android_device_xiaomi_sdm66.../gps/etc/gps.conf
–Gareth Kitchen 7a54003bff
sdm660-common: gps: Localise NTP to improve GPS TTFF
Testing response times to time.android.com from around the globe reveals
in ms:-

Europe			 <30
Middle East		 <68
North America		<150
Johannesburg		 183
Buenos Aires		 220
Tokyo			 226
Sydney			 276
Hong Kong		 285
Brisbane		 295
Mumbai			 349
Beijing			4691
Shanghai		4906
Russia			 n/a

Whilst time.android.com is NOT used for GPS NTP, North American time servers
are, by specifying north-america.pool.ntp.org as default in the framework,
to align with pixel devices.  I am assuming similar response times to these
servers from around the world.

Great for North America and it appears Europe but it does not address the
global issue. Also, the pool.ntp.org project forbids both hardware and
software vendors from using these default zone names.
http://www.pool.ntp.org/en/vendors.html

It makes sense, therefore, to leverage the ntp.org's existing 'android' vendor
name to make the default ntp server for GPS purposes:
1.android.pool.ntp.org this will return a random but accurate NTP server in
close geopraphic proximity to the device.

Testing on my own build in the UK seems to improve hot and cold TTFF
considerably.

Change-Id: I144af45757efa35b32daf034eece6e046d2bde79
2021-05-18 05:04:04 +06:00

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# Error Estimate
# _SET = 1
# _CLEAR = 0
ERR_ESTIMATE=0
#NTP server
NTP_SERVER=1.android.pool.ntp.org
#XTRA CA path
XTRA_CA_PATH=/usr/lib/ssl-1.1/certs
# DEBUG LEVELS: 0 - none, 1 - Error, 2 - Warning, 3 - Info
# 4 - Debug, 5 - Verbose
# If DEBUG_LEVEL is commented, Android's logging levels will be used
DEBUG_LEVEL = 2
# Intermediate position report, 1=enable, 0=disable
INTERMEDIATE_POS=0
# supl version 1.0
SUPL_VER=0x10000
# Emergency SUPL, 1=enable, 0=disable
#SUPL_ES=1
#Choose PDN for Emergency SUPL
#1 - Use emergency PDN
#0 - Use regular SUPL PDN for Emergency SUPL
#USE_EMERGENCY_PDN_FOR_EMERGENCY_SUPL=0
#SUPL_MODE is a bit mask set in config.xml per carrier by default.
#If it is uncommented here, this value will overwrite the value from
#config.xml.
#MSA=0X2
#MSB=0X1
#SUPL_MODE=
# GPS Capabilities bit mask
# SCHEDULING = 0x01
# MSB = 0x02
# MSA = 0x04
# ON_DEMAND_TIME = 0x10
# default = ON_DEMAND_TIME | MSA | MSB | SCHEDULING
CAPABILITIES=0x17
# Accuracy threshold for intermediate positions
# less accurate positions are ignored, 0 for passing all positions
# ACCURACY_THRES=5000
################################
##### AGPS server settings #####
################################
# FOR SUPL SUPPORT, set the following
# SUPL_HOST=supl.host.com or IP
# SUPL_PORT=1234
# FOR MO SUPL SUPPORT, set the following
# MO_SUPL_HOST=supl.host.com or IP
# MO_SUPL_PORT=1234
# FOR C2K PDE SUPPORT, set the following
# C2K_HOST=c2k.pde.com or IP
# C2K_PORT=1234
# Bitmask of slots that are available
# for write/install to, where 1s indicate writable,
# and the default value is 0 where no slots
# are writable. For example, AGPS_CERT_WRITABLE_MASK
# of b1000001010 makes 3 slots available
# and the remaining 7 slots unwritable.
#AGPS_CERT_WRITABLE_MASK=0
####################################
# LTE Positioning Profile Settings
####################################
# LPP_PROFILE is a bit mask
# 0: Enable RRLP on LTE(Default)
# 0x1: LPP User Plane
# 0x2: LPP Control Plane
# 0x4: LPP User Plane for NR5G
# 0x8: LPP Control Plane for NR5G
LPP_PROFILE = 2
####################################
#Datum Type
####################################
# 0: WGS-84
# 1: PZ-90
DATUM_TYPE = 0
################################
# EXTRA SETTINGS
################################
# NMEA provider (1=Modem Processor, 0=Application Processor)
NMEA_PROVIDER=0
# Customized NMEA GGA fix quality that can be used to tell
# whether SENSOR contributed to the fix.
#
# When this configuration item is not enabled (set to any value that is not 1),
# GGA fix quality conforms to NMEA standard spec as below:
# PPP/DGNSS/SBAS correction fix w/ or w/o sensor: 2
# RTK fixed fix w/ or w/o sensor: 4
# RTK float fix w/ or w/o sensor: 5
# SPE fix w/ or w/o sensor: 1
# Sensor dead reckoning fix: 6
#
# When this configuration is enabled (set to 1), GGA fix quality
# will be output as below:
# PPP fix w/o sensor: 59, w/ sensor: 69
# DGNSS/SBAS correction fix w/o sensor: 2, w/ sensor: 62
# RTK fixed fix w/o sensor: 4, w/ sensor: 64
# RTK float fix w/o sensor: 5, w/ sensor: 65,
# SPE fix w/o sensor: 1, and w/ sensor: 61
# Sensor dead reckoning fix: 6
#
# any value that is not 1 - disabled
# 1 - enabled
CUSTOM_NMEA_GGA_FIX_QUALITY_ENABLED = 0
