1 /* Copyright (c) 2017-2021. The SimGrid Team. All rights reserved. */
3 /* This program is free software; you can redistribute it and/or modify it
4 * under the terms of the license (GNU LGPL) which comes with this package. */
6 #include "simgrid/Exception.hpp"
7 #include "simgrid/plugins/energy.h"
8 #include "simgrid/s4u/Engine.hpp"
9 #include "simgrid/s4u/Host.hpp"
10 #include "simgrid/s4u/Link.hpp"
11 #include "src/surf/network_interface.hpp"
12 #include "src/surf/network_wifi.hpp"
13 #include "src/surf/surf_interface.hpp"
14 #include "surf/surf.hpp"
15 #include "src/kernel/lmm/maxmin.hpp"
16 #include "xbt/config.hpp"
18 #include <boost/algorithm/string/classification.hpp>
19 #include <boost/algorithm/string/split.hpp>
22 SIMGRID_REGISTER_PLUGIN(link_energy_wifi, "Energy wifi test", &sg_wifi_energy_plugin_init);
23 /** @defgroup plugin_link_energy_wifi Plugin WiFi energy
25 * This is the WiFi energy plugin, accounting for the dissipated energy of WiFi links.
28 XBT_LOG_NEW_DEFAULT_SUBCATEGORY(link_energy_wifi, surf, "Logging specific to the link energy wifi plugin");
33 class XBT_PRIVATE LinkEnergyWifi {
34 // associative array keeping size of data already sent for a given flow (required for interleaved actions)
35 std::map<kernel::resource::NetworkWifiAction*, std::pair<int, double>> flowTmp{};
37 // WiFi link the plugin instance is attached to
40 // dynamic energy accumulated since the simulation start (active durations consumption)
42 // static energy (no activity consumption)
45 // duration since previous energy update
46 double prev_update_{0.0};
48 // Same energy calibration values as ns3 by default
49 // https://www.nsnam.org/docs/release/3.30/doxygen/classns3_1_1_wifi_radio_energy_model.html#details
55 // constant taking beacons into account (can be specified by the user)
56 double control_duration_{0.0036};
58 // Measurements for report
59 double dur_TxRx_{0}; // Duration of transmission
60 double dur_idle_{0}; // Duration of idle time
61 bool valuesInit_{false};
64 static xbt::Extension<simgrid::s4u::Link, LinkEnergyWifi> EXTENSION_ID;
66 explicit LinkEnergyWifi(s4u::Link* ptr) : link_(ptr) {}
67 LinkEnergyWifi() = delete;
69 /** Update the energy consumed by link_ when transmissions start or end */
70 void update(const simgrid::kernel::resource::NetworkAction &);
72 /** Update the energy consumed when link_ is destroyed */
73 void update_destroy();
76 * Fetches energy consumption values from the platform file.
77 * The user can specify:
78 * - wifi_watt_values: energy consumption in each state (IDLE:Tx:Rx:SLEEP)
79 * default: 0.82:1.14:0.94:0.10
80 * - controlDuration: duration of active beacon transmissions per second
83 void init_watts_range_list();
85 double get_consumed_energy(void) const { return eDyn_ + eStat_; }
86 /** Get the dynamic part of the energy for this link */
87 double get_energy_dynamic(void) const { return eDyn_; }
88 double get_energy_static(void) const { return eStat_; }
89 double get_duration_comm(void) const { return dur_TxRx_; }
90 double get_duration_idle(void) const { return dur_idle_; }
92 /** Set the power consumed by this link while idle */
93 void set_power_idle(double value) { pIdle_ = value; }
94 /** Set the power consumed by this link while transmitting */
95 void set_power_tx(double value) { pTx_ = value; }
96 /** Set the power consumed by this link while receiving */
97 void set_power_rx(double value) { pRx_ = value; }
98 /** Set the power consumed by this link while sleeping */
99 void set_power_sleep(double value) { pSleep_ = value; }
102 xbt::Extension<s4u::Link, LinkEnergyWifi> LinkEnergyWifi::EXTENSION_ID;
104 void LinkEnergyWifi::update_destroy()
106 auto const* wifi_link = static_cast<kernel::resource::NetworkWifiLink*>(link_->get_impl());
107 double duration = surf_get_clock() - prev_update_;
108 prev_update_ = surf_get_clock();
110 dur_idle_ += duration;
112 // add IDLE energy usage, as well as beacons consumption since previous update
113 eDyn_ += duration * control_duration_ * wifi_link->get_host_count() * pRx_;
114 eStat_ += (duration - (duration * control_duration_)) * pIdle_ * (wifi_link->get_host_count() + 1);
116 XBT_DEBUG("finish eStat_ += %f * %f * (%d+1) | eStat = %f", duration, pIdle_, wifi_link->get_host_count(), eStat_);
119 void LinkEnergyWifi::update(const kernel::resource::NetworkAction&)
121 init_watts_range_list();
123 double duration = surf_get_clock() - prev_update_;
124 prev_update_ = surf_get_clock();
126 // we don't update for null durations
130 auto const* wifi_link = static_cast<kernel::resource::NetworkWifiLink*>(link_->get_impl());
132 const kernel::lmm::Element* elem = nullptr;
135 * We update the energy consumed by each flow active on the link since the previous update.
