io.aeron.driver.Configuration Maven / Gradle / Ivy
/*
* Copyright 2014 - 2016 Real Logic Ltd.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package io.aeron.driver;
import io.aeron.*;
import io.aeron.driver.exceptions.ConfigurationException;
import io.aeron.driver.media.ReceiveChannelEndpoint;
import io.aeron.driver.media.SendChannelEndpoint;
import io.aeron.logbuffer.FrameDescriptor;
import org.agrona.BitUtil;
import org.agrona.LangUtil;
import org.agrona.concurrent.BackoffIdleStrategy;
import org.agrona.concurrent.IdleStrategy;
import org.agrona.concurrent.broadcast.BroadcastBufferDescriptor;
import org.agrona.concurrent.ringbuffer.RingBufferDescriptor;
import java.util.concurrent.TimeUnit;
import static java.lang.Integer.getInteger;
import static java.lang.Long.getLong;
import static java.lang.System.getProperty;
import static io.aeron.driver.ThreadingMode.DEDICATED;
/**
* Configuration options for the {@link MediaDriver}.
*/
public class Configuration
{
private static final String DEFAULT_IDLE_STRATEGY = "org.agrona.concurrent.BackoffIdleStrategy";
/**
* Length (in bytes) of the log buffers for publication terms.
*/
public static final String TERM_BUFFER_LENGTH_PROP_NAME = "aeron.term.buffer.length";
/**
* Length (in bytes) of the log buffers for terms.
*/
public static final String TERM_BUFFER_MAX_LENGTH_PROP_NAME = "aeron.term.buffer.max.length";
/**
* Length (in bytes) of the conductor buffers between the media driver and the client.
*/
public static final String CONDUCTOR_BUFFER_LENGTH_PROP_NAME = "aeron.conductor.buffer.length";
/**
* Length (in bytes) of the broadcast buffers from the media driver to the clients.
*/
public static final String TO_CLIENTS_BUFFER_LENGTH_PROP_NAME = "aeron.clients.buffer.length";
/**
* Property name for length of the error buffer for the system counters.
*/
public static final String COUNTERS_VALUES_BUFFER_LENGTH_PROP_NAME = "aeron.counters.buffer.length";
/**
* Property name for length of the memory mapped buffer for the distinct error log.
*/
public static final String ERROR_BUFFER_LENGTH_PROP_NAME = "aeron.error.buffer.length";
/**
* Property name for length of the initial window which must be sufficient for Bandwidth Delay Produce (BDP).
*/
public static final String INITIAL_WINDOW_LENGTH_PROP_NAME = "aeron.rcv.initial.window.length";
/**
* Property name for status message timeout in nanoseconds.
*/
public static final String STATUS_MESSAGE_TIMEOUT_PROP_NAME = "aeron.rcv.status.message.timeout";
/**
* Property name for SO_RCVBUF setting on UDP sockets which must be sufficient for Bandwidth Delay Produce (BDP).
*/
public static final String SOCKET_RCVBUF_LENGTH_PROP_NAME = "aeron.socket.so_rcvbuf";
/**
* Property name for SO_SNDBUF setting on UDP sockets which must be sufficient for Bandwidth Delay Produce (BDP).
*/
public static final String SOCKET_SNDBUF_LENGTH_PROP_NAME = "aeron.socket.so_sndbuf";
/**
* Property name for IP_MULTICAST_TTL setting on UDP sockets.
*/
public static final String SOCKET_MULTICAST_TTL_PROP_NAME = "aeron.socket.multicast.ttl";
/**
* Property name for linger timeout on {@link Publication}s.
*/
public static final String PUBLICATION_LINGER_PROP_NAME = "aeron.publication.linger.timeout";
/**
* Property name for window limit on {@link Publication} side.
*/
public static final String PUBLICATION_TERM_WINDOW_LENGTH_PROP_NAME = "aeron.publication.term.window.length";
public static final int PUBLICATION_TERM_WINDOW_LENGTH = getInteger(PUBLICATION_TERM_WINDOW_LENGTH_PROP_NAME, 0);
/**
* Property name for {@link Aeron} client liveness timeout.
*/
public static final String CLIENT_LIVENESS_TIMEOUT_PROP_NAME = "aeron.client.liveness.timeout";
/**
* Property name for {@link Image} liveness timeout.
