553228f127
Tag Block grouping is used to report more than 12 SVs in GSA. It is controlled by item NMEA_TAG_BLOCK_GROUPING_ENABLED in gps.conf and only applicable to GSA. Change-Id: Id9b89af96419c179554ce9f5c8d702f19153ed32 CRs-Fixed: 2813599
400 lines
12 KiB
Plaintext
400 lines
12 KiB
Plaintext
# Error Estimate
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# _SET = 1
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# _CLEAR = 0
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ERR_ESTIMATE=0
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#NTP server
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NTP_SERVER=time.xtracloud.net
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NTP_SERVER_2=asia.pool.ntp.org
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NTP_SERVER_3=0.cn.pool.ntp.org
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#XTRA CA path
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XTRA_CA_PATH=/usr/lib/ssl-1.1/certs
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# DEBUG LEVELS: 0 - none, 1 - Error, 2 - Warning, 3 - Info
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# 4 - Debug, 5 - Verbose
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# If DEBUG_LEVEL is commented, Android's logging levels will be used
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DEBUG_LEVEL = 2
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# Intermediate position report, 1=enable, 0=disable
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INTERMEDIATE_POS=0
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# supl version 1.0
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SUPL_VER=0x20000
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# Emergency SUPL, 1=enable, 0=disable
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SUPL_ES=0
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#Choose PDN for Emergency SUPL
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#1 - Use emergency PDN
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#0 - Use regular SUPL PDN for Emergency SUPL
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USE_EMERGENCY_PDN_FOR_EMERGENCY_SUPL=0
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#SUPL_MODE is a bit mask set in config.xml per carrier by default.
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#If it is uncommented here, this value will overwrite the value from
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#config.xml.
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#MSA=0X2
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#MSB=0X1
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SUPL_MODE=3
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# GPS Capabilities bit mask
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# SCHEDULING = 0x01
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# MSB = 0x02
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# MSA = 0x04
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# ON_DEMAND_TIME = 0x10
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# default = ON_DEMAND_TIME | MSA | MSB | SCHEDULING
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CAPABILITIES=0x17
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# Accuracy threshold for intermediate positions
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# less accurate positions are ignored, 0 for passing all positions
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ACCURACY_THRES=70
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################################
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##### AGPS server settings #####
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################################
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# FOR SUPL SUPPORT, set the following
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# SUPL_HOST=supl.host.com or IP
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# SUPL_PORT=1234
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# FOR MO SUPL SUPPORT, set the following
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# MO_SUPL_HOST=supl.host.com or IP
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# MO_SUPL_PORT=1234
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# FOR C2K PDE SUPPORT, set the following
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# C2K_HOST=c2k.pde.com or IP
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# C2K_PORT=1234
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# Bitmask of slots that are available
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# for write/install to, where 1s indicate writable,
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# and the default value is 0 where no slots
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# are writable. For example, AGPS_CERT_WRITABLE_MASK
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# of b1000001010 makes 3 slots available
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# and the remaining 7 slots unwritable.
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#AGPS_CERT_WRITABLE_MASK=0
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####################################
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# LTE Positioning Profile Settings
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####################################
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# LPP_PROFILE is a bit mask
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# 0: Enable RRLP on LTE(Default)
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# 1: Enable LPP_User_Plane on LTE
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# 2: Enable LPP_Control_Plane
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# 3: Enable both LPP_User_Plane and LPP_Control_Plane
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LPP_PROFILE = 3
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####################################
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#Datum Type
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####################################
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# 0: WGS-84
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# 1: PZ-90
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DATUM_TYPE = 0
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################################
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# EXTRA SETTINGS
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################################
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# NMEA provider (1=Modem Processor, 0=Application Processor)
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NMEA_PROVIDER=0
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################################
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# NMEA TAG BLOCK GROUPING
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################################
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# NMEA tag block grouping is only applicable to GSA
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# Default is disabled
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# 0 - disabled
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# 1 - enabled
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NMEA_TAG_BLOCK_GROUPING_ENABLED = 0
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# Customized NMEA GGA fix quality that can be used to tell
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# whether SENSOR contributed to the fix.
