1 /* Copyright (c) 2017-2020. 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/plugins/energy.h"
8 #include "xbt/random.hpp"
9 #include <simgrid/s4u.hpp>
11 /* Parameters of the random generation of the flow size */
12 static const int min_size = 1e6;
13 static const int max_size = 1e9;
15 XBT_LOG_NEW_DEFAULT_CATEGORY(s4u_app_energyconsumption, "Messages specific for this s4u example");
17 static void sender(std::vector<std::string> args)
19 xbt_assert(args.size() == 2, "The master function expects 2 arguments.");
20 int flow_amount = std::stoi(args.at(0));
21 double comm_size = std::stod(args.at(1));
22 XBT_INFO("Send %.0f bytes, in %d flows", comm_size, flow_amount);
24 simgrid::s4u::Mailbox* mailbox = simgrid::s4u::Mailbox::by_name(std::string("message"));
26 /* Sleep a while before starting the example */
27 simgrid::s4u::this_actor::sleep_for(10);
29 if (flow_amount == 1) {
30 /* - Send the task to the @ref worker */
31 char* payload = bprintf("%f", comm_size);
32 mailbox->put(payload, comm_size);
34 // Start all comms in parallel, and wait for all completions in one shot
35 std::vector<simgrid::s4u::CommPtr> comms;
36 for (int i = 0; i < flow_amount; i++)
37 comms.push_back(mailbox->put_async(bprintf("%d", i), comm_size));
38 simgrid::s4u::Comm::wait_all(&comms);
40 XBT_INFO("sender done.");
43 static void receiver(std::vector<std::string> args)
45 int flow_amount = std::stoi(args.at(0));
47 XBT_INFO("Receiving %d flows ...", flow_amount);
49 simgrid::s4u::Mailbox* mailbox = simgrid::s4u::Mailbox::by_name(std::string("message"));
51 if (flow_amount == 1) {
52 void* res = mailbox->get();
55 void** data= new void*[flow_amount];
57 // Start all comms in parallel, and wait for their completion in one shot
58 std::vector<simgrid::s4u::CommPtr> comms;
59 for (int i = 0; i < flow_amount; i++)
60 comms.push_back(mailbox->get_async(&data[i]));
62 simgrid::s4u::Comm::wait_all(&comms);
63 for (int i = 0; i < flow_amount; i++)
67 XBT_INFO("receiver done.");
70 int main(int argc, char* argv[])
72 simgrid::s4u::Engine e(&argc, argv);
74 XBT_INFO("Activating the SimGrid link energy plugin");
75 sg_link_energy_plugin_init();
77 xbt_assert(argc > 1, "\nUsage: %s platform_file [flowCount [datasize]]\n"
78 "\tExample: %s s4uplatform.xml \n",
80 e.load_platform(argv[1]);
82 /* prepare to launch the actors */
83 std::vector<std::string> argSender;
84 std::vector<std::string> argReceiver;
86 argSender.push_back(argv[2]); // Take the amount of flows from the command line
87 argReceiver.push_back(argv[2]);
89 argSender.push_back("1"); // Default value
90 argReceiver.push_back("1");
94 if (strcmp(argv[3], "random") == 0) { // We're asked to get a random size
95 std::string size = std::to_string(simgrid::xbt::random::uniform_int(min_size, max_size));
96 argSender.push_back(size);
97 } else { // Not "random" ? Then it should be the size to use
98 argSender.push_back(argv[3]); // Take the datasize from the command line
100 } else { // No parameter at all? Then use the default value
101 argSender.push_back("25000");
103 simgrid::s4u::Actor::create("sender", simgrid::s4u::Host::by_name("MyHost1"), sender, argSender);
104 simgrid::s4u::Actor::create("receiver", simgrid::s4u::Host::by_name("MyHost2"), receiver, argReceiver);
106 /* And now, launch the simulation */