gpsd
1
9 Aug 2004
gpsd
xgps
xgpsspeed
interface daemon for GPS receivers, test client,
and speedometer
gpsd
-T GPS-type
-p GPS-devicename
-S listener-port
-s baudrate
-d DGPS-server
-i initial-position
-n
-N
-h
-P pidfile
-D debuglevel
-v
xgps
X-options
-h
-v
server
--speedunits mphkphknots
--altunits feetmeters
xgpsspeed
-rv
-nc X-color
-h
-v
--speedunits mphkphknots
server
DESCRIPTION
gpsd
gpsd is a monitor daemon that watches
a TCP/IP port (2947 by default), waiting for applications to request
location information from a GPS. The GPS is expected to be
direct-connected to the machine running
gpsd via a USB or RS232C serial port which
is specified to gpsd at startup.
gpsd should be able to query any GPS
that speaks either the standard textual NMEA 0183 protocol, or the
binary Rockwell protocol used by EarthMate and some other
GPSes, or the Garmin binary protocol used by the USB version of the
Garmin 18 and other Garmin USB GPSes. gpsd
effectively hides the differences among these.
Optionally, gpsd may get
differential-GPS corrections from a ground station running a RTCM-S104
server; this will improve position-fix accuracy from roughly 10 meters
to roughly 2 meters, provided you are within 1000 kilometers or so of
the ground station.
The program accepts the following options:
-p
Set GPS device name (default is /dev/gps).
-T device-type
Set GPS type, usually not necessary because most GPSes now speak
the standard NMEA 0183 protocol. For a list of driver types,
look at what gpsd -? writes to standard output.
This option may be unavailable if the daemon was compiled without
support for the non-NMEA drivers.
-S
Set TCP/IP port (default is 2947).
-s
Set GPS communication speed in bits per second.
It is generally not necessary
to set this, because (a) for NMEA devices the daemon will
autoconfigure to the correct baud rate, and (b) for non-NMEA devices
default that should be good is wired in.
-d
Query a differential-GPS (DGPS) server. If a suffix of the
server name begins with ":" it is interpreted as a port number,
overriding the default IANA-assigned port of 2101.
For DGPS servers available for use with this option, see
DGPS corrections over the Internet.
-i
Set initial longitude/latitude in degrees (TripMate and
EarthMate only; helps them develop a first fix more quickly).
Required format is %f[NS]:%f[EW]; that is a decimal number of degrees
latitude, followed by the suffix N or S, followed by a colon, followed
by a decimal number of degrees longitude, followed by the suffix E or
W. The numbers may have fractional parts to the right of a decimal
point. This option may be unavailable if the daemon was compiled
without TripMate or EarthMate support.
-n
Don't wait for a client to connect before polling
the GPS. The wait is a feature; many serial GPSes go to a standby
mode (not drawing power) before the host machine asserts DTR, so
waiting for the first actual request can save valuable battery power
on portable equipment. This option combines well with -D2 to enable
monitoring of the GPS data stream.
-N
Don't daemonize; run in foreground. Mainly useful
for debugging.
-h
Display help message and terminate.
-P
Specify the name and path to record the daemon's process ID.
-D
Set debug level. At debug levels 2 and above,
gpsd stays in foreground and reports
incoming sentence and actions to standard error.
-v
Dump version and exit.
The request protocol for gpsd clients is very simple. Each
request consists of a single ASCII character followed by a newline.
Case of the request character is ignored, Each request returns a line
of response text ended by a CR/LF. Requests and responses are as
follows, with %f standing for a decimal float numeral and %d for
decimal integer numeral:
a
The current altitude as "A=%f", meters above mean sea level.
b
Returns four fields giving the parameters of the
serial link to the GPS as "B=%d %d %c %d"; baud rate, byte size,
parity, (currently always N) and stop bits (1 or 2). Useful mainly
for developers profiling the daemon.
c
Returns, as "C=%d", the cycle time of updates
in seconds.
d
Returns the UTC time in the ISO 8601 format,
"D=yyyy-mm-ddThh:nmm:ss.ssZ". Digits of precision in the fractional-seconds
part will vary and may be zero.
l
Returns three fields: a protocol revision number,
the gpsd version, and a list of accepted request letters.
m
The gps mode as "M=%d". 0=no mode value yet seen,
1=no fix, 2=2D (no altitude), 3=3D (with altitude).
p
Returns the current position in the form "P=%f %f";
numbers are in degrees, latitude first.
q
Returns "Q=%d %f %f %f": a count of satellites used in the last
fix, and three estimated position errors in meters — position,
horizontal, and vertical.
r
Sets or toggles 'raw' mode. Return "R=0" or "R=1". In
raw mode you read the NMEA data stream from the GPS. (Non-NMEA GPSes
get their communication format translated to NMEA on the fly.) The
command 'r' immediately followed by the digit '1' or the plus sign '+'
sets raw mode. The command 'r' followed by the digit '0' or the minus
sign '-' clears raw mode. The command 'r' with neither suffix toggles
raw mode.
s
The gps status as "S=%d". 0=no fix, 1=fix,
2=DGPS-corrected fix.
t
Track made good; course "T=%f" in degrees from true north.
v
The current speed as "V=%f" in knots.
w
Sets or toggles 'watcher' mode (see the descroiption
below). Return "W=0" or "W=1".The command 'w' immediately followed by
the digit '1' or the plus sign '+' sets watcher mode. The command 'w'
followed by the digit '0' or the minus sign '-' clears watcher mode.