*/
public static final String IMAGE_LIVENESS_TIMEOUT_PROP_NAME = "aeron.image.liveness.timeout";
/**
* Property name for {@link Publication} unblock timeout.
*/
public static final String PUBLICATION_UNBLOCK_TIMEOUT_PROP_NAME = "aeron.publication.unblock.timeout";
/**
* Should term buffers be created as sparse files. Defaults to false.
*
* If a platform supports spare files then log buffer creation is faster with pages being allocated as
* needed. This can help for large numbers of channels/streams but can result in latency pauses.
*/
public static final String TERM_BUFFER_SPARSE_FILE_PROP_NAME = "aeron.term.buffer.sparse.file";
public static final String TERM_BUFFER_SPARSE_FILE = getProperty(TERM_BUFFER_SPARSE_FILE_PROP_NAME);
/**
* Default term buffer length.
*/
public static final int TERM_BUFFER_IPC_LENGTH_DEFAULT = 64 * 1024 * 1024;
/**
* Property name for term buffer length (in bytes) for IPC buffers.
*/
public static final String IPC_TERM_BUFFER_LENGTH_PROP_NAME = "aeron.ipc.term.buffer.length";
public static final int IPC_TERM_BUFFER_LENGTH = getInteger(IPC_TERM_BUFFER_LENGTH_PROP_NAME, TERM_BUFFER_IPC_LENGTH_DEFAULT);
/**
* Property name for window limit for IPC publications.
*/
public static final String IPC_PUBLICATION_TERM_WINDOW_LENGTH_PROP_NAME = "aeron.ipc.publication.term.window.length";
public static final int IPC_PUBLICATION_TERM_WINDOW_LENGTH = getInteger(
IPC_PUBLICATION_TERM_WINDOW_LENGTH_PROP_NAME, 0);
/**
* Default term buffer length.
*/
public static final int TERM_BUFFER_LENGTH_DEFAULT = 16 * 1024 * 1024;
/**
* Default term max buffer length. The maximum possible term length is 1GB.
*/
public static final int TERM_BUFFER_LENGTH_MAX_DEFAULT = 1024 * 1024 * 1024;
/**
* Default buffer length for conductor buffers between the client and the media driver conductor.
*/
public static final int CONDUCTOR_BUFFER_LENGTH_DEFAULT = (1024 * 1024) + RingBufferDescriptor.TRAILER_LENGTH;
public static final int CONDUCTOR_BUFFER_LENGTH = getInteger(
CONDUCTOR_BUFFER_LENGTH_PROP_NAME, CONDUCTOR_BUFFER_LENGTH_DEFAULT);
/**
* Default buffer length for broadcast buffers from the media driver and the clients.
*/
public static final int TO_CLIENTS_BUFFER_LENGTH_DEFAULT = (1024 * 1024) + BroadcastBufferDescriptor.TRAILER_LENGTH;
public static final int TO_CLIENTS_BUFFER_LENGTH = getInteger(
TO_CLIENTS_BUFFER_LENGTH_PROP_NAME, TO_CLIENTS_BUFFER_LENGTH_DEFAULT);
/**
* Length of the memory mapped buffers for the system counters file.
*/
public static final int COUNTERS_VALUES_BUFFER_LENGTH_DEFAULT = 1024 * 1024;
public static final int COUNTERS_VALUES_BUFFER_LENGTH = getInteger(
COUNTERS_VALUES_BUFFER_LENGTH_PROP_NAME, COUNTERS_VALUES_BUFFER_LENGTH_DEFAULT);
public static final int COUNTERS_METADATA_BUFFER_LENGTH = COUNTERS_VALUES_BUFFER_LENGTH * 2;
/**
* Default buffer length for the error buffer for the media driver.
*/
public static final int ERROR_BUFFER_LENGTH_DEFAULT = 1024 * 1024;
public static final int ERROR_BUFFER_LENGTH = getInteger(ERROR_BUFFER_LENGTH_PROP_NAME, ERROR_BUFFER_LENGTH_DEFAULT);
/**
* Default group size estimate for NAK delay randomization.
