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chime: Generate vendor blobs

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Signed-off-by: HeroBuxx <me@herobuxx.me>
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HeroBuxx
2026-04-30 12:29:50 +00:00
commit 4a1a3982aa
903 changed files with 48275 additions and 0 deletions
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proprietary/vendor/etc/acdbdata/IDP/IDP_Bluetooth_cal.acdb
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proprietary/vendor/etc/acdbdata/IDP/IDP_General_cal.acdb
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proprietary/vendor/etc/acdbdata/IDP/IDP_Global_cal.acdb
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proprietary/vendor/etc/acdbdata/IDP/IDP_Handset_cal.acdb
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proprietary/vendor/etc/acdbdata/IDP/IDP_Hdmi_cal.acdb
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proprietary/vendor/etc/acdbdata/IDP/IDP_Speaker_cal.acdb
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proprietary/vendor/etc/acdbdata/IDP/IDP_workspaceFile.qwsp
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proprietary/vendor/etc/acdbdata/adsp_avs_config.acdb
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.0.0_0.1__3.0.0_0.0__eai_1.00.pmd
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proprietary/vendor/etc/acdbdata/nn_ns_models/fai__2.2.0_0.1__3.0.0_0.0__eai_1.00.pmd
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proprietary/vendor/etc/acdbdata/nn_vad_models/fai_3.0.0_0.0_eai_1.00.pmd
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proprietary/vendor/etc/apdr.conf
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# AP DR SENSOR Configuration file
#
# SENSOR_SERVICE options are one of below
# accel,gyro,vehicle_accel,vehicle_gyro,pedometer,vehicle_odometry,accel_temp,
# gyro_temp,baro,mag_calib,mag_uncalib,amd,rmd.
#
# SENSOR_PROVIDER options is one of -- default,native,ssc,samlite.
#
# SENSOR_RATE = 1~100 (Hz)
#
# SENSOR_SAMPLES = 1~N
#
# SENSOR_STATISTIC_ENABLED
# bit 0: Diag Print Enabled
# bit 1: Adb Print Enabled
# SENSOR_STATISTIC_PRINT_COUNT
# Skip Number of Print
#
# QDR_DYNAMIC_LOADING = 1~3
# Configure QDR library to be loaded
# 1: QDR3
# 2: QDR2-GYRO
# 3: QDR2-DWT
#
#
######################################
# #
# QDR3 Configuration #
# #
# For QDR3, #
# comment default configuration above#
# and #
# uncomment below configuration #
# settings. #
# #
######################################
#
SENSOR_SERVICE = accel
SENSOR_PROVIDER = native
SENSOR_RATE = 10
SENSOR_SAMPLES = 10
#
SENSOR_SERVICE = vehicle_speed
SENSOR_PROVIDER = native
SENSOR_RATE = 100
SENSOR_SAMPLES = 1
#
SENSOR_SERVICE = gyro
SENSOR_PROVIDER = native
SENSOR_RATE = 10
SENSOR_SAMPLES = 10
#
SENSOR_SERVICE = vehicle_gear
SENSOR_PROVIDER = native
SENSOR_RATE = 100
SENSOR_SAMPLES = 1
#
SENSOR_SERVICE = accel_temp
SENSOR_PROVIDER = native
SENSOR_RATE = 1
SENSOR_SAMPLES = 1
#
#
##Configure QDR library to be loaded 1: QDR3 2: QDR2-GYRO 3: QDR2-DWS
QDR_DYNAMIC_LOADING = 1
##Specify CAN sensor type: Valid Options: 14(ODO), 2(ODO_DWT), 3(ODO_DWS)
QDR_CAN_TYPE = 14
##Reporting offset before PPS boundary
QDR_REPORTING_OFFSET = 20
#
##Vehicle Sensor Configuration (CAN data availability)
##QDR_VEH_SENSOR_CONFIG:
## 0: VEHICLE_SENSOR_PRESENT - Vehicle Sensor is available (DEFAULT)
## 1: VEHICLE_SENSOR_OPTIONAL - Vehicle Sensor may or may not be present.
#QDR_VEH_SENSOR_CONFIG = 0
##Select Wheel set (E.g.: Front two wheels, Rear two wheels OR All four wheels)
##To be used for differential wheel tick OR speed service.
##This configuration is applicable when QDR_CAN_TYPE configured as
##ODO_DWS(3) or ODO_DWT(2).
##Value "0": Use Front two wheels
##Value "1": Use Rear two wheels
##Value "2": Use All four wheels
#QG_DRIVE_WHEEL_FW_RW_AW = 2
##Max Wheel tick value above which wheel tick rolls over
##This configuration is applicable when QDR_CAN_TYPE configured as ODO_DWT(2)
#QG_DWT_MAX_WHEEL_TICK_COUNT = 255.0
##Configure Wheel constant for DWT based below equation
##(2 * pi * WHEEL_RADIUS / Pulses Per revolution)
##This configuration is applicable when QDR_CAN_TYPE configured as ODO_DWT(2)
#QG_DWT_WHEEL_CONSTANT = 0.044
#
######################################
# #
# QDR2-DWT Configuration #
# #
# For QDR2-DWT, #
# comment default configuration above#
# and #
# uncomment below configuration #
# settings. #
# #
######################################
#
#SENSOR_SERVICE = vehicle_speed
#SENSOR_PROVIDER = native
#SENSOR_RATE = 100
#SENSOR_SAMPLES = 1
#SENSOR_STATISTIC_ENABLED = 3
#SENSOR_STATISTIC_PRINT_COUNT = 50
#
#SENSOR_SERVICE = vehicle_dws
#SENSOR_PROVIDER = native
#SENSOR_RATE = 100
#SENSOR_SAMPLES = 1
#SENSOR_STATISTIC_ENABLED = 3
#SENSOR_STATISTIC_PRINT_COUNT = 50
#
#SENSOR_SERVICE = vehicle_gear
#SENSOR_PROVIDER = native
#SENSOR_RATE = 100
#SENSOR_SAMPLES = 1
#SENSOR_STATISTIC_ENABLED = 3
#SENSOR_STATISTIC_PRINT_COUNT = 50
#
#GNSS_POS_STATISTIC_ENABLED = 3
#GNSS_POS_STATISTIC_PRNTCNT = 10
#GNSS_MSR_STATISTIC_ENABLED = 3
#GNSS_MSR_STATISTIC_PRNTCNT = 10
#
##Configure QDR library to be loaded 1: QDR3 2: QDR2-GYRO 3: QDR2-DWS
#QDR_DYNAMIC_LOADING = 3
##Enable/disable sensor data flashback feature
#QDR_FLASHBACK_ENABLED = 0
##Enable/disable sensor data batching feature
#QDR_BATCHING_ENABLED = 0
##Reporting offset before PPS boundary
#QDR_REPORTING_OFFSET = 20
##Sensor dispatch threshold declaration
#QDR_SENSDISPATCH_MS = 30
######################################
# #
# QDR2-GYRO Configuration #
# #
# For QDR2-GYRO, #
# comment default configuration above#
# and #
# uncomment below configuration #
# settings. #
# #
######################################
#
#SENSOR_SERVICE = vehicle_speed
#SENSOR_PROVIDER = native
#SENSOR_RATE = 100
#SENSOR_SAMPLES = 1
#
#SENSOR_SERVICE = vehicle_gyro
#SENSOR_PROVIDER = native
#SENSOR_RATE = 100
#SENSOR_SAMPLES = 1
#
#SENSOR_SERVICE = vehicle_gear
#SENSOR_PROVIDER = native
#SENSOR_RATE = 100
#SENSOR_SAMPLES = 1
#
##Configure QDR library to be loaded 1: QDR3 2: QDR2-GYRO 3: QDR2-DWS
#QDR_DYNAMIC_LOADING = 2
##Enable/disable sensor data flashback feature
#QDR_FLASHBACK_ENABLED = 0
##Enable/disable sensor data batching feature
#QDR_BATCHING_ENABLED = 0
##Reporting offset before PPS boundary
#QDR_REPORTING_OFFSET = 20
##Sensor dispatch threshold declaration
#QDR_SENSDISPATCH_MS = 30
#
proprietary/vendor/etc/charger_fstab.qti
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#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# Copyright (c) 2018-2019 The Linux Foundation. All rights reserved.
