From 52a27d71f19563a40270b25ac1d127529e0a2360 Mon Sep 17 00:00:00 2001
From: "Gary E. Miller" <gem@rellim.com>
Date: Mon, 24 Sep 2018 15:21:42 -0700
Subject: ubxtool/zerk: install these two programs by default.

---
 contrib/ubxtool | 2377 -------------------------------------------------------
 contrib/zerk    | 1896 --------------------------------------------
 2 files changed, 4273 deletions(-)
 delete mode 100755 contrib/ubxtool
 delete mode 100755 contrib/zerk

(limited to 'contrib')

diff --git a/contrib/ubxtool b/contrib/ubxtool
deleted file mode 100755
index b8c80e95..00000000
--- a/contrib/ubxtool
+++ /dev/null
@@ -1,2377 +0,0 @@
-#!/usr/bin/env python
-# -*- coding: UTF-8
-'''
-ubxtool -- u-blox configurator and packet decoder
-
-usage: ubxtool [OPTIONS] [server[:port[:device]]]
-'''
-
-# This file is Copyright (c) 2018 by the GPSD project
-# BSD terms apply: see the file COPYING in the distribution root for details.
-#
-# This code runs compatibly under Python 2 and 3.x for x >= 2.
-# Preserve this property!
-#
-# ENVIRONMENT:
-#    Options in the UBXOPTS environment variable will be parsed before
-#    the CLI options.  A handy place to put your '-f /dev/ttyXX -s SPEED'
-#
-# To see what constellations are enabled:
-#       ubxtool -p GNSS -f /dev/ttyXX
-#
-# To disable GALILEO and enable GALILEO:
-#       ubxtool -d GLONASS -f /dev/ttyXX
-#       ubxtool -e GALILEO -f /dev/ttyXX
-#
-# To read GPS messages a log file:
-#       ubxtool -v 2 -f test/daemon/ublox-neo-m8n.log
-
-from __future__ import absolute_import, print_function, division
-
-import binascii      # for binascii.hexlify()
-import getopt        # for getopt.getopt(), to parse CLI options
-import os            # for os.environ
-import socket        # for socket.error
-import stat          # for stat.S_ISBLK()
-import struct        # for pack()
-import sys
-import time
-
-PROG_NAME = 'ubxtool'
-
-try:
-    import serial
-except ImportError:
-    # treat serial as special since it is not part of standard Python
-    sys.stderr.write("%s: failed to import pyserial\n" % PROG_NAME)
-    sys.exit(2)
-
-try:
-    import gps
-except ImportError:
-    # PEP8 says local imports last
-    sys.stderr.write("%s: failed to import gps, check PYTHON_PATH\n" %
-                     PROG_NAME)
-    sys.exit(2)
-
-gps_version = '3.18-dev'
-if gps.__version__ != gps_version:
-    sys.stderr.write("%s: ERROR: need gps module version %s, got %s\n" %
-                     (PROG_NAME, gps_version, gps.__version__))
-    sys.exit(1)
-
-
-VERB_QUIET = 0   # quiet
-VERB_NONE = 1    # just output requested data and some info
-VERB_DECODE = 2  # decode all messages
-VERB_INFO = 3    # more info
-VERB_RAW = 4     # raw info
-VERB_PROG = 5    # program trace
-
-# dictionary to hold all user options
-opts = {
-    # command to send to GPS, -c
-    'command': None,
-    # command for -d disable
-    'disable': None,
-    # command for -e enable
-    'enable': None,
-    # default input -f file
-    'input_file_name': None,
-    # default forced wait? -W
-    'input_forced_wait': False,
-    # default port speed -s
-    'input_speed': 9600,
-    # default input wait time -w in seconds
-    'input_wait': 2.0,
-    # optional mode to -p P
-    'mode': None,
-    # the name of an OAF file, extension .jpo
-    'oaf_name': None,
-    # poll command -p
-    'poll': None,
-    # raw log file name
-    'raw_file': None,
-    # open port read only -r
-    'read_only': False,
-    # speed to set GPS -S
-    'set_speed': None,
-    # target gpsd (server:port:device) to connect to
-    'target': {"server": None, "port": gps.GPSD_PORT, "device": None},
-    # verbosity level, -v
-    'verbosity': VERB_NONE,
-    # contents of environment variable UBXOPTS
-    'progopts': '',
-}
-
-
-class ubx(object):
-    "class to hold u-blox stuff"
-
-    # when a statement identifier is received, it is stored here
-    last_statement_identifier = None
-    # expected statement identifier.
-    expect_statement_identifier = False
-
-    def __init__(self):
-        pass
-
-    # allowable speeds
-    speeds = (460800, 230400, 153600, 115200, 57600, 38400, 19200, 9600,
-              4800, 2400, 1200, 600, 300)
-
-    # UBX Satellite Numbering
-    gnss_id = {0: 'GPS',
-               1: 'SBAS',
-               2: 'Galileo',
-               3: 'BeiDou',
-               4: 'IMES',
-               5: 'QZSS',
-               6: 'GLONASS'}
-
-    def ack_ack(self, buf):
-        "UBX-ACK-ACK decode"
-        m_len = len(buf)
-        if 2 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BB', buf, 0)
-        return ' ACK to: %s' % self.class_id_s(u[0], u[1])
-
-    ack_ids = {0: {'str': 'NAK', 'dec': ack_ack, 'name': 'UBX-ACK-NAK'},
-               1: {'str': 'ACK', 'dec': ack_ack, 'name': 'UBX-ACK-ACK'}}
-
-    def cfg_ant(self, buf):
-        "UBX-CFG-ANT decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return "Poll request all"
-
-        if 4 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<HH', buf, 0)
-        s = ' flags: %#x pins: %#x (' % u
-        if u[0] & 0x1:
-            s += 'svcs '
-        if u[0] & 0x2:
-            s += 'scd '
-        if u[0] & 0x4:
-            s += 'ocd '
-        if u[0] & 0x8:
-            s += 'pdwnOnSCD '
-        if u[0] & 0x10:
-            s += 'recovery '
-        s += (')\n pinSwitch: %d, pinSCD: %d, pinOCD: %d reconfig: %d\n' %
-              (u[1] & 0x1f, (u[1] >> 5) & 0x1f, (u[1] >> 10) & 0x1f,
-               u[1] >> 15))
-        return s
-
-    def cfg_cfg_mask(self, mask):
-        "decode Mask in UBX-CFG-CFG, return string"
-        s = ''
-        if mask & 0x1:
-            s += 'ioPort '
-        if mask & 0x2:
-            s += 'msgConf '
-        if mask & 0x4:
-            s += 'infMsg '
-        if mask & 0x8:
-            s += 'navConf '
-        if mask & 0x10:
-            s += 'rxmConf '
-        if mask & 0x80:
-            # not on M8030
-            s += 'senConf '
-        if mask & 0x100:
-            s += 'rinvConf '
-        if mask & 0x200:
-            s += 'antConf '
-        if mask & 0x800:
-            s += 'logConf '
-        if mask & 0x1000:
-            s += 'ftsConf '
-
-        return s
-
-    def cfg_cfg(self, buf):
-        "UBX-CFG-CFG decode"
-        m_len = len(buf)
-        if 12 > m_len:
-            return "Bad Length %s" % m_len
-
-        if 12 == m_len:
-            u = struct.unpack_from('<LLL', buf, 0)
-        else:
-            u = struct.unpack_from('<LLLB', buf, 0)
-
-        s = ' clearMask: %#x (%s)\n' % (u[0], self.cfg_cfg_mask(u[0]))
-        s += (' saveMask: %#x (%s)\n' %
-              (u[1], self.cfg_cfg_mask(u[1])))
-        s += (' loadMask: %#x (%s)\n' %
-              (u[2], self.cfg_cfg_mask(u[2])))
-
-        if 13 <= m_len:
-            bit_str = ''
-            if u[3] & 0x1:
-                bit_str += 'devBBR '
-            if u[3] & 0x2:
-                bit_str += 'devFlash '
-            if u[3] & 0x4:
-                bit_str += 'devEEPROM '
-            if u[3] & 0x10:
-                bit_str += 'devSpiFlash '
-
-            s += (' deviceMask: %#x (%s)\n' % (u[3], bit_str))
-
-        return s
-
-    def cfg_gnss(self, buf):
-        "UBX-CFG-GNSS decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return "Poll request"
-
-        if m_len < 4:
-            return "Bad Length %d" % m_len
-
-        u = struct.unpack_from('<BBBB', buf, 0)
-        s = " Ver: %u ChHw; %x ChUse: %x, Blocks: %x" % u
-        num_blocks = u[3]
-        i = 0
-        while i < num_blocks:
-            u = struct.unpack_from('<BBBBBBBB', buf, 4 + (i*8))
-            sat = u[0]
-            if u[0] in self.gnss_id:
-                s_sat = self.gnss_id[u[0]]
-            else:
-                s_sat = u[0]
-            s += ("\n gnssId: %s TrkCh: %d maxTrCh: %d,"
-                  " Flags: %#02x %02x %02x %02x" %
-                  (s_sat, u[1], u[2], u[7], u[6], u[5], u[4]))
-            if sat in (0, 1):
-                # gps, sbas
-                if u[6] & 0x1:
-                    s += '\n  L1C/A'
-            if 2 == sat:
-                # Galileo
-                if u[6] & 0x1:
-                    s += '\n  E1OS'
-            if 3 == sat:
-                # BeiDou
-                if u[6] & 0x1:
-                    s += '\n  B1I'
-            if 4 == sat:
-                # IMES
-                if u[6] & 0x1:
-                    s += '\n  L1'
-            if 5 == sat:
-                # QZSS
-                if u[6] & 0x5:
-                    s += '\n'
-                    if u[6] & 0x1:
-                        s += '  L1C/A'
-                    if u[6] & 0x4:
-                        s += '  L1SAIF'
-            if 6 == sat:
-                # Glonass
-                if u[6] & 0x1:
-                    s += '\n  L1OF'
-            if u[4] & 0x01:
-                s += ' enabled'
-
-            i += 1
-        return s
-
-    def cfg_nav5(self, buf):
-        "UBX-CFG-NAV5 nav Engine Settings"
-        m_len = len(buf)
-        if 36 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<HBBlLbBHHHHbbbbHHb', buf, 0)
-        s = (' mask %#x dynModel %u fixmode %d fixedAlt %d FixedAltVar %u\n'
-             ' minElev %d drLimit %u pDop %u tDop %u pAcc %u tAcc %u\n'
-             ' staticHoldThresh %u dgpsTimeOut %u cnoThreshNumSVs %u\n'
-             ' cnoThresh %u res %u staticHoldMacDist %u utcStandard %u' % u)
-        return s
-
-    def cfg_msg(self, buf):
-        "UBX-CFG-MSG decode "
-        m_len = len(buf)
-        if 2 == m_len:
-            u = struct.unpack_from('<BB', buf, 0)
-            return ' Rate request: %s' % self.class_id_s(u[0], u[1])
-
-        if 3 == m_len:
-            u = struct.unpack_from('<BBB', buf, 0)
-            return (' Rate set: %s Rate:%d' %
-                    (self.class_id_s(u[0], u[1]), u[2]))
-
-        if 8 != m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBBBBBBB', buf, 0)
-        s = (' %s Rates: %u %u %u %u %u %u' %
-             (self.class_id_s(u[0], u[1]), u[2], u[3], u[4], u[5], u[6], u[7]))
-        return s
-
-    def cfg_pms(self, buf):
-        "UBX-CFG-PMS decode, Power Mode Setup"
-
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 8 > m_len:
-            return "Bad Length %s" % m_len
-
-        values = {0: "Full power",
-                  1: "Balanced",
-                  2: "Interval",
-                  3: "Aggresive with 1Hz",
-                  4: "Aggresive with 2Hz",
-                  5: "Aggresive with 4Hz",
-                  0xff: "Invalid"
-                  }
-        u = struct.unpack_from('<BBHHBB', buf, 0)
-        s = (' version: %u powerSetupValue: %u'
-             ' period: %u onTime: %#x reserved1[%u %u]' % u)
-        if u[0] in values:
-            s += "\n   powerSetupValue: %s" % values[u[0]]
-
-        return s
-
-    def cfg_prt(self, buf):
-        "UBX-CFG-PRT decode"
-
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 1 == m_len:
-            return " Poll request PortID %d" % buf[0]
-
-        if 20 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBHLLHHH', buf, 0)
-        s = (' PortID: %u reserved1 %u\n'
-             '  txReady: %#x mode: %#x baudRate: %u inProtoMask: %#x'
-             ' outProtoMask: %#x\n flags: %#x' % u)
-        return s
-
-    def cfg_sbas(self, buf):
-        "UBX-CFG-SBAS decode"
-
-        m_len = len(buf)
-        if 8 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBBBL', buf, 0)
-        return (' mode: %#x usage: %#x maxSBAS: %u scanMode2: %#x'
-                ' scanMode1: %#x' % u)
-
-    def cfg_tmode2(self, buf):
-        "UBX-CFG-TMODE2 decode, Time Mode Settings 2"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 28 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBHlllLLL', buf, 0)
-        s = (' timeMode: %u reserved1: %u  usage: %#x\n'
-             '  ecefXOrLat: %d ecefYOrLon: %d ecefZOrLon: %d\n'
-             '  fixeedPosAcc %u svinMinDur %u svinAccLimit %u\n' % u)
-        return s
-
-    def cfg_tp5(self, buf):
-        "UBX-CFG-TP5 decode, Time Pulse Parameters"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request tpIdx 0"
-
-        if 1 == m_len:
-            return " Poll request tpIdx %d" % buf[0]
-
-        if 32 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBhhhLLLLLL', buf, 0)
-        s = ('tpIdx: %u, version: %u reserved1[%u %u]\n'
-             ' antCableDelay: %u rfGroupDelay %u freqPeriod: %u '
-             'freqPeriod %u\n'
-             ' pulseLenRatio: %u pulseLenRationLock %u userConfigDelay: %u\n'
-             'Flags: %#x\n  ' % u)
-
-        if 0x01 & u[10]:
-            s += 'active, '
-        else:
-            s += 'inactive, '
-        if 0x02 & u[10]:
-            s += 'lockGnsFreq, '
-        if 0x04 & u[10]:
-            s += 'lockedOtherSet, '
-        if 0x08 & u[10]:
-            s += 'is frequency, '
-        else:
-            s += 'is period, '
-        if 0x10 & u[10]:
-            s += 'is pulse length\n  '
-        else:
-            s += 'is duty cycle\n  '
-        if 0x20 & u[10]:
-            s += 'alignToTow, '
-        if 0x40 & u[10]:
-            s += 'rising, '
-        else:
-            s += 'falling, '
-        gridToGps = (u[10] >> 7) & 0x0f
-        gridToGpsDec = ('UTC', 'GPS', 'Glonass', 'BeiDou')
-        syncMode = (u[10] >> 11) & 0x03
-        s += "gridToGps %s, syncMode %d " % (gridToGpsDec[gridToGps], syncMode)
-
-        return s
-
-    def cfg_usb(self, buf):
-        "UBX-CFG-USB decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 108 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<HHHHHH', buf, 0)
-        s = (' vendorID: %#x productID: %#x reserved1[%u %u]'
-             ' reserved2[%u %u]\n'
-             '  powerConsumption %u mA flags: %#x ' % u)
-        if 0x01 & u[5]:
-            s += "reEnum, "
-        if 0x02 & u[5]:
-            s += "self-powered"
-        else:
-            s += "bus-powered"
-
-        s += '\nvendorString: %s\n' % gps.polystr(buf[12:43])
-        s += 'productString: %s\n' % gps.polystr(buf[44:75])
-        s += 'serialNumber: %s' % gps.polystr(buf[76:107])
-        return s
-
-    cfg_ids = {0: {'str': 'PRT', 'dec': cfg_prt, 'name': 'UBX-CFG-PRT'},
-               1: {'str': 'MSG', 'dec': cfg_msg, 'name': 'UBX-CFG-MSG'},
-               2: {'str': 'INF', 'name': 'UBX-CFG-INF'},
-               4: {'str': 'RST', 'name': 'UBX-CFG-RST'},
-               6: {'str': 'DAT', 'name': 'UBX-CFG-DAT'},
-               8: {'str': 'RATE', 'name': 'UBX-CFG-RATE'},
-               9: {'str': 'CFG', 'dec': cfg_cfg, 'name': 'UBX-CFG-CFG'},
-               0x11: {'str': 'RXM', 'name': 'UBX-CFG-RXM'},
-               0x13: {'str': 'ANT', 'dec': cfg_ant, 'name': 'UBX-CFG-ANT'},
-               0x16: {'str': 'SBAS', 'dec': cfg_sbas, 'name': 'UBX-CFG-SBAS'},
-               0x17: {'str': 'NMEA', 'name': 'UBX-CFG-NMEA'},
-               0x1b: {'str': 'USB', 'dec': cfg_usb, 'name': 'UBX-CFG-USB'},
-               0x1e: {'str': 'ODO', 'name': 'UBX-CFG-ODO'},
-               0x23: {'str': 'NAVX5', 'name': 'UBX-CFG-NAVX5'},
-               0x24: {'str': 'NAV5', 'dec': cfg_nav5, 'name': 'UBX-CFG-NAV5'},
-               0x31: {'str': 'TP5', 'dec': cfg_tp5, 'name': 'UBX-CFG-TP5'},
-               0x34: {'str': 'RINV', 'name': 'UBX-CFG-RINV'},
-               0x39: {'str': 'ITFM', 'name': 'UBX-CFG-ITFM'},
-               0x3b: {'str': 'PM2', 'name': 'UBX-CFG-PM2'},
-               0x3d: {'str': 'TMODE2', 'dec': cfg_tmode2,
-                      'name': 'UBX-CFG-TMODE2'},
-               0x3e: {'str': 'GNSS', 'dec': cfg_gnss, 'name': 'UBX-CFG-GNSS'},
-               0x47: {'str': 'LOGFILTER', 'name': 'UBX-CFG-LOGFILTER'},
-               0x53: {'str': 'TXSLOT', 'name': 'UBX-CFG-TXSLOT'},
-               0x57: {'str': 'PWR', 'name': 'UBX-CFG-PWR'},
-               0x5c: {'str': 'HNR', 'name': 'UBX-CFG-HNR'},
-               0x60: {'str': 'ESRC', 'name': 'UBX-CFG-ESRC'},
-               0x61: {'str': 'DOSC', 'name': 'UBX-CFG-OSC'},
-               0x62: {'str': 'SMGR', 'name': 'UBX-CFG-SMGR'},
-               0x69: {'str': 'GEOFENCE', 'name': 'UBX-CFG-GEOFENCE'},
-               0x70: {'str': 'DGNSS', 'name': 'UBX-CFG-DGNSS'},
-               0x71: {'str': 'TMODE3', 'name': 'UBX-CFG-TMODE3'},
-               0x84: {'str': 'FIXSEED', 'name': 'UBX-CFG-FIXSEED'},
-               0x85: {'str': 'DYNSEED', 'name': 'UBX-CFG-DYNSEED'},
-               0x86: {'str': 'PMS', 'dec': cfg_pms, 'name': 'UBX-CFG-PMS'},
-               }
-
-    def inf_debug(self, buf):
-        "UBX-INF-DEBUG decode"
-        return ' Debug: ' + gps.polystr(buf)
-
-    def inf_error(self, buf):
-        "UBX-INF-ERROR decode"
-        return ' Error: ' + gps.polystr(buf)
-
-    def inf_notice(self, buf):
-        "UBX-INF-NOTICE decode"
-        return ' Notice: ' + gps.polystr(buf)
-
-    def inf_test(self, buf):
-        "UBX-INF-TET decode"
-        return ' Test: ' + gps.polystr(buf)
-
-    def inf_warning(self, buf):
-        "UBX-INF-WARNING decode"
-        return ' Warning: ' + gps.polystr(buf)
-
-    inf_ids = {0x0: {'str': 'ERROR', 'dec': inf_error,
-                     'name': 'UBX-INF-ERROR'},
-               0x1: {'str': 'WARNING', 'dec': inf_warning,
-                     'name': 'UBX-INF-WARNING'},
-               0x2: {'str': 'NOTICE', 'dec': inf_notice,
-                     'name': 'UBX-INF-NOTICE'},
-               0x3: {'str': 'TEST', 'dec': inf_test,
-                     'name': 'UBX-INF-TEST'},
-               0x4: {'str': 'DEBUG', 'dec': inf_debug,
-                     'name': 'UBX-INF-DEBUG'},
-               }
-
-    def mon_ver(self, buf):
-        "UBX-MON-VER decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 40 > m_len:
-            return " Bad Length %s" % m_len
-
-        substr = buf.split('\0')[0]
-        s = ' swVersion: %s\n' % (substr)
-        substr = buf[30:39]
-        substr = substr.split('\0')[0]
-        s += ' hwVersion: %s' % (substr[30:39])
-        # extensions??
