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/// @file
/// @author rfree (current maintainer in monero.cc project)
/// @brief implementaion for throttling of connection (count and rate-limit speed etc)
// Copyright (c) 2014-2022, The Monero Project
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification, are
// permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this list of
// conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice, this list
// of conditions and the following disclaimer in the documentation and/or other
// materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its contributors may be
// used to endorse or promote products derived from this software without specific
// prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
/* rfree: implementation for throttle details */
#include <string>
#include <vector>
#include <atomic>
#include <boost/asio.hpp>
#include <memory>
#include "syncobj.h"
#include "net/net_utils_base.h"
#include "misc_log_ex.h"
#include <boost/chrono.hpp>
#include "misc_language.h"
#include <sstream>
#include <iomanip>
#include <algorithm>
#include <boost/asio/basic_socket.hpp>
#include <boost/asio/ip/unicast.hpp>
#include "net/abstract_tcp_server2.h"
// TODO:
#include "net/network_throttle-detail.hpp"
#undef MONERO_DEFAULT_LOG_CATEGORY
#define MONERO_DEFAULT_LOG_CATEGORY "net.throttle"
// ################################################################################################
// ################################################################################################
// the "header part". Not separeted out for .hpp because point of this modification is
// to rebuild just 1 translation unit while working on this code.
// (But maybe common parts will be separated out later though - if needed)
// ################################################################################################
// ################################################################################################
namespace epee
{
namespace net_utils
{
/* ============================================================================ */
class connection_basic_pimpl {
public:
connection_basic_pimpl(const std::string &name);
static int m_default_tos;
network_throttle_bw m_throttle; // per-perr
critical_section m_throttle_lock;
void _packet(size_t packet_size, int phase, int q_len); // execute a sleep ; phase is not really used now(?) could be used for different kinds of sleep e.g. direct/queue write
};
} // namespace
} // namespace
// ################################################################################################
// ################################################################################################
// The implementation part
// ################################################################################################
// ################################################################################################
namespace epee
{
namespace net_utils
{
// ================================================================================================
// network_throttle
// ================================================================================================
network_throttle::~network_throttle() { }
network_throttle::packet_info::packet_info()
: m_size(0)
{
}
network_throttle::network_throttle(const std::string &nameshort, const std::string &name, int window_size)
: m_window_size( (window_size==-1) ? 10 : window_size ),
m_history( m_window_size ), m_nameshort(nameshort)
{
set_name(name);
m_network_add_cost = 128;
m_network_minimal_segment = 256;
m_network_max_segment = 1024*1024;
m_start_time = 0;
m_any_packet_yet = false;
m_slot_size = 1.0; // hard coded in few places
m_target_speed = 16 * 1024; // other defaults are probably defined in the command-line parsing code when this class is used e.g. as main global throttle
m_last_sample_time = 0;
m_history.resize(m_window_size);
m_total_packets = 0;
m_total_bytes = 0;
}
void network_throttle::set_name(const std::string &name)