#
# Android fstab file.
# The filesystem that contains the filesystem checker binary (typically /system) cannot
# specify MF_CHECK, and must come before any filesystems that do specify MF_CHECK
#<src> <mnt_point> <type> <mnt_flags and options> <fs_mgr_flags>
/dev/block/bootdevice/by-name/persist /mnt/vendor/persist ext4 noatime,nosuid,nodev,barrier=1 wait
proprietary/vendor/etc/cne/mwqem.conf
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#configuration parameters for Multi-network Wireless Quality Estimation and Management.
#Number of previous latency iterations to track to decide the better LQS interface
latency_count:3
#Threshold in ms to decide the better interface for LQS.
latency_threshold:10
#Number of tcp connections to be established in each latency session
max_tcp_connects:3
#Max waiting time for a dns query to be resolved
dns_timeout:9
#Minimum change in mwqem ratio to update the new LQA ratio
lqa_update_threshold:0.25
#Timer in msec to track the lqs updates. Only one update will be allowed
#in this duration
lqa_update_count_timer:10000
#default URL for establishing a tcp sessions
mwqem_http_url:www.qualcomm.com
proprietary/vendor/etc/cne/profileMwqem.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2020 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile1.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile2.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-82,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-82,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-82,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-82,-82</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile3.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile4.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1.0</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1.0</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1.0</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1.0</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1.0</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1.0</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile5.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile6.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile1.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile15.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile16.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile17.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile18.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile19.xml
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+239
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-72</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile2.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile20.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile21.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile3.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile32.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-99,-99</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-99,-99</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile4.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile5.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2016-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-72,-72</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-72,-72</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-72</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile6.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-90,-90</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-90,-90</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile7.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2017-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-87,-88</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-87,-88</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile1.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-65,-65</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-65,-65</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile2.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-80,-80</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-80,-80</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile3.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-75,-75</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-75,-75</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile4.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-85,-85</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-85,-85</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile5.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.64</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>1</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>12</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>3</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>1</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>60</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-79</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-79</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-91</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>1</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>1</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile6.xml
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2018 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.1</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe thresholds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">0</Threshold>
</RadioTechnology>
</BQE_Thresholds>
<Authentication>
<MaxAuthTime>60</MaxAuthTime>
<IcdBanRetest>3</IcdBanRetest>
<AuthApps>
<Appname>someauthapp1</Appname>
<Appname>someauthapp2</Appname>
<Appname>someauthapp3</Appname>
</AuthApps>
</Authentication>
<ICD config-type="disabled">
</ICD>
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>true</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>true</DBD_Disabled>
<!-- Threshold on downlink gap indicator metric -->
<DGIMThresh units="msecs">400</DGIMThresh>
<!-- DBD always returns pass when average device throughput is greater than min(DBDTputThresh,BQE_Threshold) -->
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<!-- Time window for TQE history -->
<TQETimeWindow units="secs">77</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
</TQE>
</InterfaceManager>
</WQE>
<CQE prodId="Rome">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.55</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.09</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>4</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.55</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>50</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>8</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>100</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>300</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.15</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>4</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>80</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Helium">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-79,-82</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-79,-82</RSSIDropThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.12</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>10</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>9</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>3</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.1</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>2</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.64</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>100</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>4</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>2</TX_BW_THR>
<!-- Maximum MPDU count to activate RX MPDU PER -->
<RMP_UBCNT_THR>1000</RMP_UBCNT_THR>
<!-- Maximum MPDU count to activate MPDU retry rate -->
<TMR_UBCNT_THR>1000</TMR_UBCNT_THR>
<!-- Threshold for PERAM -->
<PERAM_THR>0.22</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>20</PERAM_CNT_THR>
<!-- Maximum MPDU count to activate PERAM -->
<PERAM_UBCNT_THR>1000</PERAM_UBCNT_THR>
<!-- CQE throughput Threshold-->
<CQE_TPUT_THR>1000000</CQE_TPUT_THR>
</CQE_Thresholds>
</CQE>
<CQE prodId="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI threshold from which all values greather than it is considered as good for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIAddThreshold units="dbm">-78,-78</RSSIAddThreshold>
<!-- RSSI threshold from which all values lesser than it is considered as bad for wlan to be -->
<!-- a candidate for interface selection -->
<RSSIDropThreshold units="dbm">-78,-78</RSSIDropThreshold>
<!-- RSSI threshold from which to select linear model to compute CQE metric -->
<RSSIModelThreshold units="dbm">-74</RSSIModelThreshold>
<!-- Interval over whcih RSSI values are averaged -->
<RSSIAveragingInterval units="secs">5</RSSIAveragingInterval>
<!-- RSSI threshold below which MAC hysteresis timer is not started -->
<RSSIMacTimerThreshold units="dbm">-85</RSSIMacTimerThreshold>
<!-- Periodic timer to evaluate CQE parameters including RSSI and MAC stats -->
<!-- Setting CQETimer to zero disables the CQE -->
<CQETimer units="secs">2</CQETimer>
<!-- Time for which CQE is not reevaluted after it was declared bad due to MAC stats -->
<MACHysteresisTimer units="secs">120</MACHysteresisTimer>
<!-- Alpha to compute RSSI averaging based on IIR filtering mechanism -->
<MACStatsAveragingAlpha>0.47</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">8</FrameCntThreshold>
<!-- The threshold indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MACMibThreshold2a>0.42</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.0597</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.8895</MultiRetryMetricWeight2a>
<!-- The threshold that ultimately decides the wlan is good or bad based on the combined MAC parameters -->
<!-- such as retry, multi-retry, fail and ack fail metric -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MACMibThreshold2b>0.21</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.1366</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.5795</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>
proprietary/vendor/etc/data/dsi_config.xml
Vendored
+1396
View File
File diff suppressed because it is too large Load Diff
proprietary/vendor/etc/data/netmgr_config.xml
Vendored
+3593
View File
File diff suppressed because it is too large Load Diff
proprietary/vendor/etc/default-permissions/com.qualcomm.qti.cne.xml
Vendored
+19
View File
@@ -0,0 +1,19 @@
<?xml version="1.0" encoding="utf-8"?>
<!--
~ Copyright (c) 2020 Qualcomm Technologies, Inc.
~ All Rights Reserved.
~ Confidential and Proprietary - Qualcomm Technologies, Inc.
-->
<!--
This XML file declares which signature|privileged permissions should be
granted to privileged applications on QTI devices.
