/* * connection.cpp * * Created on: Sep 23, 2017 * Author: root */ #include "connection.h" int disable_anti_replay=0;//if anti_replay windows is diabled const int disable_conv_clear=0;//a udp connection in the multiplexer is called conversation in this program,conv for short. const int disable_conn_clear=0;//a raw connection is called conn. conn_manager_t conn_manager; void server_clear_function(u64_t u64); conv_manager_t::conv_manager_t() { clear_it=conv_last_active_time.begin(); long long last_clear_time=0; //clear_function=0; } conv_manager_t::~conv_manager_t() { clear(); } int conv_manager_t::get_size() { return conv_to_u64.size(); } void conv_manager_t::reserve() { u64_to_conv.reserve(10007); conv_to_u64.reserve(10007); conv_last_active_time.reserve(10007); } void conv_manager_t::clear() { if(disable_conv_clear) return ; if(program_mode==server_mode) { for(it=conv_to_u64.begin();it!=conv_to_u64.end();it++) { //int fd=int((it->second<<32u)>>32u); server_clear_function( it->second); } } u64_to_conv.clear(); conv_to_u64.clear(); conv_last_active_time.clear(); clear_it=conv_last_active_time.begin(); } u32_t conv_manager_t::get_new_conv() { u32_t conv=get_true_random_number_nz(); while(conv_to_u64.find(conv)!=conv_to_u64.end()) { conv=get_true_random_number_nz(); } return conv; } int conv_manager_t::is_conv_used(u32_t conv) { return conv_to_u64.find(conv)!=conv_to_u64.end(); } int conv_manager_t::is_u64_used(u64_t u64) { return u64_to_conv.find(u64)!=u64_to_conv.end(); } u32_t conv_manager_t::find_conv_by_u64(u64_t u64) { return u64_to_conv[u64]; } u64_t conv_manager_t::find_u64_by_conv(u32_t conv) { return conv_to_u64[conv]; } int conv_manager_t::update_active_time(u32_t conv) { return conv_last_active_time[conv]=get_current_time(); } int conv_manager_t::insert_conv(u32_t conv,u64_t u64) { u64_to_conv[u64]=conv; conv_to_u64[conv]=u64; conv_last_active_time[conv]=get_current_time(); return 0; } int conv_manager_t::erase_conv(u32_t conv) { if(disable_conv_clear) return 0; u64_t u64=conv_to_u64[conv]; if(program_mode==server_mode) { server_clear_function(u64); } conv_to_u64.erase(conv); u64_to_conv.erase(u64); conv_last_active_time.erase(conv); return 0; } int conv_manager_t::clear_inactive(char * ip_port) { if(get_current_time()-last_clear_time>conv_clear_interval) { last_clear_time=get_current_time(); return clear_inactive0(ip_port); } return 0; } int conv_manager_t::clear_inactive0(char * ip_port) { if(disable_conv_clear) return 0; //map::iterator it; int cnt=0; it=clear_it; int size=conv_last_active_time.size(); int num_to_clean=size/conv_clear_ratio+conv_clear_min; //clear 1/10 each time,to avoid latency glitch num_to_clean=min(num_to_clean,size); u64_t current_time=get_current_time(); for(;;) { if(cnt>=num_to_clean) break; if(conv_last_active_time.begin()==conv_last_active_time.end()) break; if(it==conv_last_active_time.end()) { it=conv_last_active_time.begin(); } if( current_time -it->second >conv_timeout ) { //mylog(log_info,"inactive conv %u cleared \n",it->first); old_it=it; it++; u32_t conv= old_it->first; erase_conv(old_it->first); if(ip_port==0) { mylog(log_info,"conv %x cleared\n",conv); } else { mylog(log_info,"[%s]conv %x cleared\n",ip_port,conv); } } else { it++; } cnt++; } return 0; } conn_manager_t::conn_manager_t() { ready_num=0; mp.reserve(10007); clear_it=mp.begin(); timer_fd_mp.reserve(10007); const_id_mp.reserve(10007); udp_fd_mp.reserve(100007); last_clear_time=0; //current_ready_ip=0; // current_ready_port=0; } int conn_manager_t::exist(u32_t ip,uint16_t port) { u64_t u64=0; u64=ip; u64<<=32u; u64|=port; if(mp.find(u64)!