blob: d1c2577de30479a7ac94df5cb2c639836146dc58 [file] [log] [blame]
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil -*- */
/*
* Copyright (c) 2011 UCLA
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation;
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author: Alexander Afanasyev <alexander.afanasyev@ucla.edu>
* Ilya Moiseenko <iliamo@cs.ucla.edu>
*/
#include "ns3/assert.h"
#include "ns3/log.h"
#include "ns3/object.h"
#include "ns3/names.h"
#include "ns3/packet-socket-factory.h"
#include "ns3/config.h"
#include "ns3/simulator.h"
#include "ns3/string.h"
#include "ns3/net-device.h"
#include "ns3/channel.h"
#include "ns3/callback.h"
#include "ns3/node.h"
#include "ns3/core-config.h"
#include "ns3/point-to-point-net-device.h"
#include "ns3/point-to-point-helper.h"
#include "ns3/callback.h"
#include "../model/ndn-net-device-face.hpp"
#include "../model/ndn-l3-protocol.hpp"
#include "ns3/ndn-forwarding-strategy.hpp"
#include "ns3/ndn-fib.hpp"
#include "ns3/ndn-pit.hpp"
#include "ns3/ndn-name.hpp"
#include "ns3/ndn-content-store.hpp"
#include "ns3/node-list.h"
// #include "ns3/loopback-net-device.h"
#include "ns3/data-rate.h"
#include "ndn-face-container.hpp"
#include "ndn-stack-helper.hpp"
#include <limits>
#include <map>
#include <boost/foreach.hpp>
#include <boost/lexical_cast.hpp>
NS_LOG_COMPONENT_DEFINE("ndn.StackHelper");
namespace ns3 {
namespace ndn {
StackHelper::StackHelper()
: m_limitsEnabled(false)
, m_needSetDefaultRoutes(false)
{
m_ndnFactory.SetTypeId("ns3::ndn::L3Protocol");
m_strategyFactory.SetTypeId("ns3::ndn::fw::Flooding");
m_contentStoreFactory.SetTypeId("ns3::ndn::cs::Lru");
m_fibFactory.SetTypeId("ns3::ndn::fib::Default");
m_pitFactory.SetTypeId("ns3::ndn::pit::Persistent");
m_netDeviceCallbacks.push_back(
std::make_pair(PointToPointNetDevice::GetTypeId(),
MakeCallback(&StackHelper::PointToPointNetDeviceCallback, this)));
// default callback will be fired if non of others callbacks fit or did the job
}
StackHelper::~StackHelper()
{
}
void
StackHelper::SetStackAttributes(const std::string& attr1, const std::string& value1,
const std::string& attr2, const std::string& value2,
const std::string& attr3, const std::string& value3,
const std::string& attr4, const std::string& value4)
{
if (attr1 != "")
m_ndnFactory.Set(attr1, StringValue(value1));
if (attr2 != "")
m_ndnFactory.Set(attr2, StringValue(value2));
if (attr3 != "")
m_ndnFactory.Set(attr3, StringValue(value3));
if (attr4 != "")
m_ndnFactory.Set(attr4, StringValue(value4));
}
void
StackHelper::SetForwardingStrategy(const std::string& strategy, const std::string& attr1,
const std::string& value1, const std::string& attr2,
const std::string& value2, const std::string& attr3,
const std::string& value3, const std::string& attr4,
const std::string& value4)
{
m_strategyFactory.SetTypeId(strategy);
if (attr1 != "")
m_strategyFactory.Set(attr1, StringValue(value1));
if (attr2 != "")
m_strategyFactory.Set(attr2, StringValue(value2));
if (attr3 != "")
m_strategyFactory.Set(attr3, StringValue(value3));
if (attr4 != "")
m_strategyFactory.Set(attr4, StringValue(value4));
}
void
StackHelper::SetContentStore(const std::string& contentStore, const std::string& attr1,
const std::string& value1, const std::string& attr2,
const std::string& value2, const std::string& attr3,
