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/*
* Copyright (c) Contributors, http://opensimulator.org/
* See CONTRIBUTORS.TXT for a full list of copyright holders.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* * Neither the name of the OpenSimulator Project nor the
* names of its contributors may be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.Net;
using System.Threading;
using log4net;
using OpenSim.Framework;
using OpenSim.Framework.Monitoring;
using OpenMetaverse;
using OpenMetaverse.Packets;
using TokenBucket = OpenSim.Region.ClientStack.LindenUDP.TokenBucket;
namespace OpenSim.Region.ClientStack.LindenUDP
{
#region Delegates
/// <summary>
/// Fired when updated networking stats are produced for this client
/// </summary>
/// <param name="inPackets">Number of incoming packets received since this
/// event was last fired</param>
/// <param name="outPackets">Number of outgoing packets sent since this
/// event was last fired</param>
/// <param name="unAckedBytes">Current total number of bytes in packets we
/// are waiting on ACKs for</param>
public delegate void PacketStats(int inPackets, int outPackets, int unAckedBytes);
/// <summary>
/// Fired when the queue for one or more packet categories is empty. This
/// event can be hooked to put more data on the empty queues
/// </summary>
/// <param name="category">Categories of the packet queues that are empty</param>
public delegate void QueueEmpty(ThrottleOutPacketTypeFlags categories);
#endregion Delegates
/// <summary>
/// Tracks state for a client UDP connection and provides client-specific methods
/// </summary>
public sealed class LLUDPClient
{
// TODO: Make this a config setting
/// <summary>Percentage of the task throttle category that is allocated to avatar and prim
/// state updates</summary>
const float STATE_TASK_PERCENTAGE = 0.8f;
private static readonly ILog m_log = LogManager.GetLogger(System.Reflection.MethodBase.GetCurrentMethod().DeclaringType);
/// <summary>The number of packet categories to throttle on. If a throttle category is added
/// or removed, this number must also change</summary>
const int THROTTLE_CATEGORY_COUNT = 8;
/// <summary>Fired when updated networking stats are produced for this client</summary>
public event PacketStats OnPacketStats;
/// <summary>Fired when the queue for a packet category is empty. This event can be
/// hooked to put more data on the empty queue</summary>
public event QueueEmpty OnQueueEmpty;
public event Func<ThrottleOutPacketTypeFlags, bool> HasUpdates;
/// <summary>AgentID for this client</summary>
public readonly UUID AgentID;
/// <summary>The remote address of the connected client</summary>
public readonly IPEndPoint RemoteEndPoint;
/// <summary>Circuit code that this client is connected on</summary>
public readonly uint CircuitCode;
/// <summary>Sequence numbers of packets we've received (for duplicate checking)</summary>
public readonly IncomingPacketHistoryCollection PacketArchive = new IncomingPacketHistoryCollection(200);
/// <summary>Packets we have sent that need to be ACKed by the client</summary>
public readonly UnackedPacketCollection NeedAcks = new UnackedPacketCollection();
/// <summary>ACKs that are queued up, waiting to be sent to the client</summary>
public readonly OpenSim.Framework.LocklessQueue<uint> PendingAcks = new OpenSim.Framework.LocklessQueue<uint>();
/// <summary>Current packet sequence number</summary>
public int CurrentSequence;
/// <summary>Current ping sequence number</summary>
public byte CurrentPingSequence;
/// <summary>True when this connection is alive, otherwise false</summary>
public bool IsConnected = true;
/// <summary>True when this connection is paused, otherwise false</summary>
public bool IsPaused;
/// <summary>Environment.TickCount when the last packet was received for this client</summary>
public int TickLastPacketReceived;
