#include <unordered_set>
#include "xbt/config.hpp"
+#include "xbt/str.h"
#include "xbt/string.hpp"
#include "xbt/utility.hpp"
#include <ns3/application-container.h>
#include <ns3/event-id.h>
+#include "ns3/mobility-module.h"
+#include "ns3/wifi-module.h"
+
#include "network_ns3.hpp"
#include "ns3/ns3_simulator.hpp"
static int number_of_links = 1;
static int number_of_networks = 1;
+/* wifi globals */
+static ns3::WifiHelper wifi;
+static ns3::YansWifiPhyHelper wifiPhy = ns3::YansWifiPhyHelper::Default();
+static ns3::YansWifiChannelHelper wifiChannel = ns3::YansWifiChannelHelper::Default();
+static ns3::WifiMacHelper wifiMac;
+static ns3::MobilityHelper mobility;
+
simgrid::xbt::Extension<simgrid::kernel::routing::NetPoint, NetPointNs3> NetPointNs3::EXTENSION_ID;
+static std::string transformIpv4Address(ns3::Ipv4Address from)
+{
+ std::stringstream sstream;
+ sstream << from;
+ return sstream.str();
+}
+
NetPointNs3::NetPointNs3() : ns3_node_(ns3::CreateObject<ns3::Node>(0))
{
stack.Install(ns3_node_);
}
+WifiZone::WifiZone(const std::string& name_, simgrid::s4u::Host* host_, ns3::Ptr<ns3::Node> ap_node_,
+ ns3::Ptr<ns3::YansWifiChannel> channel_, int mcs_, int nss_, int network_, int link_)
+ : name(name_)
+ , host(host_)
+ , ap_node(ap_node_)
+ , channel(channel_)
+ , mcs(mcs_)
+ , nss(nss_)
+ , network(network_)
+ , link(link_)
+{
+ n_sta_nodes = 0;
+ wifi_zones[name_] = this;
+}
+
+bool WifiZone::is_ap(ns3::Ptr<ns3::Node> node)
+{
+ for (std::pair<std::string, WifiZone*> zone : wifi_zones)
+ if (zone.second->get_ap_node() == node)
+ return true;
+ return false;
+}
+
+WifiZone* WifiZone::by_name(const std::string& name)
+{
+ WifiZone* zone;
+ try {
+ zone = wifi_zones.at(name);
+ } catch (const std::out_of_range& oor) {
+ return nullptr;
+ }
+ return zone;
+}
+
+std::unordered_map<std::string, WifiZone*> WifiZone::wifi_zones;
+
+static void initialize_ns3_wifi()
+{
+ wifi.SetStandard(ns3::WIFI_PHY_STANDARD_80211n_5GHZ);
+
+ for (auto host : simgrid::s4u::Engine::get_instance()->get_all_hosts()) {
+ const char* wifi_link = host->get_property("wifi_link");
+ const char* wifi_mcs = host->get_property("wifi_mcs");
+ const char* wifi_nss = host->get_property("wifi_nss");
+
+ if (wifi_link)
+ new WifiZone(wifi_link, host, host->get_netpoint()->extension<NetPointNs3>()->ns3_node_, wifiChannel.Create(),
+ wifi_mcs ? atoi(wifi_mcs) : 3, wifi_nss ? atoi(wifi_nss) : 1, 0, 0);
+ }
+}
+
/*************
* Callbacks *
*************/
auto* dst = simgrid::s4u::Engine::get_instance()->netpoint_by_name_or_null(cluster.router_id);
xbt_assert(dst != nullptr, "No router named %s", cluster.router_id.c_str());
- ns3_add_direct_route(src, dst, cluster.bw, cluster.lat, cluster.sharing_policy); // Any ns-3 route is symmetrical
+ ns3_add_direct_route(src, dst, cluster.bw, cluster.lat, cluster.id,
+ cluster.sharing_policy); // Any ns-3 route is symmetrical
// Also add the host to the list of hosts that will be connected to the backbone
Nodes.Add(src->extension<NetPointNs3>()->ns3_node_);
