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bring up 64bits

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therootlord
2017-11-23 13:22:17 -02:00
commit cf375afa0c
1189 changed files with 8260 additions and 0 deletions
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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
-----BEGIN CERTIFICATE-----
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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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-----END CERTIFICATE-----
VeriSign Class 1 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----
VeriSign Class 2 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----
VeriSign Class 3 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----
VeriSign Class 4 Public Primary Certification Authority - G3
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----
VeriSign Class 3 Public Primary Certification Authority - G4
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----
VeriSign Class 3 Public Primary Certification Authority - G5
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----
VeriSign Universal Root Certification Authority
-----BEGIN CERTIFICATE-----
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-----END CERTIFICATE-----

70
proprietary/etc/cne/SwimConfig.xml Normal file
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@@ -0,0 +1,70 @@
<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2012-2013 Qualcomm Technologies, Inc. All Rights Reserved. Qualcomm Technologies Proprietary and Confidential.-->
<SwimConfig xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="SwimConfig.xsd">
<!--The version of SwimConfig file format-->
<Version>1.0</Version>
<ModulesConfiguration>
<WiFiManager>
<DefaultState>ON</DefaultState>
</WiFiManager>
<LinkPathManager>
<!-- The number of past days to retain path history-->
<PathHistory units="days">365</PathHistory>
</LinkPathManager>
<IFSelection>
<HysteresisTimer units="s">10</HysteresisTimer>
</IFSelection>
<InterfaceManager>
<T_BLACKLIST_BQE units="secs">900</T_BLACKLIST_BQE>
<T_BLACKLIST_ICD units="secs">900</T_BLACKLIST_ICD>
<T_BLACKLIST_CQE units="secs">900</T_BLACKLIST_CQE>
<BQE>
<T_passiveBQE units="s">5</T_passiveBQE>
</BQE>
</InterfaceManager>
<BitrateEstimationManager>
<RAT Type="WLAN">
<PollInterval units="ms">60</PollInterval>
<BurstDuration units="">2</BurstDuration>
<TopN units="">4</TopN>
</RAT>
<RAT Type="WWAN">
<PollInterval units="ms">70</PollInterval>
<BurstDuration units="">2</BurstDuration>
<TopN units="">4</TopN>
</RAT>
<ActiveBQE>
<URI>http://cne.qualcomm.com/cne/v1/bqe/traffic</URI>
<PostURI>https://cne-post.qualcomm.com/cne/v1/bqe/findings</PostURI>
<!-- Specifies delaying the active
probe relative to the start of BPS sampling If the delay value is
positive the active probe will be delayed and vice versa -->
<Delay units="ms">0</Delay>
<Default_mbw units="bps">4000000</Default_mbw>
<Default_mss units="bytes">1360</Default_mss>
<default_rtt units="ms">250</default_rtt>
<cong2slow>1</cong2slow>
<BQE_Past_Size>7</BQE_Past_Size>
<BQE_validity_short_timer units="s">10800</BQE_validity_short_timer>
<BQE_good_validity units="minutes">10080</BQE_good_validity>
<BQE_bad_validity units="minutes">1440</BQE_bad_validity>
</ActiveBQE>
</BitrateEstimationManager>
<ICD>
<ICD_Past_Size>7</ICD_Past_Size>
<ICD_validity_short_timer units="s">3600</ICD_validity_short_timer>
<ICD_Timeout units="s">5</ICD_Timeout>
<ICD_High>0.05</ICD_High>
<ICD_URI>https://cne-ssl.qualcomm.com/cne/v1/icd/wifi-data</ICD_URI>
<ICD_HTTP_URI>http://cne.qualcomm.com/cne/v1/icd</ICD_HTTP_URI>
</ICD>
<TQE>
<SOCK_ACTIVE_THRESH units="ms">3000</SOCK_ACTIVE_THRESH>
<TQ_THRESH>0.15</TQ_THRESH>
<TQE_COUNT_THRESH>2</TQE_COUNT_THRESH>
<TQE_OVERALL_COUNT_THRESH>2</TQE_OVERALL_COUNT_THRESH>
<alphaTQE>0.8</alphaTQE>
<T_BLACKLIST_TQE units="secs">3600</T_BLACKLIST_TQE>
</TQE>
</ModulesConfiguration>
</SwimConfig>