*/
public static final int NAK_GROUPSIZE_DEFAULT = 10;
/**
* Default group RTT estimate for NAK delay randomization in ms.
*/
public static final int NAK_GRTT_DEFAULT = 10;
/**
* Default max backoff for NAK delay randomization in ms.
*/
public static final long NAK_MAX_BACKOFF_DEFAULT = TimeUnit.MILLISECONDS.toNanos(60);
/**
* Multicast NAK delay is immediate initial with delayed subsequent delay.
*/
public static final OptimalMulticastDelayGenerator NAK_MULTICAST_DELAY_GENERATOR = new OptimalMulticastDelayGenerator(
NAK_MAX_BACKOFF_DEFAULT, NAK_GROUPSIZE_DEFAULT, NAK_GRTT_DEFAULT);
/**
* Default Unicast NAK delay in nanoseconds.
*/
public static final long NAK_UNICAST_DELAY_DEFAULT_NS = TimeUnit.MILLISECONDS.toNanos(60);
/**
* Unicast NAK delay is immediate initial with delayed subsequent delay.
*/
public static final StaticDelayGenerator NAK_UNICAST_DELAY_GENERATOR = new StaticDelayGenerator(
NAK_UNICAST_DELAY_DEFAULT_NS, true);
/**
* Default delay for retransmission of data for unicast.
*/
public static final long RETRANSMIT_UNICAST_DELAY_DEFAULT_NS = TimeUnit.NANOSECONDS.toNanos(0);
/**
* Source uses same for unicast and multicast. For ticks.
*/
public static final FeedbackDelayGenerator RETRANSMIT_UNICAST_DELAY_GENERATOR = () -> RETRANSMIT_UNICAST_DELAY_DEFAULT_NS;
/**
* Default delay for linger for unicast.
*/
public static final long RETRANSMIT_UNICAST_LINGER_DEFAULT_NS = TimeUnit.MILLISECONDS.toNanos(60);
public static final FeedbackDelayGenerator RETRANSMIT_UNICAST_LINGER_GENERATOR = () -> RETRANSMIT_UNICAST_LINGER_DEFAULT_NS;
/**
* Default max number of active retransmissions per connected stream.
*/
public static final int MAX_RETRANSMITS_DEFAULT = 16;
/**
* Default initial window length for flow control sender to receiver purposes
*
* Length of Initial Window
*
* RTT (LAN) = 100 usec
* Throughput = 10 Gbps
*
* Buffer = Throughput * RTT
* Buffer = (10 * 1000 * 1000 * 1000 / 8) * 0.0001 = 125000
* Round to 128KB
*/
public static final int INITIAL_WINDOW_LENGTH_DEFAULT = 128 * 1024;
/**
* Max timeout between SMs.
*/
public static final long STATUS_MESSAGE_TIMEOUT_DEFAULT_NS = TimeUnit.MILLISECONDS.toNanos(200);
/**
* 0 means use OS default.
*/
public static final int SOCKET_RCVBUF_LENGTH_DEFAULT = 128 * 1024;
public static final int SOCKET_RCVBUF_LENGTH = getInteger(SOCKET_RCVBUF_LENGTH_PROP_NAME, SOCKET_RCVBUF_LENGTH_DEFAULT);
/**
* 0 means use OS default.
*/
public static final int SOCKET_SNDBUF_LENGTH_DEFAULT = 0;
public static final int SOCKET_SNDBUF_LENGTH = getInteger(SOCKET_SNDBUF_LENGTH_PROP_NAME, SOCKET_SNDBUF_LENGTH_DEFAULT);
/**
* 0 means use OS default.
*/
public static final int SOCKET_MULTICAST_TTL_DEFAULT = 0;
public static final int SOCKET_MULTICAST_TTL = getInteger(SOCKET_MULTICAST_TTL_PROP_NAME, SOCKET_MULTICAST_TTL_DEFAULT);
/**
* Time for {@link Publication}s to linger before cleanup.
*/
public static final long PUBLICATION_LINGER_DEFAULT_NS = TimeUnit.SECONDS.toNanos(5);
public static final long PUBLICATION_LINGER_NS = getLong(PUBLICATION_LINGER_PROP_NAME, PUBLICATION_LINGER_DEFAULT_NS);
/**
* Timeout for client liveness in nanoseconds.
