1 /* Copyright (c) 2006-2023. 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 #ifndef SIMGRID_S4U_COMM_HPP
7 #define SIMGRID_S4U_COMM_HPP
9 #include <simgrid/forward.h>
10 #include <simgrid/s4u/Activity.hpp>
15 namespace simgrid::s4u {
16 /** @brief Communication async
18 * Represents all asynchronous communications, that you can test or wait onto.
20 class XBT_PUBLIC Comm : public Activity_T<Comm> {
21 friend Mailbox; // Factory of comms
22 friend kernel::activity::CommImpl;
23 /* specified for normal mailbox-based communications*/
24 Mailbox* mailbox_ = nullptr;
25 kernel::actor::ActorImpl* sender_ = nullptr;
26 kernel::actor::ActorImpl* receiver_ = nullptr;
28 void* dst_buff_ = nullptr;
29 size_t dst_buff_size_ = 0;
30 void* src_buff_ = nullptr;
31 size_t src_buff_size_ = sizeof(void*);
33 /* FIXME: expose these elements in the API */
34 bool detached_ = false;
35 std::function<bool(void*, void*, kernel::activity::CommImpl*)> match_fun_;
36 std::function<void(void*)> clean_fun_;
37 std::function<void(kernel::activity::CommImpl*, void*, size_t)> copy_data_function_;
40 Comm* do_start() override;
42 static xbt::signal<void(Comm const&)> on_send;
43 xbt::signal<void(Comm const&)> on_this_send;
44 static xbt::signal<void(Comm const&)> on_recv;
45 xbt::signal<void(Comm const&)> on_this_recv;
48 void fire_on_completion() const override {
49 /* The completion signal of a Comm has to be thrown only once and not by the sender AND the receiver.
50 then Comm::on_completion is thrown in the kernel in CommImpl::finish.
53 void fire_on_this_completion() const override {
54 /* The completion signal of a Comm has to be thrown only once and not by the sender AND the receiver.
55 then Comm::on_this_completion is thrown in the kernel in CommImpl::finish.
58 /* These ensure that the on_completion signals are really thrown */
59 void fire_on_completion_for_real() const { Activity_T<Comm>::fire_on_completion(); }
60 void fire_on_this_completion_for_real() const { Activity_T<Comm>::fire_on_this_completion(); }
63 /*! \static Add a callback fired when the send of any Comm is posted */
64 static void on_send_cb(const std::function<void(Comm const&)>& cb) { on_send.connect(cb); }
65 /*! Add a callback fired when the send of this specific Comm is posted */
66 void on_this_send_cb(const std::function<void(Comm const&)>& cb) { on_this_send.connect(cb); }
67 /*! \static Add a callback fired when the recv of any Comm is posted */
68 static void on_recv_cb(const std::function<void(Comm const&)>& cb) { on_recv.connect(cb); }
69 /*! Add a callback fired when the recv of this specific Comm is posted */
70 void on_this_recv_cb(const std::function<void(Comm const&)>& cb) { on_this_recv.connect(cb); }
72 CommPtr set_copy_data_callback(const std::function<void(kernel::activity::CommImpl*, void*, size_t)>& callback);
73 XBT_ATTRIB_DEPRECATED_v338("Please manifest if you actually need this function") static void copy_buffer_callback(
74 kernel::activity::CommImpl*, void*, size_t);
75 XBT_ATTRIB_DEPRECATED_v338("Please manifest if you actually need this function") static void copy_pointer_callback(
76 kernel::activity::CommImpl*, void*, size_t);
80 static void send(kernel::actor::ActorImpl* sender, const Mailbox* mbox, double task_size, double rate, void* src_buff,
82 const std::function<bool(void*, void*, simgrid::kernel::activity::CommImpl*)>& match_fun,
83 const std::function<void(simgrid::kernel::activity::CommImpl*, void*, size_t)>& copy_data_fun,
84 void* data, double timeout);
85 static void recv(kernel::actor::ActorImpl* receiver, const Mailbox* mbox, void* dst_buff, size_t* dst_buff_size,
86 const std::function<bool(void*, void*, simgrid::kernel::activity::CommImpl*)>& match_fun,
87 const std::function<void(simgrid::kernel::activity::CommImpl*, void*, size_t)>& copy_data_fun,
88 void* data, double timeout, double rate);
91 * "One-sided" communications. This way of communicating bypasses the mailbox and actors mechanism. It creates a
92 * communication (vetoabled, asynchronous, or synchronous) directly between two hosts. There is really no limit on
93 * the hosts involved. In particular, the actor creating such a communication does not have to be on one of the
94 * involved hosts! Enjoy the comfort of the simulator :)
96 static CommPtr sendto_init(); /* Source and Destination hosts have to be set before the communication can start */
97 static CommPtr sendto_init(Host* from, Host* to);
98 static CommPtr sendto_async(Host* from, Host* to, uint64_t simulated_size_in_bytes);
99 static void sendto(Host* from, Host* to, uint64_t simulated_size_in_bytes);
101 CommPtr set_source(Host* from);
102 Host* get_source() const;
103 CommPtr set_destination(Host* to);
104 Host* get_destination() const;
106 /* Mailbox-based communications */
107 CommPtr set_mailbox(Mailbox* mailbox);
108 /** Retrieve the mailbox on which this comm acts */
109 Mailbox* get_mailbox() const { return mailbox_; }
111 /** Specify the data to send.