137 * To do this, we need to know how much time each flow has been effectively sending data on the WiFi link since the
138 * previous update (durUsage). We compute this value using the size of the flow, the amount of data already spent
139 * (using flowTmp), as well as the bandwidth used by the flow since the previous update (using LMM variables). Since
140 * flows are sharing the medium, the total active duration on the link is equal to the transmission/reception duration
141 * used by the flow with the longest active time since the previous update
144 while (const auto* var = wifi_link->get_constraint()->get_variable(&elem)) {
145 auto* action = static_cast<kernel::resource::NetworkWifiAction*>(var->get_id());
146 XBT_DEBUG("cost: %f action value: %f link rate 1: %f link rate 2: %f", action->get_cost(),
147 action->get_variable()->get_value(), wifi_link->get_host_rate(&action->get_src()),
148 wifi_link->get_host_rate(&action->get_dst()));
150 if (action->get_variable()->get_value() != 0.0) {
151 auto it = flowTmp.find(action);
153 // if the flow has not been registered, initialize it: 0 bytes sent, and not updated since its creation timestamp
154 if(it == flowTmp.end())
155 flowTmp[action] = std::pair<int,double>(0, action->get_start_time());
157 it = flowTmp.find(action);
160 * The active duration of the link is equal to the amount of data it had to send divided by the bandwidth on the link.
161 * If this is longer than the duration since the previous update, active duration = now - previous_update
163 double du = // durUsage on the current flow
164 (action->get_cost() - it->second.first) / action->get_variable()->get_value();
166 if(du > surf_get_clock()-it->second.second)
167 du = surf_get_clock()-it->second.second;
169 // if the flow has been more active than the others
173 // update the amount of data already sent by the flow
174 it->second.first += du*action->get_variable()->get_value();
175 it->second.second = surf_get_clock();
177 // important: if the transmission finished, remove it (needed for performance and multi-message flows)
178 if(it->second.first >= action->get_cost())
183 XBT_DEBUG("durUsage: %f", durUsage);
186 eDyn_ += duration * control_duration_ * wifi_link->get_host_count() * pRx_;
189 * Same principle as ns3:
190 * - if tx or rx, update P_{dyn}
191 * - if idle i.e. get_usage = 0, update P_{stat}
192 * P_{tot} = P_{dyn}+P_{stat}
194 if (link_->get_usage() != 0.0) {
195 eDyn_ += /*duration * */ durUsage * ((wifi_link->get_host_count() * pRx_) + pTx_);
196 eStat_ += (duration - durUsage) * pIdle_ * (wifi_link->get_host_count() + 1);
197 XBT_DEBUG("eDyn += %f * ((%d * %f) + %f) | eDyn = %f (durusage =%f)", durUsage, wifi_link->get_host_count(), pRx_,
198 pTx_, eDyn_, durUsage);
199 dur_TxRx_ += duration;
201 dur_idle_ += duration;
202 eStat_ += (duration - (duration * control_duration_)) * pIdle_ * (wifi_link->get_host_count() + 1);
205 XBT_DEBUG("eStat_ += %f * %f * (%d+1) | eStat = %f", duration, pIdle_, wifi_link->get_host_count(), eStat_);
208 void LinkEnergyWifi::init_watts_range_list()
215 Set to 0 if you do not want to compute beacons,
216 otherwise to the duration of beacons transmissions per second
218 const char* beacons_factor = this->link_->get_property("control_duration");
219 if(beacons_factor != nullptr) {
221 control_duration_ = std::stod(beacons_factor);
222 } catch (const std::invalid_argument&) {
223 throw std::invalid_argument(std::string("Invalid beacons factor value for link ") + this->link_->get_cname());
227 const char* all_power_values_str = this->link_->get_property("wifi_watt_values");
228 if (all_power_values_str != nullptr)
230 std::vector<std::string> all_power_values;
231 boost::split(all_power_values, all_power_values_str, boost::is_any_of(","));
233 for (auto current_power_values_str : all_power_values) {
234 /* retrieve the power values associated */
235 std::vector<std::string> current_power_values;
236 boost::split(current_power_values, current_power_values_str, boost::is_any_of(":"));
