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sm8250-common: Initial import from 19.1

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* HEAD: 59232e228cd57b03625522adb2aef1e02a803f69

Change-Id: Id4cfb36e01b00e69260706256e243f139ee91b40
This commit is contained in:
Sebastiano Barezzi
2022-11-12 23:57:14 +01:00
commit 3a69869f8b
759 changed files with 27515 additions and 0 deletions
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183
proprietary/vendor/etc/apdr.conf vendored Normal file
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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
#

551
proprietary/vendor/etc/cacert_location.pem vendored Normal file
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DigiCert Global Root CA
-----BEGIN CERTIFICATE-----
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DigiCert High Assurance EV Root CA
-----BEGIN CERTIFICATE-----
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VeriSign Class 1 Public Primary Certification Authority
-----BEGIN CERTIFICATE-----
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VeriSign Class 2 Public Primary Certification Authority
-----BEGIN CERTIFICATE-----
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VeriSign Class 3 Public Primary Certification Authority
-----BEGIN CERTIFICATE-----
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VeriSign Class 1 Public Primary Certification Authority - G2
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VeriSign Class 2 Public Primary Certification Authority - G2
-----BEGIN CERTIFICATE-----
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VeriSign Class 3 Public Primary Certification Authority - G2
-----BEGIN CERTIFICATE-----
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VeriSign Class 4 Public Primary Certification Authority - G2
-----BEGIN CERTIFICATE-----
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VeriSign Class 1 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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VeriSign Class 2 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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VeriSign Class 3 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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239
proprietary/vendor/etc/cne/wqeclient/ATT/ATT_profile1.xml vendored Normal file
View File

@@ -0,0 +1,239 @@
<?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>

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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>

239
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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>

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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>

239
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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>

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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>

239
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile1.xml vendored Normal file
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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>

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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>

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">-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>

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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>

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">-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>

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proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile19.xml vendored Normal file
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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>

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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>

239
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile20.xml vendored Normal file
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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>

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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>

239
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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>

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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>

239
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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>

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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>

239
proprietary/vendor/etc/cne/wqeclient/ROW/ROW_profile6.xml vendored Normal file
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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>

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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>

239
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile1.xml vendored Normal file
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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>

239
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile2.xml vendored Normal file
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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>

239
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile3.xml vendored Normal file
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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>

239
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile4.xml vendored Normal file
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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>

239
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile5.xml vendored Normal file
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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>

239
proprietary/vendor/etc/cne/wqeclient/VZW/VZW_profile6.xml vendored Normal file
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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>

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proprietary/vendor/etc/configstore/vpp.configstore.xml vendored Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--
Copyright (c) 2019-2020 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.
-->
<CapabilityStore version="1">
<namespace name="vpp">
<capability key="default_config" value="false"/>
<capability key="disable_dynamic_hal" value="true"/>
<capability key="enable" value="false"/>
<capability key="enable_idle_timeout" value="true"/>
<capability key="idle_timeout_ms" value="1000"/>
</namespace>
</CapabilityStore>

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proprietary/vendor/etc/data/dsi_config.xml vendored Normal file
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proprietary/vendor/etc/data/netmgr_config.xml vendored Normal file
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19
proprietary/vendor/etc/default-permissions/com.qualcomm.qti.cne.xml vendored Normal file
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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.
-->
<!--
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>

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proprietary/vendor/etc/flp.conf vendored Normal file
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###################################
##### FLP settings #####
###################################
###################################
# FLP BATCH SIZE
###################################
# The number of batched locations
# requested to modem. The desired number
# defined below may not be satisfied, as
# the modem can only return the number
# of batched locations that can be allocated,
# which is limited by memory. The default
# batch size defined as 20 as below.
BATCH_SIZE=20
###################################
# FLP OUTDOOR TRIP BATCH SIZE
###################################
# The number of batched locations
# requested to modem for outdoor
# trip batching. The desired number
# defined below may not be satisfied, as
# the modem can only return the number
# of batched locations that can be allocated,
# which is limited by memory. The default
# trip batch size defined as 600 as below.
OUTDOOR_TRIP_BATCH_SIZE=600
###################################
# FLP BATCHING SESSION TIMEOUT
###################################
# Duration with which batch session timeout
# happens in milliseconds. If not specified
# or set to zero, batching session timeout
# defaults to 20 seconds by the modem.
# BATCH_SESSION_TIMEOUT=20000
###################################
# FLP BATCHING ACCURACY
###################################
# Set to one of the defined values below
# to define the accuracy of batching.
# If not specified, accuracy defaults
# to LOW.
# FLP BATCHING ACCURACY values:
# Low accuracy = 0
# Medium accuracy = 1
# High accuracy = 2
ACCURACY=1
####################################
# By default if network fixes are not sensor assisted
# these fixes must be dropped. This parameter adds an exception
# for targets where there is no PDR and we still want to
# report out network fixes
# 0: MUST NOT ALLOW NETWORK FIXES
# 1: ALLOW NETWORK FIXES
####################################
ALLOW_NETWORK_FIXES = 0

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proprietary/vendor/etc/gps.conf vendored Normal file
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# Error Estimate
# _SET = 1
# _CLEAR = 0
ERR_ESTIMATE=0
#NTP server
NTP_SERVER=time.xtracloud.net
NTP_SERVER_2=asia.pool.ntp.org
NTP_SERVER_3=0.cn.pool.ntp.org
#XTRA CA path
XTRA_CA_PATH=/usr/lib/ssl-1.1/certs
# DEBUG LEVELS: 0 - none, 1 - Error, 2 - Warning, 3 - Info
# 4 - Debug, 5 - Verbose
# If DEBUG_LEVEL is commented, Android's logging levels will be used
DEBUG_LEVEL = 3
# Intermediate position report, 1=enable, 0=disable
INTERMEDIATE_POS=0
# supl version 1.0
SUPL_VER=0x20000
# Emergency SUPL, 1=enable, 0=disable
SUPL_ES=0
#Choose PDN for Emergency SUPL
#1 - Use emergency PDN
#0 - Use regular SUPL PDN for Emergency SUPL
USE_EMERGENCY_PDN_FOR_EMERGENCY_SUPL=0
#SUPL_MODE is a bit mask set in config.xml per carrier by default.
#If it is uncommented here, this value will overwrite the value from
#config.xml.
#MSA=0X2
#MSB=0X1
SUPL_MODE=3
# GPS Capabilities bit mask
# SCHEDULING = 0x01
# MSB = 0x02
# MSA = 0x04
# ON_DEMAND_TIME = 0x10
# default = ON_DEMAND_TIME | MSA | MSB | SCHEDULING
CAPABILITIES=0x17
# Accuracy threshold for intermediate positions
# less accurate positions are ignored, 0 for passing all positions
ACCURACY_THRES=70
################################
##### AGPS server settings #####
################################
# FOR SUPL SUPPORT, set the following
# SUPL_HOST=supl.host.com or IP
# SUPL_PORT=1234
# FOR MO SUPL SUPPORT, set the following
# MO_SUPL_HOST=supl.host.com or IP
# MO_SUPL_PORT=1234
# FOR C2K PDE SUPPORT, set the following
# C2K_HOST=c2k.pde.com or IP
# C2K_PORT=1234
# Bitmask of slots that are available
# for write/install to, where 1s indicate writable,
# and the default value is 0 where no slots
# are writable. For example, AGPS_CERT_WRITABLE_MASK
# of b1000001010 makes 3 slots available
# and the remaining 7 slots unwritable.
#AGPS_CERT_WRITABLE_MASK=0
####################################
# LTE Positioning Profile Settings
####################################
# LPP_PROFILE is a bit mask
# 0: Enable RRLP on LTE(Default)
# 1: Enable LPP_User_Plane on LTE
# 2: Enable LPP_Control_Plane
# 3: Enable both LPP_User_Plane and LPP_Control_Plane
LPP_PROFILE = 3
####################################
#Datum Type
####################################
# 0: WGS-84
# 1: PZ-90
DATUM_TYPE = 0
################################
# EXTRA SETTINGS
################################
# NMEA provider (1=Modem Processor, 0=Application Processor)
NMEA_PROVIDER=0
################################
# NMEA TAG BLOCK GROUPING
################################
# NMEA tag block grouping is only applicable to GSA
# Default is disabled
# 0 - disabled
# 1 - enabled
NMEA_TAG_BLOCK_GROUPING_ENABLED = 0
# Customized NMEA GGA fix quality that can be used to tell
# whether SENSOR contributed to the fix.
#
# When this configuration item is not enabled (set to any value that is not 1),
# GGA fix quality conforms to NMEA standard spec as below:
# PPP/DGNSS/SBAS correction fix w/ or w/o sensor: 2
# RTK fixed fix w/ or w/o sensor: 4
# RTK float fix w/ or w/o sensor: 5
# SPE fix w/ or w/o sensor: 1
# Sensor dead reckoning fix: 6
#
# When this configuration is enabled (set to 1), GGA fix quality
# will be output as below:
# PPP fix w/o sensor: 59, w/ sensor: 69
# DGNSS/SBAS correction fix w/o sensor: 2, w/ sensor: 62
# RTK fixed fix w/o sensor: 4, w/ sensor: 64
# RTK float fix w/o sensor: 5, w/ sensor: 65,
# SPE fix w/o sensor: 1, and w/ sensor: 61
# Sensor dead reckoning fix: 6
#
# any value that is not 1 - disabled
# 1 - enabled
CUSTOM_NMEA_GGA_FIX_QUALITY_ENABLED = 0
################################
# NMEA Reporting Rate Config, valid only when NMEA_PROVIDER is set to "0"
################################
# NMEA Reporting Rate
# Set it to "1HZ" for 1Hz NMEA Reporting
# Set it to "NHZ" for NHz NMEA Reporting
#Default : NHZ (overridden by position update rate if set to lower rates)
NMEA_REPORT_RATE=NHZ
# Mark if it is a SGLTE target (1=SGLTE, 0=nonSGLTE)
SGLTE_TARGET=0
##################################################
# Select Positioning Protocol on A-GLONASS system
##################################################
# 0x1: RRC CPlane
# 0x2: RRLP UPlane
# 0x4: LLP Uplane
A_GLONASS_POS_PROTOCOL_SELECT = 0xf
##################################################
# Select technology for LPPe Control Plane
##################################################
# 0x1: DBH for LPPe CP
# 0x2: WLAN AP Measurements for LPPe CP
# 0x4: SRN AP measurement for CP
# 0x8: Sensor Barometer Measurement LPPe CP
#LPPE_CP_TECHNOLOGY = 0
##################################################
# Select technology for LPPe User Plane
##################################################
# 0x1: DBH for LPPe UP
# 0x2: WLAN AP Measurements for LPPe UP
# 0x4: SRN AP measurement for UP
# 0x8: Sensor Barometer Measurement LPPe UP
#LPPE_UP_TECHNOLOGY = 0
##################################################
# AGPS_CONFIG_INJECT
##################################################
# enable/disable injection of AGPS configurations:
# SUPL_VER
# SUPL_HOST
# SUPL_PORT
# MO_SUPL_HOST
# MO_SUPL_PORT
# C2K_HOST
# C2K_PORT
# LPP_PROFILE
# A_GLONASS_POS_PROTOCOL_SELECT
# 0: disable
# 1: enable
AGPS_CONFIG_INJECT = 1
##################################################
# GNSS settings for automotive use cases
# Configurations in following section are
# specific to automotive use cases, others
# please do not change, keep the default values
##################################################
# AP Coarse Timestamp Uncertainty
##################################################
# default : 10
# AP time stamp uncertainty, until GNSS receiver
# is able to acquire better timing information
AP_TIMESTAMP_UNCERTAINTY = 10
#####################################
# DR_SYNC Pulse Availability
#####################################
# 0 : DR_SYNC pulse not available (default)
# 1 : DR_SYNC pulse available
# This configuration enables the driver to make use
# of PPS events generated by DR_SYNC pulse
# Standard Linux PPS driver needs to be enabled
DR_SYNC_ENABLED = 0
#####################################
# PPS Device name
#####################################
PPS_DEVICENAME = /dev/pps0
#####################################
# Ignore PPS at Startup and after long outage
#####################################
IGNORE_PPS_PULSE_COUNT = 1
#####################################
# Long GNSS RF outage in seconds
#####################################
GNSS_OUTAGE_DURATION = 10
#####################################
# AP Clock Accuracy
#####################################
# Quality of APPS processor clock (in PPM).
# Value specified is used for calculation of
# APPS time stamp uncertainty
AP_CLOCK_PPM = 100
#####################################
# MAX ms difference to detect missing pulse
#####################################
# Specifies time threshold in ms to validate any missing PPS pulses
MISSING_PULSE_TIME_DELTA = 900
#####################################
# Propagation time uncertainty
#####################################
# This settings enables time uncertainty propagation
# logic incase of missing PPS pulse
PROPAGATION_TIME_UNCERTAINTY = 1
#######################################
# APN / IP Type Configuration
# APN and IP Type to use for setting
# up WWAN call.
# Use below values for IP Type:
# v4 = 4
# v6 = 6
# v4v6 = 10
#######################################
# INTERNET_APN = abc.xyz
# INTERNET_IP_TYPE = 4
# SUPL_APN = abc.xyz
# SUPL_IP_TYPE = 4
#####################################
# Modem type
#####################################
# This setting configures modem type
# (external=0 or internal=1)
# comment out the next line to vote
# for the first modem in the list
MODEM_TYPE = 1
##################################################
# CONSTRAINED TIME UNCERTAINTY MODE
##################################################
# 0 : disabled (default)
# 1 : enabled
# This setting enables GPS engine to keep its time
# uncertainty below the specified constraint
#CONSTRAINED_TIME_UNCERTAINTY_ENABLED = 0
# If constrained time uncertainty mode is enabled,
# this setting specifies the time uncertainty
# threshold that gps engine need to maintain.
# In unit of milli-seconds.
# Default is 0.0 meaning that modem default value
# of time uncertainty threshold will be used.
#CONSTRAINED_TIME_UNCERTAINTY_THRESHOLD = 0.0
# If constrained time uncertainty mode is enabled,
# this setting specifies the power budget that
# gps engine is allowed to spend to maintain the time
# uncertainty.
# Default is 0 meaning that GPS engine is not constained
# by power budget and can spend as much power as needed.
# In unit of 0.1 milli watt second.
#CONSTRAINED_TIME_UNCERTAINTY_ENERGY_BUDGET = 0
##################################################
# POSITION ASSISTED CLOCK ESTIMATOR
##################################################
# 0 : disabled (default)
# 1 : enabled
# This setting enables GPS engine to estimate clock
# bias and drift when the signal from at least 1
# SV is available and the UE<55>s position is known by
# other position engines.
#POSITION_ASSISTED_CLOCK_ESTIMATOR_ENABLED = 0
#####################################
# proxyAppPackageName
#####################################
# This is a string that is sent to the framework
# in nfwNotifyCb callback
PROXY_APP_PACKAGE_NAME = com.lbe.security.miui
#####################################
# CP_MTLR_ES
#####################################
# CP MTLR ES, 1=enable, 0=disable
CP_MTLR_ES=0
##################################################
# GNSS_DEPLOYMENT
##################################################
# 0 : Enable QTI GNSS (default)
# 1 : Enable QCSR SS5
# 2 : Enable PDS API
# This setting use to select between QTI GNSS,
# QCSR SS5 hardware receiver, and PDS API.
# By default QTI GNSS receiver is enabled.
# GNSS_DEPLOYMENT = 0
##################################################
## LOG BUFFER CONFIGURATION
##################################################
#LOG_BUFFER_ENABLED, 1=enable, 0=disable
#*_LEVEL_TIME_DEPTH, maximum time depth of level *
#in log buffer, unit is second
#*_LEVEL_MAX_CAPACITY, maximum numbers of level *
#log print sentences in log buffer
LOG_BUFFER_ENABLED = 0
E_LEVEL_TIME_DEPTH = 600
E_LEVEL_MAX_CAPACITY = 50
W_LEVEL_TIME_DEPTH = 500
W_LEVEL_MAX_CAPACITY = 100
I_LEVEL_TIME_DEPTH = 400
I_LEVEL_MAX_CAPACITY = 200
D_LEVEL_TIME_DEPTH = 30
D_LEVEL_MAX_CAPACITY = 300
V_LEVEL_TIME_DEPTH = 200
V_LEVEL_MAX_CAPACITY = 400
# Xiaomi add for breaking xtra download limitation
XTRA_TEST_ENABLED = 1
XTRA_THROTTLE_ENABLED = 0
XTRA_SYSTEM_TIME_INJECT = 1
# Mechanism to handle the gnss assistance data download
# in very bad network situations
XTRA_SOCK_KEEPALIVE=1
##################################################
# Allow buffer diag log packets when diag memory allocation
# fails during boot up time.
##################################################
BUFFER_DIAG_LOGGING = 1
#######################################
# NTRIP CLIENT LIBRARY NAME
#######################################
# NTRIP_CLIENT_LIB_NAME =
##################################################
# Correction Data Framework settings
# Default values:
# CDFW_SOURCE_PRIORITY_1 = INTERNAL_1 RTCM
# CDFW_INJECT_DATA_INTERVAL = 600000 //10 mins
# CDFW_RTCM_MESSAGE_INTERVAL = 1000 //1 second
#
# If multiple sources coexist on a PL,
# the prorioty sequence can be set by the integer number.
# PRIORITY_1 is higher than PRIORITY_2, for example,
# CDFW_SOURCE_PRIORITY_1 = INTERNAL_1 RTCM
# CDFW_SOURCE_PRIORITY_2 = CV2X RTCM
##################################################
##################################################
# RF LOSS
# The loss in 0.1 dbHz from the C/N0 at the antenna port
# These values must be configured by OEM if not
# supported in QMI LOC message
# There is one entry for each signal type
##################################################
RF_LOSS_GPS = 0
RF_LOSS_GPS_L5 = 0
RF_LOSS_GLO_LEFT = 0
RF_LOSS_GLO_CENTER = 0
RF_LOSS_GLO_RIGHT = 0
RF_LOSS_BDS = 0
RF_LOSS_BDS_B2A = 0
RF_LOSS_GAL = 0
RF_LOSS_GAL_E5 = 0
RF_LOSS_NAVIC = 0