const std::string& value3, const std::string& attr4,
const std::string& value4)
{
m_contentStoreFactory.SetTypeId(contentStore);
if (attr1 != "")
m_contentStoreFactory.Set(attr1, StringValue(value1));
if (attr2 != "")
m_contentStoreFactory.Set(attr2, StringValue(value2));
if (attr3 != "")
m_contentStoreFactory.Set(attr3, StringValue(value3));
if (attr4 != "")
m_contentStoreFactory.Set(attr4, StringValue(value4));
}
void
StackHelper::SetPit(const std::string& pitClass, const std::string& attr1,
const std::string& value1, const std::string& attr2, const std::string& value2,
const std::string& attr3, const std::string& value3, const std::string& attr4,
const std::string& value4)
{
m_pitFactory.SetTypeId(pitClass);
if (attr1 != "")
m_pitFactory.Set(attr1, StringValue(value1));
if (attr2 != "")
m_pitFactory.Set(attr2, StringValue(value2));
if (attr3 != "")
m_pitFactory.Set(attr3, StringValue(value3));
if (attr4 != "")
m_pitFactory.Set(attr4, StringValue(value4));
}
void
StackHelper::SetFib(const std::string& fibClass, const std::string& attr1,
const std::string& value1, const std::string& attr2, const std::string& value2,
const std::string& attr3, const std::string& value3, const std::string& attr4,
const std::string& value4)
{
m_fibFactory.SetTypeId(fibClass);
if (attr1 != "")
m_fibFactory.Set(attr1, StringValue(value1));
if (attr2 != "")
m_fibFactory.Set(attr2, StringValue(value2));
if (attr3 != "")
m_fibFactory.Set(attr3, StringValue(value3));
if (attr4 != "")
m_fibFactory.Set(attr4, StringValue(value4));
}
void
StackHelper::SetDefaultRoutes(bool needSet)
{
NS_LOG_FUNCTION(this << needSet);
m_needSetDefaultRoutes = needSet;
}
void
StackHelper::EnableLimits(bool enable /* = true*/, Time avgRtt /*=Seconds(0.1)*/,
uint32_t avgData /*=1100*/, uint32_t avgInterest /*=40*/)
{
NS_LOG_INFO("EnableLimits: " << enable);
m_limitsEnabled = enable;
m_avgRtt = avgRtt;
m_avgDataSize = avgData;
m_avgInterestSize = avgInterest;
}
Ptr<FaceContainer>
StackHelper::Install(const NodeContainer& c) const
{
Ptr<FaceContainer> faces = Create<FaceContainer>();
for (NodeContainer::Iterator i = c.Begin(); i != c.End(); ++i) {
faces->AddAll(Install(*i));
}
return faces;
}
Ptr<FaceContainer>
StackHelper::InstallAll() const
{
return Install(NodeContainer::GetGlobal());
}
Ptr<FaceContainer>
StackHelper::Install(Ptr<Node> node) const
{
// NS_ASSERT_MSG (m_forwarding, "SetForwardingHelper() should be set prior calling Install()
// method");
Ptr<FaceContainer> faces = Create<FaceContainer>();
if (node->GetObject<L3Protocol>() != 0) {
NS_FATAL_ERROR("StackHelper::Install (): Installing "
"a NdnStack to a node with an existing Ndn object");
return 0;
}
// Create L3Protocol
Ptr<L3Protocol> ndn = m_ndnFactory.Create<L3Protocol>();
// Create and aggregate FIB
Ptr<Fib> fib = m_fibFactory.Create<Fib>();
ndn->AggregateObject(fib);
// Create and aggregate PIT
ndn->AggregateObject(m_pitFactory.Create<Pit>());
// Create and aggregate forwarding strategy
ndn->AggregateObject(m_strategyFactory.Create<ForwardingStrategy>());
// Create and aggregate content store
ndn->AggregateObject(m_contentStoreFactory.Create<ContentStore>());
// Aggregate L3Protocol on node
node->AggregateObject(ndn);
for (uint32_t index = 0; index < node->GetNDevices(); index++) {
Ptr<NetDevice> device = node->GetDevice(index);