{
m_name = name;
}
void network_throttle::set_target_speed( network_speed_kbps target )
{
m_target_speed = target * 1024;
MINFO("Setting LIMIT: " << target << " kbps");
}
network_speed_kbps network_throttle::get_target_speed()
{
return m_target_speed / 1024;
}
void network_throttle::tick()
{
double time_now = get_time_seconds();
if (!m_any_packet_yet) m_start_time = time_now; // starting now
network_time_seconds current_sample_time_slot = time_to_slot( time_now ); // T=13.7 --> 13 (for 1-second smallwindow)
network_time_seconds last_sample_time_slot = time_to_slot( m_last_sample_time );
// moving to next position, and filling gaps
// !! during this loop the m_last_sample_time and last_sample_time_slot mean the variable moved in +1
// TODO optimize when moving few slots at once
while ( (!m_any_packet_yet) || (last_sample_time_slot < current_sample_time_slot))
{
_dbg3("Moving counter buffer by 1 second " << last_sample_time_slot << " < " << current_sample_time_slot << " (last time " << m_last_sample_time<<")");
// rotate buffer
m_history.push_front(packet_info());
if (! m_any_packet_yet)
{
m_last_sample_time = time_now;
}
m_last_sample_time += 1; last_sample_time_slot = time_to_slot( m_last_sample_time ); // increase and recalculate time, time slot
m_any_packet_yet=true;
}
m_last_sample_time = time_now; // the real exact last time
}
void network_throttle::handle_trafic_exact(size_t packet_size)
{
_handle_trafic_exact(packet_size, packet_size);
}
void network_throttle::_handle_trafic_exact(size_t packet_size, size_t orginal_size)
{
tick();
calculate_times_struct cts ; calculate_times(packet_size, cts , false, -1);
calculate_times_struct cts2; calculate_times(packet_size, cts2, false, 5);
m_history.front().m_size += packet_size;
m_total_packets++;
m_total_bytes += packet_size;
std::ostringstream oss; oss << "["; for (auto sample: m_history) oss << sample.m_size << " "; oss << "]" << std::ends;
std::string history_str = oss.str();
MTRACE("Throttle " << m_name << ": packet of ~"<<packet_size<<"b " << " (from "<<orginal_size<<" b)"
<< " Speed AVG=" << std::setw(4) << ((long int)(cts .average/1024)) <<"[w="<<cts .window<<"]"
<< " " << std::setw(4) << ((long int)(cts2.average/1024)) <<"[w="<<cts2.window<<"]"
<<" / " << " Limit="<< ((long int)(m_target_speed/1024)) <<" KiB/sec "
<< " " << history_str
);
}
void network_throttle::handle_trafic_tcp(size_t packet_size)
{
size_t all_size = packet_size + m_network_add_cost;
all_size = std::max( m_network_minimal_segment , all_size);
_handle_trafic_exact( all_size , packet_size );
}
network_time_seconds network_throttle::get_sleep_time_after_tick(size_t packet_size) {
tick();
return get_sleep_time(packet_size);
}
void network_throttle::logger_handle_net(const std::string &filename, double time, size_t size) {
static boost::mutex mutex;
boost::lock_guard<boost::mutex> lock(mutex);
{
std::fstream file;
file.open(filename.c_str(), std::ios::app | std::ios::out );
file.precision(6);
if(!file.is_open())
_warn("Can't open file " << filename);
file << static_cast<int>(time) << " " << static_cast<double>(size/1024) << "\n";
file.close();
}
}
// fine tune this to decide about sending speed:
network_time_seconds network_throttle::get_sleep_time(size_t packet_size) const
{
double D2=0;
calculate_times_struct cts = { 0, 0, 0, 0};
calculate_times(packet_size, cts, true, m_window_size); D2=cts.delay;
return D2;
}
// MAIN LOGIC:
void network_throttle::calculate_times(size_t packet_size, calculate_times_struct &cts, bool dbg, double force_window) const
{
const double the_window_size = std::max( (double)m_window_size ,
((force_window>0) ? force_window : m_window_size)
);
if (!m_any_packet_yet) {
cts.window=0; cts.average=0; cts.delay=0;
cts.recomendetDataSize = m_network_minimal_segment; // should be overrided by caller anyway
return ; // no packet yet, I can not decide about sleep time
}
network_time_seconds window_len = (the_window_size-1) * m_slot_size ; // -1 since current slot is not finished