388
proprietary/etc/cne/andsfCne.xml Normal file
View File

@@ -0,0 +1,388 @@
<?xml version="1.0" encoding="utf-8"?>
<!--Copyright (c) 2012-2016 Qualcomm Technologies, Inc. All Rights Reserved. Qualcomm Technologies Proprietary and Confidential.-->
<AndsfPolicy>
<Man>Qualcomm</Man>
<Mod>FFA</Mod>
<Andsf>
<Version>5.0</Version>
<Name>Test 1</Name>
<!-- ISRP>
<ForFlowBased>
<IPFlow>
<AddressType>IPv4</AddressType>
<StartSourceIPAddress>192.0.2.0</StartSourceIPAddress>
<EndSourceIPAddress>192.0.2.255</EndSourceIPAddress>
<StartDestIPAddress>74.125.224.0</StartDestIPAddress>
<EndDestIPAddress>74.125.224.255</EndDestIPAddress>
<ProtocolType>6</ProtocolType>
<StartSourcePortNumber>1</StartSourcePortNumber>
<EndSourcePortNumber>65535</EndSourcePortNumber>
<StartDestPortNumber>1</StartDestPortNumber>
<EndDestPortNumber>65535</EndDestPortNumber>
<AppName>SomeAppName</AppName>
<Direction>0</Direction>
<QoS>0</QoS>
</IPFlow>
<RoutingCriteria>
<ValidityArea>
<_3GPP_Location>
<PLMN>ATT</PLMN>
<TAC>SAN DIEGO</TAC>
<LAC>SAN DIEGO</LAC>
<GERAN_CI>F</GERAN_CI>
<UTRAN_CI>1E</UTRAN_CI>
<EUTRA_CI>1D</EUTRA_CI>
</_3GPP_Location>
<_3GPP2_Location>
<_1x>
<SID>10</SID>
<NID>255</NID>
<Base_ID>255</Base_ID>
</_1x>
<HRPD>
<Sector_ID>12345678</Sector_ID>
<Netmask>5</Netmask>
</HRPD>
</_3GPP2_Location>
<WiMAX_Location>
<NAP-ID>NAP</NAP-ID>
<BS-ID>BS</BS-ID>
</WiMAX_Location>
<WLAN_Location>
<HESSID>QCOM</HESSID>
<SSID>Cerberus</SSID>
<BSSID>12345678</BSSID>
</WLAN_Location>
<Geo_Location>
<Circular>
<AnchorLatitude>0</AnchorLatitude>
<AnchorLongitude>0</AnchorLongitude>
<Radius>10</Radius>
</Circular>
</Geo_Location>
</ValidityArea>
<TimeOfDay>
<TimeStart>003000</TimeStart>
<TimeStop>235959</TimeStop>
<DateStart>19750201</DateStart>
<DateStop>20120228</DateStop>
</TimeOfDay>
<APN>IMS</APN>
</RoutingCriteria>
<RoutingRule>
<AccessTechnology>1</AccessTechnology>
<AccessNetworkPriority>1</AccessNetworkPriority>
</RoutingRule>
<RoutingRule>
<AccessTechnology>3</AccessTechnology>
<AccessId>Cerberus</AccessId>
<SecondaryAccessId>QCOM</SecondaryAccessId>
<AccessNetworkPriority>5</AccessNetworkPriority>
</RoutingRule>
<RulePriority>2</RulePriority>
</ForFlowBased>
<Roaming>0</Roaming>
<UpdatePolicy>0</UpdatePolicy>
<PLMN>ATT</PLMN>
</ISRP -->
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>false</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>
<!-- Suggested use of bqethreshold with specific apIds -->
<!-- BQE_Thresholds Id="1">
<apIds Type="SSID">
<apId>wifi-ap1</apId>
<apId>wifi-ap2</apId>
</apIds>
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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>
<!-- The below list is only for reference to enable/disable ICD per SSID basis
<ICD config-type="disabled">
<apIds Type="SSID">
<apId>wifi-ap1</apId>
<apId>wifi-ap2</apId>
</apIds>
</ICD>
OR
<ICD config-type="enabled">
<apIds Type="SSID">
<apId>wifi-ap3</apId>
<apId>wifi-ap4</apId>
</apIds>
</ICD>
-->
<TQE>
<!-- Default node for TQE_Thresholds element -->
<TQE_Thresholds Id ="128">
<!-- Disabling Broken Backhaul Detector module -->
<BBD_Disabled>false</BBD_Disabled>
<!-- Disabling Degraded Backhaul Detector module -->
<DBD_Disabled>false</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">20</TQETimeWindow>
<!-- Minimum fraction of sockets reporting BAD (among valid ones) to declare TQE FAIL -->
<RatioThresh>0.2</RatioThresh>
</TQE_Thresholds>
<!-- The next element is for reference only to show how to -->
<!-- set up TQE thresholds for a list of specific apids -->
<!--
<TQE_Thresholds Id ="1">
<apIds Type="SSID">
<apId>operatorSsid1</apId>
<apId>operatorSsid2</apId>
</apIds>
<BBD_Disabled>false</BBD_Disabled>
<DBD_Disabled>false</DBD_Disabled>
<DGIMThresh units="msecs">400</DGIMThresh>
<DBDTputThresh units="bps">1000000</DBDTputThresh>
<TQETimeWindow units="secs">20</TQETimeWindow>
<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">-86,-86</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">-91,-91</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">-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>0.36</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.05</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>19</RMP_CNT_THR>
<!-- Cutoff RX MCS index -->
<RX_MCS_THR>5</RX_MCS_THR>
<!-- Cutoff RX BW index -->
<RX_BW_THR>0</RX_BW_THR>
<!-- Threshold for TX MSDU drop -->
<TMD_THR>0.01</TMD_THR>
<!-- Minimum MSDU count to activate TX MSDU drop -->
<TMD_CNT_THR>1</TMD_CNT_THR>
<!-- Threshold for MPDU retry rate -->
<TMR_THR>0.82</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>6</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>9</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>3</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>0.25</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>10</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="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">-86,-86</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">-91,-91</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>0.5</MACStatsAveragingAlpha>
<!-- The threshold indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">3</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>0.25</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.2347</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.0489</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>0.22</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.2281</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.1314</MultiRetryMetricWeight2b>
</CQE_Thresholds>
<!-- The next element is for reference only to show how to set up CQE thresholds for a list of specific apids -->
<!--
<CQE_Thresholds Id ="1">
<apIds Type="SSID">
<apId>operatorSsid1</apId>
<apId>operatorSsid2</apId>
</apIds>
<RSSIAddThreshold units="dbm">-82</RSSIAddThreshold>
<RSSIDropThreshold units="dbm">-90</RSSIDropThreshold>
<RSSIModelThreshold units="dbm">-85</RSSIModelThreshold>
<RSSIAveragingInterval units="secs">4</RSSIAveragingInterval>
<RSSIMacTimerThreshold units="dbm">-93</RSSIMacTimerThreshold>
<CQETimer units="secs">2</CQETimer>
<MACHysteresisTimer units="secs">110</MACHysteresisTimer>
<MACStatsAveragingAlpha>0.1</MACStatsAveragingAlpha>
<FrameCntThreshold units="frames">25</FrameCntThreshold>
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<MACMibThreshold2a>0.25</MACMibThreshold2a>
<RetryMetricWeight2a>0.1061</RetryMetricWeight2a>
<MultiRetryMetricWeight2a>0.0984</MultiRetryMetricWeight2a>
<MACMibThreshold2b>0.45</MACMibThreshold2b>
<RetryMetricWeight2b>0.3072</RetryMetricWeight2b>
<MultiRetryMetricWeight2b>0.5156</MultiRetryMetricWeight2b>
</CQE_Thresholds>
-->
</CQE>
</Ext>
</Andsf>
<!-- The next element is for reference only to show how to config ANDSF
parameters for another version that may be supported on the device -->
<!--
<Andsf>
<Version>4.3</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>false</BQE_Disabled>
<ICD_Disabled>false</ICD_Disabled>
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
</BQE_Thresholds>
</InterfaceManager>
</WQE>
<CQE>
</CQE>
</Ext>
</Andsf>
-->
</AndsfPolicy>

