1 This document describes how to invoke FlightGear's generic IO subsystem.
3 FlightGear has a fairly flexible generic IO subsystem that allows you
4 to "speak" any supported protocol over any supported medium. The IO
5 options are configured at runtime via command line options. You can
6 specify multiple entries if you like, one per command line option.
9 The general form of the command line option is as follows:
11 --protocol=medium,direction,hz,medium_options,...
13 protocol = { native, nmea, garmin, fgfs, rul, pve, ray, etc. }
14 medium = { serial, socket, file, etc. }
15 direction = { in, out, bi }
16 hz = number of times to process channel per second (floating
20 Generic Communication:
24 With this option it is possible to output a pre-configured
25 ASCII string using a predefined separator. The configuration is
26 defined in an XML file located in the Protocol directory of
30 serial port communication: serial,dir,hz,device,baud,protocol
31 socket communication: socket,dir,hz,machine,port,style,protocol
32 output to a file: file,dir,hz,filename,protocol
34 See README.protocol for how to define a generic protocol.
37 Serial Port Communication:
39 --nmea=serial,dir,hz,device,baud
41 device = OS device name of serial line to be open()'ed
42 baud = {300, 1200, 2400, ..., 230400}
44 example to pretend we are a real gps and output to a moving map application:
46 --nmea=serial,out,0.5,COM1,4800
48 Note that for unix variants you might use a device name like "/dev/ttyS0"
53 --native=socket,dir,hz,machine,port,style
55 machine = machine name or ip address if client (leave empty if server)
56 port = port, leave empty to let system choose
59 example to slave one copy of fgfs to another
61 fgfs1: --native=socket,out,30,fgfs2,5500,udp
62 fgfs2: --native=socket,in,30,,5500,udp --fdm=external
64 This instructs the first copy of fgfs to send UDP packets in the
65 native format to a machine called fgfs2 on port 5500.
67 The second copy of fgfs will accept UDP packets (from anywhere) on
68 port 5500. Note the additional --fdm=external option. This tells
69 the second copy of fgfs to not run the normal flight model, but
70 instead set the FDM values based on an external source (the
71 network in this case.)
76 --garmin=file,dir,hz,filename
78 filename = file system file name
80 example to record a flight path at 10 hz:
82 --native=file,out,10,flight1.fgfs
84 example to replay your flight
86 --native=file,in,10,flight1.fgfs --fdm=external
91 Per Liedman has developed a moving map program called Atlas
92 (atlas.sourceforge.net) The initial inspiration and much code came
95 The moving map supports NMEA format input either via network or
96 via serial port. Either way will work, but this example
97 demonstrates the use of a socket connection.
101 fgfs --nmea=socket,out,0.5,atas-host-name,5500,udp
103 Start up the Atlas program with:
105 Atlas --udp=5500 --fgroot=path-to-fg-root --glutfonts
107 Once both programs are running, the Atlas program should display
108 your current location. Atlas is a really nifty program with many
109 neat options such as the ability to generate and use background
110 bitmaps that show the terrain, cities, lakes, oceans, rivers, etc.
115 You can now interact with a running copy of FlightGear using your
116 web browser. You can view all the key internal variables and even
117 change the ones that are writable. If you have support in your
118 favorite [scripting] language for interacting with an http server,
119 you should be able to use this as a mechanism to interface your
120 script with FlightGear.
122 Start up fgfs with the --httpd=<port#> option:
128 Now point your web browser to:
130 http://host.domain.name:5500/
132 When a value is displayed, you can click on it to bring up a form
133 to assign it a new value.
136 ACMS flight data recorder playback
138 fgfs --fdm=acms --generic=file,in,1,<path_to_replay_file>,acms
projects / flightgear.git / blob