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I'm trying to write a very simple python client for Gpsd, but I have this error after some time of execute the script:

Traceback (most recent call last):
 File "gps_cap.py", line 13, in <module>
 File "/usr/lib/python2.6/site-packages/gps/gps.py", line 348, in stream
   gpsjson.stream(self, flags)
 File "/usr/lib/python2.6/site-packages/gps/client.py", line 176, in stream
   return self.send(arg + "}")
 File "/usr/lib/python2.6/site-packages/gps/client.py", line 111, in send
socket.error: [Errno 104] Connection reset by peer

and this is my python code:

import os
from gps import *
from time import *

g = gps(mode=WATCH_ENABLE)
while 1:
       if PACKET_SET:

       print ' GPS reading'
       print '----------------------------------------'
       print 'latitude    ' , g.fix.latitude
       print 'longitude   ' , g.fix.longitude
       print 'time utc    ' , g.utc,' + ', g.fix.time
       print 'altitude    ' , g.fix.altitude
       print 'epc         ' , g.fix.epc
       print 'epd         ' , g.fix.epd
       print 'eps         ' , g.fix.eps
       print 'epx         ' , g.fix.epx
       print 'epv         ' , g.fix.epv
       print 'ept         ' , g.fix.ept
       print 'speed       ' , g.fix.speed
       print 'climb       ' , g.fix.climb
       print 'track       ' , g.fix.track
       print 'mode        ' , g.fix.mode
       print 'sats        ' , g.satellites


Maybe anyone can help with this issue? I'm runnig Gpsd 2.95 in a ArchLinux box.


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3 Answers 3

I would put some money on this snippit from the gpsd how to page; also, thanks for the bootstrap code.


If you’re a clever sort, you’re already wondering what the daemon does if the application at the other end of the client socket doesn’t read data out of it as fast as gpsd is shipping it upwards. And the answer is this: eventually the socket buffer fills up, a write from the daemon throws an error, and the daemon shuts down that client socket.

As long as your application checks for and reads socket data no less often than once a second, you won’t — and a second is a lot of time in which to come back around your main loop.

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I know this question is pretty old but i still drop my answer here in case someone needs it in the future:

#! /usr/bin/python
# Written by Dan Mandle http://dan.mandle.me September 2012
# License: GPL 2.0 
import os
from gps import *
from time import *
import time
import threading

gpsd = None #seting the global variable

os.system('clear') #clear the terminal (optional)

class GpsPoller(threading.Thread):
  def __init__(self):
    global gpsd #bring it in scope
    gpsd = gps(mode=WATCH_ENABLE) #starting the stream of info
    self.current_value = None
    self.running = True #setting the thread running to true

  def run(self):
    global gpsd
    while gpsp.running:
      gpsd.next() #this will continue to loop and grab EACH set of gpsd info to clear the buffer

if __name__ == '__main__':
  gpsp = GpsPoller() # create the thread
    gpsp.start() # start it up
    while True:
      #It may take a second or two to get good data
      #print gpsd.fix.latitude,', ',gpsd.fix.longitude,'  Time: ',gpsd.utc


      print ' GPS reading'
      print '----------------------------------------'
      print 'latitude    ' , gpsd.fix.latitude
      print 'longitude   ' , gpsd.fix.longitude
      print 'time utc    ' , gpsd.utc,' + ', gpsd.fix.time
      print 'altitude (m)' , gpsd.fix.altitude
      print 'eps         ' , gpsd.fix.eps
      print 'epx         ' , gpsd.fix.epx
      print 'epv         ' , gpsd.fix.epv
      print 'ept         ' , gpsd.fix.ept
      print 'speed (m/s) ' , gpsd.fix.speed
      print 'climb       ' , gpsd.fix.climb
      print 'track       ' , gpsd.fix.track
      print 'mode        ' , gpsd.fix.mode
      print 'sats        ' , gpsd.satellites

      time.sleep(5) #set to whatever

  except (KeyboardInterrupt, SystemExit): #when you press ctrl+c
    print "\nKilling Thread..."
    gpsp.running = False
    gpsp.join() # wait for the thread to finish what it's doing
  print "Done.\nExiting."