It allows additional grants on top of privapp-permissions-platform.xml
-->
<exceptions>
<exception package="com.qualcomm.qti.cne">
<permission name="android.permission.ACCESS_COARSE_LOCATION" fixed="false"/>
<permission name="android.permission.READ_PHONE_STATE" fixed="false"/>
</exception>
</exceptions>
proprietary/vendor/etc/focal/Conf_MultipleTest_FT8720M-01.ini
Vendored
+259
View File
@@ -0,0 +1,259 @@
[Valid_File]
OnlyMultipleTest=1
[Interface]
IC_Type=FT8720M
Normalize_Type=0
CascadingType=0
Interface_Type=1
Slave_Addr=
Slave_Addr0=
Slave_Addr1=
Freq_Index=4
Phase_Pola=0
TestBoard=2
Check_I2C_Address=0
Max_Points=5
iRotationDegree=0
isReversed=0
ixMaxPixel=1080
iyMaxPixel=2340
[Android_Terminal]
TP_Test=2
LCD_Test=1
I2C_Interface=0
I2C_Index=0
RW_Byte=1
CustomConfPath=0
AutoSave=1
ResultPath=
[Config]
Run_Mode=0
Read_Bytes=256
Write_Bytes=128
Test_Way=0
Handle_SN=0
SN_Length=18
SN_AutoTest=1
SnAndEnter=0
SN_And_IO_AutoTest=0
Set_Focus_To_SN1=0
TP_Connection_AND_SN_AutoTest=0
CheckSN=0
SN_AutoSkipBy=0
SKey_Index=0
SKeyValue=13
TP_AutoTest=0
TP_AutoTest_Time=0
TP_ReplaceTP=0
TP_ReplaceTP_Time=0
TP_Always_Replace=0
TP_Always_Replace_Time=0
Store_Result=0
CommOption=0
DirecoryPanelType=
Auto_Switch=0
Continue_Test_After_Fail=0
Break_Test_After_Fail=0
Break_Test_If_Failed_Before_Download=0
CB_Test_Mode=0
Tip_After_TestNG=0
Show_Res=0
Check_Mode=0
Light_Up=0
Non_Common_GND=0
TP_Stop=0
TP_Stop_Wait=60
LCDDeepStandbyAndTpStop=0
LCDDeepStandbyTimeOut=30
RemoveLPWGLevelSignal=0
ContinueDownLoad=0
CheckFwCRCBeforeDownload=0
bPoll=0
bCheckBinBeforeDownLoad=1
bRemoveReloadInitialCode=0
bSwitchICMode=0
bICMode=0
bDelayTime=0
bCancelSiuPowerOff=0
EnablePC6LPWGLevelSignal=0
PC6LPWGLevelSignalDelayTime=300
Output_LevelSignal=0
Output_NgSignal=0
Input_LevelSignal=0
Reverse_Time=0
Switch_Protocol=0
CLB_Other_Return=0
Count_Result=0
Count_Result_Type=0
Full_Screen=0
DisplayMonitorIndexEn=0
Impulsing=0
NotifyTest=0
Use_LockDown=0
SetCheckFwFileName=0
SetFwChecksum=0
DelayTimeSet=0
CheckFactoryID=0
SaveState=0
SetVDDTP_Check=0
CheckTpConnect=1
SiuPowOffSaveResult=0
Checl_Tool_Version=0
Tool_Version=v7.2.0.0
Switch_TP_Report_Rate=0
Rate_Value=0
[OnLine_Setting]
IPAddress=127.0.0.1
TCPPort=5555
[COM_Setting]
COM_ID=0
BaudRate=115200
[TestItem]
FW_VERSION_TEST=0
FACTORY_ID_TEST=0
IC_VERSION_TEST=0
PROJECT_CODE_TEST=0
FW_CHECKSUM_TEST=0
RAWDATA_TEST=1
CB_TEST=1
SHORT_CIRCUIT_TEST=1
CHANNEL_NUM_TEST=0
INT_PIN_TEST=0
RESET_PIN_TEST=0
LCD_NOISE_TEST=0
OPEN_TEST=1
LPWG_CB_TEST=0
LPWG_RAWDATA_TEST=0
LPWG_NOISE_TEST=0
MONITOR_CB_TEST=0
MONITOR_RAWDATA_TEST=0
MONITOR_NOISE_TEST=0
DIFFER2_UNIFORMITY_TEST=0
FLASH_ERASE_TEST=0
CB_UNIFORMITY_TEST=0
RAWDATA_UNIFORMITY_TEST=0
LOKEDOWN_INFO_TEST=0
TOUCH_DIFFER_TEST=0
LVD_VDD_TEST=0
COLOR_ID_TEST=0
WORK_STATION_TEST=0
WRITE_2D_CODE_TEST=0
CHECK_2D_CODE_TEST=0
IC_TYPE_TEST=0
RAM_TEST=0
WAFER_INFORMATION_TEST=0
CB_INCREASE_TEST=0
VIRTUAL_BUTTON_TEST=0
ONELINE_TEST=0
MULTILINE_TEST=0
GRIDLINE_TEST=0
TOUCHLINE_TEST=0
DIAGONAL_TEST=0
FREEPAINT_TEST=0
SPECIAL_BUTTON_TEST=0
HOME_KEY_TEST=0
FORCE_TOUCH_TEST=0
LINEARITY_TEST=0
CIRCLE_TEST=0
SQUARE_TEST=0
KEY_TEST=0
PRESS_CHANNEL_TEST=0
Graph_Set_K1=0
[Basic_Threshold]
FW_VER_VALUE=255
CheckIDEVersion=0
IDE_Version=0
Factory_ID_Number=255
IC_Version=0
Project_Code=
Ori_ProjectCode=0
RawDataTest_Min=4000
RawDataTest_Max=12000
CBTest_VA_Check=1
CBTest_Min=1
CBTest_Max=55
ShortCircuit_ResMin=200
ShortCircuit_VkResMin=500
OpenTest_CBMin=50
OpenTest_Check_K1=0
OpenTest_K1Threshold=30
OpenTest_Check_K2=0
OpenTest_K2Threshold=5
OpenTest_DeltaVoltage=4
OpenTest_DifferMin=1000
Distance_Diagonal=50
Type_Diagonal=2
MaxNG_Diagonal=0
LimitTime_Diagonal=0
LinearityCheck_Diagonal=1
Continue_Diagonal=0
LimitTime_HomeKey=10
HomeKey_LeftChannel=0
HomeKey_RightChannel=0
HomeKey_TopChannel=0
HomeKey_BottonChannel=0
HomeKey_Hole=0
SET_TOUCH_THRESHOLD_INCELL=0
Key_Div_Number_Incell=1
Preserved_key_threshold_Incell=4
SET_TOUCH_THRESHOLD_INCELL2=0
Key_Div_Number_Incell2=1
Preserved_key_threshold_Incell2=4
Preserved_key_threshold_Dynamic=1
CIRCLE_TEST_MAX_NG=0
CIRCLE_TEST_LIMITE_TIME=0
CIRCLE_TEST_BOARDER=360
CIRCLE_TEST_EDGE=20
CIRCLE_TEST_TRACK=10
CIRCLE_TEST_CENTER1=270
CIRCLE_TEST_CENTER2=120
CIRCLE_TEST_LINEARITY=35
CIRCLE_TEST_SPLITS=10
CircleWhenCritical=0
SET_TOUCH_THRESHOLD=0
Key_Div_Number=1
Preserved_key_threshold=800
1_key_threshold=800
2_key_threshold=800
3_key_threshold=800
4_key_threshold=800
Key_Threshold=800
KEY_TEST_MAX_NG=0
KEY_TEST_LIMITE_TIME=0
KEY_TEST_KEY_NUM=21
PressChannelTest_Min=5000
PressChannelTest_Max=65000
Press_Test_LimitedTime=0
PressChannelTest_NotifyIOEn=0
PressChannelTest_NotifyIO=0
Graph_Set_K1_Step=3
[INVALID_NODE]
InvalidNode[8][1]=0
InvalidNode[9][1]=0
[SiuParam]
Check_Siu_Version=0
Siu_MainVersion=0
Siu_SubVersion=0
Update_Siu2_Version=0
Siu2_MainVersion=0
Siu2_SubVersion=0
Check_Set_IICVol=0
IIC_Vol_Type=0
IIC_Vdd_Type=0
Check_Iovcc=0
Iovcc_Vol_Type=0
Iovcc_Current_Type=0
Iovcc_Min_Hole=0
Iovcc_Max_Hole=50
Check_Vdd=0
Vdd_Vol_Type=0
Check_Normal=0
Check_Sleep=0
Vdd_Normal_Min=0
Vdd_Normal_Max=500
Vdd_Sleep_Min=0
Vdd_Sleep_Max=150
Check_Standby=0
Standby_Vol_Type=0
Vdd_Standby_Min=0
Vdd_Standby_Max=150