-        num_ext = int((m_len - 40) / 30)
-        i = 0
-        while i < num_ext:
-            loc = 40 + (i * 30)
-            substr = buf[loc:]
-            substr = substr.split('\0')[0]
-            s += '\n extension: %s' % (substr)
-            i += 1
-        return s
-
-    mon_ids = {2: {'str': 'IO', 'name': 'UBX-MON-IO'},
-               4: {'str': 'VER', 'dec': mon_ver, 'name': 'UBX-MON-VER'},
-               6: {'str': 'MSGPP', 'name': 'UBX-MON-MSGPP'},
-               7: {'str': 'RXBUF', 'name': 'UBX-MON-RXBUF'},
-               8: {'str': 'TXBUF', 'name': 'UBX-MON-TXBUF'},
-               9: {'str': 'HW', 'name': 'UBX-MON-HW'},
-               0x0b: {'str': 'HW2', 'name': 'UBX-MON-HW2'},
-               0x21: {'str': 'RXR', 'name': 'UBX-MON-RXR'},
-               0x27: {'str': 'PATCH', 'name': 'UBX-MON-PATCH'},
-               0x28: {'str': 'GNSS', 'name': 'UBX-MON-GNSS'},
-               0x2e: {'str': 'SMGR', 'name': 'UBX-MON-SMGR'},
-               }
-
-    def nav_clock(self, buf):
-        "UBX-NAV-CLOCK decode, Clock Solution"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LllLL', buf, 0)
-        return (' iTOW:%d ms, clkB:%d ns clkD:%d ns/s tAcc:%d ns,'
-                'fAcc:%d ns/s' % u)
-
-    def nav_dgps(self, buf):
-        "UBX-NAV-DGPS decode, DGPS Data used for NAV"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 16 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlhhBBBB', buf, 0)
-        s = (' iTOW:%d ms, age:%d ms, baseID:%d basehealth:%d numCh:%d\n'
-             ' status:%#x reserved1[%u %u]' % u)
-
-        m_len -= 16
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<BbHff', buf, 16 + i * 12)
-            # dunno how to do R4
-            s += ('\n  svid %3u flags %#4x ageC:%d ms prc:%f prcc:%f' % u)
-            m_len -= 12
-            i += 1
-
-        return s
-
-    def nav_dop(self, buf):
-        "UBX-NAV-DOP decode, Dilution of Precision"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 18 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<Lhhhhhhh', buf, 0)
-        s = (' iTOW:%d ms, gDOP:%.2f pDOP:%.2f tDOP:%.2f vDOP:%.2f\n'
-             ' hDOP:%.2f nDOP:%.2f eDOP:%.2f' %
-             (u[0], u[1] / 100.0, u[2] / 100.0, u[3] / 100.0,
-              u[4] / 100.0, u[5] / 100.0, u[6] / 100.0, u[7] / 100.0))
-        return s
-
-    def nav_navx5(self, buf):
-        "UBX-CFG-NAVX5 decode"
-
-        # length == 20 case seems broken?
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<HHLHBBBBBHBH', buf, 0)
-        s = (' version %u mask1 %#x mask2 %#x minSVs %d maxSVs %d minCNO %u\n'
-             ' iniFix3D %u ackAiding %u wknRollover %u' %
-             (u[0], u[1], u[2], u[4], u[5], u[6], u[8], u[10], u[11]))
-
-        if 40 <= m_len:
-            u = struct.unpack_from('<BBHHLHBB', buf, 20)
-            s = ('\n usePPP %d aopCfg %d aopOrbMaxErr %u useAdr %u' %
-                 (u[0], u[1], u[3], u[7]))
-        return s
-
-    def nav_posecef(self, buf):
-        "UBX-NAV-POSECEF decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 != m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlllL', buf, 0)
-        return ' iTOW:%d ms, ecefX:%d cm Y:%d cm Z:%d cm\n pAcc:%d cm' % u
-
-    def nav_pvt(self, buf):
-        "UBX-NAV-PVT decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 92 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LHBBBBBBLlBBBBllllLLlllllLLHbbbbbblhH',
-                               buf, 0)
-        s = (' iTOW %d ms, time %d/%d/%d %2d:%2d:%2d valid %#x\n'
-             ' tAcc %d ns nano %d fixType %d flags %#x flags2 %#x\n'
-             ' numSV %d lon %.7f lat %.7f height %.3f\n'
-             ' hMSL %.3f hAcc %.3f' %
-             (u[0], u[1], u[2], u[3], u[4], u[5], u[6], u[7],
-              u[8], u[9], u[10], u[11], u[12],
-              u[13], u[14] * 10e-7, u[15] * 10e-7, u[16] / 1000,
-              u[17] / 1000, u[18] / 1000))
-        return s
-
-    def nav_sat(self, buf):
-        "UBX-NAV-SAT decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 8 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LBB', buf, 0)
-        s = ' iTOW %d ms, version %d numSvs %d' % u
-
-        m_len -= 8
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<BBBbhhL', buf, 8 + i * 12)
-            s += ('\n gnssd %d svid %3d cno %2d elev %3d azim %3d prRes %6d'
-                  ' flags %#x\n' % u)
-            if 0 < u[6]:
-                s += '  '
-                s += 'qualityInd %u ' % (0x07 & u[6])
-                if 8 & u[6]:
-                    s += 'svUsed '
-                s += 'health %u ' % (0x03 & (u[6] >> 4))
-                if 0x40 & u[6]:
-                    s += 'diffCorr '
-                if 0x80 & u[6]:
-                    s += 'smoothed '
-                s += 'orbitSource %u ' % (0x07 & (u[6] >> 8))
-                if 0x800 & u[6]:
-                    s += 'ephAvail '
-                if 0x1000 & u[6]:
-                    s += 'almAvail '
-                if 0x2000 & u[6]:
-                    s += 'anoAvail '
-                if 0x4000 & u[6]:
-                    s += 'aopAvail '
-
-                if 0x730000 & u[6]:
-                    s += '\n'
-                    if 0x10000 & u[6]:
-                        s += 'sbasCorrused '
-                    if 0x20000 & u[6]:
-                        s += 'rtcmCorrused '
-                    if 0x1000000 & u[6]:
-                        s += 'prCorrused '
-                    if 0x2000000 & u[6]:
-                        s += 'crCorrused '
-                    if 0x4000000 & u[6]:
-                        s += 'doCorrused '
-            m_len -= 12
-            i += 1
-
-        return s
-
-    def nav_sbas(self, buf):
-        "UBX-NAV-SBAS decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 12 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LBBbBb', buf, 0)
-        s = (' iTOW:%d ms, geo:%u mode:%#x, sys:%#x service:%#x cnt:%d' % u)
-
-        m_len -= 12
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<BBBBBBhhh', buf, 12 + (i * 12))
-            s += ('\n  svid %3d flags %#4x udre:%#2x svSys:%3d syService:%2d'
-                  ' prc:%3d ic:%3d' %
-                  (u[0], u[1], u[2], u[3], u[4], u[6], u[8]))
-            if 0x0f & u[4]:
-                s += '\n   svService: '
-                if 1 & u[4]:
-                    s += 'Ranging '
-                if 2 & u[4]:
-                    s += 'Corrections '
-                if 4 & u[4]:
-                    s += 'Integrity '
-                if 8 & u[4]:
-                    s += 'Testmode'
-            m_len -= 12
-            i += 1
-
-        return s
-
-    fix_types = ('None', 'Dead Reckoning', '2D', '3D', 'GPS+DR', 'Surveyed')
-
-    def nav_sol(self, buf):
-        "UBX-NAV-SOL decode deprecated by u-blox"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 52 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlhBBlllLlllLHBBBBB', buf, 0)
-        s = (' iTOW:%u ms, fTOW %u ns, week:%d gpsFix:%d flags:%#x\n'
-             ' ECEF X:%.3f Y:%.3f Z:%.3f pAcc:%.3f\n'
-             ' VECEF X:%.3f Y:%.3f Z:%.3f vAcc:%.3f\n'
-             ' pDOP:%.2f numSV:%d' %
-             (u[0], u[1], u[2], u[3], u[4],
-              u[5] / 100.0, u[6] / 100.0, u[7] / 100.0, u[8] / 100.0,
-              u[9] / 100.0, u[10] / 100.0, u[11] / 100.0, u[12] / 100.0,
-              u[13] / 100.0, u[15]))
-        if u[3] < len(self.fix_types):
-            s += '\n   gpsFix: ' + self.fix_types[u[3]]
-        if 0x0f & u[4]:
-            s += '\n   flags: '
-            if 1 & u[4]:
-                s += 'GPSfixOK '
-            if 2 & u[4]:
-                s += 'DiffSoln '
-            if 4 & u[4]:
-                s += 'WKNSET '
-            if 8 & u[4]:
-                s += 'TOWSET'
-        return s
-
-    def nav_status(self, buf):
-        "UBX-NAV-STATUS decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 16 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LBBBBLL', buf, 0)
-        return (' iTOW:%d ms, fix:%d flags:%#x fixstat:%#x flags2:%#x\n'
-                ' ttff:%d, msss:%d' % u)
-
-    def nav_svin(self, buf):
-        "UBX-NAV-SVIN decode, Survey-in data"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 40 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBBBLLlllbbbBLLBB', buf, 0)
-        return (' version %u reserved1[%u %u %u] iTOW %u dur %u\n'
-                '  meanX %d meanY %d meanZ %d\n'
-                '  meanXHP %d meanYHP %d meanZHP %d reserved2 %u meanAcc %u\n'
-                '  obs %u valid %u active %u\n' % u)
-
-    def nav_svinfo(self, buf):
-        "UBX-NAV-SVINFO decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return "Poll request"
-
-        if 8 > m_len:
-            return "Bad Length %s" % m_len
-
-        u = struct.unpack_from('<Lbb', buf, 0)
-        s = ' iTOW:%d ms, numCh:%d globalFlags:%d' % u
-
-        m_len -= 8
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<BBBBBbhl', buf, 8 + i * 12)
-            s += ('\n  chn %3d svid %3d flags %#0.2x quality %#x cno %2d'
-                  ' elev %3d azim %3d prRes %6d' % u)
-            if 0 < u[2]:
-                s += '\n   '
-                if 1 & u[2]:
-                    s += 'svUsed '
-                if 2 & u[2]:
-                    s += 'diffCorr '
-                if 4 & u[2]:
-                    s += 'orbitAvail '
-                if 8 & u[2]:
-                    s += 'orbitEph '
-                if 0x10 & u[2]:
-                    s += 'unhealthy '
-                if 0x20 & u[2]:
-                    s += 'orbitAlm '
-                if 0x40 & u[2]:
-                    s += 'orbitAop '
-                if 0x80 & u[2]:
-                    s += 'smoothed '
-            m_len -= 12
-            i += 1
-
-        return s
-
-    def nav_timebds(self, buf):
-        "UBX-NAV-TIMEBDS decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 > m_len:
-            return ".Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LLlhbBL', buf, 0)
-        return (' iTOW:%d ms, SOW:%d fSOW:%d week %d leapS:%d Valid:%#x\n'
-                'tAcc:%d ns' % u)
-
-    def nav_timegal(self, buf):
-        "UBX-NAV-TIMEGAL decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LLlhbBL', buf, 0)
-        return (' iTOW:%d ms, galTOW:%.9f galWno:%d leapS:%d Valid:%#x\n'
-                ' tAcc:%d ns' %
-                (u[0], u[1] + (u[2] * 10e-9), u[3], u[4], u[5], u[6]))
-
-    def nav_timegps(self, buf):
-        "UBX-NAV-TIMEGPS decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 16 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlhbBL', buf, 0)
-        s = (' iTOW:%u ms, fTOW:%u ns, week:%d leapS:%d valid:%#x tAcc:%d ns' %
-             u)
-        if 0x07 & u[4]:
-            s += '\n   valid: '
-            if 1 & u[4]:
-                s += 'towValid '
-            if 2 & u[4]:
-                s += 'weekValid '
-            if 4 & u[4]:
-                s += 'leapValid '
-        return s
-
-    def nav_timeutc(self, buf):
-        "UBX-NAV-TIMEUTC decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LLlHbbbbbb', buf, 0)
-        return (' iTOW:%d ms, tAcc:%d ns nano:%d ns Time: %d/%d/%d %d:%d:%d\n'
-                ' valid:%#x' % u)
-
-    def nav_velecef(self, buf):
-        "UBX-NAV-VELECEF decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 20 != m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlllL', buf, 0)
-        return (' iTOW:%d ms,'
-                ' ecefVX:%.2f m/s VY:%.2f m/s VZ:%.2f m/s vAcc:%.2f m/s' %
-                (u[0], u[1] / 100.0, u[2] / 100.0, u[3] / 100.0,
-                 u[4] / 100.0))
-
-    def nav_velned(self, buf):
-        "UBX-NAV-VELNED decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 36 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlllLLlLL', buf, 0)
-        return (' iTOW:%d ms,'
-                ' velN:%d cm/s velE:%d cm/s velD:%d cm/s speed:%d cm/s\n'
-                ' gspeed:%d cm/s heading:%f cm/s sAcc:%d cm/s cAcc:%d deg' %
-                (u[0], u[1], u[2], u[3], u[4], u[5], u[6] * 1e-5,
-                 u[7], u[8] * 1e-5))
-
-    nav_ids = {1: {'str': 'POSECEF', 'dec': nav_posecef,
-                   'name': 'UBX-NAV-POSECEF'},
-               2: {'str': 'POSLLH', 'name': 'UBX-NAV-POSLLH'},
-               3: {'str': 'STATUS', 'dec': nav_status,
-                   'name': 'UBX-NAV-STATUS'},
-               0x4: {'str': 'DOP', 'dec': nav_dop, 'name': 'UBX-NAV-DOP'},
-               0x5: {'str': 'ATT', 'name': 'UBX-NAV-ATT'},
-               0x6: {'str': 'SOL', 'dec': nav_sol, 'name': 'UBX-NAV-SOL'},
-               0x7: {'str': 'PVT', 'dec': nav_pvt, 'name': 'UBX-NAV-PVT'},
-               0x9: {'str': 'ODO', 'name': 'UBX-NAV-ODO'},
-               0x10: {'str': 'RESETODO', 'name': 'UBX-NAV-RESETODO'},
-               0x11: {'str': 'VELECEF', 'dec': nav_velecef,
-                      'name': 'UBX-NAV-VELECEF'},
-               0x12: {'str': 'VELNED', 'dec': nav_velned,
-                      'name': 'UBX-NAV-VELNED'},
-               0x13: {'str': 'HPPOSECEF', 'name': 'UBX-NAV-HPPOSECEF'},
-               0x14: {'str': 'HPPOSLLH', 'name': 'UBX-NAV-HPPOSLLH'},
-               0x20: {'str': 'TIMEGPS', 'dec': nav_timegps,
-                      'name': 'UBX-NAV-TIMEGPS'},
-               0x21: {'str': 'TIMEUTC', 'dec': nav_timeutc,
-                      'name': 'UBX-NAV-TIMEUTC'},
-               0x22: {'str': 'CLOCK', 'dec': nav_clock,
-                      'name': 'UBX-NAV-CLOCK'},
-               0x23: {'str': 'NAVX5', 'dec': nav_navx5,
-                      'name': 'UBX-NAV-NAVX5'},
-               0x24: {'str': 'TIMEBDS', 'dec': nav_timebds,
-                      'name': 'UBX-NAV-TIMEBDS'},
-               0x25: {'str': 'TIMEGAL', 'dec': nav_timegal,
-                      'name': 'UBX-NAV-TIMEGAL'},
-               0x26: {'str': 'TIMEGLO', 'name': 'UBX-NAV-TIMEGLO'},
-               0x30: {'str': 'SVINFO', 'dec': nav_svinfo,
-                      'name': 'UBX-NAV-SVINFO'},
-               0x31: {'str': 'DGPS', 'dec': nav_dgps, 'name': 'UBX-NAV-DGPS'},
-               0x32: {'str': 'SBAS', 'dec': nav_sbas, 'name': 'UBX-NAV-SBAS'},
-               0x34: {'str': 'ORB', 'name': 'UBX-NAV-ORB'},
-               0x35: {'str': 'SAT', 'dec': nav_sat, 'name': 'UBX-NAV-SAT'},
-               0x39: {'str': 'GEOFENCE', 'name': 'UBX-NAV-GEOFENCE'},
-               0x3B: {'str': 'SVIN', 'dec': nav_svin, 'name': 'UBX-NAV-SVIN'},
-               0x3C: {'str': 'RELPOSNED', 'name': 'UBX-NAV-RELPOSNED'},
-               0x60: {'str': 'AOPSTATUS', 'name': 'UBX-NAV-AOPSTATUS'},
-               0x61: {'str': 'EOF', 'name': 'UBX-NAV-EOF'},
-               }
-
-    def rxm_raw(self, buf):
-        "UBX-RXM-RAW decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 8 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlhhBBBB', buf, 0)
-        s = ' iTOW:%d ms weeks:%d numSV:%d' % u
-
-        m_len -= 8
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<ddfBbbB', buf, 8 + i * 24)
-            s += ('\n  cpMes:%f prMes:%f doMes:%f sv:%d mesQI:%d\n'
-                  '     eno:%d lli:%d' % u)
-            m_len -= 24
-            i += 1
-
-        return s
-
-    def rxm_rawx(self, buf):
-        "UBX-RXM-RAWX decode"
-        m_len = len(buf)
-        if 16 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<dHbBBB', buf, 0)
-        s = (' rcvTow %.3f week %u leapS %d numMeas %u recStat %#x'
-             ' version %u' % u)
-
-        m_len -= 16
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<ddfBBBBHBBBBB', buf, 16 + i * 32)
-            s += ('\n  prmes %.3f cpMes %.3f doMes %f\n'
-                  '   gnssID %u svId %u %u freqId %u locktime %u cno %u\n'
-                  '   prStdev %u, cpStdev %u doStdev %u trkStat %u' % u)
-            m_len -= 32
-            i += 1
-        return s
-
-    def rxm_sfrb(self, buf):
-        "UBX-RXM-SFRB decode, Subframe Buffer"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 42 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBLLLLLLLLLL', buf, 0)
-        s = (' chn:%d s svid %3d\n'
-             ' dwrd:%08x %08x %08x %08x %08x\n'
-             '      %08x %08x %08x %08x %08x' % u)
-
-        return s
-
-    def rxm_sfrbx(self, buf):
-        "UBX-RXM-SFRBX decode, Broadcast Navigation Data Subframe"
-        m_len = len(buf)
-
-        if 8 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BBBBBBBB', buf, 0)
-        s = (' gnssId:%u svId %3u reserved1 %u freqId %u numWords %u\n'
-             '  reserved2 %u version %u reserved3 %u\n' % u)
-        s += '    dwrd'
-        for i in range(8, m_len - 1, 4):
-            u = struct.unpack_from('<L', buf, i)
-            s += " %08x" % u
-
-        return s
-
-    def rxm_svsi(self, buf):
-        "UBX-RXM-SVSI decode, SV Status Info"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 8 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LhBB', buf, 0)
-        s = ' iTOW:%d ns week:%d numVis:%d numSV:%d' % u
-
-        m_len -= 8
-        i = 0
-        while 0 < m_len:
-            u = struct.unpack_from('<BBhbB', buf, 8 + i * 6)
-            s += '\n  svid:%3d svFlag:%#x azim:%3d elev:% 3d age:%3d' % u
-            m_len -= 6
-            i += 1
-
-        return s
-
-    rxm_ids = {0x10: {'str': 'RAW', 'dec': rxm_raw,
-                      'name': 'UBX-RXM-RAW'},      # obsolete
-               0x11: {'str': 'SFRB', 'dec': rxm_sfrb,
-                      'name': 'UBX-RXM-SFRB'},
-               0x13: {'str': 'SFRBX', 'dec': rxm_sfrbx,
-                      'name': 'UBX-RXM-SFRBX'},
-               0x14: {'str': 'MEASX', 'name': 'UBX-RXM-MEASX'},
-               0x15: {'str': 'RAWX', 'dec': rxm_rawx, 'name': 'UBX-RXM-RAWX'},
-               0x20: {'str': 'SVSI', 'dec': rxm_svsi, 'name': 'UBX-RXM-SVSI'},
-               0x32: {'str': 'RTCM', 'name': 'UBX-RXM-RTCM'},
-               0x41: {'str': 'PMREQ', 'name': 'UBX-RXM-PMREQ'},
-               0x59: {'str': 'RLM', 'name': 'UBX-RXM-RLM'},
-               0x61: {'str': 'IMES', 'name': 'UBX-RXM-IMES'},
-               }
-
-    def tim_svin(self, buf):
-        "UBX-TIM-SVIN decode, Survey-in data"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 28 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LlllLLBB', buf, 0)
-        s = (' dur %u meanX %d meanY %d meanZ %d\n'
-             '  meanV %u obs %u valid %u active %u' % u)
-        return s
-
-    def tim_tp(self, buf):
-        "UBX-TIM-TP decode"
-        m_len = len(buf)
-        if 0 == m_len:
-            return " Poll request"
-
-        if 16 > m_len:
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<LLlHbb', buf, 0)
-        s = (' towMS:%u ms, towSubMS:%u qErr:%d ps, week:%d\n'
-             ' flags:%#x refInfo:%#x\n   flags: ' % u)
-
-        if 0x01 & u[4]:
-            s += "timeBase is UTC, "
-        else:
-            s += "timeBase is GNSS, "
-        if 0x02 & u[4]:
-            s += "UTC available, "
-        else:
-            s += "UTC not available, "
-
-        raim = (u[4] >> 2) & 0x03
-        if 0 == raim:
-            s += "RAIM not available"
-        elif 1 == raim:
-            s += "RAIM not active"
-        elif 2 == raim:
-            s += "RAIM active"
-        else:
-            s += "RAIM ??"
