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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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package sun.nio.ch;

import java.io.IOException;
import java.nio.channels.ClosedSelectorException;
import java.nio.channels.SelectionKey;
import java.nio.channels.Selector;
import java.nio.channels.spi.SelectorProvider;
import java.util.ArrayDeque;
import java.util.Deque;
import java.util.HashMap;
import java.util.Map;
import java.util.concurrent.TimeUnit;
import java.util.function.Consumer;

import static sun.nio.ch.SolarisEventPort.PORT_SOURCE_FD;
import static sun.nio.ch.SolarisEventPort.PORT_SOURCE_USER;
import static sun.nio.ch.SolarisEventPort.SIZEOF_PORT_EVENT;
import static sun.nio.ch.SolarisEventPort.OFFSETOF_EVENTS;
import static sun.nio.ch.SolarisEventPort.OFFSETOF_SOURCE;
import static sun.nio.ch.SolarisEventPort.OFFSETOF_OBJECT;
import static sun.nio.ch.SolarisEventPort.port_create;
import static sun.nio.ch.SolarisEventPort.port_close;
import static sun.nio.ch.SolarisEventPort.port_associate;
import static sun.nio.ch.SolarisEventPort.port_dissociate;
import static sun.nio.ch.SolarisEventPort.port_getn;
import static sun.nio.ch.SolarisEventPort.port_send;

