}
set_maxmin_system(make_new_lmm_system(select));
- loopback_ = NetworkCm02Model::create_link("__loopback__", 498000000, 0.000015, s4u::Link::SharingPolicy::FATPIPE);
+ loopback_ = NetworkCm02Model::create_link("__loopback__", std::vector<double>(1, 498000000), 0.000015,
+ s4u::Link::SharingPolicy::FATPIPE);
}
-LinkImpl* NetworkCm02Model::create_link(const std::string& name, double bandwidth, double latency,
+LinkImpl* NetworkCm02Model::create_link(const std::string& name, const std::vector<double>& bandwidths, double latency,
s4u::Link::SharingPolicy policy)
{
- return new NetworkCm02Link(this, name, bandwidth, latency, policy, get_maxmin_system());
+ if (policy == s4u::Link::SharingPolicy::WIFI) {
+ return (new NetworkWifiLink(this, name, bandwidths, policy, get_maxmin_system()));
+ }
+ xbt_assert(bandwidths.size() == 1, "Non WIFI links must use only 1 bandwidth.");
+ return new NetworkCm02Link(this, name, bandwidths[0], latency, policy, get_maxmin_system());
}
void NetworkCm02Model::update_actions_state_lazy(double now, double /*delta*/)
{
while (not get_action_heap().empty() && double_equals(get_action_heap().top_date(), now, sg_surf_precision)) {
- NetworkCm02Action* action = static_cast<NetworkCm02Action*>(get_action_heap().pop());
+ auto* action = static_cast<NetworkCm02Action*>(get_action_heap().pop());
XBT_DEBUG("Something happened to action %p", action);
// if I am wearing a latency hat
std::any_of(back_route.begin(), back_route.end(), [](const LinkImpl* link) { return not link->is_on(); });
}
- NetworkCm02Action *action = new NetworkCm02Action(this, size, failed);
+ auto* action = new NetworkCm02Action(this, size, failed);
action->sharing_penalty_ = latency;
action->latency_ = latency;
action->rate_ = rate;
+
if (get_update_algorithm() == Model::UpdateAlgo::LAZY) {
action->set_last_update();
}
: action->rate_);
}
- for (auto const& link : route)
- get_maxmin_system()->expand(link->get_constraint(), action->get_variable(), 1.0);
+ for (auto const& link : route) {
+ // Handle WIFI links
+ if (link->get_sharing_policy() == s4u::Link::SharingPolicy::WIFI) {
+ NetworkWifiLink* wifi_link = static_cast<NetworkWifiLink*>(link);
+
+ double src_rate = wifi_link->get_host_rate(src);
+ double dst_rate = wifi_link->get_host_rate(dst);
+ xbt_assert(
+ !(src_rate == -1 && dst_rate == -1),
+ "Some Stations are not associated to any Access Point. Make sure to call set_host_rate on all Stations.");
+ if (src_rate != -1)
+ get_maxmin_system()->expand(link->get_constraint(), action->get_variable(), 1.0 / src_rate);
+ else
+ get_maxmin_system()->expand(link->get_constraint(), action->get_variable(), 1.0 / dst_rate);
+
+ } else {
+ get_maxmin_system()->expand(link->get_constraint(), action->get_variable(), 1.0);
+ }
+ }
if (cfg_crosstraffic) {
XBT_DEBUG("Crosstraffic active: adding backward flow using 5%% of the available bandwidth");
- for (auto const& link : back_route)
- get_maxmin_system()->expand(link->get_constraint(), action->get_variable(), .05);
+ bool wifi_dst_assigned = false; // Used by wifi crosstraffic
+ for (auto const& link : back_route) {
+ if (link->get_sharing_policy() == s4u::Link::SharingPolicy::WIFI) {
+ NetworkWifiLink* wifi_link = static_cast<NetworkWifiLink*>(link);
+ /**
+ * For wifi links we should add 0.05/rate.
+ * However since we are using the "back_route" we should encounter in
+ * the first place the dst wifi link.
