptions.INTERRUPTIBLE.matches(option)) {
flags.interruptible = true;
continue;
}
if (option == null)
throw new NullPointerException();
throw new UnsupportedOperationException("Unsupported copy option");
}
return flags;
}
static Flags fromMoveOptions(CopyOption... options) {
Flags flags = new Flags();
for (CopyOption option: options) {
if (option == StandardCopyOption.ATOMIC_MOVE) {
flags.atomicMove = true;
continue;
}
if (option == StandardCopyOption.REPLACE_EXISTING) {
flags.replaceExisting = true;
continue;
}
if (option == LinkOption.NOFOLLOW_LINKS) {
// ignore
continue;
}
if (option == null)
throw new NullPointerException();
throw new UnsupportedOperationException("Unsupported copy option");
}
// a move requires that all attributes be copied but only fail if
// the basic attributes cannot be copied
flags.copyBasicAttributes = true;
flags.copyPosixAttributes = true;
flags.copyNonPosixAttributes = true;
flags.failIfUnableToCopyBasic = true;
return flags;
}
}
// copy directory from source to target
private static void copyDirectory(UnixPath source,
UnixFileAttributes attrs,
UnixPath target,
Flags flags)
throws IOException
{
try {
mkdir(target, attrs.mode());
} catch (UnixException x) {
x.rethrowAsIOException(target);
}
// no attributes to copy
if (!flags.copyBasicAttributes &&
!flags.copyPosixAttributes &&
!flags.copyNonPosixAttributes) return;
// open target directory if possible (this can fail when copying a
// directory for which we don't have read access).
int dfd = -1;
try {
dfd = open(target, O_RDONLY, 0);
} catch (UnixException x) {
// access to target directory required to copy named attributes
if (flags.copyNonPosixAttributes && flags.failIfUnableToCopyNonPosix) {
try { rmdir(target); } catch (UnixException ignore) { }
x.rethrowAsIOException(target);
}
}
boolean done = false;
try {
// copy owner/group/permissions
if (flags.copyPosixAttributes){
try {
if (dfd >= 0) {
fchown(dfd, attrs.uid(), attrs.gid());
fchmod(dfd, attrs.mode());
} else {
chown(target, attrs.uid(), attrs.gid());
chmod(target, attrs.mode());
}
} catch (UnixException x) {
// unable to set owner/group
if (flags.failIfUnableToCopyPosix)
x.rethrowAsIOException(target);
}
}
// copy other attributes
if (flags.copyNonPosixAttributes && (dfd >= 0)) {
int sfd = -1;
try {
sfd = open(source, O_RDONLY, 0);
} catch (UnixException x) {
if (flags.failIfUnableToCopyNonPosix)
x.rethrowAsIOException(source);
}
if (sfd >= 0) {
source.getFileSystem().copyNonPosixAttributes(sfd, dfd);
close(sfd, e -> null);
}
}
// copy time stamps last
if (flags.copyBasicAttributes) {
try {
if (dfd >= 0 && futimesSupported()) {
futimes(dfd,
attrs.lastAccessTime().to(TimeUnit.MICROSECONDS),
attrs.lastModifiedTime().to(TimeUnit.MICROSECONDS));
} else {
utimes(target,
attrs.lastAccessTime().to(TimeUnit.MICROSECONDS),
attrs.lastModifiedTime().to(TimeUnit.MICROSECONDS));
}
} catch (UnixException x) {
// unable to set times
if (flags.failIfUnableToCopyBasic)
x.rethrowAsIOException(target);
}
}
done = true;
} finally {
if (dfd >= 0)
close(dfd, e -> null);
if (!done) {
// rollback
try { rmdir(target); } catch (UnixException ignore) { }
}
}
}
// calculate the least common multiple of two values;
// the parameters in general will be powers of two likely in the
// range [4096, 65536] so this algorithm is expected to converge
// when it is rarely called
private static long lcm(long x, long y) {
assert x > 0 && y > 0 : "Non-positive parameter";