std::vector<simgrid::kernel::resource::LinkImpl*> const& link_list)
{
if (link_list.size() == 1) {
- auto* link = static_cast<simgrid::kernel::resource::LinkNS3*>(link_list[0]);
+ auto const* link = static_cast<simgrid::kernel::resource::LinkNS3*>(link_list[0]);
XBT_DEBUG("Route from '%s' to '%s' with link '%s' %s %s", src->get_cname(), dst->get_cname(), link->get_cname(),
(link->get_sharing_policy() == simgrid::s4u::Link::SharingPolicy::WIFI ? "(wifi)" : "(wired)"),
// XBT_DEBUG("src (%s), dst (%s), src_id = %d, dst_id = %d",src,dst, src_id, dst_id);
XBT_DEBUG("\tLink (%s) bw:%fbps lat:%fs", link->get_cname(), link->get_bandwidth(), link->get_latency());
- ns3_add_direct_route(src, dst, link->get_bandwidth(), link->get_latency(), link->get_sharing_policy());
+ ns3_add_direct_route(src, dst, link->get_bandwidth(), link->get_latency(), link->get_name(),
+ link->get_sharing_policy());
} else {
static bool warned_about_long_routes = false;
}
static simgrid::config::Flag<std::string>
- ns3_tcp_model("ns3/TcpModel", "The ns-3 tcp model can be : NewReno or Reno or Tahoe", "default");
+ ns3_tcp_model("ns3/TcpModel", "The ns-3 tcp model can be: NewReno or Reno or Tahoe", "default");
+static simgrid::config::Flag<std::string> ns3_seed(
+ "ns3/seed",
+ "The random seed provided to ns-3. Either 'time' to seed with time(), blank to not set (default), or a number.", "",
+ [](std::string val) {
+ if (val.length() == 0)
+ return;
+ if (strcasecmp(val.c_str(), "time") == 0) {
+ std::srand(time(NULL));
+ ns3::RngSeedManager::SetSeed(std::rand());
+ ns3::RngSeedManager::SetRun(std::rand());
+ } else {
+ int v = xbt_str_parse_int(
+ val.c_str(), "Invalid value for option ns3/seed. It must be either 'time', a number, or left empty.");
+ ns3::RngSeedManager::SetSeed(v);
+ ns3::RngSeedManager::SetRun(v);
+ }
+ });
namespace simgrid {
namespace kernel {
return -1.0;
XBT_DEBUG("doing a ns3 simulation for a duration of %f", now);
- ns3_simulator(now);
+ ns3_simulator(now);
time_to_next_flow_completion = ns3::Simulator::Now().GetSeconds() - surf_get_clock();
// NS-3 stops as soon as a flow ends,
// but it does not process the other flows that may finish at the same (simulated) time.
// If another flow ends at the same time, time_to_next_flow_completion = 0
if(double_equals(time_to_next_flow_completion, 0, sg_surf_precision))
- time_to_next_flow_completion = 0.0;
-
+ time_to_next_flow_completion = 0.0;
+
XBT_DEBUG("min : %f", now);
XBT_DEBUG("ns3 time : %f", ns3::Simulator::Now().GetSeconds());
XBT_DEBUG("surf time : %f", surf_get_clock());
ns3_socket = elm.first;
SgFlow* sgFlow = elm.second;
NetworkNS3Action * action = sgFlow->action_;
- XBT_DEBUG("Processing socket %p (action %p)",sgFlow,action);
+ XBT_DEBUG("Processing flow %p (socket %s, action %p)", sgFlow, ns3_socket.c_str(), action);
// Because NS3 stops as soon as a flow is finished, the other flows that ends at the same time may remains in an
// inconsistent state (i.e. remains_ == 0 but finished_ == false).