This code work with thread and will give out a nice output of gpsd data to the screen. It can be terminated with Ctrl + C.

All credits go to http://www.danmandle.com/blog/getting-gpsd-to-work-with-python/

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Please be so kind as to provide some general description of this code and its functioning here. It would improve the quality of your answer. –  Kris Jul 27 '14 at 10:25
@Kris: Edited,i have included some brief descriptions in the code. Thanks for your suggestion, i will try to be more detailed in my next answers. Hopefully my edit and the comments in the code will be enough for someone in need in the future. Thanks again :) –  codenameLxL Jul 27 '14 at 10:35

To keep an old question alive, pasted below is the current state of GPS3, a Python 2.7-3.4 gpsd client found at https://github.com/wadda/gps3.

GPS3 has two components; the get-the-data class, and the make-it-handy class.

GPSD delivers JSON data in a number of 'classes', TPV, SKY, etc. After connecting to the GPSD, GPS3 unpacks those JSON objects into dictionaries (Fix.TPV['lat'], Fix.SKY['satellites'], etc.)

Common use would create an instance, e.g., fix = gps3.Fix(), and all available data would be derived from the name of the native JSON object (e.g., fix.TPV['speed'], fix.TPV['alt'], etc.)

Confer usage with a demo application gegps3.py which creates a kml file (/tmp/gps3_live.kml) to be viewed in Google Earth.

#!/usr/bin/env python3
# coding=utf-8
"""Python( 2.7 - 3.4 ) interface to gpsd """
from __future__ import print_function
from datetime import datetime
import socket
import select
import time
import sys
import json

__author__ = 'Moe'
__copyright__ = "Copyright 2015  Moe"  # nihil sub sole novum.  Everything learned/adapted from somewhere else.
__license__ = "MIT"  # Don't forget. Don't abused. Pass it along. TODO: figure the rest out, jot and tittle.
__version__ = "0.1a"

GPSD_PORT = 2947
HOST = ""
PROTOCOL = 'json'

class GPSDSocket(object):
    """Isolate socket handling"""

    def __init__(self, host=HOST, port=GPSD_PORT, gpsd_protocol=PROTOCOL, devicepath=None, verbose=False):
        self.devicepath_alternate = devicepath
        # self.output = {}  # TODO: an attribute by itself decision, essentially raw socket JSON unless it's not;-)
        self.response = None
        self.protocol = gpsd_protocol  # What form of data to retrieve from gpsd  TODO: can it handle multiple?
        self.streamSock = None  # Existential
        self.verbose = verbose

        if host:
            self.connect(host, port)  # No host/port will fail here

    def connect(self, host, port):
        """Connect to a host on a given port. """
        for alotta_stuff in socket.getaddrinfo(host, port, 0, socket.SOCK_STREAM):  # Default parameters
            family, socktype, proto, _canonname, host_port = alotta_stuff
                self.streamSock = socket.socket(family, socktype, proto)
                if self.verbose:
                    print('Connecting to gpsd at {0} on port \'{1}\','.format(host, port))
                    print('and will be watching ', self.protocol, ' protocol')

            except OSError as error:
                sys.stderr.write('\nGPSDSocket.connect OSError is-->', error)
                sys.stderr.write('\nAttempt to connect to a gpsd at {0} on port \'{1}\' failed:\n'.format(host, port))
                sys.stderr.write('Please, check your number and dial again.\n')
                sys.exit(1)  # TODO: gpsd existence check and start


