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25 
26 package java.nio.channels;
27 
28 import java.util.concurrent.atomic.AtomicReferenceFieldUpdater;
29 import java.io.IOException;
30 
31 
32 /**
33  * A token representing the registration of a {@link SelectableChannel} with a
34  * {@link Selector}.
35  *
36  * <p> A selection key is created each time a channel is registered with a
37  * selector.  A key remains valid until it is <i>cancelled</i> by invoking its
38  * {@link #cancel cancel} method, by closing its channel, or by closing its
39  * selector.  Cancelling a key does not immediately remove it from its
40  * selector; it is instead added to the selector's <a
41  * href="Selector.html#ks"><i>cancelled-key set</i></a> for removal during the
42  * next selection operation.  The validity of a key may be tested by invoking
43  * its {@link #isValid isValid} method.
44  *
45  * <a name="opsets"></a>
46  *
47  * <p> A selection key contains two <i>operation sets</i> represented as
48  * integer values.  Each bit of an operation set denotes a category of
49  * selectable operations that are supported by the key's channel.
50  *
51  * <ul>
52  *
53  *   <li><p> The <i>interest set</i> determines which operation categories will
54  *   be tested for readiness the next time one of the selector's selection
55  *   methods is invoked.  The interest set is initialized with the value given
56  *   when the key is created; it may later be changed via the {@link
57  *   #interestOps(int)} method. </p></li>
58  *
59  *   <li><p> The <i>ready set</i> identifies the operation categories for which
60  *   the key's channel has been detected to be ready by the key's selector.
61  *   The ready set is initialized to zero when the key is created; it may later
62  *   be updated by the selector during a selection operation, but it cannot be
63  *   updated directly. </p></li>
64  *
65  * </ul>
66  *
67  * <p> That a selection key's ready set indicates that its channel is ready for
68  * some operation category is a hint, but not a guarantee, that an operation in
69  * such a category may be performed by a thread without causing the thread to
70  * block.  A ready set is most likely to be accurate immediately after the
71  * completion of a selection operation.  It is likely to be made inaccurate by
72  * external events and by I/O operations that are invoked upon the
73  * corresponding channel.
74  *
75  * <p> This class defines all known operation-set bits, but precisely which
76  * bits are supported by a given channel depends upon the type of the channel.
77  * Each subclass of {@link SelectableChannel} defines an {@link
78  * SelectableChannel#validOps() validOps()} method which returns a set
79  * identifying just those operations that are supported by the channel.  An
80  * attempt to set or test an operation-set bit that is not supported by a key's
81  * channel will result in an appropriate run-time exception.
82  *
83  * <p> It is often necessary to associate some application-specific data with a
84  * selection key, for example an object that represents the state of a
85  * higher-level protocol and handles readiness notifications in order to
86  * implement that protocol.  Selection keys therefore support the
87  * <i>attachment</i> of a single arbitrary object to a key.  An object can be
88  * attached via the {@link #attach attach} method and then later retrieved via
89  * the {@link #attachment() attachment} method.
90  *
91  * <p> Selection keys are safe for use by multiple concurrent threads.  The
92  * operations of reading and writing the interest set will, in general, be
93  * synchronized with certain operations of the selector.  Exactly how this
94  * synchronization is performed is implementation-dependent: In a naive
95  * implementation, reading or writing the interest set may block indefinitely
96  * if a selection operation is already in progress; in a high-performance
97  * implementation, reading or writing the interest set may block briefly, if at
98  * all.  In any case, a selection operation will always use the interest-set
99  * value that was current at the moment that the operation began.  </p>
100  *
101  *
102  * @author Mark Reinhold
103  * @author JSR-51 Expert Group
104  * @since 1.4
105  *
106  * @see SelectableChannel
107  * @see Selector
108  */
109 
110 public abstract class SelectionKey {
111 
112     /**
113      * Constructs an instance of this class.
114      */
SelectionKey()115     protected SelectionKey() { }
116 
117 
118     // -- Channel and selector operations --
119 
120     /**
121      * Returns the channel for which this key was created.  This method will
122      * continue to return the channel even after the key is cancelled.
123      *
124      * @return  This key's channel
125      */
channel()126     public abstract SelectableChannel channel();
127 
128     /**
129      * Returns the selector for which this key was created.  This method will
130      * continue to return the selector even after the key is cancelled.
131      *
132      * @return  This key's selector
133      */
selector()134     public abstract Selector selector();
135 
136     /**
137      * Tells whether or not this key is valid.