5
proprietary/vendor/etc/init/android.hardware.bluetooth@1.0-service-qti.rc vendored Normal file
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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

27
proprietary/vendor/etc/init/android.hardware.drm@1.3-service.widevine.rc vendored Normal file
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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

4
proprietary/vendor/etc/init/android.hardware.gatekeeper@1.0-service-qti.rc vendored Normal file
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service gatekeeper-1-0 /vendor/bin/hw/android.hardware.gatekeeper@1.0-service-qti
class early_hal
user system
group system

4
proprietary/vendor/etc/init/android.hardware.gnss@2.1-service-qti.rc vendored Normal file
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service gnss_service /vendor/bin/hw/android.hardware.gnss@2.1-service-qti
class hal
user gps
group system gps radio vendor_qti_diag

7
proprietary/vendor/etc/init/android.hardware.keymaster@4.0-service-qti.rc vendored Normal file
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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

14
proprietary/vendor/etc/init/android.hardware.neuralnetworks@1.3-service-qti.rc vendored Normal file
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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

4
proprietary/vendor/etc/init/cnd.rc vendored Normal file
View File

@@ -0,0 +1,4 @@
service vendor.cnd /system/vendor/bin/cnd
class main
user system
group system wifi inet radio wakelock net_admin

11
proprietary/vendor/etc/init/com.qualcomm.qti.wifidisplayhal@1.0-service.rc vendored Normal file
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@@ -0,0 +1,11 @@
#
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service wifidisplayhalservice /vendor/bin/wifidisplayhalservice
class main
user system
group inet input audio media uhid
capabilities NET_RAW

13
proprietary/vendor/etc/init/dataadpl.rc vendored Normal file
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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

19
proprietary/vendor/etc/init/dataqti.rc vendored Normal file
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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

17
proprietary/vendor/etc/init/dpmQmiMgr.rc vendored Normal file
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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

19
proprietary/vendor/etc/init/feature_enabler_client.rc vendored Normal file
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@@ -0,0 +1,19 @@
on post-fs-data
mkdir /mnt/vendor/persist/data/pfm 0755 system system
mkdir /mnt/vendor/persist/data/pfm/licenses 0755 system system
chown system system /mnt/vendor/persist/feature_enabler_client
chmod 0775 /mnt/vendor/persist/feature_enabler_client
service feature_enabler_client /vendor/bin/feature_enabler_client
class late_start
user system
group system graphics
on property:init.svc.vendor.qti.hardware.display.composer=stopping
stop feature_enabler_client
on property:init.svc.vendor.qti.hardware.display.composer=running
start feature_enabler_client
on property:init.svc.vendor.qti.hardware.display.composer=restarting
restart feature_enabler_client

13
proprietary/vendor/etc/init/ims_rtp_daemon.rc vendored Normal file
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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

15
proprietary/vendor/etc/init/imsdatadaemon.rc vendored Normal file
View File

@@ -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

10
proprietary/vendor/etc/init/imsqmidaemon.rc vendored Normal file
View File

@@ -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

9
proprietary/vendor/etc/init/imsrcsd.rc vendored Normal file
View File

@@ -0,0 +1,9 @@
# 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
# disabled

2
proprietary/vendor/etc/init/init-qcril-data.rc vendored Normal file
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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"

12
proprietary/vendor/etc/init/init.mi_thermald.rc vendored Normal file
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@@ -0,0 +1,12 @@
on charger
wait /sys/class/power_supply/usb/type
start mi_thermald
on boot
wait /sys/class/power_supply/usb/type
start mi_thermald
service mi_thermald /system/vendor/bin/mi_thermald
class main
user root
group system
seclabel u:r:mi_thermald:s0

14
proprietary/vendor/etc/init/init.time_daemon.rc vendored Normal file
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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

17
proprietary/vendor/etc/init/init_thermal-engine.rc vendored Normal file
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@@ -0,0 +1,17 @@
#! /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

77
proprietary/vendor/etc/init/netmgrd.rc vendored Normal file
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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

20
proprietary/vendor/etc/init/port-bridge.rc vendored Normal file
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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

20
proprietary/vendor/etc/init/qcrild.rc vendored Normal file
View File

@@ -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 net_raw system sdcard_rw sdcard_r
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 net_raw system sdcard_rw sdcard_r
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

20
proprietary/vendor/etc/init/qmipriod.rc vendored Normal file
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@@ -0,0 +1,20 @@
# Copyright (c) 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
service vendor.qmipriod /system/vendor/bin/qmipriod
class main
user radio
group radio
disabled
on property:persist.vendor.data.qmipriod_load=1
start vendor.qmipriod
on property:persist.vendor.data.qmipriod_load=0
stop vendor.qmipriod
on post-fs-data
#Create logging directory
mkdir /data/vendor/qmipriod 0770 radio radio
chmod 0770 /data/vendor/qmipriod

12
proprietary/vendor/etc/init/qseecomd.rc vendored Normal file
View File

@@ -0,0 +1,12 @@
# 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

21
proprietary/vendor/etc/init/ssgtzd.rc vendored Normal file
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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

4
proprietary/vendor/etc/init/vendor.display.color@1.0-service.rc vendored Normal file
View File

@@ -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

42
proprietary/vendor/etc/init/vendor.qti.adsprpc-service.rc vendored Normal file
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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

40
proprietary/vendor/etc/init/vendor.qti.cdsprpc-service.rc vendored Normal file
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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

10
proprietary/vendor/etc/init/vendor.qti.esepowermanager@1.1-service.rc vendored Normal file
View File

@@ -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

11
proprietary/vendor/etc/init/vendor.qti.hardware.alarm@1.0-service.rc vendored Normal file
View File

@@ -0,0 +1,11 @@
# Copyright (c) 2017 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
#
service alarm-hal-1-0 /vendor/bin/hw/vendor.qti.hardware.alarm@1.0-service
interface vendor.qti.hardware.alarm@1.0::IAlarm default
class hal
user system
group system
oneshot
disabled

8
proprietary/vendor/etc/init/vendor.qti.hardware.capabilityconfigstore@1.0-service.rc vendored Normal file
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

13
proprietary/vendor/etc/init/vendor.qti.hardware.dsp@1.0-service.rc vendored Normal file
View File

@@ -0,0 +1,13 @@
# Copyright (c) 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
service vendor.dspservice /vendor/bin/dspservice
class hal
user system
group system wakelock oem_2908
capabilities BLOCK_SUSPEND
interface vendor.qti.hardware.dsp@1.0::IDspService dspservice
# uncomment below to disable service at boot
# disabled

15
proprietary/vendor/etc/init/vendor.qti.hardware.qccvndhal@1.0-service.rc vendored Normal file
View File

@@ -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

14
proprietary/vendor/etc/init/vendor.qti.hardware.qseecom@1.0-service.rc vendored Normal file
View File

@@ -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

4
proprietary/vendor/etc/init/vendor.qti.hardware.qteeconnector@1.0-service.rc vendored Normal file
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

8
proprietary/vendor/etc/init/vendor.qti.hardware.soter@1.0-service.rc vendored Normal file
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

4
proprietary/vendor/etc/init/vendor.qti.hardware.tui_comm@1.0-service-qti.rc vendored Normal file
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

11
proprietary/vendor/etc/init/vendor.qti.rmt_storage.rc vendored Normal file
View File

@@ -0,0 +1,11 @@
#
# 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

4
proprietary/vendor/etc/init/vendor.qti.secure_element@1.2-service.rc vendored Normal file
View File

@@ -0,0 +1,4 @@
service secureelement-hal_1_2 /vendor/bin/hw/vendor.qti.secure_element@1.2-service
class hal
user system
group system

13
proprietary/vendor/etc/init/vendor.qti.tftp.rc vendored Normal file
View File

@@ -0,0 +1,13 @@
#
# 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

4
proprietary/vendor/etc/init/vendor.xiaomi.hardware.mlipay@1.1-service.rc vendored Normal file
View File

@@ -0,0 +1,4 @@
service vendor.mlipay-1-1 /vendor/bin/mlipayd@1.1
class hal
user system
group system

19
proprietary/vendor/etc/init/vppservice.rc vendored Normal file
View File

@@ -0,0 +1,19 @@
# Copyright (c) 2019 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc.
service vendor.vppservice /vendor/bin/vppservice
class hal
user media
group camera
# HIDL interfaces
interface vendor.qti.hardware.vpp@1.1::IHidlVppService vppService
interface vendor.qti.hardware.vpp@1.2::IHidlVppService vppService
interface vendor.qti.hardware.vpp@1.3::IHidlVppService vppService
# don't auto restart
oneshot
# start only when requested (uncomment below to disable service at boot)
# disabled

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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=PREMIUM
#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

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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 = 4
LOWI_USE_LOWI_LP = 0