The command 'w' with neither suffix toggles watcher
mode.
x
Returns "X=1" if the GPS is online, "X=0" if
not.
y
Returns Y= followed by a count not more than 12, followed by
that many quintuples of satellite PRNs, elevation/azimuth pairs
(elevation an integer formatted as %d in range 0-90, azimuth an
integer formatted as %d in range 0-359), signal strengths in
decibels, and 1 or 0 according as the satellite was or was
not used in the last fix. Each number is followed by one space.
Note that a response consisting of just ? following the =
means that there is no valid data available.
Requests can be concatenated and sent as a string; gpsd will then
respond with a comma-separated list of replies.
Every gpsd reply will start with the string "GPSD" followed by
the replies. Examples:
query: "p\n"
reply: "GPSD,P=36.000000 123.000000\r\n"
query: "d\n"
reply: "GPSD,D=2002-11-16T02:45:05.12Z\r\n"
query: "va\n"
reply: "GPSD,V=0.000000,A=37.900000\r\n"
When clients are active but the GPS is not responding, gpsd will spin
trying to open the GPS device once per second. Thus, it can be left
running in background and survive having the GPS repeatedly unplugged
and plugged back in.
The recommended mode for clients is watcher mode. In watcher
mode gpsd ships a line of data to the
client each time the the GPS sends a sentence, but rather than being
raw NMEA the line is a gpsd response as if the user had just sent some
set of gpsd commands. That set of commands is the minimum for which
the incoming sentence is relevant — e.g., a GPRMC sentence ships
a "pvs" response because it contains position, velocity and GPS status
data. Additionally, watching clients get notifications in the form
X=0 or X=1 when the online/offline status of the GPS changes.
Sending SIGHUP to a running gpsd
forces it to close the GPS and all client connections. It will then
attempt to reconnect to the GPS and resume listening for client
connections. This may be useful if your GPS enters a wedged or
confused state but can be soft-reset by pulling down DTR.
xgps
xgps is a simple test client for
gpsd with an X interface. It displays
current GPS animation and (for GPSes that support the feature) the
locations of accessible satellites.
xgps accepts an -h option as for
gpsd, or a -v option to dump the package
version and exit. An optional argument may specify an
server to get data from; a colon-separated suffix is taken as a port
number. The misfeature of previous versions that allowed it to
direct-connect to the serial device has been removed.
The --speedunits option can be used to set the speed units for
display; follow the keyword with knots for nautical miles per hour,
kph for kilometres per hour, or mph for miles per hour. The default
is miles per hour. This option can also be set as the X resource
'speedunits'.
The --altunits option can be used to set the altitude units for
display; follow the keyword with 'meters' or 'feet'. The default
is feet. This option can also be set as the X resource 'altunits'.
xgpsspeed
xgpsspeed is a speedometer that uses
position information from the GPS. It accepts an -h option and
optional argument as for gps, or a -v
option to dump the package version and exit. Additionally, it accepts
-rv (reverse video) and -nc (needle color) options.
The --speedunits option can be used to set the speed units for
display; follow the keyword with knots for nautical miles per hour,
kph for kilometres per hour, or mph for miles per hour. The default
is miles per hour. This option can also be set as the X resource
'speedunits'.
LIMITATIONS
There is a limitation in the accuracy of
gpsd-using applications that stems from the
fact that gpsd waits passively for updates
from the sensor rather than actively polling for them (which can't be
done in a device-independent way). Most GPSes ship updates just once
per second. At 50km/h (31mi/h) that's 13.8 meters change in position
between updates. This is good enough if you're on foot or in a car
but not good enough for aviation applications.
APPLICABLE STANDARDS
The official NMEA protocol standard is available on paper from
the National Marine
Electronics Association. A description of the protocol is
available
on the Web. gpsd parses the following NMEA sentences: GPRMC,
GPGLL, GPVTG, GPGGA, GPGSA, GPGSV. Note that gpsd returns pure
decimal degrees, not the hybrid degree/minute format described in the
NMEA standard.
The Rockwell protocol is described as an addendum on this page about
NMEA.
SEE ALSO
libgps3
libgpsd3
gpsprobe1
gpsprof1
gpsfake1
AUTHORS
Remco Treffcorn, Derrick Brashear, Russ Nelson, Eric S. Raymond.
This manual page by Eric S. Raymond esr@thyrsus.com.
There is a project page, with xgps
screenshots, here.