proprietary/vendor/etc/focal/focaltech_mp_fw_huaxing.ini
Vendored
+241
View File
@@ -0,0 +1,241 @@
[Valid_File]
OnlyMultipleTest=1
[Interface]
IC_Type=FT8719
Normalize_Type=0
CascadingType=0
Interface_Type=1
Slave_Addr=
Slave_Addr0=
Slave_Addr1=
Freq_Index=4
Phase_Pola=1
Max_Points=10
iRotationDegree=0
isReversed=0
ixMaxPixel=480
iyMaxPixel=800
[Android_Terminal]
TP_Test=2
LCD_Test=1
I2C_Interface=0
I2C_Index=0
RW_Byte=1
CustomConfPath=0
AutoSave=1
ResultPath=
[Config]
Run_Mode=0
Read_Bytes=256
Write_Bytes=128
Test_Way=0
Handle_SN=0
SN_Length=18
SN_AutoTest=1
SnAndEnter=0
SN_And_IO_AutoTest=0
Set_Focus_To_SN1=0
TP_Connection_AND_SN_AutoTest=0
SN_IgnoreSNLength=0
SN_AutoSkipBy=0
SKey_Index=0
SKeyValue=13
TP_AutoTest=0
TP_AutoTest_Time=0
TP_ReplaceTP=0
TP_ReplaceTP_Time=0
TP_Always_Replace=0
TP_Always_Replace_Time=0
Store_Result=0
CommOption=0
DirecoryPanelType=
Auto_Switch=0
Continue_Test_After_Fail=0
Break_Test_After_Fail=0
Break_Test_If_Failed_Before_Download=0
CB_Test_Mode=0
Tip_After_TestNG=0
Show_Res=0
Check_Mode=0
Light_Up=0
Non_Common_GND=0
TP_Stop=0
TP_Stop_Wait=60
LCDDeepStandbyAndTpStop=0
LCDDeepStandbyTimeOut=30
RemoveLPWGLevelSignal=0
ContinueDownLoad=0
CheckFwCRCBeforeDownload=0
bPoll=0
bCheckBinBeforeDownLoad=1
bRemoveReloadInitialCode=0
bSwitchICMode=0
bICMode=0
bCancelSiuPowerOff=0
Output_LevelSignal=0
Output_NgSignal=0
Input_LevelSignal=0
Reverse_Time=0
Switch_Protocol=0
CLB_Other_Return=0
Count_Result=0
Count_Result_Type=0
Full_Screen=0
Impulsing=0
NotifyTest=0
Use_LockDown=0
SetCheckFwFileName=0
SetFwChecksum=0
DelayTimeSet=0
CheckFactoryID=0
SaveState=0
SetVDDTP_Check=0
CheckTpConnect=1
SiuPowOffSaveResult=0
Checl_Tool_Version=0
Tool_Version=v7.2.0.0
CheckSN=0
[OnLine_Setting]
IPAddress=127.0.0.1
TCPPort=5555
[COM_Setting]
COM_ID=0
BaudRate=115200
[TestItem]
FW_VERSION_TEST=0
FACTORY_ID_TEST=0
IC_VERSION_TEST=0
FW_CHECKSUM_TEST=0
PROJECT_CODE_TEST=0
RAWDATA_TEST=1
CB_TEST=1
SHORT_CIRCUIT_TEST=1
OPEN_TEST=1
CHANNEL_NUM_TEST=0
INT_PIN_TEST=0
RESET_PIN_TEST=0
NOISE_TEST=0
LCD_NOISE_TEST=0
CB_UNIFORMITY_TEST=0
LPWG_CB_TEST=0
LPWG_RAWDATA_TEST=0
LPWG_NOISE_TEST=0
DIFFER2_TEST=0
FLASH_ERASE_TEST=0
RAM_TEST=0
RAWDATA_UNIFORMITY_TEST=0
MONITOR_CB_TEST=0
MONITOR_RAWDATA_TEST=0
MONITOR_NOISE_TEST=0
LOKEDOWN_INFO_TEST=0
IC_TYPE_TEST=0
SPECIAL_MODE_RAWDATA_TEST=0
SPECIAL_MODE_CB_TEST=0
SPECIAL_MODE_LCD_NOISE_TEST=0
COLOR_ID_TEST=0
WORK_STATION_TEST=0
VIRTUAL_BUTTON_TEST=0
ONELINE_TEST=0
MULTILINE_TEST=0
GRIDLINE_TEST=0
TOUCHLINE_TEST=0
DIAGONAL_TEST=0
FREEPAINT_TEST=0
SPECIAL_BUTTON_TEST=0
HOME_KEY_TEST=0
FORCE_TOUCH_TEST=0
LINEARITY_TEST=0
CIRCLE_TEST=0
SQUARE_TEST=0
KEY_TEST=0
PRESS_CHANNEL_TEST=0
Graph_Set_K1=0
[Basic_Threshold]
FW_VER_VALUE=255
CheckIDEVersion=0
IDE_Version=255
Factory_ID_Number=255
IC_Version=0
Project_Code=
Ori_ProjectCode=0
RawDataTest_Min=2000
RawDataTest_Max=10000
CBTest_VA_Check=1
CBTest_Min=1
CBTest_Max=55
CBTest_VKey_Check=0
CBTest_Min_Vkey=1
CBTest_Max_Vkey=160
ShortCircuit_ResMin=200
OpenTest_CBMin=40
OpenTest_Check_K1=0
OpenTest_K1Threshold=30
OpenTest_Check_K2=0
OpenTest_K2Threshold=5
LCD_NoiseTest_Frame=10
LCD_NoiseTest_Max_Screen=32
LCD_NoiseTest_Max_Frame=32
LCD_NoiseTest_Coefficient=80
LCD_NoiseTest_Coefficient_Key=80
Distance_Diagonal=50
Type_Diagonal=2
MaxNG_Diagonal=0
LimitTime_Diagonal=0
LinearityCheck_Diagonal=1
Continue_Diagonal=0
LimitTime_HomeKey=10
HomeKey_LeftChannel=0
HomeKey_RightChannel=0
HomeKey_TopChannel=0
HomeKey_BottonChannel=0
HomeKey_Hole=0
SET_TOUCH_THRESHOLD_INCELL=0
Key_Div_Number_Incell=1
Preserved_key_threshold_Incell=4
SET_TOUCH_THRESHOLD_INCELL2=0
Key_Div_Number_Incell2=1
Preserved_key_threshold_Incell2=4
Preserved_key_threshold_Dynamic=1
CIRCLE_TEST_MAX_NG=0
CIRCLE_TEST_LIMITE_TIME=0
CIRCLE_TEST_BOARDER=360
CIRCLE_TEST_EDGE=20
CIRCLE_TEST_TRACK=10
CIRCLE_TEST_CENTER1=270
CIRCLE_TEST_CENTER2=120
CIRCLE_TEST_LINEARITY=35
CIRCLE_TEST_SPLITS=10
SET_TOUCH_THRESHOLD=0
Key_Div_Number=1
Preserved_key_threshold=800
1_key_threshold=800
2_key_threshold=800
3_key_threshold=800
4_key_threshold=800
Key_Threshold=800
KEY_TEST_MAX_NG=0
KEY_TEST_LIMITE_TIME=0
KEY_TEST_KEY_NUM=21
PressChannelTest_Min=5000
Press_Test_LimitedTime=0
Graph_Set_K1_Step=3
[INVALID_NODE]
InvalidNode[9][1]=0
InvalidNode[10][1]=0
InvalidNode[19][1]=0
InvalidNode[19][2]=0
InvalidNode[19][3]=0
InvalidNode[19][4]=0
InvalidNode[19][5]=0
InvalidNode[19][6]=0
[SpecialSet]
TouchDiffer_Area01=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area02=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area03=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area04=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area05=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area06=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area07=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area08=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area09=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
TouchDiffer_Area10=0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
proprietary/vendor/etc/init/android.hardware.biometrics.fingerprint@2.1-service.chime.rc
Vendored
+8
View File
@@ -0,0 +1,8 @@
service vendor.fps_hal /vendor/bin/hw/android.hardware.biometrics.fingerprint@2.1-service.chime