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#
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# When this configuration item is not enabled (set to any value that is not 1),
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# GGA fix quality conforms to NMEA standard spec as below:
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# PPP/DGNSS/SBAS correction fix w/ or w/o sensor: 2
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# RTK fixed fix w/ or w/o sensor: 4
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# RTK float fix w/ or w/o sensor: 5
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# SPE fix w/ or w/o sensor: 1
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# Sensor dead reckoning fix: 6
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#
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# When this configuration is enabled (set to 1), GGA fix quality
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# will be output as below:
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# PPP fix w/o sensor: 59, w/ sensor: 69
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# DGNSS/SBAS correction fix w/o sensor: 2, w/ sensor: 62
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# RTK fixed fix w/o sensor: 4, w/ sensor: 64
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# RTK float fix w/o sensor: 5, w/ sensor: 65,
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# SPE fix w/o sensor: 1, and w/ sensor: 61
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# Sensor dead reckoning fix: 6
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#
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# any value that is not 1 - disabled
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# 1 - enabled
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CUSTOM_NMEA_GGA_FIX_QUALITY_ENABLED = 0
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################################
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# NMEA Reporting Rate Config, valid only when NMEA_PROVIDER is set to "0"
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################################
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# NMEA Reporting Rate
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# Set it to "1HZ" for 1Hz NMEA Reporting
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# Set it to "NHZ" for NHz NMEA Reporting
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#Default : NHZ (overridden by position update rate if set to lower rates)
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NMEA_REPORT_RATE=NHZ
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# Mark if it is a SGLTE target (1=SGLTE, 0=nonSGLTE)
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SGLTE_TARGET=0
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##################################################
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# Select Positioning Protocol on A-GLONASS system
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##################################################
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# 0x1: RRC CPlane
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# 0x2: RRLP UPlane
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# 0x4: LLP Uplane
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A_GLONASS_POS_PROTOCOL_SELECT = 0xf
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##################################################
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# Select technology for LPPe Control Plane
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##################################################
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# 0x1: DBH for LPPe CP
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# 0x2: WLAN AP Measurements for LPPe CP
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# 0x4: SRN AP measurement for CP
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# 0x8: Sensor Barometer Measurement LPPe CP
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#LPPE_CP_TECHNOLOGY = 0
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##################################################
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# Select technology for LPPe User Plane
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##################################################
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# 0x1: DBH for LPPe UP
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# 0x2: WLAN AP Measurements for LPPe UP
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# 0x4: SRN AP measurement for UP
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# 0x8: Sensor Barometer Measurement LPPe UP
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#LPPE_UP_TECHNOLOGY = 0
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##################################################
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# AGPS_CONFIG_INJECT
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##################################################
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# enable/disable injection of AGPS configurations:
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# SUPL_VER
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# SUPL_HOST
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# SUPL_PORT
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# MO_SUPL_HOST
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# MO_SUPL_PORT
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# C2K_HOST
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# C2K_PORT
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# LPP_PROFILE
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# A_GLONASS_POS_PROTOCOL_SELECT
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# 0: disable
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# 1: enable
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AGPS_CONFIG_INJECT = 1
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##################################################
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# GNSS settings for automotive use cases
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# Configurations in following section are
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# specific to automotive use cases, others
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# please do not change, keep the default values
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##################################################
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# AP Coarse Timestamp Uncertainty
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##################################################
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# default : 10
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# AP time stamp uncertainty, until GNSS receiver
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# is able to acquire better timing information
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AP_TIMESTAMP_UNCERTAINTY = 10
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#####################################
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# DR_SYNC Pulse Availability
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#####################################
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# 0 : DR_SYNC pulse not available (default)
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# 1 : DR_SYNC pulse available
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# This configuration enables the driver to make use
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# of PPS events generated by DR_SYNC pulse
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# Standard Linux PPS driver needs to be enabled
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DR_SYNC_ENABLED = 0
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#####################################
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# PPS Device name
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#####################################
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PPS_DEVICENAME = /dev/pps0
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#####################################
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# Ignore PPS at Startup and after long outage
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#####################################
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IGNORE_PPS_PULSE_COUNT = 1
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#####################################
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# Long GNSS RF outage in seconds
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#####################################
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GNSS_OUTAGE_DURATION = 10
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#####################################
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# AP Clock Accuracy
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#####################################
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# Quality of APPS processor clock (in PPM).
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# Value specified is used for calculation of
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# APPS time stamp uncertainty
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AP_CLOCK_PPM = 100
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#####################################
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# MAX ms difference to detect missing pulse
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#####################################
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# Specifies time threshold in ms to validate any missing PPS pulses
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MISSING_PULSE_TIME_DELTA = 900
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#####################################
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# Propagation time uncertainty
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#####################################
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# This settings enables time uncertainty propagation
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# logic incase of missing PPS pulse
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PROPAGATION_TIME_UNCERTAINTY = 1
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#######################################
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# APN / IP Type Configuration
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# APN and IP Type to use for setting
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# up WWAN call.
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# Use below values for IP Type:
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# v4 = 4
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# v6 = 6
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# v4v6 = 10
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#######################################
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# INTERNET_APN = abc.xyz
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# INTERNET_IP_TYPE = 4
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# SUPL_APN = abc.xyz
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# SUPL_IP_TYPE = 4
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#####################################
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# Modem type
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#####################################
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# This setting configures modem type
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# (external=0 or internal=1)
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# comment out the next line to vote
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# for the first modem in the list
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MODEM_TYPE = 1
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##################################################
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# CONSTRAINED TIME UNCERTAINTY MODE
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##################################################
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# 0 : disabled (default)
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# 1 : enabled
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# This setting enables GPS engine to keep its time
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# uncertainty below the specified constraint
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#CONSTRAINED_TIME_UNCERTAINTY_ENABLED = 0
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# If constrained time uncertainty mode is enabled,
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# this setting specifies the time uncertainty
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# threshold that gps engine need to maintain.