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proprietary/vendor/etc/media_codecs.xml vendored Normal file
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<?xml version="1.0" encoding="utf-8"?>
<!-- Copyright (C) 2012-2020 The Linux Foundation. All rights reserved.
Not a contribution.
Copyright (C) 2012-2013 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<!--
<!DOCTYPE MediaCodecs [
<!ELEMENT Include EMPTY>
<!ATTLIST Include href CDATA #REQUIRED>
<!ELEMENT MediaCodecs (Decoders|Encoders|Include)*>
<!ELEMENT Decoders (MediaCodec|Include)*>
<!ELEMENT Encoders (MediaCodec|Include)*>
<!ELEMENT MediaCodec (Type|Quirk|Include)*>
<!ATTLIST MediaCodec name CDATA #REQUIRED>
<!ATTLIST MediaCodec type CDATA>
<!ELEMENT Type EMPTY>
<!ATTLIST Type name CDATA #REQUIRED>
<!ELEMENT Quirk EMPTY>
<!ATTLIST Quirk name CDATA #REQUIRED>
]>
There's a simple and a complex syntax to declare the availability of a
media codec:
A codec that properly follows the OpenMax spec and therefore doesn't have any
quirks and that only supports a single content type can be declared like so:
<MediaCodec name="OMX.foo.bar" type="something/interesting" />
If a codec has quirks OR supports multiple content types, the following syntax
can be used:
<MediaCodec name="OMX.foo.bar" >
<Type name="something/interesting" />
<Type name="something/else" />
...
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="output-buffers-are-unreadable" />
</MediaCodec>
Only the three quirks included above are recognized at this point:
"requires-allocate-on-input-ports"
must be advertised if the component does not properly support specification
of input buffers using the OMX_UseBuffer(...) API but instead requires
OMX_AllocateBuffer to be used.
"requires-allocate-on-output-ports"
must be advertised if the component does not properly support specification
of output buffers using the OMX_UseBuffer(...) API but instead requires
OMX_AllocateBuffer to be used.
"output-buffers-are-unreadable"
must be advertised if the emitted output buffers of a decoder component
are not readable, i.e. use a custom format even though abusing one of
the official OMX colorspace constants.
Clients of such decoders will not be able to access the decoded data,
naturally making the component much less useful. The only use for
a component with this quirk is to render the output to the screen.
Audio decoders MUST NOT advertise this quirk.
Video decoders that advertise this quirk must be accompanied by a
corresponding color space converter for thumbnail extraction,
matching surfaceflinger support that can render the custom format to
a texture and possibly other code, so just DON'T USE THIS QUIRK.
-->
<!--
"performance-point"
Vendor-guaranteed performance advertised to the applications
<Limit name="performance-point-widthxheight" value="fps" />
-For each of the resolutions, the advertised fps is the max supported,
with HW-friendly color format and considering video-only.
-Performance for any intermediate resolution will be that of the
next-higher-advertised-resolution.
standard sizes: 480p/576p (SD), 720p (HD), 1080p (FHD), 2160p (UHD)
standard frame rates: 24, 25, 30, 48+, 50, 60, 100*, 120*, 200*, 240* fps
* HD+ only
+ SD only
- All supported standard performance points are listed (unless they are
covered by another listed standard performance point)
- Non-standard performance points are listed along with all the standard
performance points covered by them.
-->
<!--
"block-count"
Used by following MediaCodecInfo apis:
getSupportedWidthsFor(height) and
getSupportedHeightsFor(width)
-->
<!--
Non-Secure decoder capabilities
(MB is defined as 16x16)
_____________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|_____________|_____________________________________________________|
| h264 | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| hevc | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| mpeg4-sw | 1920 1088 30 40 244800 244800 |
| | 1280 720 30 40 108000 |
| vp8 | 1280 720 120 220 432000 1036800 |
| | 1920 1088 120 220 979200 |
| | 3840 2160 30 220 972000 |
| | 4096 2160 30 220 1036800 |
| vp9 | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| h263-sw | 864 480 30 16 48600 48600 |
| mpeg2 | 1020 1088 60i 40 130050 244800 |
| | 1920 1088 30 40 244800 |
|_____________|_____________________________________________________|
Secure decoder capabilities
(MB is defined as 16x16)
__________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|__________|_____________________________________________________|
| h264 | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| hevc | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| vp9 | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| mpeg2 | 1920 1088 30 40 244800 244800 |
|__________|_____________________________________________________|
Non-Secure encoder capabilities (Secure not supported)
(MB is defined as 16x16)
__________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|__________|_____________________________________________________|
| h264 | 1280 720 960 220 3456000 3916800 |
| | 1920 1088 480 220 3916800 |
| | 3840 2160 120 220 3888000 |
| | 4096 2160 60 220 2073600 |
| | 8192 4320 24 220 3317760 |
| hevc | 1280 720 960 220 3456000 3916800 |
| | 1920 1088 480 220 3916800 |
| | 3840 2160 120 220 3888000 |
| | 4096 2160 60 220 2073600 |
| | 8192 4320 24 220 3317760 |
| hevc.cq | 512 512 3825 220 3916800 3916800 |
| mpeg4-sw | 1280 720 30 4 108000 108000 |
| vp8 | 1280 720 60 70 216000 2073600 |
| | 1920 1088 60 70 489600 |
| | 3840 2160 60 70 1944000 |
| | 4096 2160 60 70 2073600 |
| h263-sw | 864 480 30 2 48600 48600 |
|__________|_____________________________________________________|
-->
<MediaCodecs>
<Include href="media_codecs_google_audio.xml" />
<Include href="media_codecs_google_telephony.xml" />
<Settings>
<Setting name="max-video-encoder-input-buffers" value="11" />
</Settings>
<Encoders>
<!-- Video Hardware -->
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-70000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2160" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Feature name="bitrate-modes" value="VBR,CBR" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc.cq" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="512x512" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="16" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-512x512" value="3825" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.heic" type="image/vnd.android.heic" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="512x512" max="16384x16384" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="6" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-16384x8192" value="3" />
<Limit name="performance-point-1920x1080" value="6" />
</MediaCodec>
<!-- Video Software -->
<MediaCodec name="OMX.qcom.video.encoder.h263sw" type="video/3gpp" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="4x4" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-2000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-864x480" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.mpeg4sw" type="video/mp4v-es" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-8000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-864x480" value="30" />
<Attribute name="software-codec" />
</MediaCodec>
</Encoders>
<Decoders>
<!-- Video Hardware -->
<MediaCodec name="OMX.qcom.video.decoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.avc.secure" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2.secure" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="1036800" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-120" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="120" />
<Limit name="performance-point-3840x2160" value="30" />
<Limit name="performance-point-4096x2160" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="6" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9.secure" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc.secure" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<!-- Video Software -->
<MediaCodec name="OMX.qti.video.decoder.h263sw" type="video/3gpp" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="4x4" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-16000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="4" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-864x480" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.mpeg4sw" type="video/mp4v-es">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="96x96" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-8160" />
<Limit name="blocks-per-second" min="36" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="4" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.google.opus.decoder" type="audio/opus" update="true" rank="100"/>
</Decoders>
<Include href="media_codecs_google_video.xml" />
</MediaCodecs>

462
proprietary/vendor/etc/media_codecs_c2.xml vendored Normal file
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@@ -0,0 +1,462 @@
<?xml version="1.0" encoding="utf-8" ?>
<!--
Copyright (c) 2018-2020 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.
Not a Contribution.
Copyright (C) 2012-2018 The Linux Foundation. All rights reserved.
Copyright (C) 2012-2013 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<!--
Kona Non-Secure decoder capabilities
_________________________________________________________
| Codec | W H fps Mbps MB/s |
|_____________|_________________________________________|
| h264 | 4096 2160 60 120 2073600 |
| | (4096) (2304) (30) (120) |
| hevc | 4096 2160 60 120 2073600 |
| | (4096) (2304) (30) (120) |
| vp8 | 4096 2160 30 120 1036800 |
| | (4096) (2304) (24) (120) |
| vp9 | 4096 2160 60 120 2073600 |
| | (4096) (2304) (30) (120) |
|_____________|_________________________________________|
Kona Secure decoder capabilities
______________________________________________________
| Codec | W H fps Mbps MB/s |
|__________|_________________________________________|
| h264 | 4096 2160 60 40 2073600 |
| | (4096) (2304) (30) (40) |
| vp9 | 4096 2160 60 40 2073600 |
| | (4096) (2304) (30) (40) |
| hevc | 4096 2160 60 40 2073600 |
| | (4096) (2304) (30) (40) |
|__________|_________________________________________|
Kona Non-Secure encoder capabilities (Secure not supported)
______________________________________________________
| Codec | W H fps Mbps MB/s |
|__________|_________________________________________|
| h264 | 4096 2160 60 120 2073600 |
| | (4096) (2304) (30) (120) |
| hevc | 4096 2160 60 120 2073600 |
| | (4096) (2304) (30) (120) |
| vp8 | 4096 2160 30 120 1036800 |
| | (4096) (2304) (24) (120) |
|__________|_________________________________________|
-->
<Included>
<Include href="media_codecs_google_audio.xml" />
<Include href="media_codecs_google_telephony.xml" />
<Settings>
<Setting name="max-video-encoder-input-buffers" value="11" />
</Settings>
<Decoders>
<!-- C2 decoders -->
<MediaCodec name="c2.qti.avc.decoder" type="video/avc">
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" range="64-2073600" />
<Limit name="bitrate" range="1-120000000" />
<Limit name="frame-rate" range="1-480" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-1280x720" value="480" />
<Feature name="adaptive-playback" />
</MediaCodec>
<MediaCodec name="c2.qti.avc.decoder.secure" type="video/avc" >
<Limit name="size" min="128x128" max="4096x2160" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="1958400" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-240" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.decoder" type="video/hevc" >
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-120000000" />
<Limit name="frame-rate" range="1-480" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-1280x720" value="480" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.decoder.secure" type="video/hevc" >
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-480" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="6" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
</MediaCodec>
<MediaCodec name="c2.qti.vp8.decoder" type="video/x-vnd.on2.vp8" >
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="1036800" />
<Limit name="bitrate" range="1-120000000" />
<Limit name="frame-rate" range="1-240" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-4096x2304" value="24" />
<Limit name="performance-point-3840x2160" value="30" />
<Limit name="performance-point-1920x1080" value="120" />
<Limit name="performance-point-1280x720" value="240" />
</MediaCodec>
<MediaCodec name="c2.qti.vp9.decoder" type="video/x-vnd.on2.vp9" >
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-120000000" />
<Limit name="frame-rate" range="1-480" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="6" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-1280x720" value="480" />
</MediaCodec>
<MediaCodec name="c2.qti.vp9.decoder.secure" type="video/x-vnd.on2.vp9" >
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-480" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
</MediaCodec>
<!-- TODO: parameters are copied from kona omx -->
<MediaCodec name="c2.qti.mpeg2.decoder" type="video/mpeg2" >
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<!-- OMX alias decoders (Codec2 decoders with OMX names) -->
<MediaCodec name="OMX.qcom.video.decoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.avc.secure" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2.secure" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="1036800" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-120" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="120" />
<Limit name="performance-point-3840x2160" value="30" />
<Limit name="performance-point-4096x2160" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="6" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9.secure" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc.secure" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<!-- TODO: parameters are copied from kona omx -->
</Decoders>
<Encoders>
<!-- C2 encoders -->
<MediaCodec name="c2.qti.avc.encoder" type="video/avc">
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-120000000" />
<Limit name="frame-rate" range="1-480" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-1280x720" value="480" />
<Limit name="concurrent-instances" max="16" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.encoder" type="video/hevc">
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-120000000" />
<Limit name="frame-rate" range="1-480" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-4096x2304" value="30" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-1280x720" value="480" />
<Feature name="bitrate-modes" value="VBR,CBR" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.encoder.cq" type="video/hevc" >
<Alias name="OMX.qcom.video.encoder.hevc.cq"/>
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="512x512" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="6" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-512x512" value="3825" />
</MediaCodec>
<MediaCodec name="c2.qti.heic.encoder" type="image/vnd.android.heic" >
<Alias name="OMX.qcom.video.encoder.heic"/>
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="512x512" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="6" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-8192x4320" value="3" />
<Limit name="performance-point-1920x1080" value="6" />
</MediaCodec>
<MediaCodec name="c2.qti.vp8.encoder" type="video/x-vnd.on2.vp8">
<Limit name="size" min="128x128" max="4096x2304" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-70000000" />
<Limit name="frame-rate" range="1-480" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-4096x2304" value="24" />
<Limit name="performance-point-3840x2160" value="30" />
<Limit name="performance-point-1920x1080" value="120" />
<Limit name="performance-point-1280x720" value="240" />
</MediaCodec>
<!-- OMX alias encoders (Codec2 encoders with OMX names) -->
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-70000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2160" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Feature name="bitrate-modes" value="VBR,CBR" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
</Encoders>
<Include href="media_codecs_google_c2.xml" />
</Included>

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proprietary/vendor/etc/media_codecs_kona.xml vendored Normal file
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<?xml version="1.0" encoding="utf-8" ?>
<MediaCodecs>
<Include href="media_codecs_system_default.xml" />
</MediaCodecs>

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<?xml version="1.0" encoding="utf-8"?>
<!-- Copyright (C) 2012-2020 The Linux Foundation. All rights reserved.
Not a contribution.
Copyright (C) 2012-2013 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<!--
<!DOCTYPE MediaCodecs [
<!ELEMENT Include EMPTY>
<!ATTLIST Include href CDATA #REQUIRED>
<!ELEMENT MediaCodecs (Decoders|Encoders|Include)*>
<!ELEMENT Decoders (MediaCodec|Include)*>
<!ELEMENT Encoders (MediaCodec|Include)*>
<!ELEMENT MediaCodec (Type|Quirk|Include)*>
<!ATTLIST MediaCodec name CDATA #REQUIRED>
<!ATTLIST MediaCodec type CDATA>
<!ELEMENT Type EMPTY>
<!ATTLIST Type name CDATA #REQUIRED>
<!ELEMENT Quirk EMPTY>
<!ATTLIST Quirk name CDATA #REQUIRED>
]>
There's a simple and a complex syntax to declare the availability of a
media codec:
A codec that properly follows the OpenMax spec and therefore doesn't have any
quirks and that only supports a single content type can be declared like so:
<MediaCodec name="OMX.foo.bar" type="something/interesting" />
If a codec has quirks OR supports multiple content types, the following syntax
can be used:
<MediaCodec name="OMX.foo.bar" >
<Type name="something/interesting" />
<Type name="something/else" />
...
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="output-buffers-are-unreadable" />
</MediaCodec>
Only the three quirks included above are recognized at this point:
"requires-allocate-on-input-ports"
must be advertised if the component does not properly support specification
of input buffers using the OMX_UseBuffer(...) API but instead requires
OMX_AllocateBuffer to be used.
"requires-allocate-on-output-ports"
must be advertised if the component does not properly support specification
of output buffers using the OMX_UseBuffer(...) API but instead requires
OMX_AllocateBuffer to be used.
"output-buffers-are-unreadable"
must be advertised if the emitted output buffers of a decoder component
are not readable, i.e. use a custom format even though abusing one of
the official OMX colorspace constants.
Clients of such decoders will not be able to access the decoded data,
naturally making the component much less useful. The only use for
a component with this quirk is to render the output to the screen.
Audio decoders MUST NOT advertise this quirk.
Video decoders that advertise this quirk must be accompanied by a
corresponding color space converter for thumbnail extraction,
matching surfaceflinger support that can render the custom format to
a texture and possibly other code, so just DON'T USE THIS QUIRK.
-->
<!--
"performance-point"
Vendor-guaranteed performance advertised to the applications
<Limit name="performance-point-widthxheight" value="fps" />
-For each of the resolutions, the advertised fps is the max supported,
with HW-friendly color format and considering video-only.
-Performance for any intermediate resolution will be that of the
next-higher-advertised-resolution.
standard sizes: 480p/576p (SD), 720p (HD), 1080p (FHD), 2160p (UHD)
standard frame rates: 24, 25, 30, 48+, 50, 60, 100*, 120*, 200*, 240* fps
* HD+ only
+ SD only
- All supported standard performance points are listed (unless they are
covered by another listed standard performance point)
- Non-standard performance points are listed along with all the standard
performance points covered by them.
-->
<!--
"block-count"
Used by following MediaCodecInfo apis:
getSupportedWidthsFor(height) and
getSupportedHeightsFor(width)
-->
<!--
Non-Secure decoder capabilities
(MB is defined as 16x16)
_____________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|_____________|_____________________________________________________|
| h264 | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| hevc | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| mpeg4-sw | 1920 1088 30 40 244800 244800 |
| | 1280 720 30 40 108000 |
| vp8 | 1280 720 120 220 432000 1036800 |
| | 1920 1088 120 220 979200 |
| | 3840 2160 30 220 972000 |
| | 4096 2160 30 220 1036800 |
| vp9 | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| h263-sw | 864 480 30 16 48600 48600 |
| mpeg2 | 1020 1088 60i 40 130050 244800 |
| | 1920 1088 30 40 244800 |
|_____________|_____________________________________________________|
Secure decoder capabilities
(MB is defined as 16x16)
__________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|__________|_____________________________________________________|
| h264 | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| hevc | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| vp9 | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| mpeg2 | 1920 1088 30 40 244800 244800 |
|__________|_____________________________________________________|
Non-Secure encoder capabilities (Secure not supported)
(MB is defined as 16x16)
__________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|__________|_____________________________________________________|
| h264 | 1280 720 960 220 3456000 3916800 |
| | 1920 1088 480 220 3916800 |
| | 3840 2160 120 220 3888000 |
| | 4096 2160 60 220 2073600 |
| | 8192 4320 24 220 3317760 |
| hevc | 1280 720 960 220 3456000 3916800 |
| | 1920 1088 480 220 3916800 |
| | 3840 2160 120 220 3888000 |
| | 4096 2160 60 220 2073600 |
| | 8192 4320 24 220 3317760 |
| hevc.cq | 512 512 3825 220 3916800 3916800 |
| mpeg4-sw | 1280 720 30 4 108000 108000 |
| vp8 | 1280 720 60 70 216000 2073600 |
| | 1920 1088 60 70 489600 |
| | 3840 2160 60 70 1944000 |
| | 4096 2160 60 70 2073600 |
| h263-sw | 864 480 30 2 48600 48600 |
|__________|_____________________________________________________|
-->
<MediaCodecs>
<Include href="media_codecs_google_audio.xml" />
<Include href="media_codecs_vendor_audio.xml" />
<Include href="media_codecs_google_telephony.xml" />
<Settings>
<Setting name="max-video-encoder-input-buffers" value="11" />
</Settings>
<Encoders>
<!-- Video Hardware -->
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-70000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2160" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Feature name="bitrate-modes" value="VBR,CBR" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc.cq" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="512x512" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="16" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-512x512" value="3825" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.heic" type="image/vnd.android.heic" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="512x512" max="16384x16384" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="6" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-16384x8192" value="3" />
<Limit name="performance-point-1920x1080" value="6" />
</MediaCodec>
<!-- Video Software -->
<MediaCodec name="OMX.qcom.video.encoder.h263sw" type="video/3gpp" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="4x4" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-2000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-864x480" value="30" />
</MediaCodec>
</Encoders>
<Decoders>
<!-- Video Hardware -->
<MediaCodec name="OMX.qcom.video.decoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.avc.secure" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2.secure" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="1036800" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-120" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="120" />
<Limit name="performance-point-3840x2160" value="30" />
<Limit name="performance-point-4096x2160" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="6" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9.secure" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc.secure" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<!-- Video Software -->
<MediaCodec name="OMX.qti.video.decoder.h263sw" type="video/3gpp" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="4x4" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-16000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="4" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-864x480" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.mpeg4sw" type="video/mp4v-es">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="96x96" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-8160" />
<Limit name="blocks-per-second" min="36" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="4" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
</Decoders>
<Include href="media_codecs_google_video.xml" />
</MediaCodecs>

