XBT_LOG_EXTERNAL_DEFAULT_CATEGORY(ns3);
-///> RED Parameters see src/node/red-queue.* for details
-//.AddAttribute ("Mode",
-// "Whether to use Bytes (see MaxBytes) or Packets (see MaxPackets) as the maximum queue size metric.",
-// EnumValue (BYTES), ///> currently supports BYTES only
-// MakeEnumAccessor (&RedQueue::SetMode),
-// MakeEnumChecker (BYTES, "Bytes",
-// PACKETS, "Packets"))
-// .AddAttribute ("MaxPackets",
-// "The maximum number of packets accepted by this RedQueue.",
-// UintegerValue (100),
-// MakeUintegerAccessor (&RedQueue::m_maxPackets),
-// MakeUintegerChecker<uint32_t> ())
-// .AddAttribute ("MaxBytes",
-// "The maximum number of bytes accepted by this RedQueue.",
-// UintegerValue (100000),
-// MakeUintegerAccessor (&RedQueue::m_maxBytes),
-// MakeUintegerChecker<uint32_t> ())
-// .AddAttribute ("m_burst",
-// "maximum number of m_burst packets accepted by this queue",
-// UintegerValue (6), ///> bursts must be > minTh/avpkt
-// MakeUintegerAccessor (&RedQueue::m_burst),
-// MakeUintegerChecker<uint32_t> ())
-// .AddAttribute ("m_avPkt",
-// "In bytes, use with m_burst to determine the time constant for average queue size calculations",
-// UintegerValue (1024), ///> average packet size
-// MakeUintegerAccessor (&RedQueue::m_avPkt),
-// MakeUintegerChecker<uint32_t> ())
-// .AddAttribute ("m_minTh",
-// "Average queue size at which marking becomes a m_prob",
-// UintegerValue (5120), ///> in bytes 1024x5
-// MakeUintegerAccessor (&RedQueue::m_minTh),
-// MakeUintegerChecker<uint32_t> ())
-// .AddAttribute ("m_maxTh",
-// "Maximal marking m_prob, should be at least twice min to prevent synchronous retransmits",
-// UintegerValue (15360), ///> in bytes 1024x15
-// MakeUintegerAccessor (&RedQueue::m_maxTh),
-// MakeUintegerChecker<uint32_t> ())
-// .AddAttribute ("m_rate",
-// "this m_rate is used for calculating the average queue size after some idle time.",
-// UintegerValue (1500000), ///> in bps, should be set to bandwidth of interface
-// MakeUintegerAccessor (&RedQueue::m_rate),
-// MakeUintegerChecker<uint64_t> ())
-// .AddAttribute ("m_prob",
-// "Probability for marking, suggested values are 0.01 and 0.02",
-// DoubleValue (0.02),
-// MakeDoubleAccessor (&RedQueue::m_prob),
-// MakeDoubleChecker <double> ())
std::string qMode = "Bytes";
std::string qBurst = "6";
std::string qAvPkt = "1024";
{
m_queueFactory.SetTypeId ("ns3::DropTailQueue");
m_queueFactory_red.SetTypeId ("ns3::RedQueue");
-// m_queueFactory_red.Set ("Mode", StringValue (qMode));
-// m_queueFactory_red.Set ("MaxBytes",StringValue (qLimit));
-// m_queueFactory_red.Set ("m_burst", StringValue (qBurst));
-// m_queueFactory_red.Set ("m_avPkt", StringValue (qAvPkt));
-// m_queueFactory_red.Set ("m_minTh", StringValue (qthMin));
-// m_queueFactory_red.Set ("m_maxTh", StringValue (qthMax));
-// m_queueFactory_red.Set ("m_rate", StringValue (qIdleRate));
-// m_queueFactory_red.Set ("m_prob", StringValue (qProb));
m_deviceFactory.SetTypeId ("ns3::PointToPointNetDevice");
m_channelFactory.SetTypeId ("ns3::PointToPointChannel");
m_remoteChannelFactory.SetTypeId ("ns3::PointToPointRemoteChannel");
uint32_t n2SystemId = b->GetSystemId ();
uint32_t currSystemId = MpiInterface::GetSystemId ();
if (n1SystemId != currSystemId || n2SystemId != currSystemId)
- {
useNormalChannel = false;
- }
}
if (useNormalChannel)
{
uint32_t n2SystemId = b->GetSystemId ();
uint32_t currSystemId = MpiInterface::GetSystemId ();
if (n1SystemId != currSystemId || n2SystemId != currSystemId)
- {
useNormalChannel = false;
- }
}
if (useNormalChannel)
{