/*
* Copyright (c) 2008, 2016, 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
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package sun.nio.fs;
import java.io.IOException;
import java.nio.file.NotDirectoryException;
import java.nio.file.Path;
import java.nio.file.StandardWatchEventKinds;
import java.nio.file.WatchEvent;
import java.nio.file.WatchKey;
import java.util.HashMap;
import java.util.Map;
import java.util.Set;
import jdk.internal.misc.Unsafe;
import static sun.nio.fs.WindowsNativeDispatcher.*;
import static sun.nio.fs.WindowsConstants.*;
/*
* Win32 implementation of WatchService based on ReadDirectoryChangesW.
*/
class WindowsWatchService
extends AbstractWatchService
{
private static final int WAKEUP_COMPLETION_KEY = 0;
// background thread to service I/O completion port
private final Poller poller;
Creates an I/O completion port and a daemon thread to service it
/**
* Creates an I/O completion port and a daemon thread to service it
*/
WindowsWatchService(WindowsFileSystem fs) throws IOException {
// create I/O completion port
long port = 0L;
try {
port = CreateIoCompletionPort(INVALID_HANDLE_VALUE, 0, 0);
} catch (WindowsException x) {
throw new IOException(x.getMessage());
}
this.poller = new Poller(fs, this, port);
this.poller.start();
}
@Override
WatchKey register(Path path,
WatchEvent.Kind<?>[] events,
WatchEvent.Modifier... modifiers)
throws IOException
{
// delegate to poller
return poller.register(path, events, modifiers);
}
@Override
void implClose() throws IOException {
// delegate to poller
poller.close();
}
Windows implementation of WatchKey.
/**
* Windows implementation of WatchKey.
*/
private static class WindowsWatchKey extends AbstractWatchKey {
// file key (used to detect existing registrations)
private final FileKey fileKey;
// handle to directory
private volatile long handle = INVALID_HANDLE_VALUE;
// interest events
private Set<? extends WatchEvent.Kind<?>> events;
// subtree
private boolean watchSubtree;
// buffer for change events
private NativeBuffer buffer;
// pointer to bytes returned (in buffer)
private long countAddress;
// pointer to overlapped structure (in buffer)
private long overlappedAddress;
// completion key (used to map I/O completion to WatchKey)
private int completionKey;
// flag indicates that ReadDirectoryChangesW failed
// and overlapped I/O operation wasn't started
private boolean errorStartingOverlapped;
WindowsWatchKey(Path dir,
AbstractWatchService watcher,
FileKey fileKey)
{
super(dir, watcher);
this.fileKey = fileKey;
}
WindowsWatchKey init(long handle,
Set<? extends WatchEvent.Kind<?>> events,
boolean watchSubtree,
NativeBuffer buffer,
long countAddress,
long overlappedAddress,
int completionKey)
{
this.handle = handle;
this.events = events;
this.watchSubtree = watchSubtree;
this.buffer = buffer;
this.countAddress = countAddress;
this.overlappedAddress = overlappedAddress;
this.completionKey = completionKey;
return this;
}
long handle() {
return handle;
}
Set<? extends WatchEvent.Kind<?>> events() {
return events;
}
void setEvents(Set<? extends WatchEvent.Kind<?>> events) {
this.events = events;
}
boolean watchSubtree() {
return watchSubtree;
}
NativeBuffer buffer() {
return buffer;
}
long countAddress() {
return countAddress;
}
long overlappedAddress() {
return overlappedAddress;
}
FileKey fileKey() {
return fileKey;
}
int completionKey() {
return completionKey;
}
void setErrorStartingOverlapped(boolean value) {
errorStartingOverlapped = value;
}
boolean isErrorStartingOverlapped() {
return errorStartingOverlapped;
}
// Invalidate the key, assumes that resources have been released
void invalidate() {
((WindowsWatchService)watcher()).poller.releaseResources(this);
handle = INVALID_HANDLE_VALUE;
buffer = null;
countAddress = 0;
overlappedAddress = 0;
errorStartingOverlapped = false;
}
@Override
public boolean isValid() {
return handle != INVALID_HANDLE_VALUE;
}
@Override
public void cancel() {
if (isValid()) {
// delegate to poller
((WindowsWatchService)watcher()).poller.cancel(this);
}
}
}
// file key to unique identify (open) directory
private static class FileKey {
private final int volSerialNumber;
private final int fileIndexHigh;
private final int fileIndexLow;
FileKey(int volSerialNumber, int fileIndexHigh, int fileIndexLow) {
this.volSerialNumber = volSerialNumber;
this.fileIndexHigh = fileIndexHigh;
this.fileIndexLow = fileIndexLow;
}
@Override
public int hashCode() {
return volSerialNumber ^ fileIndexHigh ^ fileIndexLow;
}
@Override
public boolean equals(Object obj) {
if (obj == this)
return true;
if (!(obj instanceof FileKey))
return false;
FileKey other = (FileKey)obj;
if (this.volSerialNumber != other.volSerialNumber) return false;
if (this.fileIndexHigh != other.fileIndexHigh) return false;
return this.fileIndexLow == other.fileIndexLow;
}
}
// all change events
private static final int ALL_FILE_NOTIFY_EVENTS =
FILE_NOTIFY_CHANGE_FILE_NAME |
FILE_NOTIFY_CHANGE_DIR_NAME |
FILE_NOTIFY_CHANGE_ATTRIBUTES |
FILE_NOTIFY_CHANGE_SIZE |
FILE_NOTIFY_CHANGE_LAST_WRITE |
FILE_NOTIFY_CHANGE_CREATION |
FILE_NOTIFY_CHANGE_SECURITY;
Background thread to service I/O completion port.