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<?xml version="1.0" encoding="utf-8" ?>
<!--
Copyright (c) 2018-2020 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.
Not a Contribution.
Copyright (C) 2012-2017 The Linux Foundation. All rights reserved.
Copyright (C) 2012-2013 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<MediaCodecs>
<Decoders>
<!-- C2 HW decoders -->
<MediaCodec name="c2.qti.avc.decoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="567-1298" />
<Limit name="measured-frame-rate-720x480" range="720-740" />
<Limit name="measured-frame-rate-1280x720" range="200-420" />
<Limit name="measured-frame-rate-1920x1088" range="76-167" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.decoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="800-850" />
<Limit name="measured-frame-rate-720x480" range="440-600" />
<Limit name="measured-frame-rate-1280x720" range="215-425" />
<Limit name="measured-frame-rate-1920x1080" range="118-259" />
<Limit name="measured-frame-rate-3840x2160" range="30-66" />
</MediaCodec>
<MediaCodec name="c2.qti.vp8.decoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x240" range="800-900" />
<Limit name="measured-frame-rate-640x360" range="700-750" />
<Limit name="measured-frame-rate-1280x720" range="131-289" />
<Limit name="measured-frame-rate-1920x1080" range="83-183" />
</MediaCodec>
<MediaCodec name="c2.qti.vp9.decoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x240" range="800-900" />
<Limit name="measured-frame-rate-640x360" range="700-800" />
<Limit name="measured-frame-rate-1280x720" range="94-207" />
<Limit name="measured-frame-rate-1920x1080" range="87-190" />
<Limit name="measured-frame-rate-3840x2160" range="20-44" />
</MediaCodec>
<!-- C2 HW decoders with OMX aliases -->
<MediaCodec name="OMX.qcom.video.decoder.avc" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="101-221" />
<Limit name="measured-frame-rate-720x480" range="720-740" />
<Limit name="measured-frame-rate-1280x720" range="200-420" />
<Limit name="measured-frame-rate-1920x1088" range="76-167" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="800-850" />
<Limit name="measured-frame-rate-720x480" range="440-600" />
<Limit name="measured-frame-rate-1280x720" range="215-425" />
<Limit name="measured-frame-rate-1920x1080" range="118-259" />
<Limit name="measured-frame-rate-3840x2160" range="30-66" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x240" range="800-900" />
<Limit name="measured-frame-rate-640x360" range="700-750" />
<Limit name="measured-frame-rate-1280x720" range="131-289" />
<Limit name="measured-frame-rate-1920x1080" range="83-183" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x240" range="800-900" />
<Limit name="measured-frame-rate-640x360" range="700-800" />
<Limit name="measured-frame-rate-1280x720" range="94-207" />
<Limit name="measured-frame-rate-1920x1080" range="87-190" />
<Limit name="measured-frame-rate-3840x2160" range="20-44" />
</MediaCodec>
<!-- TODO: add C2 mpeg2 decoder performance data -->
<!-- C2 SW codecs -->
<MediaCodec name="c2.android.avc.decoder" type="video/avc" update="true">
<!-- measured 98%:153-414 med:193/192 FLAKY(mn=61.7 < 96 - 414 < mx=423.7) -->
<Limit name="measured-frame-rate-320x240" range="192-207" /> <!-- N=266 v98%=1.6 -->
<Limit name="measured-frame-rate-720x480" range="72-73" /> <!-- N=266 v98%=1.5 -->
<Limit name="measured-frame-rate-1280x720" range="27-27" /> <!-- N=236 v98%=1.5 (-PD1A.180712.003) -->
<Limit name="measured-frame-rate-1920x1080" range="15-16" /> <!-- N=272 v98%=1.4 -->
</MediaCodec>
<MediaCodec name="c2.android.hevc.decoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="259-262" /> <!-- N=270 v98%=1.6 -->
<!-- measured 98%:77-220 med:165/169 FLAKY(mn=74.9 < 75 - 338) -->
<Limit name="measured-frame-rate-640x360" range="149-169" /> <!-- TWEAKED N=269 v98%=1.7 -->
<!-- measured 98%:85-223 med:194/186 FLAKY(mn=80.8 < 85 - 372) -->
<Limit name="measured-frame-rate-720x480" range="161-186" /> <!-- TWEAKED N=270 v98%=1.6 -->
<Limit name="measured-frame-rate-1280x720" range="81-81" /> <!-- N=270 v98%=1.4 -->
<Limit name="measured-frame-rate-1920x1080" range="46-46" /> <!-- N=230 v98%=1.2 (-PD1A.180706.000) -->
</MediaCodec>
<MediaCodec name="c2.android.vp8.decoder" type="video/x-vnd.on2.vp8" update="true">
<!-- measured 98%:191-657 med:617/613 FLAKY(mn=183.9 < 191 - 1226) -->
<Limit name="measured-frame-rate-320x180" range="367-613" /> <!-- TWEAKED N=270 v98%=1.9 (-PD1A.180717.001) -->
<Limit name="measured-frame-rate-640x360" range="235-235" /> <!-- N=230 v98%=1.3 -->
<!-- measured 98%:35-54 med:36/36 N=64 -->
<Limit name="measured-frame-rate-1280x720" range="36-36" /> <!-- v98%=1.2 (PD1A.180706.000-) -->
<Limit name="measured-frame-rate-1920x1080" range="21-21" /> <!-- N=270 v98%=1.3 (-PD1A.180717.001) -->
</MediaCodec>
<MediaCodec name="c2.android.vp9.decoder" type="video/x-vnd.on2.vp9" update="true">
<!-- measured 98%:173-698 med:670/668 FLAKY(mn=161.4 < 162 - 1336) variance:2.0 -->
<Limit name="measured-frame-rate-320x180" range="322-668" /> <!-- TWEAKED N=228 -->
<Limit name="measured-frame-rate-640x360" range="162-259" /> <!-- N=272 v98%=1.9 (-PD1A.180717.001) -->
<Limit name="measured-frame-rate-1280x720" range="72-73" /> <!-- N=270 v98%=1.3 (-PD1A.180717.001) -->
<Limit name="measured-frame-rate-1920x1080" range="47-47" /> <!-- N=230 v98%=1.2 -->
</MediaCodec>
<MediaCodec name="c2.android.h263.decoder" type="video/3gpp" update="true">
<!-- measured 98%:151-1143 med:437/432 FLAKY(111 - 972 < mx=1146.8) variance:2.8 -->
<Limit name="measured-frame-rate-176x144" range="800-1000" /> <!-- N=270 -->
</MediaCodec>
<MediaCodec name="c2.android.mpeg4.decoder" type="video/mp4v-es" update="true">
<!-- measured 90%:149-1332 med:379/360 FLAKY(109 - 958 < mx=1400.6) RG.VARIANCE:2.1 -->
<Limit name="measured-frame-rate-176x144" range="450-850" /> <!-- N=272 v90%=3.0 -->
</MediaCodec>
</Decoders>
<Encoders>
<!-- C2 HW encoders -->
<MediaCodec name="c2.qti.avc.encoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="355-437" />
<Limit name="measured-frame-rate-720x480" range="64-140" />
<Limit name="measured-frame-rate-1280x720" range="26-56" />
<Limit name="measured-frame-rate-1920x1080" range="20-44" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.encoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="126-278" />
<Limit name="measured-frame-rate-720x480" range="48-106" />
<Limit name="measured-frame-rate-1280x720" range="19-41" />
<Limit name="measured-frame-rate-1920x1080" range="17-37" />
<Limit name="measured-frame-rate-3840x2160" range="11-25" />
</MediaCodec>
<MediaCodec name="c2.qti.hevc.encoder.cq" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="340-400" />
</MediaCodec>
<MediaCodec name="c2.qti.vp8.encoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="107-236" />
<Limit name="measured-frame-rate-640x360" range="67-147" />
<Limit name="measured-frame-rate-1280x720" range="21-46" />
<Limit name="measured-frame-rate-1920x1080" range="18-41" />
</MediaCodec>
<!-- C2 HW encoders with OMX aliases -->
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="106-234" />
<Limit name="measured-frame-rate-720x480" range="64-140" />
<Limit name="measured-frame-rate-1280x720" range="26-56" />
<Limit name="measured-frame-rate-1920x1080" range="20-44" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="126-278" />
<Limit name="measured-frame-rate-720x480" range="48-106" />
<Limit name="measured-frame-rate-1280x720" range="19-41" />
<Limit name="measured-frame-rate-1920x1080" range="17-37" />
<Limit name="measured-frame-rate-3840x2160" range="11-25" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="107-236" />
<Limit name="measured-frame-rate-640x360" range="67-147" />
<Limit name="measured-frame-rate-1280x720" range="21-46" />
<Limit name="measured-frame-rate-1920x1080" range="18-41" />
</MediaCodec>
<!-- C2 SW encoders -->
<MediaCodec name="c2.android.h263.encoder" type="video/3gpp" update="true">
<!-- measured 95%:144-637 med:343/343 FLAKY(mn=40.8 < 144 - 808 < mx=916.6) variance:2.1 -->
<Limit name="measured-frame-rate-176x144" range="287-459" /> <!-- TWEAKED N=224 -->
</MediaCodec>
<MediaCodec name="c2.android.avc.encoder" type="video/avc" update="true">
<!-- measured 90%:42-420 med:146/160 FLAKY(mn=39.0 < 42 - 368 < mx=569.5) RG.VARIANCE:2.2 -->
<Limit name="measured-frame-rate-320x240" range="82-212" /> <!-- SHOULDN'T HAVE TWEAKED N=266 v90%=3.2 -->
<!-- measured 98%:29-166 med:66/63 FLAKY(24 - 166 < mx=166.5) variance:2.4 -->
<Limit name="measured-frame-rate-720x480" range="47-83" /> <!-- N=262 -->
<!-- measured 98%:11-68 med:30/30 FLAKY(mn=10.5 < 11 - 68 < mx=82.1) variance:2.5 -->
<Limit name="measured-frame-rate-1280x720" range="22-42" /> <!-- TWEAKED N=236 -->
<!-- measured 98%:10-38 med:18/18 FLAKY(mn=5.2 < 9 - 38 < mx=38.8) -->
<Limit name="measured-frame-rate-1920x1080" range="18-19" /> <!-- N=288 v98%=2.0 -->
</MediaCodec>
<MediaCodec name="c2.android.mpeg4.encoder" type="video/mp4v-es" update="true">
<!-- measured 90%:29-451 med:208/206 FLAKY(mn=19.2 < 47 - 412 < mx=888.9) RG.VARIANCE:2.5 -->
<Limit name="measured-frame-rate-176x144" range="203-445" /> <!-- SHOULDN'T HAVE TWEAKED N=220 v90%=4.0 -->
</MediaCodec>
<MediaCodec name="c2.android.vp8.encoder" type="video/x-vnd.on2.vp8" update="true">
<!-- measured 90%:6-36 med:30/29 FLAKY(mn=0.0 < 7 - 58) variance:2.5 -->
<Limit name="measured-frame-rate-320x180" range="7-16" /> <!-- SHOULDN'T HAVE TWEAKED N=214 -->
<!-- measured 98%:3-24 med:12/12 FLAKY(mn=2.8 < 3 - 24 < mx=26.6) variance:2.8 -->
<Limit name="measured-frame-rate-640x360" range="6-12" /> <!-- N=220 -->
<!-- measured 98%:3-11 med:6/6 FLAKY(mn=0.0 < 3 - 12) -->
<Limit name="measured-frame-rate-1280x720" range="5-6" /> <!-- N=202 v98%=2.0 -->
<!-- measured 98%:3-7 med:5/5 FLAKY(mn=0.0 < 2 - 10 < mx=11.2) -->
<Limit name="measured-frame-rate-1920x1080" range="4-5" /> <!-- N=212 v98%=1.5 -->
</MediaCodec>
<MediaCodec name="c2.android.vp9.encoder" type="video/x-vnd.on2.vp9" update="true">
<!-- measured 93%:99-156 med:109/109 N=24 -->
<Limit name="measured-frame-rate-320x180" range="109-109" /> <!-- v93%=1.3 -->
<!-- measured 95%:54-67 med:61/61 N=36 -->
<Limit name="measured-frame-rate-640x360" range="61-61" /> <!-- v95%=1.1 -->
<!-- measured 95%:16-26 med:20/20 N=32 -->
<Limit name="measured-frame-rate-1280x720" range="20-20" /> <!-- v95%=1.3 -->
</MediaCodec>
</Encoders>
</MediaCodecs>