+ */
+ if (!wifi_dst_assigned && (wifi_link->get_host_rate(dst) != -1)) {
+ get_maxmin_system()->expand(link->get_constraint(), action->get_variable(),
+ .05 / wifi_link->get_host_rate(dst));
+ wifi_dst_assigned = true;
+ } else {
+ get_maxmin_system()->expand(link->get_constraint(), action->get_variable(),
+ .05 / wifi_link->get_host_rate(src));
+ }
+ } else {
+ get_maxmin_system()->expand(link->get_constraint(), action->get_variable(), .05);
+ }
+ }
// Change concurrency_share here, if you want that cross-traffic is included in the SURF concurrency
// (You would also have to change simgrid::kernel::lmm::Element::get_concurrency())
simgrid::s4u::Link::on_creation(this->piface_);
}
-NetworkCm02Link::NetworkCm02Link(NetworkCm02Model* model, const std::string& name, std::vector<double> bandwidths,
- s4u::Link::SharingPolicy policy, lmm::System* system)
- : NetworkCm02Link(model, name, 0, 0, policy, system)
-{
- /* Setup Metrics for bandwidths_ */
- for (auto bandwith : bandwidths) {
- bandwidths_.push_back({bandwith, 1.0, nullptr});
- }
-}
-
void NetworkCm02Link::apply_event(kernel::profile::Event* triggered, double value)
{
/* Find out which of my iterators was triggered, and react accordingly */
const kernel::lmm::Element* nextelem = nullptr;
int numelem = 0;
while ((var = get_constraint()->get_variable_safe(&elem, &nextelem, &numelem))) {
- NetworkCm02Action* action = static_cast<NetworkCm02Action*>(var->get_id());
+ auto* action = static_cast<NetworkCm02Action*>(var->get_id());
action->sharing_penalty_ += delta;
if (not action->is_suspended())
get_model()->get_maxmin_system()->update_variable_penalty(action->get_variable(), action->sharing_penalty_);
latency_.peak = value;
while ((var = get_constraint()->get_variable_safe(&elem, &nextelem, &numelem))) {
- NetworkCm02Action* action = static_cast<NetworkCm02Action*>(var->get_id());
+ auto* action = static_cast<NetworkCm02Action*>(var->get_id());
action->lat_current_ += delta;
action->sharing_penalty_ += delta;
if (action->rate_ < 0)
}
}
+NetworkWifiLink::NetworkWifiLink(NetworkCm02Model* model, const std::string& name, std::vector<double> bandwidths,
+ s4u::Link::SharingPolicy policy, lmm::System* system)
+ : NetworkCm02Link(
+ model, name, 1 / sg_bandwidth_factor, 0, policy,
+ system) // Since link uses bw*sg_bandwidth_factor we should divide by sg_bw_factor to ensure that we have 1 as
+ // a bound in the lmm system
+{
+ for (auto bandwidth : bandwidths) {
+ bandwidths_.push_back({bandwidth, 1.0, nullptr});
+ }
+}
+
+void NetworkWifiLink::set_host_rate(s4u::Host* host, int rate_level)
+{
+ auto insert_done = host_rates_.insert(std::make_pair(host->get_name(), rate_level));
+ if (insert_done.second == false)
+ insert_done.first->second = rate_level;
+}
+
+double NetworkWifiLink::get_host_rate(sg_host_t host)
+{
+ std::map<xbt::string, int>::iterator host_rates_it;
+ host_rates_it = host_rates_.find(host->get_name());
+
+ if (host_rates_it == host_rates_.end())
+ return -1;
+
+ int rate_id = host_rates_it->second;
+ xbt_assert(rate_id >= 0 && rate_id < (int)bandwidths_.size(), "Host \"%s\" has an invalid rate \"%d\"",
+ host->get_name().c_str(), rate_id);
+
+ Metric rate = bandwidths_[rate_id];
+ return rate.peak * rate.scale;
+}
+
+s4u::Link::SharingPolicy NetworkWifiLink::get_sharing_policy()
+{
+ return s4u::Link::SharingPolicy::WIFI;
+}
+
/**********
* Action *
**********/
set_last_value(get_variable()->get_value());
}
-}
-}
+} // namespace resource
+} // namespace kernel
} // namespace simgrid