-        return s
-
-    tim_ids = {1: {'str': 'TP', 'dec': tim_tp, 'name': 'UBX-TIM-TP'},
-               3: {'str': 'TM2', 'name': 'UBX-TIM-TM2'},
-               4: {'str': 'SVIN', 'dec': tim_svin, 'name': 'UBX-TIM-SVIN'},
-               6: {'str': 'VRFY', 'name': 'UBX-TIM-VRFY'},
-               0x11: {'str': 'DOSC', 'name': 'UBX-TIM-DOSC'},
-               0x12: {'str': 'TOS', 'name': 'UBX-TIM-TOS'},
-               0x13: {'str': 'SMEAS', 'name': 'UBX-TIM-SMEAS'},
-               0x15: {'str': 'VCOCAL', 'name': 'UBX-TIM-VCOCAL'},
-               0x16: {'str': 'FCHG', 'name': 'UBX-TIM-FCHG'},
-               0x17: {'str': 'HOC', 'name': 'UBX-TIM-HOC'},
-               }
-
-    classes = {
-        0x01: {'str': 'NAV', 'ids': nav_ids},
-        0x02: {'str': 'RXM', 'ids': rxm_ids},
-        0x04: {'str': 'INF', 'ids': inf_ids},
-        0x05: {'str': 'ACK', 'ids': ack_ids},
-        0x06: {'str': 'CFG', 'ids': cfg_ids},
-        0x09: {'str': 'UPD'},
-        0x0A: {'str': 'MON', 'ids': mon_ids},
-        0x0B: {'str': 'ATD'},
-        0x0D: {'str': 'TIM', 'ids': tim_ids},
-        0x10: {'str': 'ESF'},
-        0x13: {'str': 'MGA'},
-        0x21: {'str': 'LOG'}
-    }
-
-    def class_id_s(self, m_class, m_id):
-        "Return class and ID numbers as a string."
-        s = 'Class: '
-        if m_class not in self.classes:
-            s += '%#x ID: %#x' % (m_class, m_id)
-            return s
-
-        if 'str' in self.classes[m_class]:
-            s_class = self.classes[m_class]['str']
-            s += '%s(%#x) ' % (s_class, m_class)
-        else:
-            s += '%#x ' % (m_class)
-
-        if (('ids' in self.classes[m_class] and
-             m_id in self.classes[m_class]['ids'] and
-             'str' in self.classes[m_class]['ids'][m_id])):
-            s_id = self.classes[m_class]['ids'][m_id]['str']
-            s += 'ID: %s(%#x)' % (s_id, m_id)
-        else:
-            s += 'ID: %#x' % (m_id)
-
-        return s
-
-    def decode_msg(self, out):
-        "Decode one message and then return number of chars consumed"
-
-        state = 'BASE'
-        consumed = 0
-
-        # decode state machine
-        for this_byte in out:
-            consumed += 1
-            if isinstance(this_byte, str):
-                # a character, probably read from a file
-                c = ord(this_byte)
-            else:
-                # a byte, probably read from a serial port
-                c = int(this_byte)
-
-            if VERB_RAW <= opts['verbosity']:
-                if (ord(' ') <= c) and (ord('~') >= c):
-                    # c is printable
-                    print("state: %s char %c (%#x)" % (state, chr(c), c))
-                else:
-                    # c is not printable
-                    print("state: %s char %#x" % (state, c))
-
-            if 'BASE' == state:
-                # start fresh
-                # place to store 'comments'
-                comment = ''
-                m_class = 0
-                m_id = 0
-                m_len = 0
-                m_raw = bytearray(0)        # class, id, len, payload
-                m_payload = bytearray(0)    # just the payload
-                m_ck_a = 0
-                m_ck_b = 0
-
-                if 0xb5 == c:
-                    # got header 1, mu
-                    state = 'HEADER1'
-
-                if ord('$') == c:
-                    # got $, so NMEA?
-                    state = 'NMEA'
-                    comment = '$'
-
-                if ord("{") == c:
-                    # JSON, treat as comment line
-                    state = 'JSON'
-
-                    # start fresh
-                    comment = "{"
-                    continue
-
-                if ord("#") == c:
-                    # comment line
-                    state = 'COMMENT'
-
-                    # start fresh
-                    comment = "#"
-                    continue
-
-                if (ord('\n') == c) or (ord('\r') == c):
-                    # CR or LF, leftovers
-                    return 1
-                continue
-
-            if state in ('COMMENT', 'JSON'):
-                # inside comment
-                if ord('\n') == c or ord('\r') == c:
-                    # Got newline or linefeed
-                    # terminate messages on <CR> or <LF>
-                    # Done, got a full message
-                    if gps.polystr('{"class":"ERROR"') in comment:
-                        # always print gpsd errors
-                        print(comment)
-                    elif VERB_DECODE <= opts['verbosity']:
-                        print(comment)
-                    return consumed
-                else:
-                    comment += chr(c)
-                continue
-
-            if 'NMEA' == state:
-                # getting NMEA payload
-                if (ord('\n') == c) or (ord('\r') == c):
-                    # CR or LF, done, got a full message
-                    # terminates messages on <CR> or <LF>
-                    if VERB_DECODE <= opts['verbosity']:
-                        print(comment + '\n')
-                    return consumed
-                else:
-                    comment += chr(c)
-                continue
-
-            if ord('b') == c and 'HEADER1' == state:
-                # got header 2
-                state = 'HEADER2'
-                continue
-
-            if 'HEADER2' == state:
-                # got class
-                state = 'CLASS'
-                m_class = c
-                m_raw.extend([c])
-                continue
-
-            if 'CLASS' == state:
-                # got ID
-                state = 'ID'
-                m_id = c
-                m_raw.extend([c])
-                continue
-
-            if 'ID' == state:
-                # got first length
-                state = 'LEN1'
-                m_len = c
-                m_raw.extend([c])
-                continue
-
-            if 'LEN1' == state:
-                # got second length
-                m_raw.extend([c])
-                m_len += 256 * c
-                if 0 == m_len:
-                    # no payload
-                    state = 'CSUM1'
-                else:
-                    state = 'PAYLOAD'
-                continue
-
-            if 'PAYLOAD' == state:
-                # getting payload
-                m_raw.extend([c])
-                m_payload.extend([c])
-                if len(m_payload) == m_len:
-                    state = 'CSUM1'
-                continue
-
-            if 'CSUM1' == state:
-                # got ck_a
-                state = 'CSUM2'
-                m_ck_a = c
-                continue
-
-            if 'CSUM2' == state:
-                # ck_b
-                state = 'BASE'
-                m_ck_b = c
-                # check checksum
-                chk = self.checksum(m_raw, len(m_raw))
-                if (chk[0] != m_ck_a) or (chk[1] != m_ck_b):
-                    sys.stderr.write("%s: ERROR checksum failed,"
-                                     "was (%d,%d) s/b (%d, %d)\n" %
-                                     (PROG_NAME, m_ck_a, m_ck_b,
-                                      chk[0], chk[1]))
-
-                s_payload = ''.join('{:02x} '.format(x) for x in m_payload)
-                x_payload = binascii.hexlify(m_payload)
-
-                if m_class in self.classes:
-                    this_class = self.classes[m_class]
-                    if 'ids' in this_class:
-                        if m_id in this_class['ids']:
-                            if 'dec' in this_class['ids'][m_id]:
-                                dec = this_class['ids'][m_id]['dec']
-                                s_payload = this_class['ids'][m_id]['name']
-                                s_payload += ':\n'
-                                s_payload += dec(self, m_payload)
-                            else:
-                                s_payload = x_payload
-
-                if VERB_INFO < opts['verbosity']:
-                    print("%s, len: %#x" %
-                          (self.class_id_s(m_class, m_id), m_len))
-                    if VERB_RAW < opts['verbosity']:
-                        print("payload: %s" % x_payload)
-                print("%s\n" % s_payload)
-                return consumed
-
-            # give up
-            state = 'BASE'
-
-        # fell out of loop, no more chars to look at
-        return 0
-
-    def checksum(self, msg, m_len):
-        "Calculate u-blox message checksum"
-        # the checksum is calculated over the Message, starting and including
-        # the CLASS field, up until, but excluding, the Checksum Field:
-
-        ck_a = 0
-        ck_b = 0
-        for c in msg[0:m_len]:
-            ck_a += c
-            ck_b += ck_a
-
-        return [ck_a & 0xff, ck_b & 0xff]
-
-    def make_pkt(self, m_class, m_id, m_data):
-        "Make a message packet"
-        # always little endian, leader, class, id, length
-        m_len = len(m_data)
-
-        # build core message
-        msg = bytearray(m_len + 6)
-        struct.pack_into('<BBH', msg, 0, m_class, m_id, m_len)
-
-        # copy payload into message buffer
-        i = 0
-        while i < m_len:
-            msg[i + 4] = m_data[i]
-            i += 1
-
-        # add checksum
-        chk = self.checksum(msg, m_len + 4)
-        m_chk = bytearray(2)
-        struct.pack_into('<BB', m_chk, 0, chk[0], chk[1])
-
-        header = b"\xb5\x62"
-        return header + msg[:m_len+4] + m_chk
-
-    def gps_send(self, m_class, m_id, m_data):
-        "Build, and send, a message to GPS"
-        m_all = self.make_pkt(m_class, m_id, m_data)
-        self.gps_send_raw(m_all)
-
-    def gps_send_raw(self, m_all):
-        "Send a raw message to GPS"
-        if not opts['read_only']:
-            io_handle.ser.write(m_all)
-            if VERB_QUIET < opts['verbosity']:
-                sys.stdout.write("sent:\n")
-                if VERB_INFO < opts['verbosity']:
-                    sys.stdout.write(binascii.hexlify(m_all))
-                    sys.stdout.write("\n")
-                self.decode_msg(m_all)
-                sys.stdout.flush()
-
-    def send_able_beidou(self, able):
-        "dis/enable BeiDou"
-        # Two frequency GPS use BeiDou or GLONASS
-        # disable, then enable
-        gps_model.send_cfg_gnss1(3, able)
-
-    def send_able_binary(self, able):
-        "dis/enable basic binary messages"
-
-        rate = 1 if able else 0
-
-        # UBX-NAV-DOP
-        m_data = bytearray([0x01, 0x04, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # UBX-NAV-SOL is ECEF. deprecated, use UBX-NAV-PVT instead?