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<?xml version="1.0" encoding="utf-8" ?>
<!--
Copyright (c) 2015-2020, The Linux Foundation. All rights reserved.
Not a Contribution.
Copyright 2015 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
u may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<MediaCodecs>
<Encoders>
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="310-450" />
<Limit name="measured-frame-rate-720x480" range="277-287" />
<Limit name="measured-frame-rate-1280x720" range="88-90" />
<Limit name="measured-frame-rate-1920x1080" range="116-118" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="295-435" />
<Limit name="measured-frame-rate-720x480" range="336-339" />
<Limit name="measured-frame-rate-1280x720" range="183-194" />
<Limit name="measured-frame-rate-1920x1080" range="91-104" />
<Limit name="measured-frame-rate-3840x2160" range="37-40" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc.cq" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="340-400" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.h263sw" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="303-303" />
<Limit name="measured-frame-rate-352x288" range="259-259" />
<Limit name="measured-frame-rate-704x576" range="87-155" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="355-520" />
<Limit name="measured-frame-rate-640x360" range="236-302" />
<Limit name="measured-frame-rate-1280x720" range="123-125" />
<Limit name="measured-frame-rate-1920x1080" range="16-40" />
</MediaCodec>
<MediaCodec name="OMX.google.h264.encoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="215-215" />
<Limit name="measured-frame-rate-720x480" range="100-100" />
<Limit name="measured-frame-rate-1280x720" range="56-56" />
<Limit name="measured-frame-rate-1920x1080" range="30-30" />
</MediaCodec>
<MediaCodec name="OMX.google.h263.encoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="200-200" />
</MediaCodec>
<MediaCodec name="OMX.google.mpeg4.encoder" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="180-180" />
</MediaCodec>
<MediaCodec name="OMX.google.vp8.encoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="93-94" />
<Limit name="measured-frame-rate-640x360" range="32-32" />
<Limit name="measured-frame-rate-1280x720" range="17-24" />
<Limit name="measured-frame-rate-1920x1080" range="8-12" />
</MediaCodec>
<MediaCodec name="c2.android.avc.encoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="151-208" />
<Limit name="measured-frame-rate-720x480" range="61-84" />
<Limit name="measured-frame-rate-1280x720" range="41-57" />
<Limit name="measured-frame-rate-1920x1080" range="28-39" />
</MediaCodec>
<MediaCodec name="c2.android.h263.encoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="287-459" />
</MediaCodec>
<MediaCodec name="c2.android.mpeg4.encoder" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="251-350" />
</MediaCodec>
<MediaCodec name="c2.android.vp8.encoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="228-318" />
<Limit name="measured-frame-rate-640x360" range="150-233" />
<Limit name="measured-frame-rate-1280x720" range="43-61" />
<Limit name="measured-frame-rate-1920x1080" range="19-27" />
</MediaCodec>
<MediaCodec name="c2.android.vp9.encoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x180" range="109-109" />
<Limit name="measured-frame-rate-640x360" range="61-61" />
<Limit name="measured-frame-rate-1280x720" range="20-20" />
</MediaCodec>
<MediaCodec name="c2.android.hevc.encoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="22-35" />
<Limit name="measured-frame-rate-720x480" range="8-39" />
</MediaCodec>
</Encoders>
<Decoders>
<MediaCodec name="OMX.qcom.video.decoder.avc" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="960-1268" />
<Limit name="measured-frame-rate-720x480" range="857-1104" />
<Limit name="measured-frame-rate-1280x720" range="312-316" />
<Limit name="measured-frame-rate-1920x1088" range="246-250" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="756-1179" />
<Limit name="measured-frame-rate-720x480" range="1046-1157" />
<Limit name="measured-frame-rate-1280x720" range="318-319" />
<Limit name="measured-frame-rate-1920x1080" range="316-318" />
<Limit name="measured-frame-rate-3840x2160" range="148-149" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.h263sw" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="782-1581" />
<Limit name="measured-frame-rate-352x288" range="380-920" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.mpeg4sw" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="775-2064" />
<Limit name="measured-frame-rate-480x360" range="695-915" />
<Limit name="measured-frame-rate-1280x720" range="369-529" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x240" range="1111-1357" />
<Limit name="measured-frame-rate-640x360" range="571-883" />
<Limit name="measured-frame-rate-1280x720" range="337-337" />
<Limit name="measured-frame-rate-1920x1080" range="248-248" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x240" range="806-1245" />
<Limit name="measured-frame-rate-640x360" range="832-1285" />
<Limit name="measured-frame-rate-1280x720" range="485-600" />
<Limit name="measured-frame-rate-1920x1080" range="435-495" />
<Limit name="measured-frame-rate-3840x2160" range="83-98" />
</MediaCodec>
<MediaCodec name="OMX.google.h264.decoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="122-370" />
<Limit name="measured-frame-rate-720x480" range="68-68" />
<Limit name="measured-frame-rate-1280x720" range="32-32" />
<Limit name="measured-frame-rate-1920x1080" range="24-26" />
</MediaCodec>
<MediaCodec name="OMX.google.h263.decoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="104-279" />
<Limit name="measured-frame-rate-352x288" range="200-200" />
</MediaCodec>
<MediaCodec name="OMX.google.hevc.decoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="502-550" />
<Limit name="measured-frame-rate-640x360" range="267-271" />
<Limit name="measured-frame-rate-720x480" range="254-257" />
<Limit name="measured-frame-rate-1280x720" range="94-95" />
<Limit name="measured-frame-rate-1920x1080" range="47-49" />
</MediaCodec>
<MediaCodec name="OMX.google.mpeg4.decoder" update="true">
<Type name="video/mp4v-es">
<Limit name="measured-frame-rate-176x144" range="430-450" />
</Type>
</MediaCodec>
<MediaCodec name="OMX.google.vp8.decoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="1103-1170" />
<Limit name="measured-frame-rate-320x240" range="330-381" />
<Limit name="measured-frame-rate-640x360" range="487-490" />
<Limit name="measured-frame-rate-1280x720" range="22-38" />
<Limit name="measured-frame-rate-1920x1080" range="39-40" />
</MediaCodec>
<MediaCodec name="OMX.google.vp9.decoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x180" range="861-909" />
<Limit name="measured-frame-rate-320x240" range="200-230" />
<Limit name="measured-frame-rate-640x360" range="265-268" />
<Limit name="measured-frame-rate-1280x720" range="32-40" />
<Limit name="measured-frame-rate-1920x1080" range="19-23" />
</MediaCodec>
<MediaCodec name="c2.android.avc.decoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="350-469" />
<Limit name="measured-frame-rate-720x480" range="326-436" />
<Limit name="measured-frame-rate-1280x720" range="21-155" />
<Limit name="measured-frame-rate-1920x1080" range="12-17" />
</MediaCodec>
<MediaCodec name="c2.android.hevc.decoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="355-960" />
<Limit name="measured-frame-rate-640x360" range="308-526" />
<Limit name="measured-frame-rate-720x480" range="370-455" />
<Limit name="measured-frame-rate-1280x720" range="105-210" />
<Limit name="measured-frame-rate-1920x1080" range="92-143" />
</MediaCodec>
<MediaCodec name="c2.android.mpeg4.decoder" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="550-1200" />
</MediaCodec>
<MediaCodec name="c2.android.h263.decoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="328-722" />
<Limit name="measured-frame-rate-352x288" range="653-1526" />
</MediaCodec>
<MediaCodec name="c2.android.vp9.decoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x180" range="573-1136" />
<Limit name="measured-frame-rate-640x360" range="200-450" />
<Limit name="measured-frame-rate-1280x720" range="72-85" />
<Limit name="measured-frame-rate-1920x1080" range="19-31" />
</MediaCodec>
<MediaCodec name="c2.android.vp8.decoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="601-1177" />
<Limit name="measured-frame-rate-640x360" range="460-560" />
<Limit name="measured-frame-rate-1280x720" range="107-145" />
<Limit name="measured-frame-rate-1920x1080" range="31-43" />
</MediaCodec>
</Decoders>
</MediaCodecs>

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<?xml version="1.0" encoding="utf-8" ?>
<!--
Copyright (c) 2015-2020, The Linux Foundation. All rights reserved.
Not a Contribution.
Copyright 2015 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
u may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<MediaCodecs>
<Encoders>
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="310-450" />
<Limit name="measured-frame-rate-720x480" range="277-287" />
<Limit name="measured-frame-rate-1280x720" range="88-90" />
<Limit name="measured-frame-rate-1920x1080" range="116-118" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="295-435" />
<Limit name="measured-frame-rate-720x480" range="336-339" />
<Limit name="measured-frame-rate-1280x720" range="183-194" />
<Limit name="measured-frame-rate-1920x1080" range="91-104" />
<Limit name="measured-frame-rate-3840x2160" range="37-40" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc.cq" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="340-400" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.h263sw" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="303-303" />
<Limit name="measured-frame-rate-352x288" range="259-259" />
<Limit name="measured-frame-rate-704x576" range="87-155" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="355-520" />
<Limit name="measured-frame-rate-640x360" range="236-302" />
<Limit name="measured-frame-rate-1280x720" range="123-125" />
<Limit name="measured-frame-rate-1920x1080" range="16-40" />
</MediaCodec>
<MediaCodec name="OMX.google.h264.encoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="215-215" />
<Limit name="measured-frame-rate-720x480" range="100-100" />
<Limit name="measured-frame-rate-1280x720" range="56-56" />
<Limit name="measured-frame-rate-1920x1080" range="30-30" />
</MediaCodec>
<MediaCodec name="OMX.google.h263.encoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="200-200" />
</MediaCodec>
<MediaCodec name="OMX.google.mpeg4.encoder" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="180-180" />
</MediaCodec>
<MediaCodec name="OMX.google.vp8.encoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="93-94" />
<Limit name="measured-frame-rate-640x360" range="32-32" />
<Limit name="measured-frame-rate-1280x720" range="17-24" />
<Limit name="measured-frame-rate-1920x1080" range="8-12" />
</MediaCodec>
<MediaCodec name="c2.android.avc.encoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="151-208" />
<Limit name="measured-frame-rate-720x480" range="61-84" />
<Limit name="measured-frame-rate-1280x720" range="41-57" />
<Limit name="measured-frame-rate-1920x1080" range="28-39" />
</MediaCodec>
<MediaCodec name="c2.android.h263.encoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="287-459" />
</MediaCodec>
<MediaCodec name="c2.android.mpeg4.encoder" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="251-350" />
</MediaCodec>
<MediaCodec name="c2.android.vp8.encoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="228-318" />
<Limit name="measured-frame-rate-640x360" range="150-233" />
<Limit name="measured-frame-rate-1280x720" range="43-61" />
<Limit name="measured-frame-rate-1920x1080" range="19-27" />
</MediaCodec>
<MediaCodec name="c2.android.vp9.encoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x180" range="109-109" />
<Limit name="measured-frame-rate-640x360" range="61-61" />
<Limit name="measured-frame-rate-1280x720" range="20-20" />
</MediaCodec>
<MediaCodec name="c2.android.hevc.encoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-320x240" range="22-35" />
<Limit name="measured-frame-rate-720x480" range="8-39" />
</MediaCodec>
</Encoders>
<Decoders>
<MediaCodec name="OMX.qcom.video.decoder.avc" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="960-1268" />
<Limit name="measured-frame-rate-720x480" range="857-1104" />
<Limit name="measured-frame-rate-1280x720" range="312-316" />
<Limit name="measured-frame-rate-1920x1088" range="246-250" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="756-1179" />
<Limit name="measured-frame-rate-720x480" range="1046-1157" />
<Limit name="measured-frame-rate-1280x720" range="318-319" />
<Limit name="measured-frame-rate-1920x1080" range="316-318" />
<Limit name="measured-frame-rate-3840x2160" range="148-149" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.h263sw" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="782-1581" />
<Limit name="measured-frame-rate-352x288" range="380-920" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.mpeg4sw" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="775-2064" />
<Limit name="measured-frame-rate-480x360" range="695-915" />
<Limit name="measured-frame-rate-1280x720" range="369-529" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x240" range="1111-1357" />
<Limit name="measured-frame-rate-640x360" range="571-883" />
<Limit name="measured-frame-rate-1280x720" range="337-337" />
<Limit name="measured-frame-rate-1920x1080" range="248-248" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x240" range="806-1245" />
<Limit name="measured-frame-rate-640x360" range="832-1285" />
<Limit name="measured-frame-rate-1280x720" range="485-600" />
<Limit name="measured-frame-rate-1920x1080" range="435-495" />
<Limit name="measured-frame-rate-3840x2160" range="83-98" />
</MediaCodec>
<MediaCodec name="OMX.google.h264.decoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="122-370" />
<Limit name="measured-frame-rate-720x480" range="68-68" />
<Limit name="measured-frame-rate-1280x720" range="32-32" />
<Limit name="measured-frame-rate-1920x1080" range="24-26" />
</MediaCodec>
<MediaCodec name="OMX.google.h263.decoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="104-279" />
<Limit name="measured-frame-rate-352x288" range="200-200" />
</MediaCodec>
<MediaCodec name="OMX.google.hevc.decoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="502-550" />
<Limit name="measured-frame-rate-640x360" range="267-271" />
<Limit name="measured-frame-rate-720x480" range="254-257" />
<Limit name="measured-frame-rate-1280x720" range="94-95" />
<Limit name="measured-frame-rate-1920x1080" range="47-49" />
</MediaCodec>
<MediaCodec name="OMX.google.mpeg4.decoder" update="true">
<Type name="video/mp4v-es">
<Limit name="measured-frame-rate-176x144" range="430-450" />
</Type>
</MediaCodec>
<MediaCodec name="OMX.google.vp8.decoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="1103-1170" />
<Limit name="measured-frame-rate-320x240" range="330-381" />
<Limit name="measured-frame-rate-640x360" range="487-490" />
<Limit name="measured-frame-rate-1280x720" range="22-38" />
<Limit name="measured-frame-rate-1920x1080" range="39-40" />
</MediaCodec>
<MediaCodec name="OMX.google.vp9.decoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x180" range="861-909" />
<Limit name="measured-frame-rate-320x240" range="200-230" />
<Limit name="measured-frame-rate-640x360" range="265-268" />
<Limit name="measured-frame-rate-1280x720" range="32-40" />
<Limit name="measured-frame-rate-1920x1080" range="19-23" />
</MediaCodec>
<MediaCodec name="c2.android.avc.decoder" type="video/avc" update="true">
<Limit name="measured-frame-rate-320x240" range="350-469" />
<Limit name="measured-frame-rate-720x480" range="326-436" />
<Limit name="measured-frame-rate-1280x720" range="21-155" />
<Limit name="measured-frame-rate-1920x1080" range="12-17" />
</MediaCodec>
<MediaCodec name="c2.android.hevc.decoder" type="video/hevc" update="true">
<Limit name="measured-frame-rate-352x288" range="355-960" />
<Limit name="measured-frame-rate-640x360" range="308-526" />
<Limit name="measured-frame-rate-720x480" range="370-455" />
<Limit name="measured-frame-rate-1280x720" range="105-210" />
<Limit name="measured-frame-rate-1920x1080" range="92-143" />
</MediaCodec>
<MediaCodec name="c2.android.mpeg4.decoder" type="video/mp4v-es" update="true">
<Limit name="measured-frame-rate-176x144" range="550-1200" />
</MediaCodec>
<MediaCodec name="c2.android.h263.decoder" type="video/3gpp" update="true">
<Limit name="measured-frame-rate-176x144" range="328-722" />
<Limit name="measured-frame-rate-352x288" range="653-1526" />
</MediaCodec>
<MediaCodec name="c2.android.vp9.decoder" type="video/x-vnd.on2.vp9" update="true">
<Limit name="measured-frame-rate-320x180" range="573-1136" />
<Limit name="measured-frame-rate-640x360" range="200-450" />
<Limit name="measured-frame-rate-1280x720" range="72-85" />
<Limit name="measured-frame-rate-1920x1080" range="19-31" />
</MediaCodec>
<MediaCodec name="c2.android.vp8.decoder" type="video/x-vnd.on2.vp8" update="true">
<Limit name="measured-frame-rate-320x180" range="601-1177" />
<Limit name="measured-frame-rate-640x360" range="460-560" />
<Limit name="measured-frame-rate-1280x720" range="107-145" />
<Limit name="measured-frame-rate-1920x1080" range="31-43" />
</MediaCodec>
</Decoders>
</MediaCodecs>

