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sip-tester
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sip-tester/opentask.cpp

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/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Author : Richard GAYRAUD - 04 Nov 2003
* Marc LAMBERTON
* Olivier JACQUES
* Herve PELLAN
* David MANSUTTI
* Francois-Xavier Kowalski
* Gerard Lyonnaz
* From Hewlett Packard Company.
* F. Tarek Rogers
* Peter Higginson
* Vincent Luba
* Shriram Natarajan
* Guillaume Teissier from FTR&D
* Clement Chen
* Wolfgang Beck
* Charles P Wright from IBM Research
*/
#include "sipp.hpp"
class opentask *opentask::instance = NULL;
unsigned long opentask::calls_since_last_rate_change = 0;
unsigned long opentask::last_rate_change_time = 0;
void opentask::initialize() {
assert(instance == NULL);
instance = new opentask();
}
opentask::opentask() {
setRunning();
}
opentask::~opentask() {
instance = NULL;
}
void opentask::dump() {
WARNING("Uniform rate call generation task: %d", rate);
}
unsigned int opentask::wake() {
if (paused) {
return 0;
} else if (users >= 0) {
/* We need to wait until another call is terminated. */
return 0;
} else {
/* We need to compute when the next call is going to be opened. */
return (unsigned long)
MAX(last_rate_change_time + (calls_since_last_rate_change /
MAX(rate/MAX(rate_period_ms, 1), 1)), 1);
}
}
bool opentask::run() {
int calls_to_open = 0;
if (quitting) {
delete this;
return false;
}
if (paused) {
setPaused();
return true;
}
long l=0;
unsigned long long current_calls = main_scenario->stats->GetStat(CStat::CPT_C_CurrentCall);
unsigned long long total_calls = main_scenario->stats->GetStat(CStat::CPT_C_IncomingCallCreated) + main_scenario->stats->GetStat(CStat::CPT_C_OutgoingCallCreated);
if (users >= 0) {
calls_to_open = ((l = (users - current_calls)) > 0) ? l : 0;
} else {
calls_to_open = (unsigned int)
((l=(long)floor(((clock_tick - last_rate_change_time) * rate/rate_period_ms)
- calls_since_last_rate_change))>0?l:0);
}
if (total_calls + calls_to_open > stop_after) {
calls_to_open = stop_after - total_calls;
}
if (open_calls_allowed && (current_calls + calls_to_open > open_calls_allowed)) {
calls_to_open = open_calls_allowed - current_calls;
}
if (calls_to_open < 0) {
calls_to_open = 0;
}
unsigned int start_clock = getmilliseconds();
while(calls_to_open--)
{
/* Associate a user with this call, if we are in users mode. */
int userid = 0;
if (users >= 0) {
userid = freeUsers.back();
freeUsers.pop_back();
}
// adding a new OUTGOING CALL
main_scenario->stats->computeStat(CStat::E_CREATE_OUTGOING_CALL);
call * call_ptr = call::add_call(userid, local_ip_is_ipv6, use_remote_sending_addr ? &remote_sending_sockaddr : &remote_sockaddr);
if(!call_ptr) {
ERROR("Out of memory allocating call!");
}
calls_since_last_rate_change++;
outbound_congestion = false;
if (!multisocket) {
switch(transport) {
case T_UDP:
call_ptr->associate_socket(main_socket);
main_socket->ss_count++;
break;
case T_TCP:
case T_SCTP:
case T_TLS:
call_ptr->associate_socket(tcp_multiplex);
tcp_multiplex->ss_count++;
break;
}
}
if (getmilliseconds() > start_clock) {
break;
}
}
/* We can pause. */
if (calls_to_open <= 0) {
setPaused();
} else {
/* Stay running. */
}
// Quit after asked number of calls is reached
if(total_calls >= stop_after) {
quitting = 1;
return false;
}
return true;
}
void opentask::set_paused(bool new_paused)
{
if (!instance) {
/* Doesn't do anything, we must be in server mode. */
return;
}
if (new_paused) {
instance->setPaused();
} else {
instance->setRunning();
if (users >= 0) {
set_users(users);
} else {
set_rate(rate);
}
}
paused = new_paused;
}
void opentask::set_rate(double new_rate)
{
if (!instance) {
/* Doesn't do anything, we must be in server mode. */
}
rate = new_rate;
if(rate < 0) {
rate = 0;
}
last_rate_change_time = getmilliseconds();
calls_since_last_rate_change = 0;
if(!open_calls_user_setting) {
int call_duration_min = main_scenario->duration;
if(duration > call_duration_min) call_duration_min = duration;
if(call_duration_min < 1000) call_duration_min = 1000;
open_calls_allowed = (int)((3.0 * rate * call_duration_min) / (double)rate_period_ms);
if(!open_calls_allowed) {
open_calls_allowed = 1;
}
}
}
void opentask::set_users(int new_users)
{
if (!instance) {
/* Doesn't do anything, we must be in server mode. */
return;
}
if (new_users < 0) {
new_users = 0;
}
assert(users >= 0);
if (users < new_users ) {
while (users < new_users) {
int userid;
if (!retiredUsers.empty()) {
userid = retiredUsers.back();
retiredUsers.pop_back();
} else {
userid = users + 1;
userVarMap[userid] = new VariableTable(userVariables);
}
freeUsers.push_front(userid);
users++;
}
}
users = open_calls_allowed = new_users;
last_rate_change_time = clock_tick;
calls_since_last_rate_change = 0;
assert(open_calls_user_setting);
instance->setRunning();
}
void opentask::freeUser(int userId) {
if (main_scenario->stats->GetStat(CStat::CPT_C_CurrentCall) > open_calls_allowed) {
retiredUsers.push_front(userId);
} else {
freeUsers.push_front(userId);
/* Wake up the call creation thread. */
if (instance) {
instance->setRunning();
}
}
}
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