Selector implementation based on the Solaris event port mechanism.
/** * Selector implementation based on the Solaris event port mechanism. */
class EventPortSelectorImpl extends SelectorImpl { // maximum number of events to retrive in one call to port_getn static final int MAX_EVENTS = Math.min(IOUtil.fdLimit()-1, 1024); // port file descriptor private final int pfd; // the poll array (populated by port_getn) private final long pollArrayAddress; private final AllocatedNativeObject pollArray; // maps file descriptor to selection key, synchronize on selector private final Map<Integer, SelectionKeyImpl> fdToKey = new HashMap<>(); // the last update operation, incremented by processUpdateQueue private int lastUpdate; // pending new registrations/updates, queued by setEventOps and // updateSelectedKeys private final Object updateLock = new Object(); private final Deque<SelectionKeyImpl> updateKeys = new ArrayDeque<>(); // interrupt triggering and clearing private final Object interruptLock = new Object(); private boolean interruptTriggered; EventPortSelectorImpl(SelectorProvider sp) throws IOException { super(sp); this.pfd = port_create(); int allocationSize = MAX_EVENTS * SIZEOF_PORT_EVENT; this.pollArray = new AllocatedNativeObject(allocationSize, false); this.pollArrayAddress = pollArray.address(); } private void ensureOpen() { if (!isOpen()) throw new ClosedSelectorException(); } @Override protected int doSelect(Consumer<SelectionKey> action, long timeout) throws IOException { assert Thread.holdsLock(this); long to = timeout; boolean blocking = (to != 0); boolean timedPoll = (to > 0); int numEvents; processUpdateQueue(); processDeregisterQueue(); try { begin(blocking); do { long startTime = timedPoll ? System.nanoTime() : 0; numEvents = port_getn(pfd, pollArrayAddress, MAX_EVENTS, to); if (numEvents == IOStatus.INTERRUPTED && timedPoll) { // timed poll interrupted so need to adjust timeout long adjust = System.nanoTime() - startTime; to -= TimeUnit.MILLISECONDS.convert(adjust, TimeUnit.NANOSECONDS); if (to <= 0) { // timeout also expired so no retry numEvents = 0; } } } while (numEvents == IOStatus.INTERRUPTED); assert IOStatus.check(numEvents); } finally { end(blocking); } processDeregisterQueue(); return processPortEvents(numEvents, action); }
Process new registrations and changes to the interest ops.
/** * Process new registrations and changes to the interest ops. */
private void processUpdateQueue() throws IOException { assert Thread.holdsLock(this); // bump lastUpdate to ensure that the interest ops are changed at most // once per bulk update lastUpdate++; synchronized (updateLock) { SelectionKeyImpl ski; while ((ski = updateKeys.pollFirst()) != null) { if (ski.isValid()) { int fd = ski.getFDVal(); // add to fdToKey if needed SelectionKeyImpl previous = fdToKey.putIfAbsent(fd, ski); assert (previous == null) || (previous == ski); int newEvents = ski.translateInterestOps(); if (newEvents != ski.registeredEvents()) { if (newEvents == 0) { port_dissociate(pfd, PORT_SOURCE_FD, fd); } else { port_associate(pfd, PORT_SOURCE_FD, fd, newEvents); } ski.registeredEvents(newEvents); } } } } }
Process the polled events and re-queue the selected keys so the file descriptors are re-associated at the next select operation.
/** * Process the polled events and re-queue the selected keys so the file * descriptors are re-associated at the next select operation. */
private int processPortEvents(int numEvents, Consumer<SelectionKey> action) throws IOException { assert Thread.holdsLock(this); int numKeysUpdated = 0; boolean interrupted = false; // Process the polled events while holding the update lock. This allows // keys to be queued for ready file descriptors so they can be // re-associated at the next select. The selected-key can be updated // in this pass. synchronized (updateLock) { for (int i = 0; i < numEvents; i++) { short source = getSource(i); if (source == PORT_SOURCE_FD) { int fd = getDescriptor(i); SelectionKeyImpl ski = fdToKey.get(fd); if (ski != null) { ski.registeredEvents(0); updateKeys.addLast(ski); // update selected-key set if no action specified if (action == null) { int rOps = getEventOps(i); numKeysUpdated += processReadyEvents(rOps, ski, null); } } } else if (source == PORT_SOURCE_USER) { interrupted = true; } else { assert false; } } } // if an action specified then iterate over the polled events again so // that the action is performed without holding the update lock. if (action != null) { for (int i = 0; i < numEvents; i++) { short source = getSource(i); if (source == PORT_SOURCE_FD) { int fd = getDescriptor(i); SelectionKeyImpl ski = fdToKey.get(fd); if (ski != null) { int rOps = getEventOps(i); numKeysUpdated += processReadyEvents(rOps, ski, action); } } } } if (interrupted) { clearInterrupt(); } return numKeysUpdated; } @Override protected void implClose() throws IOException { assert !isOpen(); assert Thread.holdsLock(this); // prevent further wakeup synchronized (interruptLock) { interruptTriggered = true; } port_close(pfd); pollArray.free(); } @Override protected void implDereg(SelectionKeyImpl ski) throws IOException { assert !ski.isValid(); assert Thread.holdsLock(this); int fd = ski.getFDVal(); if (fdToKey.remove(fd) != null) { if (ski.registeredEvents() != 0) { port_dissociate(pfd, PORT_SOURCE_FD, fd); ski.registeredEvents(0); } } else { assert ski.registeredEvents() == 0; } } @Override public void setEventOps(SelectionKeyImpl ski) { ensureOpen(); synchronized (updateLock) { updateKeys.addLast(ski); } } @Override public Selector wakeup() { synchronized (interruptLock) { if (!interruptTriggered) { try { port_send(pfd, 0); } catch (IOException ioe) { throw new InternalError(ioe); } interruptTriggered = true; } } return this; } private void clearInterrupt() throws IOException { synchronized (interruptLock) { interruptTriggered = false; } } private short getSource(int i) { int offset = SIZEOF_PORT_EVENT * i + OFFSETOF_SOURCE; return pollArray.getShort(offset); } private int getEventOps(int i) { int offset = SIZEOF_PORT_EVENT * i + OFFSETOF_EVENTS; return pollArray.getInt(offset); } private int getDescriptor(int i) { //assert Unsafe.getUnsafe().addressSize() == 8; int offset = SIZEOF_PORT_EVENT * i + OFFSETOF_OBJECT; return (int) pollArray.getLong(offset); } }