/**
* Background thread to service I/O completion port.
*/
private static class Poller extends AbstractPoller {
private static final Unsafe UNSAFE = Unsafe.getUnsafe();
/*
* typedef struct _OVERLAPPED {
* ULONG_PTR Internal;
* ULONG_PTR InternalHigh;
* union {
* struct { DWORD Offset; DWORD OffsetHigh; };
* PVOID Pointer;
* };
* HANDLE hEvent;
* } OVERLAPPED;
*/
private static final short SIZEOF_DWORD = 4;
private static final short SIZEOF_OVERLAPPED = 32; // 20 on 32-bit
private static final short OFFSETOF_HEVENT =
(UNSAFE.addressSize() == 4) ? (short) 16 : 24;
/*
* typedef struct _FILE_NOTIFY_INFORMATION {
* DWORD NextEntryOffset;
* DWORD Action;
* DWORD FileNameLength;
* WCHAR FileName[1];
* } FileNameLength;
*/
private static final short OFFSETOF_NEXTENTRYOFFSET = 0;
private static final short OFFSETOF_ACTION = 4;
private static final short OFFSETOF_FILENAMELENGTH = 8;
private static final short OFFSETOF_FILENAME = 12;
// size of per-directory buffer for events (FIXME - make this configurable)
// Need to be less than 4*16384 = 65536. DWORD align.
private static final int CHANGES_BUFFER_SIZE = 16 * 1024;
private final WindowsFileSystem fs;
private final WindowsWatchService watcher;
private final long port;
// maps completion key to WatchKey
private final Map<Integer, WindowsWatchKey> ck2key;
// maps file key to WatchKey
private final Map<FileKey, WindowsWatchKey> fk2key;
// unique completion key for each directory
// native completion key capacity is 64 bits on Win64.
private int lastCompletionKey;
Poller(WindowsFileSystem fs, WindowsWatchService watcher, long port) {
this.fs = fs;
this.watcher = watcher;
this.port = port;
this.ck2key = new HashMap<>();
this.fk2key = new HashMap<>();
this.lastCompletionKey = 0;
}
@Override
void wakeup() throws IOException {
try {
PostQueuedCompletionStatus(port, WAKEUP_COMPLETION_KEY);
} catch (WindowsException x) {
throw new IOException(x.getMessage());
}
}
Register a directory for changes as follows:
1. Open directory
2. Read its attributes (and check it really is a directory)
3. Assign completion key and associated handle with completion port
4. Call ReadDirectoryChangesW to start (async) read of changes
5. Create or return existing key representing registration
/**
* Register a directory for changes as follows:
*
* 1. Open directory
* 2. Read its attributes (and check it really is a directory)
* 3. Assign completion key and associated handle with completion port
* 4. Call ReadDirectoryChangesW to start (async) read of changes
* 5. Create or return existing key representing registration
*/
@Override
Object implRegister(Path obj,
Set<? extends WatchEvent.Kind<?>> events,
WatchEvent.Modifier... modifiers)
{
WindowsPath dir = (WindowsPath)obj;
boolean watchSubtree = false;
// FILE_TREE modifier allowed
for (WatchEvent.Modifier modifier: modifiers) {
if (ExtendedOptions.FILE_TREE.matches(modifier)) {
watchSubtree = true;
} else {
if (modifier == null)
return new NullPointerException();
if (!ExtendedOptions.SENSITIVITY_HIGH.matches(modifier) &&
!ExtendedOptions.SENSITIVITY_MEDIUM.matches(modifier) &&
!ExtendedOptions.SENSITIVITY_LOW.matches(modifier)) {
return new UnsupportedOperationException("Modifier not supported");
}
}
}
// open directory
long handle;
try {
handle = CreateFile(dir.getPathForWin32Calls(),
FILE_LIST_DIRECTORY,
(FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE),
OPEN_EXISTING,
FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED);
} catch (WindowsException x) {
return x.asIOException(dir);
}
boolean registered = false;
try {
// read attributes and check file is a directory
WindowsFileAttributes attrs;
try {
attrs = WindowsFileAttributes.readAttributes(handle);
} catch (WindowsException x) {
return x.asIOException(dir);
}
if (!attrs.isDirectory()) {
return new NotDirectoryException(dir.getPathForExceptionMessage());
}
// check if this directory is already registered
FileKey fk = new FileKey(attrs.volSerialNumber(),
attrs.fileIndexHigh(),
attrs.fileIndexLow());
WindowsWatchKey existing = fk2key.get(fk);
// if already registered and we're not changing the subtree
// modifier then simply update the event and return the key.