*/
public static final long CLIENT_LIVENESS_TIMEOUT_DEFAULT_NS = TimeUnit.MILLISECONDS.toNanos(5000);
public static final long CLIENT_LIVENESS_TIMEOUT_NS = getLong(
CLIENT_LIVENESS_TIMEOUT_PROP_NAME, CLIENT_LIVENESS_TIMEOUT_DEFAULT_NS);
/**
* Timeout for {@link Image} liveness in nanoseconds.
*/
public static final long IMAGE_LIVENESS_TIMEOUT_DEFAULT_NS = TimeUnit.SECONDS.toNanos(10);
public static final long IMAGE_LIVENESS_TIMEOUT_NS = getLong(
IMAGE_LIVENESS_TIMEOUT_PROP_NAME, IMAGE_LIVENESS_TIMEOUT_DEFAULT_NS);
/**
* Timeout for {@link Publication} unblock in nanoseconds
*/
public static final long PUBLICATION_UNBLOCK_TIMEOUT_DEFAULT_NS = TimeUnit.SECONDS.toNanos(10);
public static final long PUBLICATION_UNBLOCK_TIMEOUT_NS = getLong(
PUBLICATION_UNBLOCK_TIMEOUT_PROP_NAME, PUBLICATION_UNBLOCK_TIMEOUT_DEFAULT_NS);
public static final long AGENT_IDLE_MAX_SPINS = 20;
public static final long AGENT_IDLE_MAX_YIELDS = 50;
public static final long AGENT_IDLE_MIN_PARK_NS = TimeUnit.NANOSECONDS.toNanos(1);
public static final long AGENT_IDLE_MAX_PARK_NS = TimeUnit.MICROSECONDS.toNanos(100);
/**
* {@link IdleStrategy} to be employed by {@link Sender} for {@link ThreadingMode#DEDICATED}.
*/
public static final String SENDER_IDLE_STRATEGY_PROP_NAME = "aeron.sender.idle.strategy";
public static final String SENDER_IDLE_STRATEGY = getProperty(
SENDER_IDLE_STRATEGY_PROP_NAME, DEFAULT_IDLE_STRATEGY);
/**
* {@link IdleStrategy} to be employed by {@link DriverConductor} for {@link ThreadingMode#DEDICATED}
* and {@link ThreadingMode#SHARED_NETWORK}.
*/
public static final String CONDUCTOR_IDLE_STRATEGY_PROP_NAME = "aeron.conductor.idle.strategy";
public static final String CONDUCTOR_IDLE_STRATEGY = getProperty(
CONDUCTOR_IDLE_STRATEGY_PROP_NAME, DEFAULT_IDLE_STRATEGY);
/**
* {@link IdleStrategy} to be employed by {@link Receiver} for {@link ThreadingMode#DEDICATED}.
*/
public static final String RECEIVER_IDLE_STRATEGY_PROP_NAME = "aeron.receiver.idle.strategy";
public static final String RECEIVER_IDLE_STRATEGY = getProperty(
RECEIVER_IDLE_STRATEGY_PROP_NAME, DEFAULT_IDLE_STRATEGY);
/**
* {@link IdleStrategy} to be employed by {@link Sender} and {@link Receiver} for
* {@link ThreadingMode#SHARED_NETWORK}.
*/
public static final String SHARED_NETWORK_IDLE_STRATEGY_PROP_NAME = "aeron.sharednetwork.idle.strategy";
public static final String SHARED_NETWORK_IDLE_STRATEGY = getProperty(
SHARED_NETWORK_IDLE_STRATEGY_PROP_NAME, DEFAULT_IDLE_STRATEGY);
/**
* {@link IdleStrategy} to be employed by {@link Sender}, {@link Receiver}, and {@link DriverConductor}
* for {@link ThreadingMode#SHARED}.
*/
public static final String SHARED_IDLE_STRATEGY_PROP_NAME = "aeron.shared.idle.strategy";
public static final String SHARED_IDLE_STRATEGY = getProperty(
SHARED_IDLE_STRATEGY_PROP_NAME, DEFAULT_IDLE_STRATEGY);
/**
* Capacity for the command queues used between driver agents.