# "class hal" causes a race condition on some devices due to files created
# in /data. As a workaround, postpone startup until later in boot once
# /data is mounted.
class late_start
user system
group system input uhid
#writepid /dev/cpuset/system-background/tasks
proprietary/vendor/etc/init/android.hardware.bluetooth@1.0-service-qti.rc
Vendored
+5
View File
@@ -0,0 +1,5 @@
service vendor.bluetooth-1-0-qti /vendor/bin/hw/android.hardware.bluetooth@1.0-service-qti
class hal
user bluetooth
group bluetooth system wakelock oem_2901 net_raw
capabilities BLOCK_SUSPEND NET_ADMIN
proprietary/vendor/etc/init/android.hardware.drm@1.3-service.widevine.rc
Vendored
+27
View File
@@ -0,0 +1,27 @@
on property:init.svc.mediadrm=running
mkdir /data/vendor/mediadrm 0770 media mediadrm
start vendor.move_data_sh
service vendor.move_data_sh /system/bin/move_widevine_data.sh
class late_start
user media
group media mediadrm system
disabled
oneshot
service vendor.drm-widevine-hal-1-3 /vendor/bin/hw/android.hardware.drm@1.3-service.widevine
interface android.hardware.drm@1.0::ICryptoFactory widevine
interface android.hardware.drm@1.0::IDrmFactory widevine
interface android.hardware.drm@1.1::ICryptoFactory widevine
interface android.hardware.drm@1.1::IDrmFactory widevine
interface android.hardware.drm@1.2::ICryptoFactory widevine
interface android.hardware.drm@1.2::IDrmFactory widevine
interface android.hardware.drm@1.3::ICryptoFactory widevine
interface android.hardware.drm@1.3::IDrmFactory widevine
interface android.hidl.base@1.0::IBase widevine
class hal
user media
group media mediadrm drmrpc system
ioprio rt 4
writepid /dev/cpuset/foreground/tasks
capabilities SYS_NICE
proprietary/vendor/etc/init/android.hardware.gatekeeper@1.0-service-qti.rc
Vendored
+4
View File
@@ -0,0 +1,4 @@
service gatekeeper-1-0 /vendor/bin/hw/android.hardware.gatekeeper@1.0-service-qti
class early_hal
user system
group system
proprietary/vendor/etc/init/android.hardware.keymaster@4.0-service-qti.rc
Vendored
+7
View File
@@ -0,0 +1,7 @@
on init
start keymaster-4-0
service keymaster-4-0 /vendor/bin/hw/android.hardware.keymaster@4.0-service-qti
class early_hal
user system
group system drmrpc
proprietary/vendor/etc/init/android.hardware.neuralnetworks@1.3-service-qti.rc
Vendored
+14
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@@ -0,0 +1,14 @@
# Copyright (c) 2019-2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service neuralnetworks_hal_service /vendor/bin/hw/android.hardware.neuralnetworks@1.3-service-qti
class hal
user system
group system
writepid /dev/stune/nnapi-hal/tasks
#Below changes moved from init.target.rc as part of go/FR53051
on post-fs-data
mkdir /data/vendor/nnhal 0700 system system
proprietary/vendor/etc/init/cnd.rc
Vendored
+4
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@@ -0,0 +1,4 @@
service vendor.cnd /system/vendor/bin/cnd
class main
user system
group system wifi inet radio wakelock net_admin
proprietary/vendor/etc/init/dataadpl.rc
Vendored
+13
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@@ -0,0 +1,13 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
# Create the directories used by DPM subsystem
#start dataadpl service
service vendor.dataadpl /system/vendor/bin/adpl
class main
user radio
socket adpl_cmd_uds_file dgram 660 radio radio
group radio oem_2901 diag usb inet
disabled
proprietary/vendor/etc/init/dataqti.rc
Vendored
+19
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@@ -0,0 +1,19 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
# Create the directories used by DPM subsystem
# msm specific files that need to be created on /data
on post-fs-data
#Create DATAQTI dir for logs
mkdir /data/vendor/dataqti 0770 radio radio
chmod 0770 /data/vendor/dataqti
#start dataqti service
service vendor.dataqti /system/vendor/bin/qti
class main
user radio
socket qti_dpm_uds_file dgram 660 radio radio
group radio oem_2901 diag usb inet
disabled
proprietary/vendor/etc/init/dpmQmiMgr.rc
Vendored
+17
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@@ -0,0 +1,17 @@
# Copyright (c) 2019-2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#start dpmQmiMgr service
service dpmQmiMgr /system/vendor/bin/dpmQmiMgr
interface com.qualcomm.qti.dpm.api@1.0::IdpmQmi dpmQmiService
class main
user system
group system
disabled
on property:persist.vendor.dpmhalservice.enable=*
start dpmQmiMgr
on property:persist.vendor.dpmhalservice.enable=0
stop dpmQmiMgr
proprietary/vendor/etc/init/ims_rtp_daemon.rc
Vendored
+13
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@@ -0,0 +1,13 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# imsdatadaemon starts with root and UID will be downgraded to RADIO.
service vendor.ims_rtp_daemon /vendor/bin/ims_rtp_daemon
class main
user radio
group radio vendor_qti_diag inet log
on property:vendor.ims.DATA_DAEMON_STATUS=1
restart vendor.ims_rtp_daemon
proprietary/vendor/etc/init/imsdatadaemon.rc
Vendored
+15
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@@ -0,0 +1,15 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# imsdatadaemon starts with root and UID will be downgraded to RADIO.
service vendor.imsdatadaemon /vendor/bin/imsdatadaemon
class main
user radio
socket ims_datad stream 0660 system radio
group radio wifi inet vendor_qti_diag log
disabled
on property:vendor.ims.QMI_DAEMON_STATUS=1
start vendor.imsdatadaemon
proprietary/vendor/etc/init/imsqmidaemon.rc
Vendored
+10
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@@ -0,0 +1,10 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service vendor.imsqmidaemon /vendor/bin/imsqmidaemon
class main
user radio
socket ims_qmid stream 0660 system radio
group radio vendor_qti_diag log
proprietary/vendor/etc/init/imsrcsd.rc
Vendored
+8
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@@ -0,0 +1,8 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service vendor.imsrcsservice /vendor/bin/imsrcsd
class main
user radio
group radio vendor_qti_diag log inet wakelock
proprietary/vendor/etc/init/init-qcril-data.rc
Vendored
+2
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@@ -0,0 +1,2 @@
on property:ro.board.platform=msmnile && property:ro.baseband=msm && property:ro.vendor.qti.va_aosp.support=1
setprop ro.telephony.iwlan_operation_mode "legacy"
proprietary/vendor/etc/init/init.time_daemon.rc
Vendored
+14
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@@ -0,0 +1,14 @@
#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
on post-fs-data && property:ro.crypto.state=encrypted && property:ro.crypto.type=file
start time_daemon
service time_daemon /vendor/bin/time_daemon
class main
user system
group system
capabilities SYS_TIME
proprietary/vendor/etc/init/init.vendor.sensors.rc
Vendored
+52
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@@ -0,0 +1,52 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# Copyright (c) 2009-2012, 2014-2019, The Linux Foundation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
# # Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# # Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# # Neither the name of The Linux Foundation nor
# the names of its contributors may be used to endorse or promote
# products derived from this software without specific prior written
# permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NON-INFRINGEMENT ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
# OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
# OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
# ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
on early-boot
write /sys/kernel/boot_slpi/boot 1
chown system system /mnt/vendor/persist/sensors
chown system system /mnt/vendor/persist/sensors/sns.reg
chown system system /mnt/vendor/persist/sensors/sensors_list.txt
chown system system /mnt/vendor/persist/sensors/registry
chown system system /mnt/vendor/persist/sensors/registry/registry
chown system system /mnt/vendor/persist/sensors/registry/registry/sensors_registry
chown system system /mnt/vendor/persist/sensors/sensors_settings
chown system system /mnt/vendor/persist/sensors/registry/sns_reg_config
chown system system /mnt/vendor/persist/sensors/registry/sns_reg_version
chown system system /mnt/vendor/persist/sensors/registry/config
chmod 0664 /mnt/vendor/persist/sensors/sensors_settings
chown system system /sys/kernel/boot_adsp/ssr
on post-fs-data && property:ro.build.type=userdebug
#sensors log dir
mkdir /data/vendor/sensors 0777 system system
mkdir /data/vendor/sensors/scripts 0777 system system
proprietary/vendor/etc/init/init_thermal-engine.rc
Vendored
+20
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@@ -0,0 +1,20 @@
#! /bin/sh
#
#Copyright (c) 2019-2021 Qualcomm Technologies, Inc.
#All Rights Reserved.
#Confidential and Proprietary - Qualcomm Technologies, Inc.
#
#Copyright (c) 2013-2018, The Linux Foundation. All rights reserved.
#
service thermal-engine /vendor/bin/thermal-engine
class main
user root
group root
socket thermal-send-client stream 0660 system oem_2907
socket thermal-recv-client stream 0660 system oem_2907
socket thermal-recv-passive-client stream 0660 system oem_2907
socket thermal-send-rule stream 0660 system oem_2907
on property:sys.boot_completed=1
restart thermal-engine
proprietary/vendor/etc/init/ipa_fws.rc
Vendored
+8
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@@ -0,0 +1,8 @@
# Copyright (c) 2019-2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
on early-boot
write /dev/ipa 1
proprietary/vendor/etc/init/mutualex.rc
Vendored
+6
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@@ -0,0 +1,6 @@
service vendor.mutualex /vendor/bin/mutualex
class main
user radio
group radio wakelock wifi inet
capabilities BLOCK_SUSPEND
oneshot
proprietary/vendor/etc/init/netmgrd.rc
Vendored
+77
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@@ -0,0 +1,77 @@
# Copyright (c) 2019-2021 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
on boot
#Create NETMGR daemon socket area
mkdir /dev/socket/netmgr 0750 radio radio
#Assign TCP buffer thresholds to be ceiling value of technology maximums
#Increased technology maximums should be reflected here.