// This check does not make sense: LoopbackNetDevice is installed only if IP stack is installed,
// Normally, ndnSIM works without IP stack, so no reason to check
// if (DynamicCast<LoopbackNetDevice> (device) != 0)
// continue; // don't create face for a LoopbackNetDevice
Ptr<NetDeviceFace> face;
for (std::list<std::pair<TypeId, NetDeviceFaceCreateCallback>>::const_iterator item =
m_netDeviceCallbacks.begin();
item != m_netDeviceCallbacks.end(); item++) {
if (device->GetInstanceTypeId() == item->first
|| device->GetInstanceTypeId().IsChildOf(item->first)) {
face = item->second(node, ndn, device);
if (face != 0)
break;
}
}
if (face == 0) {
face = DefaultNetDeviceCallback(node, ndn, device);
}
if (m_needSetDefaultRoutes) {
// default route with lowest priority possible
AddRoute(node, "/", StaticCast<Face>(face), std::numeric_limits<int32_t>::max());
}
face->SetUp();
faces->Add(face);
}
return faces;
}
void
StackHelper::AddNetDeviceFaceCreateCallback(TypeId netDeviceType,
StackHelper::NetDeviceFaceCreateCallback callback)
{
m_netDeviceCallbacks.push_back(std::make_pair(netDeviceType, callback));
}
void
StackHelper::UpdateNetDeviceFaceCreateCallback(TypeId netDeviceType,
NetDeviceFaceCreateCallback callback)
{
for (NetDeviceCallbackList::iterator i = m_netDeviceCallbacks.begin();
i != m_netDeviceCallbacks.end(); i++) {
if (i->first == netDeviceType) {
i->second = callback;
return;
}
}
}
void
StackHelper::RemoveNetDeviceFaceCreateCallback(TypeId netDeviceType,
NetDeviceFaceCreateCallback callback)
{
for (NetDeviceCallbackList::iterator i = m_netDeviceCallbacks.begin();
i != m_netDeviceCallbacks.end(); i++) {
if (i->first == netDeviceType) {
m_netDeviceCallbacks.erase(i);
return;
}
}
}
Ptr<NetDeviceFace>
StackHelper::DefaultNetDeviceCallback(Ptr<Node> node, Ptr<L3Protocol> ndn,
Ptr<NetDevice> netDevice) const
{
NS_LOG_DEBUG("Creating default NetDeviceFace on node " << node->GetId());
Ptr<NetDeviceFace> face = CreateObject<NetDeviceFace>(node, netDevice);
ndn->AddFace(face);
NS_LOG_LOGIC("Node " << node->GetId() << ": added NetDeviceFace as face #" << *face);
return face;
}
Ptr<NetDeviceFace>
StackHelper::PointToPointNetDeviceCallback(Ptr<Node> node, Ptr<L3Protocol> ndn,
Ptr<NetDevice> device) const
{
NS_LOG_DEBUG("Creating point-to-point NetDeviceFace on node " << node->GetId());
Ptr<NetDeviceFace> face = CreateObject<NetDeviceFace>(node, device);
ndn->AddFace(face);
NS_LOG_LOGIC("Node " << node->GetId() << ": added NetDeviceFace as face #" << *face);
if (m_limitsEnabled) {
Ptr<Limits> limits = face->GetObject<Limits>();
if (limits == 0) {
NS_FATAL_ERROR("Limits are enabled, but the selected forwarding strategy does not support "
"limits. Please revise your scenario");
exit(1);
}
NS_LOG_INFO("Limits are enabled");
Ptr<PointToPointNetDevice> p2p = DynamicCast<PointToPointNetDevice>(device);
if (p2p != 0) {
// Setup bucket filtering
// Assume that we know average data packet size, and this size is equal default size
// Set maximum buckets (averaging over 1 second)
DataRateValue dataRate;
device->GetAttribute("DataRate", dataRate);
TimeValue linkDelay;
device->GetChannel()->GetAttribute("Delay", linkDelay);
NS_LOG_INFO("DataRate for this link is " << dataRate.Get());
double maxInterestPackets =
1.0 * dataRate.Get().GetBitRate() / 8.0 / (m_avgDataSize + m_avgInterestSize);