if (existing != null && watchSubtree == existing.watchSubtree()) {
existing.setEvents(events);
return existing;
}
// Can overflow the int type capacity.
// Skip WAKEUP_COMPLETION_KEY value.
int completionKey = ++lastCompletionKey;
if (completionKey == WAKEUP_COMPLETION_KEY)
completionKey = ++lastCompletionKey;
// associate handle with completion port
try {
CreateIoCompletionPort(handle, port, completionKey);
} catch (WindowsException x) {
return new IOException(x.getMessage());
}
// allocate memory for events, including space for other structures
// needed to do overlapped I/O
int size = CHANGES_BUFFER_SIZE + SIZEOF_DWORD + SIZEOF_OVERLAPPED;
NativeBuffer buffer = NativeBuffers.getNativeBuffer(size);
long bufferAddress = buffer.address();
long overlappedAddress = bufferAddress + size - SIZEOF_OVERLAPPED;
long countAddress = overlappedAddress - SIZEOF_DWORD;
// zero the overlapped structure
UNSAFE.setMemory(overlappedAddress, SIZEOF_OVERLAPPED, (byte)0);
// start async read of changes to directory
try {
createAndAttachEvent(overlappedAddress);
ReadDirectoryChangesW(handle,
bufferAddress,
CHANGES_BUFFER_SIZE,
watchSubtree,
ALL_FILE_NOTIFY_EVENTS,
countAddress,
overlappedAddress);
} catch (WindowsException x) {
closeAttachedEvent(overlappedAddress);
buffer.release();
return new IOException(x.getMessage());
}
WindowsWatchKey watchKey;
if (existing == null) {
// not registered so create new watch key
watchKey = new WindowsWatchKey(dir, watcher, fk)
.init(handle, events, watchSubtree, buffer, countAddress,
overlappedAddress, completionKey);
// map file key to watch key
fk2key.put(fk, watchKey);
} else {
// directory already registered so need to:
// 1. remove mapping from old completion key to existing watch key
// 2. release existing key's resources (handle/buffer)
// 3. re-initialize key with new handle/buffer
ck2key.remove(existing.completionKey());
releaseResources(existing);
watchKey = existing.init(handle, events, watchSubtree, buffer,
countAddress, overlappedAddress, completionKey);
}
// map completion map to watch key
ck2key.put(completionKey, watchKey);
registered = true;
return watchKey;
} finally {
if (!registered) CloseHandle(handle);
}
}
Cancels the outstanding I/O operation on the directory
associated with the given key and releases the associated
resources.
/**
* Cancels the outstanding I/O operation on the directory
* associated with the given key and releases the associated
* resources.
*/
private void releaseResources(WindowsWatchKey key) {
if (!key.isErrorStartingOverlapped()) {
try {
CancelIo(key.handle());
GetOverlappedResult(key.handle(), key.overlappedAddress());
} catch (WindowsException expected) {
// expected as I/O operation has been cancelled
}
}
CloseHandle(key.handle());
closeAttachedEvent(key.overlappedAddress());
key.buffer().free();
}
Creates an unnamed event and set it as the hEvent field
in the given OVERLAPPED structure
/**
* Creates an unnamed event and set it as the hEvent field
* in the given OVERLAPPED structure
*/
private void createAndAttachEvent(long ov) throws WindowsException {
long hEvent = CreateEvent(false, false);
UNSAFE.putAddress(ov + OFFSETOF_HEVENT, hEvent);
}
Closes the event attached to the given OVERLAPPED structure. A
no-op if there isn't an event attached.
/**
* Closes the event attached to the given OVERLAPPED structure. A
* no-op if there isn't an event attached.
