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jdk.nio.channels.MulticastChannel

A network channel that supports Internet Protocol (IP) multicasting.

IP multicasting is the transmission of IP datagrams to members of a group that is zero or more hosts identified by a single destination address.

In the case of a channel to an IPv4 socket, the underlying operating system supports RFC 2236: Internet Group Management Protocol, Version 2 (IGMPv2). It may optionally support source filtering as specified by RFC 3376: Internet Group Management Protocol, Version 3 (IGMPv3). For channels to an IPv6 socket, the equivalent standards are RFC 2710: Multicast Listener Discovery (MLD) for IPv6 and RFC 3810: Multicast Listener Discovery Version 2 (MLDv2) for IPv6.

The join(InetAddress,NetworkInterface) method is used to join a group and receive all multicast datagrams sent to the group. A channel may join several multicast groups and may join the same group on several interfaces. Membership is dropped by invoking the drop method on the returned MembershipKey. If the underlying platform supports source filtering then the block and unblock methods can be used to block or unblock multicast datagrams from particular source addresses.

The join(InetAddress,NetworkInterface,InetAddress) method is used to begin receiving datagrams sent to a group whose source address matches a given source address. This method throws UnsupportedOperationException if the underlying platform does not support source filtering. Membership is cumulative and this method may be invoked again with the same group and interface to allow receiving datagrams from other source addresses. The method returns a MembershipKey that represents membership to receive datagrams from the given source address. Invoking the key's drop method drops membership so that datagrams from the source address can no longer be received.

Platform dependencies

The multicast implementation is intended to map directly to the native multicasting facility. Consequently, the following items should be considered when developing an application that receives IP multicast datagrams:

The creation of the channel should specify the ProtocolFamily that corresponds to the address type of the multicast groups that the channel will join. There is no guarantee that a channel to a socket in one protocol family can join and receive multicast datagrams when the address of the multicast group corresponds to another protocol family. For example, it is implementation specific if a channel to an IPv6 socket can join an IPv4 multicast group and receive multicast datagrams sent to the group.

The channel's socket should be bound to the wildcard address. If the socket is bound to a specific address, rather than the wildcard address then it is implementation specific if multicast datagrams are received by the socket.

The SO_REUSEADDR option should be enabled prior to binding the socket. This is required to allow multiple members of the group to bind to the same address.

Usage Example:

// join multicast group on this interface, and also use this
// interface for outgoing multicast datagrams
NetworkInterface ni = NetworkInterface.getByName("hme0");

DatagramChannel dc = DatagramChannel.open(StandardProtocolFamily.INET)
    .setOption(StandardSocketOptions.SO_REUSEADDR, true)
    .bind(new InetSocketAddress(5000))
    .setOption(StandardSocketOptions.IP_MULTICAST_IF, ni);

InetAddress group = InetAddress.getByName("225.4.5.6");

MembershipKey key = dc.join(group, ni);
A network channel that supports Internet Protocol (IP) multicasting.

 IP multicasting is the transmission of IP datagrams to members of
a group that is zero or more hosts identified by a single destination
address.

 In the case of a channel to an IPv4 socket,
the underlying operating system supports
RFC 2236: Internet Group Management Protocol, Version 2 (IGMPv2).
It may optionally support source filtering as specified by  RFC 3376: Internet Group
Management Protocol, Version 3 (IGMPv3).
For channels to an IPv6 socket, the equivalent
standards are  RFC 2710:
Multicast Listener Discovery (MLD) for IPv6 and  RFC 3810: Multicast Listener
Discovery Version 2 (MLDv2) for IPv6.

 The join(InetAddress,NetworkInterface) method is used to
join a group and receive all multicast datagrams sent to the group. A channel
may join several multicast groups and may join the same group on several
interfaces. Membership is dropped by invoking the drop method on the returned MembershipKey. If the
underlying platform supports source filtering then the block and unblock methods can be used to block or
unblock multicast datagrams from particular source addresses.