write /proc/sys/net/core/rmem_max 16777216
write /proc/sys/net/core/wmem_max 8388608
#Load rmnet_core driver
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules rmnet_ctl
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules rmnet_core
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules/5.4-gki rmnet_ctl
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules/5.4-gki rmnet_core
# msm specific files that need to be created on /data
on post-fs-data
#Create NETMGR daemon log dir
mkdir /data/vendor/netmgr 0770 radio radio
chmod 0770 /data/vendor/netmgr
# Create netmgr recovery folder
mkdir /data/vendor/netmgr/recovery 0700 radio radio
chmod 0770 /data/vendor/netmgr/recovery
write /data/vendor/netmgr/recovery/recovery_info ""
chown radio radio /data/vendor/netmgr/recovery/recovery_info
# Manage netmgrd based on value of property
on property:persist.vendor.data.mode=disabled
stop vendor.netmgrd
service vendor.netmgrd /system/vendor/bin/netmgrd
class main
on property:ro.vendor.use_data_netmgrd=false
# netmgr not supported on specific target
stop vendor.netmgrd
on property:ro.baseband=apq
stop vendor.netmgrd
on property:persist.vendor.data.shs_ko_load=1
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules rmnet_shs
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules/5.4-gki rmnet_shs
on property:persist.vendor.data.shs_ko_load=0
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -r -d /vendor/lib/modules rmnet_shs
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -r -d /vendor/lib/modules/5.4-gki rmnet_shs
on property:persist.vendor.data.perf_ko_load=3
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -d /vendor/lib/modules rmnet_perf rmnet_perf_ingress_deag=N
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -d /vendor/lib/modules/5.4-gki rmnet_perf rmnet_perf_ingress_deag=N
on property:persist.vendor.data.perf_ko_load=2
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -d /vendor/lib/modules rmnet_perf rmnet_perf_opt_mode="udp"
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -d /vendor/lib/modules/5.4-gki rmnet_perf rmnet_perf_opt_mode="udp"
on property:persist.vendor.data.perf_ko_load=1
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules rmnet_perf
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules/5.4-gki rmnet_perf
on property:persist.vendor.data.perf_ko_load=0
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -r -d /vendor/lib/modules rmnet_perf
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -r -d /vendor/lib/modules/5.4-gki rmnet_perf
on property:persist.vendor.data.offload_ko_load=1
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules rmnet_offload
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -a -d /vendor/lib/modules/5.4-gki rmnet_offload
on property:persist.vendor.data.offload_ko_load=0
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -r -d /vendor/lib/modules rmnet_offload
exec u:r:vendor_modprobe:s0 -- /vendor/bin/modprobe -r -d /vendor/lib/modules/5.4-gki rmnet_offload
proprietary/vendor/etc/init/port-bridge.rc
Vendored
+20
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@@ -0,0 +1,20 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
on boot
#Create PORT-BRIDGE daemon socket area
mkdir /dev/socket/port-bridge 0750 radio radio
# msm specific files that need to be created on /data
on post-fs-data
#Create port-bridge log dir
mkdir /data/vendor/port_bridge 0770 radio radio
chmod 0770 /data/vendor/port_bridge
service vendor.port-bridge /system/vendor/bin/port-bridge
class main
user radio
group radio system inet
oneshot
proprietary/vendor/etc/init/qcrild.rc
Vendored
+20
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@@ -0,0 +1,20 @@
service vendor.qcrild /vendor/bin/hw/qcrild
class main
user radio
disabled
group radio cache inet misc audio log readproc wakelock oem_2901
capabilities BLOCK_SUSPEND NET_ADMIN NET_RAW
service vendor.qcrild2 /vendor/bin/hw/qcrild -c 2
class main
user radio
disabled
group radio cache inet misc audio log readproc wakelock oem_2901
capabilities BLOCK_SUSPEND NET_ADMIN NET_RAW
service vendor.qcrild3 /vendor/bin/hw/qcrild -c 3
class main
user radio
disabled
group radio cache inet misc audio log readproc wakelock oem_2901
capabilities BLOCK_SUSPEND NET_ADMIN NET_RAW
proprietary/vendor/etc/init/qdcmss.rc
Vendored
+12
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@@ -0,0 +1,12 @@
service qdcmss /vendor/bin/qdcmss
class late_start
user system
group system graphics
socket qdcmsocket stream 0660 system adb
disabled
on property:vendor.display.qdcm_socket_service=1
start qdcmss
on property:vendor.display.qdcm_socket_service=0
stop qdcmss
proprietary/vendor/etc/init/qseecomd.rc
Vendored
+13
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@@ -0,0 +1,13 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
on init
wait /dev/qseecom
start vendor.qseecomd
service vendor.qseecomd /vendor/bin/qseecomd
class core
user root
group root
shutdown critical
proprietary/vendor/etc/init/ssgtzd.rc
Vendored
+21
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@@ -0,0 +1,21 @@
# Copyright (c) 2019,2021 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
# Create the directories used by qwes
on post-fs-data
mkdir /data/vendor/qwes 0755 system system
# Start daemon on early-boot
on early-boot
start vendor.ssgtzd
# Used 'disabled' flag, so daemon won't be started until explicit start
service vendor.ssgtzd /vendor/bin/ssgtzd
class late_start
user system
group system
disabled
socket ssgtzd stream 0660 system inet
socket qwes_ipc stream 0660 system inet
proprietary/vendor/etc/init/vendor.display.color@1.0-service.rc
Vendored
+4
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@@ -0,0 +1,4 @@
service display-color-hal-1-0 /vendor/bin/hw/vendor.display.color@1.0-service
class hal
user system
group system
proprietary/vendor/etc/init/vendor.qti.adsprpc-service.rc
Vendored
+42
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@@ -0,0 +1,42 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
#
# Copyright (c) 2018-2019, The Linux Foundation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following
# disclaimer in the documentation and/or other materials provided
# with the distribution.
# * Neither the name of The Linux Foundation nor the names of its
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
# WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
# BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
# OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
# IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
service vendor.adsprpcd /vendor/bin/adsprpcd
class main
user system
group media
service vendor.adsprpcd_audiopd /vendor/bin/adsprpcd audiopd
class main
user media
group media
proprietary/vendor/etc/init/vendor.qti.cdsprpc-service.rc
Vendored
+40
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@@ -0,0 +1,40 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
#
# Copyright (c) 2018-2019, The Linux Foundation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are
# met:
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following
# disclaimer in the documentation and/or other materials provided
# with the distribution.
# * Neither the name of The Linux Foundation nor the names of its
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED "AS IS" AND ANY EXPRESS OR IMPLIED
# WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
# BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
# BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
# OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN
# IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
service vendor.cdsprpcd /vendor/bin/cdsprpcd
class main
user system
group system
on property:vendor.fastrpc.disable.cdsprpcd.daemon=1
stop vendor.cdsprpcd
proprietary/vendor/etc/init/vendor.qti.esepowermanager@1.1-service.rc
Vendored
+10
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@@ -0,0 +1,10 @@
#
# Copyright (c) 2017-2018, 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service qti_esepowermanager_service_1_1 /vendor/bin/hw/vendor.qti.esepowermanager@1.1-service
class hal
user system
group nfc system
proprietary/vendor/etc/init/vendor.qti.hardware.capabilityconfigstore@1.0-service.rc
Vendored
+8
View File
@@ -0,0 +1,8 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service vendor.capabilityconfigstore /vendor/bin/hw/vendor.qti.hardware.capabilityconfigstore@1.0-service
class hal
user system
group system
proprietary/vendor/etc/init/vendor.qti.hardware.charger_monitor@1.0-service.rc
Vendored
+43
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@@ -0,0 +1,43 @@
# Copyright (c) 2019-2020, Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# Copyright (c) 2013-2018, The Linux Foundation. All rights reserved.