    def watch(self, enable=True, gpsd_protocol='json', devicepath=None):
        """watch gpsd in various gpsd_protocols or devices.  The gpsd_protocols could be: 'json', 'nmea', 'rare', 'raw',
        'scaled', 'timing', 'split24', and 'pps'; with option for non-default device path"""
        command = '?WATCH={{"enable":true,"{0}":true}}'.format(gpsd_protocol)
        # TODO: does 'timing' need to be worked in like 'devicepath'? cf. gpsprof from gpsd project
        if gpsd_protocol == 'human':
            command = command.replace('human', 'json')
        if gpsd_protocol == 'rare':
            command = command.replace('"rare":true', '"raw":1')
        if gpsd_protocol == 'raw':
            command = command.replace('"raw":true', '"raw",2')
        if not enable:
            command = command.replace('true', 'false')
        if devicepath:
            command = command.replace('}', ',"device":"') + devicepath + '"}'  # TODO: can it handle multiple?
        # TODO: add scaled, split24, pps, ais, and rtcm2/3, etc..
        return self.send(command)

    def send(self, commands):
        """Ship commands to the daemon"""
        # session.send("?POLL;")  # TODO: Figure a way to work this in.
        # The POLL command requests data from the last-seen fixes on all active GPS devices.
        # Devices must previously have been activated by ?WATCH to be pollable.
        if sys.version_info[0] < 3:  # Not less than 3, but 'broken hearted' because
            self.streamSock.send(commands)  # 2.7 chokes on 'bytes' and 'encoding='
            self.streamSock.send(bytes(commands, encoding='utf-8'))  # It craps out here when there is no daemon running
            # TODO: Add recovery, check gpsd existence, re/start, etc..

    def __iter__(self):
        """banana"""  # <------- for scale
        return self

    def next(self, timeout=0):
        """Return empty unless new data is ready for the client.  Will sit and wait for timeout seconds"""
            (waitin, _waitout, _waiterror) = select.select((self.streamSock,), (), (), timeout)
            # poll.register(self.streamSock, POLLIN)  # Could be faster than this method, but is it necessary to change?
            if not waitin:
                gpsd_response = self.streamSock.makefile()  # was '.makefile(buffering=4096)' In strictly Python3
                self.response = gpsd_response.readline()  # When does this fail?

            return self.response  # No, seriously; when does this fail?

        except OSError as error:
            sys.stderr.write('The readline OSError in GPSDSocket.next is this: ', error)
            return  # TODO: means to recover from error, except it is an error of unknown etiology or frequency. Good luck.

    __next__ = next  # Workaround for changes in iterating between Python 2.7 and 3.4

    def close(self):
        """turn off stream and close socket"""
        if self.streamSock:
        self.streamSock = None

class Fix(object):
    """Retrieves JSON Object from GPSDSocket unpacking it into respective gpsd 'class' dictionaries, TPV, SKY, etc."""

    def __init__(self):
        """Sets of potential data packages from a device through gpsd, as generator of class attribute dictionaries"""
        version = {"release", "rev", "proto_major", "proto_minor", "remote"}
        tpv = {"tag", "device", "mode", "time", "ept", "lat", "lon", "alt",
               "track", "speed", "climb", "epx", "epy", "epv", "epd", "eps", "epc"}
        sky = {"gdop", "hdop", "pdop", "tdop", "vdop", "xdop", "ydop", "satellites"}
        gst = {"device", "time", "rms", "major", "minor", "orient", "lat", "lon", "alt"}
        att = {"device", "time", "heading", "mag_st", "pitch", "pitch_st", "yaw", "yaw_st",
               "roll", "roll_st", "dip", "mag_len", "mag_x", "mag_y", "mag_z", "acc_len",
               "acc_x", "acc_y", "acc_z", "gyro_x", "gyro_y", "depth", "temperature"}  # TODO: Check Device flags
        pps = {"device", "real_sec", "real_nsec", "clock_sec", "clock_nsec"}
        device = {"path", "activated", "flags", "driver", "bps", "parity", "stopbits",
                  "subtype", "native", "cycle", "mincycle"}  # TODO: Check Device flags
        poll = {"time", "active", "fixes", "skyviews"}
        devices = {"devices", "remote"}
        # ais = {}  # see: http://catb.org/gpsd/AIVDM.html
        error = {"message"}

