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package sun.nio.ch;

import java.io.IOException;
import java.security.AccessController;
import java.util.BitSet;
import java.util.Map;
import java.util.HashMap;
import sun.security.action.GetIntegerAction;


Manipulates a native array of pollfd structs on Solaris: typedef struct pollfd { int fd; short events; short revents; } pollfd_t;
Author:Mike McCloskey
Since:1.4
/** * Manipulates a native array of pollfd structs on Solaris: * * typedef struct pollfd { * int fd; * short events; * short revents; * } pollfd_t; * * @author Mike McCloskey * @since 1.4 */
class DevPollArrayWrapper { // Event masks static final short POLLIN = 0x0001; static final short POLLPRI = 0x0002; static final short POLLOUT = 0x0004; static final short POLLRDNORM = 0x0040; static final short POLLWRNORM = POLLOUT; static final short POLLRDBAND = 0x0080; static final short POLLWRBAND = 0x0100; static final short POLLNORM = POLLRDNORM; static final short POLLERR = 0x0008; static final short POLLHUP = 0x0010; static final short POLLNVAL = 0x0020; static final short POLLREMOVE = 0x0800; static final short POLLCONN = POLLOUT; // Miscellaneous constants static final short SIZE_POLLFD = 8; static final short FD_OFFSET = 0; static final short EVENT_OFFSET = 4; static final short REVENT_OFFSET = 6; // Special value to indicate that an update should be ignored static final byte IGNORE = (byte)-1; // Maximum number of open file descriptors static final int OPEN_MAX = IOUtil.fdLimit(); // Number of pollfd structures to create. // dpwrite/ioctl(DP_POLL) allows up to OPEN_MAX-1 static final int NUM_POLLFDS = Math.min(OPEN_MAX-1, 8192); // Initial size of arrays for fd registration changes private static final int INITIAL_PENDING_UPDATE_SIZE = 64; // maximum size of updatesLow private static final int MAX_UPDATE_ARRAY_SIZE = AccessController.doPrivileged( new GetIntegerAction("sun.nio.ch.maxUpdateArraySize", Math.min(OPEN_MAX, 64*1024))); // The pollfd array for results from devpoll driver private final AllocatedNativeObject pollArray; // Base address of the native pollArray private final long pollArrayAddress; // The fd of the devpoll driver private int wfd; // The fd of the interrupt line going out private int outgoingInterruptFD; // The fd of the interrupt line coming in private int incomingInterruptFD; // The index of the interrupt FD private int interruptedIndex; // Number of updated pollfd entries int updated; // object to synchronize fd registration changes private final Object updateLock = new Object(); // number of file descriptors with registration changes pending private int updateCount; // file descriptors with registration changes pending private int[] updateDescriptors = new int[INITIAL_PENDING_UPDATE_SIZE]; // events for file descriptors with registration changes pending, indexed // by file descriptor and stored as bytes for efficiency reasons. For // file descriptors higher than MAX_UPDATE_ARRAY_SIZE (unlimited case at // least then the update is stored in a map. private final byte[] eventsLow = new byte[MAX_UPDATE_ARRAY_SIZE]; private Map<Integer,Byte> eventsHigh; // Used by release and updateRegistrations to track whether a file // descriptor is registered with /dev/poll. private final BitSet registered = new BitSet(); DevPollArrayWrapper() { int allocationSize = NUM_POLLFDS * SIZE_POLLFD; pollArray = new AllocatedNativeObject(allocationSize, true); pollArrayAddress = pollArray.address(); wfd = init(); if (OPEN_MAX > MAX_UPDATE_ARRAY_SIZE) eventsHigh = new HashMap<>(); } void initInterrupt(int fd0, int fd1) { outgoingInterruptFD = fd1; incomingInterruptFD = fd0; register(wfd, fd0, POLLIN); } void putReventOps(int i, int revent) { int offset = SIZE_POLLFD * i + REVENT_OFFSET; pollArray.putShort(offset, (short)revent); } int getEventOps(int i) { int offset = SIZE_POLLFD * i + EVENT_OFFSET; return pollArray.getShort(offset); } int getReventOps(int i) { int offset = SIZE_POLLFD * i + REVENT_OFFSET; return pollArray.getShort(offset); } int getDescriptor(int i) { int offset = SIZE_POLLFD * i + FD_OFFSET; return pollArray.getInt(offset); } private void setUpdateEvents(int fd, byte events) { if (fd < MAX_UPDATE_ARRAY_SIZE) { eventsLow[fd] = events; } else { eventsHigh.put(Integer.valueOf(fd), Byte.valueOf(events)); } } private byte getUpdateEvents(int fd) { if (fd < MAX_UPDATE_ARRAY_SIZE) { return eventsLow[fd]; } else { Byte result = eventsHigh.get(Integer.valueOf(fd)); // result should never be null return result.byteValue(); } } void setInterest(int fd, int mask) { synchronized (updateLock) { // record the file descriptor and events, expanding the // respective arrays first if necessary. int oldCapacity = updateDescriptors.length; if (updateCount == oldCapacity) { int newCapacity = oldCapacity + INITIAL_PENDING_UPDATE_SIZE; int[] newDescriptors = new int[newCapacity]; System.arraycopy(updateDescriptors, 0, newDescriptors, 0, oldCapacity); updateDescriptors = newDescriptors; } updateDescriptors[updateCount++] = fd; // events are stored as bytes for efficiency reasons byte b = (byte)mask; assert (b == mask) && (b != IGNORE); setUpdateEvents(fd, b); } } void release(int fd) { synchronized (updateLock) { // ignore any pending update for this file descriptor setUpdateEvents(fd, IGNORE); // remove from /dev/poll if (registered.get(fd)) { register(wfd, fd, POLLREMOVE); registered.clear(fd); } } } void closeDevPollFD() throws IOException { FileDispatcherImpl.closeIntFD(wfd); pollArray.free(); } int poll(long timeout) throws IOException { updateRegistrations(); updated = poll0(pollArrayAddress, NUM_POLLFDS, timeout, wfd); for (int i=0; i<updated; i++) { if (getDescriptor(i) == incomingInterruptFD) { interruptedIndex = i; interrupted = true; break; } } return updated; } void updateRegistrations() throws IOException { synchronized (updateLock) { // Populate pollfd array with updated masks int j = 0; int index = 0; while (j < updateCount) { int fd = updateDescriptors[j]; short events = getUpdateEvents(fd); boolean wasRegistered = registered.get(fd); // events = 0 => POLLREMOVE or do-nothing if (events != IGNORE) { if (events == 0) { if (wasRegistered) { events = POLLREMOVE; registered.clear(fd); } else { events = IGNORE; } } else { if (!wasRegistered) { registered.set(fd); } } } // populate pollfd array with updated event if (events != IGNORE) { // insert POLLREMOVE if changing events if (wasRegistered && events != POLLREMOVE) { putPollFD(pollArray, index, fd, POLLREMOVE); index++; } putPollFD(pollArray, index, fd, events); index++; if (index >= (NUM_POLLFDS-1)) { registerMultiple(wfd, pollArray.address(), index); index = 0; } // events for this fd now up to date setUpdateEvents(fd, IGNORE); } j++; } // write any remaining updates if (index > 0) registerMultiple(wfd, pollArray.address(), index); updateCount = 0; } } private void putPollFD(AllocatedNativeObject array, int index, int fd, short event) { int structIndex = SIZE_POLLFD * index; array.putInt(structIndex + FD_OFFSET, fd); array.putShort(structIndex + EVENT_OFFSET, event); array.putShort(structIndex + REVENT_OFFSET, (short)0); } boolean interrupted = false; public void interrupt() { interrupt(outgoingInterruptFD); } public int interruptedIndex() { return interruptedIndex; } boolean interrupted() { return interrupted; } void clearInterrupted() { interrupted = false; } private native int init(); private native void register(int wfd, int fd, int mask); private native void registerMultiple(int wfd, long address, int len) throws IOException; private native int poll0(long pollAddress, int numfds, long timeout, int wfd); private static native void interrupt(int fd); static { IOUtil.load(); } }