void ReadFromDatabase(MYSQL* connection)
{
int result;
result = mysql_query(connection, "select ip,port,census,starts,timeout,domain,code from server group by ip;");
if (result != 0)
{
std::cout << mysql_error(connection) << std::endl;
return;
}
MYSQL_RES* mysql_res;
MYSQL_ROW mysql_row;
unsigned int cols;
mysql_res = mysql_store_result(connection);
cols = mysql_num_fields(mysql_res);
if (mysql_res != NULL)
{
g_lock.lock();
//store the consequence from mysql
while ((mysql_row = mysql_fetch_row(mysql_res)))
{
g_IPList.push_back(std::string(mysql_row[0]));
g_portQueue.push_back(atoi(mysql_row[1]));
g_Counts.push_back(atoi(mysql_row[2]));
g_timeoutCounts.push_back(atoi(mysql_row[4]));
g_domainQueue.push_back(std::string(mysql_row[5]));
g_codeQueue.push_back(std::string(mysql_row[6]));
}
g_lock.unlock();
//free
mysql_free_result(mysql_res);
}
//for (auto& i : g_IPList)
// std::cout << i << std::endl;
//for (auto& i : g_Counts)
// std::cout << i << std::endl;
//std::cout << g_IPList << std::endl;
//std::cout << g_Counts << std::endl;
//serial running
//Worker(connection);
//asynchronus running
std::list<std::thread > threadList;
for (int i = 0; i < g_threadCounts; i++) {
//std::thread t(Worker, connection);
threadList.push_back(std::thread(Worker, connection));
}
for (auto& i : threadList)
i.join();
dumplicateDataString.append(" else census end");
resetDataString.append(" else starts end");
timeoutDataString.append(" else timeout end");
//std::cout << dumplicateDataString << std::endl;
if (mysql_query(connection, dumplicateDataString.c_str()) != 0)
{
printf("mysql_query:%s", mysql_error(connection));
}
if (mysql_query(connection, resetDataString.c_str()) != 0)
{
printf("mysql_query:%s", mysql_error(connection));
}
if (mysql_query(connection, timeoutDataString.c_str()) != 0)
{
printf("mysql_query:%s", mysql_error(connection));
}
//close
//mysql_close(connection);
}