/*
 * Copyright (C) 2012 Carlos Ruiz Díaz (caruizdiaz.com),
 *                    ConexionGroup (www.conexiongroup.com)
 *
 * This file is part of Kamailio, a free SIP server.
 *
 * Kamailio 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
 *
 * Kamailio 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
 *
 */

#include <stdio.h>
#include <stdlib.h>

#include "cnxcc_mod.h"
#include "cnxcc.h"
#include "cnxcc_check.h"
#include "cnxcc_redis.h"

extern data_t _data;

void check_calls_by_money(unsigned int ticks, void *param)
{
	struct str_hash_entry *h_entry = NULL, *tmp = NULL;
	call_t *tmp_call = NULL;
	int i;

	cnxcc_lock(_data.money.lock);

	if(_data.money.credit_data_by_client->table)
		for(i = 0; i < _data.money.credit_data_by_client->size; i++)
			clist_foreach_safe(&_data.money.credit_data_by_client->table[i],
					h_entry, tmp, next)
			{
				credit_data_t *credit_data = (credit_data_t *)h_entry->u.p;
				call_t *call = NULL;
				double total_consumed_money = 0,
					   consumption_diff = 0 /*, distributed_consumption = 0*/;

				/*				if (i > SAFE_ITERATION_THRESHOLD) {
					LM_ERR("Too many iterations for this loop: %d\n", i);
					break;
				}*/

				cnxcc_lock(credit_data->lock);

				clist_foreach_safe(credit_data->call_list, call, tmp_call, next)
				{
					int consumed_time = 0;

					if(!call->confirmed)
						continue;

					consumed_time =
							get_current_timestamp() - call->start_timestamp;

					if(consumed_time > call->money_based.initial_pulse) {
						call->consumed_amount =
								call->money_based.connect_cost
								+ (call->money_based.cost_per_second
										  * call->money_based.initial_pulse)
								+ call->money_based.cost_per_second
										  * ((consumed_time
													 - call->money_based
															   .initial_pulse)
															/ call->money_based
																	  .final_pulse
													+ 1)
										  * call->money_based.final_pulse;
					}

					total_consumed_money += call->consumed_amount;

					if(call->consumed_amount > call->max_amount) {
						LM_ALERT("[%.*s] call has exhausted its credit. "
								 "Breaking the loop\n",
								call->sip_data.callid.len,
								call->sip_data.callid.s);
						break;
					}

					LM_DBG("CID [%.*s], start_timestamp [%d], seconds alive "
						   "[%d], consumed credit [%f]\n",
							call->sip_data.callid.len, call->sip_data.callid.s,
							call->start_timestamp, consumed_time,
							call->consumed_amount);
				}

				if(credit_data->concurrent_calls == 0) {
					cnxcc_unlock(credit_data->lock);
					continue;
				}

				if(_data.redis) {
					LM_DBG("ec=%f, ca=%f, ca2=%f",
							credit_data->ended_calls_consumed_amount,
							total_consumed_money, credit_data->consumed_amount);

					consumption_diff = credit_data->ended_calls_consumed_amount
									   + total_consumed_money
									   - credit_data->consumed_amount;
					if(consumption_diff > 0)
						redis_incr_by_double(credit_data, "consumed_amount",
								consumption_diff);
				}

				credit_data->consumed_amount =
						credit_data->ended_calls_consumed_amount
						+ total_consumed_money /* + distributed_consumption */;

				LM_DBG("Client [%.*s] | Ended-Calls-Credit-Spent: %f  "
					   "TotalCredit/MaxCredit: %f/%f\n",
						credit_data->call_list->client_id.len,
						credit_data->call_list->client_id.s,
						credit_data->ended_calls_consumed_amount,
						credit_data->consumed_amount, credit_data->max_amount);

				if(credit_data->consumed_amount >= credit_data->max_amount) {
					terminate_all_calls(credit_data);

					// make sure the rest of the servers kill the calls belonging to this customer
					if(_data.redis)
						redis_publish_to_kill_list(credit_data);
					cnxcc_unlock(credit_data->lock);
					break;
				}

				cnxcc_unlock(credit_data->lock);
			}

	cnxcc_unlock(_data.money.lock);
}

void check_calls_by_time(unsigned int ticks, void *param)
{
	struct str_hash_entry *h_entry = NULL;
	struct str_hash_entry *tmp = NULL;
	call_t *tmp_call = NULL;
	int i;

	cnxcc_lock(_data.time.lock);

	if(_data.time.credit_data_by_client->table)
		for(i = 0; i < _data.time.credit_data_by_client->size; i++)
			clist_foreach_safe(&_data.time.credit_data_by_client->table[i],
					h_entry, tmp, next)
			{
				credit_data_t *credit_data = (credit_data_t *)h_entry->u.p;
				call_t *call = NULL;
				int total_consumed_secs = 0;
				double consumption_diff = 0 /*, distributed_consumption = 0*/;

				cnxcc_lock(credit_data->lock);

				/*if (i > SAFE_ITERATION_THRESHOLD)
				{
					LM_ERR("Too many iterations for this loop: %d", i);
					break;
				} */

				LM_DBG("Iterating through calls of client [%.*s]\n",
						credit_data->call_list->client_id.len,
						credit_data->call_list->client_id.s);

				clist_foreach_safe(credit_data->call_list, call, tmp_call, next)
				{
					if(!call->confirmed)
						continue;

					call->consumed_amount =
							get_current_timestamp() - call->start_timestamp;
					total_consumed_secs += call->consumed_amount;

					if(call->consumed_amount > call->max_amount) {
						LM_ALERT("[%.*s] call has exhausted its time. Breaking "
								 "the loop\n",
								call->sip_data.callid.len,
								call->sip_data.callid.s);
						break;
					}

					LM_DBG("CID [%.*s], start_timestamp [%d], seconds alive "
						   "[%d]\n",
							call->sip_data.callid.len, call->sip_data.callid.s,
							call->start_timestamp, (int)call->consumed_amount);
				}

				if(credit_data->concurrent_calls == 0) {
					cnxcc_unlock(credit_data->lock);
					continue;
				}

				if(_data.redis) {
					consumption_diff = credit_data->ended_calls_consumed_amount
									   + total_consumed_secs
									   - credit_data->consumed_amount;
					if(consumption_diff > 0)
						redis_incr_by_double(credit_data, "consumed_amount",
								consumption_diff);
				}

				credit_data->consumed_amount =
						credit_data->ended_calls_consumed_amount
						+ total_consumed_secs /*+ distributed_consumption*/;

				LM_DBG("Client [%.*s] | Ended-Calls-Time: %d  "
					   "TotalTime/MaxTime: %d/%d\n",
						credit_data->call_list->client_id.len,
						credit_data->call_list->client_id.s,
						(int)credit_data->ended_calls_consumed_amount,
						(int)credit_data->consumed_amount,
						(int)credit_data->max_amount);

				if(credit_data->consumed_amount >= credit_data->max_amount) {
					terminate_all_calls(credit_data);

					// make sure the rest of the servers kill the calls belonging to this customer
					if(_data.redis)
						redis_publish_to_kill_list(credit_data);
					cnxcc_unlock(credit_data->lock);
					break;
				}

				cnxcc_unlock(credit_data->lock);
			}

	cnxcc_unlock(_data.time.lock);
}