Exemple #1
0
void wxGISLocalClientConnection::OnSocketEvent(wxSocketEvent& event)
{
    event.Skip(false);
    wxLogDebug(wxT("wxClientTCPNetConnection: event"));
    switch(event.GetSocketEvent())
    {
        case wxSOCKET_INPUT:
            wxLogDebug(wxT("wxClientTCPNetConnection: INPUT"));
        break;
        case wxSOCKET_OUTPUT:
            wxLogDebug(wxT("wxClientTCPNetConnection: OUTPUT"));
            break;
        case wxSOCKET_CONNECTION:
            wxLogDebug(wxT("wxClientTCPNetConnection: CONNECTION"));
            m_bIsConnected = true;
            m_bIsConnecting = false;
            {
            wxNetMessage msgin(enumGISNetCmdHello, enumGISNetCmdStUnk, enumGISPriorityHighest);
            wxGISNetEvent event(0, wxGISNET_MSG, msgin);
            PostEvent(event);
            }
        break;
        case wxSOCKET_LOST:
            wxLogDebug(wxT("wxClientTCPNetConnection: LOST"));
            {
                wxNetMessage msgin(enumGISNetCmdBye, enumGISNetCmdStUnk, enumGISPriorityHighest);
                if(!m_bIsConnected && m_bIsConnecting)
                {
                    m_bIsConnecting = false;
                }
                else
                {
                    m_bIsConnected = false;
                }
                wxGISNetEvent event(0, wxGISNET_MSG, msgin);
                PostEvent(event);
            }
        break;
        default:
            wxLogDebug(wxT("wxClientTCPNetConnection: default"));
            break;
    }
}
Exemple #2
0
void WIFIWindow::OnSocketEvent(wxSocketEvent& event)
{

    wifi_scan_data *pt;
    unsigned char response_type;

    int i, ilocal;
    unsigned char *pbuffer;
    int *pcnt;
    int cnt;
    unsigned char buf[100];
    int pt_eaten[64];

    if(event.GetSocketEvent() == wxSOCKET_INPUT)
    {

//          Read the first 5 bytes of the reply, getting its total type and total length
        m_sock->Read(buf, 5);

        //  Read the rest
        response_type = buf[0];
        int *pint =(int *)(&buf[1]);
        int total_length = *pint;

//  get some memory to read the rest
        pbuffer = (unsigned char*) malloc(total_length * sizeof(unsigned char));

        m_sock->Read(pbuffer, total_length-5);

        switch(response_type - 0x80)
        {
        case 'D' :
            m_bRX = true;                       // reset watchdog
            m_watchtick = 0;

            //  Get the scan results station count
            pcnt = (int *)&pbuffer[0];
            cnt = *pcnt;

            if(cnt > 64)
                cnt = 64;                       // be safe

            //  Manage the data input
            //  Some setup
            for(i=0 ; i < cnt ; i++)
                pt_eaten[i] = false;

            //  First, check to see if any input station data is already present in local store
            //  If it is (ESSID matches), then simply update the signal quality, and refresh the age.
            //  Also, flag the fact that the input data has been eaten.

            for(i=0 ; i < cnt ; i++)
            {
                pt = (wifi_scan_data *)(&pbuffer[(sizeof(int) + i * 256)]);           // skipping the first int
                if(strlen(pt->ESSID))
                {
                    for(int ilocal = 0 ; ilocal < NLOCALSTORE ; ilocal++)
                    {
                        if((!strcmp(pt->ESSID, station_data[ilocal].ESSID)) && (station_data[ilocal].bisvalid))
                        {
                            station_data[ilocal].sig_quality = pt->sig_quality;
                            station_data[ilocal].age = -1;
                            pt_eaten[i] = true;
                        }
                    }
                }
            }

            //  Now, age the local store by one
            for(ilocal = 0 ; ilocal < NLOCALSTORE ; ilocal++)
                if(station_data[ilocal].bisvalid)
                    station_data[ilocal].age ++;