138      *
139      * <p> A key is valid upon creation and remains so until it is cancelled,
140      * its channel is closed, or its selector is closed.  </p>
141      *
142      * @return  <tt>true</tt> if, and only if, this key is valid
143      */
isValid()144     public abstract boolean isValid();
145 
146     /**
147      * Requests that the registration of this key's channel with its selector
148      * be cancelled.  Upon return the key will be invalid and will have been
149      * added to its selector's cancelled-key set.  The key will be removed from
150      * all of the selector's key sets during the next selection operation.
151      *
152      * <p> If this key has already been cancelled then invoking this method has
153      * no effect.  Once cancelled, a key remains forever invalid. </p>
154      *
155      * <p> This method may be invoked at any time.  It synchronizes on the
156      * selector's cancelled-key set, and therefore may block briefly if invoked
157      * concurrently with a cancellation or selection operation involving the
158      * same selector.  </p>
159      */
cancel()160     public abstract void cancel();
161 
162 
163     // -- Operation-set accessors --
164 
165     /**
166      * Retrieves this key's interest set.
167      *
168      * <p> It is guaranteed that the returned set will only contain operation
169      * bits that are valid for this key's channel.
170      *
171      * <p> This method may be invoked at any time.  Whether or not it blocks,
172      * and for how long, is implementation-dependent.  </p>
173      *
174      * @return  This key's interest set
175      *
176      * @throws  CancelledKeyException
177      *          If this key has been cancelled
178      */
interestOps()179     public abstract int interestOps();
180 
181     /**
182      * Sets this key's interest set to the given value.
183      *
184      * <p> This method may be invoked at any time.  Whether or not it blocks,
185      * and for how long, is implementation-dependent.  </p>
186      *
187      * @param  ops  The new interest set
188      *
189      * @return  This selection key
190      *
191      * @throws  IllegalArgumentException
192      *          If a bit in the set does not correspond to an operation that
193      *          is supported by this key's channel, that is, if
194      *          {@code (ops & ~channel().validOps()) != 0}
195      *
196      * @throws  CancelledKeyException
197      *          If this key has been cancelled
198      */
interestOps(int ops)199     public abstract SelectionKey interestOps(int ops);
200 
201     /**
202      * Retrieves this key's ready-operation set.
203      *
204      * <p> It is guaranteed that the returned set will only contain operation
205      * bits that are valid for this key's channel.  </p>
206      *
207      * @return  This key's ready-operation set
208      *
209      * @throws  CancelledKeyException
210      *          If this key has been cancelled
211      */
readyOps()212     public abstract int readyOps();
213 
214 
215     // -- Operation bits and bit-testing convenience methods --
216 
217     /**
218      * Operation-set bit for read operations.
219      *
220      * <p> Suppose that a selection key's interest set contains
221      * <tt>OP_READ</tt> at the start of a <a
222      * href="Selector.html#selop">selection operation</a>.  If the selector
223      * detects that the corresponding channel is ready for reading, has reached
224      * end-of-stream, has been remotely shut down for further reading, or has
225      * an error pending, then it will add <tt>OP_READ</tt> to the key's
226      * ready-operation set and add the key to its selected-key&nbsp;set.  </p>
227      */
228     public static final int OP_READ = 1 << 0;
229 
230     /**
231      * Operation-set bit for write operations.
232      *
233      * <p> Suppose that a selection key's interest set contains
234      * <tt>OP_WRITE</tt> at the start of a <a
235      * href="Selector.html#selop">selection operation</a>.  If the selector
236      * detects that the corresponding channel is ready for writing, has been
237      * remotely shut down for further writing, or has an error pending, then it
238      * will add <tt>OP_WRITE</tt> to the key's ready set and add the key to its
239      * selected-key&nbsp;set.  </p>
240      */
241     public static final int OP_WRITE = 1 << 2;
242 
243     /**
244      * Operation-set bit for socket-connect operations.
245      *
246      * <p> Suppose that a selection key's interest set contains
247      * <tt>OP_CONNECT</tt> at the start of a <a
248      * href="Selector.html#selop">selection operation</a>.  If the selector
249      * detects that the corresponding socket channel is ready to complete its
250      * connection sequence, or has an error pending, then it will add
251      * <tt>OP_CONNECT</tt> to the key's ready set and add the key to its
252      * selected-key&nbsp;set.  </p>
253      */
254     public static final int OP_CONNECT = 1 << 3;
255 
256     /**
257      * Operation-set bit for socket-accept operations.
258      *
259      * <p> Suppose that a selection key's interest set contains
260      * <tt>OP_ACCEPT</tt> at the start of a <a
261      * href="Selector.html#selop">selection operation</a>.  If the selector
262      * detects that the corresponding server-socket channel is ready to accept
263      * another connection, or has an error pending, then it will add
264      * <tt>OP_ACCEPT</tt> to the key's ready set and add the key to its
265      * selected-key&nbsp;set.  </p>
266      */
267     public static final int OP_ACCEPT = 1 << 4;
268 
269     /**
270      * Tests whether this key's channel is ready for reading.