#
service vendor.hvdcp_opti /vendor/bin/hvdcp_opti
class main
user system
group system wakelock
capabilities BLOCK_SUSPEND WAKE_ALARM
disabled
service vendor.qti-chg-policy-sh /vendor/bin/init.qti.chg_policy.sh
class core
user root
oneshot
disabled
on boot
enable vendor.qti-chg-policy-sh
start vendor.qti-chg-policy-sh
on charger
chown radio wakelock /sys/power/wake_lock
chmod 0660 /sys/power/wake_lock
chown radio wakelock /sys/power/wake_unlock
chmod 0660 /sys/power/wake_unlock
mkdir /mnt/vendor/persist/hvdcp_opti 0770 root system
mount_all /vendor/etc/charger_fstab.qti --early
enable vendor.qti-chg-policy-sh
start vendor.qti-chg-policy-sh
on property:persist.vendor.hvdcp_opti.start=2
rmdir /mnt/vendor/persist/hvdcp_opti
setprop persist.vendor.hvdcp_opti.start 0
on property:persist.vendor.hvdcp_opti.start=1
mkdir /mnt/vendor/persist/hvdcp_opti 0770 root system
enable vendor.hvdcp_opti
start vendor.hvdcp_opti
setprop persist.vendor.hvdcp_opti.start 0
proprietary/vendor/etc/init/vendor.qti.hardware.qccvndhal@1.0-service.rc
Vendored
+15
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@@ -0,0 +1,15 @@
#
# Copyright (c) 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
on post-fs-data
# create QDMA shard dropbox
mkdir /data/vendor/qdma/shared 0770 system system
mkdir /data/vendor/qdma/shared/3 0770 system system
service qccvndhalservice /vendor/bin/hw/vendor.qti.hardware.qccvndhal@1.0-service
class hal
user system
group system
proprietary/vendor/etc/init/vendor.qti.hardware.qseecom@1.0-service.rc
Vendored
+14
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@@ -0,0 +1,14 @@
#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
#
on init
start qseecom-service
service qseecom-service /vendor/bin/hw/vendor.qti.hardware.qseecom@1.0-service
class hal
user system
group system drmrpc
proprietary/vendor/etc/init/vendor.qti.hardware.qteeconnector@1.0-service.rc
Vendored
+4
View File
@@ -0,0 +1,4 @@
service qteeconnector-hal-1-0 /vendor/bin/hw/vendor.qti.hardware.qteeconnector@1.0-service
class hal
user system
group system
proprietary/vendor/etc/init/vendor.qti.hardware.sensorscalibrate@1.0-service.rc
Vendored
+8
View File
@@ -0,0 +1,8 @@
# Copyright (c) 2017 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service sensorscal-hal-1-0 /vendor/bin/hw/vendor.qti.hardware.sensorscalibrate@1.0-service
class hal
user system
group system
proprietary/vendor/etc/init/vendor.qti.hardware.soter@1.0-service.rc
Vendored
+8
View File
@@ -0,0 +1,8 @@
# Copyright (c) 2018 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service soter-1-0 /vendor/bin/hw/vendor.qti.hardware.soter@1.0-service
class hal
user system
group system drmrpc
proprietary/vendor/etc/init/vendor.qti.hardware.tui_comm@1.0-service-qti.rc
Vendored
+4
View File
@@ -0,0 +1,4 @@
service tui_comm-1-0 /vendor/bin/hw/vendor.qti.hardware.tui_comm@1.0-service-qti
class hal
user system
group system drmrpc
proprietary/vendor/etc/init/vendor.qti.rmt_storage.rc
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+11
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#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service vendor.rmt_storage /vendor/bin/rmt_storage
class core
user root
shutdown critical
ioprio rt 0
proprietary/vendor/etc/init/vendor.qti.tftp.rc
Vendored
+13
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#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# Create pddump directory
on post-fs-data
mkdir /data/vendor/pddump 0770 oem_2903 oem_2903
service vendor.tftp_server /vendor/bin/tftp_server
class core
user root
proprietary/vendor/etc/init/vendor.sensors.qti.rc
Vendored
+40
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# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# Copyright (c) 2009-2012, 2014-2019, The Linux Foundation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
# # Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# # Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# # Neither the name of The Linux Foundation nor
# the names of its contributors may be used to endorse or promote
# products derived from this software without specific prior written
# permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NON-INFRINGEMENT ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
# OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
# OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
# ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
service vendor.sensors.qti /vendor/bin/sensors.qti
class core
user system
group system
service vendor-sensor-sh /vendor/bin/init.qcom.sensors.sh
class late_start
user root
oneshot
proprietary/vendor/etc/init/vendor.sensors.sscrpcd.rc
Vendored
+37
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# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# Copyright (c) 2009-2012, 2014-2019, The Linux Foundation. All rights reserved.
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
# # Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# # Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in the
# documentation and/or other materials provided with the distribution.
# # Neither the name of The Linux Foundation nor
# the names of its contributors may be used to endorse or promote
# products derived from this software without specific prior written
# permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NON-INFRINGEMENT ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
# CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
# EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
# PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
# OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
# WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
# OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
# ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#
service vendor.sensors /vendor/bin/sscrpcd sensorspd
class early_hal
user system
group system wakelock
capabilities BLOCK_SUSPEND
shutdown critical
proprietary/vendor/etc/init/vendor.silead.hardware.fingerprintext@1.0-service.rc
Vendored
+8
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service fpexts_hal /vendor/bin/hw/vendor.silead.hardware.fingerprintext@1.0-service
class late_start
user system
group system input
disabled
on property:vendor.silead.fp.ext.enable=1
start fpexts_hal
proprietary/vendor/etc/init/vendor.xiaomi.hardware.mlipay@1.1-service.rc
Vendored
+4
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service vendor.mlipay-1-1 /vendor/bin/mlipayd@1.1
class hal
user system
group system
proprietary/vendor/etc/izat.conf
Vendored
+277
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#########################################
