void utp_socket_manager::get_status(utp_status& s) const { s.num_idle = 0; s.num_syn_sent = 0; s.num_connected = 0; s.num_fin_sent = 0; s.num_close_wait = 0; for (socket_map_t::const_iterator i = m_utp_sockets.begin() , end(m_utp_sockets.end()); i != end; ++i) { int state = utp_socket_state(i->second); switch (state) { case 0: ++s.num_idle; break; case 1: ++s.num_syn_sent; break; case 2: ++s.num_connected; break; case 3: ++s.num_fin_sent; break; case 4: ++s.num_close_wait; break; case 5: ++s.num_close_wait; break; } } }
void utp_socket_manager::get_status(utp_status& s) const { s.num_idle = 0; s.num_syn_sent = 0; s.num_connected = 0; s.num_fin_sent = 0; s.num_close_wait = 0; s.packet_loss = m_counters[packet_loss]; s.timeout = m_counters[timeout]; s.packets_in = m_counters[packets_in]; s.packets_out = m_counters[packets_out]; s.fast_retransmit = m_counters[fast_retransmit]; s.packet_resend = m_counters[packet_resend]; s.samples_above_target = m_counters[samples_above_target]; s.samples_below_target = m_counters[samples_below_target]; s.payload_pkts_in = m_counters[payload_pkts_in]; s.payload_pkts_out = m_counters[payload_pkts_out]; s.invalid_pkts_in = m_counters[invalid_pkts_in]; s.redundant_pkts_in = m_counters[redundant_pkts_in]; for (socket_map_t::const_iterator i = m_utp_sockets.begin() , end(m_utp_sockets.end()); i != end; ++i) { int state = utp_socket_state(i->second); switch (state) { case 0: ++s.num_idle; break; case 1: ++s.num_syn_sent; break; case 2: ++s.num_connected; break; case 3: ++s.num_fin_sent; break; case 4: ++s.num_close_wait; break; case 5: ++s.num_close_wait; break; } } }