545
proprietary/vendor/etc/media_codecs_system_default.xml vendored Normal file
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<?xml version="1.0" encoding="utf-8"?>
<!-- Copyright (C) 2012-2020 The Linux Foundation. All rights reserved.
Not a contribution.
Copyright (C) 2012-2013 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<!--
<!DOCTYPE MediaCodecs [
<!ELEMENT Include EMPTY>
<!ATTLIST Include href CDATA #REQUIRED>
<!ELEMENT MediaCodecs (Decoders|Encoders|Include)*>
<!ELEMENT Decoders (MediaCodec|Include)*>
<!ELEMENT Encoders (MediaCodec|Include)*>
<!ELEMENT MediaCodec (Type|Quirk|Include)*>
<!ATTLIST MediaCodec name CDATA #REQUIRED>
<!ATTLIST MediaCodec type CDATA>
<!ELEMENT Type EMPTY>
<!ATTLIST Type name CDATA #REQUIRED>
<!ELEMENT Quirk EMPTY>
<!ATTLIST Quirk name CDATA #REQUIRED>
]>
There's a simple and a complex syntax to declare the availability of a
media codec:
A codec that properly follows the OpenMax spec and therefore doesn't have any
quirks and that only supports a single content type can be declared like so:
<MediaCodec name="OMX.foo.bar" type="something/interesting" />
If a codec has quirks OR supports multiple content types, the following syntax
can be used:
<MediaCodec name="OMX.foo.bar" >
<Type name="something/interesting" />
<Type name="something/else" />
...
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="output-buffers-are-unreadable" />
</MediaCodec>
Only the three quirks included above are recognized at this point:
"requires-allocate-on-input-ports"
must be advertised if the component does not properly support specification
of input buffers using the OMX_UseBuffer(...) API but instead requires
OMX_AllocateBuffer to be used.
"requires-allocate-on-output-ports"
must be advertised if the component does not properly support specification
of output buffers using the OMX_UseBuffer(...) API but instead requires
OMX_AllocateBuffer to be used.
"output-buffers-are-unreadable"
must be advertised if the emitted output buffers of a decoder component
are not readable, i.e. use a custom format even though abusing one of
the official OMX colorspace constants.
Clients of such decoders will not be able to access the decoded data,
naturally making the component much less useful. The only use for
a component with this quirk is to render the output to the screen.
Audio decoders MUST NOT advertise this quirk.
Video decoders that advertise this quirk must be accompanied by a
corresponding color space converter for thumbnail extraction,
matching surfaceflinger support that can render the custom format to
a texture and possibly other code, so just DON'T USE THIS QUIRK.
-->
<!--
"performance-point"
Vendor-guaranteed performance advertised to the applications
<Limit name="performance-point-widthxheight" value="fps" />
-For each of the resolutions, the advertised fps is the max supported,
with HW-friendly color format and considering video-only.
-Performance for any intermediate resolution will be that of the
next-higher-advertised-resolution.
standard sizes: 480p/576p (SD), 720p (HD), 1080p (FHD), 2160p (UHD)
standard frame rates: 24, 25, 30, 48+, 50, 60, 100*, 120*, 200*, 240* fps
* HD+ only
+ SD only
- All supported standard performance points are listed (unless they are
covered by another listed standard performance point)
- Non-standard performance points are listed along with all the standard
performance points covered by them.
-->
<!--
"block-count"
Used by following MediaCodecInfo apis:
getSupportedWidthsFor(height) and
getSupportedHeightsFor(width)
-->
<!--
Non-Secure decoder capabilities
(MB is defined as 16x16)
_____________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|_____________|_____________________________________________________|
| h264 | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| hevc | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| mpeg4-sw | 1920 1088 30 40 244800 244800 |
| | 1280 720 30 40 108000 |
| vp8 | 1280 720 120 220 432000 1036800 |
| | 1920 1088 120 220 979200 |
| | 3840 2160 30 220 972000 |
| | 4096 2160 30 220 1036800 |
| vp9 | 1920 1088 480 220 3916800 7776000 |
| | 3820 2160 240 220 7735500 |
| | 4096 2160 120 220 4147200 |
| | 7680 4320 60 220 7776000 |
| h263-sw | 864 480 30 16 48600 48600 |
| mpeg2 | 1020 1088 60i 40 130050 244800 |
| | 1920 1088 30 40 244800 |
|_____________|_____________________________________________________|
Secure decoder capabilities
(MB is defined as 16x16)
__________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|__________|_____________________________________________________|
| h264 | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| hevc | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| vp9 | 1280 720 60 40 216000 2073600 |
| | 1920 1088 60 40 489600 |
| | 3840 2160 60 40 1944000 |
| | 4096 2160 60 40 2073600 |
| | 4096 2304 30 40 1105920 |
| mpeg2 | 1920 1088 30 40 244800 244800 |
|__________|_____________________________________________________|
Non-Secure encoder capabilities (Secure not supported)
(MB is defined as 16x16)
__________________________________________________________________
| Codec | W H fps Mbps MB/s Max MB/s|
|__________|_____________________________________________________|
| h264 | 1280 720 960 220 3456000 3916800 |
| | 1920 1088 480 220 3916800 |
| | 3840 2160 120 220 3888000 |
| | 4096 2160 60 220 2073600 |
| | 8192 4320 24 220 3317760 |
| hevc | 1280 720 960 220 3456000 3916800 |
| | 1920 1088 480 220 3916800 |
| | 3840 2160 120 220 3888000 |
| | 4096 2160 60 220 2073600 |
| | 8192 4320 24 220 3317760 |
| hevc.cq | 512 512 3825 220 3916800 3916800 |
| mpeg4-sw | 1280 720 30 4 108000 108000 |
| vp8 | 1280 720 60 70 216000 2073600 |
| | 1920 1088 60 70 489600 |
| | 3840 2160 60 70 1944000 |
| | 4096 2160 60 70 2073600 |
| h263-sw | 864 480 30 2 48600 48600 |
|__________|_____________________________________________________|
-->
<MediaCodecs>
<Include href="media_codecs_google_audio.xml" />
<Include href="media_codecs_vendor_audio.xml" />
<Include href="media_codecs_google_telephony.xml" />
<Settings>
<Setting name="max-video-encoder-input-buffers" value="11" />
</Settings>
<Encoders>
<!-- Video Hardware -->
<MediaCodec name="OMX.qcom.video.encoder.avc" type="video/avc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-70000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2160" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="3916800" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Feature name="bitrate-modes" value="VBR,CBR" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-1920x1080" value="240" />
<Limit name="performance-point-3840x2160" value="120" />
<Limit name="performance-point-7680x4320" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.hevc.cq" type="video/hevc" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="128x128" max="512x512" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="16" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-512x512" value="3825" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.encoder.heic" type="image/vnd.android.heic" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="512x512" max="16384x16384" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="frame-rate" range="1-20" />
<Limit name="concurrent-instances" max="6" />
<Limit name="quality" range="0-100" default="80" />
<Feature name="bitrate-modes" value="CQ" />
<Limit name="performance-point-16384x8192" value="3" />
<Limit name="performance-point-1920x1080" value="6" />
</MediaCodec>
<!-- Video Software -->
<MediaCodec name="OMX.qcom.video.encoder.h263sw" type="video/3gpp" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Quirk name="requires-loaded-to-idle-after-allocation" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="4x4" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-2000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-864x480" value="30" />
</MediaCodec>
</Encoders>
<Decoders>
<!-- Video Hardware -->
<MediaCodec name="OMX.qcom.video.decoder.avc" rank="101">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Type name="video/avc">
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
<Feature name="adaptive-playback" />
</Type>
<Type name="video/dolby-vision">
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-220000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
<Feature name="adaptive-playback" />
</Type>
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.avc.secure" rank="101">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Type name="video/avc">
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
</Type>
<Type name="video/dolby-vision">
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="1" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
</Type>
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.mpeg2.secure" type="video/mpeg2" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-8160" />
<Limit name="blocks-per-second" min="64" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp8" type="video/x-vnd.on2.vp8" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="1036800" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-120" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1920x1080" value="120" />
<Limit name="performance-point-3840x2160" value="30" />
<Limit name="performance-point-4096x2160" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-100000000" />
<Limit name="frame-rate" range="1-960" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="6" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.vp9.secure" type="video/x-vnd.on2.vp9" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc" rank="100">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Type name="video/hevc">
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
<Feature name="adaptive-playback" />
</Type>
<Type name="video/dolby-vision">
<Limit name="size" min="128x128" max="8192x8192" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-138240" />
<Limit name="blocks-per-second" min="64" max="7776000" />
<Limit name="bitrate" range="1-160000000" />
<Limit name="frame-rate" range="1-960" />
<Limit name="concurrent-instances" max="16" />
<Limit name="performance-point-1280x720" value="960" />
<Limit name="performance-point-1920x1080" value="480" />
<Limit name="performance-point-3840x2160" value="240" />
<Limit name="performance-point-4096x2160" value="120" />
<Limit name="performance-point-7680x4320" value="60" />
<Limit name="performance-point-8192x4320" value="48" />
<Feature name="adaptive-playback" />
</Type>
</MediaCodec>
<MediaCodec name="OMX.qcom.video.decoder.hevc.secure" rank="100">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Type name="video/hevc">
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="3" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
</Type>
<Type name="video/dolby-vision">
<Limit name="size" min="128x128" max="4096x4096" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="64-34560" />
<Limit name="blocks-per-second" min="64" max="2073600" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-60" />
<Limit name="concurrent-instances" max="1" />
<Limit name="performance-point-3840x2160" value="60" />
<Limit name="performance-point-4096x2304" value="60" />
<Feature name="adaptive-playback" />
<Feature name="secure-playback" required="true" />
</Type>
</MediaCodec>
<!-- Video Software -->
<MediaCodec name="OMX.qti.video.decoder.h263sw" type="video/3gpp" >
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="96x96" max="864x864" />
<Limit name="alignment" value="4x4" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-1620" />
<Limit name="blocks-per-second" min="36" max="48600" />
<Limit name="bitrate" range="1-16000000" />
<Limit name="frame-rate" range="1-30" />
<Feature name="adaptive-playback" />
<Limit name="concurrent-instances" max="4" />
<Limit name="performance-point-720x480" value="30" />
<Limit name="performance-point-720x576" value="25" />
<Limit name="performance-point-864x480" value="30" />
</MediaCodec>
<MediaCodec name="OMX.qti.video.decoder.mpeg4sw" type="video/mp4v-es">
<Quirk name="requires-allocate-on-input-ports" />
<Quirk name="requires-allocate-on-output-ports" />
<Limit name="size" min="96x96" max="1920x1920" />
<Limit name="alignment" value="2x2" />
<Limit name="block-size" value="16x16" />
<Limit name="block-count" range="36-8160" />
<Limit name="blocks-per-second" min="36" max="244800" />
<Limit name="bitrate" range="1-40000000" />
<Limit name="frame-rate" range="1-30" />
<Limit name="concurrent-instances" max="4" />
<Limit name="performance-point-1920x1080" value="30" />
</MediaCodec>
</Decoders>
<Include href="media_codecs_google_video.xml" />
</MediaCodecs>

23
proprietary/vendor/etc/media_codecs_vendor_audio.xml vendored Normal file
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<?xml version="1.0" encoding="utf-8" ?>
<!-- Copyright (C) 2015-2020 The Linux Foundation. All rights reserved.
Not a contribution.
Copyright (C) 2012 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<Included>
<Decoders>
<MediaCodec name="OMX.google.opus.decoder" type="audio/opus" update="true" rank="100"/>
<!-- SimpleOMXComponet based software decoder-->
</Decoders>
</Included>