window_len += (m_last_sample_time - time_to_slot(m_last_sample_time)); // add the time for current slot e.g. 13.7-13 = 0.7
auto time_passed = get_time_seconds() - m_start_time;
cts.window = std::max( std::min( window_len , time_passed ) , m_slot_size ) ; // window length resulting from size of history but limited by how long ago history was started,
// also at least slot size (e.g. 1 second) to not be ridiculous
// window_len e.g. 5.7 because takes into account current slot time
size_t Epast = 0; // summ of traffic till now
for (auto sample : m_history) Epast += sample.m_size;
const size_t E = Epast;
const size_t Enow = Epast + packet_size ; // including the data we're about to send now
const double M = m_target_speed; // max
const double D1 = (Epast - M*cts.window) / M; // delay - how long to sleep to get back to target speed
const double D2 = (Enow - M*cts.window) / M; // delay - how long to sleep to get back to target speed (including current packet)
cts.delay = (D1*0.80 + D2*0.20); // finall sleep depends on both with/without current packet
// update_overheat();
cts.average = Epast/cts.window; // current avg. speed (for info)
if (Epast <= 0) {
if (cts.delay>=0) cts.delay = 0; // no traffic in history so we will not wait
}
double Wgood=-1;
{ // how much data we recommend now to download
Wgood = the_window_size + 1;
cts.recomendetDataSize = M*cts.window - E;
}
if (dbg) {
std::ostringstream oss; oss << "["; for (auto sample: m_history) oss << sample.m_size << " "; oss << "]" << std::ends;
std::string history_str = oss.str();
MTRACE((cts.delay > 0 ? "SLEEP" : "")
<< "dbg " << m_name << ": "
<< "speed is A=" << std::setw(8) <<cts.average<<" vs "
<< "Max=" << std::setw(8) <<M<<" "
<< " so sleep: "
<< "D=" << std::setw(8) <<cts.delay<<" sec "
<< "E="<< std::setw(8) << E << " (Enow="<<std::setw(8)<<Enow<<") "
<< "M=" << std::setw(8) << M <<" W="<< std::setw(8) << cts.window << " "
<< "R=" << std::setw(8) << cts.recomendetDataSize << " Wgood" << std::setw(8) << Wgood << " "
<< "History: " << std::setw(8) << history_str << " "
<< "m_last_sample_time=" << std::setw(8) << m_last_sample_time
);
}
}
double network_throttle::get_time_seconds() const {
#if defined(__APPLE__)
auto point = std::chrono::system_clock::now();
#else
auto point = std::chrono::steady_clock::now();
#endif
auto time_from_epoh = point.time_since_epoch();
auto ms = std::chrono::duration_cast< std::chrono::milliseconds >( time_from_epoh ).count();
double ms_f = ms;
return ms_f / 1000.;
}
size_t network_throttle::get_recommended_size_of_planned_transport_window(double force_window) const {
calculate_times_struct cts = { 0, 0, 0, 0};
network_throttle::calculate_times(0, cts, true, force_window);
cts.recomendetDataSize += m_network_add_cost;
if (cts.recomendetDataSize<0) cts.recomendetDataSize=0;
if (cts.recomendetDataSize>m_network_max_segment) cts.recomendetDataSize=m_network_max_segment;
size_t RI = (long int)cts.recomendetDataSize;
return RI;
}
size_t network_throttle::get_recommended_size_of_planned_transport() const {
size_t R1=0,R2=0,R3=0;
R1 = get_recommended_size_of_planned_transport_window( -1 );
R2 = get_recommended_size_of_planned_transport_window(m_window_size / 2);
R3 = get_recommended_size_of_planned_transport_window( 5 );
auto RM = std::min(R1, std::min(R2,R3));
const double a1=20, a2=10, a3=10, am=10; // weight of the various windows in decisssion // TODO 70 => 20
return (R1*a1 + R2*a2 + R3*a3 + RM*am) / (a1+a2+a3+am);
}
double network_throttle::get_current_speed() const {
unsigned int bytes_transferred = 0;
if (m_history.size() == 0 || m_slot_size == 0)
return 0;
auto it = m_history.begin();
while (it < m_history.end() - 1)
{
bytes_transferred += it->m_size;
it ++;
}
return bytes_transferred / ((m_history.size() - 1) * m_slot_size);
}
void network_throttle::get_stats(uint64_t &total_packets, uint64_t &total_bytes) const {
total_packets = m_total_packets;
total_bytes = m_total_bytes;
}
} // namespace
} // namespace
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