A selection key is created each time a channel is registered with a
* selector. A key remains valid until it is cancelled by invoking its
* {@link #cancel cancel} method, by closing its channel, or by closing its
* selector. Cancelling a key does not immediately remove it from its
* selector; it is instead added to the selector's cancelled-key set for removal during the
* next selection operation. The validity of a key may be tested by invoking
* its {@link #isValid isValid} method.
*
*
*
* A selection key contains two operation sets represented as
* integer values. Each bit of an operation set denotes a category of
* selectable operations that are supported by the key's channel.
*
* The interest set determines which operation categories will
* be tested for readiness the next time one of the selector's selection
* methods is invoked. The interest set is initialized with the value given
* when the key is created; it may later be changed via the {@link
* #interestOps(int)} method. The ready set identifies the operation categories for which
* the key's channel has been detected to be ready by the key's selector.
* The ready set is initialized to zero when the key is created; it may later
* be updated by the selector during a selection operation, but it cannot be
* updated directly. That a selection key's ready set indicates that its channel is ready for
* some operation category is a hint, but not a guarantee, that an operation in
* such a category may be performed by a thread without causing the thread to
* block. A ready set is most likely to be accurate immediately after the
* completion of a selection operation. It is likely to be made inaccurate by
* external events and by I/O operations that are invoked upon the
* corresponding channel.
*
* This class defines all known operation-set bits, but precisely which
* bits are supported by a given channel depends upon the type of the channel.
* Each subclass of {@link SelectableChannel} defines an {@link
* SelectableChannel#validOps() validOps()} method which returns a set
* identifying just those operations that are supported by the channel. An
* attempt to set or test an operation-set bit that is not supported by a key's
* channel will result in an appropriate run-time exception.
*
* It is often necessary to associate some application-specific data with a
* selection key, for example an object that represents the state of a
* higher-level protocol and handles readiness notifications in order to
* implement that protocol. Selection keys therefore support the
* attachment of a single arbitrary object to a key. An object can be
* attached via the {@link #attach attach} method and then later retrieved via
* the {@link #attachment() attachment} method.
*
* Selection keys are safe for use by multiple concurrent threads. The
* operations of reading and writing the interest set will, in general, be
* synchronized with certain operations of the selector. Exactly how this
* synchronization is performed is implementation-dependent: In a naive
* implementation, reading or writing the interest set may block indefinitely
* if a selection operation is already in progress; in a high-performance
* implementation, reading or writing the interest set may block briefly, if at
* all. In any case, a selection operation will always use the interest-set
* value that was current at the moment that the operation began.
*
*
*
*
A key is valid upon creation and remains so until it is cancelled, * its channel is closed, or its selector is closed.
* * @return true if, and only if, this key is valid */ public abstract boolean isValid(); /** * Requests that the registration of this key's channel with its selector * be cancelled. Upon return the key will be invalid and will have been * added to its selector's cancelled-key set. The key will be removed from * all of the selector's key sets during the next selection operation. * *If this key has already been cancelled then invoking this method has * no effect. Once cancelled, a key remains forever invalid.
* *This method may be invoked at any time. It synchronizes on the * selector's cancelled-key set, and therefore may block briefly if invoked * concurrently with a cancellation or selection operation involving the * same selector.
*/ public abstract void cancel(); // -- Operation-set accessors -- /** * Retrieves this key's interest set. * *It is guaranteed that the returned set will only contain operation * bits that are valid for this key's channel. * *
This method may be invoked at any time. Whether or not it blocks, * and for how long, is implementation-dependent.
* * @return This key's interest set * * @throws CancelledKeyException * If this key has been cancelled */ public abstract int interestOps(); /** * Sets this key's interest set to the given value. * *This method may be invoked at any time. Whether or not it blocks, * and for how long, is implementation-dependent.
* * @param ops The new interest set * * @return This selection key * * @throws IllegalArgumentException * If a bit in the set does not correspond to an operation that * is supported by this key's channel, that is, if * {@code (ops & ~channel().validOps()) != 0} * * @throws CancelledKeyException * If this key has been cancelled */ public abstract SelectionKey interestOps(int ops); /** * Retrieves this key's ready-operation set. * *It is guaranteed that the returned set will only contain operation * bits that are valid for this key's channel.
* * @return This key's ready-operation set * * @throws CancelledKeyException * If this key has been cancelled */ public abstract int readyOps(); // -- Operation bits and bit-testing convenience methods -- /** * Operation-set bit for read operations. * *Suppose that a selection key's interest set contains * OP_READ at the start of a selection operation. If the selector * detects that the corresponding channel is ready for reading, has reached * end-of-stream, has been remotely shut down for further reading, or has * an error pending, then it will add OP_READ to the key's * ready-operation set and add the key to its selected-key set.
*/ public static final int OP_READ = 1 << 0; /** * Operation-set bit for write operations. * *Suppose that a selection key's interest set contains * OP_WRITE at the start of a selection operation. If the selector * detects that the corresponding channel is ready for writing, has been * remotely shut down for further writing, or has an error pending, then it * will add OP_WRITE to the key's ready set and add the key to its * selected-key set.
*/ public static final int OP_WRITE = 1 << 2; /** * Operation-set bit for socket-connect operations. * *Suppose that a selection key's interest set contains * OP_CONNECT at the start of a selection operation. If the selector * detects that the corresponding socket channel is ready to complete its * connection sequence, or has an error pending, then it will add * OP_CONNECT to the key's ready set and add the key to its * selected-key set.
*/ public static final int OP_CONNECT = 1 << 3; /** * Operation-set bit for socket-accept operations. * *Suppose that a selection key's interest set contains * OP_ACCEPT at the start of a selection operation. If the selector * detects that the corresponding server-socket channel is ready to accept * another connection, or has an error pending, then it will add * OP_ACCEPT to the key's ready set and add the key to its * selected-key set.
*/ public static final int OP_ACCEPT = 1 << 4; /** * Tests whether this key's channel is ready for reading. * *An invocation of this method of the form k.isReadable() * behaves in exactly the same way as the expression * *
{@code
* k.readyOps() & OP_READ != 0
* }If this key's channel does not support read operations then this * method always returns false.
* * @return true if, and only if, {@code readyOps() & OP_READ} is nonzero * * @throws CancelledKeyException * If this key has been cancelled */ public final boolean isReadable() { return (readyOps() & OP_READ) != 0; } /** * Tests whether this key's channel is ready for writing. * *An invocation of this method of the form k.isWritable() * behaves in exactly the same way as the expression * *
{@code
* k.readyOps() & OP_WRITE != 0
* }If this key's channel does not support write operations then this * method always returns false.
* * @return true if, and only if, * {@code readyOps() & OP_WRITE} is nonzero * * @throws CancelledKeyException * If this key has been cancelled */ public final boolean isWritable() { return (readyOps() & OP_WRITE) != 0; } /** * Tests whether this key's channel has either finished, or failed to * finish, its socket-connection operation. * * An invocation of this method of the form k.isConnectable()
* behaves in exactly the same way as the expression
*
* If this key's channel does not support socket-connect operations
* then this method always returns false. An invocation of this method of the form k.isAcceptable()
* behaves in exactly the same way as the expression
*
* If this key's channel does not support socket-accept operations then
* this method always returns false. An attached object may later be retrieved via the {@link #attachment()
* attachment} method. Only one object may be attached at a time; invoking
* this method causes any previous attachment to be discarded. The current
* attachment may be discarded by attaching null. {@code
* k.readyOps() & OP_CONNECT != 0
* }
*
*
*
* {@code
* k.readyOps() & OP_ACCEPT != 0
* }