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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

185
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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>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="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>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>

185
proprietary/etc/cne/wqeclient/ATT/ATT_profile4.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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">-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>

185
proprietary/etc/cne/wqeclient/ROW/ROW_profile1.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

185
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

185
proprietary/etc/cne/wqeclient/ROW/ROW_profile4.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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,-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">-75,-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>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="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,-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">-75,-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>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) 2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</Version>
<Name>Test 1</Name>
<Ext>
<WQE>
<InterfaceManager>
<BQE_Disabled>true</BQE_Disabled>
<ICD_Disabled>true</ICD_Disabled>
<!-- Default bqe lds where no apIds are specified. -->
<BQE_Thresholds Id="128">
<RadioTechnology Type="CDMA2000">
<Threshold units="bps">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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 ld 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 ld 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 ld 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>0.7</MACStatsAveragingAlpha>
<!-- Threshold for RX MPDU PER -->
<RMP_THR>0.17</RMP_THR>
<!-- Minimum MPDU count to activate RX MPDU PER -->
<RMP_CNT_THR>0</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>0.5</TMR_THR>
<!-- Minimum MPDU count to activate MPDU retry rate -->
<TMR_CNT_THR>8</TMR_CNT_THR>
<!-- Cutoff TX MCS index -->
<TX_MCS_THR>3</TX_MCS_THR>
<!-- Cutoff TX BW index -->
<TX_BW_THR>3</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>0.1</PERAM_THR>
<!-- Minimum MPDU count to activate PERAM -->
<PERAM_CNT_THR>6</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="Pronto">
<!-- Default node for CQE_Thresholds element -->
<CQE_Thresholds Id="128">
<!-- RSSI ld 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 ld 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 ld 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 ld 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>0.5</MACStatsAveragingAlpha>
<!-- The ld indicating the number of frames below which no valid CQE estimation can't be done -->
<FrameCntThreshold units="frames">3</FrameCntThreshold>
<!-- The ld indicating the number of last samples below which valid CQE estimation can't be done -->
<ColdStartThreshold units="frames">2</ColdStartThreshold>
<!-- The ld 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>0.25</MACMibThreshold2a>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<RetryMetricWeight2a>0.2347</RetryMetricWeight2a>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is greater than RSSIModelThreshold -->
<MultiRetryMetricWeight2a>0.0489</MultiRetryMetricWeight2a>
<!-- The ld 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>0.22</MACMibThreshold2b>
<!-- The weightage that given to retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<RetryMetricWeight2b>0.2281</RetryMetricWeight2b>
<!-- The weightage that given to multi-retry metric in computation of CQE -->
<!-- when average RSSI is less than or equal to RSSIModelThreshold -->
<MultiRetryMetricWeight2b>0.1314</MultiRetryMetricWeight2b>
</CQE_Thresholds>
</CQE>
</Ext>
</Andsf></AndsfPolicy>

185
proprietary/etc/cne/wqeclient/VZW/VZW_profile1.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

185
proprietary/etc/cne/wqeclient/VZW/VZW_profile2.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

185
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

185
proprietary/etc/cne/wqeclient/VZW/VZW_profile4.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>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>

185
proprietary/etc/cne/wqeclient/VZW/VZW_profile5.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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>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="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>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>

185
proprietary/etc/cne/wqeclient/VZW/VZW_profile6.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<AndsfPolicy><Andsf>
<Version>5.0</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">8888</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_0">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_A">
<Threshold units="bps">400000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EVDO_B">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EDGE">
<Threshold units="bps">100000</Threshold>
</RadioTechnology>
<RadioTechnology Type="UMTS">
<Threshold units="bps">200000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSDPA">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="GPRS">
<Threshold units="bps">50000</Threshold>
</RadioTechnology>
<RadioTechnology Type="LTE">
<Threshold units="bps">1000000</Threshold>
</RadioTechnology>
<RadioTechnology Type="EHRPD">
<Threshold units="bps">600000</Threshold>
</RadioTechnology>
<RadioTechnology Type="HSPAP">
<Threshold units="bps">600000</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="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>