*/
public static final int CMD_QUEUE_CAPACITY = 1024;
/**
* Timeout on cleaning up pending SETUP state on subscriber.
*/
public static final long PENDING_SETUPS_TIMEOUT_NS = TimeUnit.MILLISECONDS.toNanos(1000);
/**
* Timeout between SETUP frames for publications during initial setup phase.
*/
public static final long PUBLICATION_SETUP_TIMEOUT_NS = TimeUnit.MILLISECONDS.toNanos(100);
/**
* Timeout between heartbeats for publications.
*/
public static final long PUBLICATION_HEARTBEAT_TIMEOUT_NS = TimeUnit.MILLISECONDS.toNanos(100);
/**
* {@link FlowControl} to be employed for unicast channels.
*/
public static final String UNICAST_FLOW_CONTROL_STRATEGY_PROP_NAME = "aeron.unicast.flow.control.strategy";
public static final String UNICAST_FLOW_CONTROL_STRATEGY = getProperty(
UNICAST_FLOW_CONTROL_STRATEGY_PROP_NAME, "io.aeron.driver.UnicastFlowControl");
/**
* {@link FlowControl} to be employed for multicast channels.
*/
public static final String MULTICAST_FLOW_CONTROL_STRATEGY_PROP_NAME = "aeron.multicast.flow.control.strategy";
public static final String MULTICAST_FLOW_CONTROL_STRATEGY = getProperty(
MULTICAST_FLOW_CONTROL_STRATEGY_PROP_NAME, "io.aeron.driver.MaxMulticastFlowControl");
public static final String UNICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_PROP_NAME = "aeron.unicast.FlowControl.supplier";
public static final String UNICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_DEFAULT =
"io.aeron.driver.DefaultUnicastFlowControlSupplier";
public static final String UNICAST_FLOW_CONTROL_STRATEGY_SUPPLIER = getProperty(
UNICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_PROP_NAME, UNICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_DEFAULT);
public static final String MULTICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_PROP_NAME = "aeron.multicast.FlowControl.supplier";
public static final String MULTICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_DEFAULT =
"io.aeron.driver.DefaultMulticastFlowControlSupplier";
public static final String MULTICAST_FLOW_CONTROL_STRATEGY_SUPPLIER = getProperty(
MULTICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_PROP_NAME, MULTICAST_FLOW_CONTROL_STRATEGY_SUPPLIER_DEFAULT);
/**
* Length of the maximum transmission unit of the media driver's protocol
*/
public static final String MTU_LENGTH_PROP_NAME = "aeron.mtu.length";
public static final int MTU_LENGTH_DEFAULT = 4096;
public static final int MTU_LENGTH = getInteger(MTU_LENGTH_PROP_NAME, MTU_LENGTH_DEFAULT);
/**
* {@link ThreadingMode} to be used by the Aeron {@link MediaDriver}
*/
public static final String THREADING_MODE_PROP_NAME = "aeron.threading.mode";
public static final String THREADING_MODE_DEFAULT = DEDICATED.name();
/**
* How often to check liveness and cleanup
*/
public static final long HEARTBEAT_TIMEOUT_NS = TimeUnit.SECONDS.toNanos(1);
public static final String SEND_CHANNEL_ENDPOINT_SUPPLIER_PROP_NAME = "aeron.SendChannelEndpoint.supplier";
public static final String SEND_CHANNEL_ENDPOINT_SUPPLIER_DEFAULT =
"io.aeron.driver.DefaultSendChannelEndpointSupplier";
public static final String SEND_CHANNEL_ENDPOINT_SUPPLIER = getProperty(
SEND_CHANNEL_ENDPOINT_SUPPLIER_PROP_NAME, SEND_CHANNEL_ENDPOINT_SUPPLIER_DEFAULT);
public static final String RECEIVE_CHANNEL_ENDPOINT_SUPPLIER_PROP_NAME = "aeron.ReceiveChannelEndpoint.supplier";
public static final String RECEIVE_CHANNEL_ENDPOINT_SUPPLIER_DEFAULT =
"io.aeron.driver.DefaultReceiveChannelEndpointSupplier";
public static final String RECEIVE_CHANNEL_ENDPOINT_SUPPLIER = getProperty(
RECEIVE_CHANNEL_ENDPOINT_SUPPLIER_PROP_NAME, RECEIVE_CHANNEL_ENDPOINT_SUPPLIER_DEFAULT);
/**
* Maximum UDP datagram payload size for IPv4. Jumbo datagrams from IPv6 are not supported.