867
proprietary/vendor/etc/media_profiles.xml vendored Normal file
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<?xml version="1.0" encoding="utf-8"?>
<!-- Copyright 2013 The Android Open Source Project
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
-->
<!DOCTYPE MediaSettings [
<!ELEMENT MediaSettings (CamcorderProfiles,
EncoderOutputFileFormat+,
VideoEncoderCap+,
AudioEncoderCap+,
VideoDecoderCap,
AudioDecoderCap)>
<!ELEMENT CamcorderProfiles (EncoderProfile+, ImageEncoding+, ImageDecoding, Camera)>
<!ELEMENT EncoderProfile (Video, Audio)>
<!ATTLIST EncoderProfile quality (high|low) #REQUIRED>
<!ATTLIST EncoderProfile fileFormat (mp4|3gp) #REQUIRED>
<!ATTLIST EncoderProfile duration (30|60) #REQUIRED>
<!ATTLIST EncoderProfile cameraId (0|1|2|3|4|5) #REQUIRED>
<!ELEMENT Video EMPTY>
<!ATTLIST Video codec (h264|h263|m4v) #REQUIRED>
<!ATTLIST Video bitRate CDATA #REQUIRED>
<!ATTLIST Video width CDATA #REQUIRED>
<!ATTLIST Video height CDATA #REQUIRED>
<!ATTLIST Video frameRate CDATA #REQUIRED>
<!ELEMENT Audio EMPTY>
<!ATTLIST Audio codec (amrnb|amrwb|aac) #REQUIRED>
<!ATTLIST Audio bitRate CDATA #REQUIRED>
<!ATTLIST Audio sampleRate CDATA #REQUIRED>
<!ATTLIST Audio channels (1|2) #REQUIRED>
<!ELEMENT ImageEncoding EMPTY>
<!ATTLIST ImageEncoding quality (90|80|70|60|50|40) #REQUIRED>
<!ELEMENT ImageDecoding EMPTY>
<!ATTLIST ImageDecoding memCap CDATA #REQUIRED>
<!ELEMENT Camera EMPTY>
<!ELEMENT EncoderOutputFileFormat EMPTY>
<!ATTLIST EncoderOutputFileFormat name (mp4|3gp) #REQUIRED>
<!ELEMENT VideoEncoderCap EMPTY>
<!ATTLIST VideoEncoderCap name (h264|h263|m4v|wmv) #REQUIRED>
<!ATTLIST VideoEncoderCap enabled (true|false) #REQUIRED>
<!ATTLIST VideoEncoderCap minBitRate CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap maxBitRate CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap minFrameWidth CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap maxFrameWidth CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap minFrameHeight CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap maxFrameHeight CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap minFrameRate CDATA #REQUIRED>
<!ATTLIST VideoEncoderCap maxFrameRate CDATA #REQUIRED>
<!ELEMENT AudioEncoderCap EMPTY>
<!ATTLIST AudioEncoderCap name (amrnb|amrwb|aac|wma) #REQUIRED>
<!ATTLIST AudioEncoderCap enabled (true|false) #REQUIRED>
<!ATTLIST AudioEncoderCap minBitRate CDATA #REQUIRED>
<!ATTLIST AudioEncoderCap maxBitRate CDATA #REQUIRED>
<!ATTLIST AudioEncoderCap minSampleRate CDATA #REQUIRED>
<!ATTLIST AudioEncoderCap maxSampleRate CDATA #REQUIRED>
<!ATTLIST AudioEncoderCap minChannels (1|2) #REQUIRED>
<!ATTLIST AudioEncoderCap maxChannels (1|2) #REQUIRED>
<!ELEMENT VideoDecoderCap EMPTY>
<!ATTLIST VideoDecoderCap name (wmv) #REQUIRED>
<!ATTLIST VideoDecoderCap enabled (true|false) #REQUIRED>
<!ELEMENT AudioDecoderCap EMPTY>
<!ATTLIST AudioDecoderCap name (wma) #REQUIRED>
<!ATTLIST AudioDecoderCap enabled (true|false) #REQUIRED>
]>
<!--
This file is used to declare the multimedia profiles and capabilities
on an android-powered device.
-->
<MediaSettings>
<!-- Each camcorder profile defines a set of predefined configuration parameters -->
<CamcorderProfiles cameraId="0">
<EncoderProfile quality="qvga" fileFormat="3gp" duration="60">
<Video codec="h264"
bitRate="128000"
width="320"
height="240"
frameRate="30" />
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="cif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="1080p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="17000000"
width="1920"
height="1080"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapseqcif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="192000"
width="176"
height="144"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapsecif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse1080p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="17000000"
width="1920"
height="1080"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<ImageEncoding quality="95" />
<ImageEncoding quality="80" />
<ImageEncoding quality="70" />
<ImageDecoding memCap="20000000" />
</CamcorderProfiles>
<CamcorderProfiles cameraId="1">
<EncoderProfile quality="qvga" fileFormat="3gp" duration="60">
<Video codec="h264"
bitRate="128000"
width="320"
height="240"
frameRate="30" />
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="cif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapseqcif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="192000"
width="176"
height="144"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapsecif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<ImageEncoding quality="95" />
<ImageEncoding quality="80" />
<ImageEncoding quality="70" />
<ImageDecoding memCap="20000000" />
</CamcorderProfiles>
<CamcorderProfiles cameraId="2">
<EncoderProfile quality="qvga" fileFormat="3gp" duration="60">
<Video codec="h264"
bitRate="128000"
width="320"
height="240"
frameRate="30" />
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="cif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="1080p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="17000000"
width="1920"
height="1080"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapseqcif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="192000"
width="176"
height="144"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapsecif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse1080p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="17000000"
width="1920"
height="1080"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<ImageEncoding quality="95" />
<ImageEncoding quality="80" />
<ImageEncoding quality="70" />
<ImageDecoding memCap="20000000" />
</CamcorderProfiles>
<CamcorderProfiles cameraId="3">
<EncoderProfile quality="qvga" fileFormat="3gp" duration="60">
<Video codec="h264"
bitRate="128000"
width="320"
height="240"
frameRate="30" />
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="cif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapseqcif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="192000"
width="176"
height="144"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapsecif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<ImageEncoding quality="95" />
<ImageEncoding quality="80" />
<ImageEncoding quality="70" />
<ImageDecoding memCap="20000000" />
</CamcorderProfiles>
<CamcorderProfiles cameraId="4">
<EncoderProfile quality="qvga" fileFormat="3gp" duration="60">
<Video codec="h264"
bitRate="128000"
width="320"
height="240"
frameRate="30" />
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="cif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="1080p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="17000000"
width="1920"
height="1080"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapseqcif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="192000"
width="176"
height="144"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapsecif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse1080p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="17000000"
width="1920"
height="1080"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<ImageEncoding quality="95" />
<ImageEncoding quality="80" />
<ImageEncoding quality="70" />
<ImageDecoding memCap="20000000" />
</CamcorderProfiles>
<CamcorderProfiles cameraId="5">
<EncoderProfile quality="qvga" fileFormat="3gp" duration="60">
<Video codec="h264"
bitRate="128000"
width="320"
height="240"
frameRate="30" />
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="cif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapseqcif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="192000"
width="176"
height="144"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="amrnb"
bitRate="12200"
sampleRate="8000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapsecif" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="1200000"
width="352"
height="288"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse480p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="6000000"
width="720"
height="480"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<EncoderProfile quality="timelapse720p" fileFormat="mp4" duration="30">
<Video codec="h264"
bitRate="12000000"
width="1280"
height="720"
frameRate="30" />
<!-- audio setting is ignored -->
<Audio codec="aac"
bitRate="96000"
sampleRate="48000"
channels="1" />
</EncoderProfile>
<ImageEncoding quality="95" />
<ImageEncoding quality="80" />
<ImageEncoding quality="70" />
<ImageDecoding memCap="20000000" />
</CamcorderProfiles>
<EncoderOutputFileFormat name="3gp" />
<EncoderOutputFileFormat name="mp4" />
<!--
If a codec is not enabled, it is invisible to the applications
In other words, the applications won't be able to use the codec
or query the capabilities of the codec at all if it is disabled
-->
<VideoEncoderCap name="h264" enabled="true"
minBitRate="64000" maxBitRate="40000000"
minFrameWidth="176" maxFrameWidth="1920"
minFrameHeight="144" maxFrameHeight="1080"
minFrameRate="15" maxFrameRate="30" />
<VideoEncoderCap name="h263" enabled="true"
minBitRate="64000" maxBitRate="2000000"
minFrameWidth="176" maxFrameWidth="800"
minFrameHeight="144" maxFrameHeight="480"
minFrameRate="15" maxFrameRate="30" />
<VideoEncoderCap name="m4v" enabled="true"
minBitRate="64000" maxBitRate="40000000"
minFrameWidth="176" maxFrameWidth="1920"
minFrameHeight="144" maxFrameHeight="1080"
minFrameRate="15" maxFrameRate="30" />
<AudioEncoderCap name="aac" enabled="true"
minBitRate="758" maxBitRate="288000"
minSampleRate="8000" maxSampleRate="48000"
minChannels="1" maxChannels="2" />
<AudioEncoderCap name="heaac" enabled="true"
minBitRate="8000" maxBitRate="64000"
minSampleRate="16000" maxSampleRate="48000"
minChannels="1" maxChannels="2" />
<AudioEncoderCap name="aaceld" enabled="true"
minBitRate="16000" maxBitRate="192000"
minSampleRate="16000" maxSampleRate="48000"
minChannels="1" maxChannels="2" />
<AudioEncoderCap name="amrwb" enabled="true"
minBitRate="6600" maxBitRate="23050"
minSampleRate="16000" maxSampleRate="16000"
minChannels="1" maxChannels="1" />
<AudioEncoderCap name="amrnb" enabled="true"
minBitRate="5525" maxBitRate="12200"
minSampleRate="8000" maxSampleRate="8000"
minChannels="1" maxChannels="1" />
<!--
FIXME:
We do not check decoder capabilities at present
At present, we only check whether windows media is visible
for TEST applications. For other applications, we do
not perform any checks at all.
-->
<VideoDecoderCap name="wmv" enabled="false"/>
<AudioDecoderCap name="wma" enabled="false"/>
</MediaSettings>

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proprietary/vendor/etc/media_profiles_kona.xml vendored Normal file
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1954
proprietary/vendor/etc/media_profiles_vendor.xml vendored Normal file
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9
proprietary/vendor/etc/msm_irqbalance.conf vendored Normal file
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@@ -0,0 +1,9 @@
################################################################################################################################
# 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=27,23,38

179
proprietary/vendor/etc/sap.conf vendored Normal file
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################################
# Sensor Settings
################################
#The following parameters are optional.
#Internal defaults support MEMS sensors
#native to most handset devices.
#Device specific sensor characterization
#for improved performance is possible as
#described in SAP application notes.
#GYRO_BIAS_RANDOM_WALK=
#ACCEL_RANDOM_WALK_SPECTRAL_DENSITY=
#ANGLE_RANDOM_WALK_SPECTRAL_DENSITY=
#RATE_RANDOM_WALK_SPECTRAL_DENSITY=
#VELOCITY_RANDOM_WALK_SPECTRAL_DENSITY=
# DEBUG LEVELS: 0 - none, 1 - Error, 2 - Warning, 3 - Info
# 4 - Debug, 5 - Verbose
# If DEBUG_LEVEL is commented, Android's logging levels will be used
DEBUG_LEVEL = 0
# Sensor Sampling Rate Parameters for Low-Data Rate Filter (should be greater than 0)
# used in loc_eng_reinit
SENSOR_ACCEL_BATCHES_PER_SEC=2
SENSOR_ACCEL_SAMPLES_PER_BATCH=5
SENSOR_GYRO_BATCHES_PER_SEC=2
SENSOR_GYRO_SAMPLES_PER_BATCH=5
# Sensor Sampling Rate Parameters for High-Data Rate Filter (should be greater than 0)
SENSOR_ACCEL_BATCHES_PER_SEC_HIGH=4
SENSOR_ACCEL_SAMPLES_PER_BATCH_HIGH=25
SENSOR_GYRO_BATCHES_PER_SEC_HIGH=4
SENSOR_GYRO_SAMPLES_PER_BATCH_HIGH=25
# Sensor Control Mode (0=AUTO, 1=FORCE_ON, 2=MODEM_DEFAULT)
# used in loc_eng_reinit
SENSOR_CONTROL_MODE=2
# Bit mask used to define which sensor algorithms are used.
# Setting each bit has the following definition:
# 0x1 - DISABLE_INS_POSITIONING_FILTER
# 0x0 - ENABLE_INS_POSITIONING_FILTER
SENSOR_ALGORITHM_CONFIG_MASK=0x0
#Vehicle Network Provider configuration
#Service configuration strings
#The number before colon in VN_X items defines version of the format of the rest of the string
#VN_ACCEL_CFG=0:5
#VN_GYRO_CFG=0:5.5
#VN_ODOMETRY_CFG=0:2,4.5
################################################
# QDR3 configurations #
################################################
#VN_SPEED_CFG=1:131,5,8,1,2,3,1,1,9,2,14,2
#VN_GEAR_CFG=1:422,20,4,0,4,1,9,0,1,2,3,4,5,6,7,8
VN_SPEED_CFG=1:777,0,0,1,3,1,0.002778,0,40,8,32,8
VN_GEAR_CFG=1:422,20,4,0,4,1,9,0,1,2,3,4,5,6,7,8
################################################
# QDR2-Gyro configurations #
################################################
#VN_GYRO_CFG=1:555,0,1,0,0,0,0,-6.5,6.6066,-6.5,-1.00,2,6.607,6.6068,0,0,16,0.0002,0,16,0.0002,0,16,0.0002
#VN_SPEED_CFG=1:555,0,0,1,2,1,0.01,0,56,8,48,8
#VN_GEAR_CFG=1:555,16,4,0,1,1,9,0,1,2,3,4,5,6,7,8
################################################
# QDR2-DWT configurations #
################################################
#VN_SPEED_CFG=1:555,22,1,2,1,1,1,0,8,8,23,1,2,0,1,0,8,8,23,1
#VN_GEAR_CFG=1:555,12,4,16,14,16,8,1,2,3,4,5,6,7,8
#VN_DWS_CFG=1:555,0,0,1,3,1,1,0,0,8,0,0,8,8,0,0,16,8,0,0,24,8,0,0
#VN_GYRO_CFG=1:555,40,16,1.0,40,16,1.0,40,16,1.0
#####################################################################################
# VNW service batching configuration strings #
# VNW provider will initialize default type as Time based batching #
# Each service batch value is configured to be 100 #
# VN_ACCEL_CFG_BATCH_VALUE will be treated as time in Ms if VN_CFG_BATCH_TYPE #
# is set to time based batching #
# VN_ACCEL_CFG_BATCH_VALUE will be treated as sample count if VN_CFG_BATCH_TYPE #
# is set to count based batching #
# Uncomment and update batch time /sample count as per selected batching type #
#####################################################################################
# Batching type
# 1 - Time based (default)
# 2 - Count based
VN_CFG_BATCH_TYPE=1
#Vehicle Accel batching value, it can either accept time in milli seconds or sample count
#VN_ACCEL_CFG_BATCH_VALUE=100
#Vehicle Gyro batching value, it can either accept time in milli seconds or sample count
VN_GYRO_CFG_BATCH_VALUE=50
#Vehicle Odo batching value, it can either accept time in milli seconds or sample count
#VN_ODOMETRY_CFG_BATCH_VALUE=100
#Vehicle Speed batching value, it can either accept time in milli seconds or sample count
VN_SPEED_CFG_BATCH_VALUE=50
#Vehicle Gear batching value, it can either accept time in milli seconds or sample count
VN_GEAR_CFG_BATCH_VALUE=50
#Vehicle DWS batching value, it can either accept time in milli seconds or sample count
#VN_DWS_CFG_BATCH_VALUE=100
####################################################################################
#Procesors clock ratio: AP and CAN bus microcontroller
################################################
# QDR3 configurations #
################################################
VN_PROC_CLOCK_RATIO=1.0
################################################
# QDR2-DWT OR QDR2-Gyro configurations #
################################################
#VN_PROC_CLOCK_RATIO = 1.0
# Time source used by Sensor HAL
# Setting this value controls accuracy of location sensor services.
# 0 - Unknown
# 1 - CLOCK_BOOTTIME
# 2 - CLOCK_MONOTONIC
# 3 - CLOCK_REALTIME
# 4 - CLOCK_BOOTTIME using Alarm timer interface
NDK_PROVIDER_TIME_SOURCE=1
# Sensor Batching Configuration
# 0 - Time based
# 1 - Fixed count based
# 2 - Variable count based
COUNT_BASED_BATCHING=1
SYNC_ONCE=0
# Vehicle Network Data optimization
# Default value: 0
# Value 0x40000 - Speed(bit 18 eSLIM_SERVICE_VEHICLE_SPEED)
# Value 0x80000 - Speed(bit 19 eSLIM_SERVICE_VEHICLE_DWS)
# Value 0x100000 - Speed(bit 20 eSLIM_SERVICE_VEHICLE_GEAR)
VN_ENABLE_DATA_OPTIMIZATION=0x100000
# Vehicle Network Data Routing time interval
# This is applicable only if VN_ENABLE_DATA_OPTIMIZATION value is set
# Default value: 5000 msec
VN_DATA_ROUTING_TIME_INTERVAL_MSEC=3000
#Sensor HAL Provider Configuration HAL Library name including path
################################################
# #
# Configuration for BMI 160 Sensor #
# #
################################################
#SENSOR_TYPE=2
#SENSOR_HAL_LIB_PATH=/usr/lib/libbmi160sensors.so.1
################################################
# #
# Configuration for ASM330 Sensor #
# #
################################################
SENSOR_TYPE=1
SENSOR_HAL_LIB_PATH=/usr/lib/libasm330sensors.so.1
################################################
# #
# Configuration for IAM20680 Sensor #
# #
################################################
#SENSOR_TYPE=3
#SENSOR_HAL_LIB_PATH=/usr/lib/libiam20680sensors.so.1
################################################
# #
# Configuration for SMI130 Sensor #
# #
################################################
#SENSOR_TYPE=4
#SENSOR_HAL_LIB_PATH=/usr/lib/libsmi130sensors.so.1