237 xbt_assert(current_power_values.size() == 4,
238 "Power properties incorrectly defined - could not retrieve idle, Tx, Rx, Sleep power values for link %s",
239 this->link_->get_cname());
241 /* min_power corresponds to the idle power (link load = 0) */
242 /* max_power is the power consumed at 100% link load */
244 pSleep_ = std::stod(current_power_values.at(3));
245 } catch (const std::invalid_argument&) {
246 throw std::invalid_argument(std::string("Invalid idle power value for link ") + this->link_->get_cname());
249 pRx_ = std::stod(current_power_values.at(2));
250 } catch (const std::invalid_argument&) {
251 throw std::invalid_argument(std::string("Invalid idle power value for link ") + this->link_->get_cname());
254 pTx_ = std::stod(current_power_values.at(1));
255 } catch (const std::invalid_argument&) {
256 throw std::invalid_argument(std::string("Invalid idle power value for link ") + this->link_->get_cname());
259 pIdle_ = std::stod(current_power_values.at(0));
260 } catch (const std::invalid_argument&) {
261 throw std::invalid_argument(std::string("Invalid busy power value for link ") + this->link_->get_cname());
264 XBT_DEBUG("Values aa initialized with: pSleep=%f pIdle=%f pTx=%f pRx=%f", pSleep_, pIdle_, pTx_, pRx_);
269 } // namespace plugin
270 } // namespace simgrid
272 using simgrid::plugin::LinkEnergyWifi;
274 void sg_wifi_energy_plugin_init()
276 if (LinkEnergyWifi::EXTENSION_ID.valid())
279 XBT_INFO("Activating the wifi_energy plugin.");
280 LinkEnergyWifi::EXTENSION_ID = simgrid::s4u::Link::extension_create<LinkEnergyWifi>();
283 * Attaching to events:
284 * - on_creation to initialize the plugin
285 * - on_destruction to produce final energy results
286 * - on_communication_state_change: to account the energy when communications are updated
287 * - on_communicate: ''
289 simgrid::s4u::Link::on_creation.connect([](simgrid::s4u::Link& link) {
290 // verify the link is appropriate to WiFi energy computations
291 if (link.get_sharing_policy() == simgrid::s4u::Link::SharingPolicy::WIFI) {
292 XBT_DEBUG("Wifi Link: %s, initialization of wifi energy plugin", link.get_cname());
293 auto* plugin = new LinkEnergyWifi(&link);
294 link.extension_set(plugin);
296 XBT_DEBUG("Not Wifi Link: %s, wifi energy on link not computed", link.get_cname());
300 simgrid::s4u::Link::on_destruction.connect([](simgrid::s4u::Link const& link) {
301 // output energy values if WiFi link
302 if (link.get_sharing_policy() == simgrid::s4u::Link::SharingPolicy::WIFI) {
303 link.extension<LinkEnergyWifi>()->update_destroy();
305 "Link %s destroyed, consumed: %f J dyn: %f stat: %f durIdle: %f durTxRx: %f", link.get_cname(),
306 link.extension<LinkEnergyWifi>()->get_consumed_energy(),
307 link.extension<LinkEnergyWifi>()->get_energy_dynamic(), link.extension<LinkEnergyWifi>()->get_energy_static(),
308 link.extension<LinkEnergyWifi>()->get_duration_idle(), link.extension<LinkEnergyWifi>()->get_duration_comm());
312 simgrid::s4u::Link::on_communication_state_change.connect(
313 [](simgrid::kernel::resource::NetworkAction const& action,
314 simgrid::kernel::resource::Action::State /* previous */) {
315 // update WiFi links encountered during the communication
316 for (auto const* link : action.get_links()) {
317 if (link != nullptr && link->get_sharing_policy() == simgrid::s4u::Link::SharingPolicy::WIFI) {
318 link->get_iface()->extension<LinkEnergyWifi>()->update(action);
323 simgrid::s4u::Link::on_communicate.connect([](const simgrid::kernel::resource::NetworkAction& action) {
324 auto const* actionWifi = dynamic_cast<const simgrid::kernel::resource::NetworkWifiAction*>(&action);
326 if (actionWifi == nullptr)
329 auto const* link_src = actionWifi->get_src_link();
330 auto const* link_dst = actionWifi->get_dst_link();
332 if(link_src != nullptr)
333 link_src->get_iface()->extension<LinkEnergyWifi>()->update(action);
334 if(link_dst != nullptr)
335 link_dst->get_iface()->extension<LinkEnergyWifi>()->update(action);