long u = x;
long v = y;
while (u != v) {
if (u < v)
u += x;
else // u > v
v += y;
}
return u;
}
// calculate temporary direct buffer size
private static int temporaryBufferSize(UnixPath source, UnixPath target) {
int bufferSize = MIN_BUFFER_SIZE;
try {
long bss = UnixFileStoreAttributes.get(source).blockSize();
long bst = UnixFileStoreAttributes.get(target).blockSize();
if (bss > 0 && bst > 0) {
bufferSize = (int)(bss == bst ? bss : lcm(bss, bst));
}
if (bufferSize < MIN_BUFFER_SIZE) {
int factor = (MIN_BUFFER_SIZE + bufferSize - 1)/bufferSize;
bufferSize *= factor;
}
} catch (UnixException ignored) {
}
return bufferSize;
}
// whether direct copying is supported on this platform
private static volatile boolean directCopyNotSupported;
// copy regular file from source to target
private static void copyFile(UnixPath source,
UnixFileAttributes attrs,
UnixPath target,
Flags flags,
long addressToPollForCancel)
throws IOException
{
int fi = -1;
try {
fi = open(source, O_RDONLY, 0);
} catch (UnixException x) {
x.rethrowAsIOException(source);
}
try {
// open new file
int fo = -1;
try {
fo = open(target,
(O_WRONLY |
O_CREAT |
O_EXCL),
attrs.mode());
} catch (UnixException x) {
x.rethrowAsIOException(target);
}
// set to true when file and attributes copied
boolean complete = false;
try {
boolean copied = false;
if (!directCopyNotSupported) {
// copy bytes to target using platform function
long comp = Blocker.begin();
try {
int res = directCopy0(fo, fi, addressToPollForCancel);
if (res == 0) {
copied = true;
} else if (res == IOStatus.UNSUPPORTED) {
directCopyNotSupported = true;
}
} catch (UnixException x) {
x.rethrowAsIOException(source, target);
} finally {
Blocker.end(comp);
}
}
if (!copied) {
// copy bytes to target via a temporary direct buffer
int bufferSize = temporaryBufferSize(source, target);
ByteBuffer buf = Util.getTemporaryDirectBuffer(bufferSize);
try {
long comp = Blocker.begin();
try {
bufferedCopy0(fo, fi, ((DirectBuffer)buf).address(),
bufferSize, addressToPollForCancel);
} catch (UnixException x) {
x.rethrowAsIOException(source, target);
} finally {
Blocker.end(comp);
}
} finally {
Util.releaseTemporaryDirectBuffer(buf);
}
}
// copy owner/permissions
if (flags.copyPosixAttributes) {
try {
fchown(fo, attrs.uid(), attrs.gid());
fchmod(fo, attrs.mode());
} catch (UnixException x) {
if (flags.failIfUnableToCopyPosix)
x.rethrowAsIOException(target);
}
}
// copy non POSIX attributes (depends on file system)
if (flags.copyNonPosixAttributes) {
source.getFileSystem().copyNonPosixAttributes(fi, fo);
}
// copy time attributes
if (flags.copyBasicAttributes) {
try {
if (futimesSupported()) {
futimes(fo,
attrs.lastAccessTime().to(TimeUnit.MICROSECONDS),
attrs.lastModifiedTime().to(TimeUnit.MICROSECONDS));
} else {
utimes(target,
attrs.lastAccessTime().to(TimeUnit.MICROSECONDS),
attrs.lastModifiedTime().to(TimeUnit.MICROSECONDS));
}
} catch (UnixException x) {
if (flags.failIfUnableToCopyBasic)
x.rethrowAsIOException(target);
}
}
complete = true;
} finally {
close(fo, e -> null);
// copy of file or attributes failed so rollback
if (!complete) {
try {
unlink(target);
} catch (UnixException ignore) { }
}
}
} finally {
close(fi, e -> null);
}
}
// copy symbolic link from source to target
private static void copyLink(UnixPath source,
UnixFileAttributes attrs,
UnixPath target,
Flags flags)
throws IOException
{
byte[] linktarget = null;