// However, SimGrid considers sometimes that an action with remains_ == 0 is finished.
action->last_sent_ = sgFlow->sent_bytes_;
}
- if(sgFlow->finished_){
+ if ((sgFlow->finished_) && (remains <= 0)) { // finished_ should not become true before remains gets to 0, but it sometimes does. Let's play safe, here.
socket_to_destroy.push_back(ns3_socket);
- XBT_DEBUG("Destroy socket %p of action %p", ns3_socket.c_str(), action);
+ XBT_DEBUG("Destroy socket %s of action %p", ns3_socket.c_str(), action);
action->set_remains(0);
action->finish(Action::State::FINISHED);
} else {
- XBT_DEBUG("Socket %p sent %u bytes out of %u (%u remaining)", ns3_socket.c_str(), sgFlow->sent_bytes_,
+ XBT_DEBUG("Socket %s sent %u bytes out of %u (%u remaining)", ns3_socket.c_str(), sgFlow->sent_bytes_,
sgFlow->total_bytes_, sgFlow->remaining_);
}
}
socket_to_destroy.pop_back();
SgFlow* flow = flow_from_sock.at(ns3_socket);
if (XBT_LOG_ISENABLED(ns3, xbt_log_priority_debug)) {
- XBT_DEBUG("Removing socket %p of action %p", ns3_socket.c_str(), flow->action_);
+ XBT_DEBUG("Removing socket %s of action %p", ns3_socket.c_str(), flow->action_);
}
delete flow;
flow_from_sock.erase(ns3_socket);
/* If wifi, create the wifizone now. If not, don't do anything: the links will be created in routeCreate_cb */
+ if (policy == simgrid::s4u::Link::SharingPolicy::WIFI) {
+ static bool wifi_init = false;
+ if (!wifi_init) {
+ initialize_ns3_wifi();
+ wifi_init = true;
+ }
+
+ ns3::NetDeviceContainer netA;
+ WifiZone* zone = WifiZone::by_name(name);
+ xbt_assert(zone != nullptr, "Link name '%s' does not match the 'wifi_link' property of a host.", name.c_str());
+ auto* netpoint_ns3 = zone->get_host()->get_netpoint()->extension<NetPointNs3>();
+
+ wifi.SetRemoteStationManager("ns3::ConstantRateWifiManager", "ControlMode", ns3::StringValue("HtMcs0"), "DataMode",
+ ns3::StringValue("HtMcs" + std::to_string(zone->get_mcs())));
+
+ wifiPhy.SetChannel(zone->get_channel());
+ wifiPhy.Set("Antennas", ns3::UintegerValue(zone->get_nss()));
+ wifiPhy.Set("MaxSupportedTxSpatialStreams", ns3::UintegerValue(zone->get_nss()));
+ wifiPhy.Set("MaxSupportedRxSpatialStreams", ns3::UintegerValue(zone->get_nss()));
+
+ wifiMac.SetType("ns3::ApWifiMac",
+ "Ssid", ns3::SsidValue(name));
+
+ netA.Add(wifi.Install(wifiPhy, wifiMac, zone->get_ap_node()));
+
+ ns3::Ptr<ns3::ListPositionAllocator> positionAllocS = ns3::CreateObject<ns3::ListPositionAllocator>();
+ positionAllocS->Add(ns3::Vector(0, 0, 0));
+ mobility.SetPositionAllocator(positionAllocS);
+ mobility.SetMobilityModel("ns3::ConstantPositionMobilityModel");
+ mobility.Install(zone->get_ap_node());
+
+ ns3::Ipv4AddressHelper address;
+ std::string addr = simgrid::xbt::string_printf("%d.%d.0.0", number_of_networks, number_of_links);
+ address.SetBase(addr.c_str(), "255.255.0.0");
+ XBT_DEBUG("\tInterface stack '%s'", addr.c_str());
+ auto addresses = address.Assign(netA);
+ zone->set_network(number_of_networks);
+ zone->set_link(number_of_links);
+
+ netpoint_ns3->ipv4_address_ = transformIpv4Address(addresses.GetAddress(1));
+
+ if (number_of_links == 255) {
+ xbt_assert(number_of_networks < 255, "Number of links and networks exceed 255*255");
+ number_of_links = 1;
+ number_of_networks++;
+ } else {
+ number_of_links++;
+ }
+ }
s4u::Link::on_creation(*this->get_iface());
}