*/
private void closeAttachedEvent(long ov) {
long hEvent = UNSAFE.getAddress(ov + OFFSETOF_HEVENT);
if (hEvent != 0 && hEvent != INVALID_HANDLE_VALUE)
CloseHandle(hEvent);
}
// cancel single key
@Override
void implCancelKey(WatchKey obj) {
WindowsWatchKey key = (WindowsWatchKey)obj;
if (key.isValid()) {
fk2key.remove(key.fileKey());
ck2key.remove(key.completionKey());
key.invalidate();
}
}
// close watch service
@Override
void implCloseAll() {
// cancel all keys
ck2key.values().forEach(WindowsWatchKey::invalidate);
fk2key.clear();
ck2key.clear();
// close I/O completion port
CloseHandle(port);
}
// Translate file change action into watch event
private WatchEvent.Kind<?> translateActionToEvent(int action) {
switch (action) {
case FILE_ACTION_MODIFIED :
return StandardWatchEventKinds.ENTRY_MODIFY;
case FILE_ACTION_ADDED :
case FILE_ACTION_RENAMED_NEW_NAME :
return StandardWatchEventKinds.ENTRY_CREATE;
case FILE_ACTION_REMOVED :
case FILE_ACTION_RENAMED_OLD_NAME :
return StandardWatchEventKinds.ENTRY_DELETE;
default :
return null; // action not recognized
}
}
// process events (list of FILE_NOTIFY_INFORMATION structures)
private void processEvents(WindowsWatchKey key, int size) {
long address = key.buffer().address();
int nextOffset;
do {
int action = UNSAFE.getInt(address + OFFSETOF_ACTION);
// map action to event
WatchEvent.Kind<?> kind = translateActionToEvent(action);
if (key.events().contains(kind)) {
// copy the name
int nameLengthInBytes = UNSAFE.getInt(address + OFFSETOF_FILENAMELENGTH);
if ((nameLengthInBytes % 2) != 0) {
throw new AssertionError("FileNameLength is not a multiple of 2");
}
char[] nameAsArray = new char[nameLengthInBytes/2];
UNSAFE.copyMemory(null, address + OFFSETOF_FILENAME, nameAsArray,
Unsafe.ARRAY_CHAR_BASE_OFFSET, nameLengthInBytes);
// create FileName and queue event
WindowsPath name = WindowsPath
.createFromNormalizedPath(fs, new String(nameAsArray));
key.signalEvent(kind, name);
}
// next event
nextOffset = UNSAFE.getInt(address + OFFSETOF_NEXTENTRYOFFSET);
address += (long)nextOffset;
} while (nextOffset != 0);
}
Poller main loop
/**
* Poller main loop
*/
@Override
public void run() {
for (;;) {
CompletionStatus info;
try {
info = GetQueuedCompletionStatus(port);
} catch (WindowsException x) {
// this should not happen
x.printStackTrace();
return;
}
// wakeup
if (info.completionKey() == WAKEUP_COMPLETION_KEY) {
boolean shutdown = processRequests();
if (shutdown) {
return;
}
continue;
}
// map completionKey to get WatchKey
WindowsWatchKey key = ck2key.get((int)info.completionKey());
if (key == null) {
// We get here when a registration is changed. In that case
// the directory is closed which causes an event with the
// old completion key.
continue;
}
boolean criticalError = false;
int errorCode = info.error();
int messageSize = info.bytesTransferred();
if (errorCode == ERROR_NOTIFY_ENUM_DIR) {
// buffer overflow
key.signalEvent(StandardWatchEventKinds.OVERFLOW, null);
} else if (errorCode != 0 && errorCode != ERROR_MORE_DATA) {
// ReadDirectoryChangesW failed
criticalError = true;
} else {
// ERROR_MORE_DATA is a warning about incomplete
// data transfer over TCP/UDP stack. For the case
// [messageSize] is zero in the most of cases.
if (messageSize > 0) {
// process non-empty events.
processEvents(key, messageSize);
} else if (errorCode == 0) {
// insufficient buffer size
// not described, but can happen.
key.signalEvent(StandardWatchEventKinds.OVERFLOW, null);
}
// start read for next batch of changes
try {
ReadDirectoryChangesW(key.handle(),
key.buffer().address(),
CHANGES_BUFFER_SIZE,
key.watchSubtree(),
ALL_FILE_NOTIFY_EVENTS,
key.countAddress(),
key.overlappedAddress());
} catch (WindowsException x) {
// no choice but to cancel key
criticalError = true;
key.setErrorStartingOverlapped(true);
}
}
if (criticalError) {
implCancelKey(key);
key.signal();
}
}
}
}
}