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# In unit of milli-seconds.
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# Default is 0.0 meaning that modem default value
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# of time uncertainty threshold will be used.
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#CONSTRAINED_TIME_UNCERTAINTY_THRESHOLD = 0.0
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# If constrained time uncertainty mode is enabled,
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# this setting specifies the power budget that
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# gps engine is allowed to spend to maintain the time
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# uncertainty.
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# Default is 0 meaning that GPS engine is not constained
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# by power budget and can spend as much power as needed.
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# In unit of 0.1 milli watt second.
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#CONSTRAINED_TIME_UNCERTAINTY_ENERGY_BUDGET = 0
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##################################################
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# POSITION ASSISTED CLOCK ESTIMATOR
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##################################################
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# 0 : disabled (default)
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# 1 : enabled
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# This setting enables GPS engine to estimate clock
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# bias and drift when the signal from at least 1
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# SV is available and the UE’s position is known by
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# other position engines.
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#POSITION_ASSISTED_CLOCK_ESTIMATOR_ENABLED = 0
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#####################################
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# proxyAppPackageName
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#####################################
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# This is a string that is sent to the framework
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# in nfwNotifyCb callback
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PROXY_APP_PACKAGE_NAME = com.lbe.security.miui
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#####################################
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# CP_MTLR_ES
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#####################################
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# CP MTLR ES, 1=enable, 0=disable
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CP_MTLR_ES=0
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##################################################
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# GNSS_DEPLOYMENT
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##################################################
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# 0 : Enable QTI GNSS (default)
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# 1 : Enable QCSR SS5
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# 2 : Enable PDS API
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# This setting use to select between QTI GNSS,
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# QCSR SS5 hardware receiver, and PDS API.
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# By default QTI GNSS receiver is enabled.
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# GNSS_DEPLOYMENT = 0
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##################################################
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## LOG BUFFER CONFIGURATION
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##################################################
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#LOG_BUFFER_ENABLED, 1=enable, 0=disable
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#*_LEVEL_TIME_DEPTH, maximum time depth of level *
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#in log buffer, unit is second
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#*_LEVEL_MAX_CAPACITY, maximum numbers of level *
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#log print sentences in log buffer
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LOG_BUFFER_ENABLED = 0
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E_LEVEL_TIME_DEPTH = 600
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E_LEVEL_MAX_CAPACITY = 50
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W_LEVEL_TIME_DEPTH = 500
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W_LEVEL_MAX_CAPACITY = 100
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I_LEVEL_TIME_DEPTH = 400
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I_LEVEL_MAX_CAPACITY = 200
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D_LEVEL_TIME_DEPTH = 30
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D_LEVEL_MAX_CAPACITY = 300
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V_LEVEL_TIME_DEPTH = 200
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V_LEVEL_MAX_CAPACITY = 400
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# Xiaomi add for breaking xtra download limitation
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XTRA_TEST_ENABLED = 1
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XTRA_THROTTLE_ENABLED = 0
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XTRA_SYSTEM_TIME_INJECT = 1
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# Mechanism to handle the gnss assistance data download
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# in very bad network situations
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XTRA_SOCK_KEEPALIVE=1
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##################################################
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# Allow buffer diag log packets when diag memory allocation
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# fails during boot up time.
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##################################################
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BUFFER_DIAG_LOGGING = 1
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#######################################
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# NTRIP CLIENT LIBRARY NAME
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#######################################
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# NTRIP_CLIENT_LIB_NAME =
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##################################################
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# Correction Data Framework settings
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# Default values:
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# CDFW_SOURCE_PRIORITY_1 = INTERNAL_1 RTCM
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# CDFW_INJECT_DATA_INTERVAL = 600000 //10 mins
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# CDFW_RTCM_MESSAGE_INTERVAL = 1000 //1 second
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#
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# If multiple sources coexist on a PL,
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# the prorioty sequence can be set by the integer number.
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# PRIORITY_1 is higher than PRIORITY_2, for example,
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# CDFW_SOURCE_PRIORITY_1 = INTERNAL_1 RTCM
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# CDFW_SOURCE_PRIORITY_2 = CV2X RTCM
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##################################################
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##################################################
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# RF LOSS
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# The loss in 0.1 dbHz from the C/N0 at the antenna port
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# These values must be configured by OEM if not
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# supported in QMI LOC message
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# There is one entry for each signal type
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##################################################
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RF_LOSS_GPS = 0
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RF_LOSS_GPS_L5 = 0
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RF_LOSS_GLO_LEFT = 0
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RF_LOSS_GLO_CENTER = 0
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RF_LOSS_GLO_RIGHT = 0
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RF_LOSS_BDS = 0
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RF_LOSS_BDS_B2A = 0
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RF_LOSS_GAL = 0
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RF_LOSS_GAL_E5 = 0
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RF_LOSS_NAVIC = 0
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