        # The thought was a quick repository for stripped down versions, to add/subtract' module data packets'
        packages = {"VERSION": version, "TPV": tpv, "SKY": sky, "ERROR": error}  # "DEVICES": devices, "GST": gst, etc.
        # TODO: Create the full suite of possible JSON objects and a better way for deal with subsets
        for package_name, datalist in packages.items():
            _emptydict = {key: 'n/a' for (key) in datalist}  # There is a case for using None instead of 'n/a'
            setattr(self, package_name, _emptydict)
        self.SKY['satellites'] = [{'PRN': 'n/a', 'ss': 'n/a', 'el': 'n/a', 'az': 'n/a', 'used': 'n/a'}]

    def refresh(self, gpsd_data_package):
        """Sets new socket data as Fix attributes"""
        try:  # 'class', a reserved word is popped to allow, if desired, 'setattr(package_name, key, a_package[key])'
            fresh_data = json.loads(gpsd_data_package)  # error is named "ERROR" the same as the gpsd data package
            package_name = fresh_data.pop('class', 'ERROR')  # If error, return 'ERROR' except if it happened, it
            a_package = getattr(self, package_name, package_name)  # should have been too broken to get to this point.
            for key in a_package.keys():  # Iterate attribute package  TODO: It craps out here when device disappears
                a_package[key] = fresh_data.get(key, 'n/a')  # that is, update it, and if key is absent in the socket
                                                                # response, present --> "key: 'n/a'" instead.'
        except (ValueError, KeyError) as error:  # This should not happen, most likely why it's an exception.  But, it
            sys.stderr.write('There was a Value/KeyError at GPSDSocket.refresh: ', error,
                             '\nThis should never happen.')  # happened once.  But I've no idea aside from it broke.

    def satellites_used(self):  # Should this be ancillary to this class, or even included?
        total_satellites = 0
        used_satellites = 0
        for sats in self.SKY['satellites']:
            if sats['used'] is 'n/a':
                return 0, 0
            used = sats['used']
            total_satellites += 1
            if used:
                used_satellites += 1

        return total_satellites, used_satellites

    def make_datetime(self):  # Should this be ancillary to this class, or even included?
        """Creates timezone -naive- datetime object from gpsd data"""
        if 'n/a' not in self.TPV['time']:
            gps_datetime_object = (datetime.strptime(self.TPV['time'], "%Y-%m-%dT%H:%M:%S.%fZ"))
        else:  # shouldn't break anything, but return wrong Time, when IT, PO, ES, and PT switch to gregorian calendar
            gps_datetime_object = datetime.strptime('1582-10-04T12:00:00.000Z', "%Y-%m-%dT%H:%M:%S.%fZ")  # to the sec.

