public abstract class SelectionKey extends Object
SelectableChannel with a
Selector.
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
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 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 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 SelectableChannel defines an 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 attach method and then later retrieved via
the 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.
SelectableChannel,
Selector| Modifier and Type | Field and Description |
|---|---|
static int |
OP_ACCEPT
Operation-set bit for socket-accept operations.
|
static int |
OP_CONNECT
Operation-set bit for socket-connect operations.
|
static int |
OP_READ
Operation-set bit for read operations.
|
static int |
OP_WRITE
Operation-set bit for write operations.
|
| Modifier | Constructor and Description |
|---|---|
protected |
SelectionKey()
Constructs an instance of this class.
|
| Modifier and Type | Method and Description |
|---|---|
Object |
attach(Object ob)
Attaches the given object to this key.
|
Object |
attachment()
Retrieves the current attachment.
|
abstract void |
cancel()
Requests that the registration of this key's channel with its selector
be cancelled.
|
abstract SelectableChannel |
channel()
Returns the channel for which this key was created.
|
abstract int |
interestOps()
Retrieves this key's interest set.
|
abstract SelectionKey |
interestOps(int ops)
Sets this key's interest set to the given value.
|
boolean |
isAcceptable()
Tests whether this key's channel is ready to accept a new socket
connection.
|
boolean |
isConnectable()
Tests whether this key's channel has either finished, or failed to
finish, its socket-connection operation.
|
boolean |
isReadable()
Tests whether this key's channel is ready for reading.
|
abstract boolean |
isValid()
Tells whether or not this key is valid.
|
boolean |
isWritable()
Tests whether this key's channel is ready for writing.
|
abstract int |
readyOps()
Retrieves this key's ready-operation set.
|
abstract Selector |
selector()
Returns the selector for which this key was created.
|
public static final int OP_READ
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_WRITE
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_CONNECT
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_ACCEPT
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 abstract SelectableChannel channel()
public abstract Selector selector()
public abstract boolean isValid()
A key is valid upon creation and remains so until it is cancelled, its channel is closed, or its selector is closed.
public abstract void cancel()
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 int interestOps()
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.
CancelledKeyException - If this key has been cancelledpublic abstract SelectionKey interestOps(int ops)
This method may be invoked at any time. Whether or not it blocks, and for how long, is implementation-dependent.
ops - The new interest setIllegalArgumentException - If a bit in the set does not correspond to an operation that
is supported by this key's channel, that is, if
(ops & ~channel().validOps()) != 0CancelledKeyException - If this key has been cancelledpublic abstract int readyOps()
It is guaranteed that the returned set will only contain operation bits that are valid for this key's channel.
CancelledKeyException - If this key has been cancelledpublic final boolean isReadable()
An invocation of this method of the form k.isReadable() behaves in exactly the same way as the expression
k.readyOps() & OP_READ != 0
If this key's channel does not support read operations then this method always returns false.
readyOps() & OP_READ is nonzeroCancelledKeyException - If this key has been cancelledpublic final boolean isWritable()
An invocation of this method of the form k.isWritable() behaves in exactly the same way as the expression
k.readyOps() & OP_WRITE != 0
If this key's channel does not support write operations then this method always returns false.
readyOps() & OP_WRITE is nonzeroCancelledKeyException - If this key has been cancelledpublic final boolean isConnectable()
An invocation of this method of the form k.isConnectable() behaves in exactly the same way as the expression
k.readyOps() & OP_CONNECT != 0
If this key's channel does not support socket-connect operations then this method always returns false.
readyOps() & OP_CONNECT is nonzeroCancelledKeyException - If this key has been cancelledpublic final boolean isAcceptable()
An invocation of this method of the form k.isAcceptable() behaves in exactly the same way as the expression
k.readyOps() & OP_ACCEPT != 0
If this key's channel does not support socket-accept operations then this method always returns false.
readyOps() & OP_ACCEPT is nonzeroCancelledKeyException - If this key has been cancelledpublic final Object attach(Object ob)
An attached object may later be retrieved via the 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.
ob - The object to be attached; may be nullpublic final Object attachment()
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