-        m_data = bytearray([0x01, 0x06, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # UBX-NAV-TIMEGPS
-        m_data = bytearray([0x01, 0x20, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # UBX-NAV-SBAS
-        m_data = bytearray([0x01, 0x32, 10])
-        gps_model.gps_send(6, 1, m_data)
-
-        # UBX-NAV-SVINFO
-        m_data = bytearray([0x01, 0x30, 10])
-        gps_model.gps_send(6, 1, m_data)
-
-    def send_able_ecef(self, able):
-        "Enable ECEF messages"
-        # set NAV-POSECEF rate
-        gps_model.send_cfg_msg(1, 1, able)
-        # set NAV-VELECEF rate
-        gps_model.send_cfg_msg(1, 0x11, able)
-
-    def send_able_gps(self, able):
-        "dis/enable GPS/QZSS"
-        # GPS and QZSS both on, or both off, together
-        # GPS
-        gps_model.send_cfg_gnss1(0, able)
-        # QZSS
-        gps_model.send_cfg_gnss1(5, able)
-
-    def send_able_galileo(self, able):
-        "dis/enable GALILEO"
-        gps_model.send_cfg_gnss1(2, able)
-
-    def send_able_glonass(self, able):
-        "dis/enable GLONASS"
-        # Two frequency GPS use BeiDou or GLONASS
-        # disable, then enable
-        gps_model.send_cfg_gnss1(6, able)
-
-    def send_able_nmea(self, able):
-        "dis/enable basic NMEA messages"
-
-        rate = 1 if able else 0
-
-        # xxGBS
-        m_data = bytearray([0xf0, 0x09, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxGGA
-        m_data = bytearray([0xf0, 0x00, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxGGL
-        m_data = bytearray([0xf0, 0x01, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxGSA
-        m_data = bytearray([0xf0, 0x02, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxGST
-        m_data = bytearray([0xf0, 0x07, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxGSV
-        m_data = bytearray([0xf0, 0x03, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxRMC
-        m_data = bytearray([0xf0, 0x04, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxVTG
-        m_data = bytearray([0xf0, 0x05, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-        # xxZDA
-        m_data = bytearray([0xf0, 0x08, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-    def send_able_rawx(self, able):
-        "dis/enable UBX-RXM-RAWX"
-
-        rate = 1 if able else 0
-        m_data = bytearray([0x2, 0x15, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-    def send_able_sbas(self, able):
-        "dis/enable SBAS"
-        gps_model.send_cfg_gnss1(1, able)
-
-    def send_able_tmode2(self, able):
-        "UBX-CFG-TMODE2, set time mode 2 config"
-
-        m_data = bytearray(28)
-        if able:
-            # enable survey-in
-            m_data[0] = 1
-
-        # Survey-in minimum duration seconds 86400
-        seconds = 86400
-        m_data[20] = seconds & 0x0ff
-        seconds >>= 8
-        m_data[21] = seconds & 0x0ff
-        seconds >>= 8
-        m_data[22] = seconds & 0x0ff
-        seconds >>= 8
-        m_data[23] = seconds & 0x0ff
-
-        # Survey-in position accuracy limit 500 mm
-        mmeters = 500
-        m_data[24] = mmeters & 0x0ff
-        mmeters >>= 8
-        m_data[25] = mmeters & 0x0ff
-        mmeters >>= 8
-        m_data[26] = seconds & 0x0ff
-        seconds >>= 8
-        m_data[27] = mmeters & 0x0ff
-        gps_model.gps_send(6, 0x3d, m_data)
-
-    def send_able_tp(self, able):
-        "dis/enable UBX-TIM-TP Time Pulse"
-        rate = 1 if able else 0
-        m_data = bytearray([0xd, 0x1, rate])
-        gps_model.gps_send(6, 1, m_data)
-
-    def send_cfg_ant(self):
-        "UBX-CFG-ANT, Get Antenna Control Settings"
-
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x13, m_data)
-
-    def send_cfg_cfg(self, save_clear):
-        "UBX-CFG-CFG, save config"
-
-        # Save: save_clear = 0
-        # Clear: save_clear = 1
-
-        # basic configs alays available to change:
-        # ioPort, msgConf, infMsg, navConf, rxmConf, senConf
-        cfg1 = 0x9f
-        # rinvConf, antConf, logConf
-        cfg2 = 0x03
-
-        m_data = bytearray(13)
-
-        # clear
-        if 0 == save_clear:
-            # saving
-            m_data[0] = 0
-            m_data[1] = 0
-        else:
-            # clearing
-            m_data[0] = cfg1
-            m_data[1] = cfg2
-        m_data[2] = 0       #
-        m_data[3] = 0       #
-
-        # save
-        if 0 == type:
-            # saving
-            m_data[4] = cfg1
-            m_data[5] = cfg2
-        else:
-            # clearing
-            m_data[4] = 0
-            m_data[5] = 0
-        m_data[6] = 0       #
-        m_data[7] = 0       #
-
-        # load
-        if False and 0 == type:
-            # saving
-            m_data[8] = 0
-            m_data[9] = 0
-        else:
-            # clearing, load it to save a reboot
-            m_data[8] = cfg1
-            m_data[9] = cfg2
-        m_data[10] = 0      #
-        m_data[11] = 0      #
-
-        # deviceMask, where to save it, try all options
-        m_data[12] = 0x17      # devBBR, devFLASH devEEPROM, devSpiFlash
-
-        gps_model.gps_send(6, 0x9, m_data)
-
-    def send_cfg_gnss1(self, gnssId, enable):
-        "UBX-CFG-GNSS, set GNSS config"
-        m_data = bytearray(12)
-        m_data[0] = 0       # version 0, msgVer
-        m_data[1] = 0       # read only, numTrkChHw
-        m_data[2] = 0xFF    # read only, numTrkChUse
-        m_data[3] = 1       # 1 block follows
-        # block 1
-        m_data[4] = gnssId  # gnssId
-        if 0 == gnssId:
-            # GPS
-            m_data[5] = 8   # resTrkCh
-            m_data[6] = 16  # maxTrkCh
-        if 1 == gnssId:
-            # SBAS
-            m_data[5] = 1   # resTrkCh
-            m_data[6] = 3   # maxTrkCh
-        if 2 == gnssId:
-            # GALILEO
-            m_data[5] = 4   # resTrkCh
-            m_data[6] = 8   # maxTrkCh
-        if 3 == gnssId:
-            # BeiDou
-            m_data[5] = 2   # resTrkCh
-            m_data[6] = 16  # maxTrkCh
-        if 4 == gnssId:
-            # IMES
-            m_data[5] = 0   # resTrkCh
-            m_data[6] = 8   # maxTrkCh
-        if 5 == gnssId:
-            # QZSS
-            m_data[5] = 0   # resTrkCh
-            m_data[6] = 3   # maxTrkCh
-        if 6 == gnssId:
-            # GLONASS
-            m_data[5] = 8   # resTrkCh
-            m_data[6] = 14  # maxTrkCh
-        m_data[7] = 0       # reserved1
-        m_data[8] = enable  # flags
-        m_data[9] = 0       # flagflags, unused
-        if 5 == gnssId:
-            # QZSS
-            m_data[10] = 5      # flags E1OS, L1SAIF
-        else:
-            m_data[10] = 1      # flags E1OS
-        m_data[11] = 1      # flags, unused
-        gps_model.gps_send(6, 0x3e, m_data)
-
-    def send_cfg_gnss(self):
-        "UBX-CFG-GNSS, set Galileo config decode"
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x3e, m_data)
-
-    def send_cfg_nav5_model(self):
-        "UBX-CFG-NAV5, set dynamic platform model"
-
-        m_data = bytearray(36)
-        m_data[0] = 1        # just setting dynamic model
-        m_data[1] = 0        # just setting dynamic model
-        m_data[2] = opts["mode"]
-
-        gps_model.gps_send(6, 0x24, m_data)
-
-    def send_cfg_msg(self, m_class, m_id, rate=None):
-        "UBX-CFG-MSG, poll, or set, message rates decode"
-        m_data = bytearray(2)
-        m_data[0] = m_class
-        m_data[1] = m_id
-        if rate is not None:
-            m_data.extend([rate])
-        gps_model.gps_send(6, 1, m_data)
-
-    def send_cfg_nav5(self):
-        "UBX-CFG-NAV5, get Nav Engine Settings"
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x24, m_data)
-
-    def send_cfg_pms(self):
-        "UBX-CFG-PMS, Get Power Management Settings"
-
-        if opts["mode"] is not None:
-            m_data = bytearray(8)
-            # set powerSetupValue to mode
-            m_data[1] = opts["mode"]
-            # leave period and onTime zero, which breaks powerSetupValue = 3
-        else:
-            m_data = bytearray(0)
-
-        gps_model.gps_send(6, 0x86, m_data)
-
-    def send_cfg_prt(self):
-        "UBX-CFG-PRT, get I/O Port"
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x0, m_data)
-
-    def send_set_speed(self, speed):
-        "UBX-CFG-PRT, set port"
-
-        # FIXME!  Poll current masks, then adjust speed
-        m_data = bytearray(20)
-        m_data[0] = 1             # port 1, UART 1
-        # m_data[0] = 3           # port 3, USB
-        m_data[4] = 0xc0          # 8N1
-        m_data[5] = 0x8           # 8N1
-
-        m_data[8] = speed & 0xff
-        m_data[9] = (speed >> 8) & 0xff
-        m_data[10] = (speed >> 16) & 0xff
-        m_data[11] = (speed >> 24) & 0xff
-
-        m_data[12] = 3             # in, ubx and nmea
-        m_data[14] = 3             # out, ubx and nmea
-        gps_model.gps_send(6, 0, m_data)
-
-    def send_cfg_rst(self, reset_type):
-        "UBX-CFG-RST, reset"
-        # always do a hardware reset
-        # if on USB, this will disconnect and reconnect, giving you
-        # a new tty.
-        m_data = bytearray(4)
-        m_data[0] = reset_type & 0xff
-        m_data[1] = (reset_type >> 8) & 0xff
-        gps_model.gps_send(6, 0x4, m_data)
-
-    def send_cfg_tmode2(self):
-        "UBX-CFG-TMODE2, get time mode 2 configuration"
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x3d, m_data)
-
-    def send_cfg_tp5(self):
-        "UBX-CFG-TP5, get time0 decodes, timepulse 0 and 1"
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x31, m_data)
-        # and timepulse 1
-        m_data = bytearray(1)
-        m_data[0] = 1
-        gps_model.gps_send(6, 0x31, m_data)
-
-    def send_cfg_usb(self):
-        "UBX-CFG-USB, get USB configuration"
-        m_data = bytearray(0)
-        gps_model.gps_send(6, 0x1b, m_data)
-
-    def send_mon_ver(self):
-        "UBX-MON-VER get versions"
-        m_data = bytearray(0)
-        gps_model.gps_send(0x0a, 0x04, m_data)
-
-    def send_nav_posecef(self):
-        "UBX-NAV-POSECEF, poll ECEF position"
-        m_data = bytearray(0)
-        gps_model.gps_send(1, 1, m_data)
-
-    def send_nav_velecef(self):
-        "UBX-NAV-VELECEF, poll ECEF velocity decode"
-        m_data = bytearray(0)
-        gps_model.gps_send(1, 0x11, m_data)
-
-    def send_tim_svin(self):
-        "UBX-TIM-SVIN, get survey in data"
-        m_data = bytearray(0)
-        gps_model.gps_send(0x0d, 0x04, m_data)
-
-    def send_tim_tp(self):
-        "UBX-TIM-TP, get time pulse timedata"
-        m_data = bytearray(0)
-        gps_model.gps_send(0x0d, 0x01, m_data)
-
-    able_commands = {
-                # en/dis able BeiDou
-                "BEIDOU": {"command": send_able_beidou,
-                           "help": "BeiDou"},
-                # en/dis able basic binary messages
-                "BINARY": {"command": send_able_binary,
-                           "help": "basic binary messages"},
-                # en/dis able ECEF
-                "ECEF": {"command": send_able_ecef,
-                         "help": "ECEF"},
-                # en/dis able GPS
-                "GPS": {"command": send_able_gps,
-                        "help": "GPS and QZSS"},
-                # en/dis able GALILEO
-                "GALILEO": {"command": send_able_galileo,
-                            "help": "GALILEO"},
-                # en/dis able GLONASS
-                "GLONASS": {"command": send_able_glonass,
-                            "help": "GLONASS"},
-                # en/dis able basic NMEA messages
-                "NMEA": {"command": send_able_nmea,
-                         "help": "basic NMEA messages"},
-                # en/dis able RAWX
-                "RAWX": {"command": send_able_rawx,
-                         "help": "RAWX measurements"},
-                # en/dis able SBAS
-                "SBAS": {"command": send_able_sbas,
-                         "help": "SBAS"},
-                # en/dis able TP time pulse message
-                "TP": {"command": send_able_tp,
-                       "help": "TP Time Pulse message"},
-                # en/dis able TMODE2 Survey-in
-                "TMODE2": {"command": send_able_tmode2,
-                           "help": "TMODE2"},
-               }
-    commands = {
-                # UBX-CFG-ANT, poll antenna config decode
-                "ANT": {"command": send_cfg_ant,
-                        "help": "UBX-CFG-ANT poll antenna config"},
-                # UBX-CFG-RST cold boot
-                "COLDBOOT": {"command": send_cfg_rst,
-                             "help": "UBS-CFG-RST coldboot the GPS",
-                             "opt": 0xfff},
-                # UBX-CFG-GNSS poll gnss config
-                "GNSS": {"command": send_cfg_gnss,
-                         "help": "UBX-CFG-GNSS poll GNSS config"},
-                # UBX-CFG-RST hot boot
-                "HOTBOOT": {"command": send_cfg_rst,
-                            "help": "UBX-CFG-RST hotboot the GPS",
-                            "opt": 0},
-                # UBX-CFG-NAV5 set Dynamic Platform Model
-                "MODEL": {"command": send_cfg_nav5_model,
-                          "help": "UBX-CFG-NAV5 set Dynamic Platform Model"},
-                # UBX-CFG-NAV5, poll Nav Engine Settings
-                "NAV5": {"command": send_cfg_nav5,
-                         "help": "UBX-CFG-NAV5 poll Nav Engines settings"},
-                # UBX-CFG-PMS, poll power management settings
-                "PMS": {"command": send_cfg_pms,
-                        "help": "UBX-CFG-PMS poll power management settings"},
-                # UBX-CFG-PRT, poll I/O port number
-                "PRT": {"command": send_cfg_prt,
-                        "help": "UBX-CFG-PRT poll I/O port settings"},
-                # UBX-CFG-CFG reset config
-                "RESET": {"command": send_cfg_cfg,
-                          "help": "UBX-CFG-CFG reset config to defaults",
-                          "opt": 1},
-                # UBX-CFG-CFG save config
-                "SAVE": {"command": send_cfg_cfg,
-                         "help": "UBX-CFG-CFG save current config",
-                         "opt": 0},
-                # UBX-TIM-SVIN, get survey in data
-                "SVIN": {"command": send_tim_svin,
-                         "help": "UBX-TIM-SVIN get survey in data"},
-                # UBX-CFG-TMODE2, get time mode 2 config
-                "TMODE2": {"command": send_cfg_tmode2,
-                           "help": "UBX-CFG-TMODE2 get time mode 2 config"},
-                # UBX-TIM-TP, get time pulse timedata
-                "TP": {"command": send_tim_tp,
-                       "help": "UBX-TIM-TP get time pulse timedata"},
-                # UBX-CFG-TP5, get time0 decodes
-                "TP5": {"command": send_cfg_tp5,
-                        "help": "UBX-TIM-TP5 get time pulse decodes"},
-                # UBX-CFG-RST warm boot
-                "WARMBOOT": {"command": send_cfg_rst,
-                             "help": "UBX-CFG-RST warmboot the GPS",
-                             "opt": 1},
-                # poll UBX-CFG-USB
-                "USB": {"command": send_cfg_usb,
-                        "help": "UBX-CFG-USB get USB config"},
-                # poll UBX-MON-VER
-                "VER": {"command": send_mon_ver,
-                        "help": "UBX-MON-VER get GPS version"},
-               }
-    # end class ubx
-
-
-class gps_io(object):
-    """All the GPS I/O in one place"
-
-    Three types of GPS I/O
-    1. read only from a file
-    2. read/write through a device
-    3. read only from a gpsd instance
-    """
-
-    out = b''
-    ser = None
-    input_is_device = False
-
-    def __init__(self, serial_class):
-        "Initialize class"
-
-        Serial = serial_class
-        # buffer to hold read data
-        self.out = b''
-
-        # open the input: device, file, or gpsd
-        if opts['input_file_name'] is not None:
-            # check if input file is a file or device
-            try:
-                mode = os.stat(opts['input_file_name']).st_mode
-            except OSError:
-                sys.stderr.write('%s: failed to open input file %s\n' %
-                                 (PROG_NAME, opts['input_file_name']))
-                sys.exit(1)
-
-            if stat.S_ISCHR(mode):
-                # character device, need not be read only
-                self.input_is_device = True
-
-            if ((opts['disable'] or opts['enable'] or opts['poll'] or
-                 opts['oaf_name'])):
-
-                # check that we can write
-                if opts['read_only']:
-                    sys.stderr.write('%s: read-only mode, '
-                                     'can not send commands\n' % PROG_NAME)
-                    sys.exit(1)
-                if self.input_is_device is False:
-                    sys.stderr.write('%s: input is plain file, '
-                                     'can not send commands\n' % PROG_NAME)
-                    sys.exit(1)
-
-        if opts['target']['server'] is not None:
-            # try to open local gpsd
-            try:
-                self.ser = gps.gpscommon(host=None)
-                self.ser.connect(opts['target']['server'],
-                                 opts['target']['port'])
-
-                # alias self.ser.write() to self.write_gpsd()
-                self.ser.write = self.write_gpsd
-
-                # ask for raw, not rare, data
-                data_out = b'?WATCH={'
-                if opts['target']['device'] is not None:
-                    # add in the requested device
-                    data_out += (b'"device":"' + opts['target']['device'] +
-                                 b'",')
-                data_out += b'"enable":true,"raw":2}\r\n'
-                if VERB_RAW <= opts['verbosity']:
-                    print("sent: ", data_out)
-                self.ser.send(data_out)
-            except socket.error as err:
-                sys.stderr.write('%s: failed to connect to gpsd %s\n' %
-                                 (PROG_NAME, err))
-                sys.exit(1)
-
-        elif self.input_is_device:
-            # configure the serial connections (the parameters refer to
-            # the device you are connecting to)
-
-            try:
-                self.ser = Serial.Serial(
-                    baudrate=opts['input_speed'],
-                    # 8N1 is GREIS default
-                    bytesize=Serial.EIGHTBITS,
-                    parity=Serial.PARITY_NONE,
-                    port=opts['input_file_name'],
-                    stopbits=Serial.STOPBITS_ONE,
-                    # read timeout
-                    timeout=0.05,
-                    # pyserial Ver 3.0+ changes writeTimeout to write_timeout
-                    # just set both
-                    write_timeout=0.5,
-                    writeTimeout=0.5,
-                )
-            except Serial.serialutil.SerialException:
-                # this exception happens on bad serial port device name
-                sys.stderr.write('%s: failed to open serial port "%s"\n'
-                                 '%s: Your computer has the serial ports:\n' %
-                                 (PROG_NAME, opts['input_file_name'],
-                                  PROG_NAME))
-
-                # print out list of supported ports
-                import serial.tools.list_ports as List_Ports
-                ports = List_Ports.comports()
-                for port in ports:
-                    sys.stderr.write("    %s: %s\n" %
-                                     (port.device, port.description))
-                sys.exit(1)
-
-            # flush input buffer, discarding all its contents
-            self.ser.flushInput()
-
-        else:
-            # Read from a plain file of GREIS messages
-            try:
-                self.ser = open(opts['input_file_name'], 'rb')
-            except IOError:
-                sys.stderr.write('%s: failed to open input %s\n' %
-                                 (PROG_NAME, opts['input_file_name']))
-                sys.exit(1)
-
-    def read(self, read_opts):
-        "Read from device, until timeout or expected message"
-
-        # are we expecting a certain message?
-        if gps_model.expect_statement_identifier:
-            # assume failure, until we see expected message
-            ret_code = 1
-        else:
-            # not expecting anything, so OK if we did not see it.
-            ret_code = 0
-
-        try:
-            if read_opts['target']['server'] is not None:
-                # gpsd input
-                start = time.clock()
-                while read_opts['input_wait'] > (time.clock() - start):
-                    # First priority is to be sure the input buffer is read.
-                    # This is to prevent input buffer overuns
-                    if 0 < self.ser.waiting():
-                        # We have serial input waiting, get it
-                        # No timeout possible
-                        # RTCM3 JSON can be over 4.4k long, so go big
-                        new_out = self.ser.sock.recv(8192)
-                        if raw is not None:
-                            # save to raw file
-                            raw.write(new_out)
-                        self.out += new_out
-
-                    consumed = gps_model.decode_msg(self.out)
-                    self.out = self.out[consumed:]
-                    if ((gps_model.expect_statement_identifier and
-                         (gps_model.expect_statement_identifier ==
-                          gps_model.last_statement_identifier))):
-                        # Got what we were waiting for.  Done?
-                        ret_code = 0
-                        if not read_opts['input_forced_wait']:
-                            # Done
-                            break
-
-            elif self.input_is_device:
-                # input is a serial device
-                start = time.clock()
-                while read_opts['input_wait'] > (time.clock() - start):
-                    # First priority is to be sure the input buffer is read.
-                    # This is to prevent input buffer overuns
-                    # pyserial 3.0 replaces inWaiting() with in_waiting
-                    if 0 < self.ser.inWaiting():
-                        # We have serial input waiting, get it
-                        # 1024 is comfortably large, almost always the
-                        # Read timeout is what causes ser.read() to return
-                        new_out = self.ser.read(1024)
-                        if raw is not None:
-                            # save to raw file
-                            raw.write(new_out)
-                        self.out += new_out
-
-                    consumed = gps_model.decode_msg(self.out)
-                    self.out = self.out[consumed:]
-                    if ((gps_model.expect_statement_identifier and
-                         (gps_model.expect_statement_identifier ==
-                          gps_model.last_statement_identifier))):
-                        # Got what we were waiting for.  Done?
-                        ret_code = 0
-                        if not read_opts['input_forced_wait']:
-                            # Done
-                            break
-            else:
-                # ordinary file, so all read at once
-                self.out += self.ser.read()
-                if raw is not None:
-                    # save to raw file
-                    raw.write(self.out)
-
-                while True:
-                    consumed = gps_model.decode_msg(self.out)
-                    self.out = self.out[consumed:]
-                    if 0 >= consumed:
-                        break
-
-        except IOError:
-            # This happens on a good device name, but gpsd already running.