/// <summary>Smoothed round-trip time. A smoothed average of the round-trip time for sending a
/// reliable packet to the client and receiving an ACK</summary>
public float SRTT;
/// <summary>Round-trip time variance. Measures the consistency of round-trip times</summary>
public float RTTVAR;
/// <summary>Retransmission timeout. Packets that have not been acknowledged in this number of
/// milliseconds or longer will be resent</summary>
/// <remarks>Calculated from <seealso cref="SRTT"/> and <seealso cref="RTTVAR"/> using the
/// guidelines in RFC 2988</remarks>
public int RTO;
/// <summary>Number of bytes received since the last acknowledgement was sent out. This is used
/// to loosely follow the TCP delayed ACK algorithm in RFC 1122 (4.2.3.2)</summary>
public int BytesSinceLastACK;
/// <summary>Number of packets received from this client</summary>
public int PacketsReceived;
/// <summary>Number of packets sent to this client</summary>
public int PacketsSent;
/// <summary>Number of packets resent to this client</summary>
public int PacketsResent;
/// <summary>Total byte count of unacked packets sent to this client</summary>
public int UnackedBytes;
/// <summary>Total number of received packets that we have reported to the OnPacketStats event(s)</summary>
private int m_packetsReceivedReported;
/// <summary>Total number of sent packets that we have reported to the OnPacketStats event(s)</summary>
private int m_packetsSentReported;
/// <summary>Holds the Environment.TickCount value of when the next OnQueueEmpty can be fired</summary>
private int m_nextOnQueueEmpty = 1;
/// <summary>Throttle bucket for this agent's connection</summary>
private readonly AdaptiveTokenBucket m_throttleClient;
public AdaptiveTokenBucket FlowThrottle
{
get { return m_throttleClient; }
}
/// <summary>Throttle bucket for this agent's connection</summary>
private readonly TokenBucket m_throttleCategory;
/// <summary>Throttle buckets for each packet category</summary>
private readonly TokenBucket[] m_throttleCategories;
/// <summary>Outgoing queues for throttled packets</summary>
private readonly OpenSim.Framework.LocklessQueue<OutgoingPacket>[] m_packetOutboxes = new OpenSim.Framework.LocklessQueue<OutgoingPacket>[THROTTLE_CATEGORY_COUNT];
/// <summary>A container that can hold one packet for each outbox, used to store
/// dequeued packets that are being held for throttling</summary>
private readonly OutgoingPacket[] m_nextPackets = new OutgoingPacket[THROTTLE_CATEGORY_COUNT];
/// <summary>A reference to the LLUDPServer that is managing this client</summary>
private readonly LLUDPServer m_udpServer;
/// <summary>Caches packed throttle information</summary>
private byte[] m_packedThrottles;
private int m_defaultRTO = 1000; // 1sec is the recommendation in the RFC
private int m_maxRTO = 60000;
/// <summary>
/// This is the percentage of the udp texture queue to add to the task queue since
/// textures are now generally handled through http.
/// </summary>
private double m_cannibalrate = 0.0;
private ClientInfo m_info = new ClientInfo();
/// <summary>
/// Default constructor
/// </summary>
/// <param name="server">Reference to the UDP server this client is connected to</param>
/// <param name="rates">Default throttling rates and maximum throttle limits</param>
/// <param name="parentThrottle">Parent HTB (hierarchical token bucket)
/// that the child throttles will be governed by</param>
/// <param name="circuitCode">Circuit code for this connection</param>
/// <param name="agentID">AgentID for the connected agent</param>
/// <param name="remoteEndPoint">Remote endpoint for this connection</param>
/// <param name="defaultRTO">
/// Default retransmission timeout for unacked packets. The RTO will never drop
/// beyond this number.
/// </param>
/// <param name="maxRTO">
/// The maximum retransmission timeout for unacked packets. The RTO will never exceed this number.