try {
linktarget = readlink(source);
} catch (UnixException x) {
x.rethrowAsIOException(source);
}
try {
symlink(linktarget, target);
if (flags.copyPosixAttributes) {
try {
lchown(target, attrs.uid(), attrs.gid());
} catch (UnixException x) {
// ignore since link attributes not required to be copied
}
}
} catch (UnixException x) {
x.rethrowAsIOException(target);
}
}
// copy special file from source to target
private static void copySpecial(UnixPath source,
UnixFileAttributes attrs,
UnixPath target,
Flags flags)
throws IOException
{
try {
mknod(target, attrs.mode(), attrs.rdev());
} catch (UnixException x) {
x.rethrowAsIOException(target);
}
boolean done = false;
try {
if (flags.copyPosixAttributes) {
try {
chown(target, attrs.uid(), attrs.gid());
chmod(target, attrs.mode());
} catch (UnixException x) {
if (flags.failIfUnableToCopyPosix)
x.rethrowAsIOException(target);
}
}
if (flags.copyBasicAttributes) {
try {
utimes(target,
attrs.lastAccessTime().to(TimeUnit.MICROSECONDS),
attrs.lastModifiedTime().to(TimeUnit.MICROSECONDS));
} catch (UnixException x) {
if (flags.failIfUnableToCopyBasic)
x.rethrowAsIOException(target);
}
}
done = true;
} finally {
if (!done) {
try { unlink(target); } catch (UnixException ignore) { }
}
}
}
// throw a DirectoryNotEmpty exception if appropriate
static void ensureEmptyDir(UnixPath dir) throws IOException {
try {
long ptr = opendir(dir);
try (UnixDirectoryStream stream =
new UnixDirectoryStream(dir, ptr, e -> true)) {
if (stream.iterator().hasNext()) {
throw new DirectoryNotEmptyException(
dir.getPathForExceptionMessage());
}
}
} catch (UnixException e) {
e.rethrowAsIOException(dir);
}
}
// move file from source to target
static void move(UnixPath source, UnixPath target, CopyOption... options)
throws IOException
{
// permission check
@SuppressWarnings("removal")
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
source.checkWrite();
target.checkWrite();
}
// translate options into flags
Flags flags = Flags.fromMoveOptions(options);
// handle atomic rename case
if (flags.atomicMove) {
try {
rename(source, target);
} catch (UnixException x) {
if (x.errno() == EXDEV) {
throw new AtomicMoveNotSupportedException(
source.getPathForExceptionMessage(),
target.getPathForExceptionMessage(),
x.errorString());
}
x.rethrowAsIOException(source, target);
}
return;
}
// move using rename or copy+delete
UnixFileAttributes sourceAttrs = null;
UnixFileAttributes targetAttrs = null;
// get attributes of source file (don't follow links)
try {
sourceAttrs = UnixFileAttributes.get(source, false);
} catch (UnixException x) {
x.rethrowAsIOException(source);
}
// get attributes of target file (don't follow links)
try {
targetAttrs = UnixFileAttributes.get(target, false);
} catch (UnixException x) {
// ignore
}
boolean targetExists = (targetAttrs != null);
// if the target exists:
// 1. check if source and target are the same file
// 2. throw exception if REPLACE_EXISTING option is not set
// 3. delete target if REPLACE_EXISTING option set
if (targetExists) {
if (sourceAttrs.isSameFile(targetAttrs))
return; // nothing to do as files are identical
if (!flags.replaceExisting) {
throw new FileAlreadyExistsException(
target.getPathForExceptionMessage());
}
// attempt to delete target
try {
if (targetAttrs.isDirectory()) {
rmdir(target);
} else {
unlink(target);
}
} catch (UnixException x) {
// target is non-empty directory that can't be replaced.