################################
# NMEA Reporting Rate Config, valid only when NMEA_PROVIDER is set to "0"
################################
# NMEA Reporting Rate
# Set it to "1HZ" for 1Hz NMEA Reporting
# Set it to "NHZ" for NHz NMEA Reporting
#Default : NHZ (overridden by position update rate if set to lower rates)
NMEA_REPORT_RATE=NHZ
# Mark if it is a SGLTE target (1=SGLTE, 0=nonSGLTE)
SGLTE_TARGET=0
##################################################
# Select Positioning Protocol on A-GLONASS system
##################################################
# 0x1: RRC CPlane
# 0x2: RRLP UPlane
# 0x4: LLP Uplane
A_GLONASS_POS_PROTOCOL_SELECT = 0
##################################################
# Select technology for LPPe Control Plane
##################################################
# 0x1: DBH for LPPe CP
# 0x2: WLAN AP Measurements for LPPe CP
# 0x4: SRN AP measurement for CP
# 0x8: Sensor Barometer Measurement LPPe CP
#LPPE_CP_TECHNOLOGY = 0
##################################################
# Select technology for LPPe User Plane
##################################################
# 0x1: DBH for LPPe UP
# 0x2: WLAN AP Measurements for LPPe UP
# 0x4: SRN AP measurement for UP
# 0x8: Sensor Barometer Measurement LPPe UP
#LPPE_UP_TECHNOLOGY = 0
##################################################
# AGPS_CONFIG_INJECT
##################################################
# enable/disable injection of AGPS configurations:
# SUPL_VER
# SUPL_HOST
# SUPL_PORT
# MO_SUPL_HOST
# MO_SUPL_PORT
# C2K_HOST
# C2K_PORT
# LPP_PROFILE
# A_GLONASS_POS_PROTOCOL_SELECT
# 0: disable
# 1: enable
AGPS_CONFIG_INJECT = 1
##################################################
# GNSS settings for automotive use cases
# Configurations in following section are
# specific to automotive use cases, others
# please do not change, keep the default values
##################################################
# AP Coarse Timestamp Uncertainty
##################################################
# default : 10
# AP time stamp uncertainty, until GNSS receiver
# is able to acquire better timing information
AP_TIMESTAMP_UNCERTAINTY = 10
#####################################
# DR_SYNC Pulse Availability
#####################################
# 0 : DR_SYNC pulse not available (default)
# 1 : DR_SYNC pulse available
# This configuration enables the driver to make use
# of PPS events generated by DR_SYNC pulse
# Standard Linux PPS driver needs to be enabled
DR_SYNC_ENABLED = 0
#####################################
# PPS Device name
#####################################
PPS_DEVICENAME = /dev/pps0
#####################################
# Ignore PPS at Startup and after long outage
#####################################
IGNORE_PPS_PULSE_COUNT = 1
#####################################
# Long GNSS RF outage in seconds
#####################################
GNSS_OUTAGE_DURATION = 10
#####################################
# AP Clock Accuracy
#####################################
# Quality of APPS processor clock (in PPM).
# Value specified is used for calculation of
# APPS time stamp uncertainty
AP_CLOCK_PPM = 100
#####################################
# MAX ms difference to detect missing pulse
#####################################
# Specifies time threshold in ms to validate any missing PPS pulses
MISSING_PULSE_TIME_DELTA = 900
#####################################
# Propagation time uncertainty
#####################################
# This settings enables time uncertainty propagation
# logic incase of missing PPS pulse
PROPAGATION_TIME_UNCERTAINTY = 1
#######################################
# APN / IP Type Configuration
# APN and IP Type to use for setting
# up WWAN call.
# Use below values for IP Type:
# v4 = 4
# v6 = 6
# v4v6 = 10
#######################################
# INTERNET_APN = abc.xyz
# INTERNET_IP_TYPE = 4
# SUPL_APN = abc.xyz
# SUPL_IP_TYPE = 4
#####################################
# Modem type
#####################################