/// </param>
public LLUDPClient(
LLUDPServer server, ThrottleRates rates, TokenBucket parentThrottle, uint circuitCode, UUID agentID,
IPEndPoint remoteEndPoint, int defaultRTO, int maxRTO)
{
AgentID = agentID;
RemoteEndPoint = remoteEndPoint;
CircuitCode = circuitCode;
m_udpServer = server;
if (defaultRTO != 0)
m_defaultRTO = defaultRTO;
if (maxRTO != 0)
m_maxRTO = maxRTO;
// Create a token bucket throttle for this client that has the scene token bucket as a parent
m_throttleClient = new AdaptiveTokenBucket(parentThrottle, rates.Total, rates.AdaptiveThrottlesEnabled);
// Create a token bucket throttle for the total category with the client bucket as a throttle
m_throttleCategory = new TokenBucket(m_throttleClient, 0);
// Create an array of token buckets for this clients different throttle categories
m_throttleCategories = new TokenBucket[THROTTLE_CATEGORY_COUNT];
m_cannibalrate = rates.CannibalizeTextureRate;
for (int i = 0; i < THROTTLE_CATEGORY_COUNT; i++)
{
ThrottleOutPacketType type = (ThrottleOutPacketType)i;
// Initialize the packet outboxes, where packets sit while they are waiting for tokens
m_packetOutboxes[i] = new OpenSim.Framework.LocklessQueue<OutgoingPacket>();
// Initialize the token buckets that control the throttling for each category
m_throttleCategories[i] = new TokenBucket(m_throttleCategory, rates.GetRate(type));
}
// Default the retransmission timeout to one second
RTO = m_defaultRTO;
// Initialize this to a sane value to prevent early disconnects
TickLastPacketReceived = Environment.TickCount & Int32.MaxValue;
}
/// <summary>
/// Shuts down this client connection
/// </summary>
public void Shutdown()
{
IsConnected = false;
for (int i = 0; i < THROTTLE_CATEGORY_COUNT; i++)
{
m_packetOutboxes[i].Clear();
m_nextPackets[i] = null;
}
// pull the throttle out of the scene throttle
m_throttleClient.Parent.UnregisterRequest(m_throttleClient);
OnPacketStats = null;
OnQueueEmpty = null;
}
/// <summary>
/// Gets information about this client connection
/// </summary>
/// <returns>Information about the client connection</returns>
public ClientInfo GetClientInfo()
{
// TODO: This data structure is wrong in so many ways. Locking and copying the entire lists
// of pending and needed ACKs for every client every time some method wants information about
// this connection is a recipe for poor performance
m_info.resendThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Resend].DripRate;
m_info.landThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Land].DripRate;
m_info.windThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Wind].DripRate;
m_info.cloudThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Cloud].DripRate;
m_info.taskThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Task].DripRate;
m_info.assetThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Asset].DripRate;
m_info.textureThrottle = (int)m_throttleCategories[(int)ThrottleOutPacketType.Texture].DripRate;
m_info.totalThrottle = (int)m_throttleCategory.DripRate;
m_info.maxThrottle = (int)m_throttleClient.MaxDripRate;
return m_info;
}
/// <summary>
/// Modifies the UDP throttles
/// </summary>
/// <param name="info">New throttling values</param>
public void SetClientInfo(ClientInfo info)
{
// TODO: Allowing throttles to be manually set from this function seems like a reasonable
// idea. On the other hand, letting external code manipulate our ACK accounting is not
// going to happen
throw new NotImplementedException();
}
/// <summary>
/// Return statistics information about client packet queues.
/// </summary>
/// <remarks>
/// FIXME: This should really be done in a more sensible manner rather than sending back a formatted string.
/// </remarks>
/// <returns></returns>
public string GetStats()
{
return string.Format(
"{0,7} {1,7} {2,7} {3,9} {4,7} {5,7} {6,7} {7,7} {8,7} {9,8} {10,7} {11,7}",
Util.EnvironmentTickCountSubtract(TickLastPacketReceived),
PacketsReceived,
PacketsSent,
PacketsResent,
UnackedBytes,
m_packetOutboxes[(int)ThrottleOutPacketType.Resend].Count,
m_packetOutboxes[(int)ThrottleOutPacketType.Land].Count,
m_packetOutboxes[(int)ThrottleOutPacketType.Wind].Count,
m_packetOutboxes[(int)ThrottleOutPacketType.Cloud].Count,
m_packetOutboxes[(int)ThrottleOutPacketType.Task].Count,
m_packetOutboxes[(int)ThrottleOutPacketType.Texture].Count,
m_packetOutboxes[(int)ThrottleOutPacketType.Asset].Count);
}
public void SendPacketStats()
{
PacketStats callback = OnPacketStats;
if (callback != null)
{
int newPacketsReceived = PacketsReceived - m_packetsReceivedReported;
int newPacketsSent = PacketsSent - m_packetsSentReported;
callback(newPacketsReceived, newPacketsSent, UnackedBytes);
m_packetsReceivedReported += newPacketsReceived;
m_packetsSentReported += newPacketsSent;
}
}
public void SetThrottles(byte[] throttleData)
{
byte[] adjData;
int pos = 0;
if (!BitConverter.IsLittleEndian)
{
byte[] newData = new byte[7 * 4];
Buffer.BlockCopy(throttleData, 0, newData, 0, 7 * 4);
for (int i = 0; i < 7; i++)
Array.Reverse(newData, i * 4, 4);
adjData = newData;