if (targetAttrs.isDirectory() &&
(x.errno() == EEXIST || x.errno() == ENOTEMPTY))
{
throw new DirectoryNotEmptyException(
target.getPathForExceptionMessage());
}
x.rethrowAsIOException(target);
}
}
// first try rename
try {
rename(source, target);
return;
} catch (UnixException x) {
if (x.errno() != EXDEV && x.errno() != EISDIR) {
x.rethrowAsIOException(source, target);
}
}
// copy source to target
if (sourceAttrs.isDirectory()) {
ensureEmptyDir(source);
copyDirectory(source, sourceAttrs, target, flags);
} else {
if (sourceAttrs.isSymbolicLink()) {
copyLink(source, sourceAttrs, target, flags);
} else {
if (sourceAttrs.isDevice()) {
copySpecial(source, sourceAttrs, target, flags);
} else {
copyFile(source, sourceAttrs, target, flags, 0L);
}
}
}
// delete source
try {
if (sourceAttrs.isDirectory()) {
rmdir(source);
} else {
unlink(source);
}
} catch (UnixException x) {
// file was copied but unable to unlink the source file so attempt
// to remove the target and throw a reasonable exception
try {
if (sourceAttrs.isDirectory()) {
rmdir(target);
} else {
unlink(target);
}
} catch (UnixException ignore) { }
if (sourceAttrs.isDirectory() &&
(x.errno() == EEXIST || x.errno() == ENOTEMPTY))
{
throw new DirectoryNotEmptyException(
source.getPathForExceptionMessage());
}
x.rethrowAsIOException(source);
}
}
// copy file from source to target
static void copy(final UnixPath source,
final UnixPath target,
CopyOption... options) throws IOException
{
// permission checks
@SuppressWarnings("removal")
SecurityManager sm = System.getSecurityManager();
if (sm != null) {
source.checkRead();
target.checkWrite();
}
// translate options into flags
final Flags flags = Flags.fromCopyOptions(options);
UnixFileAttributes sourceAttrs = null;
UnixFileAttributes targetAttrs = null;
// get attributes of source file
try {
sourceAttrs = UnixFileAttributes.get(source, flags.followLinks);
} catch (UnixException x) {
x.rethrowAsIOException(source);
}
// if source file is symbolic link then we must check LinkPermission
if (sm != null && sourceAttrs.isSymbolicLink()) {
sm.checkPermission(new LinkPermission("symbolic"));
}
// get attributes of target file (don't follow links)
try {
targetAttrs = UnixFileAttributes.get(target, false);
} catch (UnixException x) {
// ignore
}
boolean targetExists = (targetAttrs != null);
// if the target exists:
// 1. check if source and target are the same file
// 2. throw exception if REPLACE_EXISTING option is not set
// 3. try to unlink the target
if (targetExists) {
if (sourceAttrs.isSameFile(targetAttrs))
return; // nothing to do as files are identical
if (!flags.replaceExisting)
throw new FileAlreadyExistsException(
target.getPathForExceptionMessage());
try {
if (targetAttrs.isDirectory()) {
rmdir(target);
} else {
unlink(target);
}
} catch (UnixException x) {
// target is non-empty directory that can't be replaced.
if (targetAttrs.isDirectory() &&
(x.errno() == EEXIST || x.errno() == ENOTEMPTY))
{
throw new DirectoryNotEmptyException(
target.getPathForExceptionMessage());
}
x.rethrowAsIOException(target);
}
}
// do the copy
if (sourceAttrs.isDirectory()) {
copyDirectory(source, sourceAttrs, target, flags);
return;
}
if (sourceAttrs.isSymbolicLink()) {
copyLink(source, sourceAttrs, target, flags);
return;
}
if (!flags.interruptible) {
// non-interruptible file copy
copyFile(source, sourceAttrs, target, flags, 0L);
return;
}
// interruptible file copy
final UnixFileAttributes attrsToCopy = sourceAttrs;
Cancellable copyTask = new Cancellable() {
@Override public void implRun() throws IOException {
copyFile(source, attrsToCopy, target, flags,
addressToPollForCancel());
}
};
try {
Cancellable.runInterruptibly(copyTask);
} catch (ExecutionException e) {
Throwable t = e.getCause();
if (t instanceof IOException)
throw (IOException)t;
throw new IOException(t);
}
}
// -- native methods --
/**
* Copies data between file descriptors {@code src} and {@code dst} using
* a platform-specific function or system call possibly having kernel
* support.
*
* @param dst destination file descriptor
* @param src source file descriptor
* @param addressToPollForCancel address to check for cancellation
* (a non-zero value written to this address indicates cancel)
*
* @return 0 on success, UNAVAILABLE if the platform function would block,
* UNSUPPORTED_CASE if the call does not work with the given
* parameters, or UNSUPPORTED if direct copying is not supported
* on this platform
*/
private static native int directCopy0(int dst, int src,
long addressToPollForCancel)
throws UnixException;
/**
* Copies data between file descriptors {@code src} and {@code dst} using
* an intermediate temporary direct buffer.
*
* @param dst destination file descriptor
* @param src source file descriptor
* @param address the address of the temporary direct buffer's array
* @param size the size of the temporary direct buffer's array
* @param addressToPollForCancel address to check for cancellation
* (a non-zero value written to this address indicates cancel)
*/
private static native void bufferedCopy0(int dst, int src, long address,
int size, long addressToPollForCancel)
throws UnixException;
static {
jdk.internal.loader.BootLoader.loadLibrary("nio");
}
}
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