682
proprietary/etc/data/dsi_config.xml Normal file
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<?xml version="1.0" encoding="UTF-8"?>
<!--
DSI Module configuration XML file
Copyright (c) 2013, 2015 Qualcomm Technologies, Inc. All Rights Reserved.
Qualcomm Technologies Proprietary and Confidential.
-->
<list name="dsi_config">
<!-- Configuration for legacy MSM targets -->
<listitem name="msm">
<data name="qos_enabled" type="int"> 0 </data>
<data name="rmnet_data_enabled" type="int"> 0 </data>
<data name="phys_net_dev" type="string"> rmnet0 </data>
<data name="single_qmux_channel_enabled" type="int"> 0 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet0 </data>
<data type="string"> rmnet1 </data>
<data type="string"> rmnet2 </data>
<data type="string"> rmnet3 </data>
<data type="string"> rmnet4 </data>
<data type="string"> rmnet5 </data>
<data type="string"> rmnet6 </data>
<data type="string"> rmnet7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet0 </data>
<data type="string"> rmnet1 </data>
<data type="string"> rmnet2 </data>
<data type="string"> rmnet3 </data>
<data type="string"> rmnet4 </data>
<data type="string"> rmnet5 </data>
<data type="string"> rmnet6 </data>
<data type="string"> rmnet7 </data>
</list>
</listitem>
<!-- Configuration for fusion4 -->
<listitem name="mdm">
<data name="qos_enabled" type="int"> 0 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_usb0 </data>
<data name="single_qmux_channel_enabled" type="int"> 0 </data>
<data name="single_qmux_channel_name" type="string"> rmnet_usb0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_usb0 </data>
<data type="string"> rmnet_usb1 </data>
<data type="string"> rmnet_usb2 </data>
<data type="string"> rmnet_usb3 </data>
<data type="string"> rmnet_usb4 </data>
<data type="string"> rmnet_usb5 </data>
<data type="string"> rmnet_usb6 </data>
<data type="string"> rmnet_usb7 </data>
</list>
</listitem>
<!-- Configuration for fusion4.5 PCIe -->
<listitem name="fusion4_5_pcie">
<data name="qos_enabled" type="int"> 0 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_mhi0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet_mhi0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8994 -->
<listitem name="msm8994">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for dpm_2_0 targets -->
<listitem name="dpm_2_0">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for Jolokia -->
<listitem name="jolokia">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8992 -->
<listitem name="msm8992">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for 9X40/9X45 LE (Tesla) -->
<listitem name="tesla">
<data name="qos_enabled" type="int"> 0 </data>
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8952/MSM8956 -->
<listitem name="tabasco">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8976 -->
<listitem name="Eldarion">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8953 -->
<listitem name="jacala">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8940 -->
<listitem name="feero6">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8920 -->
<listitem name="feerolite6">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for MSM8996 -->
<listitem name="msm8996">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for Fusion 8084 + 9x45 PCIe -->
<listitem name="fusion_8084_9x45_pcie">
<data name="qos_enabled" type="int"> 0 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_mhi0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet_mhi0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for 9X50/9X55 LE (Atlas) -->
<listitem name="atlas">
<data name="qos_enabled" type="int"> 0 </data>
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for Fusion 8096 + 9x55 PCIe -->
<listitem name="fusion_8096_9x55_pcie">
<data name="qos_enabled" type="int"> 0 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_mhi0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet_mhi0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for lykan -->
<listitem name="lykan">
<data name="qos_enabled" type="int"> 0 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for feero -->
<listitem name="feero">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
<!-- Configuration for Cobalt -->
<listitem name="cobalt">
<data name="qos_enabled" type="int"> 1 </data>
<data name="rmnet_data_enabled" type="int"> 1 </data>
<data name="phys_net_dev" type="string"> rmnet_ipa0 </data>
<data name="single_qmux_channel_enabled" type="int"> 1 </data>
<data name="single_qmux_channel_name" type="string"> rmnet0 </data>
<data name="num_dsi_handles" type="int"> 8 </data>
<list name="device_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
<list name="control_port_names">
<data type="string"> rmnet_data0 </data>
<data type="string"> rmnet_data1 </data>
<data type="string"> rmnet_data2 </data>
<data type="string"> rmnet_data3 </data>
<data type="string"> rmnet_data4 </data>
<data type="string"> rmnet_data5 </data>
<data type="string"> rmnet_data6 </data>
<data type="string"> rmnet_data7 </data>
</list>
</listitem>
</list>

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# Lines with a '#' in the first column are ignored.
# Empty lines will also be ignored.
#
# This file should contain the CRC32 (as computed by motosh) of all firmware
# versions released through the PlayStore. The assumption is that any features
# or fixes present in these firmware versions have already been incorporated
# into the build containing this blacklist, and therefore should be deleted
# by motosh if encountered.
#
# The format is 8 ASCII-HEX characters, with no leading "0x", one per line.
# For example: abcdef57
#
# For easier tracking, please include a comment above each entry containing
# the version string of the firmware.

