// ExternalNet.hxx -- an net interface to an external flight dynamics model // // Written by Curtis Olson, started November 2001. // // Copyright (C) 2001 Curtis L. Olson - curt@flightgear.org // // This program 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. // // This program 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., 675 Mass Ave, Cambridge, MA 02139, USA. // // $Id$ #include #include // endian tests #include
#include "ExternalNet.hxx" // FreeBSD works better with this included last ... (?) #if defined(WIN32) && !defined(__CYGWIN__) # include #else # include // htonl() ntohl() #endif // The function htond is defined this way due to the way some // processors and OSes treat floating point values. Some will raise // an exception whenever a "bad" floating point value is loaded into a // floating point register. Solaris is notorious for this, but then // so is LynxOS on the PowerPC. By translating the data in place, // there is no need to load a FP register with the "corruped" floating // point value. By doing the BIG_ENDIAN test, I can optimize the // routine for big-endian processors so it can be as efficient as // possible static void htond (double &x) { if ( sgIsLittleEndian() ) { int *Double_Overlay; int Holding_Buffer; Double_Overlay = (int *) &x; Holding_Buffer = Double_Overlay [0]; Double_Overlay [0] = htonl (Double_Overlay [1]); Double_Overlay [1] = htonl (Holding_Buffer); } else { return; } } static void global2raw( FGRawCtrls *raw ) { int i; static const SGPropertyNode *aileron = fgGetNode("/controls/aileron"); static const SGPropertyNode *elevator = fgGetNode("/controls/elevator"); static const SGPropertyNode *elevator_trim = fgGetNode("/controls/elevator-trim"); static const SGPropertyNode *rudder = fgGetNode("/controls/rudder"); static const SGPropertyNode *flaps = fgGetNode("/controls/flaps"); char buf[256]; // fill in values raw->version = FG_RAW_CTRLS_VERSION; raw->aileron = fgGetDouble( "/controls/aileron" ); raw->elevator = fgGetDouble( "/controls/elevator" ); raw->elevator_trim = fgGetDouble( "/controls/elevator-trim" ); raw->rudder = fgGetDouble( "/controls/rudder" ); raw->flaps = fgGetDouble( "/controls/flaps" ); for ( i = 0; i < FG_MAX_ENGINES; ++i ) { sprintf( buf, "/controls/throttle[%d]", i ); raw->throttle[i] = fgGetDouble( buf ); sprintf( buf, "/controls/mixture[%d]", i ); raw->mixture[i] = fgGetDouble( buf ); sprintf( buf, "/controls/propeller-pitch[%d]", i ); raw->prop_advance[i] = fgGetDouble( buf ); } for ( i = 0; i < FG_MAX_WHEELS; ++i ) { sprintf( buf, "/controls/brakes[%d]", i ); raw->brake[i] = fgGetDouble( buf ); } raw->hground = fgGetDouble( "/environment/ground-elevation-m" ); // convert to network byte order raw->version = htonl(raw->version); htond(raw->aileron); htond(raw->elevator); htond(raw->elevator_trim); htond(raw->rudder); htond(raw->flaps); for ( i = 0; i < FG_MAX_ENGINES; ++i ) { htond(raw->throttle[i]); htond(raw->mixture[i]); htond(raw->prop_advance[i]); } for ( i = 0; i < FG_MAX_WHEELS; ++i ) { htond(raw->brake[i]); } htond(raw->hground); } static void net2global( FGNetFDM *net ) { // Convert to the net buffer from network format net->version = ntohl(net->version); htond(net->longitude); htond(net->latitude); htond(net->altitude); htond(net->phi); htond(net->theta); htond(net->psi); htond(net->vcas); htond(net->climb_rate); net->cur_time = ntohl(net->cur_time); net->warp = ntohl(net->warp); htond(net->visibility); if ( net->version == FG_NET_FDM_VERSION ) { // cout << "pos = " << net->longitude << " " << net->latitude << endl; // cout << "sea level rad = " << cur_fdm_state->get_Sea_level_radius() << endl; cur_fdm_state->_updateGeodeticPosition( net->latitude, net->longitude, net->altitude * SG_METER_TO_FEET ); cur_fdm_state->_set_Euler_Angles( net->phi, net->theta, net->psi ); cur_fdm_state->_set_V_calibrated_kts( net->vcas ); cur_fdm_state->_set_Climb_Rate( net->climb_rate ); /* these are ignored for now ... */ /* if ( net->cur_time ) { fgSetLong("/sim/time/cur-time-override", net->cur_time); } globals->set_warp( net->warp ); last_warp = net->warp; */ } else { SG_LOG( SG_IO, SG_ALERT, "Error: version mismatch in net2global()" ); SG_LOG( SG_IO, SG_ALERT, "\tread " << net->version << " need " << FG_NET_FDM_VERSION ); SG_LOG( SG_IO, SG_ALERT, "\tsomeone needs to upgrade net_fdm.hxx and recompile." ); } } FGExternalNet::FGExternalNet( double dt, int dop, int dip, int cp, string host ) { set_delta_t( dt ); valid = true; data_in_port = dip; data_out_port = dop; cmd_port = cp; fdm_host = host; ///////////////////////////////////////////////////////// // Setup client udp connection (sends data to remote fdm) if ( ! data_client.open( false ) ) { SG_LOG( SG_FLIGHT, SG_ALERT, "Error opening client data channel" ); valid = false; } // fire and forget data_client.setBlocking( false ); if ( data_client.connect( fdm_host.c_str(), data_out_port ) == -1 ) { printf("error connecting to %s:%d\n", fdm_host.c_str(), data_out_port); valid = false; } ///////////////////////////////////////////////////////// // Setup server udp connection (for receiving data) if ( ! data_server.open( false ) ) { SG_LOG( SG_FLIGHT, SG_ALERT, "Error opening client server channel" ); valid = false; } // we want to block for incoming data in order to syncronize frame // rates. data_server.setBlocking( false /* don't block while testing */ ); // data_server.setBlocking( true /* don't block while testing */ ); // if we bind to fdm_host = "" then we accept messages from // anyone. if ( data_server.bind( fdm_host.c_str(), data_in_port ) == -1 ) { printf("error binding to port %d\n", data_in_port); valid = false; } } FGExternalNet::~FGExternalNet() { data_client.close(); data_server.close(); } // Initialize the ExternalNet flight model, dt is the time increment // for each subsequent iteration through the EOM void FGExternalNet::init() { // cout << "FGExternalNet::init()" << endl; // Explicitly call the superclass's // init method first. common_init(); double lon = fgGetDouble( "/position/longitude-deg" ); double lat = fgGetDouble( "/position/latitude-deg" ); double ground = fgGetDouble( "/environment/ground-elevation-m" ); double heading = fgGetDouble("/orientation/heading-deg"); char cmd[256]; sprintf( cmd, "/longitude-deg?value=%.8f", lon ); new HTTPClient( fdm_host.c_str(), cmd_port, cmd ); cout << "before loop()" << endl; netChannel::loop(0); cout << "here" << endl; sprintf( cmd, "/latitude-deg?value=%.8f", lat ); new HTTPClient( fdm_host.c_str(), cmd_port, cmd ); netChannel::loop(0); sprintf( cmd, "/ground-m?value=%.8f", ground ); new HTTPClient( fdm_host.c_str(), cmd_port, cmd ); netChannel::loop(0); sprintf( cmd, "/heading-deg?value=%.8f", heading ); new HTTPClient( fdm_host.c_str(), cmd_port, cmd ); netChannel::loop(0); sprintf( cmd, "/reset?value=ground" ); new HTTPClient( fdm_host.c_str(), cmd_port, cmd ); netChannel::loop(0); } // Run an iteration of the EOM. This is a NOP here because the flight // model values are getting filled in elsewhere (most likely from some // external source.) void FGExternalNet::update( int multiloop ) { int length; int result; // Send control positions to remote fdm length = sizeof(ctrls); global2raw( &ctrls ); if ( data_client.send( (char *)(& ctrls), length, 0 ) != length ) { SG_LOG( SG_IO, SG_ALERT, "Error writing data." ); } // Read next set of FDM data (blocking enabled to maintain 'sync') length = sizeof(fdm); if ( (result = data_server.recv( (char *)(& fdm), length, 0)) >= 0 ) { SG_LOG( SG_IO, SG_DEBUG, "Success reading data." ); net2global( &fdm ); } }