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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)
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// Copyright (c) 2014-2018, The Monero Project
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//
// 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 <boost/asio.hpp>
# include <string>
# include <vector>
# include <boost/noncopyable.hpp>
# include <boost/shared_ptr.hpp>
# include <atomic>
# include <boost/asio.hpp>
# include <boost/array.hpp>
# include <boost/noncopyable.hpp>
# include <boost/shared_ptr.hpp>
# include <boost/enable_shared_from_this.hpp>
# include <boost/interprocess/detail/atomic.hpp>
# include <boost/thread/thread.hpp>
# include <memory>
# include "syncobj.h"
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# include "net/net_utils_base.h"
# include "misc_log_ex.h"
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# include <boost/lambda/bind.hpp>
# include <boost/lambda/lambda.hpp>
# include <boost/uuid/random_generator.hpp>
# include <boost/chrono.hpp>
# include <boost/utility/value_init.hpp>
# include <boost/asio/deadline_timer.hpp>
# include <boost/date_time/posix_time/posix_time.hpp>
# include <boost/thread/thread.hpp>
# include "misc_language.h"
# include "pragma_comp_defs.h"
# include <sstream>
# include <iomanip>
# include <algorithm>
# include <boost/asio/basic_socket.hpp>
# include <boost/asio/ip/unicast.hpp>
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# include "net/abstract_tcp_server2.h"
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// TODO:
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# include "net/network_throttle-detail.hpp"
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Change logging to easylogging++
This replaces the epee and data_loggers logging systems with
a single one, and also adds filename:line and explicit severity
levels. Categories may be defined, and logging severity set
by category (or set of categories). epee style 0-4 log level
maps to a sensible severity configuration. Log files now also
rotate when reaching 100 MB.
To select which logs to output, use the MONERO_LOGS environment
variable, with a comma separated list of categories (globs are
supported), with their requested severity level after a colon.
If a log matches more than one such setting, the last one in
the configuration string applies. A few examples:
This one is (mostly) silent, only outputting fatal errors:
MONERO_LOGS=*:FATAL
This one is very verbose:
MONERO_LOGS=*:TRACE
This one is totally silent (logwise):
MONERO_LOGS=""
This one outputs all errors and warnings, except for the
"verify" category, which prints just fatal errors (the verify
category is used for logs about incoming transactions and
blocks, and it is expected that some/many will fail to verify,
hence we don't want the spam):
MONERO_LOGS=*:WARNING,verify:FATAL
Log levels are, in decreasing order of priority:
FATAL, ERROR, WARNING, INFO, DEBUG, TRACE
Subcategories may be added using prefixes and globs. This
example will output net.p2p logs at the TRACE level, but all
other net* logs only at INFO:
MONERO_LOGS=*:ERROR,net*:INFO,net.p2p:TRACE
Logs which are intended for the user (which Monero was using
a lot through epee, but really isn't a nice way to go things)
should use the "global" category. There are a few helper macros
for using this category, eg: MGINFO("this shows up by default")
or MGINFO_RED("this is red"), to try to keep a similar look
and feel for now.
Existing epee log macros still exist, and map to the new log
levels, but since they're used as a "user facing" UI element
as much as a logging system, they often don't map well to log
severities (ie, a log level 0 log may be an error, or may be
something we want the user to see, such as an important info).
In those cases, I tried to use the new macros. In other cases,
I left the existing macros in. When modifying logs, it is
probably best to switch to the new macros with explicit levels.
The --log-level options and set_log commands now also accept
category settings, in addition to the epee style log levels.
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# undef MONERO_DEFAULT_LOG_CATEGORY
# define MONERO_DEFAULT_LOG_CATEGORY "net.throttle"
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// ################################################################################################
// ################################################################################################
// 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 ;
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m_start_time = 0 ;
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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
}
void network_throttle : : set_name ( const std : : string & name )
{
m_name = name ;
}
void network_throttle : : set_target_speed ( network_speed_kbps target )
{
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m_target_speed = target * 1024 ;
Change logging to easylogging++
This replaces the epee and data_loggers logging systems with
a single one, and also adds filename:line and explicit severity
levels. Categories may be defined, and logging severity set
by category (or set of categories). epee style 0-4 log level
maps to a sensible severity configuration. Log files now also
rotate when reaching 100 MB.
To select which logs to output, use the MONERO_LOGS environment
variable, with a comma separated list of categories (globs are
supported), with their requested severity level after a colon.