*/
public static final int MAX_UDP_PAYLOAD_LENGTH = 65507;
/**
* Validate the the term buffer length is a power of two.
*
* @param length of the term buffer
*/
public static void validateTermBufferLength(final int length)
{
if (!BitUtil.isPowerOfTwo(length))
{
throw new IllegalStateException("Term buffer length must be a positive power of 2: " + length);
}
}
/**
* How far ahead the publisher can get from the sender position.
*
* @param termBufferLength to be used when {@link #PUBLICATION_TERM_WINDOW_LENGTH} is not set.
* @return the length to be used for the publication window.
*/
public static int publicationTermWindowLength(final int termBufferLength)
{
int publicationTermWindowLength = termBufferLength / 2;
if (0 != PUBLICATION_TERM_WINDOW_LENGTH)
{
publicationTermWindowLength = Math.min(PUBLICATION_TERM_WINDOW_LENGTH, publicationTermWindowLength);
}
return publicationTermWindowLength;
}
/**
* How far ahead the publisher can get from the sender position for IPC only.
*
* @param termBufferLength to be used when {@link #IPC_PUBLICATION_TERM_WINDOW_LENGTH} is not set.
* @return the length to be used for the publication window.
*/
public static int ipcPublicationTermWindowLength(final int termBufferLength)
{
int publicationTermWindowLength = termBufferLength;
if (0 != IPC_PUBLICATION_TERM_WINDOW_LENGTH)
{
publicationTermWindowLength = Math.min(IPC_PUBLICATION_TERM_WINDOW_LENGTH, publicationTermWindowLength);
}
return publicationTermWindowLength;
}
/**
* How large the term buffer should be for IPC only.
*
* @param termBufferLength to be used when {@link #IPC_TERM_BUFFER_LENGTH} is not set.
* @return the length to be used for the term buffer in bytes
*/
public static int ipcTermBufferLength(final int termBufferLength)
{
return 0 != IPC_TERM_BUFFER_LENGTH ? IPC_TERM_BUFFER_LENGTH : termBufferLength;
}
/**
* Validate that the initial window length is suitably greater than MTU.
*
* @param initialWindowLength to be validated.
* @param mtuLength against which to validate.
*/
public static void validateInitialWindowLength(final int initialWindowLength, final int mtuLength)
{
if (mtuLength > initialWindowLength)
{
throw new IllegalStateException("Initial window length must be >= to MTU length: " + mtuLength);
}
}
public static IdleStrategy agentIdleStrategy(final String name)
{
IdleStrategy idleStrategy = null;
if (name.equals(DEFAULT_IDLE_STRATEGY))
{
idleStrategy = new BackoffIdleStrategy(
AGENT_IDLE_MAX_SPINS, AGENT_IDLE_MAX_YIELDS, AGENT_IDLE_MIN_PARK_NS, AGENT_IDLE_MAX_PARK_NS);
}
else
{
try
{
idleStrategy = (IdleStrategy)Class.forName(name).newInstance();
}
catch (final Exception ex)
{
LangUtil.rethrowUnchecked(ex);
}
}
return idleStrategy;
}
public static IdleStrategy senderIdleStrategy()
{
return agentIdleStrategy(SENDER_IDLE_STRATEGY);
}
public static IdleStrategy conductorIdleStrategy()
{
return agentIdleStrategy(CONDUCTOR_IDLE_STRATEGY);
}
public static IdleStrategy receiverIdleStrategy()
{
return agentIdleStrategy(RECEIVER_IDLE_STRATEGY);
}
public static IdleStrategy sharedNetworkIdleStrategy()
{
return agentIdleStrategy(SHARED_NETWORK_IDLE_STRATEGY);
}
public static IdleStrategy sharedIdleStrategy()
{
return agentIdleStrategy(SHARED_IDLE_STRATEGY);
}
public static int termBufferLength()
{
return getInteger(TERM_BUFFER_LENGTH_PROP_NAME, TERM_BUFFER_LENGTH_DEFAULT);
}
public static int maxTermBufferLength()
{
return getInteger(TERM_BUFFER_MAX_LENGTH_PROP_NAME, TERM_BUFFER_LENGTH_MAX_DEFAULT);
}
public static int initialWindowLength()
{
return getInteger(INITIAL_WINDOW_LENGTH_PROP_NAME, INITIAL_WINDOW_LENGTH_DEFAULT);
}
public static long statusMessageTimeout()
{
return getLong(STATUS_MESSAGE_TIMEOUT_PROP_NAME, STATUS_MESSAGE_TIMEOUT_DEFAULT_NS);
}
public static ThreadingMode threadingMode()
{
return ThreadingMode.valueOf(getProperty(THREADING_MODE_PROP_NAME, THREADING_MODE_DEFAULT));
}
/**
* Get the supplier of {@link SendChannelEndpoint}s which can be used for
* debugging, monitoring, or modifying the behaviour when sending to the media channel.
