/* * Copyright (c) 2008, 2018, 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.nio.file.*; import java.security.AccessController; import java.security.PrivilegedAction; import java.util.*; import java.io.IOException; import jdk.internal.misc.Unsafe; import static sun.nio.fs.UnixNativeDispatcher.*; import static sun.nio.fs.UnixConstants.*; /** * Linux implementation of WatchService based on inotify. * * In summary a background thread polls inotify plus a socket used for the wakeup * mechanism. Requests to add or remove a watch, or close the watch service, * cause the thread to wakeup and process the request. Events are processed * by the thread which causes it to signal/queue the corresponding watch keys. */ class LinuxWatchService extends AbstractWatchService { private static final Unsafe unsafe = Unsafe.getUnsafe(); // background thread to read change events private final Poller poller; LinuxWatchService(UnixFileSystem fs) throws IOException { // initialize inotify int ifd = - 1; try { ifd = inotifyInit(); } catch (UnixException x) { String msg = (x.errno() == EMFILE) ? "User limit of inotify instances reached or too many open files" : x.errorString(); throw new IOException(msg); } // configure inotify to be non-blocking // create socketpair used in the close mechanism int sp[] = new int[2]; try { configureBlocking(ifd, false); socketpair(sp); configureBlocking(sp[0], false); } catch (UnixException x) { UnixNativeDispatcher.close(ifd); throw new IOException(x.errorString()); } this.poller = new Poller(fs, this, ifd, sp); this.poller.start(); } @Override WatchKey register(Path dir, WatchEvent.Kind[] events, WatchEvent.Modifier... modifiers) throws IOException { // delegate to poller return poller.register(dir, events, modifiers); } @Override void implClose() throws IOException { // delegate to poller poller.close(); } /** * WatchKey implementation */ private static class LinuxWatchKey extends AbstractWatchKey { // inotify descriptor private final int ifd; // watch descriptor private volatile int wd; LinuxWatchKey(UnixPath dir, LinuxWatchService watcher, int ifd, int wd) { super(dir, watcher); this.ifd = ifd; this.wd = wd; } int descriptor() { return wd; } void invalidate(boolean remove) { if (remove) { try { inotifyRmWatch(ifd, wd); } catch (UnixException x) { // ignore } } wd = -1; } @Override public boolean isValid() { return (wd != -1); } @Override public void cancel() { if (isValid()) { // delegate to poller ((LinuxWatchService)watcher()).poller.cancel(this); } } } /** * Background thread to read from inotify */ private static class Poller extends AbstractPoller { /** * struct inotify_event { * int wd; * uint32_t mask; * uint32_t len; * char name __flexarr; // present if len > 0 * } act_t; */ private static final int SIZEOF_INOTIFY_EVENT = eventSize(); private static final int[] offsets = eventOffsets(); private static final int OFFSETOF_WD = offsets[0]; private static final int OFFSETOF_MASK = offsets[1]; private static final int OFFSETOF_LEN = offsets[3]; private static final int OFFSETOF_NAME = offsets[4]; private static final int IN_MODIFY = 0x00000002; private static final int IN_ATTRIB = 0x00000004; private static final int IN_MOVED_FROM = 0x00000040; private static final int IN_MOVED_TO = 0x00000080; private static final int IN_CREATE = 0x00000100; private static final int IN_DELETE = 0x00000200; private static final int IN_UNMOUNT = 0x00002000; private static final int IN_Q_OVERFLOW = 0x00004000; private static final int IN_IGNORED = 0x00008000; // sizeof buffer for when polling inotify private static final int BUFFER_SIZE = 8192; private final UnixFileSystem fs; private final LinuxWatchService watcher; // inotify file descriptor private final int ifd; // socketpair used to shutdown polling thread private final int socketpair[]; // maps watch descriptor to Key private final Map wdToKey; // address of read buffer private final long address; Poller(UnixFileSystem fs, LinuxWatchService watcher, int ifd, int[] sp) { this.fs = fs; this.watcher = watcher; this.ifd = ifd; this.socketpair = sp; this.wdToKey = new HashMap<>(); this.address = unsafe.allocateMemory(BUFFER_SIZE); } @Override void wakeup() throws IOException { // write to socketpair to wakeup polling thread try { write(socketpair[1], address, 1); } catch (UnixException x) { throw new IOException(x.errorString()); } } @Override Object implRegister(Path obj, Set> events, WatchEvent.Modifier... modifiers) { UnixPath dir = (UnixPath)obj; int mask = 0; for (WatchEvent.Kind event: events) { if (event == StandardWatchEventKinds.ENTRY_CREATE) { mask |= IN_CREATE | IN_MOVED_TO; continue; } if (event == StandardWatchEventKinds.ENTRY_DELETE) { mask |= IN_DELETE | IN_MOVED_FROM; continue; } if (event == StandardWatchEventKinds.ENTRY_MODIFY) { mask |= IN_MODIFY | IN_ATTRIB; continue; } } // no modifiers supported at this time if (modifiers.length > 0) { for (WatchEvent.Modifier modifier: modifiers) { 