-            # or if USB device unplugged
-            sys.stderr.write('%s: failed to read %s\n'
-                             '%s: Is gpsd already holding the port?\n'
-                             % (PROG_NAME, read_opts['input_file_name'],
-                                PROG_NAME))
-            return 1
-
-        if 0 < ret_code:
-            # did not see the message we were expecting to see
-            sys.stderr.write('%s: waited %0.2f seconds for, '
-                             'but did not get: %%%s%%\n'
-                             % (PROG_NAME, read_opts['input_wait'],
-                                gps_model.expect_statement_identifier))
-        return ret_code
-
-    def write_gpsd(self, data):
-        "write data to gpsd daemon"
-
-        # HEXDATA_MAX = 512, from gps.h, The max hex digits can write.
-        # Input data is binary, converting to hex doubles its size.
-        # Limit binary data to length 255, so hex data length less than 510.
-        if 255 < len(data):
-            sys.stderr.write('%s: trying to send %d bytes, max is 255\n'
-                             % (PROG_NAME, len(data)))
-            return 1
-
-        if opts['target']['device'] is not None:
-            # add in the requested device
-            data_out = b'?DEVICE={"path":"' + opts['target']['device'] + b'",'
-        else:
-            data_out = b'?DEVICE={'
-
-        # Convert binary data to hex and build the message.
-        data_out += b'"hexdata":"' + binascii.hexlify(data) + b'"}\r\n'
-        if VERB_RAW <= opts['verbosity']:
-            print("sent: ", data_out)
-        self.ser.send(data_out)
-        return 0
-
-
-# instantiate the GPS class
-gps_model = ubx()
-
-
-def usage():
-    "Ouput usage information, and exit"
-    print('usage: %s [-c C] [-f F] [-r] [-p P] [-s S] [-v V]\n'
-          '               [-hV?] [-S S]\n'
-          '       -c C          send raw command C to GPS\n'
-          '       -d D          disable D\n'
-          '       -e E          enable E\n'
-          '       -f F          open F as file/device\n'
-          '                     default: %s\n'
-          '       -h            print help\n'
-          '       -m M          optional mode to -p P\n'
-          '       -p P          send a prepackaged query P to GPS\n'
-          '       -R R          save raw data from GPS in file R\n'
-          '                     default: %s\n'
-          '       -r            open file/device read only\n'
-          '       -S S          set GPS speed to S\n'
-          '       -s S          set port speed to S\n'
-          '                     default: %s bps\n'
-          '       -w            wait time\n'
-          '                     default: %s seconds\n'
-          '       -V            print version\n'
-          '       -v V          Set verbosity level to V, 0 to 4\n'
-          '                     default: %s\n'
-          '       -?            print help\n'
-          '\n'
-          'D and E can be one of:' %
-          (PROG_NAME, opts['input_file_name'], opts['raw_file'],
-           opts['input_speed'], opts['input_wait'], opts['verbosity'])
-          )
-
-    for item in sorted(gps_model.able_commands.keys()):
-        print("    %-12s %s" % (item, gps_model.able_commands[item]["help"]))
-
-    print('\nP can be one of:')
-    for item in sorted(gps_model.commands.keys()):
-        print("    %-12s %s" % (item, gps_model.commands[item]["help"]))
-    print('\nOptions can be placed in the UBXOPTS environment variable.\n'
-          'UBXOPTS is processed before the CLI options.')
-    sys.exit(0)
-
-
-if 'UBXOPTS' in os.environ:
-    # grab the UBXOPTS environment variable for options
-    opts['progopts'] = os.environ['UBXOPTS']
-    options = opts['progopts'].split(' ') + sys.argv[1:]
-else:
-    options = sys.argv[1:]
-
-
-try:
-    (options, arguments) = getopt.getopt(options, "?c:d:e:f:hm:rp:s:w:v:R:S:V")
-except getopt.GetoptError as err:
-    sys.stderr.write("%s: %s\n"
-                     "Try '%s -h' for more information.\n" %
-                     (PROG_NAME, str(err), PROG_NAME))
-    sys.exit(2)
-
-for (opt, val) in options:
-    if opt == '-c':
-        opts['command'] = val
-    elif opt == '-d':
-        opts['disable'] = val
-    elif opt == '-e':
-        opts['enable'] = val
-    elif opt == '-f':
-        opts['input_file_name'] = val
-    elif opt == '-h' or opt == '-?':
-        usage()
-    elif opt == '-m':
-        opts['mode'] = int(val)
-    elif opt == '-p':
-        opts['poll'] = val
-    elif opt == '-r':
-        opts['read_only'] = True
-    elif opt == '-s':
-        opts['input_speed'] = int(val)
-        if opts['input_speed'] not in gps_model.speeds:
-            sys.stderr.write('%s: -s invalid speed %s\n' %
-                             (PROG_NAME, opts['input_speed']))
-            sys.exit(1)
-
-    elif opt == '-w':
-        opts['input_wait'] = float(val)
-    elif opt in '-v':
-        opts['verbosity'] = int(val)
-    elif opt in '-R':
-        # raw log file
-        opts['raw_file'] = val
-    elif opt in '-S':
-        opts['set_speed'] = int(val)
-        if opts['set_speed'] not in gps_model.speeds:
-            sys.stderr.write('%s: -S invalid speed %s\n' %
-                             (PROG_NAME, opts['set_speed']))
-            sys.exit(1)
-
-    elif opt == '-V':
-        # version
-        sys.stderr.write('%s: Version %s\n' % (PROG_NAME, gps_version))
-        sys.exit(0)
-
-if opts['input_file_name'] is None:
-    # no input file given
-    # default to local gpsd
-    opts['target']['server'] = "localhost"
-    opts['target']['port'] = gps.GPSD_PORT
-    opts['target']['device'] = None
-    if arguments:
-        # server[:port[:device]]
-        parts = arguments[0].split(':')
-        opts['target']['server'] = parts[0]
-        if 1 < len(parts):
-            opts['target']['port'] = parts[1]
-            if 2 < len(parts):
-                opts['target']['device'] = parts[2]
-
-elif arguments:
-    sys.stderr.write('%s: Both input file and server specified\n' % PROG_NAME)
-    sys.exit(1)
-
-if VERB_PROG <= opts['verbosity']:
-    # dump all options
-    print('Options:')
-    for option in sorted(opts):
-        print("   %s: %s" % (option, opts[option]))
-
-# done parsing arguments from environment and CLI
-
-try:
-    # raw log file requested?
-    raw = None
-    if opts['raw_file']:
-        try:
-            raw = open(opts['raw_file'], 'w')
-        except IOError:
-            sys.stderr.write('%s: failed to open raw file %s\n' %
-                             (PROG_NAME, opts['raw_file']))
-            sys.exit(1)
-
-    # create the I/O instance
-    io_handle = gps_io(serial)
-
-    sys.stdout.flush()
-
-    if opts['disable'] is not None:
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: disable %s\n' % (PROG_NAME, opts['disable']))
-        if opts['disable'] in gps_model.able_commands:
-            command = gps_model.able_commands[opts['disable']]
-            command["command"](gps, 0)
-        else:
-            sys.stderr.write('%s: disable %s not found\n' %
-                             (PROG_NAME, opts['disable']))
-            sys.exit(1)
-
-    elif opts['enable'] is not None:
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: enable %s\n' % (PROG_NAME, opts['enable']))
-        if opts['enable'] in gps_model.able_commands:
-            command = gps_model.able_commands[opts['enable']]
-            command["command"](gps, 1)
-        else:
-            sys.stderr.write('%s: enable %s not found\n' %
-                             (PROG_NAME, opts['enable']))
-            sys.exit(1)
-
-    elif opts['poll'] is not None:
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: poll %s\n' % (PROG_NAME, opts['poll']))
-
-        if 'MODEL' == opts["poll"]:
-            if opts["mode"] is None:
-                opts["mode"] = 0   # default to portable model
-
-        if opts['poll'] in gps_model.commands:
-            command = gps_model.commands[opts['poll']]
-            if 'opt' in command:
-                command["command"](gps, command["opt"])
-            else:
-                command["command"](gps)
-        else:
-            sys.stderr.write('%s: poll %s not found\n' %
-                             (PROG_NAME, opts['poll']))
-            sys.exit(1)
-
-    elif opts['set_speed'] is not None:
-        gps_model.send_set_speed(opts['set_speed'])
-
-    elif opts['command'] is not None:
-        # zero length is OK to send
-        # add trailing new line
-        opts['command'] += "\n"
-
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: command %s\n' % (PROG_NAME, opts['command']))
-        gps_model.gps_send_raw(opts['command'])
-
-    exit_code = io_handle.read(opts)
-
-    if ((VERB_RAW <= opts['verbosity']) and io_handle.out):
-        # dump raw left overs
-        print("Left over data:")
-        print(io_handle.out)
-
-    sys.stdout.flush()
-    io_handle.ser.close()
-
-except KeyboardInterrupt:
-    print('')
-    exit_code = 1
-
-sys.exit(exit_code)
diff --git a/contrib/zerk b/contrib/zerk
deleted file mode 100755
index 848d216b..00000000
--- a/contrib/zerk
+++ /dev/null
@@ -1,1896 +0,0 @@
-#!/usr/bin/env python
-# -*- coding: UTF-8
-'''
-zerk -- GREIS configurator and packet decoder
-
-usage: zerk [OPTIONS] [server[:port[:device]]]
-'''
-
-# This program conforms to the JAVAD document:
-#    GNSS Receiver External Interface Specification
-#    Revised: October 11, 2017
-#
-# Hereafter referred to as "the specification"
-#
-# This file is Copyright (c) 2018 by the GPSD project
-# BSD terms apply: see the file COPYING in the distribution root for details.
-#
-# This code runs compatibly under Python 2 and 3.x for x >= 2.
-# Preserve this property!
-#
-# ENVIRONMENT:
-#    Options in the ZERKOPTS environment variable will be parsed before
-#    the CLI options.  A handy place to put your '-f /dev/ttyXX -s SPEED'
-#
-# example usages:
-#    Coldboot the GPS:          zerk -p COLDBOOT
-#    Print current serial port: zerk -c "print,/cur/term"
-#    Decode raw log file:       zerk -r -f greis-binary.log -v 2
-#    Change GPS port speed:     zerk -S 230400
-#    Watch entire reset cycle:  zerk -p RESET -v 2 -w 20 -W
-#    poll SVs Status:     zerk -W -w 2 -v 2 -c "out,,jps/{CS,ES,GS,Is,WS,QS}"
-#    dump local gpsd data       zerk -v 2 -w 5 localhost
-#
-# TODO: no CRC16 packets handled yet
-# TODO: more packet decodes
-
-from __future__ import absolute_import, print_function, division
-
-import binascii      # for binascii.hexlify()
-import getopt        # for getopt.getopt(), to parse CLI options
-import hashlib       # for hashlib.sha1
-import os            # for os.environ
-import socket        # for socket.error
-import stat          # for stat.S_ISBLK()
-import struct        # for pack()
-import sys
-import time
-import xml.etree.ElementTree  # to parse .jpo files
-
-PROG_NAME = 'zerk'
-
-try:
-    import serial
-except ImportError:
-    # treat serial as special since it is not part of standard Python
-    sys.stderr.write("%s: failed to import pyserial\n" % PROG_NAME)
-    sys.exit(2)
-
-try:
-    import gps
-except ImportError:
-    # PEP8 says local imports last
-    sys.stderr.write("%s: failed to import gps, check PYTHON_PATH\n" %
-                     PROG_NAME)
-    sys.exit(2)
-
-gps_version = '3.18-dev'
-if gps.__version__ != gps_version:
-    sys.stderr.write("%s: ERROR: need gps module version %s, got %s\n" %
-                     (PROG_NAME, gps_version, gps.__version__))
-    sys.exit(1)
-
-
-VERB_QUIET = 0   # quiet
-VERB_NONE = 1    # just output requested data and some info
-VERB_DECODE = 2  # decode all messages
-VERB_INFO = 3    # more info
-VERB_RAW = 4     # raw info
-VERB_PROG = 5    # program trace
-
-# dictionary to hold all user options
-opts = {
-    # command to send to GPS, -c
-    'command': None,
-    # command for -d disable
-    'disable': None,
-    # command for -e enable
-    'enable': None,
-    # default input -f file
-    'input_file_name': None,
-    # default forced wait? -W
-    'input_forced_wait': False,
-    # default port speed -s
-    'input_speed': 115200,
-    # default input wait time -w in seconds
-    'input_wait': 2.0,
-    # the name of an OAF file, extension .jpo
-    'oaf_name': None,
-    # poll command -p
-    'poll': None,
-    # raw log file name
-    'raw_file': None,
-    # open port read only -r
-    'read_only': False,
-    # speed to set GPS -S
-    'set_speed': None,
-    # target gpsd (server:port:device) to connect to
-    'target': {"server": None, "port": gps.GPSD_PORT, "device": None},
-    # verbosity level, -v
-    'verbosity': VERB_NONE,
-    # contents of environment variable ZERKOPTS
-    'progopts': '',
-}
-
-
-class greis(object):
-    """A class for working with the GREIS GPS message formats
-
-    This class contains functions to decode messages in the Javad GREIS
-    "Receiver Input Language" and "Receiver Messages" formats.
-    """
-
-    # when a statement identifier is received, it is stored here
-    last_statement_identifier = None
-    # expected statement identifier.
-    expect_statement_identifier = False
-    # ID of current message as a string
-    s_id = ''
-
-    def __init__(self):
-        "Initialize class"
-
-        self.last_statement_identifier = None
-        self.expect_statement_identifier = False
-        # last epoch received in [~~]
-        # epoch == None means never got epoch, epoch == -1 means missing.
-        self.epoch = None
-
-    def f4_s(self, f):
-        "convert an '! f4' to a string"
-
-        if gps.isfinite(f):
-            # yeah, the precision is a guess
-            return "%.6f" % f
-        return 'X'
-
-    def f8_s(self, f):
-        "convert an '! f8' to a string"
-
-        if gps.isfinite(f):
-            # yeah, the precision is a guess
-            return "%.4f" % f
-        return 'X'
-
-    def i1_s(self, i):
-        "convert an '! i1' to a string"
-        return 'X' if i == 127 else str(i)
-
-    def i2_s(self, i):
-        "convert an '! i2' to a string"
-        return 'X' if i == 32767 else str(i)
-
-    def i4_s(self, i):
-        "convert an '! i4' to a string"
-        return 'X' if i == 2147483647 else str(i)
-
-    def u1_s(self, u):
-        "convert an '! u1' to a string"
-        return 'X' if u == 255 else str(u)
-
-    def u2_s(self, u):
-        "convert an '! u2' to a string"
-        return 'X' if u == 65535 else str(u)
-
-    def u4_s(self, u):
-        "convert an '! u4' to a string"
-        return 'X' if u == 4294967295 else str(u)
-
-    def isuchex(self, c):
-        "Is byte an upper case hex char?"