# Log verbosity control for izat modules
#########################################
# OFF = 0, ERROR = 1, WARNING = 2, INFO = 3, DEBUG = 4, VERBOSE = 5
IZAT_DEBUG_LEVEL = 2
##################################################
# Select WIFI Wait Timeout value in seconds for SUPL
##################################################
WIFI_WAIT_TIMEOUT_SELECT = 0
##################################################
# Time interval of injecting SRN scan data to modem
# time in seconds.
# Note: recommended value is between 1-5 sec
##################################################
LPPE_SRN_DATA_SCAN_INJECT_TIME=2
################################
# NLP Settings
################################
# NLP_MODE 1: OSNLP Only, 2: QNP Only, 3: Combo, 4: QNP preferred
# For Automotive products, please use NLP_MODE = 4 only.
# NLP_TOLERANCE_TIME_FIRST: Time in ms used in Combo mode
# to determine how much Tolerance for first position
# NLP_TOLERANCE_TIME_AFTER: Time in ms used in Combo mode
# to determine how much Tolerance for positions after first
# NLP_THRESHOLD: Sets how many failures needed before
# switching preferred NLP in Combo mode
# NLP_ACCURACY_MULTIPLE: Determines how far off the accuracy
# must be, in multiples, between two NLP location reports to
# be considered much worse accuracy. Used in switching logic
# NLP COMBO MODE USES QNP WITH NO EULA CONSENT: Determines
# whether or not to still send network location requests to
# QNP when the EULA is not consented to by the user. QNP can
# still return ZPP locations or injected locations even
# without EULA consent, but the uncertainty can be high.
# QNP preferred mode prefers QNP when there is EULA consent,
# otherwise OSNLP is used.
NLP_MODE = 1
NLP_MODE_EMERGENCY = 2
NLP_TOLERANCE_TIME_FIRST = 5000
NLP_TOLERANCE_TIME_AFTER = 20000
NLP_THRESHOLD = 3
NLP_ACCURACY_MULTIPLE = 2
NLP_COMBO_MODE_USES_QNP_WITH_NO_EULA_CONSENT = 1
#########################################
# NLP PACKAGE SETTINGS
#########################################
# OSNLP_PACKAGE: name of default NLP package
OSNLP_PACKAGE = com.google.android.gms
# REGION_OSNLP_PACKAGE:
# This value will be used as alternative
# for particular region where default NLP is not functional.
#REGION_OSNLP_PACKAGE =
###################################
# GEOFENCE SERVICES
###################################
# If set to one of the defined values below, it will override
# the responsiveness for geofence services, which implements
# the Proximity Alert API. If not set to a value defined below,
# which is default, it will not override the responsivness.
# The geofence HAL API is unaffected by this value.
# GEOFENCE_SERVICES_RESPONSIVENESS_OVERRIDE Values:
# 1: LOW responsiveness
# 2: MEDIUM responsiveness
# 3: HIGH responsiveness
GEOFENCE_SERVICES_RESPONSIVENESS_OVERRIDE = 0
#####################################
#GTP Opt-In app
#####################################
#GTP privacy policy version url
#https support is required
GTP_PRIVACY_VERSION_URL = https://info.izatcloud.net/privacy/version.html
#GTP privacy policy version download retry interval
#unit is second. default is 86400
GTP_PRIVACY_RETRY_INTERVAL = 86400
#####################################
# IZAT PREMIUM FEATURE SETTINGS
#####################################
#Possible states of a feature:
#DISABLED
#BASIC
#PREMIUM
#GTP_MODE valid modes:
# DISABLED
# LEGACY_WWAN
# SDK (WWAN not available for Modems before LocTech 10.0)
# SDK_WIFI (WWAN provided by legacy Modem)
GTP_MODE=DISABLED
#GTP_WAA valid modes:
# DISABLED
# BASIC
GTP_WAA=DISABLED
#SAP valid modes:
# DISABLED
# BASIC
# PREMIUM
# PREMIUM_ENV_AIDING
# MODEM_DEFAULT
SAP=DISABLED
#FREE_WIFI_SCAN_INJECT valid modes:
#DISABLED
#BASIC
FREE_WIFI_SCAN_INJECT=BASIC
#SUPL_WIFI valid modes:
#DISABLED
#BASIC
SUPL_WIFI=BASIC
#WIFI_SUPPLICANT_INFO valid modes:
#DISABLED
#BASIC
WIFI_SUPPLICANT_INFO=BASIC
#####################################
# Location process launcher settings
#####################################
# DO NOT MODIFY
# Modifying below attributes without
# caution can have serious implications.
#Values for PROCESS_STATE:
# ENABLED
# DISABLED
#Values for LOW_RAM_TARGETS:
# ENABLED
# DISABLED
# Property to enable/disable processes for low ram targets. Uses ro.config.low_ram property
# to identify low ram targets.
#PROCESS_NAME
# Name of the executable file.
#FEATURE MASKS:
# GTP-WIFI 0X03
# GTP-MP-CELL 0xc00
# GTP-WAA 0x100
# SAP 0Xc0
# ODCPI 0x1000
# FREE_WIFI_SCAN_INJECT 0x2000
# SUPL_WIFI 0x4000
# WIFI_SUPPLICANT_INFO 0x8000
#Values for PLATFORMS can be:
#1. Any valid values obtained from ro.board.platform separated by single space. For example: msm8960 msm8226
#2. 'all' or 'all exclude' -> for All platforms
#3. 'all exclude XXXX' -> All platforms exclude XXXX. For example: all exclude msm8937
#Values for SOC_IDS can be:
#1. Any valid values obtained from soc_id node separated by single space. For example: 339 386 436
## soc_id value can be obtained from any one of below node:
## - /sys/devices/soc0/soc_id
## - /sys/devices/system/soc/soc0/id
#2. 'all' or 'all exclude' -> for All soc id's
#3. 'all exclude XXXX' -> All soc id's exclude XXXX. For example: all exclude 339 386
#Values for BASEBAND can be:
#1. Any valid values obtained from ro.baseband separated by single space. For example: sglte sglte2
#2. 'all' or 'all exclude' -> for all basebands
#3. 'all exclude XXXX' -> All basebands exclude XXXX. For example: all exclude sglte
PROCESS_NAME=lowi-server
PROCESS_ARGUMENT=
PROCESS_STATE=ENABLED
PROCESS_GROUPS=gps wifi inet oem_2901
PREMIUM_FEATURE=0
IZAT_FEATURE_MASK=0xf303
PLATFORMS=all
SOC_IDS=all
BASEBAND=all
LOW_RAM_TARGETS=ENABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=0
PROCESS_NAME=xtwifi-inet-agent
PROCESS_ARGUMENT=
PROCESS_STATE=ENABLED
PROCESS_GROUPS=inet gps
PREMIUM_FEATURE=1
IZAT_FEATURE_MASK=0xc03
PLATFORMS=all
SOC_IDS=all
BASEBAND=all
LOW_RAM_TARGETS=ENABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=1
PROCESS_NAME=xtwifi-client
PROCESS_ARGUMENT=
PROCESS_STATE=ENABLED
PROCESS_GROUPS=wifi inet gps system oem_2904
PREMIUM_FEATURE=1
IZAT_FEATURE_MASK=0xd03
PLATFORMS=all
SOC_IDS=all
BASEBAND=all
LOW_RAM_TARGETS=ENABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=1
PROCESS_NAME=slim_daemon
PROCESS_ARGUMENT=
PROCESS_STATE=DISABLED
PROCESS_GROUPS=gps oem_2901 can plugdev diag sensors
PREMIUM_FEATURE=1
IZAT_FEATURE_MASK=0xf0
PLATFORMS=all
SOC_IDS=all exclude 386 436
BASEBAND=all
LOW_RAM_TARGETS=DISABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=1
PROCESS_NAME=xtra-daemon
PROCESS_ARGUMENT=
PROCESS_STATE=ENABLED
PROCESS_GROUPS=inet gps system
PREMIUM_FEATURE=0
IZAT_FEATURE_MASK=0
PLATFORMS=all
SOC_IDS=all
BASEBAND=all
LOW_RAM_TARGETS=ENABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=0
########################################
# Engine Service which host DRE module #
# To enable DRE engine service, change #
# PROCESS_STATE=ENABLED #
########################################
PROCESS_NAME=engine-service
PROCESS_ARGUMENT=DRE-INT libloc_epDr.so
PROCESS_STATE=DISABLED
PROCESS_GROUPS=gps diag inet qwes oem_2901 system
PREMIUM_FEATURE=0
IZAT_FEATURE_MASK=0
PLATFORMS=all
SOC_IDS=all
BASEBAND=all
LOW_RAM_TARGETS=DISABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=1
########################################
# Engine Service which host PPE module #
# To enable PPE engine service, change #
# PROCESS_STATE=ENABLED #
# and update process arugements #
# with PPE library name #
#PROCESS_ARGUMENT=PPE libepsimulator.so#
########################################
PROCESS_NAME=engine-service
PROCESS_ARGUMENT=PPE libepsimulator.so
PROCESS_STATE=DISABLED
PROCESS_GROUPS=gps diag inet qwes oem_2901 system
PREMIUM_FEATURE=0
IZAT_FEATURE_MASK=0
PLATFORMS=all
SOC_IDS=all
BASEBAND=all
LOW_RAM_TARGETS=DISABLED
HARDWARE_TYPE=all
VENDOR_ENHANCED_PROCESS=1
proprietary/vendor/etc/lowi.conf
Vendored
+27
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#*====*====*====*====*====*====*====*====*====*====*====*====*====*====*====*
#
# LOWI Config file - default
#
# GENERAL DESCRIPTION
# This file contains the config params for LOWI
#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
# 2012-2013 Qualcomm Atheros, Inc.
# All Rights Reserved.
# Qualcomm Atheros Confidential and Proprietary.
#
# Export of this technology or software is regulated by the U.S. Government.
# Diversion contrary to U.S. law prohibited.
#=============================================================================*/
# X86 ONLY - UBUNTU:
# Copy this file in the same directory where the executable is
# Log level
# EL_LOG_OFF = 0, EL_ERROR = 1, EL_WARNING = 2, EL_INFO = 3, EL_DEBUG = 4, EL_VERBOSE = 5, EL_LOG_ALL = 100
LOWI_LOG_LEVEL = 3
LOWI_USE_LOWI_LP = 0
proprietary/vendor/etc/msm_irqbalance.conf
Vendored
+9
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################################################################################################################################
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
################################################################################################################################
PRIO=1,1,1,1,0,0,0,0
#arch_timer, arm-pmu, arch_mem_timer
IGNORED_IRQ=19,22,39
proprietary/vendor/etc/permissions/com.fingerprints.extension.xml
Vendored
+5
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<?xml version="1.0" encoding="utf-8"?>
<permissions>
<library name="com.fingerprints.extension"
file="/vendor/framework/com.fingerprints.extension.jar" />
</permissions>
proprietary/vendor/etc/permissions/vendor-qti-hardware-sensorscalibrate.xml
Vendored
+11
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<?xml version="1.0" encoding="utf-8"?>
<!---
Copyright (c) 2017 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.
-->
<permissions>
<library name="vendor.qti.hardware.sensorscalibrate-V1.0"
file="/system/framework/vendor.qti.hardware.sensorscalibrate-V1.0-java.jar"/>
</permissions>
proprietary/vendor/etc/qdcm_calib_data_Sharp_2k_cmd_mode_qsync_dsi_panel.xml
Vendored
+75
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proprietary/vendor/etc/qdcm_calib_data_Sharp_2k_video_mode_qsync_dsi_panel.xml
Vendored
+75
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proprietary/vendor/etc/qdcm_calib_data_Sharp_4k_cmd_mode_dsc_dsi_panel.xml
Vendored
+75
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