 The join(InetAddress,NetworkInterface,InetAddress) method
is used to begin receiving datagrams sent to a group whose source address matches
a given source address. This method throws UnsupportedOperationException
if the underlying platform does not support source filtering.  Membership is
cumulative and this method may be invoked again with the same group
and interface to allow receiving datagrams from other source addresses. The
method returns a MembershipKey that represents membership to receive
datagrams from the given source address. Invoking the key's drop method drops membership so that datagrams from the
source address can no longer be received.

Platform dependencies

The multicast implementation is intended to map directly to the native
multicasting facility. Consequently, the following items should be considered
when developing an application that receives IP multicast datagrams:



 The creation of the channel should specify the ProtocolFamily
that corresponds to the address type of the multicast groups that the channel
will join. There is no guarantee that a channel to a socket in one protocol
family can join and receive multicast datagrams when the address of the
multicast group corresponds to another protocol family. For example, it is
implementation specific if a channel to an IPv6
socket can join an IPv4 multicast group and receive
multicast datagrams sent to the group.

 The channel's socket should be bound to the wildcard address. If the socket is bound to
a specific address, rather than the wildcard address then it is implementation
specific if multicast datagrams are received by the socket.

 The SO_REUSEADDR option should be
enabled prior to binding the socket. This is
required to allow multiple members of the group to bind to the same
address.



 Usage Example:


    // join multicast group on this interface, and also use this
    // interface for outgoing multicast datagrams
    NetworkInterface ni = NetworkInterface.getByName("hme0");

    DatagramChannel dc = DatagramChannel.open(StandardProtocolFamily.INET)
        .setOption(StandardSocketOptions.SO_REUSEADDR, true)
        .bind(new InetSocketAddress(5000))
        .setOption(StandardSocketOptions.IP_MULTICAST_IF, ni);

    InetAddress group = InetAddress.getByName("225.4.5.6");

    MembershipKey key = dc.join(group, ni);
raw docstring

closeclj

(close this)

Closes this channel.

If the channel is a member of a multicast group then the membership is dropped. Upon return, the membership-key will be invalid.

This method otherwise behaves exactly as specified by the Channel interface.

throws: java.io.IOException - If an I/O error occurs

Closes this channel.

  If the channel is a member of a multicast group then the membership
 is dropped. Upon return, the membership-key will be invalid.

  This method otherwise behaves exactly as specified by the Channel interface.

throws: java.io.IOException - If an I/O error occurs
raw docstring

joinclj

(join this group interf)
(join this group interf source)

Joins a multicast group to begin receiving datagrams sent to the group from a given source address.

If this channel is currently a member of the group on the given interface to receive datagrams from the given source address then the membership key, representing that membership, is returned. Otherwise this channel joins the group and the resulting new membership key is returned. The resulting membership key is source-specific.

Membership is cumulative and this method may be invoked again with the same group and interface to allow receiving datagrams sent by other source addresses to the group.

group - The multicast address to join - java.net.InetAddress interf - The network interface on which to join the group - java.net.NetworkInterface source - The source address - java.net.InetAddress

returns: The membership key - java.nio.channels.MembershipKey

throws: java.lang.IllegalArgumentException - If the group parameter is not a multicast address, the source parameter is not a unicast address, the group parameter is an address type that is not supported by this channel, or the source parameter is not the same address type as the group

Joins a multicast group to begin receiving datagrams sent to the group
 from a given source address.

  If this channel is currently a member of the group on the given
 interface to receive datagrams from the given source address then the
 membership key, representing that membership, is returned. Otherwise this
 channel joins the group and the resulting new membership key is returned.
 The resulting membership key is source-specific.

  Membership is cumulative and this method may be invoked
 again with the same group and interface to allow receiving datagrams sent
 by other source addresses to the group.

group - The multicast address to join - `java.net.InetAddress`
interf - The network interface on which to join the group - `java.net.NetworkInterface`
source - The source address - `java.net.InetAddress`

returns: The membership key - `java.nio.channels.MembershipKey`

throws: java.lang.IllegalArgumentException - If the group parameter is not a multicast address, the source parameter is not a unicast address, the group parameter is an address type that is not supported by this channel, or the source parameter is not the same address type as the group
raw docstring

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