-        if 48 <= c and 57 >= c:
-            # 0 to 9
-            return int(c) - 48
-        if 65 <= c and 70 >= c:
-            # A to F
-            return int(c) - 55
-        return -1
-
-    soltypes = {0: "None",
-                1: "3D",
-                2: "DGPS",
-                3: "RTK float",
-                4: "RTK fixed",
-                5: "fixed"
-                }
-
-    # allowable speeds
-    speeds = (460800, 230400, 153600, 115200, 57600, 38400, 19200, 9600,
-              4800, 2400, 1200, 600, 300)
-
-    def msg_c_(self, payload):
-        "[c?] decode, Smoothing Corrections"
-
-        s = ' smooth'
-        for i in range(0, len(payload) - 1, 2):
-            u = struct.unpack_from('<h', payload, i)
-            s += " " + self.i2_s(u[0])
-
-        return s + '\n'
-
-    def msg__p(self, payload):
-        "[?p] decode, Integer Relative Carrier Phases"
-
-        s = ' rcp'
-        for i in range(0, len(payload) - 1, 4):
-            u = struct.unpack_from('<l', payload, i)
-            s += " " + self.i4_s(u[0])
-
-        return s + '\n'
-
-    def msg__d(self, payload):
-        "[?d] decode, Relative Doppler"
-
-        s = ' srdp'
-        for i in range(0, len(payload) - 1, 2):
-            u = struct.unpack_from('<h', payload, i)
-            s += " " + self.i2_s(u[0])
-
-        return s + '\n'
-
-    def msg__r(self, payload):
-        "[?r] decode, Integer Relative Pseudo-ranges"
-
-        s = ' srdp'
-        for i in range(0, len(payload) - 1, 2):
-            u = struct.unpack_from('<h', payload, i)
-            s += " " + self.i2_s(u[0])
-
-        return s + '\n'
-
-    def msg__A(self, payload):
-        "[?A] decode, GPS, GALILEO Almanac"
-        m_len = len(payload)
-
-        if ('[EA]' == self.s_id) and (49 > m_len):
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BhlBBBfffffffff', payload, 0)
-
-        s = (" sv %u wna %d toa %d healthA %u healthS %u config %u\n"
-             "     af1 %f af0 %f rootA %f ecc %f m0 %f\n"
-             "     omega0 %f argPer %f delf %f omegaDot %f\n" % u)
-
-        if '[EA]' == self.s_id:
-            u = struct.unpack_from('<H', payload, 46)
-            s += ("     iod %d" % (u[0]))
-        return s
-
-    def msg__E(self, payload):
-        "[?E] decode, SNR x 4"
-
-        s = ' cnrX4'
-        for i in range(0, len(payload) - 1, 1):
-            u = struct.unpack_from('<B', payload, i)
-            s += " " + self.u1_s(u[0])
-
-        return s + '\n'
-
-    def msg_WE(self, payload):
-        "[WE] decode, SBAS Ephemeris"
-
-        u = struct.unpack_from('<BBBBLdddffffffffLHB', payload, 0)
-        s = (" waasPrn %u gpsPrn %u iod %u acc %u tod %u\n"
-             "     xg %f yg %f zg %f\n"
-             "     vxg %f vyg %f vzg %f\n"
-             "     vvxg %f vvyg %f vvzg %f\n"
-             "     agf0 %f agf1 %f tow %u wn %u flags %u\n" % u)
-
-        return s
-
-    def msg_r(self, payload):
-        "[r?] decode, Integer Psudeo Ranges"
-
-        s = ' spr'
-        for i in range(0, len(payload) - 1, 4):
-            u = struct.unpack_from('<l', payload, i)
-            s += " " + self.i4_s(u[0])
-
-        return s + '\n'
-
-    def msg_AZ(self, payload):
-        "[AZ] decode, Satellite Azimuths"
-
-        s = " azim"
-        for i in range(0, len(payload) - 1):
-            # azimuth/2, 0 to 180 degrees
-            s += " " + self.u1_s(payload[i])
-
-        return s + '\n'
-
-    def msg_BP(self, payload):
-        "[BP] decode"
-
-        u = struct.unpack_from('<f', payload, 0)
-        return " acc %.3e\n" % u[0]
-
-    def msg_DC(self, payload):
-        "[DC] decode, P/L1 Doppler"
-
-        s = " dp"
-        for i in range(0, len(payload) - 1, 4):
-            u = struct.unpack_from('<L', payload, i)
-            s += " %d" % (u[0])
-
-        return s + '\n'
-
-    def msg_DO(self, payload):
-        "[DO] decode"
-
-        u = struct.unpack_from('<ff', payload, 0)
-        return " val %.3f sval %.3f\n" % u
-
-    def msg_DP(self, payload):
-        "[DP] decode"
-
-        u = struct.unpack_from('<fffBfB', payload, 0)
-        return (" hdop %f vdop %f tdop %f edop %f\n"
-                "     solType %s\n" %
-                (u[0], u[1], u[2], u[4], self.soltypes[u[3]]))
-
-    def msg_E_(self, payload):
-        "[E?] decode, SNR"
-
-        s = ' cnr'
-        for i in range(0, len(payload) - 1):
-            s += " " + self.u1_s(payload[i])
-
-        return s + '\n'
-
-    def msg_ET(self, payload):
-        "[::](ET) decode, Epoch time, end of epoch"
-
-        u = struct.unpack_from('<L', payload, 0)
-        if ((self.epoch is not None and self.epoch != u[0])):
-            if -1 == self.epoch:
-                print("Error: [::](ET) missing [~~](RT)\n")
-            else:
-                print("Error: [::](ET) Wrong Epoch %u, should be %u\n" %
-                      (u[0], self.epoch))
-        # reset epoch
-        self.epoch = -1
-        return "(ET) tod %u\n" % u[0]
-
-    def msg_EL(self, payload):
-        "[EL] decode, Satellite Elevations"
-
-        s = " elev"
-        for i in range(0, len(payload) - 1):
-            # looking for integer (-90 to 90), not byte
-            u = struct.unpack_from('<b', payload, i)
-            s += " " + self.i1_s(u[0])
-
-        return s + '\n'
-
-    def msg_ER(self, payload):
-        "[ER] decode, Error messages"
-
-        parts = payload.split(b'%')
-        if 1 < len(parts):
-            self.last_statement_identifier = parts[1]
-
-        s_payload = "".join(map(chr, payload))
-        print("[ER] %s\n" % s_payload)
-        return " %s\n" % s_payload
-
-    def msg_EU(self, payload):
-        "[EU] decode, GALILEO UTC and GPS Time Parameters"
-
-        u = struct.unpack_from('<dfLHbBHbffLHH', payload, 0)
-        return (" ao %f a1 %f tot %u wnt %u dtls %d dn %u wnlsf %u\n"
-                "     dtlsf %d a0g %f a1g %f t0g %u wn0g %u flags %#x\n" % u)
-
-    def msg_FC(self, payload):
-        "[FC] [F1] [F2] [F3] [f5] [Fl] decode, Signal Lock Loop Flags"
-
-        s = " flags 0x"
-        for i in range(0, len(payload) - 1):
-            u = struct.unpack_from('<H', payload, i)
-            s += " %2x" % (u[0])
-
-        return s + '\n'
-
-    def msg__E1(self, payload):
-        "[?E] decode, BeiDos, GPS, GALILEO, IRNSS Ephemeris "
-        m_len = len(payload)
-        # [GE]
-        if ('[IE]' == self.s_id) and (124 > m_len):
-            return " Bad Length %s" % m_len
-        if ('[CN]' == self.s_id) and (132 > m_len):
-            return " Bad Length %s" % m_len
-        if ('[EN]' == self.s_id) and (145 > m_len):
-            return " Bad Length %s" % m_len
-
-        u = struct.unpack_from('<BLBhlbBhfffflhddddddfffffffff', payload, 0)
-        s = (" sv %u tow %u flags %u iodc %d toc %d ura %d healthS %u\n"
-             "     wn %d tgd %f af2 %f af1 %f af0 %f toe %d\n"
-             "     iode %d rootA %f ecc %f m0 %f omega0 %f\n"
-             "     inc0 %f argPer %f deln %f omegaDot %f\n"
-             "     incDot %f crc %f crs %f cuc %f\n"
-             "     cus %f cic %f cis %f\n" % u)
-
-        if '[EN]' == self.s_id:
-            u = struct.unpack_from('<fffffBB', payload, 122)
-            s += ("     bgdE1E5a %f bgdE1E5b %f aio %f ai1 %f ai2 %f\n"
-                  "     sfi %u navType %u" % u)
-            if 149 <= m_len:
-                # DAf0 added in 3.7.0
-                u = struct.unpack_from('<f', payload, 144)
-                s += (" DAf0 %f" % u)
-            s += '\n'
-
-        if ('[IE]' == self.s_id) and (124 > m_len):
-            u = struct.unpack_from('<B', payload, 122)
-            s += ("     navType %u\n" % u[0])
-
-        if ('[CN]' == self.s_id) and (132 > m_len):
-            u = struct.unpack_from('<fBf', payload, 122)
-            s += ("     tgd2 %f navType %u DAf0 %f\n" % u)
-
-        # TODO: decode length 160 168
-
-        return s
-
-    def msg_GT(self, payload):
-        "[GT] decode, GPS Time "
-
-        u = struct.unpack_from('<LH', payload, 0)
-        return " tow %u wn %d\n" % u
-
-    def msg_ID(self, payload):
-        "[ID] Ionosphere Delays"
-
-        s = ' delay'
-        for i in range(0, len(payload) - 1, 4):
-            u = struct.unpack_from('<f', payload, i)
-            s += " %s" % self.f4_s(u[0])
-
-        return s + '\n'
-
-    def msg_IO(self, payload):
-        "[IO] decode, GPS Ionospheric Parameters"
-
-        u = struct.unpack_from('<LHffffffff', payload, 0)
-
-        return (" tot %d wn %u alpha0 %f alpha1 %f alpha2 %f\n"
-                "     alpha3 %f beta0 %u beta1 %d beta2 %f\n"
-                "     beta3 %f\n" % u)
-
-    def msg_LO(self, payload):
-        "[LO] decode, undocumented message"
-
-        return " Undocumented message\n"
-
-    def msg_MF(self, payload):
-        "[MF] Messages Format"
-
-        u = struct.unpack_from('<BBBBBBB', payload, 0)
-        return (" id %c%c majorVer %c%c minorVer %c%c order %c\n" %
-                (chr(u[0]), chr(u[1]), chr(u[2]), chr(u[3]),
-                 chr(u[4]), chr(u[5]), chr(u[6])))
-
-    def msg_PM(self, payload):
-        "[PM] parameters"
-
-        # PM only seems to work after a coldboot, once
-        # zerk -v 2 -w 20 -c 'out,,jps/{PM}' -W
-        return " %s\n" % payload
-
-    def msg_PV(self, payload):
-        "[PV] decode, Cartesian Position and Velocity"
-
-        u = struct.unpack_from('<dddfffffBB', payload, 0)
-        return (" x %s y %s z %s sigma %s\n"
-                "     vx %s vy %s vz %s\n"
-                "     vsigma %s soltype %s\n" %
-                (self.f8_s(u[0]), self.f8_s(u[1]), self.f8_s(u[2]),
-                 self.f4_s(u[3]), self.f4_s(u[4]), self.f4_s(u[5]),
-                 self.f4_s(u[6]), self.f4_s(u[7]), self.soltypes[u[8]]))
-
-    def msg_RD(self, payload):
-        "[RD] decode, Receiver Date"
-
-        u = struct.unpack_from('<HBBB', payload, 0)
-        return " year %d month %d day %d base %d\n" % u
-
-    def msg_RE(self, payload):
-        "[RE] decode"
-
-        parts = payload.split(b'%')
-        if 1 < len(parts):
-            # Got a statement identifier (ID), save it?
-            # Multiline statement if payload ends with comma or left brace
-            if payload[-1] not in (ord(','), ord('{')):
-                # yes, this is the end
-                self.last_statement_identifier = parts[1]
-
-            # Get the message body
-            part1 = parts[1].split(b',')
-
-            if 'em' == parts[1]:
-                # Probably no parts[2]
-                print("Enable Messages %s" % parts[2])
-                return " Enable Messages %s\n" % parts[2]
-
-            if 'id' == parts[1]:
-                print("ID: %s" % parts[2])
-                return " ID %s\n" % parts[2]
-
-            if 'opts' == part1[0]:
-                if 1 < len(part1):
-                    s = "OAF %s: %s" % (part1[1], parts[2])
-                else:
-                    s = " OAF: %s" % (parts[2])
-                print(s)
-                return " %s\n" % s
-
-            if 'serial' == parts[1]:
-                print("SERIAL: %s" % parts[2])
-                return " SERIAL %s\n" % parts[2]
-
-            if 'vendor' == parts[1]:
-                print("VENDOR: %s" % parts[2])
-                return " Vendor %s\n" % parts[2]
-
-            if 'ver' == parts[1]:
-                print("VER: %s" % parts[2])
-                return " Version %s\n" % parts[2]
-
-            # unknown statement identifier
-            s_payload = "".join(map(chr, payload))
-            print("RE: %s\n" % s_payload)
-
-        return " %s\n" % s_payload
-
-    def msg_RT(self, payload):
-        "[~~](RT) decode, Receiver Time, start of epoch"
-
-        if self.epoch is not None and -1 != self.epoch:
-            print("Error: [~~](RT) missing [::](ET)\n")
-
-        u = struct.unpack_from('<L', payload, 0)
-        # save start of epoch
-        self.epoch = u[0]
-        return "(RT) tod %u\n" % self.epoch
-
-    def msg_S_(self, payload):
-        "[CS], [ES], [GS], [Is], [WS], [NS], [QS], decode, SVs Status"
-
-        # to poll them all: zerk -W -w 2 -v 2 -c "out,,jps/{CS,ES,GS,Is,WS,QS}"
-        # TODO, check @checksum
-
-        return "%s" % payload
-
-    def msg_SE(self, payload):
-        "[SE] decode"
-
-        u = struct.unpack_from('<BBBBB', payload, 0)
-        return " data 0x %x %x %x %x %x\n" % u
-
-    def msg_SG(self, payload):
-        "[SG] decode"
-
-        u = struct.unpack_from('<ffffBB', payload, 0)
-        return (" hpos %s vpos %s hvel %s vvel %s\n"
-                "     soltype %s\n" %
-                (self.f4_s(u[0]), self.f4_s(u[1]), self.f4_s(u[2]),
-                 self.f4_s(u[3]), self.soltypes[u[4]]))
-
-    def msg_SI(self, payload):
-        "[SI] decode, Satellite Index, deprecated by Javad, use [SX]"
-
-        # [SX] require 3.7 firmware, we use [SI] to support 3.6
-        s = " usi"
-        for i in range(0, len(payload) - 1):
-            s += " %d" % payload[i]
-
-        return s + '\n'
-
-    def msg_SP(self, payload):
-        "[SP] decode, Position Covariance Matrix"
-
-        u = struct.unpack_from('<ffffffffffB', payload, 0)
-        return (" xx % f yy % f zz % f tt % f xy % f\n"
-                "     xz % f xt % f yz % f yt % f zt % f\n"
-                "     solType %s\n" %
-                (u[0], u[1], u[2], u[3], u[4],
-                 u[5], u[6], u[7], u[8], u[9],
-                 self.soltypes[u[10]]))
-
-    def msg_SS(self, payload):
-        "[SS] decode, Satellite Navigation Status"
-
-        s = " ns"
-        for i in range(0, len(payload) - 2):
-            s += " %d" % payload[i]
-
-        return (s + '\n     solType %s\n' %
-                self.soltypes[payload[len(payload) - 2]])
-
-    def msg_ST(self, payload):
-        "[ST] decode, Solution Time Tag"
-
-        u = struct.unpack_from('<LBB', payload, 0)
-        return (" time %u ms, soltype %s\n" %
-                (u[0], self.soltypes[u[1]]))
-
-    def msg_SX(self, payload):
-        "[SX] decode, Extended Satellite Indices"
-
-        # [SX] require 3.7 firmware
-        s = " ESI"
-        for i in range(0, len(payload) - 2, 2):
-            u = struct.unpack_from('<BB', payload, i)
-            s += " (%u, %u)" % u
-
-        return s + '\n'
-
-    def msg_TC(self, payload):
-        "[TC] decode, CA/L1 Continous Tracking Time"
-
-        s = " tt"
-        for i in range(0, len(payload) - 1, 2):
-            u = struct.unpack_from('<H', payload, i)
-            s += " %.2f" % u[0]
-
-        return s + '\n'
-
-    def msg_TO(self, payload):
-        "[TO] decode, Reference Time to Receiver Time Offset"
-
-        u = struct.unpack_from('<dd', payload, 0)
-        return " val %.3f sval %.3f\n" % u
-
-    def msg_UO(self, payload):
-        "[UO] decode, GPS UTC Time Parameters"
-
-        u = struct.unpack_from('<dfLHbBHb', payload, 0)
-        return (" a0 %f a1 %f tot %d wnt %d dtls %d\n"
-                "     dn %d wnlsf %d dtlsf %d\n" % u)
-
-    def msg_WA(self, payload):
-        "[WA] decode"
-
-        u = struct.unpack_from('<BBBBLdddfffLH', payload, 0)
-        return (" waasPrn %d gpsPrn %d if %d healthS %d tod %d\n"
-                "     ECEF %.3f %.3f %.3f, %.3f %.3f %.3f\n"
-                "     tow %d wn %d\n" % u)
-
-    def msg_WU(self, payload):
-        "[WU] decode, SBAS UTC Time Parameters"
-
-        u = struct.unpack_from('<dfLHbBHbfbLHB', payload, 0)
-        return (" ao %f a1 %f tot %u wnt %u dtls %d dn %u\n"
-                "wnlsf %u dtlsf %d utcsi %d tow %u wn %u flags %#x\n" % u)
-
-    # table from message id to respective message decoder.
-    # Note: id (%id%) is different than ID (statement identifier)
-    # the id is the first two characters of a GREIS receiver Message
-    # see section 3.3 of the specification
-    messages = {
-        '[0d]': (msg__d, 1),
-        '[1d]': (msg__d, 1),
-        '[1E]': (msg__E, 1),
-        '[1p]': (msg__p, 1),
-        '[1r]': (msg__r, 1),
-        '[2d]': (msg__d, 1),
-        '[2E]': (msg__E, 1),
-        '[2p]': (msg__p, 1),
-        '[2r]': (msg__r, 1),
-        '[3d]': (msg__d, 1),
-        '[3E]': (msg__E, 1),
-        '[3p]': (msg__p, 1),
-        '[3r]': (msg__r, 1),
-        '[5d]': (msg__d, 1),
-        '[5E]': (msg__E, 1),
-        '[5p]': (msg__p, 1),
-        '[5r]': (msg__r, 1),
-        '[AZ]': (msg_AZ, 1),
-        '[BP]': (msg_BP, 5),
-        '[c1]': (msg_c_, 1),
-        '[c2]': (msg_c_, 1),
-        '[c3]': (msg_c_, 1),
-        '[c5]': (msg_c_, 1),
-        '[CA]': (msg__A, 47),
-        '[cc]': (msg_c_, 1),
-        '[CE]': (msg__E, 1),
-        '[cl]': (msg_c_, 1),
-        '[CN]': (msg__E1, 123),
-        '[cp]': (msg__p, 1),
-        '[cr]': (msg__r, 1),
-        '[CS]': (msg_S_, 8),
-        '[DC]': (msg_DC, 1),
-        '[DO]': (msg_DO, 6),
-        '[DP]': (msg_DP, 18),
-        '[E1]': (msg_E_, 1),
-        '[E2]': (msg_E_, 1),
-        '[E3]': (msg_E_, 1),
-        '[E5]': (msg_E_, 1),
-        '[EA]': (msg__A, 47),
-        '[EC]': (msg_E_, 1),
-        '[El]': (msg_E_, 1),
-        '[EL]': (msg_EL, 1),
-        '[EN]': (msg__E1, 123),
-        '[ER]': (msg_ER, 1),
-        '[ES]': (msg_S_, 8),
-        '[EU]': (msg_EU, 40),
-        '[F1]': (msg_FC, 1),
-        '[F2]': (msg_FC, 1),
-        '[F3]': (msg_FC, 1),
-        '[F5]': (msg_FC, 1),
-        '[FA]': (msg_FC, 1),
-        '[FC]': (msg_FC, 1),
-        '[Fl]': (msg_FC, 1),
-        '[GA]': (msg__A, 47),
-        '[GE]': (msg__E1, 123),
-        '[GS]': (msg_S_, 8),
-        '[GT]': (msg_GT, 7),
-        '[IA]': (msg__A, 47),
-        '[ID]': (msg_ID, 1),
-        '[IE]': (msg__E1, 123),
-        '[IO]': (msg_IO, 39),
-        '[Is]': (msg_S_, 8),
-        '[ld]': (msg__d, 1),
-        '[lE]': (msg__E, 1),
-        '[lp]': (msg__p, 1),
-        '[lr]': (msg__r, 1),
-        '[LO]': (msg_LO, 1),
-        '[MF]': (msg_MF, 9),
-        '[::]': (msg_ET, 4),
-        '[~~]': (msg_RT, 4),
-        '[NS]': (msg_S_, 8),
-        '[PM]': (msg_PM, 0),
-        '[PV]': (msg_PV, 46),
-        '[QA]': (msg__A, 47),
-        '[QE]': (msg__E1, 123),
-        '[QS]': (msg_S_, 8),
-        '[r1]': (msg_r, 1),
-        '[r2]': (msg_r, 1),
-        '[r3]': (msg_r, 1),
-        '[r5]': (msg_r, 1),
-        '[rc]': (msg_r, 1),
-        '[RD]': (msg_RD, 6),
-        '[RE]': (msg_RE, 1),
-        '[rl]': (msg_r, 1),
-        '[rx]': (msg_r, 1),
-        '[SE]': (msg_SE, 6),
-        '[SG]': (msg_SG, 18),
-        '[SI]': (msg_SI, 1),
-        '[SP]': (msg_SP, 42),
-        '[SS]': (msg_SS, 1),
-        '[ST]': (msg_ST, 6),
-        '[SX]': (msg_SX, 1),
-        '[TC]': (msg_TC, 1),
-        '[TO]': (msg_TO, 6),
-        '[UO]': (msg_UO, 24),
-        '[WA]': (msg_WA, 51),
-        '[WE]': (msg_WE, 73),
-        '[WS]': (msg_S_, 8),
-        '[WU]': (msg_WU, 40),
-    }
-
-    def decode_msg(self, out):
-        "Decode one message and then return number of chars consumed"
-
-        state = 'BASE'
-        consumed = 0
-        # raw message, sometimes used for checksum calc
-        m_raw = bytearray(0)
-
-        # decode state machine
-        for this_byte in out:
-            consumed += 1
-            if isinstance(this_byte, str):
-                # a character, probably read from a file
-                c = ord(this_byte)
-            else:
-                # a byte, probably read from a serial port
-                c = int(this_byte)
-
-            if VERB_RAW <= opts['verbosity']:
-                if (ord(' ') <= c) and (ord('~') >= c):
-                    # c is printable
-                    print("state: %s char %c (%#x)" % (state, chr(c), c))
-                else:
-                    # c is not printable
-                    print("state: %s char %#x" % (state, c))
-
-            m_raw.extend([c])
-
-            # parse input stream per GREIS Ref Guide Section 3.3.3
-            if 'BASE' == state:
-                # start fresh
-                # place to store 'comments'
-                comment = ''
-                # message id byte one
-                m_id1 = 0
-                # message id byte two
-                m_id2 = 0
-                # message length as integer
-                m_len = 0
-                # byte array to hold payload, including possible checksum
-                m_payload = bytearray(0)
-                m_raw = bytearray(0)
-                m_raw.extend([c])
-
-                if (ord('0') <= c) and (ord('~') >= c):
-                    # maybe id 1, '0' to '~'
-                    state = 'ID1'
-
-                    # start the grab
-                    m_id1 = c
-                    continue
-
-                if ord("%") == c:
-                    # start of %ID%, Receiver Input Language
-                    # per GREIS Ref Guide Section 2.2
-                    state = 'RIL'
-
-                    # start fresh
-                    comment = "%"
-                    continue
-
-                if ord("$") == c:
-                    # NMEA line, treat as comment
-                    state = 'NMEA'
-
-                    # start fresh
-                    comment = "$"
-                    continue
-
-                if ord("#") == c:
-                    # comment line
-                    state = 'COMMENT'
-
-                    # start fresh
-                    comment = "#"
-                    continue
-
-                if ord('\n') == c or ord('\r') == c:
-                    # stray newline or linefeed, eat it
-                    return consumed
-
-                # none of the above, stay in BASE
-                continue
-
-            if state in ('COMMENT', 'JSON', 'RIL'):
-                # inside comment
-                if ord('\n') == c or ord('\r') == c:
-                    # Got newline or linefeed
-                    # GREIS terminates messages on <CR> or <LF>
-                    # Done, got a full message
-                    if b'{"class":"ERROR"' in comment:
-                        # always print gpsd errors
-                        print(comment)
-                    elif VERB_DECODE <= opts['verbosity']:
-                        print(comment)
-                    return consumed
-                else:
-                    comment += chr(c)
-                continue
-
-            if 'ID1' == state:
-                # maybe id 2, '0' to '~'
-                if ord('"') == c:
-                    # technically could be GREIS, but likely JSON
-                    state = 'JSON'
-                    comment += chr(m_id1) + chr(c)
-                elif (ord('0') <= c) and (ord('~') >= c):
-                    state = 'ID2'
-                    m_id2 = c
-                else:
-                    state = 'BASE'
-                continue
-
-            if 'ID2' == state:
-                # maybe len 1, 'A' to 'F'
-                x = self.isuchex(c)
-                if -1 < x:
-                    state = 'LEN1'
-                    m_len = x * 256
-                else:
-                    state = 'BASE'
-                continue
-
-            if 'LEN1' == state:
-                # maybe len 2, 'A' to 'F'
-                x = self.isuchex(c)
-                if -1 < x:
-                    state = 'LEN2'
-                    m_len += x * 16
-                else:
-                    state = 'BASE'
-                continue
-
-            if 'LEN2' == state:
-                # maybe len 3, 'A' to 'F'
-                x = self.isuchex(c)
-                if -1 < x:
-                    state = 'PAYLOAD'
-                    m_len += x
-                else:
-                    state = 'BASE'
-                continue
-
-            if 'NMEA' == state:
-                # inside NMEA
-                if ord('\n') == c or ord('\r') == c:
-                    # Got newline or linefeed
-                    # done, got a full message
-                    # GREIS terminates messages on <CR> or <LF>
-                    if VERB_DECODE <= opts['verbosity']:
-                        print(comment)
-                    return consumed
-                else:
-                    comment += chr(c)
-                continue
-
-            if 'PAYLOAD' == state:
-                # getting payload
-                m_payload.extend([c])
-                if len(m_payload) < m_len:
-                    continue
-
-                # got entire payload
-                self.s_id = "[%c%c]" % (chr(m_id1), chr(m_id2))
-                if VERB_DECODE <= opts['verbosity']:
-                    x_payload = binascii.hexlify(m_payload)
-
-                # [RE], [ER] and more have no 8-bit checksum
-                # assume the rest do
-                if ((self.s_id not in ('[CS]', '[ER]', '[ES]', '[GS]', '[Is]',
-                                       '[MF]', '[NS]', '[PM]', '[QS]', '[RE]',
-                                       '[WS]') and
-                     not self.checksum_OK(m_raw))):
-                    print("ERROR: Bad checksum\n")
-                    if VERB_DECODE <= opts['verbosity']:
-                        print("DECODE: id: %s len: %d\n"
-                              "DECODE: payload: %s\n" %
-                              (self.s_id, m_len, x_payload))
-                    # skip it.