*
* @return the {@link SendChannelEndpointSupplier}.
*/
public static SendChannelEndpointSupplier sendChannelEndpointSupplier()
{
SendChannelEndpointSupplier supplier = null;
try
{
supplier = (SendChannelEndpointSupplier)Class.forName(SEND_CHANNEL_ENDPOINT_SUPPLIER).newInstance();
}
catch (final Exception ex)
{
LangUtil.rethrowUnchecked(ex);
}
return supplier;
}
/**
* Get the supplier of {@link ReceiveChannelEndpoint}s which can be used for
* debugging, monitoring, or modifying the behaviour when receiving from the media channel.
*
* @return the {@link SendChannelEndpointSupplier}.
*/
public static ReceiveChannelEndpointSupplier receiveChannelEndpointSupplier()
{
ReceiveChannelEndpointSupplier supplier = null;
try
{
supplier = (ReceiveChannelEndpointSupplier)Class.forName(RECEIVE_CHANNEL_ENDPOINT_SUPPLIER).newInstance();
}
catch (final Exception ex)
{
LangUtil.rethrowUnchecked(ex);
}
return supplier;
}
/**
* Get the supplier of {@link FlowControl}s which can be used for changing behavior of flow control for unicast
* publications.
*
* @return the {@link FlowControlSupplier}.
*/
public static FlowControlSupplier unicastFlowControlSupplier()
{
FlowControlSupplier supplier = null;
try
{
supplier = (FlowControlSupplier)Class.forName(UNICAST_FLOW_CONTROL_STRATEGY_SUPPLIER).newInstance();
}
catch (final Exception ex)
{
LangUtil.rethrowUnchecked(ex);
}
return supplier;
}
/**
* Get the supplier of {@link FlowControl}s which can be used for changing behavior of flow control for unicast
* publications.
*
* @return the {@link FlowControlSupplier}.
*/
public static FlowControlSupplier multicastFlowControlSupplier()
{
FlowControlSupplier supplier = null;
try
{
supplier = (FlowControlSupplier)Class.forName(MULTICAST_FLOW_CONTROL_STRATEGY_SUPPLIER).newInstance();
}
catch (final Exception ex)
{
LangUtil.rethrowUnchecked(ex);
}
return supplier;
}
/**
* Validate the the MTU is an appropriate length. MTU lengths must be a multiple of {@link FrameDescriptor#FRAME_ALIGNMENT}.
*
* @param mtuLength to be validated.
* @throws ConfigurationException if the MTU length is not valid.
*/
public static void validateMtuLength(final int mtuLength)
{
if (mtuLength < 0 || mtuLength > MAX_UDP_PAYLOAD_LENGTH)
{
throw new ConfigurationException(String.format(
"mtuLength must be a > 0 and <= " + MAX_UDP_PAYLOAD_LENGTH + ": mtuLength=%d",
mtuLength));
}
if ((mtuLength % FrameDescriptor.FRAME_ALIGNMENT) != 0)
{
throw new ConfigurationException(String.format(
"mtuLength must be a multiple of %d: mtuLength=%d",
FrameDescriptor.FRAME_ALIGNMENT, mtuLength));
}
}
}
© 2015 - 2025 Weber Informatics LLC | Privacy Policy