            //  and free any entries that are over the specified age
            for(ilocal = 0 ; ilocal < NLOCALSTORE ; ilocal++)
            {
                if((station_data[ilocal].bisvalid) && (station_data[ilocal].age >= N_AGEDEATH))
                {
                    station_data[ilocal].bisvalid = false;
                    station_data[ilocal].ESSID[0] = 0;
                }
            }


            //  Now, check to see if any input data is un-eaten
            //  If found, then try to allocate to a local store item
            for(i=0 ; i < cnt ; i++)
            {
                if(pt_eaten[i] == false)
                {
                    pt = (wifi_scan_data *)(&pbuffer[(sizeof(int) + i * 256)]);
                    if(strlen(pt->ESSID))
                    {
                        for(ilocal = 0 ; ilocal < NLOCALSTORE ; ilocal++)
                        {
                            if(station_data[ilocal].bisvalid == false)
                            {
                                strcpy(station_data[ilocal].ESSID, pt->ESSID);
                                station_data[ilocal].sig_quality = pt->sig_quality;
                                station_data[ilocal].secure = pt->secure;
                                station_data[ilocal].bisvalid = true;
                                station_data[ilocal].age = 0;
                                pt_eaten[i] = true;
                                break;
                            }
                        }
                    }
                }
            }

            //  There may still be un-eaten input data at this point......
            //  For now, ignore it.  If it is real, it will appear as soon as something else dies

            // Finally, send the data to the display window
            for(ilocal = 0 ; ilocal < NLOCALSTORE ; ilocal++)
            {
                if(station_data[ilocal].bisvalid)
                {
//                        stats->pWiFi->SetStationQuality(ilocal, station_data[ilocal].sig_quality);
//                        stats->pWiFi->SetStationSecureFlag(ilocal, station_data[ilocal].secure);
//                        stats->pWiFi->SetStationAge(ilocal, station_data[ilocal].age);
                }
//                    else
//                        stats->pWiFi->SetStationQuality(ilocal, 0);
            }
            stats->Refresh(true);

            break;


        case 'S' :
        {
            /*
            StatusString = wxString(&buf[5]);

                    //  This may be useful later....
            fi_status_data *status = (wifi_status_data *)&buf[5];

            memcpy(&connected_ap_mac_addr, &status->currently_connected_ap, sizeof(struct sockaddr));

                    //  Check for re-connect, if needed
            if(StatusString.StartsWith("Not"))
            {
                if(s_do_reconnect)
                {
                    time_t tnow = wxDateTime::GetTimeNow();
                    last_connect_seconds = tnow - last_connect_time;

                    do_reconnect();
                }
            }

            m_statWindow->Refresh();
            */
            break;
        }

        case 'R' :
        {
            /*
            wxString wr(&buf[5]);
            m_logWindow->WriteText(wr);
            long ac_compass, ac_brg_commanded, ac_brg_current, ac_motor_dir;

                    //  Parse the Antenna Controller string
            if(!strncmp((const char *)&buf[5], "ANTC", 4))                // valid string
            {
                wxStringTokenizer tk(wr, wxT(":"));

                wxString token = tk.GetNextToken();              // skip ANTC

                token = tk.GetNextToken();
                token.ToLong(&ac_compass);                     // compass heading

                token = tk.GetNextToken();
                token.ToLong(&ac_brg_commanded);               // last commanded antenna bearing

                token = tk.GetNextToken();
                token.ToLong(&ac_brg_current);                 // current antenna brg

                token = tk.GetNextToken();
                token.ToLong(&ac_motor_dir);                   // current motor state

                s_ac_compass       = ac_compass;
                s_ac_brg_commanded = ac_brg_commanded;
                s_ac_brg_current   = ac_brg_current;
                s_ac_motor_dir     = ac_motor_dir;


                m_antWindow->Refresh();
            }
            */
            break;
        }

        case 'K' :
        {

            break;
        }


        default:
            break;
        }       //switch

        free(pbuffer);

    }       // if


    event.Skip();
}