-                    return consumed
-
-                if self.s_id in self.messages:
-                    if VERB_INFO <= opts['verbosity']:
-                        print("INFO: id: %s len: %d\n"
-                              "INFO: payload: %s\n" %
-                              (self.s_id, m_len, x_payload))
-
-                    (decode, length) = self.messages[self.s_id]
-                    if m_len < length:
-                        print("DECODE: %s Bad Length %s\n" %
-                              (self.s_id, m_len))
-                    else:
-                        s = self.s_id + decode(self, m_payload)
-                        if VERB_DECODE <= opts['verbosity']:
-                            print(s)
-                else:
-                    # unknown message
-                    if VERB_DECODE <= opts['verbosity']:
-                        print("DECODE: Unknown: id: %s len: %d\n"
-                              "DECODE: payload: %s\n" %
-                              (self.s_id, m_len, x_payload))
-                return consumed
-
-            # give up
-            state = 'BASE'
-
-        # fell out of loop, no more chars to look at
-        return 0
-
-    def checksum_OK(self, raw_msg):
-        "Check the i8-bit checksum on a message, return True if good"
-
-        # some packets from the GPS use CRC16, some i8-bit checksum, some none
-        # only 8-bit checksum done here for now
-        calc_checksum = self.checksum(raw_msg, len(raw_msg) - 1)
-        rcode = raw_msg[len(raw_msg)-1] == calc_checksum
-        if VERB_RAW <= opts['verbosity']:
-            print("Checksum was %#x, calculated %#x" %
-                  (raw_msg[len(raw_msg)-1], calc_checksum))
-        return rcode
-
-    def _rol(self, value):
-        "rotate a byte left 2 bits"
-        return ((value << 2) | (value >> 6)) & 0x0ff
-
-    def checksum(self, msg, m_len):
-        "Calculate GREIS 8-bit checksum"
-
-        # Calculated per section A.1.1 of the specification
-        # msg may be bytes (incoming messages) or str (outgoing messages)
-
-        ck = 0
-        for c in msg[0:m_len]:
-            if isinstance(c, str):
-                # a string, make a byte
-                c = ord(c)
-            ck = self._rol(ck) ^ c
-
-        return self._rol(ck) & 0x0ff
-
-    def make_pkt(self, m_data):
-        "Build an output message, always ASCII, add checksum and terminator"
-
-        # build core message
-
-        # no leading spaces, checksum includes the @
-        m_data = m_data.lstrip() + b'@'
-
-        chk = self.checksum(m_data, len(m_data))
-
-        # all commands end with CR and/or LF
-        return m_data + (b'%02X' % chk) + b'\n'
-
-    def gps_send(self, m_data):
-        "Send message to GREIS GPS"
-
-        m_all = self.make_pkt(m_data)
-        if not opts['read_only']:
-            io_handle.ser.write(m_all)
-            if VERB_INFO <= opts['verbosity']:
-                print("sent:", m_all)
-                self.decode_msg(m_all)
-                sys.stdout.flush()
-
-    # Table of known options.  From table 4-2 of the specification.
-    oafs = (
-        b"_AJM",
-        b"AUTH",
-        b"_BLT",
-        b"_CAN",
-        b"CDIF",
-        b"CMRI",
-        b"CMRO",
-        b"COMP",
-        b"COOP",
-        b"COPN",
-        b"CORI",
-        b"_CPH",
-        b"DEVS",
-        b"DIST",
-        b"_DTM",
-        b"_E5B",
-        b"_E6_",
-        b"EDEV",
-        b"ETHR",
-        b"EVNT",
-        b"_FRI",
-        b"_FRO",
-        b"_FTP",
-        b"_GAL",
-        b"GBAI",
-        b"GBAO",
-        b"GCLB",
-        b"_GEN",
-        b"_GEO",
-        b"_GLO",
-        b"_GPS",
-        b"_GSM",
-        b"HTTP",
-        b"_IMU",
-        b"INFR",
-        b"IRIG",
-        b"IRNS",
-        b"JPSI",
-        b"JPSO",
-        b"_L1C",
-        b"_L1_",
-        b"_L2C",
-        b"_L2_",
-        b"_L5_",
-        b"LAT1",
-        b"LAT2",
-        b"LAT3",
-        b"LAT4",
-        b"LCS2",
-        b"L_CS",
-        b"_LIM",
-        b"LON1",
-        b"LON2",
-        b"LON3",
-        b"LON4",
-        b"MAGN",
-        b"_MEM",
-        b"_MPR",
-        b"OCTO",
-        b"OMNI",
-        b"_PAR",
-        b"PDIF",
-        b"_POS",
-        b"_PPP",
-        b"_PPS",
-        b"PRTT",
-        b"_PTP",
-        b"QZSS",
-        b"RAIM",
-        b"_RAW",
-        b"RCVT",
-        b"RM3I",
-        b"RM3O",
-        b"RS_A",
-        b"RS_B",
-        b"RS_C",
-        b"RS_D",
-        b"RTMI",
-        b"RTMO",
-        b"SPEC",
-        b"TCCL",
-        b"_TCP",
-        b"TCPO",
-        b"_TLS",
-        b"TRST",
-        b"UDPO",
-        b"_UHF",
-        b"_USB",
-        b"WAAS",
-        b"WIFI",
-        b"_WPT",
-        )
-
-    def send_able_4hz(self, able):
-        "enable basic GREIS messages at 4Hz"
-
-        self.expect_statement_identifier = 'greis'
-
-        # the messages we want
-        # [SX] requires 3.7 firmware, we use [SI] to support 3.6
-        messages = b"jps/{RT,UO,GT,PV,SG,DP,SI,EL,AZ,EC,SS,ET}"
-
-        if able:
-            # Message rate must be an integer multiple of /par/raw/msint
-            # Default msint is 0.100 seconds, so that must be changed first
-            self.gps_send(b"%msint%set,/par/raw/msint,250")
-
-            self.gps_send(b"%greis%em,," + messages + b":0.25")
-        else:
-            self.gps_send(b"%greis%dm,," + messages)
-
-    def send_able_comp(self, able):
-        "dis/enable COMPASS, aka BeiDou"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/comp," + en_dis)
-
-    def send_able_constellations(self, able):
-        "dis/enable all constellations"
-        self.expect_statement_identifier = 'cons7'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons1%set,/par/pos/sys/comp," + en_dis)
-        self.gps_send(b"%cons2%set,/par/pos/sys/gal," + en_dis)
-        # this will fail on TR-G2H, as it has no GLONASS
-        self.gps_send(b"%cons3%set,/par/pos/sys/glo," + en_dis)
-        self.gps_send(b"%cons4%set,/par/pos/sys/gps," + en_dis)
-        self.gps_send(b"%cons5%set,/par/pos/sys/irnss," + en_dis)
-        self.gps_send(b"%cons6%set,/par/pos/sys/sbas," + en_dis)
-        self.gps_send(b"%cons7%set,/par/pos/sys/qzss," + en_dis)
-
-    def send_able_defmsg(self, able):
-        "dis/enable default messages at 1Hz"
-        self.expect_statement_identifier = 'defmsg'
-        if able:
-            self.gps_send(b"%defmsg%em,,jps/RT,/msg/def:1,jps/ET")
-        else:
-            # leave RT and ET to break less?
-            self.gps_send(b"%defmsg%dm,,/msg/def:1")
-
-    def send_able_gal(self, able):
-        "dis/enable GALILEO"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/gal," + en_dis)
-
-    def send_able_glo(self, able):
-        "dis/enable GLONASS"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/glo," + en_dis)
-
-    def send_able_gps(self, able):
-        "dis/enable GPS"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/gps," + en_dis)
-
-    def send_able_ipr(self, able):
-        "dis/enable all Integer Psuedo-Range messages"
-        self.expect_statement_identifier = 'em'
-        if able:
-            self.gps_send(b"%em%em,,jps/{rx,rc,r1,r2,r3,r5,rl}:0.25")
-        else:
-            self.gps_send(b"%em%dm,,jps/{rx,rc,r1,r2,r3,r5,rl}")
-
-    def send_able_irnss(self, able):
-        "dis/enable IRNSS"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/irnss," + en_dis)
-
-    def send_able_nmea41(self, able):
-        "dis/enable basic NMEA 4.1e messages at 4Hz"
-
-        self.expect_statement_identifier = 'nmea'
-
-        messages = b"nmea/{GBS,GGA,GSA,GST,GSV,RMC,VTG,ZDA}"
-
-        if able:
-            # set NMEA version 4.1e
-            self.gps_send(b"%nmeaver%set,/par/nmea/ver,v4.1e")
-
-            # Message rate must be an integer multiple of /par/raw/msint
-            # Default msint is 0.100 seconds, so that must be changed first
-            self.gps_send(b"%msint%set,/par/raw/msint,250")
-
-            # now we can set the messages we want
-            self.gps_send(b"%nmea%em,," + messages + b":0.25")
-        else:
-            # disable
-            self.gps_send(b"%nmea%dm,," + messages)
-
-    def send_able_sbas(self, able):
-        "dis/enable SBAS"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/sbas," + en_dis)
-
-    def send_able_qzss(self, able):
-        "dis/enable QZSS"
-        self.expect_statement_identifier = 'cons'
-        en_dis = b'y' if 1 == able else b'n'
-        self.gps_send(b"%cons%set,/par/pos/sys/qzss," + en_dis)
-
-    def send_able_snr(self, able):
-        "dis/enable all SNR messages, except [EC]"
-        self.expect_statement_identifier = 'em'
-        if able:
-            self.gps_send(b"%em%em,,jps/{E1,E2,E3,E5,El}:0.25")
-        else:
-            self.gps_send(b"%em%dm,,jps/{E1,E2,E3,E5,El}")
-
-    able_commands = {
-        # en/disable basic GREIS messages at 4HZ
-        "4HZ": {"command": send_able_4hz,
-                "help": "basic GREIS messages at 4Hz"},
-        # en/disable all constellations
-        "CONS": {"command": send_able_constellations,
-                 "help": "all constellations"},
-        # en/disable COMPASS, aka Beidou
-        "COMPASS": {"command": send_able_comp,
-                    "help": "COMPASS"},
-        # en/disable default message set.