// NS_LOG_INFO ("Max packets per second: " << maxInterestPackets);
// NS_LOG_INFO ("Max burst: " << m_avgRtt.ToDouble (Time::S) * maxInterestPackets);
NS_LOG_INFO("MaxLimit: " << (int)(m_avgRtt.ToDouble(Time::S) * maxInterestPackets));
// Set max to BDP
limits->SetLimits(maxInterestPackets, m_avgRtt.ToDouble(Time::S));
limits->SetLinkDelay(linkDelay.Get().ToDouble(Time::S));
}
}
return face;
}
Ptr<FaceContainer>
StackHelper::Install(const std::string& nodeName) const
{
Ptr<Node> node = Names::Find<Node>(nodeName);
return Install(node);
}
void
StackHelper::AddRoute(Ptr<Node> node, const std::string& prefix, Ptr<Face> face, int32_t metric)
{
NS_LOG_LOGIC("[" << node->GetId() << "]$ route add " << prefix << " via " << *face << " metric "
<< metric);
Ptr<Fib> fib = node->GetObject<Fib>();
NameValue prefixValue;
prefixValue.DeserializeFromString(prefix, MakeNameChecker());
fib->Add(prefixValue.Get(), face, metric);
}
void
StackHelper::AddRoute(Ptr<Node> node, const std::string& prefix, uint32_t faceId, int32_t metric)
{
Ptr<L3Protocol> ndn = node->GetObject<L3Protocol>();
NS_ASSERT_MSG(ndn != 0, "Ndn stack should be installed on the node");
Ptr<Face> face = ndn->GetFace(faceId);
NS_ASSERT_MSG(face != 0, "Face with ID [" << faceId << "] does not exist on node ["
<< node->GetId() << "]");
AddRoute(node, prefix, face, metric);
}
void
StackHelper::AddRoute(const std::string& nodeName, const std::string& prefix, uint32_t faceId,
int32_t metric)
{
Ptr<Node> node = Names::Find<Node>(nodeName);
NS_ASSERT_MSG(node != 0, "Node [" << nodeName << "] does not exist");
Ptr<L3Protocol> ndn = node->GetObject<L3Protocol>();
NS_ASSERT_MSG(ndn != 0, "Ndn stack should be installed on the node");
Ptr<Face> face = ndn->GetFace(faceId);
NS_ASSERT_MSG(face != 0, "Face with ID [" << faceId << "] does not exist on node [" << nodeName
<< "]");
AddRoute(node, prefix, face, metric);
}
void
StackHelper::AddRoute(Ptr<Node> node, const std::string& prefix, Ptr<Node> otherNode,
int32_t metric)
{
for (uint32_t deviceId = 0; deviceId < node->GetNDevices(); deviceId++) {
Ptr<PointToPointNetDevice> netDevice =
DynamicCast<PointToPointNetDevice>(node->GetDevice(deviceId));
if (netDevice == 0)
continue;
Ptr<Channel> channel = netDevice->GetChannel();
if (channel == 0)
continue;
if (channel->GetDevice(0)->GetNode() == otherNode
|| channel->GetDevice(1)->GetNode() == otherNode) {
Ptr<L3Protocol> ndn = node->GetObject<L3Protocol>();
NS_ASSERT_MSG(ndn != 0, "Ndn stack should be installed on the node");
Ptr<Face> face = ndn->GetFaceByNetDevice(netDevice);
NS_ASSERT_MSG(face != 0, "There is no face associated with the p2p link");
AddRoute(node, prefix, face, metric);
return;
}
}
NS_FATAL_ERROR("Cannot add route: Node# " << node->GetId() << " and Node# " << otherNode->GetId()
<< " are not connected");
}
void
StackHelper::AddRoute(const std::string& nodeName, const std::string& prefix,
const std::string& otherNodeName, int32_t metric)
{
Ptr<Node> node = Names::Find<Node>(nodeName);
NS_ASSERT_MSG(node != 0, "Node [" << nodeName << "] does not exist");
Ptr<Node> otherNode = Names::Find<Node>(otherNodeName);
NS_ASSERT_MSG(otherNode != 0, "Node [" << otherNodeName << "] does not exist");
AddRoute(node, prefix, otherNode, metric);
}
} // namespace ndn
} // namespace ns3