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proprietary/etc/firmware/wlan/prima/WCNSS_qcom_wlan_nv.bin Normal file
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proprietary/etc/firmware/wlan/prima/WCNSS_wlan_dictionary.dat Normal file
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/*------------------------------------------------------------------------------
//DO NOT EDIT
BEGIN
HAL_PHY_RATE_11AC_DUP_12_MBPS gl
HAL_PHY_RATE_11AC_DUP_18_MBPS gm
HAL_PHY_RATE_11AC_DUP_24_MBPS gn
HAL_PHY_RATE_11AC_DUP_36_MBPS go
HAL_PHY_RATE_11AC_DUP_48_MBPS gp
HAL_PHY_RATE_11AC_DUP_54_MBPS gq
HAL_PHY_RATE_11AC_DUP_6_MBPS gj
HAL_PHY_RATE_11AC_DUP_9_MBPS gk
HAL_PHY_RATE_11A_12_MBPS e8
HAL_PHY_RATE_11A_18_MBPS e9
HAL_PHY_RATE_11A_24_MBPS fa
HAL_PHY_RATE_11A_36_MBPS fb
HAL_PHY_RATE_11A_48_MBPS fc
HAL_PHY_RATE_11A_54_MBPS fd
HAL_PHY_RATE_11A_6_MBPS e6
HAL_PHY_RATE_11A_9_MBPS e7
HAL_PHY_RATE_11A_DUP_12_MBPS fg
HAL_PHY_RATE_11A_DUP_18_MBPS fh
HAL_PHY_RATE_11A_DUP_24_MBPS fi
HAL_PHY_RATE_11A_DUP_36_MBPS fj
HAL_PHY_RATE_11A_DUP_48_MBPS fk
HAL_PHY_RATE_11A_DUP_54_MBPS fl
HAL_PHY_RATE_11A_DUP_6_MBPS fe
HAL_PHY_RATE_11A_DUP_9_MBPS ff
HAL_PHY_RATE_11B_LONG_11_MBPS e2
HAL_PHY_RATE_11B_LONG_1_MBPS ez
HAL_PHY_RATE_11B_LONG_2_MBPS e0
HAL_PHY_RATE_11B_LONG_5_5_MBPS e1
HAL_PHY_RATE_11B_SHORT_11_MBPS e5
HAL_PHY_RATE_11B_SHORT_2_MBPS e3
HAL_PHY_RATE_11B_SHORT_5_5_MBPS e4
HAL_PHY_RATE_MCS_1NSS_13_MBPS fn
HAL_PHY_RATE_MCS_1NSS_19_5_MBPS fo
HAL_PHY_RATE_MCS_1NSS_26_MBPS fp
HAL_PHY_RATE_MCS_1NSS_39_MBPS fq
HAL_PHY_RATE_MCS_1NSS_52_MBPS fr
HAL_PHY_RATE_MCS_1NSS_58_5_MBPS fs
HAL_PHY_RATE_MCS_1NSS_65_MBPS ft
HAL_PHY_RATE_MCS_1NSS_6_5_MBPS fm
HAL_PHY_RATE_MCS_1NSS_CB_108_MBPS f7
HAL_PHY_RATE_MCS_1NSS_CB_121_5_MBPS f8
HAL_PHY_RATE_MCS_1NSS_CB_135_MBPS f9
HAL_PHY_RATE_MCS_1NSS_CB_13_5_MBPS f2
HAL_PHY_RATE_MCS_1NSS_CB_27_MBPS f3
HAL_PHY_RATE_MCS_1NSS_CB_40_5_MBPS f4
HAL_PHY_RATE_MCS_1NSS_CB_54_MBPS f5
HAL_PHY_RATE_MCS_1NSS_CB_81_MBPS f6
HAL_PHY_RATE_MCS_1NSS_MM_SG_14_4_MBPS fv
HAL_PHY_RATE_MCS_1NSS_MM_SG_21_7_MBPS fw
HAL_PHY_RATE_MCS_1NSS_MM_SG_28_9_MBPS fx
HAL_PHY_RATE_MCS_1NSS_MM_SG_43_3_MBPS fy
HAL_PHY_RATE_MCS_1NSS_MM_SG_57_8_MBPS fz
HAL_PHY_RATE_MCS_1NSS_MM_SG_65_MBPS f0
HAL_PHY_RATE_MCS_1NSS_MM_SG_72_2_MBPS f1
HAL_PHY_RATE_MCS_1NSS_MM_SG_7_2_MBPS fu
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_120_MBPS gf
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_135_MBPS gg
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_150_MBPS gh
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_15_MBPS ga
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_30_MBPS gb
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_45_MBPS gc
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_60_MBPS gd
HAL_PHY_RATE_MCS_1NSS_MM_SG_CB_90_MBPS ge
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_13_MBPS gs
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_19_5_MBPS gt
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_26_MBPS gu
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_39_MBPS gv
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_52_MBPS gw
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_58_5_MBPS gx
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_65_MBPS gy
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_6_5_MBPS gr
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_78_MBPS gz
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_NGI_86_5_MBPS j8
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_14_4_MBPS g1
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_21_6_MBPS g2
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_28_8_MBPS g3
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_43_3_MBPS g4
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_57_7_MBPS g5
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_65_MBPS g6
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_72_2_MBPS g7
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_7_2_MBPS g0
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_86_6_MBPS g8
HAL_PHY_RATE_VHT_20MHZ_MCS_1NSS_SGI_96_1_MBPS j9
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_108_MBPS he
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_121_5_MBPS hf
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_135_MBPS hg
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_13_5_MBPS g9
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_162_MBPS hh
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_180_MBPS hi
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_27_MBPS ha
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_40_5_MBPS hb
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_54_MBPS hc
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_NGI_81_MBPS hd
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_120_MBPS ho
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_135_MBPS hp
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_150_MBPS hq
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_15_MBPS hj
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_180_MBPS hr
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_200_MBPS hs
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_30_MBPS hk
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_45_MBPS hl
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_60_MBPS hm
HAL_PHY_RATE_VHT_40MHZ_MCS_1NSS_CB_SGI_90_MBPS hn
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_117_MBPS hw
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_175_5_MBPS hx
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_234_MBPS hy
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_263_3_MBPS hz