=mp.end()) { return 1; } return 0; } /* int insert(uint32_t ip,uint16_t port) { uint64_t u64=0; u64=ip; u64<<=32u; u64|=port; mp[u64]; return 0; }*/ conn_info_t *& conn_manager_t::find_insert_p(u32_t ip,uint16_t port) //be aware,the adress may change after rehash { u64_t u64=0; u64=ip; u64<<=32u; u64|=port; unordered_map::iterator it=mp.find(u64); if(it==mp.end()) { mp[u64]=new conn_info_t; } return mp[u64]; } conn_info_t & conn_manager_t::find_insert(u32_t ip,uint16_t port) //be aware,the adress may change after rehash { u64_t u64=0; u64=ip; u64<<=32u; u64|=port; unordered_map::iterator it=mp.find(u64); if(it==mp.end()) { mp[u64]=new conn_info_t; } return *mp[u64]; } int conn_manager_t::erase(unordered_map::iterator erase_it) { if(erase_it->second->state.server_current_state==server_ready) { ready_num--; assert(i32_t(ready_num)!=-1); assert(erase_it->second!=0); assert(erase_it->second->timer_fd !=0); assert(erase_it->second->oppsite_const_id!=0); assert(const_id_mp.find(erase_it->second->oppsite_const_id)!=const_id_mp.end()); assert(timer_fd_mp.find(erase_it->second->timer_fd)!=timer_fd_mp.end()); const_id_mp.erase(erase_it->second->oppsite_const_id); timer_fd_mp.erase(erase_it->second->timer_fd); close(erase_it->second->timer_fd);// close will auto delte it from epoll delete(erase_it->second); mp.erase(erase_it->first); } else { assert(erase_it->second->blob==0); assert(erase_it->second->timer_fd ==0); assert(erase_it->second->oppsite_const_id==0); delete(erase_it->second); mp.erase(erase_it->first); } return 0; } int conn_manager_t::clear_inactive() { if(get_current_time()-last_clear_time>conn_clear_interval) { last_clear_time=get_current_time(); return clear_inactive0(); } return 0; } int conn_manager_t::clear_inactive0() { unordered_map::iterator it; unordered_map::iterator old_it; if(disable_conn_clear) return 0; //map::iterator it; int cnt=0; it=clear_it; int size=mp.size(); int num_to_clean=size/conn_clear_ratio+conn_clear_min; //clear 1/10 each time,to avoid latency glitch mylog(log_trace,"mp.size() %d\n", size); num_to_clean=min(num_to_clean,(int)mp.size()); u64_t current_time=get_current_time(); for(;;) { if(cnt>=num_to_clean) break; if(mp.begin()==mp.end()) break; if(it==mp.end()) { it=mp.begin(); } if(it->second->state.server_current_state==server_ready &¤t_time - it->second->last_hb_recv_time <=server_conn_timeout) { it++; } else if(it->second->state.server_current_state!=server_ready&& current_time - it->second->last_state_time <=server_handshake_timeout ) { it++; } else if(it->second->blob!=0&&it->second->blob->conv_manager.get_size() >0) { assert(it->second->state.server_current_state==server_ready); it++; } else { mylog(log_info,"[%s:%d]inactive conn cleared \n",my_ntoa(it->second->raw_info.recv_info.src_ip),it->second->raw_info.recv_info.src_port); old_it=it; it++; erase(old_it); } cnt++; } return 0; } void server_clear_function(u64_t u64)//used in conv_manager in server mode.for server we have to use one udp fd for one conv(udp connection), //so we have to close the fd when conv expires { int fd=int(u64); int ret; assert(fd!=0); /* epoll_event ev; ev.events = EPOLLIN; ev.data.u64 = u64; ret = epoll_ctl(epollfd, EPOLL_CTL_DEL, fd, &ev); if (ret!=0) { mylog(log_fatal,"fd:%d epoll delete failed!!!!\n",fd); myexit(-1); //this shouldnt happen }*/ //no need ret= close(fd); //closed fd should be auto removed from epoll if (ret!=0) { mylog(log_fatal,"close fd %d failed !!!!\n",fd); myexit(-1); //this shouldnt happen } //mylog(log_fatal,"size:%d !!!!\n",conn_manager.udp_fd_mp.size()); assert(conn_manager.udp_fd_mp.find(fd)!=conn_manager.udp_fd_mp.end()); conn_manager.udp_fd_mp.erase(fd); }