271      *
272      * <p> An invocation of this method of the form <tt>k.isReadable()</tt>
273      * behaves in exactly the same way as the expression
274      *
275      * <blockquote><pre>{@code
276      * k.readyOps() & OP_READ != 0
277      * }</pre></blockquote>
278      *
279      * <p> If this key's channel does not support read operations then this
280      * method always returns <tt>false</tt>.  </p>
281      *
282      * @return  <tt>true</tt> if, and only if,
283                 {@code readyOps() & OP_READ} is nonzero
284      *
285      * @throws  CancelledKeyException
286      *          If this key has been cancelled
287      */
isReadable()288     public final boolean isReadable() {
289         return (readyOps() & OP_READ) != 0;
290     }
291 
292     /**
293      * Tests whether this key's channel is ready for writing.
294      *
295      * <p> An invocation of this method of the form <tt>k.isWritable()</tt>
296      * behaves in exactly the same way as the expression
297      *
298      * <blockquote><pre>{@code
299      * k.readyOps() & OP_WRITE != 0
300      * }</pre></blockquote>
301      *
302      * <p> If this key's channel does not support write operations then this
303      * method always returns <tt>false</tt>.  </p>
304      *
305      * @return  <tt>true</tt> if, and only if,
306      *          {@code readyOps() & OP_WRITE} is nonzero
307      *
308      * @throws  CancelledKeyException
309      *          If this key has been cancelled
310      */
isWritable()311     public final boolean isWritable() {
312         return (readyOps() & OP_WRITE) != 0;
313     }
314 
315     /**
316      * Tests whether this key's channel has either finished, or failed to
317      * finish, its socket-connection operation.
318      *
319      * <p> An invocation of this method of the form <tt>k.isConnectable()</tt>
320      * behaves in exactly the same way as the expression
321      *
322      * <blockquote><pre>{@code
323      * k.readyOps() & OP_CONNECT != 0
324      * }</pre></blockquote>
325      *
326      * <p> If this key's channel does not support socket-connect operations
327      * then this method always returns <tt>false</tt>.  </p>
328      *
329      * @return  <tt>true</tt> if, and only if,
330      *          {@code readyOps() & OP_CONNECT} is nonzero
331      *
332      * @throws  CancelledKeyException
333      *          If this key has been cancelled
334      */
isConnectable()335     public final boolean isConnectable() {
336         return (readyOps() & OP_CONNECT) != 0;
337     }
338 
339     /**
340      * Tests whether this key's channel is ready to accept a new socket
341      * connection.
342      *
343      * <p> An invocation of this method of the form <tt>k.isAcceptable()</tt>
344      * behaves in exactly the same way as the expression
345      *
346      * <blockquote><pre>{@code
347      * k.readyOps() & OP_ACCEPT != 0
348      * }</pre></blockquote>
349      *
350      * <p> If this key's channel does not support socket-accept operations then
351      * this method always returns <tt>false</tt>.  </p>
352      *
353      * @return  <tt>true</tt> if, and only if,
354      *          {@code readyOps() & OP_ACCEPT} is nonzero
355      *
356      * @throws  CancelledKeyException
357      *          If this key has been cancelled
358      */
isAcceptable()359     public final boolean isAcceptable() {
360         return (readyOps() & OP_ACCEPT) != 0;
361     }
362 
363 
364     // -- Attachments --
365 
366     private volatile Object attachment = null;
367 
368     private static final AtomicReferenceFieldUpdater<SelectionKey,Object>
369         attachmentUpdater = AtomicReferenceFieldUpdater.newUpdater(
370             SelectionKey.class, Object.class, "attachment"
371         );
372 
373     /**
374      * Attaches the given object to this key.
375      *
376      * <p> An attached object may later be retrieved via the {@link #attachment()
377      * attachment} method.  Only one object may be attached at a time; invoking
378      * this method causes any previous attachment to be discarded.  The current
379      * attachment may be discarded by attaching <tt>null</tt>.  </p>
380      *
381      * @param  ob
382      *         The object to be attached; may be <tt>null</tt>
383      *
384      * @return  The previously-attached object, if any,
385      *          otherwise <tt>null</tt>
386      */
attach(Object ob)387     public final Object attach(Object ob) {
388         return attachmentUpdater.getAndSet(this, ob);
389     }
390 
391     /**
392      * Retrieves the current attachment.
393      *
394      * @return  The object currently attached to this key,
395      *          or <tt>null</tt> if there is no attachment
396      */
attachment()397     public final Object attachment() {
398         return attachment;
399     }
400 
401 }
402