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_292_5_MBPS h0
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_29_3_MBPS ht
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_351_MBPS h1
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_390_MBPS h2
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_58_5_MBPS hu
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_NGI_87_8_MBPS hv
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_130_MBPS h6
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_195_MBPS h7
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_260_MBPS h8
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_292_5_MBPS h9
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_325_MBPS ia
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_32_5_MBPS h3
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_390_MBPS ib
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_433_3_MBPS ic
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_65_MBPS h4
HAL_PHY_RATE_VHT_80MHZ_MCS_1NSS_CB_SGI_97_5_MBPS h5
MAX_2_4GHZ_CHANNEL dt
MIN_2_4GHZ_CHANNEL ds
MODE_802_11AG d7
MODE_802_11B d6
MODE_802_11N d8
NUM_2_4GHZ_CHANNELS du
NUM_802_11_MODES d9
NUM_HAL_PHY_RATES ie
NUM_NV_FIELDS ak
NUM_NV_TABLE_IDS jl
NUM_PHY_MAX_TX_CHAINS a2
NUM_PRODUCT_BANDS ao
NUM_REG_DOMAINS bc
NUM_RF_CHANNELS dr
NUM_RF_SUBBANDS bi
NV_COMMON_COUPLER_TYPE ah
NV_COMMON_MAC_ADDR ae
NV_COMMON_MFG_SERIAL_NUMBER af
NV_COMMON_NUM_OF_RX_CHAINS ad
NV_COMMON_NUM_OF_TX_CHAINS ac
NV_COMMON_NV_VERSION ai
NV_COMMON_PRODUCT_BANDS ab
NV_COMMON_PRODUCT_ID aa
NV_COMMON_RESERVED aj
NV_COMMON_WLAN_NV_REV_ID ag
NV_FIELDS_IMAGE i6
NV_TABLE_ANTENNA_PATH_LOSS jg
NV_TABLE_CAL_MEMORY je
NV_TABLE_DEFAULT_COUNTRY i9
NV_TABLE_FW_CONFIG jf
NV_TABLE_HW_CAL_VALUES jc
NV_TABLE_OFDM_CMD_PWR_OFFSET ji
NV_TABLE_PACKET_TYPE_POWER_LIMITS jh
NV_TABLE_RATE_POWER_SETTINGS i7
NV_TABLE_REGULATORY_DOMAINS i8
NV_TABLE_RSSI_CHANNEL_OFFSETS jd
NV_TABLE_TPC_PDADC_OFFSETS jb
NV_TABLE_TPC_POWER_TABLE ja
NV_TABLE_TX_BB_FILTER_MODE jj
NV_TABLE_VIRTUAL_RATE jk
PHY_TX_CHAIN_0 a1
PRODUCT_BAND_11_A an
PRODUCT_BAND_11_A_B_G am
PRODUCT_BAND_11_B_G al
REG_DOMAIN_APAC a8
REG_DOMAIN_ETSI a4
REG_DOMAIN_FCC a3
REG_DOMAIN_HI_5GHZ ba
REG_DOMAIN_JAPAN a5
REG_DOMAIN_KOREA a9
REG_DOMAIN_NO_5GHZ bb
REG_DOMAIN_N_AMER_EXC_FCC a7
REG_DOMAIN_WORLD a6
RF_CHAN_1 bj
RF_CHAN_10 bs
RF_CHAN_100 cc
RF_CHAN_104 cd
RF_CHAN_108 ce
RF_CHAN_10_1 kn
RF_CHAN_11 bt
RF_CHAN_112 cf
RF_CHAN_116 cg
RF_CHAN_11_1 ko
RF_CHAN_12 bu
RF_CHAN_120 ch
RF_CHAN_124 ci
RF_CHAN_128 cj
RF_CHAN_12_1 kp
RF_CHAN_13 bv
RF_CHAN_132 ck
RF_CHAN_136 cl
RF_CHAN_13_1 kq
RF_CHAN_14 bw
RF_CHAN_140 cm
RF_CHAN_144 kt
RF_CHAN_149 cn
RF_CHAN_14_1 kr
RF_CHAN_153 co
RF_CHAN_157 cp
RF_CHAN_161 cq
RF_CHAN_165 cr
RF_CHAN_1_1 ke
RF_CHAN_2 bk
RF_CHAN_208 b1
RF_CHAN_212 b2
RF_CHAN_216 b3
RF_CHAN_240 bx
RF_CHAN_244 by
RF_CHAN_248 bz
RF_CHAN_252 b0
RF_CHAN_2_1 kf
RF_CHAN_3 bl
RF_CHAN_36 b4
RF_CHAN_3_1 kg
RF_CHAN_4 bm
RF_CHAN_40 b5
RF_CHAN_44 b6
RF_CHAN_48 b7
RF_CHAN_4_1 kh
RF_CHAN_5 bn
RF_CHAN_52 b8
RF_CHAN_56 b9
RF_CHAN_5_1 ki
RF_CHAN_6 bo
RF_CHAN_60 ca
RF_CHAN_64 cb
RF_CHAN_6_1 kj
RF_CHAN_7 bp
RF_CHAN_7_1 kk
RF_CHAN_8 bq
RF_CHAN_8_1 kl
RF_CHAN_9 br
RF_CHAN_9_1 km
RF_CHAN_BOND_10 cz
RF_CHAN_BOND_102 dd
RF_CHAN_BOND_106 de
RF_CHAN_BOND_11 c0
RF_CHAN_BOND_110 df
RF_CHAN_BOND_114 dg
RF_CHAN_BOND_118 dh
RF_CHAN_BOND_122 di
RF_CHAN_BOND_126 dj
RF_CHAN_BOND_130 dk
RF_CHAN_BOND_134 dl
RF_CHAN_BOND_138 dm
RF_CHAN_BOND_142 ku
RF_CHAN_BOND_151 dn
RF_CHAN_BOND_155 do
RF_CHAN_BOND_159 dp
RF_CHAN_BOND_163 dq
RF_CHAN_BOND_210 c4
RF_CHAN_BOND_214 c5
RF_CHAN_BOND_242 c1
RF_CHAN_BOND_246 c2
RF_CHAN_BOND_250 c3
RF_CHAN_BOND_3 cs
RF_CHAN_BOND_38 c6
RF_CHAN_BOND_4 ct
RF_CHAN_BOND_42 c7
RF_CHAN_BOND_46 c8
RF_CHAN_BOND_5 cu
RF_CHAN_BOND_50 c9
RF_CHAN_BOND_54 da
RF_CHAN_BOND_58 db
RF_CHAN_BOND_6 cv
RF_CHAN_BOND_62 dc
RF_CHAN_BOND_7 cw
RF_CHAN_BOND_8 cx
RF_CHAN_BOND_9 cy
RF_SUBBAND_2_4_GHZ bd
RF_SUBBAND_4_9_GHZ bh
RF_SUBBAND_5_HIGH_GHZ bg
RF_SUBBAND_5_LOW_GHZ be
RF_SUBBAND_5_MID_GHZ bf
adjustedPwrDet ew
antennaGain dy
antennaPathLoss jv
bRatePowerOffset dz
bRssiOffset d1
band d5
calData er
chanId i4
channelNum d4
channels dx
configItem1 ik
configItem2 i1
configItem3 i2
configItem4 i3
countryCode ig
couplerType az
custom_tcxo_reg8 ef
custom_tcxo_reg9 eg
defaultCountryTable jo
e80211Modes j6
eHalPhyRates j7
ePhyTxChains j1
eRegDomainId j2
eRfChannels j4
eRfChannels_2_4GHz j5
eRfSubBand j3
else kv
empirical ex
enableDPD2G iv
enableDPD5G iw
enabled dv
endif id
extPaCtrl0Polarity in
extPaCtrl1Polarity io
fields jz
fwConfig js
gnRatePowerOffset d0
gnRssiOffset d2
hwCalValues ju
hwParam10 eo
hwParam11 ep
hwParam2 ee
hwParam3 eh
hwParam4 ei
hwParam5 ej
hwParam6 ek
hwParam7 el
hwParam8 em
hwParam9 en
ifdef gi
latest kw
macAddr au
macAddr1 ks
macAddr2 av
macAddr3 aw
macAddr4 ax
mfgSN ay
numOfRxChains at
numOfTxChains as
nvVersion a0
nv_TxBBFSel9MHz ed
ofdmCmdPwrOffset jx
ofdmPwrOffset et
pdadcSelect2G ix
pdadcSelect5GHigh i0
pdadcSelect5GLow iy
pdadcSelect5GMid iz
pktTypePwrLimits jw
plutCharacterized jp
plutPdadcOffset jq
productBands aq
productId ap
psSlpTimeOvrHd2G ea
psSlpTimeOvrHd5G eb
psSlpTimeOvrHdxLNA5G ec
pwr i5
pwrDetAdc ev
pwrLimit dw
pwrOptimum jm
pwrOptimum_virtualRate jr
pwrSampled ey
regDomain if
regDomains jn
rssiChanOffsets jt
rsvd eu
skuID ih
tRateGroupPwr kb
tRateGroupPwrVR kd
tTpcCaldPowerTable ka
tTpcPowerTable kc
tables j0
targetFreq d3
tpcMode2G ii
tpcMode5G ij
txFirFilterMode es
txbbFilterMode jy
validBmap eq
wlanNvRevId ar
xCoupler2G ir
xCoupler5G is
xLNA2G ip
xLNA5G iq
xPA2G il
xPA5G im
xPdet2G it
xPdet5G iu
END
------------------------------------------------------------------------------*/