}
else
{
adjData = throttleData;
}
// 0.125f converts from bits to bytes
int resend = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f); pos += 4;
int land = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f); pos += 4;
int wind = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f); pos += 4;
int cloud = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f); pos += 4;
int task = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f); pos += 4;
int texture = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f); pos += 4;
int asset = (int)(BitConverter.ToSingle(adjData, pos) * 0.125f);
// Make sure none of the throttles are set below our packet MTU,
// otherwise a throttle could become permanently clogged
resend = Math.Max(resend, LLUDPServer.MTU);
land = Math.Max(land, LLUDPServer.MTU);
wind = Math.Max(wind, LLUDPServer.MTU);
cloud = Math.Max(cloud, LLUDPServer.MTU);
task = Math.Max(task, LLUDPServer.MTU);
texture = Math.Max(texture, LLUDPServer.MTU);
asset = Math.Max(asset, LLUDPServer.MTU);
// Since most textures are now delivered through http, make it possible
// to cannibalize some of the bw from the texture throttle to use for
// the task queue (e.g. object updates)
task = task + (int)(m_cannibalrate * texture);
texture = (int)((1 - m_cannibalrate) * texture);
//int total = resend + land + wind + cloud + task + texture + asset;
//m_log.DebugFormat("[LLUDPCLIENT]: {0} is setting throttles. Resend={1}, Land={2}, Wind={3}, Cloud={4}, Task={5}, Texture={6}, Asset={7}, Total={8}",
// AgentID, resend, land, wind, cloud, task, texture, asset, total);
// Update the token buckets with new throttle values
TokenBucket bucket;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Resend];
bucket.RequestedDripRate = resend;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Land];
bucket.RequestedDripRate = land;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Wind];
bucket.RequestedDripRate = wind;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Cloud];
bucket.RequestedDripRate = cloud;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Asset];
bucket.RequestedDripRate = asset;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Task];
bucket.RequestedDripRate = task;
bucket = m_throttleCategories[(int)ThrottleOutPacketType.Texture];
bucket.RequestedDripRate = texture;
// Reset the packed throttles cached data
m_packedThrottles = null;
}
public byte[] GetThrottlesPacked(float multiplier)
{
byte[] data = m_packedThrottles;
if (data == null)
{
float rate;
data = new byte[7 * 4];
int i = 0;
// multiply by 8 to convert bytes back to bits
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Resend].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Land].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Wind].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Cloud].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Task].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Texture].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
rate = (float)m_throttleCategories[(int)ThrottleOutPacketType.Asset].RequestedDripRate * 8 * multiplier;
Buffer.BlockCopy(Utils.FloatToBytes(rate), 0, data, i, 4); i += 4;
m_packedThrottles = data;
}
return data;
}
/// <summary>
/// Queue an outgoing packet if appropriate.
/// </summary>
/// <param name="packet"></param>
/// <param name="forceQueue">Always queue the packet if at all possible.</param>
/// <returns>
/// true if the packet has been queued,
/// false if the packet has not been queued and should be sent immediately.
/// </returns>
public bool EnqueueOutgoing(OutgoingPacket packet, bool forceQueue)
{
int category = (int)packet.Category;
if (category >= 0 && category < m_packetOutboxes.Length)
{
OpenSim.Framework.LocklessQueue<OutgoingPacket> queue = m_packetOutboxes[category];
TokenBucket bucket = m_throttleCategories[category];
// Don't send this packet if there is already a packet waiting in the queue
// even if we have the tokens to send it, tokens should go to the already
// queued packets
if (queue.Count > 0)
{
queue.Enqueue(packet);
return true;
}
if (!forceQueue && bucket.RemoveTokens(packet.Buffer.DataLength))
{
// Enough tokens were removed from the bucket, the packet will not be queued
return false;
}
else
{
// Force queue specified or not enough tokens in the bucket, queue this packet
queue.Enqueue(packet);
return true;
}
}
else
{
// We don't have a token bucket for this category, so it will not be queued
return false;
}
}
/// <summary>
/// Loops through all of the packet queues for this client and tries to send
/// an outgoing packet from each, obeying the throttling bucket limits
/// </summary>
///
/// <remarks>
/// Packet queues are inspected in ascending numerical order starting from 0. Therefore, queues with a lower
/// ThrottleOutPacketType number will see their packet get sent first (e.g. if both Land and Wind queues have
/// packets, then the packet at the front of the Land queue will be sent before the packet at the front of the
/// wind queue).