NetworkNS3Action::NetworkNS3Action(Model* model, double totalBytes, s4u::Host* src, s4u::Host* dst)
: NetworkAction(model, *src, *dst, totalBytes, false)
{
+ // ns-3 fails when src = dst, so avoid the problem by considering that communications are infinitely fast on the
+ // loopback that does not exists
+ if (src == dst) {
+ static bool warned = false;
+ if (not warned) {
+ XBT_WARN("Sending from a host %s to itself is not supported by ns-3. Every such communication finishes "
+ "immediately upon startup.",
+ src->get_cname());
+ warned = true;
+ }
+ finish(Action::State::FINISHED);
+ return;
+ }
+
// If there is no other started actions, we need to move NS-3 forward to be sync with SimGrid
if (model->get_started_action_set()->size()==1){
while(double_positive(surf_get_clock() - ns3::Simulator::Now().GetSeconds(), sg_surf_precision)){
}
}
- XBT_DEBUG("Communicate from %s to %s", src->get_cname(), dst->get_cname());
-
- static int port_number = 1025; // Port number is limited from 1025 to 65 000
+ static uint16_t port_number = 1;
ns3::Ptr<ns3::Node> src_node = src->get_netpoint()->extension<NetPointNs3>()->ns3_node_;
ns3::Ptr<ns3::Node> dst_node = dst->get_netpoint()->extension<NetPointNs3>()->ns3_node_;
xbt_assert(not addr.empty(), "Element %s is unknown to ns-3. Is it connected to any one-hop link?",
dst->get_netpoint()->get_cname());
- XBT_DEBUG("ns3: Create flow of %.0f Bytes from %s to %s with Interface %s", totalBytes, src->get_cname(),
- dst->get_cname(), addr.c_str());
ns3::PacketSinkHelper sink("ns3::TcpSocketFactory", ns3::InetSocketAddress(ns3::Ipv4Address::GetAny(), port_number));
ns3::ApplicationContainer apps = sink.Install(dst_node);
ns3::Ptr<ns3::Socket> sock = ns3::Socket::CreateSocket(src_node, ns3::TcpSocketFactory::GetTypeId());
+ XBT_DEBUG("Create socket %s for a flow of %.0f Bytes from %s to %s with Interface %s",
+ transform_socket_ptr(sock).c_str(), totalBytes, src->get_cname(), dst->get_cname(), addr.c_str());
+
flow_from_sock.insert({transform_socket_ptr(sock), new SgFlow(totalBytes, this)});
sink_from_sock.insert({transform_socket_ptr(sock), apps});
ns3::Simulator::ScheduleNow(&start_flow, sock, addr.c_str(), port_number);
port_number++;
- if(port_number > 65000){
- port_number = 1025;
+ if (port_number == UINT16_MAX) {
+ port_number = 1;
XBT_WARN("Too many connections! Port number is saturated. Trying to use the oldest ports.");
}
void ns3_simulator(double maxSeconds)
{
- ns3::EventId id;
+ ns3::EventId id;
if (maxSeconds > 0.0) // If there is a maximum amount of time to run
id = ns3::Simulator::Schedule(ns3::Seconds(maxSeconds), &ns3::Simulator::Stop);
id.Cancel();
}
-static std::string transformIpv4Address(ns3::Ipv4Address from)
-{
- std::stringstream sstream;
- sstream << from ;
- return sstream.str();
-}
-
void ns3_add_direct_route(simgrid::kernel::routing::NetPoint* src, simgrid::kernel::routing::NetPoint* dst, double bw,
- double lat, simgrid::s4u::Link::SharingPolicy policy)
+ double lat, const std::string& link_name, simgrid::s4u::Link::SharingPolicy policy)
{
ns3::Ipv4AddressHelper address;
ns3::NetDeviceContainer netA;
xbt_assert(host_dst != nullptr, "Network element %s does not seem to be ns-3-ready", dst->get_cname());
if (policy == simgrid::s4u::Link::SharingPolicy::WIFI) {
- /* Install a ns3::WifiHelper */
+ auto a = host_src->ns3_node_;
+ auto b = host_dst->ns3_node_;
+ xbt_assert(WifiZone::is_ap(a) != WifiZone::is_ap(b),