114 * This is way will get actually copied over to the receiver.
115 * That's completely unrelated from the simulated size (given by :cpp:func:`simgrid::s4u::Comm::set_payload_size`):
116 * you can send a short buffer in your simulator, that represents a very large message
117 * in the simulated world, or the opposite.
120 CommPtr set_src_data(void* buff);
121 /** Specify the size of the data to send (not to be mixed with set_payload_size())
124 * That's the size of the data to actually copy in the simulator (ie, the data passed with
125 * :cpp:func:`simgrid::s4u::Comm::set_src_data`). That's completely unrelated from the simulated size (given by
126 * :cpp:func:`simgrid::s4u::Comm::set_payload_size`)): you can send a short buffer in your simulator, that represents
127 * a very large message in the simulated world, or the opposite.
130 CommPtr set_src_data_size(size_t size);
131 /** Specify the data to send and its size (not to be mixed with set_payload_size())
134 * This is way will get actually copied over to the receiver.
135 * That's completely unrelated from the simulated size (given by :cpp:func:`simgrid::s4u::Comm::set_payload_size`):
136 * you can send a short buffer in your simulator, that represents a very large message
137 * in the simulated world, or the opposite.
140 CommPtr set_src_data(void* buff, size_t size);
142 /** Specify where to receive the data.
144 * That's a buffer where the sent data will be copied */
145 CommPtr set_dst_data(void** buff);
146 /** Specify the buffer in which the data should be received
148 * That's a buffer where the sent data will be copied */
149 CommPtr set_dst_data(void** buff, size_t size);
150 /** Retrieve where the data will be copied on the receiver side */
151 void* get_dst_data() const { return dst_buff_; }
152 /** Retrieve the size of the received data. Not to be mixed with @ref Activity::get_remaining() */
153 size_t get_dst_data_size() const { return dst_buff_size_; }
155 /* Common functions */
157 /** Specify the amount of bytes which exchange should be simulated (not to be mixed with set_src_data_size())
160 * That's the size of the simulated data, that's completely unrelated from the actual data size (given by
161 * :cpp:func:`simgrid::s4u::Comm::set_src_data_size`).
164 CommPtr set_payload_size(uint64_t bytes);
165 /** Sets the maximal communication rate (in byte/sec). Must be done before start */
166 CommPtr set_rate(double rate);
168 bool is_assigned() const override;
169 Actor* get_sender() const;
170 Actor* get_receiver() const;
172 /* Comm life cycle */
173 /** Start the comm, and ignore its result. It can be completely forgotten after that. */
175 /** Start the comm, and ignore its result. It can be completely forgotten after that. */
176 Comm* detach(const std::function<void(void*)>& clean_function)
178 clean_fun_ = clean_function;
182 Comm* wait_for(double timeout) override;
184 /*! \static take a vector s4u::CommPtr and return the rank of the first finished one (or -1 if none is done). */
185 static ssize_t test_any(const std::vector<CommPtr>& comms);
187 /*! \static take a vector s4u::CommPtr and return when one of them is finished.
188 * The return value is the rank of the first finished CommPtr. */
189 static ssize_t wait_any(const std::vector<CommPtr>& comms) { return wait_any_for(comms, -1); }
190 /*! \static Same as wait_any, but with a timeout. Return -1 if the timeout occurs.*/
191 static ssize_t wait_any_for(const std::vector<CommPtr>& comms, double timeout);
193 /*! \static take a vector s4u::CommPtr and return when all of them is finished. */
194 static void wait_all(const std::vector<CommPtr>& comms);
195 /*! \static Same as wait_all, but with a timeout. Return the number of terminated comm (less than comms.size() if
196 * the timeout occurs). */
197 static size_t wait_all_for(const std::vector<CommPtr>& comms, double timeout);
199 } // namespace simgrid::s4u
201 #endif /* SIMGRID_S4U_COMM_HPP */