If a log matches more than one such setting, the last one in
the configuration string applies. A few examples:
This one is (mostly) silent, only outputting fatal errors:
MONERO_LOGS=*:FATAL
This one is very verbose:
MONERO_LOGS=*:TRACE
This one is totally silent (logwise):
MONERO_LOGS=""
This one outputs all errors and warnings, except for the
"verify" category, which prints just fatal errors (the verify
category is used for logs about incoming transactions and
blocks, and it is expected that some/many will fail to verify,
hence we don't want the spam):
MONERO_LOGS=*:WARNING,verify:FATAL
Log levels are, in decreasing order of priority:
FATAL, ERROR, WARNING, INFO, DEBUG, TRACE
Subcategories may be added using prefixes and globs. This
example will output net.p2p logs at the TRACE level, but all
other net* logs only at INFO:
MONERO_LOGS=*:ERROR,net*:INFO,net.p2p:TRACE
Logs which are intended for the user (which Monero was using
a lot through epee, but really isn't a nice way to go things)
should use the "global" category. There are a few helper macros
for using this category, eg: MGINFO("this shows up by default")
or MGINFO_RED("this is red"), to try to keep a similar look
and feel for now.
Existing epee log macros still exist, and map to the new log
levels, but since they're used as a "user facing" UI element
as much as a logging system, they often don't map well to log
severities (ie, a log level 0 log may be an error, or may be
something we want the user to see, such as an important info).
In those cases, I tried to use the new macros. In other cases,
I left the existing macros in. When modifying logs, it is
probably best to switch to the new macros with explicit levels.
The --log-level options and set_log commands now also accept
category settings, in addition to the epee style log levels.
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MINFO ( " Setting LIMIT: " < < target < < " kbps " ) ;
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}
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network_speed_kbps network_throttle : : get_target_speed ( )
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{
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return m_target_speed / 1024 ;
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}
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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 ) )
{
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_dbg3 ( " Moving counter buffer by 1 second " < < last_sample_time_slot < < " < " < < current_sample_time_slot < < " (last time " < < m_last_sample_time < < " ) " ) ;
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// rotate buffer
for ( size_t i = m_history . size ( ) - 1 ; i > = 1 ; - - i ) m_history [ i ] = m_history [ i - 1 ] ;
m_history [ 0 ] = 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 [ 0 ] . m_size + = packet_size ;
std : : ostringstream oss ; oss < < " [ " ; for ( auto sample : m_history ) oss < < sample . m_size < < " " ; oss < < " ] " < < std : : ends ;
std : : string history_str = oss . str ( ) ;
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MTRACE ( " Throttle " < < m_name < < " : packet of ~ " < < packet_size < < " b " < < " (from " < < orginal_size < < " b) "
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< < " 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 ) {
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static boost : : mutex mutex ;
boost : : lock_guard < boost : : mutex > lock ( mutex ) ;
{
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std : : fstream file ;
file . open ( filename . c_str ( ) , std : : ios : : app | std : : ios : : out ) ;
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file . precision ( 6 ) ;
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if ( ! file . is_open ( ) )
_warn ( " Can't open file " < < filename ) ;
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file < < static_cast < int > ( time ) < < " " < < static_cast < double > ( size / 1024 ) < < " \n " ;
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file . close ( ) ;
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}
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}
// 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)
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cts . delay = ( D1 * 0.80 + D2 * 0.20 ) ; // finall sleep depends on both with/without current packet
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// 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 ( ) ;
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MTRACE ( ( cts . delay > 0 ? " SLEEP " : " " )
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< < " dbg " < < m_name < < " : "
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< < " 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 {
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# if defined(__APPLE__)
auto point = std : : chrono : : system_clock : : now ( ) ;
# else
auto point = std : : chrono : : steady_clock : : now ( ) ;
# endif
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auto time_from_epoh = point . time_since_epoch ( ) ;
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auto ms = std : : chrono : : duration_cast < std : : chrono : : milliseconds > ( time_from_epoh ) . count ( ) ;
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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 ) ;
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R2 = get_recommended_size_of_planned_transport_window ( m_window_size / 2 ) ;
R3 = get_recommended_size_of_planned_transport_window ( 5 ) ;
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auto RM = std : : min ( R1 , std : : min ( R2 , R3 ) ) ;
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const double a1 = 20 , a2 = 10 , a3 = 10 , am = 10 ; // weight of the various windows in decisssion // TODO 70 => 20
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return ( R1 * a1 + R2 * a2 + R3 * a3 + RM * am ) / ( a1 + a2 + a3 + am ) ;
}
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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 ) ;
}
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} // namespace
} // namespace