+ "A wifi route can only exist between an access point node and a station node.");
+
+ ns3::Ptr<ns3::Node> apNode = WifiZone::is_ap(a) ? a : b;
+ ns3::Ptr<ns3::Node> staNode = apNode == a ? b : a;
+
+ WifiZone* zone = WifiZone::by_name(link_name);
+
+ wifi.SetRemoteStationManager("ns3::ConstantRateWifiManager", "ControlMode", ns3::StringValue("HtMcs0"), "DataMode",
+ ns3::StringValue("HtMcs" + std::to_string(zone->get_mcs())));
+
+ wifiPhy.SetChannel(zone->get_channel());
+ wifiPhy.Set("Antennas", ns3::UintegerValue(zone->get_nss()));
+ wifiPhy.Set("MaxSupportedTxSpatialStreams", ns3::UintegerValue(zone->get_nss()));
+ wifiPhy.Set("MaxSupportedRxSpatialStreams", ns3::UintegerValue(zone->get_nss()));
+
+ wifiMac.SetType ("ns3::StaWifiMac",
+ "Ssid", ns3::SsidValue(link_name),
+ "ActiveProbing", ns3::BooleanValue(false));
+
+ netA.Add(wifi.Install(wifiPhy, wifiMac, staNode));
+
+ ns3::Config::Set("/NodeList/*/DeviceList/*/$ns3::WifiNetDevice/Phy/ChannelWidth", ns3::UintegerValue(40));
+
+ simgrid::kernel::routing::NetPoint* sta_netpoint = WifiZone::is_ap(host_src->ns3_node_) ? dst : src;
+ const char* wifi_distance = simgrid::s4u::Host::by_name(sta_netpoint->get_name())->get_property("wifi_distance");
+ ns3::Ptr<ns3::ListPositionAllocator> positionAllocS = ns3::CreateObject<ns3::ListPositionAllocator>();
+ positionAllocS->Add(ns3::Vector(wifi_distance ? atof(wifi_distance) : 10.0, 0, 0));
+ mobility.SetPositionAllocator(positionAllocS);
+ mobility.SetMobilityModel("ns3::ConstantPositionMobilityModel");
+ mobility.Install(staNode);
+
+ std::string addr = simgrid::xbt::string_printf("%d.%d.0.0", zone->get_network(), zone->get_link());
+ address.SetBase(addr.c_str(), "255.255.0.0", ("0.0.0." + std::to_string(zone->get_n_sta_nodes() + 2)).c_str());
+ zone->add_sta_node();
+ XBT_DEBUG("\tInterface stack '%s'", addr.c_str());
+ auto addresses = address.Assign(netA);
+ host_dst->ipv4_address_ = transformIpv4Address(addresses.GetAddress(1));
} else {
ns3::PointToPointHelper pointToPoint;
pointToPoint.SetChannelAttribute("Delay", ns3::TimeValue(ns3::Seconds(lat)));
netA.Add(pointToPoint.Install(host_src->ns3_node_, host_dst->ns3_node_));
- }
- std::string addr = simgrid::xbt::string_printf("%d.%d.0.0", number_of_networks, number_of_links);
- address.SetBase(addr.c_str(), "255.255.0.0");
- XBT_DEBUG("\tInterface stack '%s'", addr.c_str());
- auto addresses = address.Assign(netA);
+ std::string addr = simgrid::xbt::string_printf("%d.%d.0.0", number_of_networks, number_of_links);
+ address.SetBase(addr.c_str(), "255.255.0.0");
+ XBT_DEBUG("\tInterface stack '%s'", addr.c_str());
+ auto addresses = address.Assign(netA);
- host_src->ipv4_address_ = transformIpv4Address(addresses.GetAddress(0));
- host_dst->ipv4_address_ = transformIpv4Address(addresses.GetAddress(1));
+ host_src->ipv4_address_ = transformIpv4Address(addresses.GetAddress(0));
+ host_dst->ipv4_address_ = transformIpv4Address(addresses.GetAddress(1));
- if (number_of_links == 255){
- xbt_assert(number_of_networks < 255, "Number of links and networks exceed 255*255");
- number_of_links = 1;
- number_of_networks++;
- } else {
- number_of_links++;
+ if (number_of_links == 255) {
+ xbt_assert(number_of_networks < 255, "Number of links and networks exceed 255*255");
+ number_of_links = 1;
+ number_of_networks++;
+ } else {
+ number_of_links++;
+ }
}
}