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/* IPC Security Config */
/* <GPS QMI Service ID - 16>:<GPS QMI Instance ID - all instances>:<Client Group ID> */
16:4294967295:1000:1021:1026
/* <QDMA QMI Service ID - 75>:<QDMA QMI Instance ID - all instances>:<Client Group ID> */
75:4294967295:1000:1001:3006
/* <LOWI QMI Service ID - 38>:<LOWI QMI Instance ID - all instances>:<Client Group ID> */
56:4294967295:1021
/* Allow SS CTL service to be used by system and net_raw processes */
43:4294967295:1000:3004
/* <UIMHTTP QMI Service ID - 16>:<UIMHTTP QMI Instance ID - all instances>:<Client Group ID> */
71:4294967295:1001
/* <UIMRMT QMI Service ID - 16>:<UIMRMT QMI Instance ID - all instances>:<Client Group ID> */
50:4294967295:1001
/* QMI-SLIM service permitted to gps and net_raw */
55:4294967295:1021
/* Allow Sensor services to be used by sensor process */
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508:4294967295:1000:1006:1013:1021:1047:3011
509:4294967295:1000:1006:1013:1021:1047:3011
510:4294967295:1000:1006:1013:1021:1047:3011
511:4294967295:1000:1006:1013:1021:1047:3011
/* Allow RCS service to aquire net_raw permission */
18:4294967295:1001:3004
/* Allow RCS service to communicate to IMS QMI Priv Svc*/
77:4294967295:1001:3003
/* Allow RCS service to access QMI-IMSS service */
18:4294967295:1001:3003
/* Allow SSGQMIGD to communicate to SSGCCS service*/
76:4294967295:1001
/* Allow cnd to accquire netbind */
18:4294967295:1000:3003
/* Allow QMID service to aquire net_raw permission */
3:4294967295:1001:1021:3004
2:4294967295:1000:1001:3004
42:4294967295:1001:3004
18:4294967295:1001:3004
9:4294967295:1001:3004
1:4294967295:1001:3004:1000
4:4294967295:1001:3004
7:4294967295:1001:3004
8:4294967295:1001:3004:1000
68:4294967295:1001:3004
/* DPM */
47:4294967295:1001:3004
/* Allow communication to some QMI services with radio privilages */
/* Format is <Service id>:<all instances>:<radio> */
/* PBM */
12:4294967295:1001
/* WMS */
5:4294967295:1001
/* IMS VT */
32:4294967295:1001
/* IMSP */
31:4294967295:1001
/* PDC */
36:4294967295:1001
/* SAR */
17:4294967295:1001
/* RFRPE */
41:4294967295:1001
/*UIM*/
11:4294967295:1001
/*CAT*/
10:4294967295:1001
/*IMSA*/
33:4294967295:1001
/* CSVT */
29:4294967295:1001
/*SERVREG_NOTIF*/
64:4294967295:1001
66:4294967295:1001
73:4294967295:1001
/*LTE*/
70:4294967295:1001
/* Allow Data dpmd to access QMI DFS */
48:4294967295:1000:3004
/* DIAG */
4097:4294967295:2002:2950:3009:2901
/* <WLFW QMI Service ID - 0x45>:<WLFW QMI Instance ID - all instances>:<Client Group ID> */
69:4294967295:1000
/* <WLPS QMI Service ID - 0x39>:<WLFW QMI Instance ID - all instances>:<Client Group ID> */
57:4294967295:1000

67
proprietary/vendor/etc/seccomp_policy/atfwd@2.0.policy vendored Normal file
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@@ -0,0 +1,67 @@
# Copyright (c) 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc
#
# Not a contribution.
#
# Copyright (C) 2018 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
mmap: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
munmap: 1
getuid: 1
writev: 1
prctl: arg0 == PR_SET_VMA || arg0 == PR_GET_DUMPABLE
mprotect: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
openat: 1
futex: 1
close: 1
read: 1
newfstatat: 1
fstat: 1
#ioctl: arg1 == BINDER_WRITE_READ || arg1 == BINDER_SET_MAX_THREADS || arg1 == BINDER_VERSION
ioctl: 1
mremap: 1
readlinkat: 1
pread64: 1
fstatfs: 1
rt_sigprocmask: 1
faccessat: 1
sendto: 1
rt_sigaction: 1
socket: arg0 == AF_UNIX || arg0 == AF_QIPCRTR
recvfrom: 1
getsockname: 1
getdents64: 1
fcntl: 1
nanosleep: 1
getrandom: 1
clone: 1
pipe2: 1
exit_group: 1
write: 1
exit: 1
getpid: 1
sigaltstack: 1
getrlimit: 1
restart_syscall: 1
setsockopt: 1
sched_getscheduler: 1
rt_sigreturn: 1
execve: 1
madvise: 1
set_tid_address: 1
connect: 1
ppoll: 1
clock_gettime: 1

95
proprietary/vendor/etc/seccomp_policy/imsrtp.policy vendored Normal file
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@@ -0,0 +1,95 @@
#Copyright (c) 2020 Qualcomm Technologies, Inc.
#All Rights Reserved.
#Confidential and Proprietary - Qualcomm Technologies, Inc
#Not a contribution.
#Copyright (C) 2018 The Android Open Source Project
#"Licensed under the Apache License, Version 2.0 (the \"License\");"
#you may not use this file except in compliance with the License.
#You may obtain a copy of the License at
#http://www.apache.org/licenses/LICENSE-2.0
#Unless required by applicable law or agreed to in writing, software
#"distributed under the License is distributed on an \"AS IS\" BASIS,"
#WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#See the License for the specific language governing permissions and
#limitations under the License.
mmap: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
munmap: 1
mprotect: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
#prctl: arg0 == PR_SET_VMA || arg0 == PR_SET_NO_NEW_PRIVS || arg0 == PR_GET_DUMPABLE || arg0 == PR_SET_SECCOMP || arg0 == 0x37 /* PR_??? */
prctl: 1
read: 1
openat: 1
close: 1
shutdown: 1
kill: 1
futex: 1
fstat: 1
gettimeofday: 1
readlinkat: 1
newfstatat: 1
mremap: 1
pread64: 1
fstatfs: 1
rt_sigaction: 1
faccessat: 1
socket: arg0 == AF_UNIX || arg0 == AF_QIPCRTR
writev: 1
connect: 1
rt_sigprocmask: 1
fcntl: 1
sendto: 1
getrandom: 1
lseek: 1
exit_group: 1
rt_tgsigqueueinfo: 1
write: 1
exit: 1
getpid: 1
sigaltstack: 1
recvmsg: 1
dup: 1
getrlimit: 1
restart_syscall: 1
clone: 1
gettid: 1
sched_getscheduler: 1
ioctl: 1
execve: 1
getuid: 1
madvise: 1
set_tid_address: 1
nanosleep: 1
rt_sigreturn: 1
rt_sigsuspend: 1
setpriority: 1
geteuid: 1
getgid: 1
getegid: 1
getgroups: 1
pipe2: 1
setitimer: 1
pselect6: 1
getsockname: 1
recvfrom: 1
ppoll: 1
socketpair: 1
setsockopt: 1
getsockopt: 1
sendmsg: 1
bind: 1
timer_create: 1
timer_settime: 1
timer_delete: 1
clock_gettime: 1
sched_getaffinity: 1
#crash dump policy addition
socket: 1
process_vm_readv: 1
tgkill: 1
sigreturn: 1

21
proprietary/vendor/etc/seccomp_policy/mediacodec.policy vendored Normal file
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@@ -0,0 +1,21 @@
# device specific syscalls
# extension of services/mediacodec/minijail/seccomp_policy/mediacodec-seccomp-arm.policy
pselect6: 1
eventfd2: 1
sendto: 1
recvfrom: 1
_llseek: 1
sysinfo: 1
getcwd: 1
getdents64: 1
ARM_cacheflush: 1
inotify_init1: 1
inotify_add_watch: 1
inotify_rm_watch: 1
uname: 1
ueventd: 1
timer_create: 1
timer_settime: 1
rt_sigtimedwait: 1
readlink: 1
open: 1

64
proprietary/vendor/etc/seccomp_policy/vendor.qti.hardware.dsp.policy vendored Normal file
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@@ -0,0 +1,64 @@
# Copyright (c) 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc
#
# Not a contribution.
#
# Copyright (C) 2018 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
mmap: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
munmap: 1
#prctl: arg0 == PR_SET_VMA || arg0 == PR_GET_DUMPABLE || arg0 == 0x37
mprotect: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
futex: 1
read: 1
openat: 1
close: 1
fstat: 1
readlinkat: 1
newfstatat: 1
mremap: 1
clock_gettime: 1
pread64: 1
fstatfs: 1
rt_sigaction: 1
faccessat: 1
rt_sigprocmask: 1
#ioctl: arg1 == TCGETS || arg1 == BINDER_WRITE_READ || arg1 == BINDER_SET_MAX_THREADS || arg1 == BINDER_VERSION
ioctl: 1
getrandom: 1
fcntl: 1
getuid: 1
lseek: 1
exit_group: 1
sched_getaffinity: 1
writev: 1
exit: 1
getpid: 1
sigaltstack: 1
getrlimit: 1
restart_syscall: 1
clone: 1
sched_getscheduler: 1
execve: 1
socket: arg0 == AF_UNIX
set_tid_address: 1
rt_sigreturn: 1
connect: 1
gettid: 1
setpriority: 1
prctl: 1
write: 1
madvise: 1

94
proprietary/vendor/etc/seccomp_policy/wifidisplayhalservice.policy vendored Normal file
View File

@@ -0,0 +1,94 @@
# Copyright (c) 2020 Qualcomm Technologies, Inc.
# All Rights Reserved.
# Confidential and Proprietary - Qualcomm Technologies, Inc
#
# Not a contribution.
#
# Copyright (C) 2019 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#ioctl: arg1 == BINDER_WRITE_READ || arg1 == BINDER_VERSION || arg1 == VIDIOC_QBUF || arg1 == BINDER_SET_MAX_THREADS
ioctl: 1
futex: 1
mmap2: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
clock_gettime: 1
dup: 1
munmap: 1
mprotect: arg2 in ~PROT_EXEC || arg2 in ~PROT_WRITE
#prctl: arg0 == PR_GET_DUMPABLE || arg0 == PR_SET_VMA
prctl: 1
openat: 1
close: 1
fstat64: 1
read: 1
write: 1
readlinkat: 1
unlinkat: 1
mremap: 1
pread64: 1
fstatfs64: 1
fstatat64: 1
getuid32: 1
writev: 1
faccessat: 1
rt_sigaction: 1
sendto: 1
_llseek: 1
madvise: 1
rt_sigprocmask: 1
fcntl64: 1
#set_tls: 1
personality: 1
getrandom: 1
ugetrlimit: 1
rt_sigreturn: 1
set_tid_address: 1
open: 1
exit: 1
sched_getscheduler: 1
connect: 1
execve: 1
getpid: 1
exit_group: 1
socket: arg0 == AF_UNIX
clone: 1
restart_syscall: 1
sigaltstack: 1
setpriority: 1
setsockopt: 1
getsockopt: 1
bind: 1
listen: 1
socketpair: 1
getpriority: 1
pselect6: 1
accept4: 1
sendmsg: 1
sendmmsg: 1
recvmsg: 1
recvfrom: 1
gettimeofday: 1
lseek: 1
getsockname: 1
nanosleep: 1
ppoll: 1
timer_create: 1
timer_delete: 1
timer_settime: 1
rt_sigtimedwait: 1
eventfd2: 1
tgkill: 1
gettid: 1
sched_yield: 1
flock: 1

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