-        "DEFMSG": {"command": send_able_defmsg,
-                   "help": "default message set at 1Hz"},
-        # en/disable GALILEO
-        "GALILEO": {"command": send_able_gal,
-                    "help": "GALILEO"},
-        # en/disable GLONASS
-        "GLONASS": {"command": send_able_glo,
-                    "help": "GLONASS"},
-        # en/disable GPS
-        "GPS": {"command": send_able_gps,
-                "help": "GPS"},
-        # en/disable Integer Psuedo Range messages
-        "IPR": {"command": send_able_ipr,
-                "help": "all Integer Psuedo Range messages"},
-        # en/disable IRNSS
-        "IRNSS": {"command": send_able_irnss,
-                  "help": "IRNSS"},
-        # en/disable NMEA 4.1e
-        "NMEA": {"command": send_able_nmea41,
-                 "help": "basic messages NMEA 4.1 at 4Hz"},
-        # en/disable SBAS
-        "SBAS": {"command": send_able_sbas,
-                 "help": "SBAS"},
-        # en/disable all SNRs
-        "SNR": {"command": send_able_snr,
-                "help": "all SNR messages, except [EC]"},
-        # en/disable QZSS
-        "QZSS": {"command": send_able_qzss,
-                 "help": "QZSS"},
-       }
-
-    def send_coldboot(self):
-        "Delete NVRAM (almanac, ephemeris, location) and restart"
-        self.expect_statement_identifier = 'coldboot'
-        self.gps_send(b"%coldboot%init,/dev/nvm/a")
-
-    def send_constellations(self):
-        "poll all constellations"
-        self.expect_statement_identifier = 'cons'
-        self.gps_send(b"%cons%print,/par/pos/sys:on")
-
-    def send_get_id(self):
-        "get receiver id"
-        self.expect_statement_identifier = 'id'
-        self.gps_send(b"%id%print,/par/rcv/id")
-
-    def send_get_oaf(self):
-        "poll OAF (GPS opts)"
-
-        self.expect_statement_identifier = 'opts,_WPT'
-        if VERB_RAW <= opts['verbosity']:
-            # get list of all opts
-            self.gps_send(b"%opts,list%list,/par/opts")
-
-        # request opts one at a time from canned list
-        for s in self.oafs:
-            self.gps_send(b"%%opts,%s%%print,/par/opts/%s" % (s, s))
-
-    def send_get_serial(self):
-        "get receiver serial number"
-        self.expect_statement_identifier = 'serial'
-        self.gps_send(b"%serial%print,/par/rcv/sn")
-
-    def send_reset(self):
-        "reset (reboot) the GPS"
-        self.expect_statement_identifier = 'reset'
-        self.gps_send(b"%reset%set,/par/reset,y")
-
-    def send_set_dm(self):
-        "disable all messages"
-        self.expect_statement_identifier = 'dm'
-        self.gps_send(b"%dm%dm")
-
-    def send_set_ipr(self):
-        "poll Integer Psuedo-Range messages"
-        self.expect_statement_identifier = 'out'
-        self.gps_send(b"%out%out,,jps/{rx,rc,r1,r2,r3,r5,rl}")
-
-    def send_get_snr(self):
-        "poll all SNR messages"
-        # nothing we can wait on, depending on GPS model/configuration
-        # we may never see some of E2, E3, E5 or El
-        self.gps_send(b"%out%out,,jps/{EC,E1,E2,E3,E5,El}")
-
-    def send_set_speed(self, set_speed):
-        "change GPS speed"
-        self.expect_statement_identifier = 'setspeed'
-        self.gps_send(b"%%setspeed%%set,/par/cur/term/rate,%d" %
-                      set_speed)
-
-    def send_get_vendor(self):
-        "get receiver vendor"
-        self.expect_statement_identifier = 'vendor'
-        self.gps_send(b"%vendor%print,/par/rcv/vendor")
-
-    def send_get_ver(self):
-        "get receiver version, per section 4.4.3 of the specification"
-        self.expect_statement_identifier = 'ver'
-        self.gps_send(b"%ver%print,/par/rcv/ver")
-
-    # list of canned commands that can be sent to the receiver
-    commands = {
-        "COLDBOOT": {"command": send_coldboot,
-                     "help": "cold boot the GPS"},
-        "CONS": {"command": send_constellations,
-                 "help": "poll enabled constellations"},
-        "DM": {"command": send_set_dm,
-               "help": "disable all periodic messages"},
-        "ID": {"command": send_get_id,
-               "help": "poll receiver ID"},
-        "IPR": {"command": send_set_ipr,
-                "help": "poll all Integer Psuedo-range messages"},
-        "OAF": {"command": send_get_oaf,
-                "help": "poll all OAF options"},
-        "RESET": {"command": send_reset,
-                  "help": "reset (reboot) the GPS"},
-        "SERIAL": {"command": send_get_serial,
-                   "help": "poll receiver serial number"},
-        "SNR": {"command": send_get_snr,
-                "help": "poll all SNR messages"},
-        "VENDOR": {"command": send_get_vendor,
-                   "help": "poll GPS vendor"},
-        "VER": {"command": send_get_ver,
-                "help": "poll GPS version"},
-        }
-
-
-class gps_io(object):
-    """All the GPS I/O in one place"
-
-    Three types of GPS I/O
-    1. read only from a file
-    2. read/write through a device
-    3. read only from a gpsd instance
-    """
-
-    out = b''
-    ser = None
-    input_is_device = False
-
-    def __init__(self, serial_class):
-        "Initialize class"
-
-        Serial = serial_class
-        # buffer to hold read data
-        self.out = b''
-
-        # open the input: device, file, or gpsd
-        if opts['input_file_name'] is not None:
-            # check if input file is a file or device
-            try:
-                mode = os.stat(opts['input_file_name']).st_mode
-            except OSError:
-                sys.stderr.write('%s: failed to open input file %s\n' %
-                                 (PROG_NAME, opts['input_file_name']))
-                sys.exit(1)
-
-            if stat.S_ISCHR(mode):
-                # character device, need not be read only
-                self.input_is_device = True
-
-            if ((opts['disable'] or opts['enable'] or opts['poll'] or
-                 opts['oaf_name'])):
-
-                # check that we can write
-                if opts['read_only']:
-                    sys.stderr.write('%s: read-only mode, '
-                                     'can not send commands\n' % PROG_NAME)
-                    sys.exit(1)
-                if self.input_is_device is False:
-                    sys.stderr.write('%s: input is plain file, '
-                                     'can not send commands\n' % PROG_NAME)
-                    sys.exit(1)
-
-        if opts['target']['server'] is not None:
-            # try to open local gpsd
-            try:
-                self.ser = gps.gpscommon(host=None)
-                self.ser.connect(opts['target']['server'],
-                                 opts['target']['port'])
-
-                # alias self.ser.write() to self.write_gpsd()
-                self.ser.write = self.write_gpsd
-                # ask for raw, not rare, data
-                data_out = b'?WATCH={'
-                if opts['target']['device'] is not None:
-                    # add in the requested device
-                    data_out += (b'"device":"' + opts['target']['device'] +
-                                 b'",')
-                data_out += b'"enable":true,"raw":2}\r\n'
-                if VERB_RAW <= opts['verbosity']:
-                    print("sent: ", data_out)
-                self.ser.send(data_out)
-            except socket.error as err:
-                sys.stderr.write('%s: failed to connect to gpsd %s\n' %
-                                 (PROG_NAME, err))
-                sys.exit(1)
-
-        elif self.input_is_device:
-            # configure the serial connections (the parameters refer to
-            # the device you are connecting to)
-
-            try:
-                self.ser = Serial.Serial(
-                    baudrate=opts['input_speed'],
-                    # 8N1 is GREIS default
-                    bytesize=Serial.EIGHTBITS,
-                    parity=Serial.PARITY_NONE,
-                    port=opts['input_file_name'],
-                    stopbits=Serial.STOPBITS_ONE,
-                    # read timeout
-                    timeout=0.05,
-                    # pyserial Ver 3.0+ changes writeTimeout to write_timeout
-                    # just set both
-                    write_timeout=0.5,
-                    writeTimeout=0.5,
-                )
-            except Serial.serialutil.SerialException:
-                # this exception happens on bad serial port device name
-                sys.stderr.write('%s: failed to open serial port "%s"\n'
-                                 '   Your computer has these serial ports:\n'
-                                 % (PROG_NAME, opts['input_file_name']))
-
-                # print out list of supported ports
-                import serial.tools.list_ports as List_Ports
-                ports = List_Ports.comports()
-                for port in ports:
-                    sys.stderr.write("    %s: %s\n" %
-                                     (port.device, port.description))
-                sys.exit(1)
-
-            # flush input buffer, discarding all its contents
-            self.ser.flushInput()
-
-        else:
-            # Read from a plain file of GREIS messages
-            try:
-                self.ser = open(opts['input_file_name'], 'rb')
-            except IOError:
-                sys.stderr.write('%s: failed to open input %s\n' %
-                                 (PROG_NAME, opts['input_file_name']))
-                sys.exit(1)
-
-    def read(self, read_opts):
-        "Read from device, until timeout or expected message"
-
-        # are we expecting a certain message?
-        if gps_model.expect_statement_identifier:
-            # assume failure, until we see expected message
-            ret_code = 1
-        else:
-            # not expecting anything, so OK if we did not see it.
-            ret_code = 0
-
-        try:
-            if read_opts['target']['server'] is not None:
-                # gpsd input
-                start = time.clock()
-                while read_opts['input_wait'] > (time.clock() - start):
-                    # First priority is to be sure the input buffer is read.
-                    # This is to prevent input buffer overuns
-                    if 0 < self.ser.waiting():
-                        # We have serial input waiting, get it
-                        # No timeout possible
-                        # RTCM3 JSON can be over 4.4k long, so go big
-                        new_out = self.ser.sock.recv(8192)
-                        if raw is not None:
-                            # save to raw file
-                            raw.write(new_out)
-                        self.out += new_out
-
-                    consumed = gps_model.decode_msg(self.out)
-                    self.out = self.out[consumed:]
-                    if ((gps_model.expect_statement_identifier and
-                         (gps_model.expect_statement_identifier ==
-                          gps_model.last_statement_identifier))):
-                        # Got what we were waiting for.  Done?
-                        ret_code = 0
-                        if not read_opts['input_forced_wait']:
-                            # Done
-                            break
-
-            elif self.input_is_device:
-                # input is a serial device
-                start = time.clock()
-                while read_opts['input_wait'] > (time.clock() - start):
-                    # First priority is to be sure the input buffer is read.
-                    # This is to prevent input buffer overuns
-                    # pyserial 3.0 replaces inWaiting() with in_waiting
-                    if 0 < self.ser.inWaiting():
-                        # We have serial input waiting, get it
-                        # 1024 is comfortably large, almost always the
-                        # Read timeout is what causes ser.read() to return
-                        new_out = self.ser.read(1024)
-                        if raw is not None:
-                            # save to raw file
-                            raw.write(new_out)
-                        self.out += new_out
-
-                    consumed = gps_model.decode_msg(self.out)
-                    self.out = self.out[consumed:]
-                    if ((gps_model.expect_statement_identifier and
-                         (gps_model.expect_statement_identifier ==
-                          gps_model.last_statement_identifier))):
-                        # Got what we were waiting for.  Done?
-                        ret_code = 0
-                        if not read_opts['input_forced_wait']:
-                            # Done
-                            break
-            else:
-                # ordinary file, so all read at once
-                self.out += self.ser.read()
-                if raw is not None:
-                    # save to raw file
-                    raw.write(self.out)
-
-                while True:
-                    consumed = gps_model.decode_msg(self.out)
-                    self.out = self.out[consumed:]
-                    if 0 >= consumed:
-                        break
-
-        except IOError:
-            # This happens on a good device name, but gpsd already running.
-            # or if USB device unplugged
-            sys.stderr.write('%s: failed to read %s\n'
-                             '%s: Is gpsd already holding the port?\n'
-                             % (PROG_NAME, PROG_NAME,
-                                read_opts['input_file_name']))
-            return 1
-
-        if 0 < ret_code:
-            # did not see the message we were expecting to see
-            sys.stderr.write('%s: waited %0.2f seconds for, '
-                             'but did not get: %%%s%%\n'
-                             % (PROG_NAME, read_opts['input_wait'],
-                                gps_model.expect_statement_identifier))
-        return ret_code
-
-    def write_gpsd(self, data):
-        "write data to gpsd daemon"
-
-        # HEXDATA_MAX = 512, from gps.h, The max hex digits can write.
-        # Input data is binary, converting to hex doubles its size.
-        # Limit binary data to length 255, so hex data length less than 510.
-        if 255 < len(data):
-            sys.stderr.write('%s: trying to send %d bytes, max is 255\n'
-                             % (PROG_NAME, len(data)))
-            return 1
-
-        if opts['target']['device'] is not None:
-            # add in the requested device
-            data_out = b'?DEVICE={"path":"' + opts['target']['device'] + b'",'
-        else:
-            data_out = b'?DEVICE={'
-
-        # Convert binary data to hex and build the message.
-        data_out += b'"hexdata":"' + binascii.hexlify(data) + b'"}\r\n'
-        if VERB_RAW <= opts['verbosity']:
-            print("sent: ", data_out)
-        self.ser.send(data_out)
-        return 0
-
-
-def usage():
-    "Print usage information, and exit"
-
-    print("usage: %s [-?hrVW] [-c C] [-d D] [-e E] [-f F] [-O O] [-p P]\n"
-          "            [-R R] [-S S] [-s S] [-v V] [-w W]\n"
-          "            [server[:port[:device]]]\n\n" % PROG_NAME)
-    print('usage: %s [options]\n'
-          '       -?            print this help\n'
-          '       -c C          send command C to GPS\n'
-          '       -d D          disable D\n'
-          '       -e E          enable E\n'
-          '       -f F          open F as file/device\n'
-          '                     default: %s\n'
-          '       -h            print this help\n'
-          '       -O O          send OAF file to GPS\n'
-          '       -p P          send preset GPS command P\n'
-          '       -R R          save raw data from GPS in file R\n'
-          '       -r            open file/device read only\n'
-          '                     default: %s\n'
-          '       -S S          configure GPS speed to S\n'
-          '       -s S          set port speed to S\n'
-          '                     default: %d bps\n'
-          '       -V            print version\n'
-          '       -v V          Set verbosity level to V, 0 to 4\n'
-          '                     default: %d\n'
-          '       -W            force entire wait time, no exit early\n'
-          '       -w W          wait time, exit early on -p result\n'
-          '                     default: %s seconds\n'
-          '       [server[:port[:device]]] Connect to gpsd\n'
-          '                     default port: 2947\n'
-          '                     default device: None\n'
-          '\n'
-          'D and E can be one of:' %
-          (PROG_NAME, opts['input_file_name'], opts['raw_file'],
-           opts['input_speed'], opts['verbosity'], opts['input_wait'])
-          )
-
-    # print list of enable/disable commands
-    for item in sorted(gps_model.able_commands.keys()):
-        print("    %-12s %s" % (item, gps_model.able_commands[item]["help"]))
-
-    print('\nthe preset GPS command P can be one of:')
-
-    # print list of possible canned commands
-    for item in sorted(gps_model.commands.keys()):
-        print("    %-12s %s" % (item, gps_model.commands[item]["help"]))
-    print('\nOptions can be placed in the ZERKOPTS environment variable.\n'
-          'ZERKOPTS is processed before the CLI options.')
-    sys.exit(0)
-
-
-# create the GREIS instance
-gps_model = greis()
-
-if 'ZERKOPTS' in os.environ:
-    # grab the ZERKOPTS environment variable for options
-    opts['progopts'] = os.environ['ZERKOPTS']
-    options = opts['progopts'].split(' ') + sys.argv[1:]
-else:
-    options = sys.argv[1:]
-
-try:
-    (options, arguments) = getopt.getopt(options,
-                                         "?c:d:e:f:hrp:s:w:v:O:R:S:WV")
-except getopt.GetoptError as err:
-    sys.stderr.write("%s: %s\n"
-                     "Try '%s -h' for more information.\n" %
-                     (PROG_NAME, str(err), PROG_NAME))
-    sys.exit(2)
-
-for (opt, val) in options:
-    if opt == '-c':
-        # command
-        opts['command'] = val
-    elif opt == '-d':
-        # disable
-        opts['disable'] = val
-    elif opt == '-e':
-        # enable
-        opts['enable'] = val
-    elif opt == '-f':
-        # file input
-        opts['input_file_name'] = val
-    elif opt == '-h' or opt == '-?':
-        # help
-        usage()
-    elif opt == '-p':
-        # preprogrammed command
-        opts['poll'] = val
-    elif opt == '-r':
-        # read only
-        opts['read_only'] = True
-    elif opt == '-s':
-        # serial port speed
-        opts['input_speed'] = int(val)
-        if opts['input_speed'] not in gps_model.speeds:
-            sys.stderr.write('%s: -s invalid speed %s\n' %
-                             (PROG_NAME, opts['input_speed']))
-            sys.exit(1)
-
-    elif opt == '-w':
-        # max wait time, seconds
-        opts['input_wait'] = float(val)
-    elif opt in '-v':
-        # verbosity level
-        opts['verbosity'] = int(val)
-    elif opt in '-O':
-        # OAF .jpo file
-        opts['oaf_name'] = val
-    elif opt in '-R':
-        # raw log file
-        opts['raw_file'] = val
-    elif opt in '-S':
-        # set GPS serial port speed
-        opts['set_speed'] = int(val)
-        if opts['set_speed'] not in gps_model.speeds:
-            sys.stderr.write('%s: -S invalid speed %s\n' %
-                             (PROG_NAME, opts['set_speed']))
-            sys.exit(1)
-
-    elif opt == '-W':
-        # forced wait, no early exit on command completion
-        opts['input_forced_wait'] = True
-    elif opt == '-V':
-        # version
-        sys.stderr.write('zerk: Version %s\n' % gps_version)
-        sys.exit(0)
-
-if opts['input_file_name'] is None:
-    # no input file given
-    # default to local gpsd
-    opts['target']['server'] = "localhost"
-    opts['target']['port'] = gps.GPSD_PORT
-    opts['target']['device'] = None
-    if arguments:
-        # server[:port[:device]]
-        arg_parts = arguments[0].split(':')
-        opts['target']['server'] = arg_parts[0]
-        if 1 < len(arg_parts):
-            opts['target']['port'] = arg_parts[1]
-            if 2 < len(arg_parts):
-                opts['target']['device'] = arg_parts[2]
-
-elif arguments:
-    sys.stderr.write('%s: Both input file and server specified\n' % PROG_NAME)
-    sys.exit(1)
-
-if VERB_PROG <= opts['verbosity']:
-    # dump all options
-    print('Options:')
-    for option in sorted(opts):
-        print("   %s: %s" % (option, opts[option]))
-
-# done parsing arguments from environment and CLI
-
-try:
-    # raw log file requested?
-    raw = None
-    if opts['raw_file']:
-        try:
-            raw = open(opts['raw_file'], 'w')
-        except IOError:
-            sys.stderr.write('%s: failed to open raw file %s\n' %
-                             (PROG_NAME, opts['raw_file']))
-            sys.exit(1)
-
-    # create the I/O instance
-    io_handle = gps_io(serial)
-
-    # keep it simple, only one of -O, -c -d -e or -S
-    if opts['oaf_name'] is not None:
-        # parse an OAF file
-        try:
-            oaf_root = xml.etree.ElementTree.parse(opts['oaf_name']).getroot()
-            oaf = dict()
-            for tag in ('id', 'oaf', 'hash'):
-                oaf[tag] = oaf_root.find(tag).text
-            oaf['oaf'] = oaf['oaf'].split('\n')
-            if VERB_PROG <= opts['verbosity']:
-                print(oaf)
-        except xml.etree.ElementTree.ParseError:
-            sys.stderr.write('%s: failed to parse OAF "%s"\n'
-                             % (PROG_NAME, opts['oaf_name']))
-            sys.exit(1)
-        except IOError:
-            sys.stderr.write('%s: failed to read OAF "%s"\n'
-                             % (PROG_NAME, opts['oaf_name']))
-            sys.exit(1)
-
-        # calculate hash
-        oaf_s = '\n'.join(oaf['oaf'])
-        hash_s = hashlib.sha1(oaf_s).hexdigest()
-        if hash_s != oaf['hash']:
-            sys.stderr.write('%s: OAF bad hash "%s", s/b %s\n'
-                             % (PROG_NAME, hash_s, oaf['hash']))
-            sys.exit(1)
-
-        # TODO: probably should check the ID first...
-        # TODO: prolly should send one command per handshake
-        # blasting all commands at once, seems to not work reliably
-        for command in oaf['oaf']:
-            time.sleep(0.1)           # wait 0.1 seconds each
-            gps_model.gps_send(command)
-        # this will detect when it is all done
-        gps_model.gps_send(b'%DONE%')
-        gps_model.expect_statement_identifier = 'DONE'
-
-    elif opts['command'] is not None:
-        # zero length is OK to send
-        if 1 < len(opts['command']) and '%' != opts['command'][0]:
-            # add ID, if missing
-            gps_model.expect_statement_identifier = 'CMD'
-            opts['command'] = "%CMD%" + opts['command']
-
-        # add trailing new line
-        opts['command'] += "\n"
-
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: command %s\n' % (PROG_NAME, opts['command']))
-        gps_model.gps_send(opts['command'])
-
-    elif opts['disable'] is not None:
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: disable %s\n' % (PROG_NAME, opts['disable']))
-        if opts['disable'] in gps_model.able_commands:
-            command = gps_model.able_commands[opts['disable']]
-            command["command"](gps_model, 0)
-        else:
-            sys.stderr.write('%s: disable %s not found\n' %
-                             (PROG_NAME, opts['disable']))
-            sys.exit(1)
-
-    elif opts['enable'] is not None:
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: enable %s\n' % (PROG_NAME, opts['enable']))
-        if opts['enable'] in gps_model.able_commands:
-            command = gps_model.able_commands[opts['enable']]
-            command["command"](gps_model, 1)
-        else:
-            sys.stderr.write('%s: enable %s not found\n' %
-                             (PROG_NAME, opts['enable']))
-            sys.exit(1)
-
-    elif opts['poll'] is not None:
-        if VERB_QUIET < opts['verbosity']:
-            sys.stderr.write('%s: poll %s\n' % (PROG_NAME, opts['poll']))
-        if opts['poll'] in gps_model.commands:
-            command = gps_model.commands[opts['poll']]
-            command["command"](gps_model)
-        else:
-            sys.stderr.write('%s: poll %s not found\n' %
-                             (PROG_NAME, opts['poll']))
-            sys.exit(1)
-
-    elif opts['set_speed'] is not None:
-        gps_model.send_set_speed(opts['set_speed'])
-
-    exit_code = io_handle.read(opts)
-
-    if ((VERB_RAW <= opts['verbosity']) and io_handle.out):
-        # dump raw left overs
-        print("Left over data:")
-        print(io_handle.out)
-
-    sys.stdout.flush()
-    io_handle.ser.close()
-
-except KeyboardInterrupt:
-    print('')
-    exit_code = 1
-
-sys.exit(exit_code)
-- 
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