        return gps_datetime_object

if __name__ == '__main__':
    import argparse

    parser = argparse.ArgumentParser()  # TODO: beautify and idiot-proof makeover to prevent clash from options error
    # Defaults from the command line
    parser.add_argument('-human', dest='gpsd_protocol', const='human', action='store_const', default='human', help='DEFAULT Human Friendlier ')
    parser.add_argument('-host', action='store', dest='host', default='', help='DEFAULT ""')
    parser.add_argument('-port', action='store', dest='port', default='2947', help='DEFAULT 2947', type=int)
    parser.add_argument('-metric', dest='units', const='metric', action='store_const', default='metric', help='DEFAULT METRIC units')
    parser.add_argument('-ddd', dest='latlon_format', const='ddd', action='store_const', default=None, help='Degree decimal')
    parser.add_argument('-dmm', dest='latlon_format', const='dmm', action='store_const', default=None, help='Degree, Minute decimal')
    parser.add_argument('-dms', dest='latlon_format', const='dms', action='store_const', default=None, help='Degree, Minute, Second decimal')
    # Verbose
    parser.add_argument("-verbose", action="store_true", default=False, help="increases verbosity, but not that much")
    # Alternate devicepath
    parser.add_argument('-device', dest='devicepath', action='store', help='alternate devicepath e.g.,"/dev/ttyUSB4"')
    parser.add_argument('-json', dest='gpsd_protocol', const='json', action='store_const', help='/* output as JSON objects */')
    parser.add_argument('-nautical', dest='units', const='nautical', action='store_const', help='/* output in NAUTICAL units */')
    parser.add_argument('-imperial', dest='units', const='imperial', action='store_const', help='/* output in IMPERIAL units */')
    # Work/storage shed, and heap.
    parser.add_argument('-nmea', dest='gpsd_protocol', const='nmea', action='store_const', help='/* output in NMEA */')
    parser.add_argument('-rare', dest='gpsd_protocol', const='rare', action='store_const', help='/* output of packets in hex */')
    parser.add_argument('-raw', dest='gpsd_protocol', const='raw', action='store_const', help='/* output of raw packets */')
    parser.add_argument('-scaled', dest='gpsd_protocol', const='scaled', action='store_const', help='/* scale output to floats */')
    parser.add_argument('-timimg', dest='gpsd_protocol', const='timing', action='store_const', help='/* timing information */')
    parser.add_argument('-split24', dest='gpsd_protocol', const='split24', action='store_const', help='/* split AIS Type 24s */')
    parser.add_argument('-pps', dest='gpsd_protocol', const='pps', action='store_const', help='/* enable PPS JSON */')

    args = parser.parse_args()
    session = GPSDSocket(args.host, args.port, args.gpsd_protocol, args.devicepath, args.verbose)  # The setup
    fix = Fix()

    if args.verbose:
        print("verbose is in chatty mode")
        print('The command line arguments are: ', args)

    try:  # TODO: Tidy up for other protocols run on commandline
        for socket_response in session:
            if socket_response is None:
                print('Socket response is: \'None\' Do you know why?')
            elif socket_response and args.gpsd_protocol is 'human':  # Output for humans because it's the command line.
                print('{:^45}'.format('This gps3 interface is using Python {}.{}.{}'.format(*sys.version_info)))  # Flagpole kludge
                print('Connected to a gpsd on host {0.host}, port {0.port}.'.format(args))
                print('It reports a device at {}\n'.format(fix.TPV['device']))

                print('{:^55}'.format("Iterated Satellite Data"))
                for sats in fix.SKY['satellites'][0:10]:
                    print('      Sat {PRN:->3}: Signal: {ss:>2}  {el:>2}:el-az:{az:<3}  Used: {used}'.format(**sats))
                print('  Using {0[1]} of {0[0]} satellites in view (truncated list) providing \n'.format(fix.satellites_used()))

                print('Error estimate - epx:{epx}, epy:{epy}, epv:{epv} in metres'.format(**fix.TPV))
                print('Device coordinates- Latitude:{lat:0<11}  Longitude: {lon:0<12}'.format(**fix.TPV))
                print('Speed: {speed} metres/second tracking {track} degrees from True North'.format(**fix.TPV))
                print('Altitude: {} metres; etc.  All data is the respective gpsd \'class\'[key]'.format(fix.TPV['alt']))
                print('Via: session = GPSDSocket() and fix =  Fix() e.g., fix.TPV[\'time\'], yielding')
                print(fix.make_datetime(), 'UTC, a naive Datetime Object derived from that time string')

                print('Socket Response is:', socket_response)  # Output Nones and other protocols

            time.sleep(.9)  # to keep from spinning silly.

    except KeyboardInterrupt:
        print("Keyboard interrupt received\nTerminated by user\nGood Bye.\n")
# Someday a cleaner Python interface will live here
# End
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