///
/// This function is only called from a synchronous loop in the
/// UDPServer so we don't need to bother making this thread safe
/// </remarks>
///
/// <returns>True if any packets were sent, otherwise false</returns>
public bool DequeueOutgoing()
{
OutgoingPacket packet;
OpenSim.Framework.LocklessQueue<OutgoingPacket> queue;
TokenBucket bucket;
bool packetSent = false;
ThrottleOutPacketTypeFlags emptyCategories = 0;
//string queueDebugOutput = String.Empty; // Serious debug business
for (int i = 0; i < THROTTLE_CATEGORY_COUNT; i++)
{
bucket = m_throttleCategories[i];
//queueDebugOutput += m_packetOutboxes[i].Count + " "; // Serious debug business
if (m_nextPackets[i] != null)
{
// This bucket was empty the last time we tried to send a packet,
// leaving a dequeued packet still waiting to be sent out. Try to
// send it again
OutgoingPacket nextPacket = m_nextPackets[i];
if (bucket.RemoveTokens(nextPacket.Buffer.DataLength))
{
// Send the packet
m_udpServer.SendPacketFinal(nextPacket);
m_nextPackets[i] = null;
packetSent = true;
}
}
else
{
// No dequeued packet waiting to be sent, try to pull one off
// this queue
queue = m_packetOutboxes[i];
if (queue.Dequeue(out packet))
{
// A packet was pulled off the queue. See if we have
// enough tokens in the bucket to send it out
if (bucket.RemoveTokens(packet.Buffer.DataLength))
{
// Send the packet
m_udpServer.SendPacketFinal(packet);
packetSent = true;
}
else
{
// Save the dequeued packet for the next iteration
m_nextPackets[i] = packet;
}
// If the queue is empty after this dequeue, fire the queue
// empty callback now so it has a chance to fill before we
// get back here
if (queue.Count == 0)
emptyCategories |= CategoryToFlag(i);
}
else
{
// No packets in this queue. Fire the queue empty callback
// if it has not been called recently
emptyCategories |= CategoryToFlag(i);
}
}
}
if (emptyCategories != 0)
BeginFireQueueEmpty(emptyCategories);
//m_log.Info("[LLUDPCLIENT]: Queues: " + queueDebugOutput); // Serious debug business
return packetSent;
}
/// <summary>
/// Called when an ACK packet is received and a round-trip time for a
/// packet is calculated. This is used to calculate the smoothed
/// round-trip time, round trip time variance, and finally the
/// retransmission timeout
/// </summary>
/// <param name="r">Round-trip time of a single packet and its
/// acknowledgement</param>
public void UpdateRoundTrip(float r)
{
const float ALPHA = 0.125f;
const float BETA = 0.25f;
const float K = 4.0f;
if (RTTVAR == 0.0f)
{
// First RTT measurement
SRTT = r;
RTTVAR = r * 0.5f;
}
else
{
// Subsequence RTT measurement
RTTVAR = (1.0f - BETA) * RTTVAR + BETA * Math.Abs(SRTT - r);
SRTT = (1.0f - ALPHA) * SRTT + ALPHA * r;
}
int rto = (int)(SRTT + Math.Max(m_udpServer.TickCountResolution, K * RTTVAR));
// Clamp the retransmission timeout to manageable values
rto = Utils.Clamp(rto, m_defaultRTO, m_maxRTO);
RTO = rto;
//if (RTO != rto)
// m_log.Debug("[LLUDPCLIENT]: Setting RTO to " + RTO + "ms from " + rto + "ms with an RTTVAR of " +
//RTTVAR + " based on new RTT of " + r + "ms");
}
/// <summary>
/// Exponential backoff of the retransmission timeout, per section 5.5
/// of RFC 2988
/// </summary>
public void BackoffRTO()
{
// Reset SRTT and RTTVAR, we assume they are bogus since things
// didn't work out and we're backing off the timeout