10
proprietary/etc/permissions/ConnectivityExt.xml Normal file
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@@ -0,0 +1,10 @@
<?xml version="1.0" encoding="utf-8"?>
<!--
Copyright (c) 2015 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.
-->
<permissions>
<library name="ConnectivityExt"
file="/system/framework/ConnectivityExt.jar"/>
</permissions>

6
proprietary/etc/permissions/cneapiclient.xml Normal file
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@@ -0,0 +1,6 @@
<?xml version="1.0" encoding="utf-8"?>
<!--Copyright (c) 2011-2013 Qualcomm Technologies, Inc. All Rights Reserved. Qualcomm Technologies Proprietary and Confidential.-->
<permissions>
<library name="com.quicinc.cneapiclient"
file="/system/framework/cneapiclient.jar"/>
</permissions>

5
proprietary/etc/permissions/com.motorola.cameraone.xml Executable file
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@@ -0,0 +1,5 @@
<?xml version="1.0" encoding="utf-8" ?>
<permissions>
<feature name="com.motorola.cameraone" />
</permissions>

11
proprietary/etc/permissions/com.qti.dpmframework.xml Normal file
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@@ -0,0 +1,11 @@
<?xml version="1.0" encoding="utf-8"?>
<!--Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.-->
<permissions>
<library name="com.qti.dpmframework"
file="/system/framework/com.qti.dpmframework.jar"/>
<permission name="com.qualcomm.permission.READPROC" >
<group gid="readproc" />
</permission>
</permissions>

15
proprietary/etc/permissions/com.qti.location.sdk.xml Normal file
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@@ -0,0 +1,15 @@
<?xml version="1.0" encoding="utf-8"?>
<!---/******************************************************************************
* @file com.qti.location.sdk.xml
* @brief configuration file for permission mapping and library publishing
* Copyright (c) 2015 Qualcomm Technologies, Inc.
* All Rights Reserved.
* Confidential and Proprietary - Qualcomm Technologies, Inc.
* *****************************************************************************-->
<permissions>
<library name="com.qti.location.sdk" file="/system/framework/com.qti.location.sdk.jar"/>
</permissions>

17
proprietary/etc/permissions/com.qti.snapdragon.sdk.display.xml Normal file
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@@ -0,0 +1,17 @@
<?xml version="1.0" encoding="utf-8"?>
<!--
/* ====================================================================
* Copyright (c) 2014 Qualcomm Technologies, Inc. All Rights Reserved.
* Qualcomm Technologies Proprietary and Confidential.
* =====================================================================
* @file com.qti.snapdragon.sdk.display.xml
*
*/
-->
<permissions>
<library
name="com.qti.snapdragon.sdk.display"
file="/system/framework/com.qti.snapdragon.sdk.display.jar" />
</permissions>

16
proprietary/etc/permissions/com.qualcomm.location.vzw_library.xml Normal file
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@@ -0,0 +1,16 @@
<?xml version="1.0" encoding="utf-8"?>
<!---/******************************************************************************
* @file com.qualcomm.location.vzw_library.xml
* @brief configuration file for permission mapping and library publishing
* Coppyright (C) 2010 Qualcomm Technologies, Inc.
* All Rights Reserved. Qualcomm Technologies Proprietary and Confidential.
* *****************************************************************************-->
<permissions>
<library name="com.qualcomm.location.vzw_library" file="/system/framework/com.qualcomm.location.vzw_library.jar"/>
</permissions>

23
proprietary/etc/permissions/com.qualcomm.location.xml Normal file
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@@ -0,0 +1,23 @@
<?xml version="1.0" encoding="utf-8"?>
<!---******************************************************************************
* @file com.qualcomm.location.xml
* @brief configuration file for permission mapping
* Copyright (c) 2012 Qualcomm Atheros, Inc.
* All Rights Reserved.
* Qualcomm Atheros Confidential and Proprietary.
* *****************************************************************************-->
<permissions>
<permission name="com.qualcomm.permission.IZAT" >
<group gid="gps" />
<group gid="system" />
<group gid="diag" />
<group gid="oem_2950" />
<group gid="sdcard_rw" />
<group gid="media_rw" />
<group gid="wifi" />
</permission>
</permissions>

8
proprietary/etc/permissions/com.quicinc.cne.xml Normal file
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@@ -0,0 +1,8 @@
<!--
Copyright (c) 2015 Qualcomm Technologies, Inc.
All Rights Reserved.
Qualcomm Technologies Proprietary and Confidential.
-->
<permissions>
<library name="com.quicinc.cne" file="/system/framework/com.quicinc.cne.jar"/>
</permissions>