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"); } } } // check file is directory UnixFileAttributes attrs = null; try { attrs = UnixFileAttributes.get(dir, true); } catch (UnixException x) { return x.asIOException(dir); } if (!attrs.isDirectory()) { return new NotDirectoryException(dir.getPathForExceptionMessage()); } // register with inotify (replaces existing mask if already registered) int wd = -1; try { NativeBuffer buffer = NativeBuffers.asNativeBuffer(dir.getByteArrayForSysCalls()); try { wd = inotifyAddWatch(ifd, buffer.address(), mask); } finally { buffer.release(); } } catch (UnixException x) { if (x.errno() == ENOSPC) { return new IOException("User limit of inotify watches reached"); } return x.asIOException(dir); } // ensure watch descriptor is in map LinuxWatchKey key = wdToKey.get(wd); if (key == null) { key = new LinuxWatchKey(dir, watcher, ifd, wd); wdToKey.put(wd, key); } return key; } // cancel single key @Override void implCancelKey(WatchKey obj) { LinuxWatchKey key = (LinuxWatchKey)obj; if (key.isValid()) { wdToKey.remove(key.descriptor()); key.invalidate(true); } } // close watch service @Override void implCloseAll() { // invalidate all keys for (Map.Entry entry: wdToKey.entrySet()) { entry.getValue().invalidate(true); } wdToKey.clear(); // free resources unsafe.freeMemory(address); UnixNativeDispatcher.close(socketpair[0]); UnixNativeDispatcher.close(socketpair[1]); UnixNativeDispatcher.close(ifd); } /** * Poller main loop */ @Override public void run() { try { for (;;) { int nReady, bytesRead; // wait for close or inotify event nReady = poll(ifd, socketpair[0]); // read from inotify try { bytesRead = read(ifd, address, BUFFER_SIZE); } catch (UnixException x) { if (x.errno() != EAGAIN && x.errno() != EWOULDBLOCK) throw x; bytesRead = 0; } // iterate over buffer to decode events int offset = 0; while (offset < bytesRead) { long event = address + offset; int wd = unsafe.getInt(event + OFFSETOF_WD); int mask = unsafe.getInt(event + OFFSETOF_MASK); int len = unsafe.getInt(event + OFFSETOF_LEN); // file name UnixPath name = null; if (len > 0) { int actual = len; // null-terminated and maybe additional null bytes to // align the next event while (actual > 0) { long last = event + OFFSETOF_NAME + actual - 1; if (unsafe.getByte(last) != 0) break; actual--; } if (actual > 0) { byte[] buf = new byte[actual]; unsafe.copyMemory(null, event + OFFSETOF_NAME, buf, Unsafe.ARRAY_BYTE_BASE_OFFSET, actual); name = new UnixPath(fs, buf); } } // process event processEvent(wd, mask, name); offset += (SIZEOF_INOTIFY_EVENT + len); } // process any pending requests if ((nReady > 1) || (nReady == 1 && bytesRead == 0)) { try { read(socketpair[0], address, BUFFER_SIZE); boolean shutdown = processRequests(); if (shutdown) break; } catch (UnixException x) { if (x.errno() != EAGAIN && x.errno() != EWOULDBLOCK) throw x; } } } } catch (UnixException x) { x.printStackTrace(); } } /** * map inotify event to WatchEvent.Kind */ private WatchEvent.Kind maskToEventKind(int mask) { if ((mask & IN_MODIFY) > 0) return StandardWatchEventKinds.ENTRY_MODIFY; if ((mask & IN_ATTRIB) > 0) return StandardWatchEventKinds.ENTRY_MODIFY; if ((mask & IN_CREATE) > 0) return StandardWatchEventKinds.ENTRY_CREATE; if ((mask & IN_MOVED_TO) > 0) return StandardWatchEventKinds.ENTRY_CREATE; if ((mask & IN_DELETE) > 0) return StandardWatchEventKinds.ENTRY_DELETE; if ((mask & IN_MOVED_FROM) > 0) return StandardWatchEventKinds.ENTRY_DELETE; return null; } /** * Process event from inotify */ private void processEvent(int wd, int mask, final UnixPath name) { // overflow - signal all keys if ((mask & IN_Q_OVERFLOW) > 0) { for (Map.Entry entry: wdToKey.entrySet()) { entry.getValue() .signalEvent(StandardWatchEventKinds.OVERFLOW, null); } return; } // lookup wd to get key LinuxWatchKey key = wdToKey.get(wd); if (key == null) return; // should not happen // file deleted if ((mask & IN_IGNORED) > 0) { wdToKey.remove(wd); key.invalidate(false); key.signal(); return; } // event for directory itself if (name == null) return; // map to event and queue to key WatchEvent.Kind kind = maskToEventKind(mask); if (kind != null) { key.signalEvent(kind, name); } } } // -- native methods -- // sizeof inotify_event private static native int eventSize(); // offsets of inotify_event private static native int[] eventOffsets(); private static native int inotifyInit() throws UnixException; private static native int inotifyAddWatch(int fd, long pathAddress, int mask) throws UnixException; private static native void inotifyRmWatch(int fd, int wd) throws UnixException; private static native void configureBlocking(int fd, boolean blocking) throws UnixException; private static native void socketpair(int[] sv) throws UnixException; private static native int poll(int fd1, int fd2) throws UnixException; static { AccessController.doPrivileged(new PrivilegedAction<>() { public Void run() { System.loadLibrary("nio"); return null; }}); } }