SRTT = 0.0f;
RTTVAR = 0.0f;
// Double the retransmission timeout
RTO = Math.Min(RTO * 2, m_maxRTO);
}
/// <summary>
/// Does an early check to see if this queue empty callback is already
/// running, then asynchronously firing the event
/// </summary>
/// <param name="categories">Throttle categories to fire the callback for</param>
private void BeginFireQueueEmpty(ThrottleOutPacketTypeFlags categories)
{
// if (m_nextOnQueueEmpty != 0 && (Environment.TickCount & Int32.MaxValue) >= m_nextOnQueueEmpty)
if (!m_isQueueEmptyRunning && (Environment.TickCount & Int32.MaxValue) >= m_nextOnQueueEmpty)
{
m_isQueueEmptyRunning = true;
int start = Environment.TickCount & Int32.MaxValue;
const int MIN_CALLBACK_MS = 30;
m_nextOnQueueEmpty = start + MIN_CALLBACK_MS;
if (m_nextOnQueueEmpty == 0)
m_nextOnQueueEmpty = 1;
// Use a value of 0 to signal that FireQueueEmpty is running
// m_nextOnQueueEmpty = 0;
m_categories = categories;
if (HasUpdates(m_categories))
{
// Asynchronously run the callback
Util.FireAndForget(FireQueueEmpty, categories);
}
else
{
m_isQueueEmptyRunning = false;
}
}
}
private bool m_isQueueEmptyRunning;
private ThrottleOutPacketTypeFlags m_categories = 0;
/// <summary>
/// Fires the OnQueueEmpty callback and sets the minimum time that it
/// can be called again
/// </summary>
/// <param name="o">Throttle categories to fire the callback for,
/// stored as an object to match the WaitCallback delegate
/// signature</param>
private void FireQueueEmpty(object o)
{
// int start = Environment.TickCount & Int32.MaxValue;
// const int MIN_CALLBACK_MS = 30;
// if (m_udpServer.IsRunningOutbound)
// {
ThrottleOutPacketTypeFlags categories = (ThrottleOutPacketTypeFlags)o;
QueueEmpty callback = OnQueueEmpty;
if (callback != null)
{
// if (m_udpServer.IsRunningOutbound)
// {
try { callback(categories); }
catch (Exception e) { m_log.Error("[LLUDPCLIENT]: OnQueueEmpty(" + categories + ") threw an exception: " + e.Message, e); }
// }
}
// }
// m_nextOnQueueEmpty = start + MIN_CALLBACK_MS;
// if (m_nextOnQueueEmpty == 0)
// m_nextOnQueueEmpty = 1;
// }
m_isQueueEmptyRunning = false;
}
/// <summary>
/// Converts a <seealso cref="ThrottleOutPacketType"/> integer to a
/// flag value
/// </summary>
/// <param name="i">Throttle category to convert</param>
/// <returns>Flag representation of the throttle category</returns>
private static ThrottleOutPacketTypeFlags CategoryToFlag(int i)
{
ThrottleOutPacketType category = (ThrottleOutPacketType)i;
/*
* Land = 1,
/// <summary>Wind data</summary>
Wind = 2,
/// <summary>Cloud data</summary>
Cloud = 3,
/// <summary>Any packets that do not fit into the other throttles</summary>
Task = 4,
/// <summary>Texture assets</summary>
Texture = 5,
/// <summary>Non-texture assets</summary>
Asset = 6,
*/
switch (category)
{
case ThrottleOutPacketType.Land:
return ThrottleOutPacketTypeFlags.Land;
case ThrottleOutPacketType.Wind:
return ThrottleOutPacketTypeFlags.Wind;
case ThrottleOutPacketType.Cloud:
return ThrottleOutPacketTypeFlags.Cloud;
case ThrottleOutPacketType.Task:
return ThrottleOutPacketTypeFlags.Task;
case ThrottleOutPacketType.Texture:
return ThrottleOutPacketTypeFlags.Texture;
case ThrottleOutPacketType.Asset:
return ThrottleOutPacketTypeFlags.Asset;
default:
return 0;
}
}
}
}
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