# This setting configures modem type
# (external=0 or internal=1)
# comment out the next line to vote
# for the first modem in the list
MODEM_TYPE = 1
##################################################
# CONSTRAINED TIME UNCERTAINTY MODE
##################################################
# 0 : disabled (default)
# 1 : enabled
# This setting enables GPS engine to keep its time
# uncertainty below the specified constraint
#CONSTRAINED_TIME_UNCERTAINTY_ENABLED = 0
# If constrained time uncertainty mode is enabled,
# this setting specifies the time uncertainty
# threshold that gps engine need to maintain.
# In unit of milli-seconds.
# Default is 0.0 meaning that modem default value
# of time uncertainty threshold will be used.
#CONSTRAINED_TIME_UNCERTAINTY_THRESHOLD = 0.0
# If constrained time uncertainty mode is enabled,
# this setting specifies the power budget that
# gps engine is allowed to spend to maintain the time
# uncertainty.
# Default is 0 meaning that GPS engine is not constained
# by power budget and can spend as much power as needed.
# In unit of 0.1 milli watt second.
#CONSTRAINED_TIME_UNCERTAINTY_ENERGY_BUDGET = 0
##################################################
# POSITION ASSISTED CLOCK ESTIMATOR
##################################################
# 0 : disabled (default)
# 1 : enabled
# This setting enables GPS engine to estimate clock
# bias and drift when the signal from at least 1
# SV is available and the UE<55>s position is known by
# other position engines.
#POSITION_ASSISTED_CLOCK_ESTIMATOR_ENABLED = 0
#####################################
# proxyAppPackageName
#####################################
# This is a string that is sent to the framework
# in nfwNotifyCb callback
PROXY_APP_PACKAGE_NAME = com.google.android.carrierlocation
#####################################
# CP_MTLR_ES
#####################################
# CP MTLR ES, 1=enable, 0=disable
CP_MTLR_ES=0
##################################################
# GNSS_DEPLOYMENT
##################################################
# 0 : Enable QTI GNSS (default)
# 1 : Enable QCSR SS5
# 2 : Enable PDS API
# This setting use to select between QTI GNSS,
# QCSR SS5 hardware receiver, and PDS API.
# By default QTI GNSS receiver is enabled.
# GNSS_DEPLOYMENT = 0
##################################################
## LOG BUFFER CONFIGURATION
##################################################
#LOG_BUFFER_ENABLED, 1=enable, 0=disable
#*_LEVEL_TIME_DEPTH, maximum time depth of level *
#in log buffer, unit is second
#*_LEVEL_MAX_CAPACITY, maximum numbers of level *
#log print sentences in log buffer
LOG_BUFFER_ENABLED = 0
E_LEVEL_TIME_DEPTH = 600
E_LEVEL_MAX_CAPACITY = 50
W_LEVEL_TIME_DEPTH = 500
W_LEVEL_MAX_CAPACITY = 100
I_LEVEL_TIME_DEPTH = 400
I_LEVEL_MAX_CAPACITY = 200
D_LEVEL_TIME_DEPTH = 30
D_LEVEL_MAX_CAPACITY = 300
V_LEVEL_TIME_DEPTH = 200
V_LEVEL_MAX_CAPACITY = 400
##################################################
# Allow buffer diag log packets when diag memory allocation
# fails during boot up time.
##################################################
BUFFER_DIAG_LOGGING = 1
#######################################
# NTRIP CLIENT LIBRARY NAME
#######################################
# NTRIP_CLIENT_LIB_NAME =
##################################################
# Correction Data Framework settings
# Default values:
# CDFW_SOURCE_PRIORITY_1 = INTERNAL_1 RTCM
# CDFW_INJECT_DATA_INTERVAL = 600000 //10 mins
# CDFW_RTCM_MESSAGE_INTERVAL = 1000 //1 second
#
# If multiple sources coexist on a PL,
# the prorioty sequence can be set by the integer number.
# PRIORITY_1 is higher than PRIORITY_2, for example,
# CDFW_SOURCE_PRIORITY_1 = INTERNAL_1 RTCM
# CDFW_SOURCE_PRIORITY_2 = CV2X RTCM
##################################################
##################################################
# RF LOSS
# The loss in 0.1 dbHz from the C/N0 at the antenna port
# These values must be configured by OEM if not
# supported in QMI LOC message
# There is one entry for each signal type
##################################################
RF_LOSS_GPS = 0
RF_LOSS_GPS_L5 = 0
RF_LOSS_GLO_LEFT = 0
RF_LOSS_GLO_CENTER = 0
RF_LOSS_GLO_RIGHT = 0
RF_LOSS_BDS = 0
RF_LOSS_BDS_B2A = 0
RF_LOSS_GAL = 0
RF_LOSS_GAL_E5 = 0
RF_LOSS_NAVIC = 0