5
proprietary/etc/permissions/embms.xml Normal file
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@@ -0,0 +1,5 @@
<?xml version="1.0" encoding="utf-8"?>
<permissions>
<library name="com.qualcomm.embmslibrary"
file="/system/framework/embmslibrary.jar"/>
</permissions>

5
proprietary/etc/permissions/ims.xml Normal file
View File

@@ -0,0 +1,5 @@
<?xml version="1.0" encoding="utf-8"?>
<permissions>
<library name="org.codeaurora.imslibrary"
file="/system/framework/imslibrary.jar"/>
</permissions>

9
proprietary/etc/permissions/imscm.xml Normal file
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@@ -0,0 +1,9 @@
<?xml version="1.0" encoding="utf-8"?>
<!--
Copyright (c) 2014 Qualcomm Technologies, Inc. All Rights Reserved.
Qualcomm Technologies Proprietary and Confidential.
-->
<permissions>
<library name="com.qti.ims.connectionmanager.imscmlibrary"
file="/system/framework/imscmlibrary.jar"/>
</permissions>

10
proprietary/etc/permissions/izat.xt.srv.xml Normal file
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@@ -0,0 +1,10 @@
<?xml version="1.0" encoding="utf-8"?>
<!--
* Copyright (c) 2015-2016 Qualcomm Technologies, Inc.
* All Rights Reserved.
* Confidential and Proprietary - Qualcomm Technologies, Inc.
-->
<permissions>
<library name="izat.xt.srv" file="/system/framework/izat.xt.srv.jar"/>
</permissions>

5
proprietary/etc/permissions/qcrilhook.xml Normal file
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@@ -0,0 +1,5 @@
<?xml version="1.0" encoding="utf-8"?>
<permissions>
<library name="com.qualcomm.qcrilhook"
file="/system/framework/qcrilhook.jar"/>
</permissions>

10
proprietary/etc/permissions/qti-vzw-ims-internal.xml Normal file
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@@ -0,0 +1,10 @@
<?xml version="1.0" encoding="utf-8"?>
<!---
Copyright (c) 2016 Qualcomm Technologies, Inc.
All Rights Reserved.
Confidential and Proprietary - Qualcomm Technologies, Inc.
-->
<permissions>
<library name="com.qti.vzw.ims.internal"
file="/system/vendor/framework/qti-vzw-ims-internal.jar"/>
</permissions>

14
proprietary/etc/permissions/qti_permissions.xml Normal file
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@@ -0,0 +1,14 @@
<?xml version="1.0" encoding="utf-8" ?>
<!--
Copyright (c) 2016 Qualcomm Technologies, Inc. All Rights Reserved.
Qualcomm Technologies Proprietary and Confidential.
-->
<permissions>
<permission name="com.qti.permission.DIAG">
<group gid="oem_2950" />
</permission>
<permission name="com.qti.permission.AUDIO">
<group gid="audio" />
</permission>
</permissions>

21
proprietary/etc/xtra_root_cert.pem Normal file
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@@ -0,0 +1,21 @@
-----BEGIN CERTIFICATE-----
MIIDeTCCAmGgAwIBAgIJAKnFNzqHIGkmMA0GCSqGSIb3DQEBBQUAMGkxFzAVBgNV
BAoTDlFVQUxDT01NLCBJbmMuMScwJQYDVQQLEx5DcnlwdG9ncmFwaGljIE9wZXJh
dGlvbnMgR3JvdXAxJTAjBgNVBAMTHFhUUkEgQWRtbmluaXN0cmF0aXZlIFJvb3Qg
djEwHhcNMTEwMzI0MjAwMzQ3WhcNMjYwMzIwMjAwMzQ3WjBpMRcwFQYDVQQKEw5R
VUFMQ09NTSwgSW5jLjEnMCUGA1UECxMeQ3J5cHRvZ3JhcGhpYyBPcGVyYXRpb25z
IEdyb3VwMSUwIwYDVQQDExxYVFJBIEFkbW5pbmlzdHJhdGl2ZSBSb290IHYxMIIB
IDANBgkqhkiG9w0BAQEFAAOCAQ0AMIIBCAKCAQEAp97dbUn5CzvikZSpHOVkevx7
NRAE5OPlyU3rbO1xCHextKpgpRCmGEXmpifN33Q4atSsf0QIoPiq9WtbYZsMU8DZ
YrLuSFH6P9O9fVyqM0sZZpn97frLD7T+/n7r+PqSdoRJnrTD1kaP1iVJuZSaW+sc
x8TIzCJDMf6qWP0zhizqIdFhb4EtgBkRkExUxsQ0xEmBETrbydSEo90be6wLkRgp
AtU208ZKCGrGcNKCNSp9TDkwLn0V408HkQ+iNw4xWpNURWGEoN3h8hOz+O3M6L2S
RxH21P4CnLj0Ag7FqA35JdUtoeSt8UUJnv9kgBh3X0r9oc20+uwlZTOuZW6SkQIB
A6MmMCQwEgYDVR0TAQH/BAgwBgEB/wIBATAOBgNVHQ8BAf8EBAMCAYYwDQYJKoZI
hvcNAQEFBQADggEBADkdmsCBpZG44cJafBzcp7zIM57/fme8LuxbF0f50CHH2FHR
P+HOLZARqHBFID+D8+hIDu3FQrtZg/SRscO+dvGjdILcp77S0Qne1K9TLu16aMBg
wgWmr4mIRG/upqF93qVBzO6ffGR6uHAE7XtP/sRcLG34TmIgTtXEWhDSJHvcjlcf
kF7+kMLHUrRcj20MTggKkWkDkCB0jyG9rZB9s127mEZjEMkEeoXi33NvV8qO2ChE
yKPPlpKQT7tXghS0WfK73fSNSmWaTmUlL8N9Rb50uA0rZdarNDYI7jqJSlGFgE2+
usHoeIDFQK2C6Zha3diWlbs8F3foMXKIfFVhvxo=
-----END CERTIFICATE-----